Contents

Mitsubishi Electric MES3 255C EN User's Manual PDF

1 of 525
1 of 525

Summary of Content for Mitsubishi Electric MES3 255C EN User's Manual PDF

Energy Saving Data Collecting Server EcoWebServerIII MODEL

MES3-255C-EN/MES3-255C-DM-EN Users Manual (Setting)

Before operating the instrument, you should first read thoroughly this operation manual for safe operation and optimized performance of the product. Deliver this users manual to the end user.

i

Table of Contents 1. Preface ................................................................................................................................................... 1-1

1.1. General notes ...................................................................................................................................... 1-1 1.1.1. Warranty ......................................................................................................................................... 1-1 1.1.2. Trademarks .................................................................................................................................... 1-1

1.2. Safety precautions ............................................................................................................................... 1-2 1.2.1. Storage ........................................................................................................................................... 1-2 1.2.2. Other notes ..................................................................................................................................... 1-2

1.3. Precautions for use ............................................................................................................................. 1-2 1.4. Main features and specifications ......................................................................................................... 1-4

1.4.1. Main features of the EcoWebServerIII setting software ................................................................. 1-4 1.4.2. System configuration ...................................................................................................................... 1-4 1.4.3. Specifications ................................................................................................................................. 1-6

2. Before use ............................................................................................................................................. 2-1 2.1. Recommended system environment ................................................................................................... 2-1 2.2. Glossary .............................................................................................................................................. 2-2 2.3. Installing the software .......................................................................................................................... 2-4 2.4. Uninstalling the software ..................................................................................................................... 2-7 2.5. Upgrading the software ....................................................................................................................... 2-9

3. Flow of settings .................................................................................................................................... 3-1 3.1. Procedures for initial settings (Common) ............................................................................................ 3-1 3.2. Setting procedures for starting operation (without demand control function) ..................................... 3-9 3.3. Setting procedures for starting operation (with demand control function) ........................................ 3-10

4. Operating procedures .......................................................................................................................... 4-1 4.1. Starting/exiting the setting software .................................................................................................... 4-3 4.2. Project management ........................................................................................................................... 4-5

4.2.1. Registering a new project ............................................................................................................... 4-5 4.2.2. Opening a project ........................................................................................................................... 4-7 4.2.3. Deleting a project ........................................................................................................................... 4-8 4.2.4. Modifying the project information ................................................................................................... 4-9 4.2.5. Copying a project ......................................................................................................................... 4-10 4.2.6. Backing up projects ....................................................................................................................... 4-11 4.2.7. Restoring projects ........................................................................................................................ 4-14

4.3. Demand control and Control Section Specifications (only with demand control function) ................ 4-17 4.3.1. Demand measuring function ........................................................................................................ 4-17 4.3.2. Demand control and alarm function ............................................................................................. 4-27 4.3.3. Demand Control Function ............................................................................................................ 4-35 4.3.4. Seasonal Time Zone Control Function ......................................................................................... 4-55

4.4. Configure the demand control setting ............................................................................................... 4-56 4.4.1. Normal demand setting (setting of the instrument information) ................................................... 4-56 4.4.2. Demand alarm and control setting ............................................................................................... 4-61 4.4.3. Demand calendar settingOnly when carrying out management based on calendar setting 4-68

4.5. Measuring Data Collection Settings [Normal Settings] ..................................................................... 4-76 4.5.1. CC-Link terminal registration ........................................................................................................ 4-76 4.5.2. MODBUS terminal registration ..................................................................................................... 4-86 4.5.3. PLC/GOT registration ................................................................................................................... 4-95 4.5.4. Measuring point registration ....................................................................................................... 4-102 4.5.5. Measuring point group registration............................................................................................. 4-120

4.6. Measuring data collection setting [Advanced settings] ................................................................... 4-125 4.6.1. Virtual measuring point registration ............................................................................................ 4-125 4.6.2. Specific consumption measuring point registration .................................................................... 4-134

ii

4.6.3. Equipment registration ............................................................................................................... 4-142 4.6.4. Equipment group registration ..................................................................................................... 4-150

4.7. Project operation ............................................................................................................................. 4-157 4.7.1. Project saving ............................................................................................................................. 4-157 4.7.2. Project writing ............................................................................................................................. 4-158 4.7.3. Project reading ........................................................................................................................... 4-163 4.7.4. Confirmation of project ............................................................................................................... 4-167

4.8. Options ............................................................................................................................................ 4-171 4.8.1. Time Settings ............................................................................................................................. 4-172 4.8.2. IP address settings ..................................................................................................................... 4-176 4.8.3. Auto time settings ....................................................................................................................... 4-191 4.8.4. Logging date/time settings ......................................................................................................... 4-193 4.8.5. Setting of the login IDs and passwords ...................................................................................... 4-195 4.8.6. Version up of Main Program ....................................................................................................... 4-204

4.9. Setting external device coordination ............................................................................................... 4-207 4.9.1. Data output settings ................................................................................................................... 4-208 4.9.2. Data output settings (demand control) (Only when demand control function is provided) ........ 4-218 4.9.3. Contact output settings .............................................................................................................. 4-223 4.9.4. SMTP server settings ................................................................................................................. 4-233 4.9.5. Demand notification (Only with models provided with demand control function) ...................... 4-237 4.9.6. EcoWebServerIII error notification settings ................................................................................ 4-241 4.9.7. Regular report registration ......................................................................................................... 4-249 4.9.8. Upper and lower limit monitoring notification registration .......................................................... 4-255 4.9.9. Operating status monitoring notification registration .................................................................. 4-262 4.9.10. Specific consumption target value monitoring notification registration ...................................... 4-269 4.9.11. Energy planning value monitoring notification registration ........................................................ 4-276 4.9.12. FTP server setting ...................................................................................................................... 4-283 4.9.13. Transfer enable/disable, transfer destination folder setting ....................................................... 4-287 4.9.14. Energy saving level monitor setting (Only for models with demand control function) ............... 4-290 4.9.15. Air-conditioner connection settings (Only for models with demand control function) ................ 4-293 4.9.16. Demand setting (PLC) (Only for models with the demand control function) .............................. 4-296

4.10. Test and Adjustment Function ......................................................................................................... 4-302 4.10.1. Terminal connection check ......................................................................................................... 4-304 4.10.2. Contact output operation check ................................................................................................. 4-308 4.10.3. Demand notification (only models with demand control function) .............................................. 4-313 4.10.4. Error, regular notification check .................................................................................................. 4-317 4.10.5. Measuring point data monitoring report check ........................................................................... 4-321 4.10.6. File automatic transfer check ..................................................................................................... 4-325 4.10.7. Air-controller connection check (only models with demand control function) ............................ 4-329 4.10.8. Integrated count value settings (only models with demand control function) ............................ 4-331 4.10.9. Data collection ............................................................................................................................ 4-335 4.10.10. Deleting data ........................................................................................................................ 4-338 4.10.11. EcoWebServerIII reset ......................................................................................................... 4-341

5. Appendix ............................................................................................................................................... 5-1 5.1. List of support terminals(CC-Link terminal) ......................................................................................... 5-1 5.2. List of model information (CC-Link terminal) ....................................................................................... 5-3

5.2.1. EMU4-BD1-MB ............................................................................................................................... 5-3 5.2.2. EMU4-HD1-MB .............................................................................................................................. 5-3 5.2.3. EMU4-FD1-MB ............................................................................................................................... 5-3 5.2.4. EMU4-BM1-MB .............................................................................................................................. 5-4 5.2.5. EMU4-HM1-MB .............................................................................................................................. 5-4 5.2.6. EMU4-LG1-MB ............................................................................................................................... 5-4 5.2.7. EMU4-A2 ........................................................................................................................................ 5-5

iii

5.2.8. EMU4-VA2 ...................................................................................................................................... 5-5 5.2.9. EMU2-BM1-C ................................................................................................................................. 5-5 5.2.10. EMU-HM1-C ................................................................................................................................... 5-6 5.2.11. EMU2-RD3-CEMU2-RD5-CEMU2-RD7-C ............................................................................. 5-6 5.2.12. EMU2-RD2-C-4WEMU2-RD4-C-4W .......................................................................................... 5-6 5.2.13. EMU3-DP1-C ................................................................................................................................. 5-6 5.2.14. MDU(WS) ....................................................................................................................................... 5-6 5.2.15. MDU(WS-V) ................................................................................................................................... 5-7 5.2.16. AE-SW(BIF-CC) ............................................................................................................................. 5-7 5.2.17. ME96NSR ...................................................................................................................................... 5-7 5.2.18. ME96SSHB-MB .............................................................................................................................. 5-7 5.2.19. ME96SSRB-MB .............................................................................................................................. 5-7 5.2.20. ME96SSHA-MB .............................................................................................................................. 5-8 5.2.21. ME96SSRA-MB .............................................................................................................................. 5-8 5.2.22. ME96SSH-MB ................................................................................................................................ 5-8 5.2.23. ME96SSR-MB ................................................................................................................................ 5-8 5.2.24. ME110SSR-C(H) ............................................................................................................................ 5-9 5.2.25. ME110NSR-C ............................................................................................................................... 5-10 5.2.26. AJ65BT-68TD ............................................................................................................................... 5-10

5.3. List of measured items (CC-Link terminal) ......................................................................................... 5-11 5.3.1. EMU4-BD1-MB .............................................................................................................................. 5-11 5.3.2. EMU4-HD1-MB ............................................................................................................................ 5-12 5.3.3. EMU4-FD1-MB ............................................................................................................................. 5-14 5.3.4. EMU4-BM1-MB ............................................................................................................................ 5-16 5.3.5. EMU4-HM1-MB ............................................................................................................................ 5-17 5.3.6. EMU4-LG1-MB ............................................................................................................................. 5-18 5.3.7. EMU4-A2 ...................................................................................................................................... 5-19 5.3.8. EMU4-VA2 .................................................................................................................................... 5-21 5.3.9. EMU4-AX4 ................................................................................................................................... 5-23 5.3.10. EMU4-PX4 ................................................................................................................................... 5-23 5.3.11. EMU2-RD3-C, EMU2-RD5-C, EMU2-RD7-B ............................................................................... 5-24 5.3.12. EMU2-RD2-C-4W, EMU2-RD4-C-4W .......................................................................................... 5-25 5.3.13. EMU3-DP1-C ............................................................................................................................... 5-26 5.3.14. MDUWS-V ............................................................................................................................. 5-27 5.3.15. MDU(WS) ..................................................................................................................................... 5-28 5.3.16. AE-SW(BIF-CC) ........................................................................................................................... 5-29 5.3.17. ME96NSR .................................................................................................................................... 5-30 5.3.18. ME96SSHB-MB ............................................................................................................................ 5-32 5.3.19. ME96SSRB-MB ............................................................................................................................ 5-34 5.3.20. ME96SSHA-MB ............................................................................................................................ 5-36 5.3.21. ME96SSRA-MB ............................................................................................................................ 5-38 5.3.22. ME96SSH-MB (1P2W, 3P3W) ..................................................................................................... 5-40 5.3.23. ME96SSH-MB (1P3W) ................................................................................................................. 5-42 5.3.24. ME96SSH-MB (3P4W) ................................................................................................................. 5-44 5.3.25. ME96SSR-MB (1P2W, 3P3W) ..................................................................................................... 5-46 5.3.26. ME96SSR-MB (1P3W) ................................................................................................................. 5-47 5.3.27. ME96SSR-MB (3P4W) ................................................................................................................. 5-48 5.3.28. ME110SSR-C(H) (1P2W, 1P3W, 3P3W) ..................................................................................... 5-50 5.3.29. ME110SSR-C(H) (3P4W) ............................................................................................................. 5-51 5.3.30. ME110NSR-C ............................................................................................................................... 5-53 5.3.31. AJ65BT-68TD ............................................................................................................................... 5-54 5.3.32. AJ65BT-64RD3 ............................................................................................................................ 5-54 5.3.33. AJ65BT-64AD ............................................................................................................................... 5-55

iv

5.3.34. AJ65SBTB1-8D ............................................................................................................................ 5-55 5.3.35. AJ65SBTB1-16D .......................................................................................................................... 5-55 5.3.36. AJ65SBTB1-32D .......................................................................................................................... 5-56 5.3.37. AJ65SBTB1-16DT ........................................................................................................................ 5-56 5.3.38. AJ65SBTB1-32DT ........................................................................................................................ 5-56

5.4. List of support terminals (MODBUS terminal [Support terminal]) .................................................... 5-57 5.5. List of model information (MODBUS terminal [Support terminal]) .................................................. 5-59

5.5.1. ME96SSHB-MB ............................................................................................................................ 5-59 5.5.2. ME96SSRB-MB ............................................................................................................................ 5-59 5.5.3. ME96SSEB-MB ............................................................................................................................ 5-59 5.5.4. ME96SSHA-MB ............................................................................................................................ 5-59 5.5.5. ME96SSRA-MB ............................................................................................................................ 5-59 5.5.6. ME96SSEA-MB ............................................................................................................................ 5-60 5.5.7. ME96SSH-MB .............................................................................................................................. 5-60 5.5.8. ME96SSR-MB .............................................................................................................................. 5-60 5.5.9. ME96SSE-MB .............................................................................................................................. 5-60 5.5.10. EMU4-BD1-MB ............................................................................................................................. 5-60 5.5.11. EMU4-HD1-MB ............................................................................................................................ 5-61 5.5.12. EMU4-FD1-MB ............................................................................................................................. 5-61 5.5.13. EMU4-BM1-MB ............................................................................................................................ 5-61 5.5.14. EMU4-HM1-MB ............................................................................................................................ 5-62 5.5.15. EMU4-LG1-MB ............................................................................................................................. 5-62 5.5.16. EMU4-A2 ...................................................................................................................................... 5-62 5.5.17. EMU4-VA2 .................................................................................................................................... 5-63 5.5.18. MDU_breaker ............................................................................................................................... 5-63 5.5.19. AE-SW(BIF-MD) ........................................................................................................................... 5-63

5.6. List of measured items (MODBUS terminal [Support terminal]) ...................................................... 5-64 5.6.1. ME96SSHB-MB ............................................................................................................................ 5-64 5.6.2. ME96SSRB-MB ............................................................................................................................ 5-66 5.6.3. ME96SSEB-MB ............................................................................................................................ 5-68 5.6.4. ME96SSHA-MB ............................................................................................................................ 5-69 5.6.5. ME96SSRA-MB ............................................................................................................................ 5-72 5.6.6. ME96SSEA-MB ............................................................................................................................ 5-74 5.6.7. ME96SSH-MB .............................................................................................................................. 5-75 5.6.8. ME96SSR-MB .............................................................................................................................. 5-77 5.6.9. ME96SSE-MB .............................................................................................................................. 5-79 5.6.10. EMU4-BD1-MB ............................................................................................................................. 5-80 5.6.11. EMU4-HD1-MB ............................................................................................................................ 5-81 5.6.12. EMU4-FD1-MB ............................................................................................................................. 5-83 5.6.13. EMU4-BM1-MB ............................................................................................................................ 5-85 5.6.14. EMU4-HM1-MB ............................................................................................................................ 5-86 5.6.15. EMU4-LG1-MB ............................................................................................................................. 5-87 5.6.16. EMU4-A2 ...................................................................................................................................... 5-88 5.6.17. EMU4-VA2 .................................................................................................................................... 5-90 5.6.18. EMU4-AX4 ................................................................................................................................... 5-92 5.6.19. EMU4-PX4 ................................................................................................................................... 5-92 5.6.20. MDU breaker ................................................................................................................................ 5-93 5.6.21. AE-SW(BIF-MD) ........................................................................................................................... 5-94

5.7. List of measured items of devices ..................................................................................................... 5-95 5.7.1. Bit data ......................................................................................................................................... 5-95 5.7.2. Word data ..................................................................................................................................... 5-99 5.7.3. Long data ................................................................................................................................... 5-102

5.8. PLC Setting ..................................................................................................................................... 5-105 5.8.1. Communicate with EcoWebServerIII by Ethernet (CH2) ........................................................... 5-105

v

5.8.2. Communicate with EcoWebServerIII by Ethernet/Serial (CH2) ................................................. 5-106 5.9. GOT communication settings .......................................................................................................... 5-107

5.9.1. Settings to connect EcoWebServerIII to GOT with Ethernet ..................................................... 5-107 5.10. Data output to PLC/GOT ................................................................................................................. 5-109

5.10.1. Double word ............................................................................................................................... 5-109 5.11. Data output specification to PLC/GOT ............................................................................................. 5-110

5.11.1. Data output .................................................................................................................................. 5-110 5.11.2. Measuring error information ........................................................................................................ 5-111 5.11.3. Updating time information ........................................................................................................... 5-111 5.11.4. Outputting demand information (Only with demand control function) ......................................... 5-112

5.12. EcoWebServerIII MC protocol server ............................................................................................... 5-114 5.12.1. Communications parameter ........................................................................................................ 5-114 5.12.2. Local virtual device data output contents (Only with demand control function) .......................... 5-115

5.13. List of FTP commands...................................................................................................................... 5-117 5.13.1. List of FTP commands ................................................................................................................ 5-117 5.13.2. Acquisition of data files by FTP command .................................................................................. 5-118

5.14. How to check the MAC address ...................................................................................................... 5-122 5.15. List of prohibited characters ............................................................................................................ 5-123 5.16. List of error codes ............................................................................................................................ 5-124

5.16.1. Terminal connection check (CC-Link terminal) .......................................................................... 5-124 5.16.2. Terminal connection check (MODBUS terminal) ........................................................................ 5-124 5.16.3. Mail sending check ..................................................................................................................... 5-124 5.16.4. File automatic transfer check ..................................................................................................... 5-125 5.16.5. Air-controller connection check .................................................................................................. 5-125

5.17. Troubleshooting ............................................................................................................................... 5-126

1-1

1. Preface

Thank you for purchasing Mitsubishis Energy Saving Data Collecting Server (hereinafter, EcoWebServerIII). This instruction manual describes how to manage, set up, and operate projects to operate EcoWebServerIII and how to operate the EcoWebServerIII setting software (hereinafter, "setting software") for the maintenance of EcoWebServerIII. This instruction manual assumes that the reader has knowledge of personal computers, networks, and various types of servers and basic knowledge of electric equipment. Please read it carefully, and use the product properly. Keep this instruction manual in an accessible place for future reference whenever needed. Make sure it is delivered to the end user. For more information on the display function of EcoWebServerIII, see Instruction Manual Operating. For information on how to handle the main unit of EcoWebServerIII, see "Instruction Manual Hardware".

Related users manual Document No. Instruction Manual Hardware IB63652 Instruction Manual Hardware (with demand control function) IB63895 Instruction Manual Operating IB63918

1.1. General notes 1.1.1. Warranty Please contact your nearest Mitsubishi Sales Office or dealer for technical inquiries regarding the product. This instruction manual and equipment have undergone strict quality control and product inspections prior

to shipment. However, if any problems occur as a result of the manufacturing of this equipment or instruction manual, a replacement will be provided. Please contact your dealer in this case. Note that this does not apply to faults or damage resulting from force majeure or improper usage, etc.

Mitsubishi shall not be held liable for any trouble in the user or third party's system, legal problems, faults resulting from improper use of equipment, faults occurring during the use of this equipment, or any damage caused by other faults.

The charge-free warranty period for the product shall be the shorter period either of one year from the date of your purchase or the date when the product is delivered to your specified delivery location or 18 months from the time of the shipment from our factories (counted from the date of manufacture). However, the charge-free warranty shall not apply to the following cases even during the charge-free warranty period: (1) When the cause is an improper usage (2) When the cause is an improper operation

The charge-free warranty becomes invalid at the expiration of the charge-free warranty period. The charge-free warranty term for repaired parts shall not be extended. 1.1.2. Trademarks Microsoft, Windows, Microsoft Edge, Internet Explorer, and Excel are registered trademarks of Microsoft

Corporation in the United States and other countries.

Java is a registered trademark of Oracle Corporation and its subsidiaries and affiliates in the United States and other countries.

iOS is a trademark or registered trademark of Cisco in the United States and other countries, and is used under license.

Android, Chrome are trademarks of Google LLC. Safari is a registered trademark of Apple, Inc. in the United States and other countries. Ethernet is a trademark of FUJIFILM Business Innovation Corp. MODBUS is a trademark of Schneider Electric USA Inc. Other company and product names herein are trademarks or registered trademarks of their respective

owners In the text, trademark symbols such as "TM" and "" may not be written.

1-2

1.2. Safety precautions 1.2.1. Storage When storing the CD-ROM, avoid the following places. Failure to follow the instruction may cause a read error.

Ambient temperature exceeds the specified temperature range (+5C to +45C). Relative humidity exceeds 30 to 80% RH or condensation is observed. Altitude exceeds 1000 m. Dust, corrosive gas, saline, and oil smoke exist. Frequent vibration or impact exists. Exposed to rain fall, water drop, or direct sunlight or near heaters. Metal pieces or conductive materials blow. Under strong electromagnetic field or noise.

1.2.2. Other notes See the instruction manual of EcoWebServerIIIHardware. 1.3. Precautions for use Before configuring data, particular attention must be paid to the following points:

Use the setting software after closing any other applications that are running. If running in parallel with other applications, the setting software may not operate properly.

If you have any questions about the installation, setting, and other technical matters of browsers and JavaVM (Java Virtual Machine) on PCs, contact your network administrator (or appropriate divisions).

If you have any questions about the installation, setting, and other technical matters of various servers, including the SMTP (mail-sending) server and FTP (file) server, contact your network administrator (or appropriate divisions) or the manufacturer. We dont offer technical support for the above.

When having changed the display setting of the measuring point names and other settings, be sure to close the currently displayed Web browser and restart it. Otherwise, the change might not be updated due to the cache function of the web browser.

When needed for keeping system security against illegal access from outside, users should take proper measure. We do not assume responsibility for any trouble arising from illegal access. We recommend users to note the followings.

1) Use LAN for preventing illegal access from outside. 2) Take measures like firewall and VPN when connecting internet. 3) Before using, change the default account (login ID, password).

Set the account so as not to leak the accont information according to the following precautions. Avoid using simple string like Name, birth date and numbers. Set the complex loging ID and password at least 8 characters by mixing uppercase or lowercase alphanumeric characters.

If there is an error in the model information on the terminal registration dialog box, the number of digits after decimal point of the measured data may be incorrect, or a measurement error may occur. Be sure to specify the correct model information.

The monitoring of the upper and lower limits is performed every 10 seconds; therefore, some abnormalities in the upper and lower limits may not be detected. Do not use the unit for the monitoring of the measured data of urgency. Otherwise, an accident may occur. In such cases, we are not responsible for any accidents.

The monitoring of the operation statuses is performed every 10 seconds; therefore, some statuses may not be detected. Do not use the unit for the monitoring of alarms of urgency. Otherwise, an accident may occur. In such cases, we are not responsible for any accidents.

1-3

The monitoring of the target Specific consumptions is performed every 1 hour; therefore, the detection may be delayed. Do not use the unit for the monitoring of the Specific consumption data of urgency. Otherwise, an accident may occur. In such cases, we are not responsible for any accidents.

The monitoring of the energy planned values is performed every 1 day; therefore, the detection may be delayed. Do not use the unit for the monitoring of the measured data of urgency. Otherwise, an accident may occur. In such cases, we are not responsible for any accidents.

As for the mail delivering through the monitoring notification function, the mail reception may be delayed according to environments of your SMTP server, network, and mail client. Do not use the unit for the notifications of urgency. Otherwise, an accident may occur. In such cases, we are not responsible for any accidents.

The contact output of the monitoring statuses is performed every 10 seconds; therefore, the output may be delayed from the satisfaction of the contact output condition. Do not use the unit for the contact output of the monitoring of urgency. Otherwise, an accident may occur. In such cases, we are not responsible for any accidents

Do not perform the writing of projects concurrently from multiple client PCs via a LAN. Otherwise, the writing may not be performed properly, and EcoWebServerIII may not be launched.

If the demand is not set correctly, a correct measurement may not be possible, the load may be inadvertently cut off, and it may not be able to cut off the load. Set the demand correctly.

When an air-conditioning system, etc., is set as the demand control load, if the circuit is configured to directly cut off the outdoor unit's main power or the compressors main power, a system fault could occur, or the product quality or life may be lost depending on the model. Consult with the air-conditioner maker for details on compatibility of this product with the air-conditioning system in use.

1-4

1.4. Main features and specifications 1.4.1. Main features of the EcoWebServerIII setting software The setting software can manage the EcoWebServerIII projects of up to 50 units from a PC connected to a

LAN. The setting software can easily configure and modify projects. The setting software can perform various maintenance functions, including moving the data files stored in

EcoWebServerIII to a PC. 1.4.2. System configuration

EcoWebServerIII (This product)

Ethernet

Ethernet

Write collected data to PLC/GOT device

Output the alarm status, data upper/lower limit over and

operation status, etc. to a lamp or

Wireless Router

View the graph (Internet

Report by Email

EcoWebServerIII Time adjustment

PLC PLC

PLC

MC protocol client (PATLITE network

monitoring lamp)(*1)

Electronic multi- measuring instrument MDU breaker

EcoMonitorPlus

Client PC

EMU3 Series

Tablet

Transfer collected file

Contact input Analog input Temperature input MELSEC-Q energy

measuring module (Via CC-Link local station)

CC-Link terminals PLC/GOT data collecting

View the graph (Internet Explorer) EcoWebServerIII setting software

FTP Server SMTP Server SNTP Server

CC-Link

Air controller

Input a demand pulse signal

MODBUS TCP MODBUS RTU

Protocol converter

RS-485 (MODBUS RTU)

1-5

The figure above is a system configuration (CC-Link communication, demand control) example When using CC-Link communication device without demand control function, note the following points are different from the above figure. Demand control unit is not attached to the EcoWebServerIII. There is no coordination function with air conditioning controller. There is no condiination function with patlite (MC protocol). Shape of the power supply unit of EcoWebServerIII is different

1-6

1.4.3. Specifications The display names and description of the functions of the setting software are as follows:

Name Description of functions Project management

New registration of project Create a new project. Deletion of project Delete a project. Change of project Modify the content of a project. Copy of project Copy a project. Backup of project Back up project information on an external memory. Restoration of project Restore project information from an external memory.

Project settings Demand settings Configure settings for demand control.

Normal Configure basic settings for demand control. Alarm and control Configure the demand alarm and demand control settings. Calendar Configure the demand control schedule.

Data collecting settings [Normal settings] Configure the settings for collecting measuring data. CC-Link Terminal Display a list of registered CC-Link terminals. CC-Link Terminal Register the CC-Link terminal. MODBUS terminal Display a list of registered MODBUS terminals

MODBUS terminal Register the MODBUS terminal [Support terminal] and general-purpose MODBUS terminal.

PLC / GOT Display a list of PLCs connected to the registered Ethernet.

PLC, GOT Register the PLC/GOT connected to Ethernet with CH2.

Measuring point Set the measuring point group. List of measuring point Display a list of registered measuring points

Registration of CC-Link, MODBUS measuring point

Register the CC-Link terminal or as a measuring point. Register the MODBUS terminal [Support terminal], general-purpose MODBUS terminal, or device data as a measuring point.

Measuring point group set Set the measuring point group.

Data collecting settings [Extended settings] Configure the settings for the measuring data collection advanced functions.

Virtual Display a list of virtual measuring points. Virtual measuring point Register the virtual measuring points. Specific consumption Display a list of specific consumption measuring points. Specific consumption measuring point Register the specific consumption measuring point.

Selection of the measuring point Select the measuring point/virtual measuring point to be used in

the specific consumption computation. Equipment Display a list of equipment.

Equipment list Register a piece of equipment.

Equipment Select a measuring point/virtual measuring point to be used in the

computation of equipment overall efficiency. Registration of display measuring

point Register a display measuring point of the equipment. Equipment group list Display the list of equipment groups.

Resistration of equipment group Register a piece of equipment in an equipment group. Project management Save, write, read, and confirm a project.

Save Save the settings of a project.

Write Write the settings of a project onto EcoWebServerIII or a memory card.

Read Read the settings of a project from EcoWebServerIII or a memory card.

confirm Compare the settings of a project against EcoWebServerIII or a memory card.

(Continued on next page)

1-7

(Continued from previous page)

Name Description of functions Options Configure the settings of the unit.

Time Read the time data, and configures the time setting. IP address Configure the network settings. IP address Settings Configure the settings of the IP address and the DNS server. Network information reading Read the network information of EcoWebServerIII main unit. Auto time adjustment Configure the automatic time setting using the SNTP server. Set logging time Set the measuring point data logging date and time. Password Change the login ID and password. For maintenance Change the maintenance loginID and password. For getting data Change the data acquisition login ID and password.

For system management Change the system administration login ID and password.

Version up of main program Upgrade the software of EcoWebServerIII main unit.

Output Configure the settings related to collaboration with external devices.

Output settings Display the list of output groups. Registration of the data output group Register the output groups. Data output set(Demand control) Set the demand control function's data output destination.

Contact output Display a list of contact output settings, and set the number of contact output points.

Registration of contact output condition Register the contact output conditions. Mail notification settings Configure the mail notification settings. Set SMTP server Configure the mail notification SMTP server. Demand notification Configure the demand control and notification settings. Error notification Configure the unit error notification.

Initial condition 1 Configure the setting of notifications of launch, memory card errors and measurement error.

Initial condition 2 Configure the setting of notifications of launch transfer errors, auto time setting errors, and battery errors.

Initial condition 3 Configure the setting of notifications of launch data output errors. Regular report Displays the list of regular report settings. Registration of regular report Register the regular report settings. Upper and lower limit monitoring Display the list of upper/lower limit monitoring and notification

Upper and lower limit monitoring notification registration Register an upper and lower limit monitoring and notification.

Operation status monitoring Display a list of operating status monitoring and notification settings.

Registration of operating status monitoring notification Register the operating status monitoring notifications.

Specific consumption target value monitoring

Display a list of specific consumption target value monitoring and notification settings.

Registration of specific consumption target value monitoring notification Register the specific consumption target value.

Energy planning value monitoring Display a list of energy plan value monitoring and notification settings.

Registration of energy planning value monitoring notification Register the energy plan value monitoring settings.

File transfer Configure the settings for file transfer. Set FTP server Configure the FTP server for file transfer.

Transmission destination folder set Configure the transfer enable/disable state and transfer destination folder.

Energy saving cooperation settings Configure the settings for energy saving collaboration. Energy saving level monitor setting Configure the energy saving monitoring and energy saving alarm. Air-conditioner connection setting Configure the connection with the air-conditioner controller. Demand setting (PLC) Change the demand setting value and time from the PLC.

(Continued on next page)

1-8

(Continued from previous page)

Name Description of functions Test Configure the settings for each test and adjustment.

Confirm terminal connection Configure the test for checking connection with the CC-Link terminal.

Confirm terminal connection(MODBUS) Perform the test for checking connection with the MODBUS terminal.

Confirm contact output Perform a test on all contact outputs. Confirm mail sending Perform a test related to mail transmission Demand notification Perform a demand control and notification mail send test. Error, regular notification Perform a unit error and regular notification mail send test. Measuring point data monitoring report Preform a measuring point data monitoring report mail send test. Confirm file transfer Perform a file transfer function test. Confirm air-conditioner connection Perform an air-controller connection test. Integration value set Set the demand count value. Collect data Collect the logging data. Delete data Delete the logging data. Reset Reset the unit.

1-9

Item Specification Remarks

Connection device

CC-Link terminal

Number of connection

Up to 42 Depending on the specification of CC-Link master unit *1

CC-Link communication module (EMU4-CM-C) is required, when use the EMU4-BD1-MB, EMU4-HD1-MB, EMU4-FD1-MB, EMU4-BM1-MB, EMU4-HM1-MB, EMU4-LG1-MB or EMU4-CNT-MB

Model name/type name

EMU4-BD1-MB, EMU4-HD1-MB, EMU4-FD1-MB EMU4-BM1-MB, EMU4-HM1-MB, EMU4-LG1-MB, EMU4-CNT-MB, EMU4-A2, EMU4-VA2, EMU4-AX4, EMU4-PX4, EMU2-RD3-C, EMU2-RD5-C, EMU2-RD7-C, EMU2-RD2-C-4W, EMU2-RD4-C-4W, EMU3-DP1-C, MDU(WS-V), MDU(WS), AE-SW(BIF-CC), ME96NSR, ME96SSHB-MB, ME96SSRB-MB, ME96SSHA-MB, ME96SSRA-MB, ME96SSH-MB, ME96SSR-MB, ME110SSR-C(H), ME110NSR-C, AJ65BT-68TD, AJ65BT-64RD3, AJ65BT-64AD, AJ65SBTB1-8D, AJ65SBTB1-16D, AJ65SBTB1-32D, AJ65SBTB1-16DT, AJ65SBTB1-32DT, QJ61BT11N, LCPU/LJ61BT11

MODBUS terminal

Number of connection

Up to 255 units

Model name/type name

ME96SSHB-MB, ME96SSRB-MB, ME96SSEB-MB, ME96SSHA-MB, ME96SSRA-MB, ME96SSEA-MB, ME96SSH-MBME96SSR-MBME96SSE-MB EMU4-BD1-MBEMU4-HD1-MBEMU4-FD1-MB EMU4-BM1-MBEMU4-HM1-MBEMU4-LG1-MB EMU4-CNT-MBEMU4-A2EMU4-VA2EMU4-AX4 EMU4-PX4 MDU breaker, AE-SW(BIF-MD)

PLC/GOT Number of connection

32 Number that can be input and output number. Among them, data output is possible 8 only.

Model name/type name

MELSEC PLC iQ-R, iQ-F, QCPU/LCPU/QnACPU, ACPU, AnACPU/AnUCPU, FXCPU(FX1x), FXCPU(FX3x) * FXCPU only serial connection

GOT2000 series, GOT1000 series GT27/GT16/GT14/GT15

Measuring target

CC-Link terminal Current, voltage, electric power, electric energy, etc.(Differs for each model)

MODBUS terminal Demand control Time(Year/month/day/hour/minute/second,

Remaining time, Current demand (Whole day, time zone 1 10), Integrated value of consumption (Whole day, time zone 1 10), Predicted demand, Adjusted electrical power, Permissible power, Power limit

PLC/GOT Bit device, word device (16/32 bit) Measuring points

All measuring points Up to 255 points measuring points of

operation monitoring Up to 32 points Include in the

number of all measuring point.

Virtual measuring point Up to 128 points Not include in the number of all measuring point.

Specific consumption measuring point

Up to 64 points

Equipment Up to 42 points Demand measuring point 2 points

(Demand, Integrated value of consumption) *1 The following conditions. Total number of stations

a+b2+c3+d464 a: Number of units occupying 1 station b: Number of units occupying 2 stations c: Number of units occupying 3 stations d: Number of units occupying 2 stations

Number of connected units 16A+54B+88C2304

A: Number of remote I/O station units64 B: Nubber of remote device station units42 C: Number of local station/intelligent device station units26

1-10

Item Specification Remarks

Contact output functions *2

Output destination Internal output unit (up to 16 points), CC-Link Remote I/O (up to 32 points)

Up to 32 points if CC-Link remote I/O only Output points Up to 32 points (Separate from all measuring points)

System Up to 32 points Include in the number of Output points.

Upper/lower limit alarm Up to 32 points Energy plan value monitoring

Up to 32 points

Specific consumption target value monitoring

Up to 32 points

Operating status monitoring Up to 32 points Demand alarm Up to 5 points Demand control Up to 12 points

Energy saving collaboration functions

connection destination Air-conditioner Send the energy saving level and emergency stop order.

Number of connection Up to 10

Data output functions (Up to 8 in PLC and GOT)

Output destination Device of PLC/GOT Output contents and output cycle

Current data (Online measuring point)

Data for up to 8groups (255 points max.) can be outputted. Up to 32 points output per group (2 words device 1 point) Every 60 seconds period.

Measurement error information

Data for up to 8groups (255 points max.) can be outputted. Up to 32 points output per group (1 word device 16 points) Every 30 second period.

Demand information

Output the following data with 30 words fixed (every 10 seconds period) Control device (1 word device) Healty (1 word device) Current time (Year/month/day/hour/minute/second: Each 1 word device) Integrated value of consumption (2 words device) Current demand (2 words device) Predicted demand (2 words device) Adjusted electrical power (2 words device) Permissible power (2 words device) Previous demand (2 words device) Remaining time (1 word device) Alarm state (1 word device) Load control state(1 word device) Demand target value (2 words device) CVT ratio (2 words device) Alarm type (1 word device) Integrated value of consumption: Number of decimal digits (1 word device) Current demand: Number of decimal digits (1 word device)

Either of PLC and GOT can be output.

Logging function

Zoom Collected at 1-minute or 5-minute intervals. Daily Collected on the hour, the half-hour or 15 minutes. Monthly Collected on the specified hour (at 00 minutes), once

every day Annual Collected on the specified hour of the specified day

(at 00 minutes), once every month Demand(daily) Collected on the specified demand time limit

(15/30/60 minutes) Demand(monthly) Collected on the specified hour (at 00 minutes), once

every day Demand value is Max. of a day

Demand(annual) Collected on the specified hour of the specified day (at 00 minutes), once every month Demand value is Max. of a month

1-11

Item Specification Remarks

Calculation function

Daily

Virtual calculation points *3

Computed from the data collected on the hour, the half-hour or 15 minutes

Four arithmetic computations with parentheses can be performed on up to 16 arithmetic elements. A virtual calculation point cannot be registered within another virtual calculation point. (Only normal measuring points can be registered.)

Virtual measuring point can not register to the arithmetic expression of virtual measuring point.

Specific consumption points *3

Energy amount (measuring point or virtual calculation point) is divided by production amount (measuring point or virtual calculation point).

Equipment efficiency

Quality = Number of non-defective products / Number of processed products Performance

= (Standard cycle time Number of processed products) / (Loading time - Downtime)

Availability = (Loading time - Downtime) /

Loading time Overall equipment efficiency

= Availability Performance Quality

Monthly *3

Virtual measuring point

Computed from the data collected at the logging time once every day

Same as daily

Specific consumption measuring point

Same as daily

Annual *3

Virtual measuring point

Computed from the data collected at the logging time once every month

Same as daily

Specific consumption measuring point

Same as daily

*2 Contact output is possible up to 32 points by using internal output unit (up to 16 points) , CC-Link remote I/O and

MODBUS terminal. In addition, contact output of the following is possible within 32 points. (Error information, Upper/lower limit monitoring, Energy plan value monitoring, Specific consumption target value monitoring, Operating status monitoring, Demand alarm, and Demand control.) Number of output points are up to 32 points even if contact output is CC-Link remote I/O and MODBUS terminal.

*3 Calculation accuracy of the virtual measuring point and the specific consumption measuring point, can be selected from [Integer], [1 digit], [2 digits], [3 digits], [4 digits], and [5 digits] (the number of digits after the decimal point).

1-12

Item Specification Remarks

Saving function

Zoom (1 minute) Data for 62 days 1-hour data is saved in one file. (Data at 1-minute intervals from one hour (at 00 minutes) to the next hour (at 00 minutes))

Saved in the memory card.

Zoom (5 minutes) Data for 14 days 1-hour data is saved in one file. (Data at 5-minutes intervals from one hour (at 00 minutes) to the next hour (at 00 minutes))

Daily Data for 186 days 1-day data is saved in one file. (Data at 15 minutes, 30-minutes or 1-hour intervals from one day (at 00:00) to the next day (at 00:00))

Monthly Data for 60 months 1-month data is saved in one file. (Data at 1-day intervals from the 1st day of one month to the 1st day of the next month)

Annual Data for 5 years 1-year data is saved in one file. (Data at 1-month intervals from January of one year to January of the next year)

Virtual (daily) Data for 186 days 1-day data is saved in one file. (Data at 15 minutes, 30-minutes or 1-hour intervals from one day (at 00:00) to the next day (at 00:00))

Virtual (Monthly) Data for 60 months 1-month data is saved in one file. (Data at 1-day intervals from the 1st day of one month to the 1st day of the next month)

Virtual (Annual) Data for 5 years 1-year data is saved in one file. (Data at 1-month intervals from January of one year to January of the next year)

Specific consumption (daily)

Data for 186 days 1-day data is saved in one file. (Data at 15 minutes, 30-minutes or 1-hour intervals from one day (at 00:00) to the next day (at 00:00))

Specific consumption (Monthly)

Data for 60 months 1-month data is saved in one file. (Data at 1-day intervals from the 1st day of one month to the 1st day of the next month)

Specific consumption (Annual)

Data for 5 years 1-year data is saved in one file. (Data at 1-month intervals from January of one year to January of the next year)

Equipment (daily) Data for 186 days 1-day data is saved in one file. (Data at 15 minutes,30-minutes or 1-hour intervals from one day (at 00:00) to the next day (at 00:00))

Operation history Operation monitoring information is saved in operation history data files. (64 KB 4 Number of operation monitoring points)

System log System error information is saved in system log files. (256 KB 8)

Demand (daily) Data for 186 days 1-day data is saved in one file. (Data at 15-minutes, 30-minutes or 1-hour intervals from one day (at 00:00) to the next day (at 00:00))

Demand (Monthly) Data for 60 months 1-month data is saved in one file. (Data at 1-day intervals from the 1st day of one month to the 1st day of the next month)

Demand (Annual) Data for 5 years 1-year data is saved in one file. (Data at 1-month intervals from January of one year to January of the next year)

Demand alarm and control history

Record the occurrence/restore of the alarm, ON/OFF of the alarm output, and ON/OFF of the control output to the demand alarm/control history data file. (128KB62 files)

Deleting function Logging data files are deleted when their storage period expires.

1-13

Item Specification Remarks

Transfer functions

Zoom (1 minute) 1-hour data is transferred once every hour. Data is automatically transferred to a designated FTP server. *4

Zoom (5 minutes) 1-hour data is transferred once every hour. Daily Data of the day is transferred once every hour. Monthly Data of the month is transferred at the specified time, once

every day. Annual Data of the year is transferred at the specified time, once

every month. Virtual (daily) Data of the day is transferred once every hour. Virtual (Monthly) Data of the month is transferred at the specified time, once

every day. Virtual (Annual) Data of the year is transferred at the specified time, once

every month. Specific consumption (daily)

Data of the day is transferred once every hour.

Specific consumption (Monthly)

Data of the month is transferred at the specified time, once every day.

Specific consumption (Annual)

Data of the year is transferred at the specified time, once every month.

Equipment (daily) Data of the day is transferred once every hour. Operation history Updated operation history files are transferred once every

hour. System log The latest data is transferred once every hour. Demand (daily) Data of the day is transferred once every hour. Demand (Monthly) Data of the month is transferred at the specified time, once

every day. Demand (Annual) Data of the year is transferred at the specified time, once

every month. Demand alarm and control history

The latest data is transferred once every hour.

Server function

Web server Communicates with up to 5 clients simultaneously. Web browsers are used to view data.

FTP server Communicates with 2 clients. Transfers files via FTP in response to a command request from a client.

Client function

FTP client *5 Communicates with one server. Automatically transfers data files to the FTP server. (A path can be specified for each type.)

SMTP client *5 Communicates with one SMTP server. Notifies upper and lower limit errors and operation monitoring information by email.

SNTP client *5 Communicates with one SNTP server. Acquires and configures the time information periodically.

HTTP client Communication with the air-conditioner of up to 10 Carry out the notification of the emergency stop control and Energy saving level change.

*4 Because logging data file of the today or the current month will be overwritten, file transfer is unable when the data file in the FTP server is being used in other application S/W. Also, when the data file is set overwrite protection in the FTP server, cannot transfer.

*5 When the FTP server is stopped or LAN communication is abnormal, can not be transferred and retransmission. Also, since any data in the FTP server is not deleted automatically, clean up the server by deleting the data at regular intervals.

1-14

Item Specification Remarks

Display function

Real-ti me Monitor

Demand value Monitor

Display the following information about the demand control

Bar graph: Current demand, Predicted demand, Demand (today)

Line graph: Current demand, Predicted demand,

Target demand value, Fixed alarm value

Value: Current demand, Predicted demand, Adjusted power,

Permissible power, Limit alarm value, Target demand value, Fixed/Limit alarm value

Alarm status: Level 1/Level 2/Limit(Fixed)/ Energy saving level

Time information: Time, Remaining time, Time zone Daily pattern

Control status: Control type, Priority, ON/OFF Display update interval (automatic update): 10 sec

Current value Monitor

Select the display type from the [Any Point] or the [Group] Select the view type from the [Accumulated value], [Hourly diff.], [Daily diff.], [Monthly diff.]

Display the current measuring data

Accumulated value: Present meter indicated value Hourly diff.: Accumulated value from the previous hour to

the present hour Daily diff.: Accumulated logging time from the previous

month to the present month Monthly diff.: Accumulated logging time from the previous

year to the present year

Current demand(Whole day, Time zone 1 - 10) : Present measuring data Electric energy(Whole day, Time zone 1 - 10) Accumulated value: Current integrated value Hourly diff.: Accumulated value from the previous hour to

the present hour Daily diff.: Accumulated logging time from the previous

month to the present month Monthly diff.: Accumulated logging time from the previous

year to the present year Displays up to 10 measuring points in one screen. Display update interval (automatic update): 10 sec

Contact output Monitor

Display the contact output status of internal output unit and CC-Link remote I/O, contact control is possible by password authentication.

Alarm output: ON -> OFF only Control output: ON/OFF

The number of display points: 32 Display update interval (automatic update): 10 sec

1-15

Item Specification Remarks

Display function

Graph display

Demand trend Graph

Display the demand trend graph Display interval: Select from Daily/Monthly/Annual

Daily Display the demand for each demand time in 1 day. Bar graph: Demand(for each time zone) Line graph: Target demand value,

Fixed alarm value Monthly (Max demand of day)

Display the max. demand value of a day for 1 month. Bar graph: Max demand of day(for each time zone)

Annual (Max demand of month)

Display the max. demand value of a month for 13 months. Bar graph: Max demand of month(for each time zone) Line graph: Max List: Demand time limit when max demand of month is occurred(for each time zone)

Measuring point comparison Graph

Display the multiple measuring points data of the specified display intervals(Zoom/Daily/Monthly/Annual) and display date and time. Display the measuring point comparison graph of max 12 measuring points in 1 screen.(The number of graph up to 10) (Display the measuring point alongside in the same graph or vertical row) Display the graph of measuring point that was registered to the display list file.(Up to 32 files) Optionally, can be added(deleted) to(from) the display list.

The following measuring point can be selected

Electric energy and pulses Analog value Analog value(power factor) Virtual measuring point

Demand measuring point Electric energy (Whole day, Time zone 1 - 10) Demand (Whole day, Time zone 1 - 10)

Display update interval (automatic update): Zoom(1 min)/Zoom(5 min)/Daily 1 min

Monthly/Annual 1 hour

Date comparison Graph

Display the measuring point with the date comparison Display in the specified display intervals (Zoom/Daily/Monthly/Annual) Display the date comparison graph of max 10 measuring points

in 1 screen.(The number of graph up to 10) Display the graph of measuring point that was registered to the display list file.(Up to 32 files) Optionally, can be added(deleted) to(from) the display list.

The following measuring point can be selected Electric energy and pulses Analog value Analog value(power factor) Virtual measuring point

Demand measuring point Electric energy (Whole day, Time zone 1 - 10) Demand (Whole day, Time zone 1 - 10)

Display update interval (automatic update): Zoom(1 min)/Zoom(5 min)/Daily 1 min

Monthly/Annual 1 hour

1-16

Item Specification Remarks

Display functions

Graph display

Specific consumption Graph

Display the specific consumption graph Display interval: Select from Daily/Weekly/Monthly/Annual

Display update cycle (Automatic graph update): Daily/Weekly 1 minute Monthly/Annual 1 hour

Daily Bar graph: Production and energy amount on the hour , the half-hour or 15 minutes

Line graph: Accumulated specific consumption and energy amount on the hour , the half-hour or 15 minutes

Displays 1-day data on the hour , the half-hour or 15 minutes. Displays 2 days of data simultaneously.

Weekly Bar graph: Production and energy amount on the hour , the half-hour or 15 minutes

Line graph: Accumulated specific consumption and energy amount on the hour or on the half-hour

Displays 7-day data on the hour or on the half-hour. Displays 7 days of data starting from the specified date serially.

Monthly Bar graph: Production and energy amount on the 1-day intervals

Line graph: Accumulated specific consumption and energy amount on the 1-day intervals

Displays 1-month data at 1-day intervals. Displays 2 months of data simultaneously.

Annual Bar graph: Production and energy amount on the 1-month intervals

Line graph: Accumulated specific consumption and energy amount on the 1-month intervals

Displays 1-year data at 1-month intervals. Displays 2 years of data simultaneously.

Equipment graph Display the Equipment graph Display interval: daily (fixed)

Bar graph: Daily accumulated number of defective

products Line graph:Daily accumulated downtime

Displays data for the number of registered equipment groups simultaneously.

Bar graph: Availability/Performance/Quality on the hour ,

the half-hour or 15 minutes Line graph: Overall equipment efficiency on the hour ,the

half-hour or 15 minutes

Displays 1-day data on the hour , the half-hour or 15 minutes.

Bar graph: Usage amount on the hour , the half-hour or

15 minutes Line graph: Accumulated usage amount

A detail equipment graph shows data for the number of points registered in the equipment item details.

1-17

Item Specification Remarks

Display functions

Data file Demand data Display the following file Contains 1-year data logged at 1-month intervals

Contains 1-month data logged on the specified hour

every day

Contains 1-day data on the hour or every 30 or 15 minutes

Record the history of the occurrence/restore of Level 1, Level 2, Limit/Fixed Record the history of the demand control ON/OFF 128KB62files

Measuring point data

Display the following file

Contains 1-year data logged at 1-month intervals Contains 1-month data logged on the specified hour

every day

Contains 1-day data logged on the hour or every 30 or 15 minutes Contains 1-hour data logged at 5-minutes intervals

Contains 1-hour data logged at 1-minute intervals Virtual calc. point data

Display the following file

Contains 1-year data logged at 1-month intervals

Contains 1-month data logged on the specified hour every day

Contains 1-day data logged on the hour or every 30

or 15 minutes Sp. Cons. data Display the following file

Contains 1-year data logged at 1-month intervals

Contains 1-month data logged on the specified hour

every day

Contains 1-day data logged on the hour or every 30 or 15 minutes

Equipment data Contains 1-day data logged on the hour or every 30 or 15 minutes

Operation history data

Contains a log of ON/OFF states of operation monitoring points 64 KB 4 Saved in a separate file for each operation monitoring point

System log Contains a log of occurrence and recovery of measurement errors, upper and lower limit errors, etc. 256 KB 8

1-18

Item Specification Remarks

Display functions

Setting of Measuri ng point list

Setting of Demand control

Demand setting Display the following settings Demand basic setting Alarm setting Demand control setting

Time zone setting Display the setting of Time zone name and Daily pattern

Calendar setting Display the following settings Time zone setting Daily pattern setting Calendar setting

Energy saving level monito setting

Display the following settings Energy saving level monitor setting Energy saving level alarm setting Air-controller connection setting

Measuring point list

Electric energy and pulses

Displays the settings of measuring points (electric energy and pulses)

Analog value Displays the settings of measuring points (analog values)

Virtual Displays the settings of virtual calculation points

Specific consumption Displays the settings of specific consumption points

Operation monitoring Displays the settings of operation monitoring points

Equipment Displays the settings of equipment Group Displays the details of groups

registered Equipment group Displays the details of equipment

groups registered Setting of Planned value

Energy planned value (Jan. - Dec.) Energy planned value (Apr. - Mar.) Target value of specific consumption

Data output list Data output group list Displays the data output setting Data output (Demand control)

Displays the data output setting (Demand control)

Contact output list

Displays the settings of contact output

Email notification list

Displays the settings of e-mail notification

File transfer Displays the settings of file transfer Time adjustment Displays the settings of automatic time adjustment

Demand alarm occurrence display

Displays when the demand alarm occurs

1-19

Item Specifications Remarks

Surveillance functions

System log Contains a log of occurrence and recovery of measurement errors, upper and lower limit errors, etc. 256 KB 8

Demand control Level 1 alarm / Level 2 alarm / Limit alarm / Fixed alarm / demand control unit error of the alarm state is monitored at 10-second intervals

Email notificati on *6 *7

Boot notification Energy Saving Data Collecting Server is booted up. Sent to the designated address for each event (one address for each event).

Error notification Error occurs during reading/writing to memory card. Measurement error occurs the specified number of times consecutively or normal measurement recovers. Monitored at 10-second intervals. Number of times that can be specified: 1 to 18 (depending on the settings) File transfer error occurs. Monitored at 1-hour intervals. Automatic time adjustment error occurs. Monitored at specified intervals (daily/weekly/monthly). Data output error occurs the specified number of times consecutively or normal output recovers. Monitored at 1-minute intervals. Number of times that can be specified: 1 to 3 (depending on the settings) Battery error occurs. Monitored at 1-minute intervals.

Upper and lower limit monitoring

Upper and lower limit error occurs on a measuring point. 32 points max. Monitored at 10-second intervals.

Sent to the designated address for each event (one address for each event).

Operation monitoring notification

The status of an operation monitoring point changes. 32 points max. Monitored at 10-second intervals.

Energy planned value monitoring notification

Energy planned value (accumulated value per day) is exceeded. 255 points max. Monitored at the monthly logging time (at 1-day intervals).

Specific consumption planned value monitoring notification

Specific consumption planned value is exceeded. 64 points max. Monitored every hour on the hour or on the half-hour.

Regular report Specified messages. Up to 128 characters in one message. Up to 8 messages.

Each message is sent to its designated address at its designated time (one sending time and receiving address for each message).

Daily On the specified hour, once every day Weekly On the specified hour of the specified day, once every week Monthly On the specified hour of the specified day, once every

month

Demand notification

Demand control alarm occurred and restored (Level1alarm / Level 2 alarm / Limit, Fixed alarm / Battery error (demand control unit) / Outside synchronism error / Demand control error Monitored at 10-second intervals.

Send to specified destination for each event (One destination for each event)

*6 Mail notification is only function of sending mail data (destination/message) to mail server (SMTP). Mail server receives the data, and sends the message (e-mail) to each destination.

*7 Timing to actually receive will depend on the situation of the mail server processing and communication network.

1-20

Item Specifications Remarks

Control functions

Demand control Control the circuit that was set the priority order, as the predicted demand does not exceed the target demand. (up to 12 circuits)

Demand control type: The following 6 patterns Cyclic - Reclosing Cyclic - Reclosing after Demand time limit Cyclic - Reclosing after Reclosing interval Priority order - Reclosing Priority order - Reclosing after Demand time limit Priority cyclic - Reclosing

Manual control By the password authentication in real-time display screen of contact output monitor, manual control is possible (alarm OFF control, ON/OFF control of demand controlled circuit).

Calendar setting management function Demand management is possible by setting the time zone switching calendar (up to 24 months)

Time zone: up to 10, Daily pattern: up to 40 Maintenance functions

Planned value/Target value setting

Specifies monthly planned values and specific consumption planned values for the year (fiscal year).

Time setting Reads and sets the current date and time.

1-21

Item Specifications Remarks

Demand setting functions

Normal Circuit name Input the circuit name to monitor VCT ratio 1 - 100000 Default: 600 Pulse constant value

1 - 50000(pulse/kWh) Default: 50000

Multiplying factor Checked/Not checked Default: Not checked Number of

digits 4 - 6 Default: 5

Multiplying factor

1 - 100000 Default: 1

Demand time limit adjustment type

Initial TS/ External pulse signal

Default:Initial TS

Demand time limit 15/30/60(minutes) Default: 30 Alarm and Control

Alarm/Control mask time

0 - n(minutes) n=demand time limit

Default: 6

Alarm type Limit alarm/Fixed alarm Default: Limit alarm Management based on calendar

Checked/Not checked Default: Not checked

Settings for each Time zone

Set the following to the time zone 1 - 10 Target demand value, Base power, Fixed alarm value

Target demand value

0.0 - 999999.9(kW) Default: 300.0

Base power 0.0 - 99999.9(kW) Default: 0.0 Fixed alarm value 0.0 - 999999.9(kW) Default: 240.0 Time zone name 8 characters Default: Whole day

Demand control type

Selected from the following Cyclic - Reclosing Cyclic - Reclosing after Demand time limit Cyclic - Reclosing after Reclosing interval Priority order - Reclosing Priority order - Reclosing after Demand time limit Priority cyclic - Reclosing

Number of circuits Up to 12 circuits Priority order Invalid, 1 - 12 Default: Invalid Control capacity 0.0 - 99999.9(kW) Default: 0.0 Reclosing interval 1 - n(minutes)

n=demand time limit Default: 5

Manual control Up to 12 circuits If manual control, requires a password input

Calendar Daily pattern setting

Set the time zone 1-10 to the daily pattern 1-40 with each demand time limit

Calendar setting Set the daily pattern until December 31 of following year from the set year.

1-22

Item Specifications Remarks

Data collecting settings functions

CC-Link terminal registrationSet the following contents Registration of terminal to be connected Carry out the normal setting and station No. registration for each terminal

Up to 42 units can be registered

MODBUS terminal registration Set the following contents Registration of terminals to be connected Carry out the normal setting, IP address registration and slave address registration for each terminal To communicate with a terminal that uses MODBUS RTU communications protocol, MODBUS TCP <-> MODBUS RTU converter is required. With one convertor, up to 31 units can be communicated.

Up to 255 units can be registered

PLC/GOT registrationSet the following contents Register the PLC/GOT to be connected Communication method (Ethernet direct, Convert Ethernet / serial) IP address, Port No., and Station No. of the device to be connected

Up to 8 units can be registered

Measuring point Set the measuring element to collect If the PLC/GOT Specify the device for each registered equipment, and get the word data or bit data

Up to 255 points can be registered

Virtual Set the arithmetic expressions with parentheses Up to 128 points can be registered

Specific consumption Register the specific consumption * Set the display of the specific consumption

Up to 64 points can be registered

Equipment Set the following contents Standard cycle time Operating time Quality rate

Required when calculating the equipment efficiency Up to 42 points can be registered

Project management functions

Save Save the contents that have been registered by the setting software

Write Write the project to the EcoWebServerIII Login ID and password is required Default Login ID: ecoV Password: ecopass

Read Read the project of the EcoWebServerIII Confirm Confirm the project of EcoWebServerIII and setting

software.

1-23

Item Specifications Remarks

Setting functions

Time setting Read and write clock of EcoWebServerIII IP address setting Set the following contents or read the contents set in

EcoWebServerIII main unit.

CH1 IP address Subnet mask Default gateway DNS setting

CH2 IP address Subnet mask Default gateway

Default: 192.168.10.1 Default: 255.255.255.0 Default: None Default: None Default: 192.168.3.1 Default: 255.255.255.0 Default: None

Auto time adjustment Set the following contents IP address registration of SNTP server Time to carry out the auto time adjustment

Logging time setting Set the following contents Daily log Monthly log Annual log

Default: half Default: 0H Default: 1D 0H

Login ID Password

For maintenance

Setting the password

Default Password: ecopass

For getting data

Setting the loggin ID and password Default Loggin ID: guest Password: user

For system management

Setting the loggin ID and password Default Loggin ID: ecoV Password: ecopass

Output setting functions

Data output setting (demand control)

Set the demand control data to be output to the PLC/GOT

Contact output setting Set the contact output destination of the alarm output and demand control

Mail notification setting Set the mail notification destination File transfer setting Set the file transfer destination Energy saving cooperation setting

Set the IP address of the air conditioning controller to be connected

Confirming the terminal connection

Confirm the connection status of the registered terminal

Test/adjustm ent function

Confirming the contact output Confirm the operation of contact output Confirming mail send Confirm the operation of mail send Confirming file transfer Confirm the operation of file transfer Confirming air-conditioner connection

Confirm the operation of Energy saving level send

Integration value setting Set the metric indication value to EcoWebServerIII Collect data Collect the csv file of EcoWebServerIII Delete data Delete the data in the EcoWebServerIII Reset Reset the EcoWebServerIII

2-1

2. Before use This chapter describes the part names and functions of EcoWebServerIII as well as the recommended system environment, the installation of the Setting software, the uninstallation of the Setting software, the upgrade of the Setting software, and the relevant settings of PCs, which are essential for using the Setting software. 2.1. Recommended system environment The system environment requirements for this software to properly operate as follows:

[PC]

Item Description System environment OS (basic software)

Microsoft Windows 7 Professional (32 bit, 64bit) (English version) SP1 Microsoft Windows 8.1 Pro (32bits, 64 bit) (English version) Microsoft Windows 10 Pro(32bit64bit) (English version)

CPU Pentium processor running at 1 GHz or higher, or compatible microprocessor (DOS/V compatible)

Memory*1 1GB or more Hard disk*1 When the data collected by EcoWebServerIII save in the PC, requires its

capacity. CD drive One or more drives (required in the software installation) Display resolution 1280 x 1024 pixels or more Display color 65536 colors or more Input device A mouse and a keyboard External interface A 10BASE-T/100BASE-TX or memory card reader

(required when performing the write/read/confirm of projects via a drive) Web browser*2 Internet Explorer 9 (32 bit) ,10 (32 bit) , 11 (32 bit)

Microsoft Edge Google Chrome

*1 Note that the required memory and free space of hard disk are varied depending on the system environment. *2 Microsoft Edge has been tested in version 97.

Google Chrome has been tested in version 97. [Tablet PC*3]

Item Description OS Android6.0 iOS10 Web browser*4 Google Chrome Safari

*3 You can browse the web screen from the tablet but setting software can not be used on the tablet. *4 Google Chrome has been tested in version 54. Safari has been tested in version 54

2-2

2.2. Glossary

This following defines key terms used in this document.

Item Description

Project Refers to a set value that is used for the operation of EcoWebServerIII Terminal Refers to a CC-Link terminal, CC-Link master/local unit (local station) or MODBUS

terminal . A maximum of 64 CC-Link terminals or CC-Link master/local unit can be registered. For MODBUS terminals, up to 255 units can be registered.

PLC Refers to PLC used by EcoWebServerIII to acquire the computer link communication data using Ethernet communication or an Ethernet/Serial adaptor cable. Up to 32 PLCs can be registered.

Measuring point Refers to an item collected from a terminal. A maximum of 255 points can be registered.

Group Refers to a group of measuring points. A maximum of 32 groups can be registered. Operation monitoring measuring point

Refers to a measuring point for recording the operation status of equipment by monitoring digital input signals. Up to 32 of 255 measuring points can be registered.

Contact output Refers to output when an event such as an error occurs in EcoWebServerIII. Up to 32 contact output points can be registered.

Virtual measuring point Refers to a measuring point for which the computation result between measuring points is used as virtual measurement data. A maximum of 128 measuring points (excluding the 255 measuring points) can be registered.

Specific consumption measuring point

Refers to a measuring point for which the result of dividing energy amount by production amount is used as measurement data. A maximum of 64 measuring points (excluding the 255 measuring points) can be registered.

Equipment Refers to a measuring point for recording an equipment status such as equipment efficiency. A maximum of 42 measuring points can be registered.

Equipment group Refers to a group of equipment measuring points. A maximum of 42 groups can be registered.

Daily data Refers to the data of a measuring point collected on the hour , the half-hour or 15 minutes for 1 day.

Weekly data Refers to the data of a measuring point collected on the hour , the half-hour or 15 minutes for 7 day.

Monthly data Refers to the data of a measuring point collected at 1-day intervals for 1 month. Annual data Refers to the data of a measuring point collected at 1-month intervals for 1 year. Zoom data Refers to the data of a measuring point collected at 1-minute or 5-minutes intervals

for 1 hour. Virtual data (daily) Refers to the data of a virtual measuring point collected on the hour, the half-hour or

15 minutes for 1 day. Virtual data (monthly) Refers to the data of a virtual measuring point collected at 1-day intervals for 1

month. Virtual data (annual) Refers to the data of a virtual measuring point collected at 1-month intervals for 1 year. Specific consumption data (daily)

Refers to the data of a specific consumption measuring point collected on the hour , the half-hour or 15 minutes for 1 day.

Specific consumption data (monthly)

Refers to the data of a specific consumption measuring point collected at 1-day intervals for 1 month.

Specific consumption data (annual)

Refers to the data of a specific consumption measuring point collected at 1-month intervals for 1 year.

Operation history data Refers to the data recorded when the status of an operation monitoring point is changed.

Demand data (daily) Refers to demand data collected at the set demand timing for 1-day. Demand data (monthly) Refers to one month's worth of data recording the demand data collected daily at the

designated time and the daily maximum demand. Demand data (annual) Refers to one year's worth of data recording the demand data collected monthly at the

designated time and the monthly maximum demand.

2-3

Item Description

Demand alarm and control history data

Refers to a record of the demand alarm occurrence/reset and demand control.

System log Refers to the data of events such as errors that occur in EcoWebServerIII. Maintenance password Refers to a password required to reset EcoWebServerIII or to set dates and energy planned

values/target Specific consumptions. Data acquisition login ID and password

Refers to an account required to collect EcoWebServerIII data from FTP clients, and gives read-only permission.

System administration login ID and password

Refers to an account required for the system administration of EcoWebServerIII, and gives read and write permissions for all files.

FTP server Refers to a server that provides files on the Internet (via LAN). FTP stands for File Transfer Protocol.

SMTP server Refers to a mail server that performs the transmission process of email to distribute it to other mail servers on the Internet (via LAN). SMTP stands for Simple Mail Transfer Protocol.

SNTP server Refers to a server that provides time information to clients on the network. SNTP stands for Simple Network Time Protocol.

Domain name Refers to the identifier of a computer or computer group that is connected to the Internet (via LAN).

DNS server Refers to a server that converts domain names into IP addresses on the Internet (via LAN). DNS stands for Domain Name System.

2-4

2.3. Installing the software The setting software can be easily set up and launched by using the dedicated installer. When setting up the EcoWebServerIII setting software for the first time, be sure to read this chapter before performing the set-up. Taking Microsoft Windows 7 as an example, steps are described below. To perform the set-up, you must log in with the administrator privileges.

*1 The operations and dialog boxes may be varied depending on the type of OS on your PC or the operating environment. MES3-255C-DM-EN is used in the following operations, but this also applies MES3-255C-EN.

*2 If an older version of the EcoWebServerIII setting software is already installed, see "2.5 Upgrading the software," and upgrade the setting software.

1 Inserting the CD and launching the installer (1) Insert the EcoWebServerIII setting software set-up CD-ROM into the CD drive on your PC.

The web site below will be displayed. Click the setting software to install.

* If the installer is not automatically launched, open the CD drive with Explorer, and double-click [ReadMe.html] in the root folder to run it.

(2) Security warning screen will appear so click [Execute]. The installation will start. Click the [Cancel] button to cancel the installation.

Click Setting Software.

2-5

(3) The [Welcome to the InstallShield Wizard for Model MES3-255C-DM-EN Setting software ver3] dialog box is displayed. Click the [Next] button. Click the [Cancel] button to cancel the installation.

Remarks If the installer is run when the EcoWebServerIII setting software Ver. 3 is already installed, the [Uninstall the application] confirmation is displayed.

To reinstall, uninstall the software with the following procedure, and then install again. Click the [Yes] button to uninstall the EcoWebServerIII setting software Ver. 3. Click the [No] button to

cancel the uninstallation. When uninstallation is completed, the [Uninstall complete] screen appears.

2 Checking the license agreement The [License Agreement] dialog box is displayed.

When accepting the license agreement, click [Yes] button. If you do not accept the license agreement, click the [No] button to cancel the installation.

2-6

3 Installing the software (1) The [Choose Destination Location] dialog box is displayed.

*1 The default installation locations of each product are listed below.

Product model Installation location MES3-255C-EN C:\Mitsubishi\mes3CEn_ver3\ MES3-255C-DM-EN C:\Mitsubishi\mes3CDmEn_ver3\

*2 The installation location can be changed by clicking the [Browse] button to specify the desired folder. However, we recommend that you use the default installation location in normal conditions.

(2) Click the [Next] button to start the installation. Click the [Cancel] button to cancel the installation.

(3) When the installation is completed, the [InstallShield Wizard Completed] dialog box is displayed. Click the [Finish] button. * Depending on the operating environment, a message prompting you to restart the computer may be

displayed after the installation is completed. In this case, follow the instruction in the displayed message to restart the computer.

(4) The installation is completed. You can launch the setting software from the Windows [Start] menu or the icon on the desktop.

2-7

2.4. Uninstalling the software If the setting software is no longer needed, you can easily remove the software from your PC by using the uninstallation function of [Programs and Features]. To perform the uninstallation, you must log in with the administrator privileges.

*1 The operations and dialog boxes may be varied depending on the type of OS on your PC or the operating environment. MES3-255C-DM-EN is used in the following operations, but this also applies MES3-255C-EN.

*2 Even if the uninstallation is performed, the created projects are not deleted. *3 Uninstall after you have finished this software.

1 Uninstalling the software

(1) Open [Control Panel] of Windows.

(2) Open [Programs] - [Uninstall a program].

2-8

(3) Select the installed setting software, and click [Uninstall].

* When the [User Account Control] dialog box is displayed, click [Continue].

(4) The [Uninstall the application] confirmation message is displayed.

Click the [Yes] button. Click the [No] button to cancel the uninstallation.

(5) The uninstallation is performed.

When the uninstallation is completed, the [Uninstall Completed] dialog box is displayed. Click the [Close] button.

2-9

2.5. Upgrading the software The procedure for upgrading EcoServer III setting software and main unit program is described. The procedure varies depending on the presence or absence of setting software. Please follow the instructions below. Setting value by setting software Ver1 or Ver2 * If there are multiple setting projects, please carry out with this procedure.

1 Backing up the setting project of setting software Refer to "4.2.6 Backing up projects" and backup the setting project of older version (Ver1 or Ver2). (Refer to "4.1 How to start the setting software end the remarks" on how to check the version information)

2 Installing EcoWebServerIII setting software Ver3 Refer to "2.3 Installing the software" and install the EcoWebServerIII setting software Ver2. (* EcoServer III setting software Ver1, Ver2 and Ver3 can be installed on the PC.)

3 Restore the project by EcoWebServerIII setting software Ver3 Refer to "4.2.7 Restore project" and restore the configuration project backed up in step 1.

4 Upgrade the main unit program Refer to "4.8.6 Main body program version up" to upgrade the main unit program.

2-10

Setting value of Ver1 or Ver2 does not exist

1 Install EcoWebServerIII setting software Refer to "2.3 Installing the software" and install the EcoWebServerIII setting software Ver2.

2 Register a new project Refer to "4.2.1 Register a new project " and register a new project. * Register the project name according to the project name of the EcoServer III main unit to be upgraded.

3 Read out the project and back it up Refer to "4.7.3 Reading the project" and read the project. Refer to "4.2.6 Backing up the project" and back up the read project.

4 Upgrade the main unit program Refer to "4.8.6 Main body program version up" to upgrade the main unit program.

3-1

3. Flow of settings This chapter describes the flow of setting before operating EcoWebServerIII. 3.1. Procedures for initial settings (Common)

Initial settings for EcoWebServerIII are as following.

1 Performing the installation and wiring of the unit Please wire the measurement to EcoWebServerIII, see details in manual Hardware. Connect the measuring equipment and EcoWebServerIII.

When using the EcoWebServerIII with demand control function, connect the electric energy pulse signal from the dedicated CT for pulse detection, pulse detector (pulse converter), or electronic electricity meter.

2 Installation of the EcoWebServerIII setting software Install the EcoWebServerIII configuration software to set the EcoWebServerIII IP address and time. Refer to section 2.3 Installing the software" for details on installation.

3 Connecting the personal computer and EcoWebServerIII (1) Connect the personal computer and EcoWebServerIII

Connect the personal computer equipped with the setting server and the EcoWebServerIII with a LAN cable. Connect directly with a LAN straight cable or cross cable.

(2) Change the personal computers IP address Change the personal computer's IP address to connect with EcoWebServerIII. The EcoWebServerIII IP address is set to 192.168.10.1 as the default. Set the personal computer's IP address so this IP address can be accessed.

1. Take a note of the IP address set in the PC. IP Address: Subnet mask: Default gateway:

2. Change IP address set in the PC according to the IP address (factory setting: 192.168.10.1) set in the product.

IP address for the product IP address for the PC

192.168.10.1 IP address: 192.168.10.xx (xx is a value from 2 to 254.) (For example, change to 192.168.10.10, etc.) Subnet address: 255.255.255.0 Default gateway: Blank

3-2

4 Setting the EcoWebServerIII IP address Set the IP address for the EcoWebServerIII with the setting software.

(1) Start the EcoWebServerIII configuration software As the following sample by Windows 7, displayed content might be different by OSs and installed applications. For CC-Link communication product with demand control function

Open [Start] menu [All programs] - [Mitsubishi Energy Management] - [EcoWebServerIII(MES3-255C-DM-EN)ver3] - [Model: MES3-255C-DM-EN Setting software] Or, double-click the [Model MES3-255C-DM-EN Setting software ver3] icon on the desktop.

For CC-Link communication product

Open [Start] menu [All programs] - [Mitsubishi Energy Management] - [EcoWebServerIII(MES3-255C-EN)ver3] - [Model: MES3-255C-EN Setting software] Or, double-click the [Model MES3-255C-EN Setting software ver3] icon on the desktop.

The following splash screen will be displayed at the beginning.

3-3

The Project management dialog box is displayed shortly. When the following dialog box is displayed, the launch is completed.

* When the [User Account Control] dialog box is displayed in Windows 7, click [Yes] to launch the

software.

(2) Creating a new project

On the Project Management dialog box:

Double-click [ ] Or, Select [ ], and click the [Open] button.

Set the following information on the Creation project dialog box, and click the [OK] button.

Project name Any (Set a name for identifying the EcoWebServerIII such as "Factory A" or "Floor B".)

IP address 192.168.10.1 (Set the default IP address.)

Subnet mask 255.255.255.0 Default gateway Blank

Comment Any

3-4

(3) Changing the EcoWebServerIII IP address

1. Click [Options] on the Project Setting dialog box.

2. Read the network information.

Click Read the network information.

*1 If [Read Network information] button is not exist, please refer to [IP address setting] in trouble shooting.

Clicking the button displays the network information read confirmation message.

[Yes]: Executes network information reading.

[No]: Cancels network information reading.

After reading is completed, the messsage below is displayed.

ClickOK.

3-5

The network information currently set in EcoWebServer III is reflected to the IP address setting (Before)

and IP address setting (After) in CH1 and CH2.

3. Change the IP address at IP Address Settings (New) (An example to change the IP address to 10.123.234.10 is shown below. Enter the IP address, subnet mask and default gateway for operations.)

4. Inputting the maintenance password (The default maintenance password is "ecopass".), and click the [ ] button.

* The default maintenance password is ecopass.

Enter the password after change if it was changed.

3-6

5. A message to confirm the changes appears when the [ ] button is clicked. Click the [Yes] button.

The following message appears when the changes are complete. Click the [OK] button.

*1 EcoWebServerIII is automatically reset after the IP address setting is changed. (The changed IP address is validated after resetting is complete.)

*2 It may take 1 to 8 minutes for the reset to finish. Wait for the [STA.] LED on the EcoWebServerIII unit to change to a steady light before starting communication.

*3 The [IP address], [Subnet mask] and [Default gateway] in the project information are also automatically updated to the new values.

(4) Checking the IP address set in EcoWebServerIII 1. Open the front cover on the server section, and set the MODE switch to the STOP position. 2. Hold the RESET switch to the SEL. position. 3. After the CF CARD LED turns off, turn the RESET switch to the RES. position. 4. After all the LEDs except the POWER LED on the power supply section turn off, return the

RESET/SELECT switch to the central position. 5. Wait until the product starts up and the IP address is displayed on the 7-segment LED at the front.

IP address display (Example of display when CH1 is set to 192.168.10.1 and CH2 is set to 192.168.3.1)

16 :C0 10 :192

16 :A8 10 :168

16 :0A 10 :10

16 :01 10 :1

16 :C0 10 :192

16 :A8 10 :168

16 :03 10 :3

16 :01 10 :1

6. After you finish checking the IP address, turn the MODE/STOP/RUN switch to the RUN position.

Hexadecimal : C0 Decimal : 192

Hexadecimal : A8 Decimal : 168

Hexadecimal : 0A Decimal : 10

Hexadecimal : 01 Decimal : 1

Hexadecimal : C0 Decimal : 192

Hexadecimal : A8 Decimal : 168

Hexadecimal : 03 Decimal : 3

Hexadecimal : 01 Decimal : 1

3-7

5 Setting the EcoWebServerIII time The EcoWebServerIII time is set to the default state before shipping. Change the time with the following procedure.

(1) Displaying the [Time] screen 1. Select [Time] in the tree menu on the EcoWebServerIII [Options] screen.

(2) Selecting and inputting [Setting of date and time] Set the following items.

3-8

(3) Inputting the maintenance password Type in the maintenance password (ecopass).

* The default maintenance password is ecopass. Enter the password after change if it was changed.

(4) Changing

1. A confirmation message appears when the [ ] button is clicked. Click the [Yes] button.

2. When the setting of the date and time are completed, the following message will be displayed.

*EcoWebServerIII with demand monitor function EcoWebServerIII with demand control function is shipped at the state of the battery OFF of the demand control unit, the state of clock of the demand control unit is reset, and error occurs. Therefore, you need to reset the power of the EcoWebServerIII (4.11.11 EcoWebServerIII reset) after time setting. Then be timed adjustment (by the TS switch).

3-9

3.2. Setting procedures for starting operation (without demand control

function)

This section describes flow of settings from starting the EcoWebServerIII unit to starting data collection.

1 Data collecting settings step

(1) Measuring data collection settings [Basic settings]

Register the I/O terminal or PLC connected to the unit, register the measuring elements collected from the terminal as the measuring points, and sort into groups. (a) Register the terminal (b) Register the PLC/GOT (c) Register the measuring points

Refer to: 4.5.1CC-Link terminal registration" 4.5.2 MODBUS terminal registration" 4.5.3 PLC/GOT registration" 4.5.4 Measuring point registration"

(2) Measuring data collection settings [Advanced settings]

Set the options for expanding the scope of display and analysis. (This can be skipped when not using the following functions.) (a) Register the virtual measuring points (b) Register the specific consumption

measuring points (c) Register the equipment

Refer to: 4.6.1 Virtual measuring point registration" 4.6.2 Specific consumption measuring point registration" 4.6.3 Equipment registration" 4.6.4 Equipment group registration"

(3) EcoWebServerIII configurations

Set when using the automatic time setting function, or set the logging date and time. (a) Configure the automatic time settings (b) Configure the logging date and time

Refer to: 4.8.3 Auto time settings 4.8.4 Logging date/time settings"

Refer to:

(4) External device collaboration settings

Set this when using mail notification or file transfer. (This can be skipped when not using the following functions.) (a) Set the mail notification (b) Set file transfer (c) Set contact output

4.10.4 SMTP server settings 4.10.6 EcoWebServerIII error settings 4.10.7 Regular report registration" 4.10.8 Upper/lower limit notification registration" 4.10.9 Operating status notification registration" 4. 10.10 Specific consumption target value notification registration" 4.10.11 Energy plan value notification registration" 4.10.12 FTP server setting 4.10.13 Transfer enable/disable, transfer destination folder setting 4.10.3 Contact output settings

(5) Saving and writing a project

Save the set project and write it to the main unit.

Refer to: 4.7.1 Project saving 4.7.2 Project writing

(6) Starting data collection Start collection of data from each terminal.

3-10

3.3. Setting procedures for starting operation (with demand control

function)

This section describes flow of settings from starting the EcoWebServerIII unit with demand control function to starting data collection.

1 Configuring demand control settings and data collection

(1) Demand control settings

Configure the settings related to demand control and control (a) Configure the demand basic settings (b) Configure the demand alarm and control

settings

Refer to: 4.4.1 Normal demand setting (setting of the instrument information)

4.4.2 Demand alarm and control settings

(2) Time zone and calendar settings

Set the time zone name, day pattern and calendar. (a) Configure the demand alarm and control

settings (b) Configure the demand calendar settings

Refer to: 4.4.2 Demand alarm and control settings 4.4.3 Demand calendar settings * Refer to the following section for details. "2 Time zone calendar settings

(3) Measuring data collection settings [Basic settings]

Register the I/O terminal or PLC connected to the unit, register the measuring elements collected from the terminal as the measuring points, and sort into groups. (a) Register the terminal (b) Register the PLC/GOT (c) Register the measuring points

Refer to: 4.5.1 CC-Link terminal registration" 4.5.2 MODBUS terminal registration"

(For CC-Link communication model) 4.5.3 PLC/GOT registration" 4.5.4 Measuring point registration"

(4) Measuring data collection settings [Advanced settings]

Set the options for expanding the scope of display and analysis. (This can be skipped when not using the following functions.) (a) Register the virtual measuring points (b) Register the specific consumption

measuring points (c) Register the equipment

Refer to: 4.6.1 Virtual measuring point registration " 4.6.2 Specific consumption measuring point registration " 4.6.3 Equipment registration " 4.6.4 Equipment group registration "

(5) EcoWebServerIII configurations

Set when using the automatic time setting function, or set the logging date and time. (a) Configure the automatic time settings (b) Configure the logging date and time * When setting the time to the business

meter, do not set the automatic time setting function.

Refer to: 4.8.3 Auto time settings 4.8.4 Logging date/time settings"

3-11

(6) External device collaboration settings

Set this when using mail notification, file transfer, or demand control. (This can be skipped when not using the following functions.) (a) Set the mail notification (b) Set file transfer (c) Set contact output (Set the contact output

for control circuits 1 to 12)

Refer to: 4.10.4 SMTP server settings 4.10.5 Demand notification 4.10.6 EcoWebServerIII error notification settings 4.10.7 Regular report registration" 4.10.8 Upper/lower limit notification registration" 4.10.9 Operating status notification registration" 4.10.10 Specific consumption target value notification registration" 4.10.11 Energy planning value notification registration" 4.10.12 FTP server setting 4.10.13 Transfer enable/disable, transfer destination folder setting 4.10.3 Contact output settings

(7) Energy saving collaboration settings

Set this when connecting to air-conditioner. (a) Set the Web-compatible controller address (b) Set the monitoring enable/disable,

monitoring type, and alarm value 1 to 4

Refer to: 4.10.14 Energy saving level monitor setting 4.10.15 Air-controller connection settings

(8) Saving and writing a project

Save the set project and write it to the main unit.

Refer to: 4.7.1 Project saving 4.7.2 Project writing

(9) Test and adjustment Confirm the operation before starting actual operation.

* Refer to the following section "4.11. Test and Adjustment Function" for details.

(10) Time lag adjustment Set to the business meter's time lag, and press the time lag adjustment (TS) switch.

(11) Start operation Start demand control control and collection of data from each terminal.

*1 The LAN communication will cause a time lag in the time set with the main units setting and setting the time screen. After setting the clock, set the time to the time lag display on the business meter, etc., and press the time lag adjustment (TS) switch.

3-12

2 Setting the time zone and calendar This section describes the procedures for setting the time zone calendar.

(1) Time zone name setting

Set (change) the time zone name as needed. Refer to: "4.4.2 Demand alarm and control setting"

(2) Day pattern setting

Set the pattern of one day's time zone. Refer to: "4.4.3 Demand calendar setting"

(3) Calendar setting

Set the policy changeover month, and each month's daily pattern calendar.

Refer to: "4.4.3 Demand calendar setting"

* The calendar can be set backward from the current date and time to the previous policy changeover month. Up to 24 months can be set. Set the calendar each time the time zone calendar is updated for a contract renewal.

Policy changeover month: April Example when current date is June 2014

Setting date selection range Current year's contract Next year's contract

14 / 2 14 / 3 14 /4 14 / 5 14 / 6 14 / 7 14 / 2 14 / 3 15 /4 15 / 5 16 / 2 16 / 3 16 / 4

This month

Policy changeover month and calendar setting range

3-13

3 Test and adjustment This section describes the procedures for confirming the operation before starting actual operation, and the procedure for adjusting to the business meter indicator value.

(1) Confirming the contact output

Turn the contacts for the set contact output No. 1 to 32 ON (close) or OFF (open).

Refer to: 4.11.2 Contact output operation check"

(2) Confirming mail send

Send a test mail if necessary. Refer to: 4.11.3 Demand notification (only models with demand control function)" 4.11.4 Errors and regular notification check" 4.11.5 Measuring point data monitoring report check "

(3) Confirming file transfer Send a test file if necessary. Refer to:

4.11.6 File automatic transfer check"

(4) Confirming energy saving collaboration

Check the connection with air-conditioner if necessary.

Refer to: 4.11.7 Air-conditioning controller connection check"

(5) Setting the count value

Adjust to the business meter indicator value. Enter the meter indicator value for each time zone.

Refer to: 4.11.8 Integrated count value settings"

(6) Clearing the log Delete the log data (logging data, alarm and control history data) and the system log.

Refer to: 4.11.10 Deleting data"

4-1

4. Operating procedures This chapter describes the operating procedures for [Project management dialog box] and [Project settings dialog box].

*1 The operations and screens may differ according to the user's personal computer OS and working environment.

*2 The functions and screens differ according to the products.

This operation manual describes the common specifications using the CC-Link communication model screens and specifications that vary depending on the products using corresponding product screens.

[Project management dialog box]: Manages the setting data of multiple units of EcoWebServerIII through the project management.

[Project settings dialog box]: Performs settings and operations of "Demand settings", "Data collecting settings", "Project management", "Options", "Output", and "Test" for the projects that are managed through the project management.

4-2

* The demand settings is supported only with EcoWebServerIII with demand control function. A project refers to the setting data required for operating EcoWebServerIII. A maximum of 50 programs can be registered and managed with this setting software.

4-3

4.1. Starting/exiting the setting software

1 Starting the setting software

As the following sample by Windows 7, displayed content might be different by OSs and installed applications. For CC-Link communication product

Open [Start] menu [All programs] - [Mitsubishi Energy Management] - [EcoWebServerIII(MES3-255C-EN) ver3] Click [Model MES3-255C-EN Setting software ver3] Or, double-click the [Model MES3-255C-EN Setting software ver3] icon on the desktop.

For CC-Link communication product with demand control function Open [Start] menu [All programs] - [Mitsubishi Energy Management] - [EcoWebServerIII(MES3-255C-DM-EN) ver3] Click [Model MES3-255C-DM-EN Setting software ver3] Or, double-click the [Model MES3-255C-DM-EN Setting software ver3] icon on the desktop.

You can also launch the configuration software by double-clicking the Model: MES3-255C-DM-EN Setting Software ver3 icon on the desktop.

The following splash screen will be displayed at the beginning.

After a short time, the project management dialog box is displayed.

4-4

When the above dialog box is displayed, the launch is completed. * When the [User Account Control] dialog box is displayed in Windows 7, click [Yes] to launch the

software.

2 Exiting the setting software Click the [Exit] button or the [ ] button on the project management dialog box to exit the setting software.

Remarks

When clicking the [Version] button, you can confirm the version of the setting software.

4-5

4.2. Project management This section describes the procedures for operating the project management. In the project management dialog box, you can register a new project as well as modify, delete, copy, back up, and restore a project. 4.2.1. Registering a new project The procedures for registering a new project are as follows:

1 Displaying the [Creation project] dialog box In the list in the project management dialog box, Double-click [ ]. or Select [ ], and click the [Open] button.

2 Entering items Enter the following items.

[Project name] Enter the name of a project that is to be registered in EcoWebServerIII. (The project name specified here is displayed in the EcoWebServerIII menu dialog box.)

[EcoWebServerIII menu dialog box]

Characters Up to 32 characters

Prohibited characters

The following characters cannot be registered # : , ; * ? < > | A period cannot be used at the beginning or end of the project name.

*1 If you use any disallowed characters, which are listed in "Appendix: Disallowed Character List," the characters may not be displayed properly in the browser display of EcoWebServerIII.

*2 A project name that is the same as the existing one cannot be registered. And "XMLTemplate" and "terminalConfig" can not be registered.

Project name

4-6

[IP address] Enter the same value as the IP address that is specified in EcoWebServerIII.

(When a new project is being created, the default value "192.168.10.1" is automatically entered.)

[Range of configurable IP address] Class Leading IP address bits Range of IP address

A 0 1.0.0.0 to 126.255.255.255

B 10 128.0.0.0 to 191.255.255.255

C 110 192.0.0.0 to 223.255.255.255

*1 The following IP addresses cannot be configured. "0.0.0.0", "xxx.xxx.xxx.255" (xxx are any values) The same IP address as that of the client PC

*2 The same IP address as the one for other projects can be registered.

[Subnet mask] Enter the same value as the subnet mask that is specified in EcoWebServerIII. (When a new project is being created, the default value "255.255.255.0" is automatically entered.)

[Gateway] Enter the default gateway of the network to which EcoWebServerIII is connected. *1 The following IP addresses cannot be configured. "0.0.0.0", "xxx.xxx.xxx.255" (xxx are any values) *2 This item is optional. Configure it only when necessary.

[Comment] Enter a description of the project. Characters Up to 32 characters Prohibited characters

The following characters cannot be registered: # / : , ; * ? < > |

* This item is optional.

3 Registering the project Click the button on the [Creation project] dialog box to register the project.

[OK] button : Registers the project based on the content of the entered items, and returns to the project management dialog box. * If the project name is not entered, the [OK] button is disabled.

[Cancel] button : Discards the entered content, and returns to the project management dialog box.

* If there is an invalid value in the entered content, an error message

as in the right figure is displayed according to the invalid content when the [OK] button is clicked. Reenter the content so that the conditions described in "2 Entering items" will be satisfied.

(Example of display)

Remarks The IP address and subnet mask registered in the project management must be identical with those of

EcoWebServerIII. Otherwise, the connection to EcoWebServerIII cannot be established, and the writing of the project

and other operations cannot be performed. When you configure the settings for the first time after unpacking EcoWebServerIII from the shipping

carton, register a new project by using the following values. IP address : 192.168.10.1 (factory default value) Subnet mask : 255.255.255.0 (factory default value)

4-7

4.2.2. Opening a project The procedures for opening the selected project are as follows:

1 Selecting a project and opening the project settings dialog box Double-click the line of a desired project in the list in the project management dialog box. Or Select the line of a desired project, and click the [Open] button.

[Project settings dialog box]

2 Closing the project Click the [Close] button on the project settings dialog box and return to the project management dialog box.

Line of a desired project

4-8

4.2.3. Deleting a project The procedures for opening the selected project are as follows:

1 Selecting a project and clicking the [Delete] button Select the line of a desired project in the list in the project management dialog box, and click the [Delete] button.

Deletion confirmation dialog box

2 Deleting the project Click the button on the deletion confirmation dialog box to delete the project.

[Yes] button : Deletes the selected project, and returns to the project management

dialog box. [No] button : Cancels the deletion of the project, and returns to the project

management dialog box.

Remarks When the project is deleted, all the data, including the setting values, is deleted.

If you want to save the data, backup the project in advance. ( Refer to 4.2.6 "Backing up projects.")

Line of a desired project

4-9

4.2.4. Modifying the project information The procedures for modifying the project information (Project name, IP address, Subnet mask, Gateway, and Comment) are as follows:

1 Displaying the [Change project information] dialog box Select the line of a desired project in the list in the project management dialog box, and click the [Change] button.

2 Entering the items to be modified Enter the items to be modified. * The items and conditions for entry is the same as in the registration of a new project. (Refer to "4.2.1 Registering a new project.")

3 Registering the modified content Click the button on the [Change project information] dialog box to register the project.

[OK] button : Registers the project based on the content of the modified items, and returns to the project management dialog box. * If the project name is not entered, the [OK] button is disabled.

[Cancel] button : Discards the modified content, and returns to the project management dialog box. * The original content before the modification is restored.

* If there is an invalid value in the entered content, an error

message as in the right figure is displayed according to the invalid content when the [OK] button is clicked. Reenter the content so that the conditions for each item will be satisfied.

(Example of display)

Remarks Even if the IP address, subnet mask, and default gateway are modified in the project

management, the IP address, subnet mask, and default gateway of EcoWebServerIII are not modified. How to modify the IP address, subnet mask, and default gateway of the unit? Refer to "4.8.2 IP address settings."

Line of a desired project

4-10

4.2.5. Copying a project The procedures for copying a project are as follows:

1 Displaying the [Project information setting at copy destination] dialog box

Select a desired project in the list in the project management dialog box, and click the [Copy] button. Set the project information of the destination in order to copy the contents of the selected projects.

2 Entering the items of the copy destination Enter the items. * The items and conditions for entry is the same as in the registration of a new project. ( Refer to "4.2.1 Registering a new project.")

3 Copying and registering the project Click the button on the [Project information setting at copy destination] dialog box to register the project.

[OK] button : Registers the newly copied project, and returns to the project management dialog box. * If the project name is not entered, the [OK] button is disabled.

[Cancel] button : Cancels the copy, and returns to the project management dialog box. * If there is an invalid value in the entered content, an error

message as in the right figure is displayed according to the invalid content when the [OK] button is clicked. Reenter the content so that the conditions for each item will be satisfied.

(Example of display)

Remarks If 50 projects are already registered, no project can be copied.

Line of a desired project

4-11

4.2.6. Backing up projects The procedures for backing up the projects are as follows. All the registered projects are to be backed up.

* We recommend that the projects be backed up on another hard disk or memory so that the projects can be restored even if the projects are deleted by accident.

1 Displaying the [Backup of project] dialog box Click the [Backup] button on the project management dialog box.

4-12

2 Specifying the destination folder (1) Enter the folder path of the destination directly.

or

(2) Click the [ ] button, and select the desired folder to specify the destination folder. If you do not have the specified folder (path) when performing the backup of the project, you may

not be able to back up normally.

(1) When entering the path directly:

1. Enter the path directly in the [Backup folder] field.

The entry conditions are as follows:

Backup folder: Path length Up to 200 characters.

Prohibited characters

The following characters cannot be registered: # , ; * ? < > | /

A period cannot be used at the beginning or end of the project name.

*1: The drive name and alphabet characters are not case-sensitive. *2: If the specified folder does not exist, and error will occur. Prepare the folder

beforehand.

(2) When selecting a desired folder by using the [Browse] button:

1. Click the [ ] button. The [Browse For Folder] dialog box is displayed.

2. Select a destination folder and click a button to determine.

[OK] button : Specifies the selected folder as the destination. The [Backup of project] dialog box is displayed, and the specified destination path is displayed in the [Backup folder] field.

[Cancel] button : Cancels the folder selection, and returns to the [Backup of project] dialog box.

[Make New Folder] button : Creates a new folder.

4-13

3 Performing the backup

(1) Click the button on the [Backup of project] dialog box.

[OK] button : Performs the backup. (The backup confirmation dialog box is displayed.) * If the destination folder path is not entered, the [OK] button is disabled.

[Cancel] button : Cancels the backup, and returns to the project management dialog box.

* If the device of the specified destination is not ready for use, a

message as in the right figure is displayed. Click the [Retry] button after the device is ready, or click the [Cancel] button to change the destination drive.

(2) Click the button on the backup confirmation dialog box.

Yes] button : Performs the backup. [No] button : Cancels the backup, and returns to the project

management dialog box.

(3) When the backup is successfully completed, the following message is displayed. Click the [OK] button to return to the project management dialog box.

Remarks Even if the backup is performed, the current project is not deleted. However, if an older project set has

already been backed up in the specified destination, it is overwritten and lost by the latest backup.

How to restore the projects that have been backed up? Refer to "4.2.7 Restoring projects."

4-14

4.2.7. Restoring projects The procedures for restoring the projects are as follows. All the projects in the restoration source folder are to be restored.

1 Displaying the [Restore of project] dialog box Click the [Restore] button on the project management dialog box.

2 Specifying the source folder (1) Enter the folder path of the source directly.

Or

(2) Click the [ ] button, and select the desired folder to specify the source folder.

(1) When entering the path directly:

1. Enter the path directly in the [Restore folder] field.

The entry conditions are as follows:

Restore folder: Path length Up to 200 characters.

Prohibited characters

The following characters cannot be registered: # , ; * ? < > | / A period cannot be used at the beginning or end of the project name.

* The drive name and alphabet characters are not case-sensitive.

4-15

(2) When selecting a desired folder by using the [Browse] button:

1. Click the [ ] button. The [Browse For Folder] dialog box is displayed.

2. Select the source folder, and click the button.

[OK] button : Specifies the selected folder as the source. The [Restore of project] dialog box is displayed, and the specified source path is displayed in the [Restore folder] field.

[Cancel] button : Cancels the folder selection, and returns to the [Restore of project] dialog box.

3 Performing the restoration

(1) Click the button on the [Restore of project] dialog box.

[OK] button : Performs the restoration. (The restoration confirmation dialog box is displayed.) * If the restore folder is not entered, the [OK] button is disabled.

[Cancel] button : Cancels the restoration, and returns to the project management dialog box.

*1 If the project does not exist in the specified restore source, a message

as in the right figure is displayed. Click the [OK] button and specify the correct restore source again.

*2 If the folder specified as the source is not ready for use, a message as in the right figure is displayed. Click the [Retry] button after the device is ready, or click the [Cancel] button to change the source drive.

4-16

*3 If no project data exists in the specified source folder,

a message as in the right figure is displayed. Click the [Cancel] button, and enter the correct source path.

(2) Click the button on the restoration confirmation dialog box.

Yes] button : Performs the restoration. [No] button : Cancels the restoration, and returns to the project

management dialog box.

(3) When the restoration is successfully completed, the following message is displayed. Click the [OK] button to return to the project management dialog box.

Remarks When the backed-up projects are restored, they are added to the current projects. However, the

current projects with the same name as those of the backed-up projects are overwritten. Note that the setting details will be overwritten with the contents of the backed up project.

If the number of projects exceeds 50 after the restoration of projects, the 51st and subsequent projects are not restored.

4-17

4.3. Demand control and Control Section Specifications (only with

demand control function) This section describes the demand control control functions. Always read this section thoroughly before setting demand control, and set the function correctly. 4.3.1. Demand measuring function The electric energy pulse input to the electric energy pulse signal input terminal is counted to calculate the integral electric energy and current demand. In addition, the predicted demand, adjusted electrical power, permissible power and power limit are calculated from the current demand and remaining time.

Integrated electric energy The integrated electric energy from the start of operation is calculated with the VCT ratio, pulse constant setting value and electric energy pulse input.

(1) Setting values related to integrated electric energy

Setting item Setting range Explanation

VCT ratio 1 to 100000 Scale for the VCT (meter transformer).

Pulse constant value 1 to 50000 Number of pulses per 1 kWh electric energy input into this device.

Multiplying factor 1 to 100000 Value multiplied with the value displayed on the meter when confirming the electric energy measured with the meter.

Number of digits 4 to 6 Number of digits in the electric energy integer displayed on the meter.

* The meter multiplier and the number of meter digits does not need to be set when the multiplying factor is not set.

* Refer to 4.4.1. Normal demand setting for details on the setting methods.

Remarks

(2) Measuring value

[1] Expression for integrated electric energy The integrated electric energy is calculated with the following expression based on the preset VCT ratio and pulse constant.

Integrated electrical power rate = No. of pulses from start constant Pulse

ratio VCT [kWh]

By setting the multiplying factor ([Meter multiplier], [Number of meter digits]), this device will also calculate the integrated electric energy with the same meter rotation value (maximum value of integrated electrical power rate) as the transaction meter. When synchronization with integrated electric energy measurement range is not required Demand control is possible with the simple settings of just the [VCT ratio] and [Pulse constants]. (Always check the [Set multiplying factor] check box.)

Setting the multiplying factor

4-18

[2] Multiplying factor (resolution) and maximum value of integrated electric energy The integrated electric energy range depends on whether or not the multiplying factor is set. (Refer to "Reference [Setting the multiplying factor]" on the previous page.) The maximum integrated electric energy value when setting the multiplying factor is the maximum value of the meter.

Max. value of integrated electric energy

Multiplying factor of integrated electric energy (10n) Conditions

10(Number of meter digits) Meter multiplier 10(Multiplying factor)

3 Meter multiplier 10(No. of meter digits7) <0.01 2 0.01 Meter multiplier 10(No. of meter digits7) <0.1 1 0.1 Meter multiplier 10(No. of meter digits7) <1 0 1 Meter multiplier 10(No. of meter digits7)

A quick reference table of the maximum integrated electric energy value and multiplying factor is given below.

(Example 1) When No. of meter digits =5, meter multiplier =100

Meter multiplier 10(No. of meter digits-7) = 1, integrated electric energy multiplying factor = 0(100) Maximum integrated electric energy value = 10(No. of meter digits+1) Meter multiplier 10(multiplying factor) = 100,000 100 1 = 9,999,999, Thus, the integrated electrical power rate is 0129,999,9989,999,99901.

(Example 2) When No. of meter digits=4, meter multiplier = 240 Meter multiplier 10(No. of meter digits-7) = 0.24 integrated electric energy multiplying factor = 1(10-1) Maximum integrated electric energy value = 10(No. of meter digits+1) Meter multiplier 10(multiplying factor) = 10,000 2400.1 = 2,399,999.9. Thus, the integrated electrical power rate is 0.00.10.22,399,999.82,399,999.90.0 0.1.

Multiplying factor of integrated electric energy = 3

Multiplying factor of integrated electric energy = 2

Multiplying factor of integrated electric energy = 1

Multiplying factor of integrated electric energy = 2

Multiplying factor of integrated electric energy = 1

Multiplying factor of integrated electric energy = 1

Multiplying factor of integrated electric energy = 0

Meter multiplier

Number of meter digits

4-19

Max. value of integrated electric energy

Multiplying factor of integrated electric energy

(10n) Conditions

999.999 3 VCT ratio = 1 9,999.99 2 1 < VCT ratio 10

99,999.9 1 10 < VCT ratio 100 999,999 0 100 < VCT ratio 1,000

9,999,999 1 1,000 < VCT ratio 10,000 99,999,999 2 10,000 < VCT ratio 100,000

(Example 1) When VCT ratio = 100 Maximum integrated electric energy value= 99,999.9 Integrated electric energy multiplying factor is 1(10-1 ) Thus, the integrated electric energy is 0.00.10.299,999.899,999.90.0 0.1.

(Example 2) When VCT ratio = 600 Maximum integrated electric energy value = 99,999.9 Integrated electric energy multiplying factor is 0(100 ) Thus, the integrated electric energy is 012999,998999,99901.

Current Demand The average electric energy (current demand) is calculated from the preset VCT ratio, pulse constant and demand time limit.

An example of the current demand when the demand time limit is 30 minutes is shown below.

(Example 1) When 120 kW electric energy is used for 30 minutes, the current demand after the demand time limit is 120 kW.

(Example 2) When 90 kW is used for 10 minutes and 150 kW is used for 20 minutes, the current demand after the demand time limit is 90x10/30+150x20/30=130 kW.

(1) Setting values related to current demand

Setting item Setting range Explanation

Demand time limit 15, 30, 60 (minutes) Demand time limit for demand control.

VCT ratio 1 to 100000 Scale for the VCT (meter transformer).

Pulse constant value 1 to 50000 Number of pulses per 1 kWh input into this device.

Multiplying factor 1 to 100000 Value multiplied with the value displayed on the meter when confirming the electric energy measured with the meter.

Number of digits 4 to 6 Number of digits in the electric energy integer displayed on the meter.

4-20

(2) Measuring value

[1] Expression for current demand

Current demand = No. of pulses from start of time limit constant Pulse

ratio VCT limit time Demand

60 [kW]

A graph of the demand value (kW) and demand time limit (minutes) is shown below. The electric energy (No. of pulses from start of time limit x VCT ratio/pulse constant) [kWh] is averaged with the demand time limit [minutes], so even if a single electric energy pulse is not input from the current state to the end of the demand time limit, the current demand will not change.

[2] Multiplying factor (resolution) and maximum value of current demand The current demand range depends on whether or not the multiplying factor is set. ( See "4.3.1 Demand measuring function, integrated electric energy "Remarks [Setting the multiplying factor]" for details.)

Maximum value of current demand

Multiplying factor of current demand multiplying factor (10n) Conditions

999.9999 n = 4 Meter multiplier 10(No. of meter digits7) <0.01 9,999.999 n = 3 0.01 Meter multiplier 10(No. of meter digits7) <0.1

99,999.99 n = 2 0.1 Meter multiplier 10(No. of meter digits7) <1 999,999.9 n = 1 1 Meter multiplier 10(No. of meter digits7)

Current Demand

Target demand

Time (min)

Remaining time

0 Demand time limit

Virtual line

Current Demand

Current

Demand value [kW]

4-21

A quick reference table of the maximum current demand value and multiplying factor (10n) is given below.

(Example 1) When No. of meter digits = 5, meter multiplier = 100

Meter multiplier 10(No. of meter digits-7) = 1, current demand multiplying factor = 1(10-1), Maximum current demand value = 999,999.9 Thus, the current demand is 0.00.10.2999,999.8999,999.9.

(Example 2) No. of meter digits = 4, meter multiplier = 240 Meter multiplier 10(No. of meter digits-7) = 0.24, current demand multiplying factor = 2(10-2), Maximum current demand value = 99,999.99 Thus, the current demand is 0.000.010.0299,999.9899,999.99.

Current demand range Conditions

0.0 to 999,999.9 None (always)

(Example 1) When No. of meter digits = 5, meter multiplier = 100 Regardless of the No. of meter digits and meter multiplier setting, the current demand range is 0.0 to 999,999.9. Thus, the current demand is 0.00.10.2999,999.8999,999.9.

Multiplying factor of current demand = 4

Multiplying factor of current demand = 3

Multiplying factor of current demand = 2

Multiplying factor of current demand = 3

Multiplying factor of current demand = 2

Multiplying factor of current demand = 2

Multiplying factor of current demand = 1

Meter multiplier

Number of meter digits

4-22

Predicted Demand The demand value (predicted demand) at the end of the demand time limit when the current load state continues is calculated.

(1) Settings related to predicted demand The settings related to the predicted demand are the same as the current demand. Refer to "Current demand" for details.

(2) Measuring value

[1] Expression for predicted demand

Predicted demand =Current demand time integrated Pulse

demand Increased Remaining time [kW]

*1: The increased demand refers to the increase of current demand within the pulse-integrated time. *2: The pulse-integrated time is as follows.

When remaining time is longer than 3 minutes: 3 minutes When remaining time is less than 3 minutes: 1 minute

[2] Resolution and maximum value of predicted demand The predicted demand range is 0.0 to 999,999.9 [kW].

Current Demand

Target demand

Time (min.)

Remaining time

0 Demand time limit

Virtual line

Current

Demand value [kW]

Pulse integrated time

Increased demand

Predicted demand

Predicted demand

4-23

Adjusted electrical power To make the demand value the target demand when demand time limit is completed, the electrical power (load value) (adjusted electrical power) that must be adjusted (turned on/off) from the current state must be calculated. If the adjusted electrical power <0, this means "excessive" and is an electrical power than must be shut off.

(1) Setting values related to adjusted electrical power

Setting item Setting range Explanation

Demand time limit 15, 30, 60 (minutes)

Demand time limit for demand control.

All day Target demand 0.0 - 999999.9 kW Set the demand electric energy used as target for demand time limit.

Time zone 1 Target demand 0.0 - 999999.9 kW Set the demand electric energy used as target for demand time limit.

Time zone 10 Target demand 0.0 - 999999.9 kW Set the demand electric energy used as target for demand time limit.

(2) Measuring value

[1] Expression for adjusted electrical power

Adjusted electrical power = (Target demand Predicted demand) time Remaining

limit time Demand [kW]

Since the target demand and predicted demand are the average electric energy within the demand time limit, the electrical power that must be adjusted within the remaining time can be expressed by multiplying the "target demand - predicted demand" by the "demand time delay/remaining time".

(Example 1) When demand time limit 30 minutes (1800 seconds), target demand 300.0 [kW], remaining time 900 seconds, and predicted demand 310.0 [kW]

Adjusted electrical power = (10.0) 900

1800 = 20.0 [kW]

When compared with the current load state, if the average 20.0 kW load is not reduced within the remaining time, this means that the demand value will exceed the target demand when the demand time delay finishes.

[2] Resolution and maximum value of adjusted electrical power The adjusted electrical power range is 999999.9 to 999999.9 [kW].

4-24

Permissible Power The electrical power (permissible power) that can be used in the remaining time is calculated from the current demand so that the demand value reaches the target demand when the demand time limit finishes.

(1) Setting values related to permissible power

Setting item Setting range Explanation

Demand time limit 15, 30, 60 (minutes)

Demand time limit for demand control.

All day Target demand 0.0 to 999999.9 kW Set the demand electric energy used as target for demand time limit.

Time zone 1 Target demand 0.0 to 999999.9 kW Set the demand electric energy used as target for demand time limit.

Time zone 10 Target demand 0.0 to 999999.9 kW Set the demand electric energy used as target for demand time limit.

(2) Measuring value

[1] Expression for permissible power

Permissible power = time Remaining

demand Current - demand Target Demand time limit [kW]

Since the target demand and current demand are the average electric energy within the demand time limit, the electrical power that must be adjusted within the remaining time can be expressed by multiplying the "target demand - current demand" by the "demand time delay/remaining time".

[2] Resolution and maximum value of permissible power The permissible power range is 0.0 to 999999.9 [kW].

4-25

Power limit The electrical power (power limit) that could exceed the target demand if operation is not performed with only the base power (load that cannot be shut off) is calculated. This means that if the current demand exceeds the power limit, the target demand will be exceeded even if all loads other than the base power are shut off.

(1) Setting values related to power limit

Setting item Setting range Explanation

Demand time limit 15, 30, 60 (minutes)

Demand time limit for demand control.

All day Target demand 0.0 to 999999.9 kW Set the demand electric energy used as target for demand time limit.

Base power 0.0 to 99999.9 kW Set the load capacity that cannot be shut off. This is used to calculate the power limit.

Time zone 1 Target demand 0.0 to 999999.9 kW Set the demand electric energy used as target for demand time limit.

Base power 0.0 to 99999.9 kW Set the load capacity that cannot be shut off. This is used to calculate the power limit.

Time zone 10 Target demand 0.0 to 999999.9 kW Set the demand electric energy used as target for demand time limit.

Base power 0.0 to 99999.9 kW Set the load capacity that cannot be shut off. This is used to calculate the power limit.

4-26

(2) Measuring value

[1] Expression for power limit

Power limit = Target demand limit time Demand

power Base Remaining time [kW]

[2] Resolution and maximum value of power limit The power limit range is 0.0 to 999999.9 [kW].

Current Demand

Target demand

Time (min.)

Remaining time

0 Demand time limit

Virtual line

Current

Demand value [kW]

Base power

Power limit

Power limit

4-27

4.3.2. Demand control and alarm function When the current demand, predicted demand, adjusted electrical power or power limit value satisfies the alarm occurrence conditions, an alarm (Level 1 alarm, Level 2 alarm, limit alarm, fixed alarm) occurs.

Level 1 alarm This alarm occurs if the predicted demand is larger than the target demand (predicted demand > target demand). Occurrence of the Level 1 alarm means that the target demand will be exceeded if the current load state continues.

(1) Level 1 alarm occurrence/reset conditions Item Details

Occurrence conditions

The Level 1 alarm occurs when all of the following conditions are satisfied. - Predicted demand > Target demand - Target demand0 - Outside alarm mask time (remaining time < demand time limit - alarm mask time)

Reset conditions The Level 1 alarm is reset when one of the following is satisfied. - Predicted demand Target demand - When demand time limit switches

Detection cycle Detection/reset are carried out at a 10-second interval.

Current Demand

Target demand

Time (min.)

Remaining time

0 Demand time limit Current

Demand value [kW]

Pulse integrated time

Increased demand

Predicted demand

Alarm mask time

Alarm occurrence range (Predicted demand > Target demand)

Level 1 alarm

Virtual line

4-28

(2) Setting values related to Level 1 alarm

Setting item Setting range Explanation

Alarm mask time For 15-minute time limit 0 to 15 (minutes)

For 30-minute time limit 0 to 30 (minutes)

For 60-minute time limit 0 to 60 (minutes)

Set the time that each alarm (Level 1 alarm, Level 2 alarm, limit alarm, fixed alarm) is not output after the demand time limit starts.

All day Target demand 0.0 to 999999.9 kW Set the demand electric energy used as target for demand time limit.

Time zone 1 Target demand 0.0 to 999999.9 kW Set the demand electric energy used as target for demand time limit.

Time zone 10 Target demand 0.0 to 999999.9 kW Set the demand electric energy used as target for demand time limit.

4-29

Level 2 alarm This alarm occurs when the adjusted electrical power (excessive amount) is higher than the control load capacity scheduled for shut off ( (adjusted electrical power) control load capacity scheduled for shut off). The control load capacity can be set in the range of 0.0 to 99999.9 [kW]. When the Level 2 alarm occurs, it means that the adjusted electrical power is excessive (negative value) even if the control No. scheduled for shut off is shut off. * This function occurs only when demand control function is enabled.

(1) Level 2 alarm occurrence/reset conditions

Item Details

Occurrence conditions

The Level 2 alarm occurs when all of the following conditions are satisfied. - (adjusted electrical power) control load capacity scheduled for shut off (*1) - Order of priority for one or more control output0 - Target demand0 - Outside alarm mask time (remaining time < demand time limit - alarm mask time) - Remaining time > 0

Reset conditions The Level 2 alarm is reset when one of the following is satisfied. - Adjusted electrical power >-control load capacity scheduled for shut off - When demand time limit switches

Detection cycle Detection/reset are carried out at a 10-second interval.

*1: If all control output with a set order of priority have been shut off and there are no more to shut off, the control load capacity scheduled for shut off is handled as 0.

Current Demand

Target demand

Time (min.)

Remaining time

0 Demand time limit Current

Demand value [kW]

Pulse integrated time

Increased demand

Predicted demand

Alarm mask time

Alarm occurrence range (adjusted electrical power) control load

capacity scheduled for shut off)

Level 2 alarm

Virtual line

4-30

(2) Setting values related to Level 2 alarm

Setting item Setting range Explanation Alarm mask time For 15-minute time limit

0 to 15 (minutes) For 30-minute time limit

0 to 30 (minutes) For 60-minute time limit

0 to 60 (minutes)

Set the time that each alarm (Level 1 alarm, Level 2 alarm, limit alarm, fixed alarm) is not output after the demand time limit starts.

Control output 1

Order of priority Invalid,1 to 12 Set the order of priority for shut off/turn on. The invalid control output is not shut off or turned on with demand control.

Control load capacity

0.0 to 99999.9 kW Set the load capacity of the control output to be shut off and turned on.

Control output 2

Order of priority Invalid, 1 to 12 Set the order of priority for shut off/turn on. The invalid control output is not shut off or turned on with demand control.

Control load capacity

0.0 to 99999.9 kW Set the load capacity of the control output to be shut off and turned on.

Control output 12

Order of priority Invalid, 1 to 12 Set the order of priority for shut off/turn on. The invalid control output is not shut off or turned on with demand control.

Control load capacity

0.0 to 999999.9 kW Set the load capacity of the control output to be shut off and turned on.

All day Target demand 0.0 to 999999.9 kW Set the demand electric energy used as target for demand time limit.

Time zone 1 Target demand 0.0 to 999999.9 kW Set the demand electric energy used as target for demand time limit.

Time zone 10 Target demand 0.0 to 999999.9 kW Set the demand electric energy used as target for demand time limit.

4-31

Limit alarm This alarm occurs if the current demand is larger than the limit power (current demand > limit power), and can occur if alarm type is set to limit alarm. This alarm means that the target demand will be exceeded even if all loads other than the base power are all shut off.

(1) Limit alarm occurrence/reset conditions

Item Details

Occurrence conditions

The limit alarm occurs when all of the following conditions are satisfied. - Current Demand > Power limit - Alarm typeLimit alarm - Target demand0 - Base power0 - Outside alarm mask time (remaining time < demand time limit setting value alarm mask

time) - Remaining time >0

Reset conditions The limit alarm is restored when one of the following is satisfied. - Current Demand Power limit - When demand time limit switches

Detection cycle Detection/reset are carried out at a 10-second interval.

Alarm mask time

Alarm occurrence range (Current Demand > Power limit)

Current Demand

Target demand

Time (min.)

Remaining time

0 Demand time limit

Virtual line

Current

Demand value [kW]

Base power

Power limit

Limit alarm

4-32

(2) Settings related to limit alarm

Setting item Setting range Explanation

Alarm type Limit alarm, fixed alarm Sets whether to detect the limit alarm or fixed alarm.

Alarm mask time For 15-minute time limit 0 to 15 (minutes)

For 30-minute time limit 0 to 30 (minutes)

For 60-minute time limit 0 to 60 (minutes)

Set the time that each alarm (Level 1 alarm, Level 2 alarm, limit alarm, fixed alarm) is not output after the demand time limit starts.

All day Target demand 0.0 to 999999.9 kW Set the demand electric energy used as target for demand time limit.

Base power 0.0 to 99999.9 kW Set the load capacity that cannot be shut off. This is used to calculate the power limit.

Time zone 1 Target demand 0.0 to 999999.9 kW Set the demand electric energy used as target for demand time limit.

Base power 0.0 to 99999.9 kW Set the load capacity that cannot be shut off. This is used to calculate the power limit.

Time zone 10 Target demand 0.0 to 999999.9 kW Set the demand electric energy used as target for demand time limit.

Base power 0.0 to 99999.9 kW Set the load capacity that cannot be shut off. This is used to calculate the power limit.

4-33

Fixed alarm This alarm occurs when the current demand is higher than the fixed alarm value (current demand fixed alarm value), and can occur if the alarm type is set to fixed alarm. The fixed alarm value can be set in the range of 0 to 999,999.9 [kW].

(1) Fixed alarm occurrence/resetting conditions.

Item Details

Occurrence conditions

The fixed alarm occurs when all of the following conditions are satisfied. - Current Demand Fixed alarm value - Alarm typeFixed alarm - Fixed alarm value0 - Outside alarm mask time (remaining time < demand time limit setting value - alarm mask

time) - Remaining time > 0

Reset conditions The fixed alarm is reset when the following is satisfied. - When demand time litmus ends (start)

Detection cycle Detection/reset are carried out at a 10-second interval.

Current Demand

Target demand

Time (min.)

Remaining time

0 Demand time limit Current

Demand value [kW]

Alarm mask time

Alarm occurrence range (Current Demand Fixed alarm value

Fixed alarm value

Fixed alarm

Virtual line

4-34

(2) Settings related to fixed alarm

Setting item Setting range Explanation

Alarm type Limit alarm, fixed alarm Sets whether to detect the limit alarm or fixed alarm.

Alarm mask time For 15-minute time limit 0 to 15 (minutes)

For 30-minute time limit 0 to 30 (minutes)

For 60-minute time limit 0 to 60 (minutes)

Set the time that each alarm (Level 1 alarm, Level 2 alarm, limit alarm, fixed alarm) is not output after the demand time limit starts.

All day Fixed alarm value 0.0 to 99999.9 kW Sets the threshold value for generating the fixed alarm. When alarm type = 2 (fixed alarm), the fixed alarm value occurs if the current demand exceeds the fixed alarm value.

Time zone 1 Fixed alarm value 0.0 to 99999.9 kW

Time zone 10 Fixed alarm value 0.0 to 99999.9 kW

4-35

4.3.3. Demand Control Function The control outputs(loads) are shut off or turned on according to the control method settings. The control output subject to the shut off/turn on control are the control outputs set in the order of priority 1 to 12. When a Level 2 alarm (or Level 1 alarm) occurs, the corresponding control output is shut off or turned on. The order for shutting off and turning on, and the conditions for turning on differ according to the control method.

No. Control method Outline of operation

1 Cyclic - Reclosing

Each control output is shut off and turned on in order so that only a specific control output is not shut off. At the end of demand time limit, the control output currently shut off will be turned on at 5-second intervals in the order of higher priority.

2 Cyclic - Reclosing after Demand time limit

Each control output is shut off in order so that only a specific control output is not shut off. The shut off control output does not turn on until the end of demand time limit. At the end of demand time limit, the control output currently shut off will be turned on at 5-second intervals in the order of higher priority.

3 Cyclic - Reclosing after Reclosing interval

Each control output is shut off in order so that a specific control output is not shut off. However, control output will be turned on forcibly after a lapse of the reclosing time(has been set). It will be turned on independently of the end of the demand time limit. It will be shut off in the order of higher priority.

4 Priority order - Reclosing

The control outputs are shut off in order of highest priority. It will be shut off in the order of higher priority. It will be turned on in the order of lower priority. At the end of demand time limit, the control output currently shut off will be turned on at 5-second intervals in the order of lower priority.

5 Priority order - Reclosing after Demand time limit

The control outputs are shut off in order of highest priority. The shut off control output does not turn on until the end of demand time limit. It will be shut off in the order of higher priority. At the end of demand time limit, the control output currently shut off will be turned on at 5-second intervals in the order of lower priority.

6 Priority cyclic - Reclosing

The control outputs are shut off in order of highest priority and are turned on from the control output with longest shut off time. It will be shut off in the order of higher priority. It will be turn on in the long order of shut off time. Following, shut off in priority order, and turn on in the long order of shut off time. At the end of demand time limit, the control output currently shut off will be turned on in the long order of shut off time.

4-36

The setting values related to demand control are listed below.

Setting item Setting range Explanation

Control method Cyclic - Reclosing Cyclic - Reclosing after Demand time limit Cyclic - Reclosing after Reclosing interval Priority order - Reclosing Priority order - Reclosing after Demand time limit Priority cyclic - Reclosing

Sets the method for turning the control output off and on.

Alarm mask time For 15-minute time limit 0 to 15 (minutes)

For 30-minute time limit 0 to 30 (minutes)

For 60-minute time limit 0 to 60 (minutes)

Set the time that each alarm (Level 1 alarm, Level 2 alarm, limit alarm, fixed alarm) is not output after the demand time limit starts.

Reclosing interval For 15-minute time limit 0 to 15 (minutes)

For 30-minute time limit 0 to 30 (minutes)

For 60-minute time limit 0 to 60 (minutes)

Cyclic - Reclosing after Reclosing interval control, sets the time before turning the control output off and on after it is shut off with the demand control.

Control output Order of priority Invalid, 1 to 12 Set the order of priority for shut off/turn on. The invalid control output is not shut off or turned on with demand control.

Control load capacity 0.0 to 99999.9 kW Set the load capacity of the control output to be shut off and turned on.

4-37

(1) Shut off control Regardless of the control method setting, the corresponding control output is shut off with the following conditions. The operation varies according to the remaining time. Judgment of whether the shut off control conditions are satisfied or not is performed at a 10-second interval.

Range Remaining time Operation

Level 1 alarm occurring Level 2 alarm occurring

Control mask

Demand time limit setting value (min.)

Demand time limit setting value (min.) Alarm mask time

Shut off prohibited Shut off prohibited

Normal control

Less than (demand time limit setting value (min.) Alarm mask time)

5 minutes

1 control output shut off (Shut off interval 30 sec. or longer)

Emergency control

Less than 5 minutes

30 seconds

Multiple control numbers simultaneously shut off (Shut off interval 30 sec. or longer)

Less than 30 seconds

10 seconds

1 control output shut off (Shut off interval 10 sec. or longer)

Multiple control numbers simultaneously shut off (Shut off interval 10 sec. or longer)

Control prohibit Less than 10 seconds Shut off prohibited Shut off prohibited

Current Demand

Target demand

Time (min)

Remaining time

0 30:00

Virtual line

Current

Demand value [kW]

Pulse integrated time

Increased demand

Predicted demand

Alarm mask time 25:00 29:50

Emergency control range

Control mask range Normal control range

Control prohibited range

Example of 30-minute demand degree

4-38

[1] Control mask range Within the alarm mask time, the control output is not shut off regardless of whether a Level 1 alarm or Level 2 alarm is occurring.

[2] Normal control range The control output is shut off when the Level 2 alarm is occurring. One control output is shut off with one shut off control. (Note that control outputs with the same priority are shut off simultaneously.) When shut off control is carried out in succession, the next shut off control is performed at least 30 seconds after the previous shut off control.

* Even during the normal control range, the shut off control is not performed until the shut off within the on control time limit on range is completed.

[3] Emergency control range Multiple (one or more) control outputs are simultaneously shut off while the Level 2 alarm is occurring. When shut off control is carried out in succession, the next shut off control is performed at least 30 seconds after the previous shut off control. When the remaining time is less than 30 seconds, the next shut off control is performed 10 seconds or more after the previous shut off control. Even if the Level 2 alarm is not occurring, shut off control is performed when the Level 1 alarm is occurring. If the control No. is shut off due to a Level 1 alarm occurrence, one control No. is shut off with one shut off control. When shutting off multiple control outputs, the control outputs for which the "control load capacity scheduled for shut off" is the maximum (total of control load capacities scheduled for shut off is close to adjusted electrical power) are simultaneously shut off within the range that "- (adjusted electrical power) total of control load capacities scheduled for shut off) are simultaneously shut off.

Adjusted power= 432 (kW) Next control output (load 1) scheduled for shut off Load capacity = 150 (kW) Next control output (load 2) scheduled for shut off Load capacity = 200 (kW) Next control output (load 3) scheduled for shut off Load capacity = 100 (kW)

At this time, " (150 + 200 + 100) < -432 < (150 + 200)" is established, and control output (load 1) and control output (load 2) are shut off simultaneously.

[4] Control prohibited range Shut off control is not performed when the remaining time is less than 10 seconds.

4-39

(2) On control

(a) Reclosing

When the control method is set to "Cyclic - Reclosing", "Priority order - Reclosing" or "Priority cyclic - Reclosing", the corresponding control output is turned on with the following conditions.

Judgment of whether the turn on control conditions are satisfied or not is performed at a 10-second interval in the control range. In the time limit on range, the turn on operation starts unconditionally at the start of the time limit.

Range Remaining time Operation

Time limit on

(Demand time limit switch)

Until all shut off control outputs are turned on

Conditions: None Operation: All shut off control outputs are turned

on (Turn on interval 5 sec.)*

Normal control

Less than (time that all shut off control outputs have completed turn on)

10 seconds

Conditions: Adjusted electrical power Control load capacity scheduled for turn on 2

Operation: 1 control output on (Turn on interval 30 sec. or more)

Control prohibit Less than 10 seconds Conditions: None Operation: Turn on prohibited

Current Demand

Target demand

Time (min.)

Remaining time

0 30:00

Virtual line

Current

Demand value [kW]

Pulse integrated time

Increased demand

Predicted demand

Alarm mask time 25:00 29:50

Normal control range

Control prohibited Time limit on range

Example of 30-minute demand degree

4-40

[1] Time limit on range The control output shut off at when the demand time limit switches is unconditionally turned on. Turn on is performed at a 5 second interval. The control output turned on first is turned on when the time limit switches.

[2] Normal control range The control output is turned on when the following expression is satisfied. One control output is turned on with one on control. (Note that control outputs with the same priority are turned on simultaneously.)

Adjusted electrical power control load capacity scheduled for on 2

When on control is carried out in succession, the next on control is performed at least 30 seconds after the previous on control.

[3] Control prohibited range On control is not performed when the remaining time is less than 10 seconds.

4-41

(b) Reclosing after Demand time limit When the control method is "Cyclic - Reclosing after Demand time limit" or "Priority order Reclosing after demand time limit", the corresponding control output is turned on with the following conditions. In the time delay on range, the on operation starts conditionally when the time limit starts.

Range Remaining time Operation

Time limit on

(Demand time limit switch)

Until all shut off control outputs are turned on

Conditions: None Operation: All shut off control outputs are turned

on (Turn on interval 5 sec.)*

Control prohibit Less than (time that all shut off control outputs have completed turn on)

Conditions: None Operation: Turn on prohibited

[1] Time limit on range The shut off control output is unconditionally turned on when the demand time limit starts. The control output turned on first turns on when the time limit switches.

[2] Control prohibited range On control is not performed after the time limit on is completed.

Current Demand

Target demand

Time (min.)

Remaining time

0 30:00

Virtual line

Current

Demand value [kW]

Pulse integrated time

Increased demand

Predicted demand

Alarm mask time 25:00 29:50

Control prohibited range

Time limit on range

Example of 30-minute demand degree

4-42

(c) Reclosing after Reclosing time When the control method is set to "Cyclic Reclosing after Reclosing interval", the corresponding control output is turned on with the following conditions.

Range Remaining time Operation

Control (Turns on at conditions on right regardless of remaining time)

Conditions: Set time has passed after shut off (*) Operation: On

(Same interval as shut off)

*: The set time is the same as the Reclosing interval setting value.

[1] Control range The control output is turned on after a set time has passed after shut off. The time between shut off and turn on can be set with the off/on time. One control output is turned on with one on control (note that control outputs shut off simultaneously are turned on simultaneously).

Current Demand

Target demand

Time (min.)

Remaining time

0 30:00

Virtual line

Current

Demand value [kW]

Pulse integrated time

Increased demand

Predicted demand

Alarm mask time 25:00 29:50

Control range

Example of 30-minute demand degree

4-43

(3) Details of control methods (a) Cyclic - Reclosing control

Each control output is shut off and turned on in order so that only a specific control output is not shut off. A control output that has been manually controlled even once is excluded from the demand control target within that time limit.

Sh ut

o ff

Current time limit shut off control (Current demand time limit)

The control numbers are shut off in the order of priority. (Shut off in the order of 123111212) When all control outputs from the oldest order of priority have been shut off, the system returns to the newest order of priority number, and shuts off the control outputs.

Next time limit shut off control (Next demand time limit)

The next demand time limit is also shut off following the order of priority numbers. (At the next demand time limit, the shut off starts from the control output in the order of priority following the previous time limit.) * If the next order of priority number is manually controlled at the previous

demand time limit, the shut off starts from the next control output in the order.

Shut off control when the order of priority number setting is changed

If the priority setting is changed, shut off starts from the newest order of priority number at the demand time limit following the setting change.

Tu rn

ed o

n

Current time limit turn on control (Current demand time limit)

Of the control outputs that are shut off, the control outputs are turned on from the number with the longest shut off time. If the control outputs have the same shut off time, they are turned on in the order of priority. (Turned on in the order of 12311121 2)

Next time limit turn on control (Next demand time limit)

When the next demand time limit starts, the control outputs are all turned on in order of longest shut off time including the control numbers that have been controlled manually. If the control outputs have the same shut off time, they are turned on in the order of priority. The control output shut off at the next demand time limit is turned on simultaneously as the current time limit on control.

Turn on control when the order of priority number setting is changed

If the order of priority outputs have been changed from 1-12 to invalid, the changed control numbers are all turned on when the demand time limit switches. If the order of priority numbers have been changed (including when changed from 1-12 to invalid), or when the control method has been changed to off/on - cyclic control, all control outputs are turned on from the newest order of priority number when the demand time limit switches.

4-44

[1] Example of normal operation (Values in parentheses indicate the priority level numbers) The control outputs are shut off in the order of priority number (1239), and are turned on again in the order of longest shut off time (1234). If the control outputs have the same order of priority, they are shut off simultaneously and turned on simultaneously. In this example, priority 8 and 9 are shut off the multiple control output simultaneously at emergency control region. When the demand time limit ends (the next demand time limit starts), the control numbers that are shut off at the end of the demand time limit are turned on in order of the longest shut off time (6789). These are turned on at a five-second interval. If the control outputs have the same shut off time, they are turned on in the order of the priority (89). At the next demand time limit, the control numbers are turned off in the order of priority number (1012) following those shut off at the previous time limit. After control No. 12, the newest control output in the order of priority is returned to and shut off (12).

Control output

Order of priority

Previous time limit Current time limit 25 20 15 10 5 25 20 15 10 5

4 1 3 2 OFF 2 3

1 4

5 4

6 6 ON OFF ON

7 7 8 8

11 9 9 10

12 Invalid 10 12

Example of operation for off/on - cyclic control

[2] Example of operation during manual control (Values in parentheses indicate the priority numbers) The control outputs are shut off in the order of priority number (1237). The order of priority number 8 control number is manually controlled, and thus is excluded from the demand control target. The next order of priority number (9) is shut off. With on control, the control outputs are turned on in order of longest shut off time (1234). When the demand time limit ends (the next demand time limit starts), the control numbers, including the manual shut off control number, are turned on in the order of the longest shut off time (861279). These are turned on at a five-second interval. At the next demand time limit, the control numbers are turned off in the order of priority number (1012) following those shut off at the previous time limit. After control No. 12, the newest control number in the order of priority is returned to and shut off (12).

Control output

Order of priority

Previous time limit Current time limit 25 20 15 10 5 25 20 15 10 5

4 1 3 2 OFF 2 3

1 4

5 4

6 6 ON OFF ON

7 7 8 8 Manual shut off

11 9 9 10

12 Invalid 10 12 Manual shut off

Example of operation during manual control

4-45

(b) Cyclic Reclosing after Demand time limit control Each control output is shut off and turned on in order so that only a specific control output is not shut off. A control output that has been shut off cannot be turned on again until the demand time limit switches. A control output that has been manually controlled even once is excluded from the demand control target within that time limit.

Sh ut

o ff

Current time limit shut off control (Current demand time limit)

The control numbers are shut off in the order of priority. (Shut off in the order of 123111212) When all control numbers from the oldest order of priority have been shut off, the system returns to the newest order of priority output, and shuts off the control outputs.

Next time limit shut off control (Next demand time limit)

The next demand time limit is also shut off following the order of priority numbers. (At the next demand time limit, the shut off starts from the control output in the order of priority following the previous time limit.) * If the next order of priority output is manually controlled at the previous

demand time limit, the shut off starts from the next control output in the order.

Shut off control when the order of priority number setting is changed

If the priority setting is changed, shut off starts from the newest order of priority number at the demand time limit following the setting change.

Tu rn

ed o

n

Current time limit turn on control (Current demand time limit)

Cannot be turned on until the demand time limit ends.

Next time limit turn on control (Next demand time limit)

When the next demand time limit starts, the control outputs are all turned on in order of longest shut off time including the control numbers that have been controlled manually. If the control outputs have the same shut off time, they are turned on in the order of priority. The control output shut off at the next demand time limit is turned on simultaneously as the current time limit on control.

Turn on control when the order of priority number setting is changed

If the order of priority numbers have been changed from 1-12 to invalid, the changed control outputs are all turned on when the demand time limit switches. If the order of priority outputs have been changed (including when changed from 1-12 to invalid), or when the control method has been changed to time limit on - cyclic control, all control outputs are turned on from the newest order of priority number when the demand time limit switches.

4-46

[1] Example of normal operation (Values in parentheses indicate the priority level numbers) The control numbers are shut off in the order of priority output (1239). Control numbers with the same order of priority are shut off simultaneously. These cannot be turned on within the demand time limit in which they were shut off. In this example, priority 8 and 9 are shut off the multiple control output simultaneously at emergency control region. When the demand time limit ends (the next demand time limit starts), the control outputs that are shut off at the end of the demand time limit are turned on in order of the longest shut off time (1239). These are turned on at a five-second interval. If the control outputs have the same shut off time, they are turned on in order of the priority (89). At the next demand time limit, the control outputs are turned off in the order of priority number (1012) following those shut off at the previous time limit. After control No. 12, the newest control output in the order of priority is returned to and shut off (12).

Control output Order of priority

Previous time limit Current time limit 25 20 15 10 5 25 20 15 10 5

4 1 3 2 OFF 2 3 1 4 5 4 6 6 ON OFF ON 7 7 8 8

11 9 9 10

12 Invalid 10 12

Example of operation for time limit on - cyclic control

[2] Example of operation during manual control (Values in parentheses indicate the priority numbers) The control outputs are shut off in the order of the priority number (1237). The order of priority number 8 control output is manually controlled, and thus is excluded from the demand control target. The next order of priority number (9) is shut off. This cannot be turned on within the demand time limit in which it was shut off. When the demand time limit ends (the next demand time limit starts), the control outputs, including the manual shut off control output, are turned on in order of the longest shut off time (1289). These are turned on at a five-second interval. At the next demand time limit, the control outputs are turned off in the order of priority number (1012) following those shut off at the previous time limit. After control No. 12, the newest control output in the order of priority is returned to and shut off (12).

Control output Order of priority

Previous time limit Current time limit 25 20 15 10 5 25 20 15 10 5

4 1 3 2 OFF 2 3 1 4 5 4 6 6 ON OFF ON 7 7 8 8 Manual shut off

11 9 9 10

12 Invalid 10 12 Manual shut off

Example of operation during manual control

4-47

(c) Cyclic Reclosing after Reclosing interval control Each control output is shut off and turned on in order so that only a specific control output is not shut off. A control output that has been shut off is forcibly turned on again when the off/on time passes. A control output that has been manually controlled even once is excluded from the demand control target within that time limit.

Sh ut

o ff

Current time limit shut off control (Current demand time limit)

The control numbers are shut off after a set time in the order of priority. (Shut off in the order of 123111212) When all control outputs from the oldest order of priority have been shut off, the system returns to the newest order of priority number, and shuts off the control outputs.

Next time limit shut off control (Next demand time limit)

The next demand time limit is also shut off after a set time following the order of priority numbers. (At the next demand time limit, the shut off starts from the control output in the order of priority following the previous time limit.) * If the next order of priority number is manually controlled at the previous

demand time limit, the shut off starts after a set time from the next control output in the order.

Shut off control when the order of priority number setting is changed

If the priority setting is changed, shut off starts after a set time from the newest order of priority number at the demand time limit following the setting change.

Tu rn

ed o

n

Current time limit turn on control (Current demand time limit)

The control number is forcibly turned on again after the shut off time has surpassed the preset off/on time.

Next time limit turn on control (Next demand time limit)

Even when the next demand time limit starts, the control output shut off from the previous time limit is turned on after a set time from the shut off. However, for the control output that was manually controlled during the past time limit, all control outputs are turned on again when the next demand time limit starts. Control outputs with the same shut off time are shut off in the order of priority. The control output shut off at the next demand time limit is turned on simultaneously as the current time limit on control.

Turn on control when the order of priority number setting is changed

If the order of priority numbers have been changed from 1-12 to invalid, the changed control outputs are all turned on when the demand time limit switches. If the order of priority numbers have been changed (including when changed from 1-12 to invalid), or when the control method has been changed to Turn on after a set time - cyclic control, all control outputs are turned on from the newest order of priority number when the demand time limit switches.

4-48

[1] Example of normal operation (Values in parentheses indicate the priority level numbers) The control outputs are shut off in the order of priority level (1239). Control outputs with the same priority level are shut off simultaneously. The shut off control output is turned on after a set time (off/on time) has passed after shut off. In this example, priority 8 and 9 are shut off the multiple control output simultaneously at emergency control region. Even if the demand time limit ends (the next demand time limit starts), the control output that are shut off from the previous time limit is turned on after a set time has passed from the shut off. At the next demand time limit, the control outputs are turned off in the order of priority number (1012) following those shut off at the previous time limit. After control No. 12, the newest control output in the order of priority is returned to and shut off (12).

Control output Order of priority

Previous time limit Current time limit 25 20 15 10 5 25 20 15 10 5

4 1 3 2 OFF 2 3 1 4 5 4 6 6 ON OFF ON 7 7 8 8

11 9 9 10

12 Invalid 10 12

Example of operation for off/on after set time - cyclic control

[2] Example of operation during manual control (Values in parentheses indicate the priority numbers) The control outputs are shut off in the order of the priority (1237). The order of priority number 8 control output is manually controlled, and thus is excluded from the demand control target. The next order of priority number (9) is shut off. The shut off control output is turned on after a set time (off/on time) has passed after shut off. When the next demand time limit ends (the next demand time limit starts), the control outputs manually shut off at the end of the demand time limit are turned on in order of longest shut off time (812). These are turned on at a five-second interval. At the next demand time limit, the control outputs are turned off in the order of priority number (1012) following those shut off at the previous time limit. After control No. 12, the newest control output in the order of priority is returned to and shut off (12).

Control output Order of priority

Previous time limit Current time limit 25 20 15 10 5 25 20 15 10 5

4 1 3 2 OFF 2 3 1 4 5 4 6 6 ON OFF ON 7 7 8 8 Manual shut off

11 9 9 10

12 Invalid

10 12 Manual shut off

Example of operation during manual control

4-49

(d) Priority order - Reclosing control The control outputs are shut off from the order of highest priority, and are turned on from the control output with the order of lowest priority. A control No. that has been manually controlled even once is excluded from the demand control target within that time limit.

Sh ut

o ff

Current time limit shut off control (Current demand time limit)

Shut off starts with the control output having the highest order of priority among those that are on.

Next time limit shut off control (Next demand time limit)

Even at the next demand time limit, shut off starts with the control output having the highest order of priority among those that are on.

Shut off control when the order of priority number setting is changed

Even when the order of priority has been changed, at the next demand time limit after the changes, shut off starts with the control output having the highest order of priority among those that are on.

Tu rn

ed o

n

Current time limit turn on control (Current demand time limit)

Turning on starts with the control output having the lowest order of priority among those that are shut off.

Next time limit turn on control (Next demand time limit)

When the next demand time limit starts, all control outputs, including the manually controlled control output, are turned on starting with the control output having the lowest order of priority. The control output shut off at the next demand time limit is turned on simultaneously as the current time limit on control.

Turn on control when the order of priority number setting is changed

If the order of priority numbers have been changed from 1-12 to invalid, the changed control outputs are all turned on when the demand time limit switches. If the order of priority has been changed (including 1-12 to invalid), or when the control method has been changed to off/on order of priority control, all control outputs are turned on from the lowest order of priority number when the demand time limit switches.

4-50

[1] Example of normal operation (Values in parentheses indicate the priority level numbers) The control outputs that are on are turned off in the order of highest priority (1237). With on control, the control outputs that are off are turned on in the order of lowest priority (764). If the control outputs have the same order of priority, they are shut off simultaneously and turned on simultaneously. In this example, priority 8 and 9 are shut off the multiple control output simultaneously at emergency control region. When the demand time limit ends (the next demand time limit starts), the control outputs that are shut off at the end of the demand time limit are turned on in the order of lowest priority (1210981). These are turned on at a five-second interval. The control outputs with same order of priority are turned on simultaneously. At the next demand time limit, the control outputs are shut off in the order of highest priority (123).

Control output Order of priority

Previous time limit Current time limit

25 20 15 10 5 25 20 15 10 5

4 1 3 2 OFF 2 3 1 4 5 4 6 6 ON OFF ON OFF ON 7 7 8 8

11 9 9 10

12 Invalid 10 12

Example of operation for off/on - order of priority control

[2] Example of operation during manual control (Values in parentheses indicate the priority numbers) The control outputs that are on are turned off in the order of highest priority (1234). Control output 5 (order of priority 4) is manually controlled so it is excluded from the demand control target. The next priority (67) is shut off. With on control, the control outputs that are shut off are turned on in the order of lowest priority (764). In this example, priority 8 and 9 are shut off the multiple control output simultaneously at emergency control region. When the demand time limit ends (the next demand time limit starts), the control outputs, including the manual shut off control output, are turned on in the order of lowest priority (121091). These are turned on at a five-second interval. At the next demand time limit, the control outputs are shut off in the order of highest priority (123).

Control output Order of priority

Previous time limit Current time limit 25 20 15 10 5 25 20 15 10 5

4 1 3 2 OFF 2 3 1 4 5 4 Manual shut off 6 6 ON OFF OFF ON 7 7 8 8

11 9 9 10 Manual shut off

12 Invalid 10 12

Example of operation during manual shut off control

4-51

(e) Priority order Reclosing after Demand time limit control The control outputs are shut off from the order of highest priority. A control output that has been shut off cannot be turned on until the demand time limit ends (starts). A control output that has been manually controlled even once is excluded from the demand control target within that time limit.

Sh ut

o ff

Current time limit shut off control (Current demand time limit)

Shut off starts with the control output having the highest priority among those that are on.

Next time limit shut off control (Next demand time limit)

Even at the next demand time limit, shut off starts with the control output having the highest order of priority among those that are on.

Shut off control when the order of priority number setting is changed

Even when the order of priority has been changed, at the next demand time limit after the changes, shut off starts with the control output having the highest order of priority among those that are on.

Tu rn

ed o

n

Current time limit turn on control (Current demand time limit)

Cannot be turned on until the demand time limit ends.

Next time limit turn on control (Next demand time limit)

When the next demand time limit starts, all control outputs, including the manually controlled control number, are turned on starting with the control output having the lowest order of priority. The control output shut off at the next demand time limit is turned on simultaneously as the current time limit on control.

Turn on control when the order of priority number setting is changed

If the order of priority numbers have been changed from 1-12 to invalid, the changed control outputs are all turned on when the demand time limit switches. If the order of priority has been changed (including 1-12 to invalid), or when the control method has been changed to time limit on - priority control, all control outputs are turned on from the lowest order of priority number when the demand time limit switches.

4-52

[1] Example of normal operation (Values in parentheses indicate the priority level numbers) The control outputs that are on are turned off in the order of highest priority (1237). If the control outputs have the same order of priority, they are shut off simultaneously. These cannot be turned on within the demand time limit that they were shut off. In this example, priority 8 and 9 are shut off the multiple control output simultaneously at emergency control region. When the demand time limit ends (the next demand time limit starts), the control outputs that are shut off at the end of the demand time limit are turned on in the order of lowest priority (1210981). These are turned on at a five-second interval. The control outputs with same order of priority are turned on simultaneously. At the next demand time limit, the control outputs are shut off in the order of highest priority (123).

Control output Order of priority

Previous time limit Current time limit 25 20 15 10 5 25 20 15 10 5

4 1 3 2 OFF 2 3 1 4 5 4 6 6 ON OFF ON 7 7 8 8

11 9 9 10

12 Invalid 10 12

Example of operation for time limit on - order of priority control

[2] Example of operation during manual control (Values in parentheses indicate the priority numbers) The control outputs that are on are turned off in the order of highest priority (1234). Control output 5 (order of priority 4) is manually controlled so it is excluded from the demand control target. The next priority (678912) is shut off. These cannot be turned on within the demand time limit that they were shut off. In this example, the order of priority 8 and 9 are simultaneously shut off with the multiple control output simultaneous shut off. When the demand time limit ends (the next demand time limit starts), the control outputs, including the manual shut off control output, are turned on in the order of lowest priority (121091). These are turned on at a five-second interval. At the next demand time limit, the control outputs are shut off in the order of highest priority (123).

Control output Order of priority

Previous time limit Current time limit 25 20 15 10 5 25 20 15 10 5

4 1 3 2 OFF 2 3 1 4 5 4 Manual shut off 6 6 ON OFF ON 7 7 8 8

11 9 9 10 Manual shut off

12 Invalid 10 12

Example of operation during manual control

4-53

(f) Priority cyclic - Reclosing control The control outputs are shut off from the order of highest priority, and are turned on again from the control output with the longest shut off time. A control output that has been manually controlled even once is excluded from the demand control target within that time limit.

Sh ut

o ff

Current time limit shut off control (Current demand time limit)

Shut off starts with the control output having the highest priority among those that are on.

Next time limit shut off control (Next demand time limit)

Even at the next demand time limit, shut off starts with the control output having the highest order of priority among those that are on.

Shut off control when the order of priority number setting is changed

Even when the order of priority has been changed, at the next demand time limit after the changes, shut off starts with the control output having the highest order of priority among those that are on.

Tu rn

ed o

n

Current time limit turn on control (Current demand time limit)

The control outputs that are shut off are turned on in order from the one with the longest shut off time. Control outputs with the same shut off time are turned on from the one with the highest order of priority.

Next time limit turn on control (Next demand time limit)

When the next demand time limit starts, the control outputs, including the manually controlled control number, are turned on in order of longest shut off time. Control outputs with the same shut off time are turned on from the one with the highest order of priority. The control output shut off at the next demand time limit is turned on simultaneously as the current time limit on control.

Turn on control when the order of priority number setting is changed

If the order of priority numbers have been changed from 1-12 to invalid, the changed control outputs are all turned on when the demand time limit switches. If the order of priority has been changed (including 1-12 to invalid), or when the control method has been changed to off/on - priority cyclic control, all control outputs are turned on from the highest order of priority number when the demand time limit switches.

4-54

[1] Example of normal operation (Values in parentheses indicate the priority level numbers) The control outputs that are on are shut off in the order of highest priority (123), and are turned on in the order of longest shut off time (12). Then, the control outputs that are on are shut off in the order of highest priority (12467), and are turned on in the order of longest shut off (312). In this example, priority 8 and 9 are shut off the multiple control output simultaneously at emergency control region. When the demand time limit ends (the next demand time limit starts), the control outputs shut off at the end of the demand time limit are turned on in order of longest shut off time (67123891012). These are turned on at a five-second interval. The control outputs with the same shut off time are turned on in the order of highest priority (89). The control outputs with same order of priority are turned on simultaneously. At the next demand time limit, the control outputs are shut off in the order of highest priority (123).

Control output Order of priority

Previous time limit Current time limit 25 20 15 10 5 25 20 15 10 5

4 1 3 2 OFF 2 3 1 4 5 4 6 6 ON OFF ON 7 7 8 8

11 9 9 10

12 Invalid 10 12

Example of operation for Off/on - priority cyclic control

[2] Example of operation during manual control (Values in parentheses indicate the priority numbers) The control outputs that are on are shut off in the order of highest priority (123) and are turned on in the order of longest shut off time (12). Then, the control outputs that are on are shut off in the order of highest priority (124). Control No. 5 (order of priority 4) is manually controlled so it is excluded from the demand control target. The next priority (67) is shut off. In this example, priority 8 and 9 are shut off the multiple control output simultaneously at emergency control region. When the demand time limit ends (the next demand time limit starts), the control outputs, including the manually shut off control output, are turned on in the order of longest shut off time (44612). These are turned on at a five-second interval. The control outputs with same order of priority are turned on simultaneously. At the next demand time limit, the control numbers are shut off in the order of highest priority (123).

Control output Order of priority

Previous time limit Current time limit 25 20 15 10 5 25 20 15 10 5

4 1

3 2 OFF 2 3

1 4

5 4 Manual shut off

6 6 ON OFF ON

7 7

8 8

11 9

9 10 Manual shut off

12 Invalid

10 12

Example of operation for manual shut off control

4-55

4.3.4. Seasonal Time Zone Control Function

Time Zone Schedule Function The current time zone 1 to time zone 10 is judged from the current date and time, and the system is run with the settings (target demand, fixed alarm value, base power) for the corresponding time zone. By setting the time zone setting, daily pattern setting and calendar setting beforehand, demand control that matches the seasons or date/time can be carried out.

Time zone schedule for July 28, 2014, 21:00 to 21:30 (30-minute demand time limit) In the following diagram, daily pattern 3 is set for the July 28, 2014 in the calendar settings. Thus, the system runs with pattern 3 on July 28, 2014. 21:00 to 21:30 is set to time zone 2 in the daily pattern, so the time zone 2 settings (target demand 300.0 kW, fixed alarm value 0.0 kW, base power 40.0 kW) are used during 21:00 to 21:30 on July 28, 2014.

Calendar setting

(24 months using the enactment changeover month as the starting month)

Daily pattern setting (Daily pattern 1 to 40)

Time zone setting (Time zone 1 to 10)

* Refer to "4.4.2 Demand alarm and control setting", and "4.4.3 "Demand calendar setting" for details on setting.

Remarks

- When not using the seasonal time zone control, one value can be set each for target demand, fixed alarm value and base power. The demand control control is carried out based on those setting values.

Calender setting Setting of year: 2014 setting of month: July 1: daily pattern 3 2: daily pattern 3 3: daily pattern 3 4: daily pattern 3 5: daily pattern 2 28: daily pattern 3 29: daily pattern 3 30: daily pattern 3 31: daily pattern 3

Calender setting Setting of year: 2014 setting of month: July 1: daily pattern 3 2: daily pattern 3 3: daily pattern 3 4: daily pattern 3 5: daily pattern 2 28: daily pattern 3 29: daily pattern 3 30: daily pattern 3 31: daily pattern 3

Calender setting Setting of year: 2014 setting of month: July 1: daily pattern 3 2: daily pattern 3 3: daily pattern 3 4: daily pattern 3 5: daily pattern 2 28: daily pattern 3 29: daily pattern 3 30: daily pattern 3 31: daily pattern 3

Daily pattern 3 00:00 - 00:30: time zone 1 00:30 - 01:00: time zone 1 01:00 - 01:30: time zone 1 01:30 - 02:00: time zone 1 02:00 - 02:30: time zone 1 02:30 - 03:00: time zone 1 03:00 - 03:30: time zone 1 03:30 - 04:00: time zone 1 21:00 - 21:30: time zone 2 21:30 - 22:00: time zone 2 22:00 - 22:30: time zone 2 22:30 - 23:00: time zone 2 23:00 - 23:30: time zone 3 23:30 - 24:00: time zone 3

Daily pattern 3 0: 0 - 0 :30: time zone 1

0 :30 - 01: 0: time zone 1 01: 0 - 01:30: time zone 1 01:30 - 02: 0: time zone 1 02: 0 - 02:30: time zone 1 02:30 - 0 : 0: time zone 1 0 : 0 - 03:30: time zone 1 03:30 - 04:00: time zone 1 21: 0 - 1:30: time zone 2 21:30 - 22:00: time zone 2 22:00 - 22:30: time zone 2 22:30 - 2 : 0: time zone 2 23:00 - 23:30: time zone 3 23:30 - 24:00: time zone 3

Daily pattern 3 00:00 - 00:30: time zone 1 00:30 - 01:00: time zone 1 01:00 - 01:30: time zone 1 01:30 - 02:00: time zone 1 02:00 - 02:30: time zone 1 02:30 - 03:00: time zone 1 03:00 - 03:30: time zone 1 03:30 - 04:00: time zone 1 21:00 - 21:30: time zone 2 21:30 - 22:00: time zone 2 22:00 - 22:30: time zone 2 22:30 - 23:00: time zone 2 23:00 - 23:30: time zone 3 23:30 - 24:00: time zone 3

Time zone 2 Target demand: 300.0kW Fixed alarm value: 0.0 Based power: 40.0kW

Time zone 2 Target demand: 300.0kW Fixed alarm value: 0.0 Based power: 40.0kW

Time zone 2 Target dem nd: 30 .0kW Fixed alarm value: 0.0 Based power: 40.0kW

4-56

4.4. Configure the demand control setting This section describes how to set for demand monitor and control.

4.4.1. Normal demand setting (setting of the instrument information) This section describes the setting procedures for demand monitor and control. Always read 4.3 Demand control and Control Section Specifications thoroughly before setting, and set the function correctly.

Registering normal demand information The following describes how to set normal demand information.

1 Displaying the [Normal] dialog box Click the [Normal] button in the dialog box of project setting.

In the initial state, it displays the default value of each item.

Remarks

When clicking the [help] button, [Help for demand general settings] dialog box is displayed.

4-57

2 Entering the meter information

Inputting the each setting value. Item Content & Range

[VCT ratio] Set up VCT ratio. Range 1 to 100000

Calculate by [VT(PT) ratio] [CT ratio] and set up the VCT ratio.

[Pulse constant value] Set up the energy pulse factor for the secondary side (input pulse)

Before the setting, please read the users manual first. Range 1 to 50000 [pulse/kWh]

[Multiplying factor] Number of digits (Integer part) and multiplying factor will be possible to input by checking the

checkbox [Multiplying factor] (Referance: NOTE About [Multiplying factor])

[Number of digits (Integer part)]

Set up the number of digits of integar part on the equipment. Range 4 to 6

[Multiplying factor] Set up the multiplying factor on equipment. (The value is multiplied by multiplying factor and value on the equipment.) Range 1 to 100000

[Demand time limit adjustment Type]

Set up Demand time limit adjustment Type Range Either of [Initial TS], [External pulse signal].

[Demand time limit] Set up Demand time limit. Range One of [15 min], [30 min], [1 hour]

* Only [30 min] is possible in [External pulse signal] of [Demand time limit adjustment Type]

NOTE

For setting up for [Number of digits (Integer part)] and [Multiplying factor]), the equipment value will be the same Integrated value of Consumption as the meter. And it works as an amount of power meter.

If it is not matter to match the range of Integrated value of Consumption, then Demand monitoring will be able to set up by only [VCT ratio] and [Pulse constant value] (Without [Multiplying factor] settings)

* example for the calculation of VCT ratio

12002060 5

100

110

6600 ratio VCT ===

*If there is a [Pulse CONST], input it to set up the equipment. * If there is a [Pulse unit (kWh/pulse)], use the following calculation to get [Pulse

CONST] , input it to set up the equipment.

24004060 1

5

200

110

6600

unit Pulse

Ratio CTRatio VT CONST Pulse ==

=

=

[pulse/kWh]

About [Multiplying factor]

4-58

The following is an excerpt of "ME110SSR user's manual: detailed edition". Calculate and set the [VCT ratio, pulse constant value, number of digit, multiplying factor] by the

following procedure.

VCT ratio

9001560 5

100

110

6600 ratio VCT ===

Pulse constant value

9001560 1

5

75

110

6600

unit Pulse

Ratio CTRatio VT CONST Pulse ==

=

=

Number of digits (Integer part), Multiplying factor Calculate the total load by the equation described in the instruction manual of ME110SSR.

VT primary voltage: 6600, CT primary current: 75, Phase wire system: 3-phase 4-wire

1485 1000

3756600 power load Total =

=

Set the following from the display format of the table above. Number of digits = 5 (Integer part) Multiplying factor = 100

[pulse/kWh]

4-59

3 Registering Click the button on the [Normal] dialog box and register.

[Register] button: Register normal demand information you set.

[Close] button: Back to the [Project setting] dialog box.

After changing the contents of the normal demand information, click the [Close] button instead of clicking the [Register] button, the message shown on the right is displayed.

[Yes] button : To register [No] button : Not to register [Cancel] button : Back to the [Normal] dialog box

When the contents of [demand time limit] setting has been changed, the message shown on the right is displayed.

[Yes] button : To register [No] button : Not to register

If the setting is incorrect, the error message such as the one on the right will appear according to the invalid setting when the [Register] button is clicked. Correct the setting to satisfy the conditions.

*1 Confirmed the setting and when writing to EcoWebServerIII, save and write of the project. *2 Setting is enabled after the start (the end) of the next demand time limit (when the remaining time reaches 30:00 (time limit = 30 min)). Until then, work with the previous setting. (The electric energy calculation is immediately reflected.) *3 Writing the project by 5 minutes before the start (the end) of the demand time limit.

(Example of display)

4-60

Editing the registered normal demand information This section described how to edit the registered normal demand information.

1 Displaying the [Normal] dialog box Click the [Normal] button in the dialog box of project setting.

2 Select an item you want to edit, and click the [Edit] button. Click the [Register] button after editing items you want to change. * The entries and conditions for each item are similar to those resistering a new terminal.

*1 Confirmed the setting and when writing to EcoWebServerIII, save and write of the project. *2 Setting is enabled after the start (the end) of the next demand time limit (when the remaining time reaches 30:00 (time limit = 30 min)). Until then, work with the previous setting. (The electric energy calculation is immediately reflected.) *3 Writing the project by 5 minutes before the start (the end) of the demand time limit.

4-61

4.4.2. Demand alarm and control setting This section describes the setting procedures for demand monitor and control. Always read 4.3 Demand control and Control Section Specifications thoroughly before setting, and set the function correctly.

Registering demand alarm and control The following describes how to set demand alarm and control.

1 Displaying the [Alarm and Control] dialog box Click the [Alarm and Control] button in the dialog box of project setting.

4-62

2Setting demand alarm and control Input or select the following items.

(1) Inputting the [Alarm/Control mask time]. *1 It does not alarm monitoring and demand control until the alarm/control mask time have passed from the start of the demand time limit. *2 The following can be input. Demand time limit = 15 min -> 0 - 15 (min) Demand time limit = 30 min -> 0 - 30 (min) Demand time limit = 60 min -> 0 - 60 (min) The default value is 6 minutes. *3 If set to 30, the alarm monitoring and demand control can be carried out regardless of the remaining time. During the reclosing after demand time limit, demand control(off) is not carried out. Set the optimal value to match the actual alarm and control situation.

(2) Selecting the [Alarm type].

(3) Double-clicking the [Time zone name] and inputting. *1 Time zone name can be input up to 16 characters. *2 The following characters cannot be registered:

# / : , ; * ? < > |

4-63

(4) When carrying out the season and time zone management, checking the [Carry out management

based on calendar setting] check box. As necessary, inputting the [time zone name] of the time zone 1-10. *1 Time zone name can be input up to 16 characters. The default is [Time zone *] (*=1 - 10 ). *2 The following characters cannot be registered:

# / : , ; * ? < > |

When selected the [Limit Alarm] in [Alarm Type] (5) Inputting the [Base power].

*1 Based power is the power of the load that can not be off. *2 Control the output/non-output of the limit alarm by the limit power, which is determined from the base power and target demand. *3 0.0 - 99999.9 can be input. If set to 0.0 it does not control the output / non-output of limit alarm. *4 When integers or more than 2 decimal places is input, will be displayed with the first decimal place. (Example: 123.45 -> 123.5, 456 -> 456.0) *5 When the limit alarm selected to the alarm type, the setting of fixed alarm value can not be changed. In addition, it is not used even if has been set.

4-64

When selected the [Fixed Alarm] in [Alarm Type]

(6) Inputting the [Fixed alarm value]. *1 Monitoring the fixed alarm. *2 0.0 - 99999.9 can be input. If set to 0.0 it does not monitor the fixed alarm. *3 When integers or more than 2 decimal places is input, will be displayed with the first decimal place. (Example: 123.45 -> 123.5, 456 -> 456.0) *4 When the fixed alarm selected to the alarm type, the setting of base power can not be changed. In addition, it is not used even if has been set.

(7) Inputting the [Target demand value]. *1 0.0 - 99999.9 can be input. *2 When integers or more than 2 decimal places is input, will be displayed with the first decimal place. (Example: 123.45 -> 123.5, 456 -> 456.0)

(8) Selecting the [Demand control type]. *1 The details of demand control type, refer to "4.3.3 Demand Control Function".

4-65

When selected the [Cyclic Reclosing after Reclosing interval] in [Demand control Type]

(9) Inputting the [Reclosing interval]. *1 The following can be input. Demand time limit = 15 min -> 0 - 15 (min) Demand time limit = 30 min -> 0 - 30 (min) Demand time limit = 60 min -> 0 - 60 (min) The default value is 5 minutes. *2 Regardless of the load condition, control output will be turned on after a lapse of the reclosing time(has been set). *3 When selected the other than [Cyclic Reclosing after Reclosing interval] to the alarm type, the setting of reclosing interval can not be changed. In addition, it is not used even if has been set.

(10) Inputting the [Load name]. *1 Load name can be input up to 32 characters. *2 The following characters cannot be registered: # / : , ; * ? < > |

(11) Setting the [Priority order]. *1 Invalid or 1 - 12 can be selected. *2 Control circuit that is set to [Invalid], does not demand control. *3 Control circuit that is set to [Invalid], can be ON/OFF manually. *4 Control circuit that is set to [1 - 12], can be ON/OFF manually.

4-66

(12) When the [Priority order] is 1 12, inputting the [Control capacity].

*1 0.0 - 99999.9 can be input. *2 When integers or more than 2 decimal places is input, will be displayed with the first decimal place. (Example: 123.45 -> 123.5, 456 -> 456.0) *3 Set according to the load condition.

3 Registering Click the button on the [Alarm and control] dialog box to register.

[Register] button : Register the demand alarm and control information you set.

[Close] button : Back to the [Project setting] dialog box.

If you click [Close] button without clicking the [Register] button after changing the demand alarm and control Information, the message shown on the right will be displayed.

[Yes] button : Register [No] button : Do not register [Cancel] button : Back to the [Alarm and control] dialog box

When clicking the [Close] button and if the output destination of the control output is not set, the message shown on the right will be displayed.

[Yes] button : Register the editing content and display the [Contact output] dialog box.

[No] button : Register the editing content and back to the [Project setting] dialog box.

If the setting is incorrect, the error message such as the one on the right will appear according to the invalid setting when the [Register] button is clicked. Correct the setting to satisfy the conditions.

*1 Confirmed the setting and when writing to EcoWebServerIII, save and write of the project. *2 Setting is enabled after the start (the end) of the next demand time limit (when the remaining time reaches 30:00 (time limit = 30 min)). Until then, work with the previous setting. (The electric energy calculation is immediately reflected.) *3 Writing the project by 5 minutes before the start (the end) of the demand time limit.

(Example of display)

4-67

Editing a registered demand alarm and control information This section described how to edit an information of registered demand alarm and control.

1 Displaying the [Alarm and control] dialog box Click the [Alarm and Control] button in the dialog box of project setting.

2 Editing the items to be changed, and registering them Click the [Register] button after editing items you want to change. * The entries and conditions for each item are similar to the first registration.

*1 Confirmed the setting and when writing to EcoWebServerIII, save and write of the project. *2 Setting is enabled after the start (the end) of the next demand time limit (when the remaining time reaches 30:00 (time limit = 30 min)). Until then, work with the previous setting. (The electric energy calculation is immediately reflected.) *3 Writing the project by 5 minutes before the start (the end) of the demand time limit.

4-68

4.4.3. Demand calendar settingOnly when carrying out management based on calendar setting

This section described how to set the demand calendar. In the demand calendar setting, set the daily pattern definition and the calendar definition (daily pattern allocation). * When carrying out the season and time zone management, refer to [4.3.6. demand control and

setting (4)When carrying out the season and time zone management], check the [Carry out management based on calendar setting], and set the time zone name.

Define the daily pattern This section described how to set the daily pattern.

1 Displaying the [Demand calendar setting] dialog box Click the [Calendar] button in the dialog box of project setting.

4-69

Remarks

Display the following by the demand time limit that is set in the [Normal] dialog box.

[Demand time limit = 15 min]

[Demand time limit = 30 min]

[Demand time limit = 60 min]

When the [Carry out management based on calendar setting] is not checked, the following message will be displayed. Check the [Carry out management based on calendar setting] in the [Alarm and control] dialog box.

4-70

2 Setting the daily pattern In the [Daily pattern definition], set the daily pattern such as weekdays and holidays.

(13) Double-click the [Daily pattern name] and inputting the daily pattern name. *1 Daily pattern name can be input up to 16 characters. *2 The following characters cannot be registered: # / : , ; * ? < > | *3 Up to 40 can be set.

(14) Select the time zone to be set for each demand time limit of the daily pattern. You can set the time zone for each cell (each demand time). If you double-click the cell, the currently selected time zone number (1-10) is input.

(15) Select a time zone to be set and clicking the right-click menu [Set all in chosen time zone]. For all of the cells that you have selected, the currently selected time zone number is entered.

Double-click the cell (demand time limit) to be set

4-71

The daily pattern definition can be copied row by row. (Multiple lines possible) Select the [Daily pattern name] or [No.] to copy and press the right-click menu [Copy daily pattern definition] or the short-cut keys Ctrl+C.

The daily pattern definition can be pasted row by row. (Multiple lines possible) Select the [Daily pattern name] or [No.] to paste and press the right-click menu [Paste daily pattern definition] or the short-cut keys Ctrl+V.

Remarks

The -+ pasted line No. is automatically added to the end of the pasted daily pattern name. (Example) When the [Summer season] is pasted to line No.3,

[Summer season-3]

4-72

3 Registering the daily pattern After inputting the daily pattern, daily pattern will be reflected when click the [Register] button.

[Register] button : Register the contents of the set daily pattern.

[Close] button : Back to the [Project setting] dialog box.

In the case of the following, the message shown on the right will be displayed. When clicking the [Close] button without clicking the [Register] button after changing the contents of daily pattern. When trying to change to the [Calendar definition (daily pattern allocation)] tab.

[Yes] button : Register [No] button : Do not register

[Cancel] button : Back to the [Demand calendar setting] dialog box

If there is non-input daily pattern, an error message as shown on the right is displayed. Set the daily pattern name to all of the daily pattern to be registered.

*1 Confirmed the setting and when writing to EcoWebServerIII, save and write of the project. *2 Setting is enabled after the start (the end) of the next demand time limit (when the remaining time reaches 30:00 (time limit = 30 min)). Until then, work with the previous setting. (The electric energy calculation is immediately reflected.) *3 Writing the project by 5 minutes before the start (the end) of the demand time limit.

4-73

Define the calendar This section described how to set the calendar.

1 Setting the calendar Set the [daily pattern] for each day.

(1) Select the [Calendar definition (Daily pattern allocation)] tab. (2) Set the start month of calendar setting from the [beginning month] pull-down menu.

*1 Beginning month can be selected from 1 to 12. Set the calendar start month of [management based on calendar setting]. *2 At the same time as the set of beginning month, display of the calendar setting list is updated. *3 If you change the [beginning month], the message shown on the right will be displayed. If you want to cancel the changes, click the "No".

2 Select the daily pattern Daily pattern registered in [Daily pattern definition] tab are listed in the [Daily pattern choice] pull-down menu. Select the daily pattern to be set for each date of the calendar.

*1 Time zone of the daily pattern selected is displayed to daily pattern display area.

4-74

3 Setting the calendar In the calendar setting list, set the daily pattern for each date.

(16) When double-clicking the cell of the date, currently selected number of daily pattern will be input.

*1 By clicking the right-click menu [Set all in chosen daily pattern], you can set the daily pattern for all cells currently selected.

4 Registering the calendar After inputting the daily patternof calendar, the calendar will be reflected when click the [Register]

button.

[Register] button : Register the contents of the set calendar.

[Close] button : Back to the [Project setting] dialog box.

In the case of the following, the message shown on the right will be displayed. When clicking the [Close] button without clicking the [Register] button after changing the contents of calendar. When trying to change to the [Daily pattern definition] tab.

[Yes] button : Register [No] button : Do not register [Cancel] button : Back to the [Demand calendar setting] dialog box

*1 Confirmed the setting and when writing to EcoWebServerIII, save and write of the project. *2 Setting is enabled after the start (the end) of the next demand time limit (when the remaining time reaches 30:00 (time limit = 30 min)). Until then, work with the previous setting. (The electric energy calculation is immediately reflected.) *3 Writing the project by 5 minutes before the start (the end) of the demand time limit.

4-75

Editing a registered calendar setting This section described how to edit an information of registered calendar.

1 Displaying the [Demand calendar setting] dialog box Click the [Calendar] button in the dialog box of project setting.

2 Editing the items to be changed, and registering them Click the [Register] button after editing items you want to change. * The entries and conditions for each item are similar to the first registration.

*1 Confirmed the setting and when writing to EcoWebServerIII, save and write of the project. *2 Setting is enabled after the start (the end) of the next demand time limit (when the remaining time reaches 30:00 (time limit = 30 min)). Until then, work with the previous setting. (The electric energy calculation is immediately reflected.) *3 Writing the project by 5 minutes before the start (the end) of the demand time limit.

4-76

4.5. Measuring Data Collection Settings [Normal Settings]

This section explains the "Terminal registration", "Measuring point registration" and "Group registration" procedures that are necessary for system operations. 4.5.1. CC-Link terminal registration This section explains the procedures on the [CC-Link terminal]. A maximum of 64 terminals can be registered. (* Number of terminals that can be registered varies depending on the settings.) The error LED of CC-Link communication unit will be always ON without CC-Link connecting.

Checking the list of registered terminals

The following describes how to display and check the list of registered terminals:

1 Displaying the [CC-Link Terminal] dialog box Click the [CC-Link Terminal] button in the dialog box of project setting.

2 Checking the registration information Check the following information displayed in the [Terminal]

[No.] : Terminal No. (*1) [Terminal name] : Registered terminal name [Model name] : Registered model name [Number of occupied stations] : No. of stations occupied by registered terminal (*2) [Station No.] : Registered station No.

*1 For the multi-circuit product (EMU2-RD3-C, etc.), one circuit is shown per line, and the same terminal No. is shown for each circuit. (This is because the terminal information such as the rated voltage can be set for each measuring circuit.)

*2 The No. of occupied stations varies depending on the selected model.

4-77

Registering a new terminal

This section described how to register a new terminal.

1 Displaying the [Terminal] dialog box Click the [Terminal registration] button in the dialog box of project setting.

2 Selecting the line to register, and clicking the [Edit] button Double-click the line to register in the [Terminal], or select the line to register and click the [Edit] button. The default value for each item is displayed in the terminal information.

Click the Edit button to enable changes

4-78

3 Entering or selecting each item Enter or select the following items.

[Name] Enter the terminal name. (This terminal name is shown in the list of measuring points on the EcoWebServerIII page.)

Characters Up to 24 characters

Prohibited characters The following characters cannot be registered: # / : , ; * ? < > |

*1 If you use the characters in the list of the prohibited characters in Appendix, they may not be displayed correctly in the browser view of the EcoWebServerIII.

*2 A duplicate terminal name cannot be registered. *3 For a multiple-circuit product, "-X" (X is a circuit number) is automatically appended at the end of the

terminal name. (Up to 24 characters with "-X".)

[Station No.] Set the same number as the one set in the terminal. Range 1 - 64 *1 A duplicate station number cannot be registered. *2 Note that the number of occupied stations varies depending on the models.

(Ex.) When the terminal having 4 occupied stations is set to the station number 64, the out-of-range error occurs because the station numbers from 64 to 67 are occupied.

*3 Set the station number to satisfy the following condition. {(16(A+D))+(54B)+(88C)} 2304

A: Number of terminals in the remote I/O station B: Number of terminals in the remote device station C: Number of terminals in the intelligent device station D: Number of terminals in the reserved station (Station type, Number of occupied stations Refer to 5.1 List of support terminals

(CC-Link terminal )" *4 Setting range of QJ61BT11N/LCPU/LJ61BT11 is from 1 to 63.

[Model:] Select a model. Available models ( Refer to 5.1 List of support terminals(CC-Link terminal)")

* When collecting data from the QCPU device via CC-Link, select "QJ61BT11N (CC-Link master/local unit (local station)".

* When collecting data from the LCPU device, select "LCPU/LJ61BT11 (CC-Link master/local unit (local station).

* When collecting data by EMU4-BM1-MB, EMU4-HM1-MB, EMU4-LG1-MB, EMU4-CNT-MB, please select [To EcoMonitorPlus setting] from the list.

[Model information]

Set the model information. * The setting items will differ according to the model (Refer to 5.2 List of model information(CC-Link terminal).)

Remarks

[Station type] and [Number of occupied stations are determined by the selected model.

( Refer to 5.1 List of support terminals(CC-Link terminal)".)

Terminal name

4-79

(Ex.) EMU2-RD1-C (terminal of a remote device station) is registered in the station number 1 to 41 and 64.

The station number 42 to 63 become the reserve station, and then {(16 (0 + 22)) + (54 41) + (88 0) } = 2566 > 2304 causes an error because the conditional expression is not satisfied.

Reserve station The unregistered station number between 1 and the max. number is counted as a reserve station. The number of reserve stations is included in the term of the conditional expression of the terminal number error. Please be careful.

{(16 (A + D)) + (54 B) + (88 C)} 2304 A: Number of terminals in the remote I/O station B: Number of terminals in the remote device station C: Number of terminals in the intelligent device station D: Number of terminals in the reserve station

Additional information:

4-80

4 Registering Click the button on the [CC-Link terminal registration] dialog box to register the terminal.

[Register] button : Register the terminal with the settings you made. The registration information will be reflected to the [Terminals list].

[Close] button : Back to the [Project setting] dialog box.

Item Description No. Line number of the terminal registration screen. Automatically

displayed. Station No. Input the station number set in the terminal.

Duplicate registration is prohibited. Number of extension Select the number of extension units connected to the terminal. Model Select the type name to be registered. Model name The model name corresponding to the selected type name is

automatically displayed. Number of circuit The number of the measurement circuit corresponding to the

selected type name is automatically displayed. *2 If the setting is incorrect, the error message such as the one on the right will

appear according to the invalid setting when the [Register] button is clicked. Correct the setting to satisfy the conditions.

(Example of display)

*3 If you click [Close] button without clicking the [Register] button after changing the entry, the message shown on the right will be displayed. [Yes] : Register [No] : Do not register [Cancel] : Return to [CC-Link Terminal registration] dialog box

*1 If the EcoMonitorPlus terminal is selected, the following setting is necessary. Input Station No., Number of extension, Main unit and Extension unit(1) to unit(3) and press the [Register] botten. [<>]button can be used for swithing extension unit. More details refer to [5.1 List of support terminals(CC-Link terminal)]

4-81

To copy registered terminal information, select the line to copy and press the right-click menu [Copy terminal unit] or the short-cut keys Ctrl+C.

To paste the copied terminal information, select the line to paste into, and press the right-click menu [Paste terminal unit] or the short-cut keys Ctrl+V.

4-82

Remarks Multiple lines for terminals other than multi-circuit parts cannot be copied and pasted. Terminal information cannot be pasted into a registered line. The -+ pasted line No. is automatically added to the end of the pasted terminal name. The default value is set in the pasted address. The pasted terminal information is automatically registered.

4-83

Deleting registered terminal

This section described how to delete a registered terminal.

1 Displaying the [Terminal] dialog box Click the [Terminal] button in the dialog box of project setting.

2 Selecting a terminal you want to delete, and click the [Delete] button

Select a line of a terminal you want to delete in the terminal list, and then click the [Delete] button.

* If the terminal element of the selected terminal is registered

as a measuring point, the message shown on the right will be displayed. Click the [OK] button to delete the measuring point first.

3 Deleting A delete confirmation message appears. Click the button to delete.

Yes] button : Delete the terminal and back to the [Terminal] dialog box. [No] button : Cancel the deletion and back to the [Terminal] dialog box.

After the terminal is deleted, its registration information is removed from the terminal list.

Line of a terminal to be deleted

4-84

To delete a multiple-circuit product (EMU2-RD3-C, etc.), perform the step 1 to 3. However, if you delete one circuit, the other circuits in the terminal (the terminal in the rows which have the same [No.]) will also be deleted automatically.

(Ex.) The first circuit in the EMU2-RD3-C is deleted.

* If the other circuit in the terminal you select is used in the measuring point, the following message will appear. Click the [OK] button to delete the measuring point first.

Remarks You cannot delete the terminal if it is registered as a measuring point.

Delete the measuring point first, and then delete this terminal. The terminal can also be deleted by clicking the right-click menu [Delete terminal unit] or pressing the

Delete key.

The terminal 2-1 to 2-3 (1st to 3rd circuits) are deleted.

Redisplay [Terminal No. 2] as a blank line

The circuit of the terminal whose name is shown in "( )" is registered in the measuring point.

Select the terminal 2-1 (1st aacircuit) and click the [Delete] button.

4-85

Editing registration information of a registered terminal

This section described how to edit registration information of a terminal.

1 Displaying the [CC-Link Terminal] dialog box Click the [CC-LinkTerminal] button in the dialog box of project setting.

2 Selecting a terminal you want to edit, and click the [Edit] button Double-click the line of a terminal you want to edit in the terminal list, or select a line of a terminal you want to edit, and then click the [Edit] button.

3 Editing the items to be changed and registering them Click the [Register] button after editing items you want to change. * The entries and conditions for each item are similar to those registering a new terminal.

Remarks You cannot edit the [Model] if it is registered in the measuring point.

Delete the measuring point first, and then change the model. You cannot edit the [Model] of a multi-circuit product (EMU2-RD-3-C, etc.).

To change the model, delete the terminal first, and then perform a new registration.

Click Edit button to enable changes

Line of a terminal to be edited

4-86

4.5.2. MODBUS terminal registration This section explains the procedures on the [MODBUS terminal registration]. A maximum of 255 terminals can be registered. (* Number of terminals that can be registered varies depending on the settings.)

Checking the list of registered terminals

The following describes how to display and check the list of registered terminals:

1 Displaying [MODBUS(R) Terminal] screen

Click the [MODBUS(R) Terminal] button in the project setting screen.

2

4-87

2 Checking the registration information Check the following information displayed in the terminal list

[No.] : Terminal No. (*1) [Terminal name] : Registered terminal name [Model name] : Registered model name [IP address] : IP address of the registered terminal [Port number] : Port number of the registered terminal (*2) [Slave address] : Slave address of the registered terminal

*1 For the multi-circuit product (EcoMonitorPlus), one circuit is shown per line, and the same terminal No. is shown for each circuit. (This is because the terminal information such as the rated voltage can be set for each measuring circuit.)

*2 The No. of occupied stations varies depending on the selected model.

4-88

Registering a new terminal

This section described how to register a new terminal.

1 Displaying [MODBUS(R) Terminal] screen Click the[MODBUS(R) Terminal] button in the dialog box of project setting.

2 Selecting the line to register, and clicking the [Edit] button Double-click the line to register in the [Terminal], or select the line to register and click the [Edit] button. The default value for each item is displayed in the terminal information.

Click the Edit button to enable changes

4-89

3 Entering or selecting each item Enter or select the following items.

[Terminal name]

Enter the terminal name. (This terminal name is shown in the list of measuring points on the EcoWebServerIII page.)

Characters Up to 24 characters

Prohibited characters The following characters cannot be registered: # / : , ; * ? < > |

*1 If you use the characters in the list of the prohibited characters in Appendix, they may not be displayed correctly in the browser view of the EcoWebServerIII.

*2 A duplicate terminal name cannot be registered. *3 For a multiple-circuit product, "-X" (X is a circuit number) is automatically appended at the end of the

terminal name. (Up to 24 characters with "-X".)

[terminal group]

Select the terminal group to be registered. To register our MODBUS support model, select MODBUS(R) Terminal[Supported]. To register a model other than above, select Generic MODBUS(R) Terminal.

[Model] Select a model. Available models ( Refer to 5.4 List of supported terminals")

* When the terminal group is Generic MODBUS(R) Terminal, General terminal is set. * When collecting data by EMU4-BM1-MB, EMU4-HM1-MB, EMU4-LG1-MB, EMU4-CNT-MB, please

select [To EcoMonitorPlus setting] from the list.

[Protocol] Select the communication protocol from MODBUS(R) TCP/MODBUS(R) RTU. When the terminal group is MODBUS Terminal [Supported], MODBUS(R) RTU is set.

[IP address] Set the IP address of the terminal.

[Port number] Set the communication port number of the terminal. 502 is automatically set.

[Slave Address]

Set the slave address. Can be set only when the protocol is MODBUS(R) RTU. Setting range is from 1 to 247.

[Model information]

Set the model information. * The setting items will differ according to the model

(Refer to 5.5 List of model information MODBUS(R) Terminal [Support terminal].)

Terminal name

4-90

4 Registering Click the button on the [MODBUS(R) terminal] dialog box to register the terminal.

[Register] button : Register the terminal with the settings you made. The registration information will be reflected to the [Terminals list].

[Close] button : Back to the [Project setting] dialog box.

*1 If the EcoMonitorPlus terminal is selected, the following setting is necessary. Input IP address, port number, slave address , Number of extension unit and Model and press the [Register] botten.

Item Description No. Line number of the terminal registration screen. Automatically

displayed. Protocol MODBUS(R) RTU is automatically set. IP address Set the IP address of the terminal. Port No. 502 is automatically set. Slave address Select the slave address of the terminal. Number of extension unit

Select the number of extension units connected to the terminal.

Model Select the type name to be registered. Model name The model name corresponding to the selected type name is

automatically displayed. Number of circuit The number of the measurement circuit corresponding to the

selected type name is automatically displayed. [<>]button can be used for swithing extension unit. Model of main unit and extension unit vefers to List of support terminals for details.

*2 If the setting is incorrect, the error message such as the one on the right will

appear according to the invalid setting when the [Register] button is clicked. Correct the setting to satisfy the conditions.

(Example of display)

4-91

*3 If you click [Close] button without clicking the [Register] button after changing the entry, the message shown on the right will be displayed. [Yes] : Register [No] : Do not register [Cancel] : Return to [MODBUS terminal registration] dialog box

To copy registered terminal information, select the line to copy and press the right-click menu [Copy terminal unit] or the short-cut keys Ctrl+C.

To paste the copied terminal information, select the line to paste into, and press the right-click menu [Paste terminal unit] or the short-cut keys Ctrl+V.

Remarks Multiple lines for terminals other than multi-circuit parts cannot be copied and pasted. Terminal information cannot be pasted into a registered line. The -+ pasted line No. is automatically added to the end of the pasted terminal name. IP address of the pasted terminal is set to IP address of the copied terminal. The default value is set in the pasted address. Slave address of the pasted terminal is set to the next number of the copied terminal. The pasted terminal information is automatically registered. You only register connected terminal.

4-92

Deleting registered terminal

This section described how to delete a registered terminal.

1 Displaying MODBUS terminal registration dialog box Click the [MODBUS(R) Terminal] button in the dialog box of project setting.

2 Selecting a terminal you want to delete, and click the [Delete] button

Select a line of a terminal you want to delete in the terminal list, and then click the [Delete] button.

* If the terminal element of the selected terminal is registered

as a measuring point, the message shown on the right will be displayed. Click the [OK] button to delete the measuring point first.

3 Deleting A delete confirmation message appears. Click the button to delete.

[Yes] button : Delete the terminal and back to the [MODBUS terminal registration] dialog box.

[No] button : Cancel the deletion and back to the [MODBUS terminal registration] dialog box.

After the terminal is deleted, its registration information is removed from the terminal list.

a line of a terminal you want to delete

4-93

To delete a multiple-circuit product (EcoMonitorPlus), perform the step 1 to 3. However, if you delete one circuit, the other circuits in the terminal (the terminal in the rows which have the same [No.]) will also be deleted automatically.

(Ex.) The first circuit in the EMU4-BM1-MB is deleted.

* If the other circuit in the terminal you select is used in the measuring point, the following message will appear. Click the [OK] button to delete the measuring point first.

Remarks You cannot delete the terminal if it is registered as a measuring point.

Delete the measuring point first, and then delete this terminal. The terminal can also be deleted by clicking the right-click menu [Delete terminal unit] or pressing the

Delete key.

The circuit of the terminal whose name is shown in "( )" is registered in the measuring point.

Select the terminal 3-1 (1st aacircuit) and click the [Delete] button.

The terminal 3-1 to 3-5 (1st to 5rd circuits) are deleted.

Redisplay [Terminal No. 3] as a blank line

4-94

Editing registration information of a registered terminal

This section described how to edit registration information of a terminal.

1 Displaying the [MODBUS(R) Terminal] dialog box Click the [MODBUS terminal registration] button in the dialog box of project setting.

2 Selecting a terminal you want to edit, and click the [Edit] button Double-click the line of a terminal you want to edit in the terminal list, or select a line of a terminal you want to edit, and then click the [Edit] button.

3 Editing the items to be changed and registering them Click the [Register] button after editing items you want to change. * The entries and conditions for each item are similar to those registering a new terminal.

Remarks You cannot edit the [Model] if it is registered in the measuring point.

Delete the measuring point first, and then change the model. You cannot edit the [Model] of a multi-circuit product (EcoMonitorPlus).

To change the model, delete the terminal first, and then perform a new registration.

a line of a terminal you want to edit

When click the [Edit] button, you can edit the line of terminal

4-95

4.5.3. PLC/GOT registration This section describes the procedure on the [Log in PLC/GOT]. In addition to registering terminals as a measuring point, the EcoWebServerIII can read and write the device data to and from a connected PLC/GOT. A maximum of 32 PLCs and GOT can be registered for acquiring devices. Refer to 5.8 PLC settings for details on the PLC settings. Refer to 5.9 GOT communication settings for details on the GOT settings.

Checking a list of registered PLCs/GOT

The following describes how to display and check the list of registered PLCs/GOT.

1 Displaying the [Log in PLC/GOT] dialog box Click the [PLC/GOT] button in the dialog box of project setting.

2 Checking the registration information Check the following information displayed in the terminal list

[No.] : PLC No. [Terminal name] : Name of PLC/GOT [PLC/GOT series] : PLC/GOT series [Connection method]

: Communication type between PLC/GOT and EcoWebServerIII

[IP address] : IP address of PLC/GOT [Port No.] : Port number for Ethernet of PLC/GOT [Station No.] : Station number of PLC serial communication when Ethernet/Serial conversion is

selected for exchanging data with EcoWebServerIII.

4-96

Registering a new PLC/GOT

This section described how to register a new PLC/GOT.

1 Displaying the [Log in PLC/GOT] screen Click the [PLC/GOT] button in the dialog box of project setting.

2 Selecting a line to register, and click the [Edit] dialog box Double-click a line to register in the terminal list or select a line to register, and click the [Edit] button. The default value is displayed for each item in the PLC/GOT information.

Click Edit button to enable inputs.

4-97

3 Entering or selecting the items Enter or select the following items.

[Name] Enter a name of a PLC connecting the EcoWebServerIII. (This terminal name is shown in the list of measuring points on the EcoWebServerIII page.)

Characters Up to 24 characters Prohibited characters

The following characters cannot be registered: # / : , ; * ? < > |

*1 If you use the characters in the list of the prohibited characters in Appendix, they may not be displayed correctly in the browser view of the EcoWebServerIII.

*2 A duplicate terminal name cannot be registered.

[PLC/GOT series] Select from the PLC/GOT connected to EcoWebServerIII. iQ-R iQ-F QCPU/LCPU/QnACPU ACPU AnACPU/AnUCPU FXCPU GT27/GT16/GT15/GT14

[Connection method] Communication type between EcoWebServerIII and PLC which select from Ethernet Direct Convert Ethernet/Serial

For GT27/GT16/GT15/GT14: [Ethernet Direct] For ACPU, AnACPU/AnUCPU, FXCPU: [Convert Ethernet/Serial]

[IP address] Type in the same value as the IP address set for the PLC communicating with the EcoWebServerIII. [Range of configurable IP address]

Class Host bit of IP address IP address range A 0 1.0.0.0126.255.255.255 B 10 128.0.0.0191.255.255.255 C 110 192.0.0.0223.255.255.255

*1 The following IP addresses cannot be registered. - 0.0.0.0, xxx.xxx.xxx.255 (xxx are any values) - The same IP address as that of the client PC

[Port No.] Ethernet communication port number

Range 0 to 65535

[Station No.] When Ethernet/Serial conversion is set for exchanging data between the EcoWebServerIII and PLC, set the station number of the connected serial communication module.

Range 0 to 31

Remarks When collecting data, outputting data, outputting data (demand monitoring), and demand

setting (PLC) to one PLC, register them as different PLCs with different port numbers.

PLCs name

4-98

4 Registering Click the button on the [PLC/GOT] dialog box to register the terminal.

[Register] button : Register the PLC/GOT with the settings you made. The registration information will be reflected to the dialog box of project setting.

[Close] button : Back to the dialog box of project setting.

* If the setting is incorrect, the error massage such as the one on the right will

appear according to the invalid setting when [Register] button is clicked. Correct the setting to satisfy the conditions.

(Example of display)

* If you click [Close] button without clicking the [Register] button after

changing the entry, the message shown on the right will be displayed. [Yes] button : Register [No] button : Not register [Cancel] button : Back to the [Log in PLC/GOT] dialog box

4-99

To copy registered PLC/GOT information, select the line to copy and press the right-click menu [Copy the PLC, GOT information] or the short-cut keys Ctrl+C.

To paste the copied PLC/GOT information, select the line to paste and press the right-click menu [Paste of PLC, GOT information] or the short-cut keys Ctrl+V.

Remarks Multiple lines cannot be copied and pasted. PLC/GOT information cannot be pasted into a registered line. The -+ pasted line No. is automatically added to the end of the pasted terminal name. The default value is set in the pasted IP address. The pasted PLC/GOT information is automatically registered.

4-100

Deleting a registered PLC/GOT

This section described how to delete a registered PLC/GOT.

1 Displaying the [Log in PLC/GOT] dialog box Click the [PLC/GOT] button in the dialog box of project setting.

2 Selecting a PLC/GOT you want to delete, and clicking the [Delete] button

Select a line of a PLC/GOT you want to delete in the list in the terminal list, and then click the [Delete] button

* If the selected PLC is registered to any of the measurement point, contact output, data output group, data output group (demand monitoring), or demand setting (PLC), an error message as shown on the right is displayed. Click the [OK] button and delete the registered item such as measurement point first.

Display example

3 Deleting the project A delete confirmation message appears. Click the button to delete the terminal.

[Yes] button : Delete the PLC/GOT and back to the [Log in PLC/GOT] dialog box.

[No] button : Cancel the deletion and back to the [Log in PLC/GOT] dialog box.

After the terminal is deleted, its registration information is removed from the terminal list.

Remarks The terminal can also be deleted by clicking the right-click menu [Delete of PLC, GOT information] or

pressing the Delete key.

Line of a PLC/GOT to delete

4-101

Editing registration information of a registered PLC/GOT

This section described how to edit registration information of a PLC/GOT.

1 Displaying the [Log in PLC/GOT] dialog box Click the [PLC/GOT] button in the dialog box of project setting.

2 Selecting a PLC/GOT you want to edit, and click the [Edit] button Select a line of a PLC/GOT you want to edit, and then click the [Edit] button.

3 Editing the items to be changed and registering them Click the [Register] button after editing items you want to change. * The entries and conditions for each item are similar to those registering a new PLC/GOT.

Remarks You cannot edit the [PLC/GOT Series] if its measuring point is registered.

Delete the measuring point first, and then edit the PLC/GOT series.

Line of a PLC/GOT to edit

Click Edit button to enable change

4-102

4.5.4. Measuring point registration This section explains the procedure on the [Measuring point]. A measuring point refers to a data item from measuring terminal equipment or a device of PLC/GOT. A maximum of 255 points can be registered.

Checking a list of registered measuring points

The following describes how to display and check the list of measuring points.

1 Displaying the [Measuring point] dialog box Click the [Measuring point] button in the dialog box of project setting.

2 Checking the registration information Check the following information displayed in [Measuring point list].

[ID] : Measuring point ID [Measuring point name], [Measured item], [Unit] : Registered measuring point, registered measuring item,

unit [Group] : Measuring point group name [Monitoring] : Set monitoring type [Lower limit value], [Upper limit value] : Lower limit monitoring, upper limit monitoring setting

value

4-103

Registering a new measuring point

This section described how to register a new measuring point.

1 Displaying the [Measuring point] dialog box Click the [Measuring point] button in the dialog box of project setting.

2 Selecting a line to register, and clicking the [Edit] button Double-click a line to register in the measuring point list, or select a line to register and click the [Edit] button. The default value is displayed for each item in the measuring point information.

Remarks You can select and register any measuring point. (Also, you can create a free ID.) You cannot register a measuring point when no terminal is registered.

Click the Edit button to enable inputs.

4-104

3 Selecting a type of a terminal Select the terminal type with the [Point type] radio button.

Type of terminal registered in measuring point Selected radio button

Measuring device termina

CC-Link terminal CC-Link terminal MODBUS terminal [Support terminal] MODBUS terminal

PLC connected to Ethernet CH2 port PLC[Ethernet] CC-Link connection PLC registered with CC-Link terminal PLC[CC-Link]

General MODBUS terminal registered by MODBUS terminal

General MODBUS terminal

4 Entering a measuring point name Enter a name of a measuring point. (This measuring point name is shown in the graphs or the list of measuring points on the EcoWebServerIII page)

The entry conditions are as follow.

Characters Up to 24 characters

Prohibited characters

The following characters cannot be registered: # / : , ; * ? < > |

*1 If you use the characters in the list of the prohibited characters in Appendix, they may not be displayed

correctly in the browser view of the EcoWebServerIII. *2 A duplicate measuring point name can be registered.

[EcoWebServerIII page]

Measuring point name

Sample

4-105

5(1) Entering or selecting the items For a measuring point of Measurement device terminal

Select the [CC-Link Terminal] radio button, and enter or select the following items. * For CC-Link communication model,

select [CC-Link Terminal] to register a CC-Link terminal, and select [MODBUS(R) Terminal] to register a MODBUS terminal.

(1) [Name] Select a terminal. *1 The terminal name shown in the pull-down menu is the name registered in the [Terminal]. *2 For CC-Link, the station number is displayed instead of main address and sub address.

For a MODBUS terminal, protocol, IP address, and slave address are displayed instead of main address and sub address.

(2)-1 [Detail] [Item]

Select a measured item from the pull-down menu. (The [Unit] is entered automatically.) * The measured item varies depending on the

model.

[PF range] When the power factor or the power factor demand is selected for the measured item, select a range of the power factor display. * The selection range varies depending on the

model.

[Factor] When a pulse counter value is selected for the measured item, enter a pulse multiplier. And select or type a unit. * The input range varies depending on the

model. (You can enter a unit up to 8 characters.)

4-106

2.-2 [Detail] (Analog (voltage/current) input type) When an analog input type of a terminal is selected, select the following items.

* The setting item/range varies depending on the model.

[Ch] : Select a measured ch which data will be collected from. [Unit] : Select or type a unit. (You can enter a unit up to 8 characters.) [Input scope] : Select an input range. The input range should be the same setting as the terminal. [Scale] : Enter a scare range of an actual measurement value for the analog input.

* This is disabled when the [PowerFactor(PF)] is selected. [Decimal] : Select the number of digits after the scale conversion. [Power Factor (PF)] :Select this check box to convert a scale of a power factor. [PF range] : Select a display range of a power factor. This is enabled only when the

[PowerFactor(PF)] is selected.

2.-3 [Detail] (Analog (temperature) input type) When a temperature input type of a terminal is selected, select the following items.

* The setting item/range varies depending on the model.

[Item] :Select an item which data will be collected from.

2.-4 [Detail] (Pulse input type) When a pulse input type of a terminal is selected, select the following items.

* The setting item/range varies depending on the model.

[Ch] : Select a measured ch which data will be collected from. [Factor] : Enter a pulse multiplier. [Unit] : Select or type a unit. (You can enter a unit up to 8 characters.)

2.-5 [Detail] (Digital input type)

When a digital input type of a terminal is selected, select the following items.

* The setting item/range varies depending on the model.

[Ch] :Select a monitoring ch. Enter a pulse multiplier. [Unit] : Type a unit. (You can enter a unit up to 8 characters.)

* This entry is optional. [Record the status] :Select this check box to save an operation history to a file.

* Up to 32 operation histories can be recorded.

4-107

5(2) Entering or selecting the items For a measuring point of a PLC (Ethernet connection) Select the [PLC(Ethernet)] radio button, and enter or select each of the following items.

(1) [Name] Select a PLC. * The name shown in the pull-down menu is the terminal name of the PLC/GOT terminal name

registered with [PLC/GOT]. The registered PLC/GOT information is displayed for station number, IP address and CPU series.

(2) [Data type] Select a data type from [Integrate], [Instant], and [Status].

*1 When [Instant] is selected:

The [Power Factor (PF)] selection check box is enabled. Select the check box and specify the range in the [PF range] to register the power factor.

*2 When [Status] is selected: The [Record the state] selection check box is enabled. Select this check box to save an operation history to a file. * Up to 32 operation histories can be recorded.

(3) [Device number] Enter a device number with 7 characters in uppercase (including the device name).

* For the possible range, refer to "5.7 List of measured items of devices".

The setting range appears when the button in the input field is clicked.

* Characters not included in the setting range cannot be registered.

4-108

(4) [Unit] Select or directly type a unit. When you type it directory, the entry conditions are as follows.

Characters Up to 8 characters Prohibited characters

The following characters cannot be registered. # : , ; * ? < > |

*1 When [Status] is selected, the selection pull-down menu is disabled. (Only direct typing) *2 When [Status] is selected, this entry is optional.

(5) [Data length] Select a data length. [Integrate] or [Instant]: Select from [16bit(W)] and [32bit(L)]. [Status]: Fixed to [1bit(B)]

(6) [Maximum value] (* only when [Integrate] selected) Enter the max. value of the data range of the integrated count value.

(Ex.) When the data range is from 0 to 999999, the max. integrated count value is 999999.

* When the value exceeds the data range and returns to 0, the EcoWebServerIII performs one-cycle operation based on the max. integrated count value.

The input range is as follows. Enter the value in decimal.

Data length 16 bit (W) 1 to 32767 Data length 32 bit (L) 1 to 2147483647

(7) [Factor] (* only when [Integrate] or [Instant] selected) Set a multiplier.

The input range is as follows. Enter the value in decimal.

Data length 16 bit (W) 0.00001 to 99999 (7 digits (including decimal point), up to 5 digits after the decimal point) Data length 32 bit (L) 0.00001 to 1 (7 digits (including decimal point), up to 5 digits after the decimal point)

(8) [Decimal] (* only when [Integrate] or [Instant] selected) Set the number of digits after the decimal point for displaying data.

Select from [Integer], [1 digit], [2 digits], [3 digits], [4 digits], and [5 digits].

* The possible range of digits after the decimal point is set by the setting of the data length and the multiplier.

Data length 16bit(W) Data length 32bit(L)

Factor Possible digits after the decimal point Factor Possible digits

after the decimal point 0.00001 to 1.00000 Integer, 1 to 5 digits 0.00001 Integer, 1 to 5 digits 1.00001 to 10.0000 Integer, 1 to 4 digits 0.00002 to 0.00010 Integer, 1 to 4 digits 10.0001 to 100.000 Integer, 1 to 3 digits 0.00011 to 0.00100 Integer, 1 to 3 digits 100.001 to 1000.00 Integer, 1 or 2 digits 0.00101 to 0.01000 Integer, 1 or 2 digits 1000.01 to 10000.0 Integer, 1 digit 0.01001 to 0.10000 Integer, 1 digit 10000.1 to 99999.0 Integer 0.10001 to 1 Integer

4-109

5(3) Entering or selecting the items For a measuring point of a PLC (CC-Link communication) Select the [Device] radio button, and enter or select each of the following items.

(1) [Target] Select a terminal of the PLC(CC-Link).

* Targets in the pull-down menu are QJ61BT11N or LCPU/LJ61BT11 terminals registered in [Terminal].

(2) [Data type] Select a data type from [Integrate], [Instant], and [Status]. *1 When [Instant] is selected:

The [Power Factor(PF)] selection check box is enabled. Select the check box and specify the range in the [PF range] to register the power factor.

*2 When [Status] is selected: The [Record the status] selection check box is enabled. Select this check box to save an operation history to a file.

* Up to 32 operation histories can be recorded.

(3) [Device number] Enter a device number with 7 characters in uppercase (including the device name).

* For the possible range, refer to "5.7 List of measured items of devices".

The setting range appears when the [ ] button in the input field is clicked.

* Characters not included in the setting range cannot be registered.

4-110

(4) [Unit] Select or directly type a unit.

When you type it directory, the entry conditions are as follows.

Characters Up to 8 characters Prohibited characters

The following characters cannot be registered. # : , ; * ? < > |

*1 When Operation monitoring is selected, the selection pull-down menu is disabled. (Only direct typing) *2 When Operation monitoring is selected, this entry is optional.

(5) [Data length] Select a data length. [Integrate] or [Instant]: Select from [16bit(W)] and [32bit(L)]. [Status]: Fixed to [1bit(B)]

(6) [Maximum value] (* only when [Integrate] selected) Enter the max. value of the data range of the integrated count value.

(Ex.) When the data range is from 0 to 999999, the max. integrated count value is 999999.

* When the value exceeds the data range and returns to 0, the EcoWebServerIII performs one-cycle operation based on the max. integrated count value.

The input range is as follows. Enter the value in decimal.

Data length 16 bit (W) 1 to 32767 Data length 32 bit (L) 1 to 2147483647

(7) [Factor] (* only when [Integrate] or [Instant] selected) Enter the max. value of the data range of the integrated count value.

The input range is as follows. Enter the value in decimal.

Data length 16bit (W) 0.00001 to 99999 (7 digits (including decimal point), up to 5 digits after the decimal point) Data length 32bit (L) 0.00001 to 1 (7 digits (including decimal point), up to 5 digits after the decimal point)

(8) [Decimal] (* only when [Integrate] or [Instant] selected) Set the number of digits after the decimal point for displaying data.

Select from [Integer], [1 digit], [2 digits], [3 digits], [4 digits], and [5 digits].

* The possible range of digits after the decimal point is set by the setting of the data length and the multiplier.

[Data length 16 bit (W)] [Data length 32 bit (L)]

Factor Possible digits after the decimal point Factor Possible digits

after the decimal point 0.00001 to 1.00000 Integer, 1 to 5 digits 0.00001 Integer, 1 to 5 digits 1.00001 to 10.0000 Integer, 1 to 4 digits 0.00002 to 0.00010 Integer, 1 to 4 digits 10.0001 to 100.000 Integer, 1 to 3 digits 0.00011 to 0.00100 Integer, 1 to 3 digits 100.001 to 1000.00 Integer, 1 or 2 digits 0.00101 to 0.01000 Integer, 1 or 2 digits 1000.01 to 10000.0 Integer, 1 digit 0.01001 to 0.10000 Integer, 1 digit 10000.1 to 99999.0 Integer 0.10001 to 1 Integer

4-111

5(4) Input and select items For measurement point of general MODBUS terminal

For the measuring points of general MODBUS terminal, the supported data type is integer only. (1) [Terminal Name]

Select the terminal. *1 Terminal names displayed in the pulldown menu are General purpose MODBUS terminals registered in [Terminal registration].

(2) [Data type] Select a data type from [Integrate], [Instant], and [Status]. *1 When [Instant] is selected:

The [Power Factor(PF)] selection check box is enabled. Select the check box and specify the range in the [PF range] to register the power factor.

*2 When [Status] is selected: The [Record the status] selection check box is enabled. Select this check box to save an operation history to a file.

* Up to 32 operation histories can be recorded.

(3) [Function code] Select the function code used to read data.

Function code How to read data 1 Read coil 2 Read input 3 Read restoration register 4 Read input register

Integration value or instantaneous value :Select from 3 or 4 Operation monitoring :Select from 1, 2, 3, and 4.

(4) [Data address] Enter a data address. Input range is 0 to 65535

4-112

(5) [Unit]

Select or directly type a unit.

When you type it directory, the entry conditions are as follows.

Characters Up to 8 characters Prohibited characters

The following characters cannot be registered. # : , ; * ? < > |

*1 When Operation monitoring is selected, the selection pull-down menu is disabled. (Only direct typing) *2 When Operation monitoring is selected, this entry is optional.

(6) [Register Size (word)] Select Number of registers.

Register Size Data format 1 Without sign 2 With sign: Higher 16 bits/Lower

16 bits 2Word swap With sign: Lower 16 bits/Higher

16 bits

Integration value or instantaneous value Select from 1, 2, and 2(Word swap) Operation onitoring Function code: 1, 2 1 Fixed

Function code: 3, 4 No setting

(7) [Maximum value] (* only when [Integrate] selected) Enter the max. value of the data range of the integrated count value.

(Ex.) When the data range is from 0 to 999999, the max. integrated count value is 999999.

* When the value exceeds the data range and returns to 0, the EcoWebServerIII performs one-cycle operation based on the max. integrated count value.

The input range is as follows. Enter the value in decimal.

1Number of registers (word) 1 1 to 32767 Number of registers (word) 2, 2 (Word swap) 1 to 2147483647

(8) [Factor] (* only when [Integrate] or [Instant] selected) Enter the max. value of the data range of the integrated count value.

The input range is as follows. Enter the value in decimal.

Data length 16bit (W) 0.00001 to 99999 (7 digits (including decimal point), up to 5 digits after the decimal point)

4-113

(9) [Decimal] (* only when [Integrate] or [Instant] selected) Set the number of digits after the decimal point for displaying data.

Select from [Integer], [1 digit], [2 digits], [3 digits], [4 digits], and [5 digits].

* The possible range of digits after the decimal point is set by the setting of the data length and the multiplier.

[Number of registers (word) 1] [Number of registers (word) 2, 2 (Word swap)]

Factor Possible digits after the decimal point Factor Possible digits

after the decimal point 0.00001 to 1.00000 Integer, 1 to 5 digits 0.00001 Integer, 1 to 5 digits 1.00001 to 10.0000 Integer, 1 to 4 digits 0.00002 to 0.00010 Integer, 1 to 4 digits 10.0001 to 100.000 Integer, 1 to 3 digits 0.00011 to 0.00100 Integer, 1 to 3 digits 100.001 to 1000.00 Integer, 1 or 2 digits 0.00101 to 0.01000 Integer, 1 or 2 digits 1000.01 to 10000.0 Integer, 1 digit 0.01001 to 0.10000 Integer, 1 digit 10000.1 to 99999.0 Integer 0.10001 to 99999.0 Integer

4-114

6 Registering Click the button on the [Measuring point] dialog box to register a measuring point.

[Register] button : Register the measuring point information you set. [Close] button : Back to the [Measuring point list] dialog box.

* If the setting is incorrect, the error massage such as the one on the right will

appear according to the invalid setting when [Register] button is clicked. Correct the setting to satisfy the conditions.

(Example of display)

* If you click [Close] button without clicking the [Register] button after

changing the entry, the message shown on the right will appear. [Yes] : Register [No] : Do not register. [Cancel] : Return to [Measuring point] screen

(Example of display)

4-115

Setting the measuring point group

This section described how to set measuring point group.

1 Setting the measuring point group Set the measuring point group. Select the group to set for the measuring point from the [Group] selection pull-down menu.

* To newly register a group, select , and open the "Measuring point group setting screen". ( Refer to 4.5.4 Measuring point group registration)

*2 The measuring point group is automatically registered when

selected from the pull-down menu.

*3 When the measuring point is newly registered, it will be

automatically registered in the [No.1] as the default.

4-116

Setting the monitor type and setting value This section described the setting of the monitoring type and the setting value.

1 Setting the monitoring type and setting value Set the monitoring type (Energy planned value, Upper limit, Lower limit, Upper or lower limit, Operation(ON), Operation(OFF), Operation(ON/OFF)), and the setting values (Lower limit value, Upper limit value). *1 The monitoring type and the setting value cannot changed during [measuring point] editing.

Change it after pressing the [Resister] button.

(1) [Monitoring] Select no monitoring or the monitoring type from the [Monitoring] selection pull-down menu.

The following monitoring types are displayed in the pull-down menu according to the type of measuring item.

Type of measuring item Monitoring type

Integrat (consumption, etc.) not set, Energy planned value

Instant (current, voltage, etc.) not set, Upper limit, Lower limit, Upper or lower limit

Status Operation(ON), operation(OFF), operation(ON/OFF)

PLC Data type: Integrate -> The same as the integrate Data type: Instant -> The same as the instant Data type: Status - > The same as the status

*1 The setting is automatically registered when selected from the pull-down menu.

(2) [Lower limit value], [Upper limit value] Double-click the [Lower limit value] or [Upper limit value] field, and enter the values for the lower limit and upper limit. The entry conditions are as follow.

Monitoring conditions Active or inactive status

Input range Upper limit monitoring

Lower limit monitoring

Upper/lower limit monitoring

Lower limit setting value Up to 11 digits including decimal point and (-) sign; up to 5 decimal digits Upper limit setting value

*1 When monitoring, the values rounded by the number of decimal digits set for the measuring point are compared. Provide some margin to the monitoring values.

*2 When monitoring the upper and lower limits, make sure that [Lower limit setting value] < [Upper limit setting value] is satisfied.

*3 Input value is automatically registered when the Enter key is pressed.

* If the settings are incorrect, a message as shown on the right appears when the Enter key is pressed. Change the setting to satisfy the condition for each item.

(Example of display)

* Up to 32 points can be selected from the measuring points for upper/lower limit monitoring.

Up to 32 points can be set for the operation status monitoring.

4-117

Copy and paste the measuring point

To copy registered measuring point information, select the line to copy and press the right-click menu [Copy measuring point information] or the short-cut keys Ctrl+C.

To paste the copied measuring point information, select the line to paste and press the right-click menu [Paste measuring point information] or the short-cut keys Ctrl+V.

Remarks Multiple lines cannot be copied and pasted. Measuring point information cannot be pasted into a registered line. The -+ pasted line No. is automatically added to the end of the pasted measuring point name. The default value is set in the pasted address. The pasted measuring point information is automatically registered.

4-118

Delete a registered measuring point

This section described how to delete a registered measuring point.

1 Displaying the [Measuring point] dialog box Click the [Measuring point] button in the dialog box of project setting.

2 Selecting a measuring point you want to delete, and clicking the [Delete] button

Select a line of a measuring point you want to delete in the measuring point list, and then click the [Delete] button.

*1 If the terminal you select is registered as any of a virtual

measuring point, a Specific consumption measuring point, equipment, or a monitoring notification, the message shown on the right will be displayed. Click the [OK] button to delete the registered item first.

3 Deleting A delete confirmation message appears. Click the button to delete.

[Yes] button : Delete the measuring point, and back to the [Measuring point registration] dialog box.

[No] button : Cancel the deletion, and back to the [Measuring point registration] dialog box.

After the measuring point is deleted, its registration information is removed from the list in the [Measuring point] list.

Remarks The measuring point information can also be deleted by clicking the right-click menu [Delete

measuring point information] or by pressing the [Delete] key.

Line of a measuring point to be deleted

4-119

Editing registration information of a registered measuring point

This section described how to edit registration information of a measuring point.

1 Displaying the [Measuring point] dialog box Click the [Measuring point] button in the dialog box of project setting.

2 Selecting a measuring point you want to edit, and click the [Edit] button

Double-click a line of a measuring point you want to edit in the measuring point list or select a line of a measuring point you want to edit, and then click the [Edit] button.

3 Editing the items to be changed and registering them Click the [Register] button after editing items you want to change. * The entries and conditions for each item are similar to those at registering a new measuring point.

Remarks You cannot edit the items other than the [Name] if it is registered as a virtual measuring point, a

Specific consumption measuring point, equipment, or a monitoring notification.

Line of a measuring point to be edited

Click the Edit button to enable changes.

4-120

4.5.5. Measuring point group registration This section explains the procedure on the for [Measuring point group set]. A measuring point group refers to a group of several measuring points. It is listed in the current value view (group) of the EcoWebServerIII for each measuring point group registered here. A maximum of 32 groups can be registered.

Remarks You cannot register one measuring point to more than one measuring point group at the same time. You cannot register a virtual measuring point to a measuring point group.

Checking a list of registered measuring point groups

The following describes how to display and check the list of registered measuring point groups.

1 Displaying the [Measuring point] dialog box Click the [Measuring point] button in the dialog box of project setting.

2 Displaying the [Measuring point group set] dialog box

Select an any measuring point on the measuring point registration screen, and select from the [Group] selection pull-down menu.

3 Checking the registration information Check the following information displayed in the screen.

[No.] : Measuring point group No. [Name] : Name of registered measuring point group

4-121

Registration a new measuring point group

This section described how to a new measuring point group.

1 Displaying the [Measuring point] dialog box Click the [Measuring point registration] button in the dialog box of project setting.

2 Displaying the [Measuring point group set] dialog box Select an any measuring point on the measuring point registration dialog box, and select from the [Group] selection pull-down menu.

Remarks "Group 1" is set in Group No. 1 as the default.

3 Entering the measuring point group name Double-click a cell with no name set, and enter the measuring point group name. (This group name is shown in the graphs or the list of measuring points, etc., on the EcoWebServerIII page.)

The entry conditions are as follows.

Characters Up to 24 characters

Prohibited characters

The following characters cannot be registered: # / : , ; * ? < > |

*1 If you use the characters in the list of prohibited characters in Appendix, they may not be displayed correctly in the browser view of EcoWebServerIII.

*2 A duplicate measuring point group name cannot be registered.

[EcoWebServerIII page]

Group name

4-122

4 Registering Click the button on the [Measuring point group set] dialog box to register.

[Register] button : Register the measuring point group with information you set. [Close] button : Back to the [Measuring point] dialog box.

*1 If the setting is incorrect, the error message such as the one on the right will

appear according to the invalid setting when [Register] button is clicked. Correct the setting to satisfy the conditions.

(Example of display)

*2 If you click [Close] button without clicking the [Register] button after

changing the entry, the message shown on the right will appear. [Yes] button : Register [No] button : Not register. [Cancel] button : Back to the [Measuring point group set] dialog box

To copy registered measuring point group information, select the line to copy and press the right-click menu [Copy measuring point group information] or the short-cut keys Ctrl+C.

To paste the copied measuring point group information, select the line to paste and press the right-click menu [Paste measuring point group information] or the short-cut keys Ctrl+V.

Remarks Multiple lines cannot be copied and pasted. Measuring point group information cannot be pasted into a registered line.

4-123

Deleting a registered measuring point group

This section described how to delete a registered measuring point group.

1 Displaying the [Measuring point group set] dialog box Select any measuring point on the measuring point registration screen, and select from the [Group] selection pull-down menu.

2 Selecting the measuring point group you want to delete, and clicking the [Delete] button

Select a line of the measuring point group you want to delete in the list in the [Measuring point group set] dialog box, and then click the [Delete] button.

3 Deleting A delete confirmation message appears. Click the button to delete.

[Yes] button : Delete the measuring point group and back to the [Measuring point group set] dialog box.

[No] button : Cancel the deletion and back to the [Measuring point group set] dialog box.

After the measuring point group is deleted, its registration information is removed from the list in the [Group] list. * The measuring point that is registered in the deleted group is assigned to the measuring point group 1.

Remarks The measuring point group can also be deleted by clicking the right-click menu [Delete measuring

point group information] or pressing the [Delete] key. Measuring point group No. 1 cannot be deleted

Line of a measuring point to be deleted

4-124

Editing the registration information of a registered measuring point group

This section described how to registration information of a measuring point group.

1 Displaying the [Measuring point] dialog box Click the [Measuring point] button in the dialog box of project setting.

2 Displaying the [Measuring point group set] dialog box Select any measuring point on the measuring point registration dialog box, and select from the [Group] selection pull-down menu.

3 Editing the name of the group you want to change Double-click the name of the measuring point group to be changed in the list on the [Measuring point group set] dialog box, and change the name.

4 Registering Click the [Register] button after editing items you want to change. * The entries and conditions for each item are similar to those at registering a new group.

Line of a measuring point to be edited

4-125

4.6. Measuring data collection setting [Advanced settings] This section explains setting items that make it easier to use this product: "Virtual measuring point registration", "Specific consumption measuring point registration" and "Equipment registration". 4.6.1. Virtual measuring point registration This section explains the procedure on the [Virtual measuring point registration]. A virtual measuring point refers to a measuring point for which the computation result between measuring points is used as virtual measurement data. A maximum of 128 measuring points (excluding the 255 measuring points) can be registered.

Checking the list of registered virtual measuring points

The following describes how to display and check the list of virtual measuring points.

1 Displaying the [Virtual measuring point] dialog box Click the [Virtual] button in the dialog box of project setting.

2 Checking the registration information Check the following information displayed on the [Virtual measuring point] list.

[ID] : Virtual measuring point ID [Data type] Data type of a registered virtual measuring point (integrated value,

momentary value) [Virtual measuring point name] Name of a registered virtual measuring point [Arithmetic expression] Registered arithmetic expression [Unit] : Registered unit [Decimal] : Registered number of digits after the decimal point

4-126

Registering a new virtual measuring point

This section described how to register a new virtual measuring point.

1 Displaying the [Virtual measuring point] dialog box Click the [Virtual measuring point registration] button in the dialog box of project setting.

2 Selecting the line to register, and clicking the [Edit] button Double-click the line to register on the [Virtual measuring point] list, or select the line to register and click the [Edit] button.

Remarks You can select and register any virtual measuring point. (Also, you can create a free ID.)

Click the Edit button to enable changes

Line of a virtual measuring point ID to be registered

4-127

3 Entering or selecting the items Enter or select the following items.

[Data type] Select either of an [Integrate] or a [Instant].

* When the [Integrate] is selected here, only an [Integrate] can be specified as a measuring point in an arithmetic expression. When the [Instant] is selected, only a [Instant] can be specified.

[Name(Virtual)] Enter a name of a virtual measuring point. (This virtual measuring point name is shown in the graphs or the list of measuring points on the EcoWebServerIII page)

Characters Up to 24 characters

Prohibited characters

The following characters cannot be registered: # / : , ; * ? < > |

*1 If you use any disallowed characters, which are listed in Appendix: Disallowed Character List, the characters may not be displayed properly in the browser display of EcoWebServerIII.

*2 A duplicate name of a virtual measuring point cannot be registered.

[Unit] Select or directly type a unit. When you type it directory, the entry conditions are as follows.

Characters Up to 8 characters

Prohibited characters

The following characters cannot be registered: # : , ; * ? < > |

* Units that can be selected from the pull-down menu vary depending on the [Data type].

[Decimal] Select a number of digits after the decimal point. A computation result is rounded at the number of digits specified here. (Ex.) "1 digit" is selected -> a computation result is truncated a number to 1 decimal place

4 Entering an arithmetic expression Enter an arithmetic expression of a virtual measuring point. To enter a numeric value and operator, use buttons on the dialog box. You cannot enter input them by a keyboard

The conditions of the expression you can enter are as follows.

Arithmetic element Up to 16 elements, including measuring points and constants Characters in an arithmetic expression Up to 256 characters Numerical input range 11 digits including decimal point, up to 5 digits after the decimal point

4-128

Expression not allowed Value exceeds 11 digits Consecutive operators Sign after operator Right bracket after value Value after right bracket Left bracket after right one Right bracket after left one Operator after left bracket Right bracket after operator Operator after 0 More than 6 decimal places Integer started with 0 Start with a decimal point Start with a right bracket Start with an operator Start with a sign

Ex. : 123456789012 Ex. : */ Ex. : *-4.2 Ex. : 123( Ex. : )123 Ex. : )( Ex. : () Ex. : (* Ex. : 0+ Ex. : 0.000001 Ex. : 0123 Ex. : .00001 Ex. : ) Ex. : * Ex. : -

*1 You can specify it with a constant only. This is used to specify a constant to a production amount in the Specific consumption measuring point registration, and a load time, a downtime, the number of processed products and the number of non-defective products in the Equipment registration. In this case, set an integrated value for the data type.

*2 After an expression is entered, the [Data type] is disabled and you cannot change the data type. After all expressions are cleared, the [Data type] is enabled and you can change the data type.

(1) Select [Group]

(2) Measuring points included in the group selected in (1) is displayed in the list. Double-click a line of a measuring point name you want to enter an arithmetic expression,

Or

Select a line of a measuring point you want to enter, and then click the [Select] button.

Line of a measuring point to be entered in the expression

4-129

(3) The ID number of the measuring point selected is entered in the [Expression]. (ID number is 3 digits or 4 digits)

*1 The "demand measuring point" groups are displayed only on the EcoWebServerIII with demand

control function. *2 If [Integrate] is selected for [Data type], the following measuring points appear as the "demand

measuring point" group. 1001 Integrated value of Consumption (Whole day) 1032 Integrated value of Consumption (Time zone 1) 1033 Integrated value of Consumption (Time zone 2) 1034 Integrated value of Consumption (Time zone 3) 1035 Integrated value of Consumption (Time zone 4) 1036 Integrated value of Consumption (Time zone 5) 1037 Integrated value of Consumption (Time zone 6) 1038 Integrated value of Consumption (Time zone 7) 1039 Integrated value of Consumption (Time zone 8) 1040 Integrated value of Consumption (Time zone 9) 1041 Integrated value of Consumption (Time zone 10)

The integrated value of consumption (Time zone 1) to integrated value of consumption (Time zone 10) are displayed only when [Carry out management based on calendar setting] is checked.)

If you want to delete one expression, click the [BS] button. If you want to clear all expressions, click the [BS] button.

After you clicked the [Clear] button, the following message will appear.

[Yes] button : Clear all expressions and back to the [Virtual measuring point] dialog box.

[No] button : Cancel clearing and back to the [Virtual measuring point] dialog box.

4-130

5 Registering Click the button on the [Virtual measuring point] dialog box to register.

[Register] button : Register the virtual measuring point information you set. [Close] button : Back to the project setting dialog box.

* If the set details are not proper, an error message as shown on the right is

displayed when clicking the [Register] button according to the error details. Reset the details so as to meet the conditions of each item.

(Example of display)

*2 After modification of entry details of each item, click the [Close]

button instead of clicking the [Register] button, the message shown on the right is displayed. [Yes] button : To register [No] button : Not to register [Cancel] button : Back to the [Vertual measuring point] dialog box.

*3 When the entries of the expression are incorrect, the following error message will appear.

Click the [OK] button, and then enter a correct expression.

Error message Example of bad entry Countermeasures Algorithm errors. [The value (measuring point or constant) is 1 piece in parenthases]

(ID001), (1.23), etc. Remove unnecessary brackets.

Algorithm errors. [The arithmetic result of the constant is "0"]

(10-10), (5-3-2), etc. You cannot register the constant that a computation between constants results in 0.

Algorithm errors. [The arithmetic result of the constant exceeds 11 digits]

(999999*999999), etc. You cannot register an expression such as that computation between constants results in more than 11 digits.

Algorithm errors. [The formula is wrong]

((ID0001+ID002), ID0001+, etc.

Check if the expression is valid.

Algorithm errors. [The number of characters of arithmetic expressions exceeds 256 characters]

((((((((((((((((((((1000000000+ ID001)+(ID002*1.2)..., etc.

You cannot register an expression exceeding 256 characters.

Algorithm errors. [Divide by zero]

100/0, etc. You cannot register an expression including a division by zero.

4-131

To copy registered virtual measuring point information, select the line to copy and press the right-click menu [Copy virtual calculation point information] or the short-cut keys Ctrl+C.

To paste the copied virtual measuring point information, select the line to paste and press the right-click menu [Paste virtual calculation point information] or the short-cut keys Ctrl+V.

Remarks Multiple lines cannot be copied and pasted. Virtual measuring point information cannot be pasted into a registered line. The "-"+ pasted line No. is automatically added to the end of the pasted virtual measuring point name. The pasted virtual measuring point information is automatically registered.

4-132

Deleting a registered virtual measuring point

This section described how to delete a registered virtual measuring point.

1 Displaying the [Virtual measuring point] dialog box Click the [Virtual] button in the dialog box of project setting.

2 Selecting a virtual measuring point you want to delete, and clicking the [Delete] button

Select a line of a measuring point you want to delete in the list in the [Virtual measuring point] list dialog box, and then click the [Delete] button

* If the virtual measuring point you select is registered as

a specific consumption measuring point, the message on the right will appear. Click the [OK] button to delete the registered item first.

3 Deleting The message confirming deletion is displayed. Click the button to execute deletion.

[Yes] button : Delete the virtual measuring point and back to the [Virtual measuring point] dialog box.

[No] button : Cancel the deletion and back to the [Virtual measuring point] dialog box.

After the virtual measuring point is deleted, its registration information is removed from the list in the [Virtual measuring point] list.

Remarks You can delete it by clicking the right-click menu [Delete virtual calculation point information], or by

pressing the [Delete] key.

Line of a virtual measuring point to be deleted

4-133

Editing the registered information of a registered virtual measuring point

This section described how to edit registration information of a virtual measuring point.

1 Displaying the [Virtual measuring point] dialog box Click the [Virtual] button in the dialog box of project setting.

2 Selecting a virtual measuring point you want to edit, and click the [Edit] button

Double-click a line of a virtual measuring point you want to edit on the list in the [Virtual measuring point] list dialog box, or select a line of a virtual measuring point you want to edit, and then click the [Edit] button

3 Editing the items to be changed and registering them After editing the items to be changed, click the [Register] button. * The entries and conditions for each item are similar to those at registering a new virtual measuring point.

Remarks You cannot edit the [Expression] if it is registered as a specific consumption measuring point.

Click the Edit button to enable changes

Line of a virtual measuring point to be edited

4-134

4.6.2. Specific consumption measuring point registration This section explains the procedure on the [Specific consumption measuring point]. A specific consumption measuring point refers to a measuring point for which the result of dividing energy amount by production amount is used as measurement data. A maximum of 64 measuring points (excluding the 255 measuring points and the 128 virtual measuring points) can be registered.

Checking the list of registered specific consumption measuring points

The following describes how to display and check the list of specific consumption measuring points.

1 Displaying the [Specific consumption measuring point] dialog box Click the [Specific consumption] button in the dialog box of project setting.

2 Checking the registration information Check the following information displayed in the [Specific consumption measuring point] list.

[ID] : Specific consumption measuring point ID [Specific consumption measuring point name] : Specific consumption measuring point name [Energy amount] : Measuring point name set for energy amount to be the

numerator of the specific consumption [Unit] : Registered unit [Monitoring] : Registered monitoring on/off state

4-135

Registering a new specific consumption measuring point

This section described how to register a new specific consumption measuring point.

1 Displaying the [Specific consumption measuring point] dialog box Click the [Specific consumption] button in the dialog box of project setting.

2 Selecting the line to register, and clicking the [Edit] button Double-click a line of an ID you want to register on the list in the [Specific consumption measuring point] list dialog box, or select a line of an ID you want to register, and then click the [Edit] button.

Remarks You can select and register any specific consumption measuring point. (Also, you can create a free

ID.) You cannot register a specific consumption measuring point when no measuring point or virtual

measuring point for an integrated value is registered. (The [Edit] button is disabled.)

Line of an ID to be registered

Click the Edit button to enable changes.

4-136

3 Entering or selecting the items Enter or select the following items.

[Name(Sp-Cons.)] Enter a name of a Specific consumption measuring point. (This name is shown in the graphs or the list of measuring points on the EcoWebServerIII page)

Characters Up to 24 characters

Prohibited characters

The following characters cannot be registered: # / : , ; * ? < > |

*1 If you use any disallowed characters, which are listed in Appendix: Disallowed Character List, the characters may not be displayed properly in the browser display of EcoWebServerIII.

*2A duplicate specific consumption measuring point name cannot be registered.

[Unit] Type a unit directly. The entry conditions are as follows.

Characters Up to 16 characters

Prohibited characters

The following characters cannot be registered: # : , ; * ? < > |

[Decimal] Select a number of digits after the decimal point. A computation result is rounded at the number of digits specified here. (Ex.) "1 digit" is selected -> a computation result is truncated a number to 1 decimal place

4 Selecting an energy amount (numerator) Using the following procedure, select a measuring point for an energy amount to be the numerator of the specific consumption.

(1) Click the [Ref] button in the [Energy amount (numerator)] area to display the [Selection of the measuring point] dialog box.

(2) Select any of registered group, demand measuring point, [Virtual measuring point], and [All] from the [Group] pull-down menu.

* The [Virtual measuring point] can be selected only when a virtual measuring point for an integrated value is registered.

* Among measuring points registered with the selected group, only the integrated values are displayed in the list.

* [Demand measuring point] can be selected only with the EcoWebServerIII with demand control function.

4-137

(3) Double-click the measuring point name or the virtual measuring point name,

Or

Select the measuring point name or the virtual measuring point name, and click the [Select] button.

(4) The name and unit of the selected measuring point will be display in the fields in the [Energy amount (numerator)].

*1 The following measuring points can be selected as the "demand measuring point" groups when using

the EcoWebServerIII with demand control function. 1001 Integrated value of Consumption (Whole day) 1032 Integrated value of Consumption (Time zone 1) 1033 Integrated value of Consumption (Time zone 2) 1034 Integrated value of Consumption (Time zone 3) 1035 Integrated value of Consumption (Time zone 4) 1036 Integrated value of Consumption (Time zone 5) 1037 Integrated value of Consumption (Time zone 6) 1038 Integrated value of Consumption (Time zone 7) 1039 Integrated value of Consumption (Time zone 8) 1040 Integrated value of Consumption (Time zone 9) 1041 Integrated value of Consumption (Time zone 10)

(The integrated value of consumption (Time zone 1) to integrated value of consumption (Time zone 10) can be selected only when [Carry out management based on calendar setting] is checked.)

5 Selecting production amount (denominator) Select a measuring point for production amount to be the denominator of the specific consumption. The procedure to select a measuring point is similar to 4 Select an energy amount.

4-138

6 Registering Click the button on the [Specific consumption measuring point] dialog box to register.

[Register] button : Register the specific consumption measuring point information you set. [Close] button : Back to the project setting dialog box.

*1 If the set details are not proper, an error message as shown on the right is

displayed when clicking the [Register] button according to the error details. Reset the details so as to meet the conditions of each item.

(Example of display)

*2 After modification of entry details of each item, click the [Close]

button instead of clicking the [Register] button, the message shown on the right is displayed. [Yes] : To register [No] : Not to register [Cancel] : Back to the [Specific consumption measuring point] dialog

box.

7 Setting the specific consumption target value monitoring Set the specific consumption target value monitoring.

Enable or disable the specific consumption target value monitoring with the [Monitoring] check box Checked : Monitoring enabled Not checked : Monitoring disabled

4-139

To copy registered specific consumption measuring point information, select the line to copy and press the right-click menu [Copy Sp-Cons. information] or the short-cut keys Ctrl+C.

To paste the copied specific consumption measuring point information, select the line to paste and press the right-click menu [Paste Sp-Cons. information] or the short-cut keys Ctrl+V.

Remarks Multiple lines cannot be copied and pasted. Specific consumption measuring point information cannot be pasted into a registered line. The ""+ pasted line No. is automatically added to the end of the pasted specific consumption

measuring point name. The pasted specific consumption measuring point information is automatically registered.

4-140

Deleting a registered specific consumption measuring point

This section described how to delete a registered specific consumption measuring point.

1 Displaying the [Specific consumption measuring point] dialog box Click the [Specific consumption] button in the dialog box of project setting.

2 Selecting a specific consumption measuring point you want to delete, and clicking the [Delete] button

Select a line of a measuring point you want to delete in the [Specific consumption measuring point] list, and then click the [Delete] button.

* If the specific consumption measuring point you select is

registered as a monitoring notification, the message on the right will appear. Click the [OK] button to delete the registered item first.

3 Deleting The message confirming deletion is displayed. Click the button to execute deletion.

[Yes] button : Delete the specific consumption measuring point and back to the [Specific consumption measuring point] dialog box.

[No] button : Cancel the deletion and back to the [Specific consumption measuring point] dialog box.

After the specific consumption measuring point is deleted, its registration information is removed from the list in the [Specific consumption measuring point] list.

Remarks You can delete it by clicking the right-click menu [Delete Sp-Cons. information], or by pressing the

[Delete] key.

Line of a Specific consumption measuring point to be deleted

4-141

Editing a registered specific consumption measuring point

This section described how to edit registration information of a specific consumption measuring point.

1 Displaying the [Specific consumption measuring point] dialog box Click the [Specific consumption] button in the dialog box of project setting.

2 Selecting a specific consumption measuring point you want to edit, and clicking the [Edit] button

Double-click a line of a specific consumption measuring point you want to edit on the list in the [Specific consumption measuring point] list dialog box, or select a line of a specific consumption measuring point you want to edit, and then click the [Edit] button.

3 Editing the items to be changed and registering them Edit the item to be changed and then click the [Register] button. * The entries and conditions for each item are similar to those at registering a new specific consumption

measuring point.

Click the Edit button to enable changes.

Line of a specific consumption measuring point to be edited

4-142

4.6.3. Equipment registration This section explains the procedure on the [Equipment]. In the [Equipment], you can set equipment parameters: "Std. cycle", "Time 1", "Time 2", "Quantity 1" and "Quantity 2". Std. cycle : Standard cycle time Time 1 : The loading time Time 2 : The stop time Quantity 1: : The process quantity Quantity 2 : The qualified product quantity Based on these parameters, the EcoWebServerIII main unit calculate and display the "Availability", "Performance", "Quality" and "Overall equipment efficiency" that are indexed of equipment efficiency. Also, the graphs of the display measuring point and the equipment efficiency can be displayed side-by-side by registering "display measuring point" for equipment. (A maximum of 10 "display measuring points" can be registered per equipment.) A maximum of 42 points for equipment can be registered.

* For details about the measurement graph view, refer to Instruction Manual Operation.

[EcoWebServerIII measurement graph view - Equipment]

4-143

Checking the list of registered equipment

The following describes how to display and check the list of equipment.

1 Displaying the [Equipment list] dialog box Click the [Equipment] button in the project setting screen.

2 Checking the registration information Check the following information displayed on the list.

[ID] : Equipment ID [Equipment name] : Name of registered equipment [Standard cycle time] : Registered reference cycle time [Loading time] : Name of a measuring point registered as a loading time [Stop time] : Name of a measuring point registered as a stop time [Process quantity] : Name of a measuring point registered as a process quantity [Qualified product quantity] : Name of a measuring point registered as a qualified product quantity [Display measuring point ID] : Measuring point ID or virtual measuring point ID registered as a display

measuring point ID (displayed in order of setting)

4-144

Registering new equipment

This section described how to register new equipment.

1 Displaying the [Equipment list] dialog box Click the [Equipment] button in the dialog box of project setting.

2 Displaying the [Equipment] dialog box Double-click a line of an equipment ID you want to register on the list in the [Equipment list] dialog box, or Select a line of an ID you want to register, and then click the [Edit] button.

Remarks You can select and register any virtual measuring point. (Also, you can create a free ID.) You cannot register equipment when no measuring point or virtual measuring point for an integrated

value is registered. (The [Edit] button is disabled.)

Line of equipment ID to be registered

4-145

3 Entering or selecting the items (1) [Name(Equ.)]

Enter a name of equipment. (This equipment name is shown on the EcoWebServerIII page.)

The entry conditions are as follows.

Number of characters Up to 24 characters

Prohibited characters The following characters cannot be registered: # / : , ; * ? < > |

*1 If you use any disallowed characters, which are listed in "Appendix: Disallowed Character List," the characters may not be displayed properly in the browser display of EcoWebServerIII.

*2 A duplicate equipment name can be registered.

(2) [Std. cycle] Enter a reference time between the introduction of a product into the equipment and the completion.

The entry conditions are as follows.

Range 1 to 2678400 [seconds]

(3) [Time 1], [Time 2] Set measuring points to measure the loading time ([Time 1]) and the stop time ([Time 2]) of the equipment.

After you clicked the [Ref.] button, the [Selection of the measuring point] dialog box will appear.

Double-click a line of a measuring point you want to set, Or Select a line of a measuring point you want to set, and then click the [Select] button.

Select a unit from [Second], [Minute], and [Hour]. * The unit is used at the calculation of "Time availability".

Match it with the unit registered for the measuring point selected as a loading time and a stop time. (Ex.) The unit of the measuring point selected is a second => Select the "Second".

The unit of the measuring point selected is a minute => Select the "Minute". The unit of the measuring point selected is an hour => Select the "Hour".

4-146

(4) [Quantity 1], [Quantity 2] Set the measuring points to measure the process quantity ([Quantity 1]) and qualified product quantity([Quantity 2]).

After you clicked the [Ref.] button, the [Selection of the measuring point] dialog box will appear.

Double-click a line of a measuring point you want to set, Or Select a line of a measuring point you want to set, and then click the [Select] button.

4 Setting a display measuring point Set measuring points to display graphs under the equipment efficiency graph in the measurement graph view of equipment.

(1) Add/delete a display measuring point After you clicked the [Graph func.] button in the [Equipment] dialog box, the [Registration of display measuring point] dialog box will appear. Double-click a line of a measuring point you want to register in the [Unregistered ID], or Select a line of a measuring point you want to register, and then click the [<-] button

The measuring point selected is added to the last line in the [Registered ID]. *1 If you want to delete a measuring point from a group, double-click a line of the measuring point you

want to delete on the [Registered ID], or select a line of a measuring point you want to delete, and then click the [->] button

Line of a measuring point to be added

[EcoWebServerIII measurement graph view - Equipment]

Graph of display

measuring point

4-147

(2) Change the order in which the display measuring points are listed The graphs in the "Graph view - Equipment Graph" of the EcoWebServerIII is displayed in order of measuring points registered in [Registered ID],

To change the registration order of the measuring points in the [Registered ID], select a line of equipment, and click the [ ] button and the [ ] button. Click [ ] button once to move up one line.

Click [ ] button once to move down one line.

(3) Register a display measuring point Click the [Register] button on the [Registration of display measuring point] dialog box.

5 Registering Click the button on the [Equipment] dialog box to register equipment.

[Register] button : Register equipment information you set. [Close] button : Back to the [Equipment list] dialog box.

* If the set details are not proper, an error message as shown on the

right is displayed when clicking the [Register] button according to the error details. Reset the details so as to meet the conditions of each item.

(Example of display)

*2 After modification of entry details of each item, click the [Create],[<

Prev.], [Next>] or [Close] button instead of clicking the [Register] button, the message shown on the right is displayed. [Yes] : To register [No] : Not to register. [Cancel] : Back to the [Equipment] dialog box.

To register equipment continuously, click the [Create] button and repeat the step 3 to 5. Click the [ ] button to check, delete, and change the registration information of the next equipment.

4-148

Deleting registered equipment

This section described how to delete registered equipment.

1 Displaying the [Equipment list] dialog box Click the [Equipment] button in the dialog box of project setting.

2 Selecting equipment you want to delete, and clicking the [Delete] button

Select a line of a measuring point you want to delete in the list in the [Equipment list] dialog box, and then click the [Delete] button.

3 Deleting A delete confirmation message appears. Click the button to delete the terminal.

[Yes] button : Delete the equipment and back to the [Equipment list] dialog box.

[No] button : Cancel the deletion and back to the [Equipment list] dialog box.

After the equipment is deleted, its registration information is removed from the list in the [Equipment list].

Remarks You can delete it using the [Delete] button on the [Equipment] dialog box.

Line of equipment to be deleted

4-149

Editing the registered information of registered equipment

This section described how to edit registration information of equipment.

1 Displaying the [Equipment list] dialog box Click the [Equipment] button in the dialog box of project setting.

2 Selecting equipment you want to edit, and clicking the [Edit] button Double-click a line of equipment you want to edit on the list in the [Equipment list] dialog box, or Select a line of equipment you want to edit, and then click the [Edit] button.

3 Editing the items to be changed and registering them After editing the items to be changed, click the [Register] button. * The entries and conditions for each item are similar to those at registering new equipment.

Line of equipment to be edited

4-150

4.6.4. Equipment group registration This section explains the procedure on the registration of device group. Equipment group refers to a group of equipment. It is listed in the "Measurement graph view - Equipment of the EcoWebServerIII for each equipment group registered here. A maximum of 42 groups can be registered.

.

* For details about the measurement graph view, refer to Instruction Manual Operation.

Remarks Equipment registered on the [Equipment] must be registered in any of groups.

When there is equipment that is not registered in equipment group, a project can be saved but cannot be written into the EcoWebServerIII.

You can register one equipment to more than one equipment group at the same time.

[EcoWebServerIII Graph view - Equipment Graph]

Equipment group selection

Graph of equipment group: With the equipment included in the selected equipment group as the horizontal axis, display the total of defective products and downtime for a day in the graph.

Equipment details list: List in order of the equipment group registered.

4-151

Checking the list of registered equipment groups

The following describes how to display and check the list of equipment groups.

1 Displaying the [Equipment list] dialog box Click the [Equipment] button in the dialog box of project setting.

2 Displaying the [Equipment group list] dialog box Click the [Equipment group] button in the dialog box of Device list.

3 Checking the registration information Check the following information displayed on the list.

[No.] : Equipment group No. [Equipment group name] : Name of registered equipment group [Equipment ID] : Measuring point registered to the equipment group

4-152

Registering a new equipment group

This section described how to register a new equipment group.

1 Displaying the [Equipment list] dialog box Click the [Equipment] button in the dialog box of project setting.

2 Displaying the [Equipment group list] dialog box Click the [Equipment group] button in the dialog box of device list.

3 Displaying the [Registration of equipment group] dialog box Double-click a line of the equipment group No. you want to register on the list in the [Equipment group list] dialog box, or select a line of an equipment group No. you want to register, and then click the [Edit] button.

Remarks You cannot register an equipment group when no equipment is registered.

Line of an equipment group No. to be registered

4-153

4 Entering an equipment group name Enter a name of equipment group. (This group name is shown in the "Graph view - Equipment Graph" on the EcoWebServerIII page.) The entry conditions are as follow:

Number of characters Up to 24 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

*1 If you use any disallowed characters, which are listed in "Appendix: Disallowed Character List," the characters may not be displayed properly in the browser display of EcoWebServerIII.

*2 A duplicate equipment group name cannot be registered.

5 Adding equipment to an equipment group Double-click a line of equipment you want to add to a group on the [Equipment list], or select a line of equipment you want to add to a group, and then click the [<- ] button.

The selected measuring point is added to the last line in the [Included equipment in group].

* If you want to delete equipment from a group, double-click the line of the measuring point you want to delete on the [Included equipment in group], or select a line of equipment you want to delete, and then click the [->] button.

6 Changing the order in which the equipment are listed The equipment details list in the "Graph view - Equipment Graph" of the EcoWebServerIII is displayed in order of equipment registered in the [Included equipment in group]. To change the registration order of the equipment in the [Included equipment in group] area, select a line of equipment, and click the [ ] button and the [ ] button. Click [ ] button once to move up one line. Click [ ] button once to move down one line.

Line of equipment to be added

4-154

7 Registering Click the button on the [Registration of equipment group] dialog box to register equipment.

[Register] button : Register the equipment group with information you set. The registration information will be reflected to the [Equipment group list] dialog box.

[Close] button : Back to the [Equipment group list] dialog box.

*1 If there is no equipment in the [Included equipment in group], the

massage on the right will appear at clicking the [register] button. Click the [OK] button to register equipment.

*2 If there is equipment that is not registered in any equipment group, the massage on the right will appear at clicking the [Close] button. [Yes] button : Close the [Registration of equipment group]

dialog box. [No] button : Back to the [Registration of equipment

group] dialog box.

*3 If the set details are not proper, an error message as shown on the right is

displayed when clicking the [Register] button according to the error details. Reset the details so as to meet the conditions of each item.

(Example of display)

*4 After modification of entry details of each item, click the [Create], [ ] or [Close] button instead of clicking the [Register] button, the message shown on the right is displayed. [Yes] button : To register [No] button : Not to register [Cancel] button : Back to the [Registration of device group] dialog

box.

To register equipment groups continuously, click the [Create] button and repeat the step 4 to 7. Click the [< Prev.] button to check, delete, and change the registration information of the previous equipment group. Click the [Next >] button to check, delete, and change the registration information of the next equipment group.

4-155

Deleting a registered equipment group

This section describes how to delete a registered equipment group.

1 Displaying the [Equipment group list] dialog box Click the [Registration of equipment group] button in the dialog box of device list.

2 Selecting an equipment group you want to delete, and clicking the [Delete] button

Select a line of an equipment group you want to delete in the list in the [Equipment group list] dialog box, and then click the [Delete] button.

3 Deleting The message confirming deletion is displayed. Click the button to execute deletion.

[Yes] button : Delete the equipment group and back to the [Equipment group list] dialog box.

[No] button : Cancel the deletion and back to the [Equipment group list] dialog box.

After the equipment group is deleted, its registration information is removed from the list in the [Equipment group list].

Remarks You can delete it using the [Delete] button on the [Registration of equipment group] dialog box.

Line of an equipment group to be deleted

4-156

Editing the registered information of a registered equipment group

This section describes how to edit registration information of an equipment group.

1 Displaying the [Equipment group list] dialog box Click the [Registration of equipment group] button in the dialog box of device list.

2 Selecting an equipment group you want to edit, and clicking the [Edit] button

Double-click a line of the equipment group you want to edit on the list in the [Equipment group list] dialog box, or Select a line of equipment group you want to edit, and then click the [Edit] button.

3 Editing the items to be changed and registering them After editing the items to be changed, click the [Register] button. * The entries and conditions for each item are similar to those at registering a new equipment group.

Line of a group to be edited

4-157

4.7. Project operation This section explains the procedure to save the project created in "Basic settings" and "Advanced settings", and project writing, reading and confirmation on EcoWebServerIII. 4.7.1. Project saving This section explains the operation procedure in [Save].

Saving the project

1 Saving (1) Click the [Save] button in the dialog box of Project setting.

(2) The project saving message is displayed.

[Yes] button : To save the project [No] button : To cancel saving

*1 If there remain the equipment not registered in the equipment

group, the message shown on the right is displayed. Project saving can be completed, but project writing is disabled. Make sure to register all the equipment in the equipment group.

(3) After saving is completed, the following message is displayed.

4-158

4.7.2. Project writing This section explains the operation procedure in the dialog box of [Write].

Writing the project via LAN

This section explains the procedure to write the set project in the memory card on EcoWebServerIII via LAN.

1 Displaying the dialog box of [Write] (1) Click the [Write] button in the dialog box of Project setting.

(2) The message confirming project saving is displayed. The project must be saved before writing.

[Yes] button :To save the project and display the project confirmation dialog box.

[No] button :To cancel saving and writing

* If there remain the equipment not registered in the equipment group, the message shown below is displayed. Project saving can be completed, but project writing is disabled. Make sure to register the equipment in the equipment group. Execute writing after registering the all in each group.

(3) The dialog box of [Write project] is displayed.

4-159

2 Inputting the login ID and password Select the [Via Ethernet] radio button, and input the login ID and password for system administration in the [Login ID] and [Password] text boxes respectively. (The default login ID and password are "ecoV" and "ecopass".)

3 Writing the project (1) By clicking the [Execute] button in the dialog box of [Write project],

the writing confirmation message is displayed. [Yes] button : To execute project writing [No] button : To cancel project writing *1 During writing project (during reflecting setting value), collection of the measuring point data will

stop.

*2 In the following cases, need to reset the product after writing. After the factory, when the project writing for the first time When the station number information of CC-Link terminal is changed etc.

Reset confirmation message appears after writing. [Yes] button: After writing of the project, run the reset. [No] button: Stop the writing of the project.

*3 The message of right will be displayed when it was terminated by an error in the previous project writing process.

[No] button : To cancel project writing [Yes] button : To execute project writing

When the writing of the project failed again, following message will display.

[OK]: To cancel project writing

(2) When writing and reset are completed, the following message is displayed.

Do not execute project writing from the multiple client PCs concurrently. Otherwise, the writing may not be performed properly, and EcoWebServerIII may not be launched.

Caution

4-160

*1 If the IP address of EcoWebServerIII is incorrect, the LAN cable is not connected, or EcoWebServerIII is not powered on, the message on the right will be displayed. Click the [OK] button and then check the IP address of EcoWebServerIII, the connection of the LAN cable, and whether the power is turned on.

*2 For a wrong login name or a wrong password,

the message shown on the right is displayed.

*3 When it fails during the writing process of the

project, an error message is displayed. Message contents will vary depending on the occurrence factors and processing content. Refer to the table below.

A To display the error factor Connection error When there is no response from the EcoWebServerIII. Timeout error When timed out while communicating with the EcoWebServerIII. Communication error When there is error response from the EcoWebServerIII.

B

To display the processing contents when error occurs

When many times fail to writing project, reset the product or write again later.

Remarks Project writing overwrites the existing project. Remember this. After completion of project writing, once close the Web browser and restart it.

The changes may not be reflected in the displayed contents depending on the cache function of the browser.

A

B

4-161

Writing the project via drive

This section explains the procedure to write the project in the CompactFlash card using the CompactFlash reader/writer, etc.

* Power off EcoWebServerIII before inserting/removing the memory card.

1 Displaying the dialog box of [Write] (1) Click the [Write] button in the dialog box of Project setting.

(2) The message confirming project saving is displayed. The project must be saved before writing.

[Yes] button :To save the project and display the project confirmation dialog box.

[No] button :To cancel saving and writing

* If there remain the equipment not registered in the equipment group, the message shown below is displayed. Project saving can be completed, but project writing is disabled. Make sure to register the equipment in the equipment group. Execute writing after registering the all in each group.

(2) The dialog box of [Write project] is displayed.

4-162

2 Specifying the drive Select the [Via memory card reader] radio button, and select the drive where the memory card is mounted from the [Drive] pull-down list.

3 Writing the project (1) By clicking the [Execute] button in the dialog box of [Write project],

the writing confirmation message is displayed. [Yes] button : To execute project writing [No] button : To cancel project writing *1 If the device status is not ready, the message shown on the right

is displayed. Click the [OK] button and confirm the device status.

(2) When writing is completed, the following message is displayed.

Remarks Project writing overwrites the existing project. Remember this. First, insert the CF card where the project is written, and then power on EcoWebServerIII.

4-163

4.7.3. Project reading This section explains the operation procedure in the dialog box of [Read].

Reading the project via LAN

This section explains the procedure to read the project from EcoWebServerIII via LAN.

1 Displaying the dialog box of [Read project] (1) Click the [Read] button in the dialog box of Project setting.

(2) The dialog box of [Read project] is displayed

2 Inputting the login ID and password Select the [Via Ethernet] radio button, and input the login ID and password for system administration in the [Login ID] and [Password] text boxes respectively. (The default login ID and password are "ecoV" and "ecopass".)

3 Reading the project (1) By clicking the [Execute] button in the dialog box of [Read project],

the reading confirmation message is displayed. [Yes] button : To execute project reading [No] button : To cancel project reading

4-164

*1 If the IP address of EcoWebServerIII is incorrect, the LAN cable is not connected, or EcoWebServerIII is not powered on, the message on the right will be displayed. Click the [OK] button and then check the IP address of EcoWebServerIII, the connection of the LAN cable, and whether the power is turned on.

Remarks Project reading overwrites the project that is being set now. Remember this. To read project continuously,be done after waiting for about 30 seconds.

*2 For a wrong login ID or a wrong password, the message shown on the right is displayed.

4-165

Reading the project via drive

This section explains the procedure to read the project from the memory card using the memory card reader/writer, etc. * Power off EcoWebServerIII before inserting/removing the memory card.

1 Displaying the dialog box of [Read project] (1) Click the [Read] button in the dialog box of Project setting.

(2) The dialog box of [Read project] is displayed.

2 Specifying the drive Select the [Via memory card reader] radio button, and select the drive where the memory card is mounted from the [Drive] pull-down list.

3 Reading the project (1) By clicking the [Execute] button in the dialog box of [Read project],

the reading confirmation message is displayed. [Yes] button : To execute project reading [No] button : To cancel project reading * If the device status is not ready, the message shown on the right

is displayed. Click the [OK] button and confirm the device status.

4-166

(2) When reading is completed, the following message is displayed.

Remarks Project reading overwrites the project that is being set now. Please note this. Please turn on the EcoWebServerIII after inserting the CF card that wrote the project,

4-167

4.7.4. Confirmation of project This section explains the operation procedure in the dialog box of [Confirm].

Confirm the project via LAN

This section explains the procedure to confirm the project written in EcoWebServerIII and the project saved using this software via LAN.

1 Displaying the dialog box of [Confirm] (1) Click the [Confirm] button in the dialog box of Project setting.

(2) The message is displayed to confirm the project saving.

[Yes] : Overwrite the project and displays the project

confirmation screen. [No] : The project confirmation screen is displayed

without saving the project.

2 Inputting the login ID and

password Select the [Via Ethernet] radio button, and input the login ID and password for system administration in the [Login ID] and [Password] text boxes respectively. (The default login ID and password are "ecoV" and "ecopass".)

3 Confirm the project (1) When clicking the [Execute] button of the [Confirm] dialog box,

the message is displayed to confirm checking. [Yes] button : To execute confirmation of project [No] button : To cancel confirmation of project

4-168

*1 If the IP address of EcoWebServerIII is incorrect, the LAN cable is

not connected, or EcoWebServerIII is not powered on, the message on the right will be displayed. Click the [OK] button and then check the IP address of EcoWebServerIII, the connection of the LAN cable, and whether the power is turned on.

*2 For a wrong login name or a wrong password, the message

shown on the right is displayed.

(2) After completion of confirmation, the confirmation result is displayed.

Remarks To read confirmation of project continuously,be done after waiting for about 30 seconds.

4-169

Confirm the project via drive

This section explains the procedure to confirm a match between the project written in the memory card using the memory card reader/writer and the project saved through this software.

* Power off EcoWebServerIII before inserting/removing the memory card.

1 Displaying the dialog box of [Confirm] (1) Click the [Confirm] button in the dialog box of Project setting.

(2) The message is displayed to confirm the project saving.

[Yes] : Overwirte the project and displays the project

confirmation screen. [No] : The project confirmation screen is displayed

without saving the project.

2 Specifying the drive Select the [Via memory card reader] radio button, and select the drive where the memory card is mounted from the [Drive] pull-down list.

3 Confirm the project (1) When clicking the [Execute] button of the [Confirm] dialog box,

the message is displayed to confirm confirmation . [Yes] button : To execute confirmation of project [No] button : To cancel confirmation of project * If the device status is not ready, the message shown on the right is

displayed. Click the [OK] button and confirm the device status.

4-170

(2) After completion of checking, the checking result is displayed.

4-171

4.8. Options This section describes the setting related to IP address change, clock setting, password change, etc.

1 Displaying the unit setting screen Click [Options]on the project setting screen.

2 Selecting information to set from tree menu [Time] is selected as the default.

Remarks The message shown on the right appears when the

settings have been changed. When setting the IP address, click the [Yes] button and save the project.

The Project setting screen appears when the [Close] button is clicked.

Title (Selected menu appears)

Tree menu (Select the information to set.)

4-172

4.8.1. Time Settings The following describes the steps for operation in [Time].

Reading out the date and time

The following describes the steps for reading out the time that is set to the main unit of EcoWebServerIII.

1 Displaying the [Time] screen Click [Time] button in the tree menu on the unit setting screen.

2 Reading out the time from the main unit of EcoWebServerIII When you click the [Get] button on the [Time] screen, the message for confirming the readout of the time will be displayed.

[Yes] : Executes the readout of the time. [No] : Cancels the readout of the time.

* If the IP address of EcoWebServerIII is incorrect, the LAN cable is not

connected, or EcoWebServerIII is not powered on, the message on the right will be displayed. Click the [OK] button and then check the IP address of EcoWebServerIII, the connection of the LAN cable, and whether the power is turned on.

4-173

When the readout is completed, the following message will be displayed.

Click the [OK] button to display the read-out time.

4-174

Setting the date and time

The following describes the steps for setting the time to the main unit of EcoWebServerIII.

1 Displaying the [Time] screen Click [Time] in the tree menu on the unit setting screen.

2 Selecting and inputting the date and time settings Set the following items.

[Setting the date and time] [Year], [Month], [Day], [Hour], [Minute], [Second]: Use the [ ] buttons to set the date and time. Allowable setting range

00:00:00 on January 1, 2012 to 23:59:59 on December 31, 2099 * The default value is the current time of the PC when the [Time] screen was opened.

[Time zone] When using in Japan, this can be left set to "(UTC+09:00) Osaka, Sapporo, Tokyo". Set according to your time zone.

3 Inputting the maintenance password Type in the maintenance password.

(The default maintenance password is ecopass.)

After the entry, the [Setting] button becomes enabled.

4-175

4 Changing (1) When you click the [ ] button, the confirmation message will

be displayed. [Yes] button : To execute date and time setting [No] button : To cancel date and time setting *1 If the IP address of EcoWebServerIII is incorrect, the LAN cable is

not connected, or EcoWebServerIII is not powered on, the message on the right will be displayed. Click the [OK] button and then check the IP address of EcoWebServerIII, the connection of the LAN cable, and whether the power is turned on.

*2 If the password is incorrect, the message on the right will be

displayed.

(2) When the setting of the date and time is completed, the following message will be displayed.

4-176

4.8.2. IP address settings The following describes the steps for operation in [IP address]. Consult with the network administrator (the personnel who plans networks and administers IP addresses) before configuring the IP address.

Configuring the IP address

Configure the IP address of the main unit of EcoWebServerIII. The following two IP addresses are set for EcoWebServerIII.

CH1: IP address for connecting personal computer and EcoWebServerIII CH2: IP address for connecting PLC and EcoWebServerIII

(Setting not required if data will not be exchanged with PLC)

*1 Connect a PC to which the setting software is installed to the main unit of EcoWebServerIII by using a LAN straight cable or crossover cable on a "1 to 1" basis.

1 Checking the IP address configured on the main unit of EcoWebServerIII

Power on EcoWebServerIII and check the IP address configured on the main unit. ( Refer to Checking IP address in Instruction Manual Hardware.)

(At the time of shipment) IP address : 192.168.10.1 Subnet mask : 255.255.255.0

2 Changing the IP address of the PC To access EcoWebServerIII from the PC, change the IP address of the PC based on the IP address of EcoWebServerIII that was checked in Step 1. * If the network address portion of the IP address of the main unit of EcoWebServerIII (-> xxx.xxx.xxx.xxx) is

the same as that of the PC, the IP address of the PC does not need to be changed.

(1) Take a note of the IP address that is configured on the PC.

(Before change) IP address of the PC :

(Before change) Subnet mask of the PC :

(Before change) Default gateway :

* Be sure to take a note in order to restore the IP address setting of the PC after the IP address of the main unit of EcoWebServerIII is changed.

4-177

(2) Change the IP address of the PC.

(1) Open Control Panel.

(2) Open [Network and Internet View network status and tasks].

(3) Open [Local Area Connection] and then click [Properties].

4-178

(4) Select [Internet Protocol Version 4 (TCP/IP)] and then click [Properties].

* Add [Internet Protocol (TCP/IP)] if it is not registered. For information on how to add the setting, refer to the instruction manual etc. included with the OS.

(5) Select [Use the following IP address] and then type the settings in [IP address] and [Subnet mask]. (Decimal number)

The network portion (*1) of the IP address must be the same as that of the main unit of EcoWebServerIII. The host address portion (*1) of the IP address must be different from that of the main unit of EcoWebServerIII. Note that [0] and [255] cannot be set. *1 The network address portion of the IP address is the section that corresponds to the bits 1 in the

subnet mask. The host address portion of the IP address is the section that corresponds to the bits 0 in the subnet mask. (Example)

Network address portion

Host address portion

IP address 192. 168. 10. 10

Subnet mask (decimal number) 255. 255. 255. 0 Subnet mask (binary number) 11111111. 11111111. 11111111. 00000000

(6) When the entry is completed, click the [OK] button. The network information will be automatically updated. Proceed according to the messages. When the message for rebooting the PC is displayed, reboot the PC.

4-179

3 Opening a project Start up the setting software, select a project with the same IP address setting as that of the main unit of EcoWebServerIII, and click the [Open] button.

Remarks

What if the project cannot be found? Create project with the same IP address setting as that of the main unit of EcoWebServerIII. ( Refer to 4.2.1 Project management, Registering a new project)

What if the IP address of the registered project is different from that of EcoWebServerIII? Change the IP address of the project to the same IP address as the one which is configured on the main unit of EcoWebServerIII. ( Refer to 4.2.4 Project management, Modifying the project information)

4-180

4 Displaying the [IP address] screen Click [Options] on the project setting screen.

5 Reading the network information Click the [Read-out network information] button.

Clicking the button displays the network information read confirmation message

[Yes]: Executes network information reading. [No]: Cancels network information reading.

4-181

When reading is completed, the current setting is displayed in IP address (After), and then the message

below is displayed. Click the [OK] button.

The network information currently set in EcoWebServerIII is reflected to IP address setting (Before) and IP address setting (After) in CH1 and CH2.

4-182

6 Inputting the IP address and subnet mask that you want to configure on EcoWebServerIII (1) Set the IP address for connecting the PC and EcoWebServerIII.

Type the IP address and subnet mask that you want to set in the CH1 IP address setting (after change) field.

[IP address (after change)] [IP address] : Type in a new IP address. [Subnet mask] : Type in a new subnet mask. [Gateway] : Type in a new gateway address.

After the entry, the [Change] button becomes enabled.

[IP address] [Range of configurable IP address]

1.0.0.0126.255.255.255

128.0.0.0191.255.255.255 192.0.0.0223.255.255.255

*1 The following IP addresses cannot be configured. 0.0.0.0, xxx.xxx.xxx.255 (xxx are any values) The same IP address as that of the client PC

*2 The same IP address as the one for other projects can be registered. [Subnet mask] [Setting conditions]

The value 1 continues from the most significant bit.

No 0 is inserted between the 1s. The least significant bit is 0.

(Example) 255. 255. 0. 0 (11111111. 11111111. 00000000. 00000000

(Binary number))

[Gateway] *1 The following IP addresses cannot be configured. 0.0.0.0, xxx.xxx.xxx.255 (xxx are any values)

*2 This item is optional. Configure it only when necessary.

*3 The DNS server can be configured at the same time. To set the DNS server, enter the setting in [DNS setting (After)]. (Refer to 4.8.2 IP address settings, Configuring DNS servers.)

(2) Set the IP address for connecting the PLC and EcoWebServerIII. This setting is not required if data will not be exchanged with the PLC via the MC protocol.

Type the IP address and subnet mask you want to set in the CH2 IP address setting (After) field.

[IP address setting (After)] [IP address] : Type in a new IP address. [Subnet mask] : Type in a new subnet mask. [Gateway] : Type in a new gateway address. The input range is the same as CH1. * A network address section IP address that is the same as CH1 cannot be entered.

4-183

7 Inputting the maintenance password Type in the maintenance password.

(The default maintenance password is "ecopass".)

8 Changing When you click the [ ] button, the message for confirming the change will be displayed.

[Yes] button : Executes the IP address setting. [No] button : Cancels the IP address setting.

When the change is completed, the following message will be displayed. Click the [OK] button.

*1 After the IP address setting is changed, EcoWebServerIII will be automatically reset. (After the reset is

completed, the change of the IP address will be effective.) *2 A reset takes 1 to 8 minutes. Wait until the reset is completed and the [STA.] LED on the main unit of

EcoWebServerIII comes on before executing communication. *3 The values of [IP address], [Subnet mask], and [Gateway] in the project information will also be updated

automatically to the new values. *4 If the set values of [IP address], [Subnet mask], or [Gateway]

are incorrect, a message as shown to the right will be displayed. Review the values.

(Example of display)

4-184

9 Restoring the IP address of PC If the network address portion of the IP address of the main unit of EcoWebServerIII has been changed, the setting on the PC side needs to be revised. (Because communication requires that the network address portions be the same.) If the IP address of the PC has been changed to change the IP address of the main unit of EcoWebServerIII, restore the original IP address setting. Restore the original setting by following the same step as Step 2.

Remarks

How can I check that the IP address has been changed correctly? Check it in the following ways. (1) Execute the [Get time information].

If the IP address is configured correctly, the date and time that are set to the main unit of EcoWebServerIII can be read out.

(Refer to 4.8.1. Time Settings) (2) Check the configured IP address by using the 7-segment LEDs on the main unit.

(Refer to Checking IP address in Instruction Manual Hardware.) * If communication cannot be executed even when the IP address of EcoWebServerIII has been changed

correctly, review the IP address setting of the client PC again.

4-185

Configuring DNS servers

The following describes the steps for configuring DNS servers. When specifying a SMTP server, FTP server, or SNTP server by "domain name" to configure a monitoring and notification settings, file transfer setting, or automatic time setting, a DNS server needs to be configured.

1 Displaying the [IP address] screen Click the [IP address] in the tree menu on the [Options] screen.

4-186

2 Read out network information Click the [Read-out network information] button.

Clicking the button displays the network information read confirmation message.

[Yes] : Executes network information reading. [No] : Cancels network information reading.

When reading is completed, the current setting is displayed in IP address (After), and then the message below is displayed. Click the [OK] button.

The network information currently set in EcoWebServerIII is reflected to IP address (Before) and IP address (After) in CH1 and CH2.

4-187

3 Inputting DNS server settings Select or type in the following items.

[DNS setting (After)] [Number of DNS] : Select from [0] to [3]. [DNS server 1] to [DNS server 3] : Type in the IP addresses of the DNS servers. (*1)

After the entry, the [Change] button becomes enabled. *1 The input conditions for [DNS setting (after)] are as follows.

[DNS server 1] ~

[DNS server 3]

The following IP addresses cannot be configured. "0.0.0.0", "xxx.xxx.xxx.255" (xxx are any values)

*2 The IP address of the main unit of EcoWebServerIII can also be configured at the same time. (Refer to 4.8.2 IP address settings.)

4 Entering password for maintenance Type in the maintenance password.

(The default maintenance password is "ecopass".)

5 Changing DNS server settings When you click the [ ] button, the message for confirming the change will be displayed.

[Yes] button : Executes the IP address setting (DNS server setting). [No] button : Cancels the IP address setting (DNS server setting).

4-188

When the change is completed, the following message will be displayed. Click the [OK] button.

*1 After the IP address setting (DNS server setting) is changed, EcoWebServerIII will be automatically reset.

(After the reset is completed, the change will be effective.) *2 A reset takes 1 to 8 minutes. Wait until the reset is completed and the [STA.] LED on the main unit

of EcoWebServerIII comes on before executing communication.

4-189

Writing the IP address settings via drive

This section explains the procedures to write the IP address settings in the memory card using memory card reader/writer. * Power off EcoWebServerIII before inserting/removing the memory card.

1 Displaying the [IP address] screen Click [IP address] in the tree menu on the unit setting screen.

2 Typing the IP address and subnet mask you want to set in the EcoWebServerIII

Type in the IP address and subnet mask you want to set in the EcoWebServerIII and click the [Direct-write memory card] button. (Refer to 4.8.2 IP address settings.)

4-190

* Even when not changing them, enter values in IP address setting (After) of both CH1 and CH2.

If values are not entered, the message below is displayed.

3 Specifying the drive Select the drive where the memory card is mounted from the [Drive] pull-down list.

4 Writing the IP address settings (1) Click the [Execute] button on the [Direct write memory card] screen, and write in the IP address settings.

[Execute] : Write the IP address settings. [Cancel] : Back to the [IP address]

* If the device status is not ready, the message shown on the right is

displayed. Click the [OK] button and confirm the device status.

(2) When writing is completed, the following message is displayed.

Remarks First, insert the memory card where the IP address settings are written, and then power on

EcoWebServerIII.

4-191

4.8.3. Auto time settings This section explains the operation procedure in the dialog box of [Auto time adjustment]. Set up the SNTP server that serves synchronization and its synchronization cycle. *When setting the time to the business meter, do not set the automatic time setting function. * For installing and setting the SNTP (standard time) server and inquiring technical questions about it,

consult with your network administrator (or an applicable department of your company).

Configuring auto time settings

1 Displaying the [Auto time adjustment] dialog box Click the [Auto time adjustment] in the tree menu on the unit setting dialog box.

2 Checking the [Auto time adjustment] check box. If the [Auto time adjustment] check box is checked, the [SNTP server] and [Condition] areas become active.

3 Specifying the SNTP server Input a domain name or IP address of the SNTP (standard time) server from the keyboard.

For inputting a domain name

Characters: Up to 50 characters

Prohibited characters: The following characters cannot be registered: # / : , ; * ? < > |

* Setting of the DNS server is required.

For inputting an IP address

Input range: 0 to 255 Values prohibited to register:

Do not input the values as follows. 0.0.0.0, xxx.xxx.xxx.255 (xxx: any numerical value)

Remarks When designating the SNTP server by domain name, make sure to set up the DNS server.

(Refer to 4.8.2 IP address settings, Configuring DNS servers.)

* For installing and setting the DNS server (name server) and inquiring technical questions about it, consult with your network administrator (or an applicable department of your company).

When re-setting the SNTP (standard time) server after auto time setting error occurs, reset the EcoWebServerIII.

4-192

4 Configuring auto time setting cycle

Set the cycle to perform auto time set.

For daily: Select the time.

[Time] Selection range: [0H] to [23H] Default value: [0H]

For weekly: Select a day of the week and the time.

[Day of the week] Selection range: [Sun] to [Sat] Default value: [Sun] [Time] Selection range: [0H] to [23H] Default value: [0H]

For monthly: Select a date and the time.

[Date] Selection range: [1D] to [28D] Default value: [1D] [Time] Selection range: [0H] to [23H] Default value: [0H]

5 Registering Click the button in the [Auto time adjustment] dialog box to register.

[Register] button : Register the auto time setting as configured.

[Close] button : Back to the Project setting dialog box.

*1 If the set details are not proper, an error message as shown on the right is

displayed when clicking the [Register] button according to the error details. Reset the details so as to meet the conditions of each item.

(Example of display)

*2 After modification of entry details of each item, click the

[Close] button instead of clicking the [Register] button, the message shown on the right is displayed. [Yes] button : To register [No] button : Not to register. [Cancel] button : To go back to the [Auto time adjustment]

dialog box

4-193

4.8.4. Logging date/time settings This section describes the procedures for operating the [Set logging time]. The measuring point logging cycle, time and date are set with logging date/time setting.

Setting the logging date/time

1 Displaying the [Set logging time] dialog box Click the [Set logging time] in the tree menu on the unit setting dialog box.

2 Setting the logging information (1) Select the daily logging cycle.

Data is collected at the selected cycle, and is saved in the daily data file.

[15 Min] : Collect data at a 15-minutes cycle (collects every hour on the hour, 15, 30 and 45 minutes).

[30 Min] : Collect data at a 30-minutes cycle (collects on the hour and half hour)

[60 Min.] : Collect data at a 60-minutes cycle (collects on the hour)

(2) Select the monthly logging time. Data is collected at the selected time, and is saved in the monthly data file.

*If it is set to time other than 0:00 for demand control, this will impact on daily maximum demand. Accordingly, for demand control, set to 0:00.

(3) Select the annual logging time. Data is collected at the selected date/time, and is saved in the annual data file.

*If it is set to time other than 1st 0:00 for demand control, this will impact on monthly maximum demand. Accordingly, for demand control, set to 1st 0:00.

4-194

3 Registering Click the button on the [Set logging time] dialog box, and register the settings.

[Register] button : Register the logging date/time as the set information.

[Close] button : Back to the Project setting dialog box

* After modification of entry details of each item, click the [Close]

button instead of clicking the [Register] button, the message shown on the right is displayed. [Yes] button : To register [No] button : Not to register. [Cancel] button : To go back to the [Set logging time] dialog box

4-195

4.8.5. Setting of the login IDs and passwords The following describes the steps for operation in [Password]. In EcoWebServerIII, three accounts are used: for (1)Getting data, (2) System management, and (3) Maintenance. When the [About login ID/password] button on the [Password] screen is clicked, the following screen will open. Refer to this for details on using each login ID and password. *1 Password setting function is a means for preventing illegal access (destroying programs and data) from external device. Provided that the function cannot completely prevent illegal access. *2 Before using, change the default account (login ID, password). Set the account so as not to leak the accont information according to the following precautions. Avoid using simple string like Name, birth date and numbers. Set the complex loging ID and password at least 8 characters by mixing uppercase or lowercase

alphanumeric characters.

Changing the maintenance password

The following describes the steps for changing the maintenance password. * The default maintenance password is ecopass.

1 Displaying the [Password (For maintenance)] screen Click the [Password] [For maintenance] in the tree menu on the unit setting dialog box.

4-196

2 Inputting the system administration login ID and password To verify the permission for change, type in the system administration login ID and password.

(The default system administration login ID and password are ecoV and ecopass, respectively.)

3 Inputting the maintenance password Type in the [Old PW] that is used before the change and a [New PW] to be used after the change.

(1) Type in the current maintenance password in the [Old PW] field.(Default: ecopass)

(2) Type in a new maintenance password at two sections: the [New PW] and [ New PW (confirmation)] fields. The input conditions are as follows. Characters: Up to 8 characters

* A typed password will be displayed as asterisk (*).

4 Changing (1) When you click the [ ] button, the confirmation message will

be displayed.

[Yes] button : Executes the change of the maintenance password.

[No] button : Cancels the change of the maintenance password. *1 If the IP address of EcoWebServerIII is incorrect, the LAN cable is

not connected, or EcoWebServerIII is not powered on, the message on the right will be displayed. Click the [OK] button and then check the IP address of EcoWebServerIII, the connection of the LAN cable, and whether the power is turned on.

*2 If the system administration login ID or password is incorrect, the

message on the right will be displayed. Click the [OK] button and then check the login ID and password.

4-197

*3 If the previous maintenance password is incorrect, the message on the right will be displayed. Click the [OK] button and then check the password.

*4 If the new maintenance password and the new password for

confirmation do not match, the message on the right will be displayed. Click the [OK] button and then check the password.

(2) After the password is changed, EcoWebServerIII will be reset.

* It may take up to 10 to 15 minutes to reset..

(3) When the password change and reset are completed, the following message will be displayed.

4-198

Changing the data acquisition login ID and password

The following describes the steps for changing the data acquisition login ID and password. * The default data acquisition login ID and password are "guest" and "user", respectively.

1 Displaying the [Password (For getting data)] screen Click the [Password] [For getting data] in the tree menu on the unit setting dialog box.

2 Inputting the system administration login ID and password To verify the permission for change, type in the system administration login ID and password.

(The default system administration login ID and password are ecoV and ecopass, respectively.)

3 Inputting the data acquisition login ID Type in the [Old login ID] that is used before the change and a [New login ID] to be used after the change.

(1) Type in the current data acquisition login ID in the [Old login ID] field. (Default: guest)

(2) Type in a new data acquisition login ID in the [New login ID] field. The input conditions are as follows.

Characters: Up to 8 characters

4-199

4 Inputting the data acquisition password Type in the [Old PW] that is used before the change and a [New PW] to be used after the change.

(1) Type in the current data acquisition password in the [Old PW] field. (Default: user)

(2) Type in a new data acquisition password at two sections: the [New PW] and [New PW (confirmation)] fields. The input conditions are as follows. Characters: Up to 8 characters

* A typed password will be displayed as asterisk (*).

5 Changing (1) When you click the [ ] button, the confirmation message

will be displayed.

[Yes] button : Executes the change of the data acquisition login ID and password.

[No] button : Cancels the change of the data acquisition login ID and password.

*1 If the IP address of EcoWebServerIII is incorrect, the LAN cable

is not connected, or EcoWebServerIII is not powered on, the message on the right will be displayed. Click the [OK] button and then check the IP address of EcoWebServerIII, the connection of the LAN cable, and whether the power is turned on.

*2 If the system administration login ID or password is incorrect, the

message on the right will be displayed. Click the [OK] button and then check the login ID and password.

*3 If the previous data acquisition login ID is incorrect, the message on the right will be displayed. Click the [OK] button and then check the password.

4-200

*4 If the previous data acquisition password is incorrect, the message on the right will be displayed. Click the [OK] button and then check the password.

*5 If the new data acquisition password and the new password for confirmation do not match, the message on the right will be displayed. Click the [OK] button and then check the password.

(2) After the login ID and password are changed, EcoWebServerIII will be reset.

* It may take up to 10 to 15 minutes to reset..

(3) When the change of the login ID and password and reset are completed, the following message will be displayed.

4-201

Changing the system administration login ID and password

The following describes the steps for changing the system administration login ID and password.

* The default system administration login ID and password are ecoV and ecopass, respectively.)

1 Displaying the [Password (For system management)] screen

Click the [Password] [For system management] in the tree menu on the unit setting dialog box.

2 Inputting the system administration login ID and password To verify the permission for change, type in the system administration login ID and password.

(The default system administration login ID and password are ecoV and ecopass, respectively.)

3 Inputting the system administration login ID Type in the [Old login ID] that is used before the change and a [New login ID] to be used after the change.

(1) Type in the current data acquisition login ID in the [Old login ID] field. (Default: ecoV)

(2) Type in a new data acquisition login ID in the [New login ID] field. The input conditions are as follows.

Number of characters: Up to 8 characters

4-202

4 Inputting the system administration password Type in the [Old PW] that is used before the change and a [New PW] to be used after the change.

(1) Type in the current system administration password in the [Old PW] field. (Default: ecopass)

(2) Type in a new system administration password at two sections: the [New PW] and [New PW (confirmation)] fields. The input conditions are as follows. Number of characters: Up to 8 characters

* A typed password will be displayed as asterisk (*).

5 Changing (1) When you click the [ ] button, the confirmation message

will be displayed. [Yes] button : Executes the change of the system administration

login ID and password. [No] button : Cancels the change of the system administration

login ID and password. *1 If the IP address of EcoWebServerIII is incorrect, the LAN cable

is not connected, or EcoWebServerIII is not powered on, the message on the right will be displayed. Click the [OK] button and then check the IP address of EcoWebServerIII, the connection of the LAN cable, and whether the power is turned on.

*2 If the system administration login ID or password is incorrect, the

message on the right will be displayed. Click the [OK] button and then check the login ID and password.

*3 If the system administration login ID is incorrect, the message on

the right will be displayed. Click the [OK] button and then check the password.

4-203

*4 If the previous system administration password is incorrect, the message on the right will be displayed. Click the [OK] button and then check the password.

*5 If the new system administration password and the new

password for confirmation do not match, the message on the right will be displayed. Click the [OK] button and then check the password.

(2) After the login ID and password are changed, EcoWebServerIII will be reset.

* It may take up to 10 to 15 minutes to reset.

(3) When the change of the login ID and password and reset are completed, the following message will be displayed.

4-204

4.8.6. Version up of Main Program This section describes the procedures in [Version up of Main Program].Upgrading the main unit software upgrades the software for the EcoWebServerIII main unit to the version that supports user's setting software. It takes about 10 to 15 minutes for the EcoWebServerIII to restart after the upgrading is started. During the upgrading, data is not collected. Execute the upgrading during a time period when data collection is less affected (during less used time period or on a non-operating day). Check the time of EcoWebServerIII and avoid operation during 45 to 05 minutes past the hour. * Version up of Main Program requires the installations of .NET Framework 3.5. XXRemarksXX Before carrying out the Version up of Main Program from Ver1 and Ver2 to Ver3, please back up the projects. When executing the main body program version upgrade, the project name opened in the setting software then becomes the project name of the main unit (setting contents are not changed). If you do not want to change the project name of the projector, open the project with the same project name as the projector and upgrade the version. After carrying out the Version up, check the project. (Refer to Confirming the Setting in Instruction Manual -- Operating.) If the setting value is running by default(without setting value), please write the appropriate project. (Refer to 4.7.2 Project writing)

Upgrading the main unit software Version up of main program

1 Displaying the [Version up of main program] screen Click [Version up of main program] in the tree menu on the main unit setting screen.

4-205

2 Confirming the current version of the main unit software Click the [Get] button.

*1 When reading is failed, the message on the right is displayed.

Click the [OK] button and then check the IP address of EcoWebServerIII, connection of LAN cable, or if power is supplied.

When completed, current version of the main unit software is displayed.

Item Description ModelName Model of the product Version Version of the product main unit CtrlVersion Version information used for

confirmation by the manufacturer XmlFileVersion

3 Inputting the system administration login ID and password

Confirm that the current version for the main unit is older than the main unit version after upgrading, input the system administration login ID and password. (In the default setting, for the system manager, login ID is "ecoV" and password is "ecopass."

4-206

4 Upgrading (1) Clicking [Execute] displays a confirmation message.

[Yes] : Executes the upgrading of the main unit software. [No] : Cancels the upgrading of the main unit software.

*1 If the IP address of EcoWebServerIII is incorrect,

the LAN cable is not connected, or EcoWebServerIII is not powered on, the message on the right will be displayed.

Click the [OK] button and then check the IP address of EcoWebServerIII, the connection of the LAN cable, and whether the power is turned on.

*2 If the login ID or password for system administration is

wrong, the message on the right is displayed.

Click the [OK] button to check the login ID and password. *3 If there is no necessary setting file, the message

on the right Is displayed.

Click the [Yes] button to update as default. Click the [No] button to cancel the updating.

(2) EcoWebServerIII is reset after upgrading.

* Resetting may take up to about 8 minutes.

(3) When upgrading and resetting are completed, the message below is displayed.

XXRemarksXX Once the message is displayed, it is Version up of Main Program is completed. If you operate in a state in which the the message does not appear, there is a possibility that does not work properly. After you always have completed the Version up of Main Program, please execute restarting oparation and the other settings.

4-207

4.9. Setting external device coordination This section describes the settings related to the data output settings, contact output settings and mail notification settings, etc.

1 Displaying the external device coordination setting screen Click the [Output] on the project setting screen.

* The data output setting (demand control), demand notification, energy saving level monitor setting and air-controller connection setting functions are supported only with the EcoWebServerIII with demand control function.

2 Selecting the details to set from the tree menu [Output setting] is selected as the default.

Remarks Click the [Close] button to return to the Project setting dialog box.

Title (Selected menu appears.)

Tree menu (Select the detials to set.)

Dialog box for setting each function (Display the selected menu's setting screen.)

4-208

4.9.1. Data output settings These settings are made to output the measuring point data (current value) to the MELSEC PLC/GOT using Ethernet communication or Ethernet/Serial adaptor cable. The settings output to the PLC/GOT are managed as an output group.

Checking a list of data output group

The following describes how to display and confirm the list of data output groups.

1 Displaying the [Output setting] screen Click the [Output setting] in the tree menu on the external device coordination setting screen.

2 Checking the registration information Check the following information displayed in the data output group list.

[No.] : Data output group No. [Data output group name] : Name of registered data output group [ID] : Registered measuring point ID [Terminal name] : Name of PLC or GOT terminal that outputs the data [IP address] : IP address of PLC or GOT that outputs the data [Station No.] : Station No. of PLC serial communication unit when Ethernet/Serial conversion

is selected for data communication with EcoWebServerIII

4-209

Registering data output group

This section describes how to register the data output group *1 Up to 32 measuring points per group and up to 8 groups (maximum 255 measuring points) can be

registered in a data output group. *2 If a single measuring point is not registered, or if a single PLC or GOT is not registered, the output group

cannot be registered. *3 One measuring point cannot be registered in duplicate in multiple output groups *4 Virtual measuring points cannot be registered in an output group (cannot be output to the PLC or GOT). *5 When collecting data, outputting data, and outputting data (demand monitoring) to one PLC, register them

as different PLCs with different port numbers. (Refer to "4.5.3 PLC / GOT Registration".)

1 Displaying the [Output setting] screen Click the [Output setting] in the tree menu on the external device coordination setting screen.

2 Displaying the [Registration of the data output group] screen

Select a line of a data output group you want to register on the [Output setting] screen, and click the [Edit] button. The [Registration of the data output group] screen opens.

Line of a data output group you to be registered

4-210

3 Entering or selecting the items Enter or select the following items.

[Data output group Name] Enter a name of the output group in the [Data output group name]. * A duplicate name cannot be registered.

Characters Up to 24 characters

Prohibited characters The following characters cannot be registered: # / : , ; * ? " < > |

[Name] Select the PLC to where the data will be output from the pull-down menu. The selected PLC CPU series will be displayed.

[Start device No.] Input the start device No. for the data output destination. Refer to section 5.10 Data output to PLC/GOT for the setting range. Depending on the number of measuring points registered in the output group, the last device number will appear automatically. The last device number cannot be set in duplicate with a device registered as a measuring point. Please confirm the device No. is not used in data output (demand monitoring).

Click to display the range of devices that can be set for each CPU series.

Device Only D devices

Characters Up to 5 half-byte alphanumeric characters or 7 characters including device name

Types of characters Decimal or hexadecimal in device name number section

[Measuring error information] Check this to enable measuring error outputs

[Start device No.] When output of measuring error is enabled, set the start number of the device that is outputting the measuring error information. Refer to section 5.10 Data output to PLC/GOT for the setting range. Depending on the number of measuring points registered in the output group, the last device number will appear automatically. The last device number cannot be set in duplicate with a device registered as a measuring point.

Click to display the range of devices that can be set for each CPU series.

Device Only D devices

Characters Up to 5 half-byte alphanumeric characters or 7 characters including device name

Types of characters Decimal or hexadecimal in device name number section

[Information of the updating will be appended in the end of the device]

Check when adding the update time information (min./sec.) to the measuring error information when output of the measuring errors is enabled.

4-211

4 Adding measuring points to output data Select the measuring point you want to add from the [Resistered ID], and click the [<-] button. The measuring point is added to the [Resistered ID].

*1 The data is output to the PLC in the order that the output groups are registered. The measuring points in the [Measuring point list (registered)] are sorted in registered order.

*2 Rearrange order of measuring points in the [Measuring point list (registered)] by selecting the measuring point name and clicking the [] or [] buttons. Click [] once to move the measuring point up one. Click [] once to move the measuring point down one.

5 Deleting measuring points to output data Select the measuring point you want to delete from the [Resistered ID], and click the [->] button. The measuring point is deleted from the [Resistered ID].

Line for measuring point to be added

4-212

6 Registering Click the button on the [Registration of the data output group] dialog box to register the data output group.

[Register] button : Register the data output group settings you set.

[Close] button : Back to the [Output setting] dialog box.

Click the [Create], [ ] or [Close] button without clicking the [Register] button, the message shown on the right will be displayed. Click [Yes] to register. Click [No] to not. Click [Cancel] to back page to [Registration of the data output group].

If data output group name is not input, the following message will be displayed. Click [OK] to back to input name.

If prohibited characters are used, the following message will be displayed. Click the [OK] button and change or delete the corresponding character.

If the group name is duplicated, the following message will be displayed. Click the [OK] button and change the output group name.

4-213

If the device No. is not set, the following message will be displayed. Click the [OK] button and set the device No.

If measuring point is not registered, the following message will be displayed. Click the [OK] button and register the measuring point.

If device No. is duplicated, the following message will be displayed. Click the [OK] button and change the device No.

4-214

Editing the registered data output group

This section described how to edit registration information of data output group.

1 Displaying the [Output setting] screen Click the [Data output setting] in the tree menu on the external device coordination setting screen.

2 Displaying the [Registration of the data output group] screen Select the line of the data output group you want to edit on the [Output setting] screen, and click the [Edit] button. The [Registration of the data output group] screen displays.

3 Editing the items to be changed and registering them Edit the item to be changed and then click the [Register] button. * The entries and input conditions for each item are the same as registering a data output group.

Line of a data output group to be edited

4-215

Deleting a registered data output group

This section described how to delete a registered data output group.

1 Displaying the [Output setting] screen Click the [Data output setting] in the tree menu on the external device coordination setting screen.

2 Deleting a data output group Select the line of the data output group to be deleted on the [Output setting] screen, and click the [Delete] button.

The following message will be displayed. Click the [Yes] button.

Line of a data output group be deleted

4-216

Outputting data output group parameters

This section described how to output data output group parameters to CSV file.

1 Displaying the [Output setting] screen Click the [Output setting] in the tree menu on the external device coordination setting screen.

2 Outputting setting parameters Output the information related to each measuring point data and device No. to be output to a CSV file (data output setting information file). Click the [Output setting para] button to display save dialog.

The save dialog appears. Specify any save destination and file name, and click the [Save] button.

4-217

The form of data output setting parameters is following.

Item Contents

File name OutputData + .csv * Can be randomly specified at output

Content Record information for data output 1st line

2nd line Version of setting software

3rd line

4th line Output cycle * Fixed to 60 seconds

5th line

6th line Measuring point ID, Measuring point name, Unit, Measuring item*1, Decimal point*2, data type*3, Channel*4, Pulse factor*5, Scale type*6, power factor type*7, Data output device No., Measuring error information, error output device No.(bit), output group No.

:

: :

:

nth line

(n+1)th line Output group No., Output group name, IP address, Port No., PLC station No., Start device No. of information updating*8

*1 Measuring item Measuring item for terminals (Device No. for PLC) *2 Decimal point Decimal *3 Data type 1. Analog 2. Pulse 3. Digital *4 Channel Channel No. for terminals (Data length for PLC) *5 Pulse factor 0: 0.01 1:0.1 2:1 (only for MP11A) 1: No corresponding item *6 Scale type 0: 0 to 20 mA 1:4 to 20 mA 2:0 to 5 V 3:1 to 5 V 4:-5 to 5 V *7 Power factor type 0: 0% - 100% - 0% 1: 50% - 100% - 50% -1: No corresponding item *8 Start device No. of information updating Blank for no updating

Example of OutputData.csv

2.0.0 60Second 1,"Energy1","kWh","Energy",1,2,63,-1,0,0,"D002000","",1 9,"Voltage1","V","Voltage",1,1,89,-1,0,-1,"D002002","",1 5,"Current1","A","Current",1,1,57,-1,0,-1,"D002004","",1 7,"S-T Voltage1","V","S-T Voltage",1,1,7,-1,0,-1,"D000150","D001000(b0)",2 10,"Power factor1","%","Power factor",1,1,27,-1,0,0,"D000152","D001000(b1)",2 12,"Production line counter1","Pcs.","D000051",0,2,0,,,-1,"D000154","D001000(b2)",2 1,"Data output group1","10.23.45.6",80,0,"" 2,"Data output group2","10.23.45.6",80,0,"D001001"

4-218

4.9.2. Data output settings (demand control) (Only when demand control function

is provided) These settings are made to output the measuring point data for demand control to the MELSEC PLC/GOT using Ethernet communication or Ethernet/Serial adaptor cable. Checking the registered information for the data output settings (demand control)

Display the data output setting (demand control) and describe how to check the registered information.

1 Displaying the [Data output set (Demand control)] screen Click the [Data output set (Demand control)] in the tree menu on the external device coordination setting screen.

2 Checking the registration information Check the settings for the demand control data output destination displayed on the [Data output set (Demand control)] screen.

4-219

Registering the data output settings (demand control)

This section describes the procedures for registering the data output settings (demand control). *1 The data output settings (demand control) cannot be registered if a single PLC or GOT is not registered. *2 When collecting data, outputting data, and outputting data (demand monitoring) to one PLC, register them

as different PLCs with different port numbers. (Refer to "4.5.3 PLC / GOT Registration".)

1 Displaying the [Data output set (Demand control)] screen Click the [Data output set (Demand control)] in the tree menu on the external device coordination setting screen.

4-220

2 Entering or selecting the items (1) [Data output start]

Check [Data output start] to enable output of the demand control measuring point data.

* The following items can be set only when this item is checked.

(2) [The delay time of output finish notification] Set the time to delay update of the control device to "Write complete" after output of the demand control measuring data is completed.

* The delay time can be set in the range of 0 to 3 seconds.

(3) [Name] Select the PLC that outputs the data. * Information displayed in Terminal pull-down menu:

PLC/GOT terminal name registered in PLC/GOT registration. For the CPU, GOT series, the registered PLC/GOT information is displayed.

(4) [Device number] Enter the device number with device name using half-byte numerals.

* Refer to 5.7 List of measured items of devices for the setting range. The setting range appears when the [ ] button at the side of the input field is clicked. * Characters other than the setting range cannot be registered.

4-221

3 Registering Click the button on the [Data output set (Demand control)] dialog box to register.

[Register] button : Register the data output setting (demand control) you set.

[Close] button : Back to the project setting dialog box.

*1 If the device No. is not set, the message shown on the right will be

displayed. Click the [OK] button and set the device No.

*2 If the device No. is duplicated, the message shown on the right will

be displayed. Click the [OK] button and change the device No.

*3 After modification of entry details of each item, click the

[Close] button instead of clicking the [Register] button or another tree menu is selected, the message shown on the right is displayed. [Yes] button : To register [No] button : Not to register. [Cancel] button : Back to the [Data output setting

(demand control)] screen.

4-222

Editing the registered data output settings (demand control)

This section describes how to edit the data output setting (demand control).

1 Displaying the [Data output set (Demand control)] screen Click the [Data output set (Demand control)] in the tree menu on the output setting screen.

2 Editing the items to be changed and registering them Edit the item to be changed and then click the [Register] button. * The entries and input conditions for each item are the same as registering a data output group (demand

control).

4-223

4.9.3. Contact output settings This section explains the operation procedure in the dialog box of [Contact output]. This is the setting for contact outputs of product errors and the monitoring information (upper/lower limits, operation status, specific consumption target value and energy plan value), demand control and demand control set through the dialog box of Monitoring and notification settings. Up to 32 points can be registered for contact outputs.

* The contact output setting for demand control and demand control are provided only with the EcoWebServerIII with demand control function.

* Separately, contact output of the following is required monitoring notification registration. Upper/lower limit monitoring, Operating status monitoring, Specific consumption target value

monitoring, and Energy plan value monitoring.

Confirming the registered contact output settings

This section explains the procedures to display and confirm the registered contact output settings.

1 Displaying the [Contact output] screen Click the [Contact output] in the tree menu on the output setting screen.

[Contact output No. list] : The list of set contact outputs is displayed. [Output condition] : Output condition selected in the contact output No. list is displayed.

4-224

2 Confirming the output conditions Click the line of contact output No. to be confirmed in the [Contact output No. list] in the dialog box of [Contact output].

[Output No.] : Contact output No. selected [Name] : Contact output name of contact output No. selected [Method] : Contact output method (one-shot (10 sec.), output condition interlocking)

Output condition interlocking : ON when the output condition is established (occurrence), and OFF when it is restored.

One-shot (10 sec.) : ON for 10 sec. only when the output condition is established (occurrence), and then OFF automatically. Also, ON for only 10 sec. when the output condition is not established (restored), and then OFF automatically.

[Resistered list of conditions] : Output conditions registered for contact output No. selected

4-225

Registering new contact outputs

Register the output destination and the conditions of contact outputs newly.

* With the EcoWebServerIII with demand control function, contact output No. 1 to 3 are set to as follows as the default. Contact output No. 1:

Internal output unit Output Ch: 0, Registered conditions: Level 1 alarm Occurrence Contact output No. 2:

Internal output unit Output Ch: 1, Registered conditions: Level 2 alarm Occurrence Contact output No. 3:

Internal output unit Output Ch: 2, Registered conditions: Limit/Fixed alarm Occurrence

1 Displaying the [Contact output] screen Click [Contact output] in the tree menu on the external device coordination setting screen.

2 Setting the output destination of contact outputs Select the line for the No. to be set from the contact output No. list.

(1) [Output unit] Select the contact output destination from the pull-down menu.

(2) [Output Ch Select the Ch to output the built-in output unit. Select from the 16 channels 0 to F. When using a digital output terminal, the selective CH will vary according to the terminal. (Ex.: For B-DX4Y4A, Ch1 to 4 can be selected) Channels which is already selected will not be displayed in the list.

4-226

3 Displaying the [Registration of contact output condition] screen Select the line of the contact output No. you want to set the output conditions, and click the [Output condition editing] button.

Line of the contact output No. to be registered

4-227

4 Entering or selecting the items for contact output conditions (1) [Name]

Input the contact output name. The entry conditions are as follow:

Characters Up to 24 characters Prohibited characters Prohibit registration of the following characters

# / : , ; * ? < > | *1 If the characters are used which are listed in the table of prohibited characters in the appendix, these

may not be displayed correctly in the browser of EcoWebServerIII. *2 Duplicated registration of the contact output name is prohibited.

(2) [Method] Select the contact output method from the following two methods. Automatic: ON when the output condition is established (occurrence), and OFF when it is restored. One-shot : ON for 10 sec. only when the output condition is established (occurrence), and then OFF

automatically. ON for 10 sec. only when the output condition is not established (restored), and then OFF automatically.

*1 When Demand control is selected in the item selection, the contact output method is fixed to Interlocking. *2 When Demand time start is selected in the item selection, the contact output method is fixed to One-shot.

Output condition

Output Output condition

interlocking

One-shot (10 sec)

Not established(restored)

Established(occurrence)

OFF

ON

OFF

ON

(10 sec) (10 sec)

About contact output method It may take 10 seconds around until the contact output turns ON after the output condition is established (occurrence). It also may take 10 seconds around until the contact output turns OFF after restoration. Remember such the delay.

Additional information:

Approx. 10 sec

Approx. 10 sec

Approx. 10 sec

Contact output conditions

Contact status

Output condition established

Output condition established Restored

One-shot (10 sec)

Output condition

interlocking

OFF ON (10 sec)

OFF ON (10 sec)

OFF

OFF ON ON OFF

*When occurrence/restored within 10 seconds after contact output of one-shot, contact output is may not ON.

4-228

5 Selecting the contact output conditions Select the conditions that can change the contact status to ON.

(1) Selecting the major item Select the major item (Error information, Monitoring: Limit, Monitoring: Status, Monitoring: Sp-Cons., Monitoring: Energy, Demand alarm, Demand control, Demand time start) in the monitoring settings, and click the [Next>] button. * The demand alarm, demand control, and demand time start are displayed only for

EcoWebServerIII with the demand control function.

(2) Selecting the detail item The detail item list of the selected large item is displayed. Click the detail item to be registered in the output conditions to put it on the checkmark. *1 If selecting multiple items, and at least one on them is established from the conditions, the contact

output is activated. *2 10 of the detail items can be registered for a single contact output (demand alarm/control is only 1). *3 Any detail items belonging to the other large item cannot be registered for a single contact output.

Detail item: memory card error, Measuring error, Battery error, File transfer error and Auto time adjustment error

< Monitoring: Limit, Monitoring: Status, Monitoring: Sp-Cons., Monitoring: Energy >

Detail item: Items registered in the dialog box of Monitoring and notification settings

* For the lines that the monitoring and notification settings are not registered, those lines are displayed as Monitoring condition: (blank) and Item name: Not registered.

4-229

* Separately, monitoring registration is required. (Refer to [4.10.8 Upper/lower limit monitoring registration], [4.10.9 Operating status monitoring registration], [4.10.10 Specific consumption target value monitoring registration], [4.10.11 Energy plan value monitoring registration])

(Only for EcoWebServerIII with the demand control function)

Detail items: Level 1 alarm, Level 2 alarm, limit/fixed alarm, battery error (demand control unit) and error: demand time limit adjustment by external pulse signal *Do not select more than one item for demand alarm. (If multiple items are selected, contact output is not correctly when it is restored.)

(Only on EcoWebServerIII with demand control function)

Detail items: (Control output 1 load name) to (Control output 12 load name) *Do not selectedmore than one item in demand control.

(Only for EcoWebServerIII with the demand control function)

Detail items: Demand time start

To re-select the large item:

Clear all the checkmarks put on the detail items, and then the [

4-230

7 Registering Click the button in the dialog box of [Registration of contact output condition] to register.

[Register] button : Register the set contact output conditions

[Close] button : Back to the dialog box of [Contact output]

*1 If the set details are not proper, an error message as shown on the right is

displayed when clicking the [Register] button according to the error details. Reset the details so as to meet the conditions of each item.

(Example of display)

*2 If more than 10 detail items have been registered in the contact

output conditions, the error message shown on the right. Limit the number of selecting detail items to within 10.

*3 If clicking the [Register] button while no detail item has been

selected, the message shown on the right is displayed. If clicking the [Yes] button, only the contact output name is

registered as No output condition.

*4 After modification of entry details of each item, click the [Close]

button instead of clicking the [Register] button, the message shown on the right is displayed. [Yes] button : To register [No] button : Not to register. [Cancel] button : Back to the dialog box of [Registration of

contact output conditions]

4-231

Deleting the registered contact output

This section explains the procedure to delete the registered contact output.

1 Displaying the [Contact output] screen Click the [Contact output] in the tree menu on the external device coordination setting screen.

2 Selecting the contact output No. to delete Select the line of contact output No. to be deleted and click the [Delete] button.

The following message appears. Click the [Yes] button.

Remarks The contact output No. can also be deleted by clicking the right-click menu [Delete] or pressing the

[Delete] key.

Line of contact output No. to be deleted

4-232

Editing the registered contact outputs

This section describes the procedures for changing a registered contact output (Output unit, output Ch, Name, Method, Output conditions).

1 Displaying the [Contact output] screen Click the [Contact output] in the tree menu on the external device coordination setting screen.

2 Selecting the contact output No. to edit Select the line of the contact output No. to be edited, and click the [Output condition editing] button.

3 Editing the items to be changed and registering them Edit the item to be changed and then click the [Register] button. * The input information and input conditions for each item are identical to those for new registration of the

contact output conditions.

Remarks Change the output unit and output Ch from the [Contact output No. list] pull-down menu.

Line of contact output No. to be edited

4-233

4.9.4. SMTP server settings This section describes the procedures for setting the [Set SMTP server].

* For installing and setting the SMTP (mail) server and inquiring technical questions about it, consult with your network administrator (or an applicable department of your company).

Set the SMTP server

Set the SMTP server. * This is the required setting item for mail notification.

1 Displaying the [Set SMTP server] screen Click on [Set SMTP server] in the tree menu on the [Output] screen.

Remarks The mail transmission function supports SMTP sever (SMTP-Auth or POP before SMTP) requiring

authorization.

4-234

2 Specifying the SMTP server Input a domain name or IP address of the SMTP (mail) server from the keyboard.

For inputting a domain name

Characters Up to 50 characters Prohibited characters The following characters cannot be registered:

# : , ; * ? < > |

* Setting of the DNS server is required. (Refer to "4.8.2 Setting IP Address Setting DNS Server")

For inputting an IP address

Input range 0 to 255 Values prohibited to register

0.0.0.0, xxx.xxx.xxx.255 (xxx: any numerical value)

3 Inputting the own mail address Input the own mail address (EcoWebServerIII) from the keyboard.

The mail address set here is the mail notification source address.

Characters Up to 50 characters Prohibited characters The following characters cannot be registered:

# : , ; * ? < > |

4 Specifying the port No. Specify the port No. for accessing the SMTP (mail) server.

Select from 25, 587 or "Others".

When "Others" is selected, enter the port No. The range is 1 to 65535(DEC).

5 Specifying the authorization method (When authorization method is SMTP-Auth)

Specify the authorization when accessing a SMPT (mail) server set to SMPT-Auth authorization method.

Check [The identification of this server is necessary].

Select [SMTP-Auth] for authorization method.

Enter "Login ID" for SMTP server. (Up to 16 characters)

Enter "Password" for SMTP server. (Up to 16 characters)

4-235

6 Specifying the authorization method (When authorization method is POP before SMTP)

Specify the authorization when accessing a SMPT (mail) server set to POP before SMTP authorization method.

Check [The identification of this server is necessary].

Select [POP before SMTP] for authorization method.

Enter "Login ID" for SMTP server. (Up to 16 characters) Enter "Password" for SMTP server. (Up to 16 characters) Enter "Domain name" or "IP address" for POP server.

Select the port No. for accessing the POP server to 110 or "Others". When "Others" is selected, enter the port No. The range is 1 to 65535(DEC). Select the "Waiting time after POP authentication" from 0 to 15 seconds (1 second increments).

7 Selecting the mail transmission cycle (retention time) Select the mail transmission cycle (retention time). The notifications that occur during the retention time are held in the EcoWebServerIII until the next transmission cycle comes.

Selection range [5 Min.][10 Min.][15 Min.][30 Min.][60 Min.] Default value [5 Min.]

* The setting of mail transmission cycle (retention time) is effective only for the notifications of which check boxes [Suspend] in the [Enter demand notification] dialog box are checked. The notifications of which check boxes [Suspend] in the [Enter demand notification] dialog box are not checked are notificated by mail to the SMTP server immediately after the notification conditions are established.

The mail transmission timing varies as follows depending on the checked or unchecked status of the [Suspend] check box.

[Example] Set time: 10 min. "The monitoring and notification conditions are established (error occurrence) between 10:00 and 10:10."

* Notification without the checkmark on the [Suspend] check box It is transmitted by mail immediately.

* Notification with the checkmark on the [Suspend] check box Its transmission is held until the next transmission cycle. (It is transmitted at 10:10.)

Mail transmission cycle

10:00 11:00 10:30 Occurrence

4-236

8 Registering Click the button on the [Set SMTP server] dialog box to register.

[Register] button : Register the SMTP server setting information as the set details.

[Close] button : Back to the project setting dialog box.

*1 If the set details are not proper, an error message as shown on

the right is displayed when clicking the [Register] button according to the error details. Reset the details so as to meet the conditions of each item.

(Example of display)

*2 After modification of entry details of each item, click the [Close]

button instead of clicking the [Register] button or another tree menu is selected, the message shown on the right is displayed. [Yes] button : To register [No] button : Not to register [Cancel] button : Back to [Set SMTP server] dialog box.

Remarks When designating the SMTP server by domain name, make sure to set up the DNS server.

( Refer to 4.8.2 IP address settings, Configuring the DNS server.) * For installing and setting the DNS server (name server) and inquiring technical questions

about it, consult with your network administrator (or an applicable department of your company).

4-237

4.9.5. Demand notification (Only with models provided with demand control

function) This section describes the operations for [Demand notification]. When registered as a demand notification, a mail notice can be sent out when one of the following events occurs.

Level 1 alarm occurrence, Level 1 alarm recovery Level 2 alarm occurrence, Level 2 alarm recovery Limit/fixed alarm occurrence, Limit/fixed alarm recovery Battery error (demand control unit) occurrence Demand time limit adjustment by external pulse occurrence, Demand time limit adjustment by external pulse recovery Demand control error occurrence

* The demand notification registration function is available only for the EcoWebServerIII with demand control function.

Checking the list of registered demand notifications

This section explains the procedures for displaying and confirming the list of registered demand notifications.

1 Displaying the [Demand notification] screen Click the [Demand notification] in the tree menu on the [Output] screen.

2 Checking the registration information Check the following information displayed in the list.

[No.] : Demand notification No. [Demand subject] : Name of notification item monitored by demand notification mail [Mail sending] : Active or inactive state of demand notification (by mail) [Suspend] : Active or inactive state of temporarily holding of mail transmission [Send To] : Destination address of demand notification mail [Subject] : Subject of demand notification mail [Body] : Text of demand notification mail

4-238

Registering the demand notification

This section describes the procedures for registering a demand notification (mail transmission).

1 Displaying the [Demand notification] screen Click the [Demand notification] in the tree menu on the external device coordination setting screen.

2 Displaying the [Enter demand notification] screen Double-click the line of the demand notification No. to be registered on the [Demand notification] screen or select the line of the demand notification No. to be registered, and click the [Edit] button.

3 Setting the active/inactive status of notification (1) To send a demand notification mail, check [Mail sending].

(2) To temporarily hold the mail, check [Suspend].

Line of the demand report No. to be registered

4-239

4 Setting the destination address, subject and text of the mail notification

Set these items only if checked the [Mail sending] check box. Input conditions are as follows.

[Send to] Characters Up to 50 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

[Subject]

Default * Follows each notification item Characters Up to 30 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

[Body] Characters Up to128 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

5 Registering Click the button on the [Enter demand notification] dialog box to register.

[Register] button : Register the set demand notification information.

[Close] button : Back to the [Demand notification] dialog box.

*1 If the set details are not proper, an error message as shown on the right is

displayed when clicking the [Register] button according to the error details. Reset the details so as to meet the conditions of each item.

(Example of display)

*2 After modification of entry details of each item, click the [< Prev.],

[Next>] or [Close] button instead of clicking the [Register] button, the message shown on the right is displayed. [Yes] button : To register [No] button : Not to register. [Cancel] button : Back to [Enter demand notification] dialog box

For continuous registration of demand notification, click the [< Back] button and [Next>] button and repeat the steps from 3 to 5. To confirm, delete or change the previous registration of demand notification, click the [ ] button.

4-240

Editing the registered information of a registered demand notification

This section describes the procedures for editing the registered information of a demand notification.

1 Displaying the [Demand notification] screen Click the [Demand notification] in the tree menu on the [Output] screen.

2 Selecting the demand notification to be edited, and clicking the [Edit] button

Double-click the line of the demand notification to be edited on the [Demand notification] screen or select the line of the demand notification to be edited, and click the [Edit] button.

3 Editing the items to be changed and registering them Edit the item to be changed and then click the [Register] button. * The entries and input conditions for each item are the same as registering a demand notification.

Line of the demand notification to be edited

4-241

4.9.6. EcoWebServerIII error notification settings This section describes the procedures for setting [Error notification (initial condition 1, 2, 3)]. Setting EcoWebServerIII error information to mail notification (initial conditions 1 to 3)

Perform the mail notification settings so as to transmit the notification at the startup of EcoWebServerIII and error occurrence.

The following table shows the information (initial conditions 1, 2 and 3) that can be set to the notification able errors.

Monitoring/notification items Condition for occurrence Setting for [Monitoring]

Setting for [Notification]

Initial condition 1

Startup At startup of EcoWebServerIII * Refer to the procedure 2 (1-1).

Memory card error When memory card data write failed. * Refer to the procedure 2 (1-2).

Measuring error When communication with the terminal failed.

Refer to the procedure 2 (3).

Refer to the procedure 2 (1-3).

Initial condition 2

File transfer error When file transmission to the FTP server failed. * Refer to the procedure

2 (2-1). Auto time adjustment error When automatic time adjustment

with the SNTP server failed. * Refer to the procedure 2 (2-2).

Battery error When the battery capacity of the

EcoWebServerIII is lowered. * Refer to the procedure 2 (2-3).

Initial condition 3

Data output error When data output to PLC device failed. Refer to the procedure 2 (3-1).

Refer to the procedure 2 (3-1).

* Startup, memory card error, file transfer error, auto time setting error and battery error are set to be monitored as the required monitoring items.

Remarks

Remarks Need to reset the EcoWebServerIII, in order to recover from [memory card error] and [auto time

adjustment error].

How different between "monitoring" and "notification"? Monitoring : Records the error in the system log when it

occurs. Notification : Records the error in the system log when it

occurs and notifications the error as the set details by mail.

4-242

1 Displaying the [Error notification] screen (initial conditions 1, 2, 3)

Click [Initial condition 1], [Initial condition 2] or [Initial condition 3] in the tree menu on the [Output] screen.

4-243

2 Inputting the information of each monitoring and report item (1) Setting items on initial condition 1 screen

(1-1) Startup

(1) To transmit the startup report mail, check the [Mail sending] check box of the [Report mail is started] area.

(2) To hold the mail temporarily, check the [Suspend] check box. (3) Input the address, subject and body. Input conditions are as follows:

[To] Characters Up to 50 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

[Subject]

Default start

Characters Up to 30 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

[Body]

Default Model: MES3-255C-EN start.

Characters Up to 128 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

(1-2) Memory card error

(1) To transmit the memory card error report mail, check the [Mail sending] check box of the [Report mail for memory card error] area.

(2) To hold the mail temporarily, check the [Suspend] check box. (3) Input the address, subject and body. Input conditions are as follows:

[To] Characters Up to 50 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

[Subject]

Default memory card error

Characters Up to 30 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

[Body]

Default Memory card error

Characters Up to 128 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

4-244

(1-3) Measuring error

(1) Check the [Monitor] check box in the [Report mail for measuring error] area to monitor the measurement error only (i.e., record the system log only), and check the [Mail sending] check box in the [Report mail for measuring error] area to transmit the measurement error report mail. * When the [Mail sending] check box is checked, the checkmark is put on the [Monitor]

check box automatically. (2) To hold the mail temporarily when [Mail sending] is selected, check the [Suspend] check box. (3) Input the address, subject and body. Input conditions are as follows:

[Address] Characters Up to 50 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

[Subject]

Default logging error Characters Up to 30 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

[Body (occurrence)] [Body (recovery)]

Default Occurrence : occurring measuring error Recovery : recovering measuring error

Characters Up to 128 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

(4) Select the number of measuring error occurrence times. When the measurement errors occurred continuously by more than the set [Number of errors], monitoring and report are performed.

Selection range [1] to [18] times Default value [6] times

4-245

(2) Setting items on initial condition 2 screen

(2-1) File transfer error

(1) To transmit the file transfer error report mail, check the [Mail sending] check box of the [Report mail for file transfer error] area.

(2) To hold the mail temporarily, check the [Suspend] check box. (3) Input the address, subject and body. Input conditions are as follows:

[To] Characters Up to 50 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

[Subject]

Default file transfer error

Characters Up to 30 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

[Body]

Default Occurrence of file transfer error

Characters Up to 128 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

(2-2) Auto time adjustment error

(1) To transmit the file auto time setting error report mail, check the [Mail sending] check box of the [Report mail for adjustment error of auto time] area.

(2) To hold the mail temporarily, check the [Suspend] check box. (3) Input the address, subject and body. Input conditions are as follows:

[To] Characters Up to 50 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

[Subject]

Default auto time set error

Characters Up to 30 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

[Body]

Default Occurrence of auto time checking error

Characters Up to 128 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

4-246

(2-3) Battery error

(1) To transmit the battery error report mail, check the [Mail sending] check box of the [Report mail for battery error] area.

(2) To hold the mail temporarily, check the [Suspend] check box. (3) Input the address, subject and body. Input conditions are as follows:

[To] Characters Up to 50 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

[Subject]

Default battery error

Characters Up to 30 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

[Body]

Default Occurrence of battery error

Characters Up to 128 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

4-247

(3) Setting items on initial condition 3 screen

(3-1) Data output error

(1) Check the [Monitor] check box in the [Report mail for data output error] area to monitor the data output error, and check the [Mail sending] check box in the [Report mail for data output error] area to transmit the data output error report mail. * When the [Mail sending] check box is checked, the checkmark is put on the [Monitor] check

box automatically. (2) To hold the mail temporarily, check the [Suspend] check box. (3) Input the address, subject and body. Input conditions are as follows:

[To] Characters Up to 50 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

[Subject]

Default data output error Characters Up to 30 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

[Body (occuring)] [Body (recovering)]

Default Occurrence: occurring data output error Recovery : recovering data output error

Characters Up to 128 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

(4) Select the number of data output error occurrence times. When the data output errors occurred continuously by more than the set [Frequency of error], monitoring and report are performed.

Selection range [1] to [3] times Default value [3] times

4-248

3 Registering Click the button in the dialog box of [Initial condition 1], [Initial condition 2] or [Initial condition 3] to register.

[Register] button : Register the error report settings as the set details.

[Close] button : Back to the project setting dialog box.

*1 If the set details are not proper, an error message as shown on the right is

displayed when clicking the [Register] button according to the error details. Reset the details so as to meet the conditions of each item.

(Example of display)

*2 After modification of entry details of each item, click the [Close]

button instead of clicking the [Register] button or another tree menu is selected, the message shown on the right is displayed. [Yes] button : To register [No] button : Not to register. [Cancel] button : Back to the setting dialog box

4-249

4.9.7. Regular report registration This section explains the operation procedure in the [Regular report]. After registration of the regular report setting, it becomes possible to issue the mail report from EcoWebServerIII periodically. Up to 8 points can be registered for regular report.

Confirming the list of registered regular report setting

This section explains the procedure to display the list of registered regular report setting and confirm it.

1 Displaying the [Regular report] dialog box Click the [Regular report] in the tree menu on the [Output] screen.

2 Checking the registration information Check the following information displayed on the list.

[No.] : Regular report No. [Mail sending] : Active or inactive status of regular report (by mail) [Suspend] : Active or inactive status of temporarily hold of mail transmission [Report condition1] to [Report condtion 3] : Regular report timing (monthly, weekly, daily, etc.) [Send To] : Destination address of regular report mail [Subject] : Mail subject of regular report mail [Body] : Text of regular report mail

4-250

Registering the new regular report settings

This section explains the procedure to register the new regular report (by mail) settings.

1 Displaying the [Regular report] screen Click the [Regular report registration] in the tree menu on the external device coordination setting screen.

2 Displaying the [Registration of regular report] dialog box Double-click the line of regular report No. to be registered in the dialog box of [Regular report], or select the line of regular report No. to be registered and click the [Edit] button.

3 Setting the active/inactive status of report (1) To set the regular report mail to be active, check the [Mail sending] check box.

(2) To hold the mail temporarily, check the [Suspend] check box.

Line of regular report No. to be registered

4-251

4 Configuring report condition Set the timing (date and time) to perform regular report.

For daily:Select the time.

[Time] Selection range [0H] to [23H] Default value [0H]

For weekly:Select a day of the week and the time.

[Day of the week] Selection range [Sun] to [Sat] Default value [Sun] [Time] Selection range [0H] to [23H] Default value [0H]

For monthly: Select a date and the time.

[Date] Selection range [1D] to [28D] Default value [1D] [Time] Selection range [0H] to [23H] Default value [0H]

5 Setting the destination address, subject and text of the mail report Set these items only if checked the [Mail sending] check box. Input conditions are as follows.

[To] Characters Up to 50 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

[Subject]

Default regular report Characters Up to 30 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

[Body] Characters Up to 128 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

4-252

6 Registering Click the button in the [Registration of regular report] dialog box to register.

[Register] button : Register the set details of regular report.

[Close] button : Back to the dialog box of [Regular report registration].

*1 If the set details are not proper, an error message as shown on the

right is displayed when clicking the [Register] button according to the error details. Reset the details so as to meet the conditions of each item.

(Example of display)

*2 After modification of entry details of each item, click the [Create],[<

Prev.], [Next>] or [Close] button instead of clicking the [Register] button, the message shown on the right is displayed. [Yes] button : To register [No] button : Not to register. [Cancel] button : Back to the [Regular report registration] dialog box

For continuous registration of regular report settings, click the [Create] button and repeat the steps from 3 to 6. To confirm, delete or change the previous registration of regular report settings, click the [ ] button.

4-253

Deleting the registered regular report settings

This section explains the procedure to delete the registered regular report settings.

1 Displaying the [Regular report] screen Click the [Regular report] in the tree menu on the [Output] screen.

2 Selecting the registered regular report settings to be deleted and clicking the [Delete]

Select the line of regular report to be deleted from the list in the [Regular report] dialog box, click the [Delete] button.

3 Deleting The message confirming deletion is displayed. Click the [Yes] button to execute deletion.

[Yes] button : Delete the regular report settings and back to the dialog box of [Regular report].

[No] button : Cancel deletion and back to the dialog box of [Regular report]

After deletion, the information of the deleted regular report settings is removed from the list in the dialog box of [Regular report].

Remarks It can be also deleted by clicking the [Delete] button in the dialog box of [Regular report].

Line of regular report to be deleted

4-254

Editing the registered regular report settings

This section explains the procedure to edit the registered regular report settings.

1 Displaying the [Regular report] screen Click the [Regular report] in the tree menu on the [Output] screen.

2 Selecting the regular report settings to be edited and clicking the [Edit] button

Double-click the line of the regular report to be edited on the [Regular report] screen or select the line of the regular report to be edited, and click the [Edit] button.

3 Editing the items to be changed and registering them Edit the item to be changed and then click the [Register] button. * The input information and input conditions for each item are identical to those for new registration of the

regular reports.

Line of the regular report to be edited

4-255

4.9.8. Upper and lower limit monitoring notification registration This section explains the operation procedure for setting [Upper and lower limit monitoring]. After registration of the upper/lower limit monitoring notification, it becomes possible to detect an event that the measuring point value exceeds the upper or lower limit and to notification it by mail. Up to 32 points can be registered for upper/lower limit monitoring notification. However, the target notifications are the measuring points for instantaneous value only.

Remarks If no measuring point of instantaneous value data type is registered or the measuring points

monitoring type is upper limit monitoring, lower limit monitoring or upper/lower limit notification, the setting of upper and lower limit monitoring notification cannot be registered.

The setting of upper and lower limit monitoring notification can be registered only to a single measuring point and multiple registration to a same single measuring point is not allowed. If intending to register multiple setting of upper and lower limit monitoring notification to a single measuring point, register the same measuring point to multiple separate measuring points and register the conditions of upper and lower limit monitoring notification.

Confirming the list of registered upper and lower limit monitoring notifications

This section explains the procedure for displaying and checking the list of registered upper and lower limit monitoring notifications.

1 Displaying the [Upper and lower limit monitoring] screen Click on [Upper and lower limit monitoring] in the tree menu on the [Output] screen.

4-256

2 Checking the registration information Check the following information displayed on the list.

[No.] : Upper and lower limit monitoring notification No. [Mail sending] : Active or inactive status of upper and lower limit monitoring notification (by mail) [Suspend] : Active or inactive status of temporarily holding of mail transmission [ID] : Measuring point ID of upper and lower limit monitoring notification [Measuring point name] : Name of measuring point of upper and lower limit monitoring notification [Lower limit monitoring] : Target value for lower limit monitoring (* If this value is not set, "-" (hyphen) is

displayed.) [Upper limit monitoring] : Target value for upper limit monitoring (* If this value is not set, "-" (hyphen) is

displayed.) [Send To] : Destination address of upper and lower limit monitoring notification mail

transmission [Subject] : Subject of upper and lower limit monitoring notification mail [Body] : Text of upper and lower limit monitoring notification mail

4-257

Registering a new upper and lower limit monitoring notification

This sections explains the procedure for registering a new upper and lower limit monitoring notification (mail transmission).

1 Displaying the [Upper and lower limit monitoring] screen Click the [Upper and lower limit monitoring] in the tree menu on the [Output] screen.

2 Displaying the dialog box of [Upper and lower limit monitoring notification registration]

Double-click the line of upper and lower limit monitoring notification No. to be registered on the [Upper and lower limit monitoring] screen or select the line of the upper and lower limit monitoring notification No. to be registered, and click the [Edit] button.

3 Setting the active/inactive status of notification (1) To send the upper and lower limit monitoring notification mail, check the [Mail sending].

(2) To hold the mail temporarily when sending a mail, check the [Suspend] check box.

Line of upper/lower limit report No. to be registered

4-258

4 Specifying the measuring point to notification Select the measuring points for upper and lower limit monitoring notification.

(1) Select [Group].

(2) Select the measuring points for upper and lower limit monitoring notification from the measuring points including in the group selected in (1).

* Only instantaneous value measuring points set

to "upper limit monitoring", "lower limit monitoring" or "upper/lower limit monitoring" are displayed in the pull-down menu.

Remarks

The information set for the selected measuring point is displayed in the monitoring conditions (upper limit monitoring, lower limit monitoring, upper/lower limit monitoring) and setting values (lower limit setting value, upper limit setting value).

5 Setting the destination address, subject and text of the mail notification

Set this information only when [Mail sending] is checked. The entry conditions are listed below.

[To] Characters Up to 50 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

[Subject]

Default Upper or lower limit error Characters Up to 30 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

[Body]

Default Upper or lower limit error occurred. Characters Up to 128 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

4-259

6 Registering Click the button in the dialog box of [Upper and lower limit monitoring notification registration] to register.

[Register] button : Register the set details of upper and lower limit monitoring notification

[Close] button : Back to the [Upper and lower limit monitoring] screen.

*1 If the setting is not correct, clicking the [Register] button shows an error

message according to the incorrect contents as shown on the right. Reset the details so as to meet the conditions of each item.

(Example of display)

*2 After modification of entry details of each item, click the [Create],

[< Back], [Next>] or [Close] button instead of clicking the [Register] button, the message shown on the right is displayed. [Yes] button : To register [No] button : Not to register [Cancel] button : Back to the dialog box of [Registration of

upper/lower limit monitoring settings]

For continuous registration of upper and lower limit monitoring notification, click the [Create] button and repeat the steps from 3 to 6.

To confirm, delete or change the previous registration of upper and lower limit monitoring notification, click the [ ] button.

4-260

Deleting the registered upper and lower limit monitoring notification

This section explains the procedure for deleting the registered upper and lower limit monitoring notification.

1 Displaying the [Upper and lower limit monitoring] screen Click the [Upper and lower limit monitoring notification registration] in the tree menu on the [Output] screen.

2 Selecting the upper/lower limit report to be deleted, and clicking the [Delete] button

Select the line of the upper and lower limit monitoring notification to be deleted from the [Upper and lower limit monitoring] screen, and click the [Delete] button.

3 Deleting The message confirming deletion is displayed. Click the button to execute deletion.

[Yes] button : Delete the upper and lower limit monitoring notification settings and back to the dialog box of [Upper and lower limit monitoring]

[No] button : Cancel the deletion, and back to the dialog box of [Upper and lower limit monitoring] screen

After deletion, the information of the deleted upper and lower limit monitoring notification is removed from the list in the dialog box of [Upper and lower limit monitoring].

Remarks It can be also deleted by clicking the [Delete] button in the dialog box of [Upper and lower limit

monitoring notification registration].

Line of upper/lower limit report to be deleted

4-261

Editing the registered upper and lower limit monitoring notification

This section explains the procedure for editing the information registered for an upper and lower limit monitoring notification.

1 Displaying the [Upper and lower limit monitoring] screen Click the [Upper and lower limit monitoring] in the tree menu on the [Output] screen.

2 Selecting the upper/lower limit notification to edit, and clicking the [Edit] button

Double-click the line of the upper and lower limit monitoring notification to be edited on the [Upper and lower limit monitoring] screen, or select the line of the upper and lower limit monitoring notification to be edited, and click the [Edit] button.

3 Editing the items to be changed and registering them Edit the item to be changed and then click the [Register] button. * The input information and input conditions for each item are identical to those for new registration of the

upper and lower limit monitoring notification.

Line of upper and lower limit monitoring report to be edited

4-262

4.9.9. Operating status monitoring notification registration This section explains the operation procedure in the [Operation status monitoring]. After registration of the operating status monitoring notification, it becomes possible to notificationthe change of operating status by mail. Up to 32 points can be registered for operating status monitoringnotification. However, the target points are the measuring points for operating status monitoring only.

Remarks If no measuring point of operating status monitoring data type is registered, the settings of operating

status monitoring notification cannot be registered. The settings of operating status monitoring notification can be registered only to a single measuring

point and multiple registration to a same single measuring point is not allowed. If intending to register multiple settings of operating status monitoring notification to a single measuring point, register the same measuring point to multiple separate measuring points and register the conditions of operating status monitoring notification.

Confirming the list of registered operating status monitoring notifications

This section explains the procedure for displaying and confirming the list of registered operating status monitoring notifications.

1 Displaying the [Operation status monitoring] screen Click the [Operation status monitoring] in the tree menu on the [Output] screen.

4-263

2 Checking the registration information Check the following information displayed on the list

[No.] : Operating status monitoring notification No. [Mail sending] : Active or inactive status of operating status monitoring notification (by mail) [Suspend] : Active or inactive status of temporarily holding of mail transmission [ID] : Measuring point ID of operating status monitoring notification [Measuring point name] : Measuring point name of operating status monitoring notification [Monitoring conditions] : Operating status monitoring notification conditions (ON, OFF, or ON/OFF) [Send To] : Destination address of operating status monitoring notification mail [Subject] : Subject of operating status monitoring notification mail [Body] : Text of operating status monitoring notification mail

4-264

Registering a new operating status monitoring notification

This section explains the procedure for registering a new operating status monitoring notification (by mail).

1 Displaying the [Operation status monitoring] screen Click the [Operation status monitoring] in the tree menu on the external device coordination setting screen.

2 Displaying the dialog box of [Registration of operating status monitoring notification]

Double-click the line of the operating status monitoring notification No. to be registered on the [Operation status monitoring] screen or select the line of the operating status monitoring notification No. to be registered, and click the [Edit] button.

3 Setting the active/inactive status of notification (1) To send the operating status monitoring notification mail, check the [Mail sending].

* The operating status monitoring results are not recorded in the system log. If intending to record the monitoring data in the operating status monitoring data file, set it from the dialog box of [Measuring point]. ( Refer to 4.5.4 Measuring point registration, Registering a new measuring point.)

(2) To hold the mail temporarily, check the [Suspend] check box.

Line of operating status monitoring report No. to register

4-265

4 Specifying the measuring point to notification Select the measuring points for operating status monitoring notification.

(1) Select [Group].

(2) Select the measuring points for operating status notification from the measuring points including in the group selected in (1). * Only the measuring points for operating status monitoring are

displayed in the pull-down menu.

Remarks The conditions set for the selected measuring point are displayed in the monitoring conditions.

ON : Notification is issued when the digital input signal changes from OFF to ON.

OFF : Notification is issued when the digital input signal changes from ON to OFF.

ON/OFF : Notification is issued when the digital input signal changes from OFF to ON and ON to OFF.

5 Setting the destination address, subject and text of the mail notification

Set this information only when [Mail sending] is checked. The entry conditions are listed below.

[To] Characters Up to 50 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

[Subject]

Default Status change Characters Up to 30 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

[Body]

Default Operating status change occurred. Characters Up to128 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

4-266

6 Registering Click the button in the dialog box of [Registration of operating status monitoring notification] to register.

[Register] button : Register the set details of operating status monitoring notification

[Close] button : Back to the [Operation status monitoring] screen.

*1 If the set details are not proper, an error message as shown

on the right is displayed when clicking the [Register] button according to the error details. Reset the details so as to meet the conditions of each item.

(Example of display)

*2 After modification of entry details of each item, click the [Create]

[< Back], [Next>] or [Close] button instead of clicking the [Register] button, the message shown on the right is displayed. [Yes] button : To register [No] button : Not to register [Cancel] button : Back to the dialog box of [Registration of

operating status monitoring notification]

For continuous registration of operating status monitoring notification, click the [Create] button and repeat the steps from 3 to 6. To confirm, delete or change the previous registration of operating status monitoring notification, click the [ ] button.

4-267

Deleting the registered operating status monitoring notification

This section explains the procedure for deleting a registered operating status monitoring notification.

1 Displaying the [Operation status monitoring] screen Click the [Operation status monitoring] in the tree menu on the [Output] screen.

2 Selecting the operating status notification to be deleted, and clicking the [Delete] button

Select the line of the operating status monitoring notification to be deleted from the [Operation status monitoring] screen, and click the [Delete] button.

3 Deleting The message confirming deletion is displayed. Click the button to execute deletion.

[Yes] button : Delete the operating status monitoring notification and back to the [Operation status monitoring] screen.

[No] button : Cancel the deletion, and back to the [Operation status monitoring] screen

After deletion, the information of the deleted operating status monitoring notification is removed from the list in the dialog box of [Operation status monitoring].

Remarks It can be also deleted by clicking the [Delete] button in the dialog box of [Registration of operating

status monitoring notification].

Line of the operating status report to be deleted

4-268

Editing the registered operating status monitoring notification

This section explains the procedure for editing the registered operating status monitoring notification.

1 Displaying the [Operation status monitoring] screen Click the [Operation status monitoring] in the tree menu on the [Output] screen.

2 Selecting the operating status notification to be edited, and clicking the [Edit] button

Double-click the line of the operating status notification to be edited in the list on the [Operation status monitoring] screen, or select the line of the operating status monitoring notification to be edited and click the [Edit] button.

3 Editing the items to be changed and registering them Edit the item to be changed and then click the [Register] button. * The input information and input conditions for each item are identical to those for new registration of the

operating status monitoring notification.

Line of operating status report to be edited

4-269

4.9.10. Specific consumption target value monitoring notification registration This section explains the operation procedure in the [Specific consumption target value monitoring]. After registration of the specific consumption target value monitoring report, it becomes possible to detect an event that the specific consumption measuring point value exceeds the target value and to report it by mail. Up to 64 points can be registered for specific consumption target value monitoring notification.

Remarks The monitoring cycle is one hour. If no specific consumption measuring point is registered or if the specific consumption measuring

points is not set for specific consumption target value monitoring, the setting of specific consumption target value monitoring notification cannot be registered.

The settings of specific consumption target value monitoring notification can be registered only to a single measuring point and multiple registration to a same single measuring point is not allowed.

Set the target value from the Web screen of the EcoWebServerIII. ( Refer to "Setting of Planned/Target values" in Instruction Manual Operation.

Confirming the list of registered specific consumption target value notifications

This section explains the procedure for displaying and checking the list of registered specific consumption target value monitoring notifications.

1 Displaying the [Specific consumption target value monitoring] screen

Click the [Specific consumption target value monitoring] in the tree menu on the [Output] screen.

4-270

2 Checking the registration information Check the following information displayed in the [Terminal list].

[No.] : Specific consumption target value monitoring notification No. [Mail sending] : Active or inactive status of specific consumption target value monitoring

notification (by mail) [Suspend] : Active or inactive status of temporarily holding of mail transmission [ID] : Specific consumption measuring point ID of specific consumption target value

monitoring notification [Specific consumption measuring point name]

: Name of specific consumption measuring point of specific consumption target value monitoring notification

[Send To] : Destination address of specific consumption target value monitoring notification mail

[Subject] : Subject of specific consumption target value monitoring notification mail [Body] : Text of specific consumption target value monitoring notification mail

4-271

Registering a new specific consumption target value monitoring notification

This section explains the procedure for registering a new specific consumption target value monitoring notification (by mail).

1 Displaying the [Specific consumption target value monitoring] screen

Click the [Specific consumption target value monitoring] in the tree menu on [Output] screen.

2 Displaying the dialog box of [Registration of specific consumption target value monitoring notification]

Double-click the line of the specific consumption target value monitoring notification No. to be registered on the [Specific consumption target value monitoring] screen or select the line of the specific consumption target value monitoring notification No. to be registered, and click the [Edit] button.

Line of specific consumtpion target value report No. to be registered

4-272

3 Setting the active/inactive status of notification (1) To send the specific consumption target value monitoring notification mail, check the [Mail sending].

(2) To hold the mail temporarily when sending a mail, check the [Suspend] check box.

4 Specifying the specific consumption measuring point to notification

Select the specific consumption measuring point to monitor the specific consumption target value.

* Only the specific consumption measuring points for specific consumption target value monitoring are displayed in the pull-down menu.

5 Setting the destination address, subject and text of the mail notification

Set this information only when [Mail sending] is checked. The entry conditions are listed below.

[To] Characters Up to 50 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

[Subject]

Default Over bum target level Characters Up to 30 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

[Body]

Default Specific consumption target value is exceeded. Characters Up to 128 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

4-273

6 Registering Click the button in the dialog box of [Registration of specific consumption target value monitoring notification] to register.

[Register] button : Register the set details of specific consumption target value monitoring notification.

[Close] button : Back to the [Specific consumption target value monitoring] screen. *1 If the set details are not proper, an error message as shown on the right is

displayed when clicking the [Register] button according to the error details. Reset the details so as to meet the conditions of each item.

(Example of display)

*2 After modification of entry details of each item, click the

[Create],[< Prev.], [Next>] or [Close] button instead of clicking the [Register] button, the message shown on the right is displayed. [Yes] button : To register [No] button : Not to register [Cancel] button : Back to the dialog box of [Specific

consumption target value monitoring]

For continuous registration of specific consumption target value monitoring notification, click the [Create] button and repeat the steps from 3 to 6. To confirm, delete or change the previous registration of specific consumption target value monitoring notification, click the [ ] button.

4-274

Deleting the registered specific consumption target value monitoring notification

This section explains the procedure to delete the registered specific consumption target value monitoring notification.

1 Displaying the [Specific consumption target value monitoring] screen

Click the [Specific consumption target value monitoring] in the tree menu on the [Output] screen.

2 Selecting the specific consumption target value notification to be deleted, and clicking the [Delete] button

Select the line of the specific consumption target value monitoring notification to be deleted from the list on the [Specific consumption target value monitoring] screen, and click the [Delete] button.

3 Deleting The message confirming deletion is displayed. Click the button to execute deletion.

[Yes] button : Delete the specific consumption target value notification and back to the [Specific consumption target value monitoring] screen.

[No] button : Cancel the deletion, and back to the [Specific consumption target value monitoring] screen.

After deletion, the information of the deleted specific consumption target value monitoring notification is removed from the list in the dialog box of [Specific consumption target value monitoring].

Remarks It can be also deleted by clicking the [Delete] button in the dialog box of [Registration of specific consumption target value monitoring notification].

Line of specific consumption target value report to be deleted.

4-275

Editing the registered specific consumption target value monitoring notification

This section explains the procedure to edit the registered specific consumption target value monitoring notification.

1 Displaying the [Specific consumption target value monitoring] screen

Click the [Specific consumption target value monitoring] in the tree menu on the external device coordination setting screen.

2 Selecting the specific consumption target value notification to be edited, and clicking the [Edit] button

Double-click the line of the specific consumption target value monitoring notification to be edited in the list on the [Specific consumption target value monitoring] screen, or select the line of the specific consumption target value monitoring notification to be edited, and click the [Edit] button.

3 Editing the items to be changed and registering them Edit the item to be changed and then click the [Register] button. * The input information and input conditions for each item are identical to those for new registration of the

specific consumption target value monitoring notification.

Line of specific consumption target value report to be edited

4-276

4.9.11. Energy planning value monitoring notification registration This section explains the operation procedure in the [Energy planning value monitoring]. After registration of the energy plan value monitoring notification, a mail notice can be sent when the measuring point's monthly integrated value exceeds the daily integrated value of the month's planned value. Up to 255 points can be registered for energy plan value monitoring notification. However, the target points are the measuring points for integrated value only.

Remarks The monitoring cycle is one day. If no measuring point of integrated value data type is registered, or if the measuring points is not set

for energy plan value monitoring, the energy plan value monitoring notification cannot be registered. Each measuring point can have only one registration of the energy plan value monitoring notification. Set the plan value from the Web screen of the EcoWebServerIII.

( Refer to "Chapter 8 Setting of Planned/Target values" in Instruction Manual Operation.)

Confirming the list of registered energy planning value notifications

This section explains the procedure for displaying and checking the list of registered energy plan value monitoring notifications.

1 Displaying the [Energy planning value monitoring] screen Click the [Energy planning value monitoring] in the tree menu on the [Output] screen.

4-277

2 Checking the registration information Check the following information displayed on the list.

[No.] : Energy plan value monitoring notification No. [Mail sending] : Active or inactive status of energy plan value monitoring notification (by mail) [Suspend] : Active or inactive status of temporarily holding of mail transmission [ID] : Measuring point ID of energy plan value monitoring notification [Measuring point name] : Measuring point name of energy plan value monitoring notification [Send To] : Destination address of energy plan value monitoring notification mail [Subject] : Subject of energy plan value monitoring notification mail [Body] : Text of energy plan value monitoring notification mail

4-278

Registering a new energy planning value notification

This section explains the procedure for registering a new energy plan value monitoring notification (by mail).

1 Displaying the [Energy planning value monitoring] screen Click the [Energy planning value monitoring] in the tree menu on the [Output] screen.

2 Displaying the dialog box of [Registration of energy planning value monitoring notification]

Double-click the line of the energy plan value monitoring notification No. to be registered on the [Energy planning value monitoring] screen or select the line of the energy plan value monitoring notification No. to be registered, and click the [Edit] button.

3 Setting the active/inactive status of notification (1) To send the energy plan value monitoring notification mail, check the [Mail sending].

(2) To hold the mail temporarily when sending a mail, check the [Suspend] check box.

Line of energy plan value report No. to be registered

4-279

4 Specifying the measuring point to notification Select the measuring points for energy plan value monitoring notification.

(1) Select [Group].

(2) Select the measuring points for energy plan value monitoring notification from the measuring points including in the group selected in (1). * Only the measuring points for energy plan value

notification are displayed in the pull-down menu.

5 Setting the destination address, subject and text of the mail notification

Set this information only when [Mail sending] is checked. The entry conditions are listed below.

[To] Characters Up to 50 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

[Subject]

Default Over energy target level Characters Up to 30 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

[Body]

Default Energy plan value is exceeded. Characters Up to128 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

4-280

6 Registering Click the button in the dialog box of [Registration of energy planning value monitoring notification] to register.

[Register] button : Register the set details of energy plan value monitoring notification

[Close] button : Back to the [Energy planning value monitoring] screen.

* If the set details are not proper, an error message as shown on the right is

displayed when clicking the [Register] button according to the error details. Reset the details so as to meet the conditions of each item.

(Example of display)

*2 After modification of entry details of each item, click the

[Create], [< Prev.], [Next>] or [Close] button instead of clicking the [Register] button, the message shown on the right is displayed. [Yes] button : To register [No] button : Not to register [Cancel] button : Back to the dialog box of [Registration of energy

plan value monitoring settings]

For continuous registration of energy plan value monitoring notification, click the [Create] button and repeat the steps from 3 to 6. To confirm, delete or change the previous registration of energy plan value monitoring notification, click the [ ] button.

4-281

Deleting the registered energy planning value monitoring notification

This section explains the procedures for deleting a registered energy plan value monitoring notification.

1 Displaying the [Energy planning value monitoring] screen Click the [Energy planning value monitoring] in the tree menu on the [Output] screen.

2 Selecting the energy plan value notification to be deleted, and clicking the [Delete] button

Select the line of the energy plan value notification to be deleted from the [Energy planning value monitoring] screen, and click the [Delete] button.

3 Deleting The message confirming deletion is displayed. Click the button to execute deletion.

[Yes] button : Delete the energy plan value notification, and back to the [Energy planning value monitoring] screen.

[No] button : Cancel the deletion, and back to the [Energy planning value monitoring] screen.

After deletion, the information of the deleted energy plan value monitoring notification is removed from the list in the dialog box of [Energy planning value monitoring].

Remarks It can be also deleted by clicking the [Delete] button in the dialog box of [Registration of energy

planning value monitoring notification].

Line of energy plan value report to be deleted

4-282

Editing the registered energy plan value monitoring notification

This section explains the procedure for editing the registered energy plan value monitoring notification.

1 Displaying the [Energy planning value monitoring] screen Click the [Energy planning value monitoring] in the tree menu on the [Output] screen.

2 Selecting the energy plan value report to be edited, and clicking the [Edit] button

Double-click the line for the energy plan value monitoring notification to be edited in the list on the [Energy planning value monitoring] screen, or select the line for the energy plan value monitoring notification to be edited, and click the [Edit] button.

3 Editing the items to be changed and registering them Edit the item to be changed and then click the [Register] button. * The input information and input conditions for each item are identical to those for new registration of the

energy plan value monitoring notification.

Line of energy plan value report to be edited

4-283

4.9.12. FTP server setting This section explains the operation procedures for [Set FTP server].

* For installing and setting the FTP (file) server and inquiring technical questions about it, consult with your network administrator (or an applicable department of your company) or your vendor.

* The file transfer destination FTP server must support the passive mode.

Setting the FTP server information

1 Displaying the [Set FTP server] screen Click the [Set FTP server] in the tree menu on the [Output] screen.

4-284

2 Inputting the login information Set the information of the FTP server to which the data is transferred.

(1) [FTP server] Input a domain name or IP address of the FTP server from the keyboard. For inputting a domain name

Number of characters Up to 50 characters Prohibited characters The following characters cannot be registered:

# : , ; * ? < > | * Setting of the DNS server is required.

For inputting an IP address

Input range 0 to 255 Values prohibited to register

0.0.0.0, xxx.xxx.xxx.255 (xxx: any numerical value)

(2) [Login ID] Input the login ID set to the FTP server from the keyboard.

Number of characters Up to 16 characters Prohibited characters The following characters cannot be registered:

# : , ; * ? < > |

(3) [Password] Input the password set in the FTP server from the keyboard.

Number of characters Up to 16 characters Prohibited characters The following characters cannot be registered:

# : , ; * ? < > | * A typed password will be displayed as asterisk (*).

(4) [FW time] Select the time to transfer the file.

Selection range [10 min.], [20 min.], [30 min.], [40 min.] or [50 min.] Default value [10 min.]

4-285

As the following charts, the file is transferred to the FTP server at the set time of every hour (minutes).

Set time: 10 min.

Set time: 20 min.

Set time: 30 min.

Set time: 40 min.

Set time: 50 min.

The following table shows the transfer timing for each file.

File Transfer timing Daily data xx minutes of every hour

(xx is the set time to transfer.) (mm is the monthly logging time.) (yy is the annual logging time.)

Monthly data mm:xx every day

Annual data yy, yy:xx every month

Zoom (5 min.) data xx minutes of every hour

Zoom (1 min.) data xx minutes of every hour

Virtual (daily) data xx minutes of every hour

Virtual (monthly) data mm:xx every day

Virtual (annual) data yy, yy:xx every month

Specific consumption (daily) data xx minutes of every hour

Specific consumption (monthly) data mm:xx every day

Specific consumption (annual) data yy, yy:xx every month

Equipment (daily) data xx minutes of every hour

Operation history data xx minutes of every hour (Update file only)

System log xx minutes of every hour (Update file only)

Demand (daily) data xx minutes of every hour

Demand (monthly) data mm:xx every day

Demand (annual) data yy, yy:xx every month

Demand alarm/control history data xx minutes of every hour

File transfer

10:00 11:00 10:30

File transfer

10:00 11:00 10:30

File transfer

10:00 11:00 10:30

File transfer

10:00 11:00 10:30

File transfer

10:00 11:00 10:30

4-286

3 Registering Click the button in the dialog box of [Set FTP server] to register.

[Register] button : Register the file transfer setting as the set details.

[Close] button : Back to the [Project setting] screen.

*1 If the set details are not proper, an error message as shown on the right is

displayed when clicking the [Register] button according to the error details. Reset the details so as to meet the conditions of each item.

(Example of display)

*2 After modification of entry details of each item, click the [Close]

button instead of clicking the [Register] button or another tree menu is selected, the message shown on the right is displayed. [Yes] button : To register [No] button : Not to register. [Cancel] button : Back to the [FTP server setting] dialog box

Remarks Since any data in the FTP server is not deleted, clean up the server by deleting the data at regular

intervals. When designating the FTP server by domain name, make sure to set up the DNS server. Refer to 4.8.2 IP address settings, Setting the DNS server.)

* For installing and setting the DNS server (name server) and inquiring technical questions about it, consult with your network administrator (or an applicable department of your company).

4-287

4.9.13. Transfer enable/disable, transfer destination folder setting This section explains the operation procedures for [Transmission destination folder set] This section explains the setting for transferring the CSV format data files (daily, monthly, annual, zoom, etc.) and the system log to the FTP (file) server.

Setting files transferred and destination addresses

1 Displaying the [Transmission destination folder set] screen Click the [Transmission destination folder set] in the tree menu on the [Output] screen.

* The demand data appears only on the EcoWebServerIII with demand control function.

4-288

2 Inputting the file transfer information Select the data to transfer and set the transfer destination (path name in FTP server).

(1) Check the check boxes of the files to be transferred

* After checking the check boxes, input of the [FW to] area becomes available.

(2) Input the destination addresses (path names in the FTP server).

For each destination address (path name in the FTP server), specify a relative address (a folder name viewed from the FTP login folder). For example, if logging in d://EcoWebServer/data/ and transferring a file to d://EcoWebServer/data/DayLog, specify the file name as /DayLog. * Since the specification manner varies depending on a FTP server, consult the FTP server

instruction manual or consult with your vendor.

The followings are the input conditions for the destination addresses.

Number of characters Up to 50 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > | (* Replace the symbol with / when entering it.)

4-289

3 Registering Click the button in the dialog box of [Transmission destination folder set] to register.

[Register] button : Register the file transfer setting as the set details.

[Close] button : Back to the project setting dialog box.

*1 If the set details are not proper, an error message as shown on the right is

displayed when clicking the [Register] button according to the error details. Reset the details so as to meet the conditions of each item.

(Example of display)

*2 After modification of entry details of each item, click the [Close]

button instead of clicking the [Register] button or another tree menu is selected, the message shown on the right is displayed. [Yes] button : To register [No] button : Not to register. [Cancel] button : Back to the dialog box of [Transfer enable/

disable, transfer destination folder setting]

4-290

4.9.14. Energy saving level monitor setting (Only for models with demand control

function) This section explains the operation procedure for [Energy saving level monitor setting].

* The energy saving level monitor setting sets the function used in coordination with the Air-conditioner. These settings are not required when not using functions in coordination with this controller.

* The energy saving level monitor setting screen and the external transmission must be enabled to use the coordination function.

Setting the energy saving level setting and emergency stop order setting

1 Displaying the [Energy saving level monitor setting] screen Click the [Energy saving level monitor setting] screen in the tree menu on the [Output] screen.

* If the alarm type is set to "Limit alarm", the emergency stop order setting will appear as follows.

4-291

2 Setting the energy saving level monitoring Set the energy saving level used as the source data for energy saving coordinated operation with the external device (air-conditioner). Enter or select each of the following items.

(1) Click [Monitoring]. (The box will be checked.)

(2) Select [Monitoring type].

(3) Enter the threshold for each energy saving level in [Threshold 4], [Threshold 3], [Threshold 2] and [Threshold 1].

(4) Set whether or not to record the energy saving level in [System Log].

(5) Set whether to not to transmit the energy saving level in [Outside Notification].

*1 All thresholds 1 to 4 must be set. *2 If "Predicted demand" is selected for the monitoring type, enter the values so that Threshold 4

> Threshold 3 > Threshold 2 > Threshold 1. A value from 0.0 to 999999.9 can be entered. The corresponding energy saving levels are as follow: Level 4 Threshold 4 > Level 3 Threshold 3 > Level 2 Threshold value 2 > Level 1 Threshold value 1 > Level 0

*3 If "Adjusted electrical power" is selected for the monitoring type, enter the values so that Threshold 4 < Threshold 3 < Threshold 2 < Threshold 1. A value from -999999.9 to 999999.9 can be entered as the threshold. The corresponding energy saving levels are as follow: Level 4 Threshold 4 < Level 3 Threshold 3 < Level 2 Threshold value 2 < Level 1 Threshold value 1 < Level 0

*4 The setting will not be not accepted if the threshold 1 to 4 order is reversed.

4-292

3 Setting the emergency stop order monitoring The emergency stop order is linked with the limit alarm or fixed alarm during demand control. To change the monitoring method or related values (base power, fixed alarm value), the settings must be changed on the Demand alarm and control setting screen. Set the following items.

(1) Click [Monitoring]. (The box will be checked.)

(2) Set whether or not to record the emergency stop order in [System Log].

(3) Set whether to not to transmit the emergency stop order in [Outside Notification].

4 Registering Click the button in the dialog box of [Energy saving level monitor setting] to register.

[Register] button : Register the set details of energy saving level monitor setting information.

[Close] button : Back to the project setting dialog box.

*1 If the set details are not proper, an error message as shown on the right is

displayed when clicking the [Register] button according to the error details. Reset the details so as to meet the conditions of each item.

(Example of display)

*2 After modification of entry details of each item, click the

[Close] button instead of clicking the [Register] button or another tree menu is selected, the message shown on the right is displayed. [Yes] button : To register [No] button : Not to register. [Cancel] button : Back to the dialog box of [Energy saving

level monitor setting]

Remarks When enabling [Outside Notification] of the [Energy saving level monitoring] or [Emergency stop order

monitoring], the outside device connection destination domain must be registered with the [Air-conditioner connection setting].

4-293

4.9.15. Air-conditioner connection settings (Only for models with demand control

function) This section explains the operation procedures for [Air-conditioner connection setting].

* The air-conditioner connection setting is the address setting for the air-conditioner. This does not need to be set when not using the coordinated function with the controller.

Setting the air- conditioner connection

1 Displaying the [Air-conditioner connection setting] screen Click the [Air-conditioner connection setting] in the tree menu on the [Output] screen.

4-294

2 Setting the air-conditioner connection destination Enter the information for the connected air controller.

(1) Enter the air conditioner connection name.

The conditions for entering the name are given below.

Number of characters Up to 24 characters

Prohibited characters The following characters cannot be registered: # : , ; * ? < > |

(2) Enter the IP address or domain name for connecting to the air conditioner.

The conditions for entering the name are given below.

Number of characters Up to 50 characters

Input conditions Only the following characters can be used: A-Z, a-z, 0-9, -, ., :, /, _ Or, use a . (dot) at the head or end.

Remarks When designating the connection destination with a domain name, make sure to set up the DNS

server. ( Refer to 4.8.2 IP address settings, Setting the DNS server.)

* For installing and setting the DNS server (name server) and inquiring technical questions about it, consult with your network administrator (or an applicable department of your company).

4-295

3 Registering Click the button in the dialog box of [Air-conditioner connection setting] to register.

[Register] button : Register the set details of air-conditioner connection setting.

[Close] button : Back to the project setting screen.

*1 If the set details are not proper, an error message as shown on the

right is displayed when clicking the [Register] button according to the error details. Reset the details so as to meet the conditions of each item.

(Example of display)

*2 After modification of entry details of each item, click the

[Close] button instead of clicking the [Register] button or another tree menu is selected, the message shown on the right is displayed. [Yes] button : To register [No] button : Not to register. [Cancel] button : Back to the dialog box of [Air-controller

connection setting]

4-296

4.9.16. Demand setting (PLC) (Only for models with the demand control function) You can set the demand settings such as changing the demand target value and time setting of EcoWebServerIII from the PLC. This section explains the operation procedure for [Demand setting (PLC)].

Register the demand setting (PLC)

This section explains how to register the demand setting (PLC). *1 If no PLC/GOT is registered, the demand setting (PLC) cannot be registered.

1 Displaying the [Demand setting (PLC)] screen Click the [Demand setting (PLC)] in the tree menu on the [Output] screen.

4-297

2 Enter the PLC information Enter the PLC information for which you want to set the demand setting. (1)Check [Setting via PLC] to enable. (2) Select the terminal name of the PLC for which you want to set the demand setting. (3) Check the setting items to be set from the PLC to enable. (4) Enter the device number with device name using half-byte numerals.

* Refer to 5.7List of measured items of devices for the setting range. The setting range appears when the [ ] button at the side of the input field is clicked. *Characters other than the setting range cannot be registered.

4-298

3 Registering Click the button on the [Demand setting (PLC)] dialog box to register.

[Register] button : Register the demand setting (PLC) you set.

[Close] button : Return to the project setting dialog box.

*1 If the setting is not correct, clicking the [Register] button shows an error

message according to the incorrect contents as shown on the right. Reset the details so as to meet the conditions of each item.

*2 After changing the setting of each item, click the [Close]

button instead of clicking the [Register] button or select another tree menu to show the message as the right window. [Yes] button : Register [No] button : Not register [Cancel] button : Return to the [Demand setting (PLC)]

screen.

4-299

Demand setting (PLC) about settings

The setting contents when the demand setting is performed from the PLC are shown below.

Device number Subject Input data

range(decimal) Block

n Control device * Refer to below - n+1 VCT ratio Low rank 1 to 100,000

Demand setting section

n+2 High rank n+3 Pulse constant value Low rank 1 to 50,000 n+4 High rank n+5 Number of digits(Integer part) 4 to 6 n+6 Multiplying factor Low rank 0 : Unspecified

1 to 100,000 n+7 High rank n+8 Demand time limit adjustment type 1 : Initial TS

2 : External pulse signal n+9 Alarm/Control mask time 0 to 60 n+10 Alarm type 1 : Limit Alarm

2 : Fixed Alarm n+11 Target demand value Low rank 0 to 9,999,999

Demand monitoring

setting section

n+12 High rank n+13 Base power Low rank 0 to 999,999 n+14 High rank n+15 Fived alarm value Low rank 0 to 9,999,999 n+16 High rank

* n = Start device number set in Demand setting(PLC)

4-300

Control device It is a device for writing the setting request from the PLC and writing the setting completion and the setting error existence from EcoWebServerIII.

Bit Detail b0 Demand setting flag 0 : Setting completed, 1 : Setting request b1 Demand monitoring setting flag b2 to b7 Not used b8 Demand setting error flag 0 : No error, 1 : Error b9 Demand monitoring setting error flag b10 to b15 Not used

In the PLC, after setting the value to the device of the item you want to set, set 1 (=setting request) to the demand setting flag or the demand monitoring setting flag. EcoWebServerIII checks the control device once every 10 seconds and performs the setting process if there is a setting request. When the setting is completed, 0 (=setting completed) is written to the demand setting flag and the demand monitoring setting flag. If there is a setting error at this time, write 1 (= error) to the demand setting error flag or the demand monitoring setting error flag. Only blocks for which setting is requested are set. Set all Fh for items that are not set in the block that requires setting. Example When setting only the demand target value Set FFFFFFFFh to the base power and fixed alarm value respectively. In the same way, set the values within the input data range for VCT ratio, Pulse constant value, Number of digits(Integer part), Multiplying factor, Demand time limit adjustment type, Alarm/control mask time, and Alarm type. For the demand target value, base power, and fixed alarm value, set 10 times the value that is actually set. Example To set 123.4, set 1234.

4-301

The setting contents when the time setting is performed from the PLC are shown below.

Device number Subject Input data range(decimal)

n Control device * Refer to below n+1 Setting time Year 2012 to 2099 n+2 Month 1 to 12 n+3 Day 1 to 31 n+4 Hour 0 to 23 n+5 Minute 0 to 59 n+6 Second 0 to 59 n+7 Setting time Year 2012 to 2099 n+8 Month 1 to 12 n+9 Day 1 to 31 n+10 Hour 0 to 23 n+11 Minute 0 to 59 n+12 Second 0 to 59

* n = Start device number set in Demand setting(PLC) Control device : It is a device for writing the setting request from the PLC and writing the setting completion and the setting error existence from EcoWebServerIII.

bit Detail b0 Time setting flag 0 : Setting completed, 1 : Setting request b1 to b7 No used b8 Time setting error flag 0 : No error, 1 : Error b9 to b15 No used

In the PLC, after setting the value to the device of the item you want to set, set 1 (=setting request) to the time setting flag. EcoWebServerIII checks the control device once every 10 seconds and performs the setting process if there is a setting request. When the setting is completed, 0 (=setting completed) is written to the time setting flag. If there is a setting error at this time, write 1 (= error) to the time setting error flag. Setting time Set the time you want to set in the two setting times(n + 1 to n + 6 device and n + 7 to n + 12 device). If setting time(n + 1 to n + 6 device) and (n + 7 to n + 12 device) are different, a setting error will occur as invalid data.

4-302

4.10. Test and Adjustment Function This function is for operation check before starting operation. Carefully read [1.3 Precautions for use], [3 Flow of settings], and [4 Operating procedures] before function check .

1 Displaying the [Test] dialog box Click [Test] in the dialog box of project setting.

* The Demand control and notification check, air-controller connection check and integrated count value setting functions are available only for the EcoWebServerIII with demand control function.

2 Selecting the function in the tree menu [Confirm terminal connection] is selected as the default.

Remarks

If the setting is changed, the message on the right will appears. To test and adjust, click the [Yes] button and execute project writing.

Title (Displays the selected menu

Each function operation confirmation screen (Displays the test results for the selected function)

4-303

If you click the [Cancel] button, back to the [Project setting] dialog box.

4-304

4.10.1. Terminal connection check This section explains the operation procedure in the dialog box of [Confirm terminal connection].

Confirming the terminal connection state

This section explains the procedure to confirm the terminal connection state.

1 Displaying the [Confirm terminal connection] dialog box Click [Confirm terminal connection] in the tree menu on the [Test] dialog box.

* The following items appear in the list of terminals for CC-Link communication products and CC-Link communication products with demand control function.

* For MODBUS terminals, select "Confirm terminal connection (MODBUS)" in the tree menu.

4-305

2 Executing the connectivity check of all terminals

(1) Click the [Perform the test for all terminals] button on the [Confirm terminal connection] dialog box.

(2) An execution confirmation message appears. Click [Yes] to execute the test.

[Yes] button : Executes the connectivity check of the terminal. [No] button : Cancels the connectivity check of the terminal, and back to the

[Confirm terminal connection] dialog box.

(3) A dialog box that indicates the connectivity check is in progress will appear. If you want to cancel it, click the [Abort] button. * If the IP address of the EcoWebServerIII main unit is not

correct, a LAN cable is not connected, or the EcoWebServerIII is not powered on, the message on the right will appear.

Click the [No] button, and then check the IP address of the EcoWebServerIII, the LAN cable connection, etc., and the power.

[Yes] button : Executes the connectivity check of the terminal. [Cancel] button : Executes the connectivity check of the terminal.

However, error message does not appear even if error occurs.

(4) After the connectivity check on every registered terminal is completed, the completion message appears. Click the [OK] button to back to the [Confirm terminal connection] dialog box.

4-306

3 Executing the connectivity check of selected terminal (1) Select the line of the terminal to confirm, and click the right-click menu of the [Perform the test for the

selected row].

(2) An execution confirmation message appears. Click [Yes] to execute the test.

[Yes] button : Executes the connectivity check of the terminal. [No] button : Cancels the connectivity check of the terminal, and back to the

[Confirm terminal connection] dialog box.

(3) A dialog box that indicates the connectivity check is in progress will appear. If you want to cancel it, click the [Abort] button.

* If the IP address of the EcoWebServerIII main unit is not correct, a LAN cable is not connected, or the EcoWebServerIII is not powered on, the message on the right will appear.

Click the [No] button, and then check the IP address of the EcoWebServerIII, the LAN cable connection, etc., and the power.

[Yes] button : Executes the connectivity check of the next terminal. [Cancel] button : Executes the connectivity check of the next terminal.

However, error message does not appear even if error occurs.

(4) After the connectivity check on all selected terminal is completed, the completion message appears. Click the [OK] button to back to the [Confirm terminal connection] dialog box.

4-307

4 Checking the results of the connectivity check The result of the connectivity check is shown in the [Result (code)] column on the [Confirm terminal connection] dialog box.

CC-Link terminal

Response received :The terminal with corresponding station No. is connected. Terminal transmission error (XXXXX) :The communication error, such as the terminal is not power

ON, the connection is not proper, or the setting of the station number is not correct. (XXXXX refers to an error code.) (Refer to 5.15 List of error codes.)

MODBUS terminal For support terminal

OK : Corresponding terminal is connected. For General purpose MODBUS terminal

Response received : Response from the terminal is received. On error

Communication error Timeout error Refer to "5.16 Troubleshooting." Connection error MODBUS terminal error (X) : This error occurs if the terminal setting is incorrect.

(X is the error code.) Refer to "5.16 Troubleshooting."

* If the terminal error (EXXXX) or terminal error (XXXXX) occurs, investigate the cause based on the error code provided, and then review the registration information of the terminal or check the installation condition of the terminal again.

Remarks If the CC-Link terminal or the general purpose MODBUS terminal with the appropriate station number

is connected, the result of the connectivity check should be Response received even if the "terminal name you set" is different from the "terminal actually connected." Please be careful.

For the MODBUS terminal [Support terminal], if a model of support terminal that is different from the set model is connected, "Another model" is displayed, and if a model that is not supported is connected, "Not supported" is displayed.

Connection confirmation of gernal RTU terminal will be always OK when convertor reply response.

4-308

4.10.2. Contact output operation check This section explains the procedures in the dialog box of [Confirm contact output].

Confirming the contact output operation

This section explains the procedure to confirm the contact output operation.

1 Displaying the [Confirm contact output] dialog box (1) Click [Confirm contact output] in the tree menu on the [Test] dialog box.

The following confirmation message appears. Check the connection with the EcoWebServerIII, and then click the [OK] button.

(2) When the retrieval of the contact output information from the EcoWebServerIII is completed, the completion message appears. Click the [OK] button.

4-309

2 Testing all output destinations (1) Type in the maintenance password.

(The default maintenance password is ecopass.)

(2) Click the [Perform the test for all destinations] button on the [Confirm contact output] dialog box.

(3) An execution confirmation message appears. Click [Yes] to execute the test.

[Yes] button : Executes the contact output operation check. [No] button : Cancels the contact output operation check, and back to the

[Confirm contact output] dialog box.

(4) A dialog box that indicates the contact output operation check is in progress will appear. If you want to cancel it, click the [Abort] button. * If the IP address of the EcoWebServerIII main unit is not

correct, a LAN cable is not connected, or the EcoWebServerIII is not powered on, the message on the right will appear.

Click the [No] button, and then check the IP address of the EcoWebServerIII, the LAN cable connection, etc., and the power.

[Yes] button : Executes the operation check of the next output destination. [Cancel] button : Executes the operation check of the next output destination.

However, error message does not appear even if error occurs.

(5) After the operation check on every registered output destination is completed, the completion message appears. Click the [OK] button to back to the [Confirm contact output] dialog box.

4-310

3 Testing a selected destination (1) Type in the maintenance password.

(The default maintenance password is ecopass.)

(2) Select the line of the output destination to confirm, and click the right-click menu of the [Perform the test for the selected row].

(3) An execution confirmation message appears. Click [Yes] to execute the test.

[Yes] button : Executes the contact output operation check. [No] button : Cancels the contact output operation check, and back to the

[Contact output operation check] dialog box.

(4) A dialog box that indicates the contact output operation check is in progress will appear. If you want to cancel it, click the [Abort] button. * If the IP address of the EcoWebServerIII main unit is

not correct, a LAN cable is not connected, or the EcoWebServerIII is not powered on, the message on the right will appear.

Click the [No] button, and then check the IP address of the EcoWebServerIII, the LAN cable connection, etc., and the power.

[Yes] button : Executes the operation check of next output destination. [Cancel] button : Executes the operation check of next output destination.

However, error message does not appear even if error occurs.

(5) After the operation check on all selected output destination is completed, the completion message appears. Click the [OK] button to back to the [Confirm contact output] dialog box.

4-311

4 Checking the results of execution The results of the operation confirmation are displayed in the Output status and Result (code) columns on the [Confirm contact output] dialog box.

The results of execution are showed as below: Contact status : Displays OFF and ON. Results (code) : Execution completion, Fail, Communication error,

Timeout error, Connection error

* If the execution results are not [Execution completion], investigate the cause based on the error code provided, and then review the registration information of the terminal or check the installation condition of the terminal again.

Remarks The contact output operation check execute tests by retrieving the latest contact output status, and

changing to OFF if ON, and ON if OFF. Contact output of the following have been set in the monitoring notification registration must be

checked. Upper/lower limit monitoring, Operating status monitoring, Specific consumption target value

monitoring, and Energy plan value monitoring. (Refer to [Registering new contact outputs -> Selecting the contact output conditions ->

(2)Selecting the detail item Monitoring:Energy>

4-312

Retrieving the latest contact output status

The latest contact output status is retrieved from the EcoWebServerIII and displayed.

1 Retrieving latest contact output status (1) Click the [Get latest status] button on the [Confirm contact output] dialog box.

(2) An execution confirmation message appears. Click [Yes] to execute the retrieval.

[Yes] button : Executes the contact output status retrieval process. [No] button : Cancels the contact output status retrieval, and back to

the [Contact output operation check] dialog box.

(3) A dialog box that indicates the contact output status retrieval process is in progress will appear. If you want to cancel it, click the [Abort] button.

(4) After the retrieval on all contact output status is completed, the completion message appears. Click the [OK] button to back to the [Confirm contact output] dialog box.

4-313

4.10.3. Demand notification (only models with demand control function) This section explains the operation procedures in the dialog box of [Demand notification].

* The Demand control and notification check is available only for the EcoWebServerIII with demand control function.

Confirming the demand control and notification operation

This section explains the procedure to confirm mail transfer for the demand control and notification.

1 Displaying the [Demand notification] dialog box Click [Demand notification] in the tree menu on the [Test] dialog box.

4-314

2 Testing all items (1) Type in the maintenance password.

(The default maintenance password is ecopass.)

(2) Click [Perform the test all items] button on the [Demand notification] dialog box.

(3) An execution confirmation message appears. Click [Yes] to execute the test.

[Yes] button : Executes the demand control and notification check. [No] button : Cancels the demand control and notification check, and back

to the [Demand notification] dialog box.

(4) A dialog box that indicates the demand control and notification check is in progress will appear. If you want to cancel it, click the [Abort] button.

* If the demand control and notification check fails, the message on the right will appear.

Click the [No] button and check the SMTP server connection settings, and the LAN cable connection, etc.

[Yes] button : Executes the notification check of the next item. [Cancel] button : Executes the notification check of the next item.

However, error message does not appear even if error occurs.

(5) After the notification check on every registered item is completed, the completion message appears. Click the [OK] button to back to the [Demand notification] dialog box.

4-315

3 Testing a selected item (1) Type in the maintenance password.

(The default maintenance password is ecopass.)

(2) Select the line of the output destination to confirm, and click the right-click menu of the [Perform the test for the selected row].

(3) An execution confirmation message appears. Click [Yes] to execute the test.

[Yes] button : Executes the demand control and notification check. [No] button : Cancels the demand control and notification check, and back

to the [Demand notification] dialog box.

(4) A dialog box that indicates the demand control and notification check is in progress will appear. If you want to cancel it, click the [Abort] button.

* If the Demand control and notification check fails, the message on the right will appear. Click the [No] button and check the SMTP server connection settings, and the LAN cable connection, etc.

[Yes] button : Executes the notification check of the next item. [Cancel] button : Executes the notification check of the next item.

However, error message does not appear even if error occurs.

(5) After the notification check on all selected item is completed, the completion message appears. Click the [OK] button to back to the [Demand notification] dialog box.

4-316

4 Checking the results of execution The results of the operation confirmation are displayed in the Result (code) column on the [Demand notification] dialog box.

The results of execution are showed as below:

When each item's test mail transfer ends normally Result (code) : Execution completion When each item's test mail transfer fails Result (code) : Fail(error code)

Remarks If completed, check the contents of the sent mail. The following information is sent in the test mail.

Item Contents

From: Send source address: Own mail address set in Mail notification setting SMTP server setting

To: Send destination address: Send destination address set in Mail notification setting Demand notification

Subject: Mail subject: Subject set in Mail notification setting Demand notification TEST: is always inserted before the subject to indicate a test mail.

Body: Mail text: Text set in Mail notification setting Demand notification

4-317

4.10.4. Error, regular notification check This section explains the operation procedures in the dialog box of [Error, regular notification].

Confirming the error, regular notification operation

This section describes the procedures for confirming the error, regular report mail transfer.

1 Displaying the [Error, regular notification] dialog box Click [Error, regular notification] in the tree menu on the Test and Adjustment function dialog box.

4-318

2 Testing all items (1) Type in the maintenance password.

(The default maintenance password is ecopass.)

(2) Click [Perform the test all items] button on the [Error, regular notification] dialog box.

(3) An execution confirmation message appears. Click [Yes] to execute the test.

[Yes] button : Executes the error, regular notification check. [No] button : Cancels the error, regular notification check, and back to the

[Error, regular notification] dialog box.

(4) A dialog box that indicates the error, regular notification check is in progress will appear. If you want to cancel it, click the [Abort] button.

* If the error, regular notification check fails, the message on the right will appear.

Click the [No] button and check the SMTP server connection settings, and the LAN cable connection, etc.

[Yes] button : Executes the notification check of the next item. [Cancel] button : Executes the notification check of the next item.

However, error message does not appear even if error occurs.

(5) After the notification check on every registered item is completed, the completion message appears. Click the [OK] button to back to the [Error, regular notification] dialog box.

4-319

3 Testing a selected item (1) Type in the maintenance password.

(The default maintenance password is ecopass.)

(2) Select the line of the output destination to confirm, and click the right-click menu of the [Perform the test for the selected row].

(3) An execution confirmation message appears. Click [Yes] to execute the test.

[Yes] button : Executes the error, regular notification check. [No] button : Cancels the error, regular notification check, and back to

the [Error, regular notification] dialog box.

(4) A dialog box that indicates the error, regular notification check is in progress will appear. If you want to cancel it, click the [Abort] button.

* If the error, regular notification check fails, the message

on the right will appear. Click the [No] button and check the SMTP server

connection settings, and the LAN cable connection, etc.

[Yes] button : Executes the notification check of the next item. [Cancel] button : Executes the notification check of the next item.

However, error message does not appear even if error occurs.

(5) After the notification check on all selected item is completed, the completion message appears. Click the [OK] button to back to the [Error, regular notification] dialog box.

4-320

4 Checking the results of execution The results of the operation confirmation are displayed in the Result (code) column on the [Error, regular notification] dialog box.

The results of execution are showed as below:

When each item's test mail transfer ends normally Result (code) : Execution completion When each item's test mail transfer fails Result (code) : Fail(error code)

Remarks If completed, check the contents of the sent mail. The following information is sent in the test mail.

Item Contents

From: Send source address: Own mail address set in Mail notification setting SMTP server setting

To: Send destination address: Send destination address set in "Mail notification setting Unit error notification, regular report"

Subject: Mail subject: Subject set in "Mail notification setting Unit error notification, regular report" "TEST:" is always inserted before the subject to indicate a test mail.

Body: Mail text: Text set in "Mail notification setting Unit error notification, regular report"

4-321

4.10.5. Measuring point data monitoring report check This section explains the operation procedures in the dialog box of [Measuring point data monitoring report].

Confirming the measuring point data monitoring report operation

This section explains the procedure to confirm mail transfer for the measuring point data monitoring and report.

1 Displaying the [Measuring point data monitoring report] dialog box Click [Measuring point data monitoring report] in the tree menu on the [Test] dialog box.

4-322

2 Testing all items (1) Enter the maintenance password.

(The default maintenance password is ecopass.)

(2) Click the [Perform the test for all items] button on the [Measuring point data monitoring report] dialog box.

(3) An execution confirmation message appears. Click [Yes] button to execute the test.

[Yes] button : Executes the measuring point data monitoring and report check.

[No] button : Cancels the measuring point data monitoring and report check, and back to the [Measuring point data monitoring report] dialog box.

(4) A dialog box that indicates the measuring point data monitoring and report check is in progress will appear. If you want to cancel it, click the [Abort] button.

* If the measuring point data monitoring and report check fails, the message on the right will appear.

Click the [No] button and check the SMTP server connection settings, and the LAN cable connection, etc.

[Yes] button : Executes the report check of the next item. [Cancel] button : Executes the report check of the next item.

However, error message does not appear even if error occurs.

(5) After the report check on every registered item is completed, the completion message appears. Click the [OK] button to back to the [Measuring point data monitoring report] dialog box.

4-323

3 Testing a selected item (1) Enter the maintenance password.

(The default maintenance password is ecopass.)

(2) Select the line of the output destination to confirm, and click the right-click menu of the [Perform the test for the selected row].

(3) An execution confirmation message appears. Click [Yes] to execute the test.

[Yes] button : Executes the measuring point data monitoring and report check.

[No] button : Cancels the measuring point data monitoring and report check, and back to the [Measuring point data monitoring report] dialog box.

(4) A dialog box that indicates the measuring point data monitoring and report check in progress will appears. If you want to cancel it, click the [Abort] button.

* If the measuring point data monitoring and report check fails, the message on the right will appear. Click the [No] button and check the SMTP server connection settings, and the LAN cable connection, etc.

[Yes] button : Executes the report check of the next item. [Cancel] button : Executes the report check of the next item.

However, error message does not appear even if error occurs.

(5) After the report check on all selected item is completed, the completion message appears. Click the [OK] button to back to the [Measuring point data monitoring report] dialog box.

4-324

4 Confirming the execution results The results of the operation confirmation are displayed in the Result (code) column on the [Measuring point data monitoring report] dialog box.

The results of execution are showed as below:

When each item's test mail transfer ends normally Result (code) : Execution completion

When each item's test mail transfer fails Result (code) : Fail (error code)

Remarks If completed, check the contents of the sent mail. The following information is sent in the test mail.

Item Contents

From: Send source address: Own mail address set in Mail report setting SMTP server setting

To: Send destination address: Send destination address set in "Mail report setting Upper/lower limit monitoring and report, Operation status monitoring and report, Specific consumption target value monitoring and report, Energy plan value monitoring and report".

Subject:

Mail subject: Subject set in Mail report setting Upper/lower limit monitoring and report, Operation status monitoring and report, Specific consumption target value monitoring and report, Energy plan value monitoring and report. "TEST:" is always inserted before the subject to indicate a test mail.

Body: Mail text: Text set in Mail report setting "Mail report setting Upper/lower limit monitoring and report, Operation status monitoring and report, Specific consumption target value monitoring and report, Energy plan value monitoring and report ".

4-325

4.10.6. File automatic transfer check This section explains the operation procedures in the dialog box of [Confirm file transfer].

Confirming the file automatic transfer operation

This section explains the procedures to confirm the file automatic transfer.

1 Displaying the [Confirm file transfer] dialog box Click [Confirm file transfer] in the tree menu on the [Test] dialog box.

* The demand data is not displayed if the EcoWebServerIII does not have the demand control function.

4-326

2 Testing all items (1) Type in the maintenance password.

(The default maintenance password is ecopass.)

(2) Click [Perform the test for all items] button on the [Confirm file transfer] dialog box.

(3) An execution confirmation message appears. Click [Yes] to execute the test.

[Yes] button : Executes the file automatic transfer check. [No] button : Cancels the file automatic transfer check, and back to the

[Confirm file transfer] dialog box.

(4) A dialog box that indicates the file automatic transfer check is in progress will appear. If you want to cancel it, click the [Abort] button.

* If the file automatic transfer check fails, the message on the right will appear.

Click the [No] button and check the FTP server connection settings, and the LAN cable connection, etc.

[Yes] button : Executes the transfer check of the next item. [Cancel] button : Executes the transfer check of the next item.

However, error message does not appear even if error occurs.

(5) After the automatic transfer check on every registered item is completed, the completion message appears. Click the [OK] button to return to the [Confirm file transfer] dialog box.

4-327

3 Testing a selected item (1) Type in the maintenance password.

(The default maintenance password is ecopass.)

(2) Select the line of the output destination to confirm, and click the right-click menu of the [Perform the test for the selected row].

(3) An execution confirmation message appears. Click [Yes] to execute the test.

[Yes] button : Executes the file automatic transfer check. [No] button : Cancels the file automatic transfer check, and back to the

[Confirm file transfer] dialog box.

(4) A dialog box that indicates the file automatic transfer check is in progress will appear. If you want to cancel it, click the [Abort] button.

* If the file automatic transfer check fails, the message on the right will appear.

Click the [No] button and check the FTP server connection settings, and the LAN cable connection, etc.

[Yes] button : Executes the transfer check of the next item. [Cancel] button : Executes the transfer check of the next item.

However, error message does not appear even if error occurs.

(5) After the automatic transfer check on all selected item is completed, the completion message appears. Click the [OK] button to return to the [Confirm file transfer] dialog box.

4-328

4 Confirming the execution results The results of the operation confirmation are displayed in the Execution results (code) column on the [Confirm file transfer] dialog box.

The results of execution are showed as below:

When each item's test mail transfer ends normally Result (code) : Succeed

When each item's test mail transfer fails Result (code) : Fail (error code)

Remarks If successful, check the FTP server's transfer destination folder. The contents of the transferred file are

listed below.

Item Contents Annual data TEST_y.csv

TEST, TEST

Monthly data TEST_m.csv Daily data TEST_d.csv Zoom (5-minute) data TEST_z5.csv Zoom (1-minute) data TEST_z1.csv Virtual data (annual) TEST_v_y.csv Virtual data (monthly) TEST_v_m.csv Virtual data (daily) TEST_v_d.csv Specific consumption data (annual) TEST_b_y.csv Specific consumption data (monthly) TEST_b_m.csv Specific consumption data (daily) TEST_b_d.csv Equipment data (daily) TEST_f_d.csv Operation history data TEST_di.csv System log TEST_s.csv Demand data (annual) TEST_d_y.csv Demand data (monthly) TEST_d_m.csv Demand data (daily) TEST_d_d.csv Demand alarm and control history data TEST_a.csv

* Do not test at the timing of [file transfer time] (set in [4.8.12 FTP server setting]).

There is a possibility that the file transfer is overlap, and not transferred correctly.

4-329

4.10.7. Air-controller connection check (only models with demand control function) This section explains the procedures for making an external transmission to the air-conditioner controller for each energy saving level.

* The Air-controller connection check is available only for the EcoWebServerIII with demand control function.

* This does not need to be set when not using the coordinated function with the air-conditioner.

Confirming the connection with air-conditioner controller

This section explains the procedure to confirm the connection with the air-conditioner controller.

1 Displaying the [Confirm air-conditioner connection] dialog box Click [Confirm air-conditioner connection] in the tree menu on the [Test] dialog box.

2 Testing the external transmission (1) Type in the maintenance password.

(The default maintenance password is ecopass.)

4-330

(2) Click the [Execute] button for items to send.

The confirmation screen is displayed. Click [Yes]. [Yes]: Execute the test. [No]: Cancel the test.

(3) A dialog box that indicates the air-controller connection check is in progress will appear. If you want to cancel it, click the [Abort] button. * If external transmission fails, the message on the right

will appear. Click the [OK] button and check the air-controller connection settings, and the LAN cable connection, etc.

3 Confirming the execution results The results of the operation confirmation are displayed in the Execution results column on the [Confirm air-conditioner connection] dialog box.

The results of execution are showed as below:

When external transmission ends normally : Succeed When external transmission fails : Fail(error code)

* The transmitted file is a test file for confirming the operation.

4-331

4.10.8. Integrated count value settings (only models with demand control function) This section explains the integrated count value settings. * The integrated count value setting is available only for the EcoWebServerIII with demand control

function. * Do not set an integrated value just before or after the hour or half hour). If the integrated value is

changed during operation, an abnormally large value may be displayed for the electric energy (30-minute rate, daily rate, monthly rate).

Setting the integrated count value

This section explains the procedures to set the electric energy for each time zone.

1 Displaying the [Integration value set] screen (1) Click [Integration value set] in the tree menu on the [Test] dialog box.

The following confirmation message will appear. Click [OK] after checking the connection with the EcoWebServerIII.

(2) After the integrated count value information has been

retrieved from the EcoWebServerIII, a completion message appears. Click the [OK] button.

The retrieved integrated count value information is displayed in the Present value field.

4-332

2 Setting the electric energy

(1) Type in the maintenance password.

(The default maintenance password is ecopass.)

(2) Enter the electric energy meter's indication value in the [Indicated value].

*1 Enter the current indication on the electric energy meter for each time zone. *2 Enter within the following range according to the number of meter digits in the demand setting.

Effective value range = Meter multiplier Value range of transaction meter (0 to 9999.99 or 99999.9 or 999999) = 0 to meter multiplier (10 number of instrument digits 10 (number of instrument digits 7))

*3 If a value exceeding the number of valid decimal digits is entered or a decimal digit is not input, the value will be rounded to the valid decimal digits. the value will be 13776.2>

(3) Click [Set] for the items to set.

(4) An execution confirmation message appears. Click the [Yes] button and set the integrated count value.

[Yes] button : Executes the integrated count value setting. [No] button : Cancels the integrated count value setting and back to the

[Integration value set] dialog box.

4-333

(5) A dialog box that indicates the integrated count value setting is in progress will appear. If you want to cancel it, click the [Abort] button. * If the settings are incorrect, the message as in the right

appears according to the illegal data when the [Set] button is clicked. Revise the settings to the conditions are satisfied.

(Example of display)

(6) After the integrated count value has been set, the completion message will appear. Click the [OK] button to back to the [Integration value set] dialog box.

(7) Check the set details.

* The latest current value for that time zone appears immediately after setting.

4-334

Retrieving the latest integrated count value information

The latest integrated count value information is retrieved from the EcoWebServerIII and displayed.

1 Retrieving latest integrated count value information (1) Click the [Get latest status] button on the [Integration value set] dialog box.

(2) An execution confirmation message appears. Click [Yes] to execute the retrieval.

[Yes] button : Executes the integrated count value information retrieval process

[No] button : Cancels the integrated count value information retrieval, and back to [Integration value set] dialog box.

(3) A dialog box that indicates the integrated count value information retrieval is in progress will appear. If you want to cancel it, click the [Abort] button.

(4) After the retrieval of the integrated count value information is completed, the completion message will appear. Click the [OK] button to back to the [Integration value set] dialog box.

(5) Check the displayed information.

4-335

4.10.9. Data collection This section explains the operation procedures in the dialog box of [Collect data].

Collecting data

This section explains the procedures to manually collect data stored in EcoWebServerIII.

1 Displaying the [Collect data] dialog box Click [Collect data] in the tree menu on the [Test] dialog box.

* The demand data is not displayed if the EcoWebServerIII does not have the demand control function.

2 Selecting the data to collect Select the data to collect by clicking the radio button [].

* Multiple types of data cannot be collected simultaneously.

4-336

3 Specifying the destination folder Specify the data for saving the collected data.

(1) Click the Browse button.

The [Browse For Folder] dialog box is displayed.

(2) Select the destination folder and click the button to determine. [OK] button : Specifies the selected file as the destination. The [Collect data] dialog box will be

displayed, showing the path of the specified destination location in the [Path] field.

[Cancel] button : Cancels the selection of the folder and back to the [Collect data] dialog box. [Make New folder] button : Creates a new folder.

4 Inputting the login ID and password Type in either the data acquisition or system administration login ID and password.

(The default data acquisition login ID and password are guest and user.) (The default system administration login ID and password are "ecoV" and "ecopass".)

5 Collecting the files (1) When you click [ ] button, the [Selection of data collection] dialog box will be displayed.

*1 If the IP address of EcoWebServerIII is incorrect, the LAN cable is not connected, or the EcoWebServerIII is not powered ON, the message on the right will appear.

Click the [OK] button, and then check the IP address of EcoWebServerIII, the connection of the LAN cable, and whether the power is turned on.

*2 If the login ID or password is incorrect, the message on the right will

appear. Click the [OK] button and then check the login ID and password.

4-337

(2) Check the box for the files you want to collect. To collect all files, click the [Select all] button. Uncheck the box to cancel the selection. To cancel all files, click the [Deselect] button.

(3) Click the [Execute] button. To cancel the collection, click the [Cancel] button.

(4) The screen showing the ongoing data collection will be displayed. The second line shows the name of the file that is being collected. To stop the collection, click the [Abort] button.

(5) After the collection on every registered item is completed, the completion message will appear.

4-338

4.10.10. Deleting data This section explains the operation procedures in the dialog box of [Delete data].

Deleting data

This section explains the procedures to manually delete data stored in EcoWebServerIII.

1 Displaying the [Delete data] dialog box Click [Delete data] in the tree menu on the [Test] dialog box.

4-339

2 Selecting the data to delete Select the data to delete by clicking the radio button [].

The files that can be deleted are as follow.

Data file Daily data, Monthly data, Annual data, Zoom (5-minute) data, Zoom (1-minute data), Virtual (daily) data, Virtual (monthly) data, Virtual (annual) data, Specific consumption (daily) data, Specific consumption (monthly) data, Specific consumption (annual) data, Equipment (daily) data, Operation history data, Demand (daily) data *, Demand (monthly) data *, Demand (annual) data *, Demand alarm and control history data*

System log file System log Data file and system log file

All files listed above

* The demand (daily) data, demand (monthly) data, demand (annual) data, demand alarm and control history data deletion function is available only for the EcoWebServerIII with demand control function.

3 Inputting the maintenance password Type in the maintenance password.

(The default maintenance password is ecopass.)

4 Deleting the file (1) When you click the [ ] button, the confirmation message

will appear.

[Yes] button : Executes the deletion of the files. [No] button : Cancels the deletion of the files.

4-340

*1 If the IP address of the EcoWebServerIII main unit is not correct, a LAN cable is not connected, or the EcoWebServerIII is not powered on, the message on the right will appear.

Click the [OK] button, and then check the IP address of the EcoWebServerIII, the LAN cable connection, etc., and the power.

*2 If the password is incorrect, the message on the right will appear.

Click the [OK] button and then check the login ID and password.

*3 If many files are stored, a timeout may occur. In this case,

perform the deletion of the data again.

(2) After the files are deleted, EcoWebServerIII will be reset.

* It may take up to 10 to 15 minutes to reset.

(3) When the deletion of the files and reset are completed, the following message will appear.

Remarks Immediately after restarting the EcoServer, daily data file and demand (daily) data file of today is

created.

After erasing the data, incorrect display of the demand measuring screen because there is no data until the start (end) of the next demand time limit (when the remaining time reaches 30:00 (time limit = 30 min)).

4-341

4.10.11. EcoWebServerIII reset This section explains the operation procedures in the dialog box of [Reset].

Resetting the EcoWebServerIII

This section explains the procedures for resetting (restarting) EcoWebServerIII.

1 Displaying the [Reset] dialog box Click [Reset] in the tree menu on the [Test] dialog box.

2 Inputting the maintenance password Type in the maintenance password.

(The default maintenance password is ecopass.)

4-342

3 Resetting (restart) (1) When you click the [ ] button, the confirmation message will

appear.

[Yes] button : Executes the reset. [No] button : Cancels the reset. *1 If the IP address of the EcoWebServerIII is not correct, a LAN cable

is not connected, or the EcoWebServerIII is not powered on, the message on the right will appear. Click the [OK] button, and then check the IP address of the EcoWebServerIII, the LAN cable connection, etc., and the power.

*2 If the password is incorrect, the message on the right will appear.

Click the [OK] button and then check the login ID and password.

(2) EcoWebServerIII is reset.

* It may take up to 10 to 15 minutes to reset.

(3) When the reset is completed, the following message will appear.

5-1

5. Appendix

5.1. List of support terminals(CC-Link terminal) Product name Icon/type name Station type

Number of occupying stations

Energy measuring unit (1P2W, 1P3W, 3P3W)

EMU4-BD1-MB Remote device station 1 station

occupied

Energy measuring unit (1P2W, 1P3W, 3P3W, 3P4W)

EMU4-HD1-MB Remote device station 1 station

occupied

Energy measuring unit (1P2W, 1P3W, 3P3W, 3P4W)

EMU4-FD1-MB Remote device station 1 station

occupied

Energy measuring standard model*1

EMU4-BM1-MB Remote device station 1 station

occupied

Energy measuring high performance model*1

EMU4-HM1-MB Remote device station 1 station

occupied

Insulation Monitoring model*1

EMU4-LG1-MB Remote device station 1 station

occupied

Control Unit *1

EMU4-CNT-MB Remote device station 1 station occupied

Energy measuring extension model for same voltage system*2

EMU4-A2 Remote device station *3

Energy measuring extension model for different voltage system*2

EMU4-VA2 Remote device station *3

Energy measuring extension model for analog input*2

EMU4-AX4 Remote device station *3

Energy measuring extension model for pulse/digital input*2

EMU4-PX4 Remote device station *3

Energy measuring unit (Power reception and distribution monitoring(standard product 3 circuits))

EMU2-RD3-C Remote device station 1 station occupied

Energy measuring unit (Power reception and distribution monitoring(standard product 5 circuits))

EMU2-RD5-C Remote device station 1 station occupied

Energy measuring unit (Power reception and distribution monitoring(standard product 7 circuits))

EMU2-RD7-C Remote device station 1 station occupied

Energy measuring unit (Power reception and distribution monitoring(3P4W 2 circuits))

EMU2-RD2-C-4W Remote device station 1 station occupied

Energy measuring unit (Power reception and distribution monitoring(3P4W 4 circuits))

EMU2-RD4-C-4W Remote device station 1 station occupied

Energy measuring unit

EMU3-DP1-C Remote device station 1 station occupied

MDU breaker (WS-V)

MDUWS-V

NF400/630/800-SEWMB NF400/630/800-HEWMB NV400/630/800-SEWMB NV400/630/800-HEWMB NF400/630/800-ZEWMB NF250-SEVM/-HEVM NV250-SEVM/-HEVM NF250-ZEVM

Remote device station 1 station occupied

MDU breaker (WS)

MDU(WS) NF400-SEP/HEP with MDU NF600-SEP/HEP with MDU NF800-SEP/HEP with MDU

Remote device station 1 station occupied

5-2

Product name Icon/type name Station type Number of occupying stations

AE-SW CC-Link

AE-SW(BIF-CC) Remote device station 1 station

occupied

Electronic multi-measuring instrument

ME96NSR Remote device station 1 station occupied

Electronic multi-measuring instrument

ME96SSHB-MB Remote device station 1 station

occupied

Electronic multi-measuring instrument

ME96SSRB-MB Remote device station 1 station

occupied

Electronic multi-measuring instrument

ME96SSHA-MB Remote device station 1 station occupied

Electronic multi-measuring instrument

ME96SSRA-MB Remote device station 1 station occupied

Electronic multi-measuring instrument

ME96SSH-MB Remote device station 1 station occupied

Electronic multi-measuring instrument

ME96SSR-MB Remote device station 1 station occupied

Electronic multi-measuring instrument with transmission function

ME110SSR-C(H) Remote device station 1 station occupied

Electronic multi-measuring instrument with transmission function

ME110NSR-C Remote device station 1 station occupied

Thermocouple temperature input unit

AJ65BT-68TD Remote device station 4 station occupied

Platinum resistance temperature sensor Pt 100 temperature input unit

AJ65BT-64RD3 Remote device station 4 station occupied

Analog-digital conversion unit

AJ65BT-64AD Remote device station 2 station occupied

Terminal block type 24 VDC input unit (8 points)

AJ65SBTB1-8D Remote I/O station 1 station

occupied

Terminal block type 24 VDC input unit (16 points)

AJ65SBTB1-16D Remote I/O station 1 station

occupied

Terminal block type 24 VDC input unit (32 points)

AJ65SBTB1-32D Remote I/O station 1 station

occupied

Terminal block type DC input transistor output combined unit (Input 8 points, Output 8 points)

AJ65SBTB1-16DT

Remote I/O station

1 station occupied

Terminal block type DC input transistor output combined unit (Input 16 points, Output 16 points)

AJ65SBTB1-32DT

Remote I/O station

1 station occupied

CC-Link master/local unit (Local station)

QJ61BT11N Intelligent device station

1 station occupied

CC-Link master/local unit (Local station)

LCPU/LJ61BT11 Intelligent device station

1 station occupied

*1 EMU4-BM1-MB, EMU4-HM1-MB, EMU4-LG1-MB, EMU4-CNT-MB are main units of EcoMonitorPlus. *2 EMU4-A2, EMU4-VA2, EMU4-AX4, EMU4-PX4 are extension units of EcoMonitorPlus. *3 Conbination of main unit and extension unit occupied 1 station. *4 When the main unit of EcoMonitorPlus is EMU4-CNT-MB, the response data of the measurement value of the extension unit is updated every minute, so the response measurement value is up to 1 minute ago.

5-3

5.2. List of model information (CC-Link terminal)

The following describes the details of setting and setting ranges for models that require the setting of model information on the terminal registration screen.

5.2.1. EMU4-BD1-MB

Setting item Setting range Phase wire method 1P2W, 1P3W, 3P3W Voltage rating 1P2W, 3P3W:

110V, 220V, 440V, 690V, 1100V, 2200V, 3300V, 6600V 1P3W: 110V

Current rating 5A, 6A, 7.5A, 8A, 10A, 12A, 15A, 20A, 25A, 30A, 40A, 50A, 60A, 75A, 80A, 100A, 120A, 150A, 200A, 250A, 300A, 400A, 500A, 600A, 750A, 800A, 1000A, 1200A, 1250A, 1500A, 1600A, 2000A, 2500A, 3000A, 4000A, 5000A, 6000A

5.2.2. EMU4-HD1-MB Setting item Setting range Phase wire method 1P2W, 1P3W, 3P3W, 3P4W Voltage rating *3P4W is used as phase voltage

1P2W, 3P3W: 110V, 220V, 440V, 690V, 1100V, 2200V, 3300V, 6600V 1P3W: 110V 3P4W: 63.5V, 100V, 105V, 110V, 115V, 120V, 127V, 200V, 220V, 230V, 240V, 242V, 250V, 254V, 265V, 277V

Current rating 5A, 6A, 7.5A, 8A, 10A, 12A, 15A, 20A, 25A, 30A, 40A, 50A, 60A, 75A, 80A, 100A, 120A, 150A, 200A, 250A, 300A, 400A, 500A, 600A, 750A, 800A, 1000A, 1200A, 1250A, 1500A, 1600A, 2000A, 2500A, 3000A, 4000A, 5000A, 6000A

5.2.3. EMU4-FD1-MB

Setting item Setting range Phase wire method 1P2W1P3W3P3W3P4W Voltage rating *3P4W is used as phase voltage

1P2W3P3W 110V220V440V690V1100V2200V3300V6600V 1P3W 110V 3P4W 63.5V100V105V110V115V120V127V200V220V

230V240V242V250V254V265V277V Current rating 5A6A7.5A8A10A12A15A20A25A30A40A50A

60A75A80A100A120A150A200A250A300A400A 500A600A750A800A1000A1200A1250A1500A

1600A2000A2500A3000A4000A5000A6000A

5-4

5.2.4. EMU4-BM1-MB

Setting item Setting range Phase wire method 1P2W, 1P3W, 3P3W Voltage rating 1P2W, 3P3W:

110V, 220V, 440V, 690V, 1100V, 2200V, 3300V, 6600V, 11000V, 13200V, 13800V, 15000V, 16500V, 22000V, 24000V, 33000V, 66000V, 77000V, 110000V 1P3W: 110/220V

Current rating 5A, 6A, 7.5A, 8A, 10A, 12A, 15A, 20A, 25A, 30A, 40A, 50A, 60A,

75A, 80A, 100A, 120A, 150A, 200A, 250A, 300A, 400A, 500A,

600A, 750A, 800A, 1000A, 1200A, 1250A, 1500A, 1600A, 2000A, 2500A, 3000A, 4000A, 5000A, 6000A, 7500A, 8000A, 10000A, 12000A, 20000A, 25000A, 30000A

5.2.5. EMU4-HM1-MB Setting item Setting range Phase wire method 1P2W1P3W3P3W3P4W Voltage rating 1P2W, 3P3W

110V, 220V, 440V, 690V, 1100V, 2200V, 3300V, 6600V, 11000V, 13200V, 13800V, 15000V, 16500V, 22000V, 24000V, 33000V, 66000V, 77000V, 110000V 1P3W 110/220V, 220/440V 3P4W 63.5/110V, 100/173V, 105/182V, 110/190V, 115/199V, 120/208V, 127/220V, 200/346V, 220/380V, 230/400V, 240/415V, 242/420V, 250/430V, 254/440V, 265/460V, 277/480V

Current rating 5A, 6A, 7.5A, 8A, 10A, 12A, 15A, 20A, 25A, 30A, 40A, 50A, 60A, 75A, 80A, 100A, 120A, 150A, 200A, 250A, 300A, 400A, 500A, 600A, 750A, 800A, 1000A, 1200A, 1250A, 1500A, 1600A, 2000A, 2500A, 3000A, 4000A, 5000A, 6000A, 7500A, 8000A, 10000A, 12000A, 20000A, 25000A, 30000A

5.2.6. EMU4-LG1-MB

Setting item Setting range Measuring mode Low sensitivity mode, High sensitivity mode

5-5

5.2.7. EMU4-A2

Setting item Setting range Phase wire method 1P2W, 1P3W, 3P3W, 3P4W Voltage rating 1P2W, 3P3W

110V, 220V, 440V, 690V, 1100V, 2200V, 3300V, 6600V, 11000V, 13200V, 13800V, 15000V, 16500V, 22000V, 24000V, 33000V, 66000V, 77000V, 110000V 1P3W 110/220V, 220/440V 3P4W 63.5/110V, 100/173V, 105/182V, 110/190V, 115/199V, 120/208V, 127/220V, 200/346V, 220/380V, 230/400V, 240/415V, 242/420V, 250/430V, 254/440V, 265/460V, 277/480V

Current rating 5A, 6A, 7.5A, 8A, 10A, 12A, 15A, 20A, 25A, 30A, 40A, 50A, 60A, 75A, 80A, 100A, 120A, 150A, 200A, 250A, 300A, 400A, 500A, 600A, 750A, 800A, 1000A, 1200A, 1250A, 1500A, 1600A, 2000A, 2500A, 3000A, 4000A, 5000A, 6000A, 7500A, 8000A, 10000A, 12000A, 20000A, 25000A, 30000A

*1 It is necessary to fix phase wire method and voltage rating for EMU4-A2. 5.2.8. EMU4-VA2

Setting item Setting range Phase wire method 1P2W, 1P3W, 3P3W, 3P4W Voltage rating 1P2W, 3P3W

110V, 220V, 440V, 690V, 1100V, 2200V, 3300V, 6600V, 11000V, 13200V, 13800V, 15000V, 16500V, 22000V, 24000V, 33000V, 66000V, 77000V, 110000V 1P3W 110/220V, 220/440V 3P4W 63.5/110V, 100/173V, 105/182V, 110/190V, 115/199V, 120/208V, 127/220V, 200/346V, 220/380V, 230/400V, 240/415V, 242/420V, 250/430V, 254/440V, 265/460V, 277/480V

Current rating 5A, 6A, 7.5A, 8A, 10A, 12A, 15A, 20A, 25A, 30A, 40A, 50A, 60A, 75A, 80A, 100A, 120A, 150A, 200A, 250A, 300A, 400A, 500A, 600A, 750A, 800A, 1000A, 1200A, 1250A, 1500A, 1600A, 2000A, 2500A, 3000A, 4000A, 5000A, 6000A, 7500A, 8000A, 10000A, 12000A, 20000A, 25000A, 30000A

5.2.9. EMU2-BM1-C

Setting item Setting range Phase wire method 1P2W, 1P3W, 3P3W Voltage rating 110V, 220V, 440V Current rating 5A, 6A, 7.5A, 8A, 10A, 12A, 15A, 20A, 25A, 30A, 40A, 50A, 60A,

75A, 80A, 100A, 120A, 150A, 200A, 250A, 300A, 400A, 500A, 600A, 750A, 800A, 1000A, 1200A, 1500A, 1600A, 2000A, 2500A, 3000A, 4000A, 5000A, 6000A, 7500A, 8000A, 10000A, 12000A, 20000A, 25000A, 30000A

*1 For 1P3W, the voltage is fixed at 110V.

5-6

5.2.10. EMU-HM1-C

Setting item Setting range Phase wire method 1P2W, 1P3W, 3P3W Voltage rating 110V, 220V, 440V Current rating 5A, 6A, 7.5A, 8A, 10A, 12A, 15A, 20A, 25A, 30A, 40A, 50A, 60A,

75A, 80A, 100A, 120A, 150A, 200A, 250A, 300A, 400A, 500A, 600A, 750A, 800A, 1000A, 1200A, 1500A, 1600A, 2000A, 2500A, 3000A, 4000A, 5000A, 6000A, 7500A, 8000A, 10000A, 12000A, 20000A, 25000A, 30000A

*1 For 1P3W, the voltage is fixed at 110V. 5.2.11. EMU2-RD3-CEMU2-RD5-CEMU2-RD7-C

Setting item Setting range Phase wire method 1P2W1P3W3P3W Line-to-line voltage rating*1, *2 110V220V440V690V1100V2200V3300V6600V

11000V 13200V 13800V 15000V 16500V 22000V

24000V33000V66000V77000V110000V Current rating*2 5A6A7.5A8A10A12A15A20A25A30A40A50A

60A75A80A100A120A150A200A250A300A400A 500A600A750A800A1000A1200A1500A1600A

2000A2500A3000A4000A5000A6000A7500A8000A 10000A12000A20000A25000A30000A

*1 For 1P3W, the voltage is fixed at 110V. *2 The range of Line-to-line voltage rating Current rating > 88,665 (kW) cannot be set.

5.2.12. EMU2-RD2-C-4WEMU2-RD4-C-4W

5.2.13. EMU3-DP1-C

*1 For 1P3W, the voltage is fixed at 110V. 5.2.14. MDU(WS)

Setting item Setting range Phase wire method 3P4W Line-to-line voltage rating 63.5/110V, 110/190V, 120/208V, 220/380V, 240/415V,

254/440V Current rating 5A, 6A, 7.5A, 8A, 10A, 12A, 15A, 20A, 25A, 30A, 40A, 50A,

60A, 75A, 80A, 100A, 120A, 150A, 200A, 250A, 300A, 400A, 500A, 600A, 750A, 800A, 1000A, 1200A, 1500A, 1600A, 2000A, 2500A, 3000A, 4000A, 5000A, 6000A, 7500A, 8000A, 10000A, 12000A, 20000A, 25000A, 30000A

Setting item Setting range Phase wire method 1P2W, 1P3W, 3P3W Line-to-line voltage rating*1 110V, 220V, 440V Current rating 60A, 125A

Setting item Setting range Ampere frame 225AF or lower, 400AF or higher

5-7

5.2.15. MDU(WS-V)

5.2.16. AE-SW(BIF-CC)

5.2.17. ME96NSR

5.2.18. ME96SSHB-MB

5.2.19. ME96SSRB-MB

Setting item Setting range Ampere frame 250AF or lower, 400AF or higher

Setting item Setting range CT rating Lower than 500A, 500A or higher and lower than 1000A,

1000A or higher

Setting item Setting range Phase wire method 3P3W, 3P4W Rated voltage 60V - 750000V Rated current 5A - 30000A

Setting item Setting range Phase wire method 1P2W, 1P3W, 3P3W, 3P4W Rated voltage 1P2W3P3W3P4W

60 - 750000V 1P3W 110/220V220/440V

Rated current 1.0A - 30000A

Setting item Setting range Phase wire method 1P2W, 1P3W, 3P3W, 3P4W Rated voltage 1P2W3P3W3P4W

60 - 750000V 1P3W 110/220V220/440V

Rated current 1.0A - 30000A

5-8

5.2.20. ME96SSHA-MB

5.2.21. ME96SSRA-MB

5.2.22. ME96SSH-MB

5.2.23. ME96SSR-MB

Setting item Setting range Phase wire method 1P2W, 1P3W, 3P3W, 3P4W Rated voltage 11P2W3P3W3P4W

60 - 750000V 1P3W 110/220V220/440V

Rated current 1.0A - 30000A

Setting item Setting range Phase wire method 1P2W, 1P3W, 3P3W, 3P4W Rated voltage 1P2W3P3W3P4W

60 - 750000V 1P3W 110/220V220/440V

Rated current 1.0A - 30000A

Setting item Setting range Phase wire method 1P2W, 1P3W, 3P3W, 3P4W Rated voltage 1P2W3P3W3P4W

60 - 750000V 1P3W 110V220V

Rated current 1.0A - 30000A

Setting item Setting range Phase wire method 1P2W, 1P3W, 3P3W, 3P4W Rated voltage 1P2W3P3W3P4W

60 - 750000V 1P3W 110V220V

Rated current 1.0A - 30000A

5-9

5.2.24. ME110SSR-C(H)

*1 The range of Line-to-line voltage rating / 110 Current rating / 5 122,500 cannot be set. *2 Please change the setting of data resolution to type2.

Setting item Setting range Phase wire method 1P2W, 1P3W, 3P3W, 3P4W Line-to-line voltage rating*1 1P2W, 3P3W:

110V, 220V, 440V, 690V, 1,100V, 2,200V, 3,300V, 6,600V, 11,000V, 13,200V, 13,800V, 15,000V, 16,500V, 22,000V, 24,000V, 33,000V, 66,000V, 77,000V, 110,000V, 132,000V, 154,000V, 187,000V, 220,000V, 275,000V, 380,000V, 500,000V, 550,000V 1P3W: 220V 3P4W: 63.5/110V, 110/190V, 120/208V, 220/380V, 240/415V, 254/440V

Current rating*2 5A, 6A, 7.5A, 8A, 10A, 12A, 15A, 20A, 25A, 30A, 40A, 50A, 60A, 75A, 80A, 100A, 120A, 150A, 200A, 250A, 300A, 400A, 500A, 600A, 750A, 800A, 1000A, 1200A, 1500A, 1600A, 2000A, 2500A, 3000A, 4000A, 5000A, 6000A, 7500A, 8000A, 10000A

5-10

5.2.25. ME110NSR-C

*1 The range of Line-to-line voltage rating / 110 Current rating / 5 122,500 cannot be set.

5.2.26. AJ65BT-68TD

Setting item Setting range Phase wire method 1P2W, 1P3W, 3P3W, 3P4W Line-to-line voltage rating*1 1P2W, 3P3W:

110V, 220V, 440V, 690V, 1100V, 2200V, 3300V, 6600V, 11000V, 13200V, 13800V, 15000V, 16500V, 22000V, 24000V, 33000V, 66000V, 77000V, 110000V, 132000V, 154000V, 187000V, 220000V, 275000V, 380000V, 500000V, 550000V 1P3W: 220V 3P4W: 63.5/110V, 110/190V, 120/208V, 220/380V, 240/415V, 254/440V

Current rating*1 5A, 6A, 7.5A, 8A, 10A, 12A, 15A, 20A, 25A, 30A, 40A, 50A, 60A, 75A, 80A, 100A, 120A, 150A, 200A, 250A, 300A, 400A, 500A, 600A, 750A, 800A, 1000A, 1200A, 1500A, 1600A, 2000A, 2500A, 3000A, 4000A, 5000A, 6000A, 7500A, 8000A, 10000A

Setting item Setting range Compensate the cold junction with resistance temperature sensor Pt 100?

Yes (Checked) No (Unchecked)

5-11

5.3. List of measured items (CC-Link terminal)

The following describes the measured items of the CC-Link terminals supported by EcoWebServerIII.

5.3.1. EMU4-BD1-MB Measured items Unit

Electric_energy(Consumption) kWh Electric_energy(Regeneration) kWh Electric_energy(Consumption)extended kWh Electric_energy(Regeneration)extended kWh Reactive_energy(Consumption_lag) kvarh Reactive_energy(Consumption_lag)extended kvarh Current_phase1 A Current_phase2 A Current_phase3 A Current_Average A Voltage_phase12 V Voltage_phase23 V Voltage_phase31 V Voltage_Average_line_voltage V Electric_power kW Reactive_power kvar Power_factor % Frequency Hz Current_demand_phase1 A Current_demand_phase2 A Current_demand_phase3 A Electric_power_demand kW Operating_time H

*1 The measured items differ with the phase wire method. For details, refer to the instruction manual or specification sheet of the terminal.

*2 Expanded version of power amount and reactive power amount can be displayed up to 3 digit digits (maximum 5 digits after the decimal point) from the amount of power and reactive power. The monthly graph (daily amount) and annual graph (monthly amount) may not be displayed correctly because of the small number of significant digits. Please refer to the instruction manual or specifications of the terminal for details on the number of significant digits of electric energy.

5-12

5.3.2. EMU4-HD1-MB

Measured items Unit Measured items Unit Electric_energy(Consumption) kWh HA_D.ratio_phase1_total % Electric_energy(Regeneration) kWh HA_D.ratio_phase2_total % Electric_energy(Consumption)extended kWh HA_D.ratio_phase3_total % Electric_energy(Regeneration)extended kWh HA_D.ratio_phaseN_total % Reactive_energy(Consumption_lag) kvarh HV_RMS_phase12_total V Reactive_energy(Consumption_lag)extended kvarh HV_RMS_phase12_1st V Current_phase1 A HV_RMS_phase12_3rd V Current_phase2 A HV_RMS_phase12_5th V Current_phase3 A HV_RMS_phase12_7th V Current_phaseN A HV_RMS_phase12_9th V Current_Average A HV_RMS_phase12_11th V Voltage_phase12 V HV_RMS_phase12_13th V Voltage_phase23 V HV_RMS_phase23_total V Voltage_phase31 V HV_RMS_phase23_1st V Voltage_Average_line_voltage V HV_RMS_phase23_3rd V Voltage_phase1N V HV_RMS_phase23_5th V Voltage_phase2N V HV_RMS_phase23_7th V Voltage_phase3N V HV_RMS_phase23_9th V Electric_power kW HV_RMS_phase23_11th V Reactive_power kvar HV_RMS_phase23_13th V Power_factor % HV_RMS_phase1N_total V Frequency Hz HV_RMS_phase1N_1st V Current_demand_phase1 A HV_RMS_phase2N_total V Current_demand_phase2 A HV_RMS_phase2N_1st V Current_demand_phase3 A HV_RMS_phase3N_total V Current_demand_phaseN A HV_RMS_phase3N_1st V Electric_power_demand kW HV_D.ratio_phase12_total % Periodic_electric_energy kWh HV_D.ratio_phase12_3rd % Operating_time H HV_D.ratio_phase12_5th % Pulse_count *2 HV_D.ratio_phase12_7th % HA_RMS_phase1_total A HV_D.ratio_phase12_9th % HA_RMS_phase1_1st A HV_D.ratio_phase12_11th % HA_RMS_phase1_3rd A HV_D.ratio_phase12_13th % HA_RMS_phase1_5th A HV_D.ratio_phase23_total % HA_RMS_phase1_7th A HV_D.ratio_phase23_3rd % HA_RMS_phase1_9th A HV_D.ratio_phase23_5th % HA_RMS_phase1_11th A HV_D.ratio_phase23_7th % HA_RMS_phase1_13th A HV_D.ratio_phase23_9th % HA_RMS_phase2_total A HV_D.ratio_phase23_11th % HA_RMS_phase2_1st A HV_D.ratio_phase23_13th % HA_RMS_phase2_3rd A HV_D.ratio_phase1N_total % HA_RMS_phase2_5th A HV_D.ratio_phase1N_3rd % HA_RMS_phase2_7th A HV_D.ratio_phase1N_5th % HA_RMS_phase2_9th A HV_D.ratio_phase1N_7th % HA_RMS_phase2_11th A HV_D.ratio_phase1N_9th % HA_RMS_phase2_13th A HV_D.ratio_phase1N_11th % HA_RMS_phase3_total A HV_D.ratio_phase1N_13th % HA_RMS_phase3_1st A HV_D.ratio_phase2N_total % HA_RMS_phase3_3rd A HV_D.ratio_phase2N_3rd % HA_RMS_phase3_5th A HV_D.ratio_phase2N_5th % HA_RMS_phase3_7th A HV_D.ratio_phase2N_7th % HA_RMS_phase3_9th A HV_D.ratio_phase2N_9th % HA_RMS_phase3_11th A HV_D.ratio_phase2N_11th % HA_RMS_phase3_13th A HV_D.ratio_phase2N_13th % HA_RMS_phaseN_total A HV_D.ratio_phase3N_total % HA_RMS_phaseN_1st A HV_D.ratio_phase3N_3rd % HA_RMS_phaseN_3rd A HV_D.ratio_phase3N_5th % HA_RMS_phaseN_5th A HV_D.ratio_phase3N_7th % HA_RMS_phaseN_7th A HV_D.ratio_phase3N_9th % HA_RMS_phaseN_9th A HV_D.ratio_phase3N_11th % HA_RMS_phaseN_11th A HV_D.ratio_phase3N_13th % HA_RMS_phaseN_13th A

5-13

*1 The measured items differ with the phase wire method. For details, refer to the instruction manual or specification sheet of the terminal.

*2 Unit can be set for any character up to 8 words. *3 Expanded version of power amount and reactive power amount can be displayed up to 3 digit

digits (maximum 5 digits after the decimal point) from the amount of power and reactive power. The monthly graph (daily amount) and annual graph (monthly amount) may not be displayed correctly because of the small number of significant digits. Please refer to the instruction manual or specifications of the terminal for details on the number of significant digits of electric energy.

5-14

5.3.3. EMU4-FD1-MB

Measured items Unit Measured items Unit Electric_energy(Consumption) kWh HA_RMS_phaseN_7th A Electric_energy(Regeneration) kWh HA_RMS_phaseN_9th A Electric_energy(Consumption)extended kWh HA_RMS_phaseN_11th A Electric_energy(Regeneration)extended kWh HA_RMS_phaseN_13th A Reactive_energy(Consumption_lag) kvarh HA_RMS_phaseN_15th A Reactive_energy(Consumption_lag) extended kvarh Electric_energy(Consumption) kWh

Current_phase1 A HA_D.ratio_phase1_total % Current_phase2 A HA_D.ratio_phase1_3rd % Current_phase3 A HA_D.ratio_phase1_5th % Current_phaseN A HA_D.ratio_phase1_7th % Current_Average A HA_D.ratio_phase1_9th % Voltage_phase12 V HA_D.ratio_phase1_11th % Voltage_phase23 V HA_D.ratio_phase1_13th % Voltage_phase31 V HA_D.ratio_phase1_15th % Voltage_Average_line_voltage V HA_D.ratio_phase2_total % Voltage_phase1N V HA_D.ratio_phase2_3rd % Voltage_phase2N V HA_D.ratio_phase2_5th % Voltage_phase3N V HA_D.ratio_phase2_7th % Electric_power kW HA_D.ratio_phase2_9th % Reactive_power kvar HA_D.ratio_phase2_11th % Power_factor % HA_D.ratio_phase2_13th % Frequency Hz HA_D.ratio_phase2_15th % Current_demand_phase1 A HA_D.ratio_phase3_total % Current_demand_phase2 A HA_D.ratio_phase3_3rd % Current_demand_phase3 A HA_D.ratio_phase3_5th % Current_demand_phaseN A HA_D.ratio_phase3_7th % Electric_power_demand kW HA_D.ratio_phase3_9th % Periodic_electric_energy kWh HA_D.ratio_phase3_11th % Operating_time h HA_D.ratio_phase3_13th % Pulse_count *2 HA_D.ratio_phase3_15th % HA_RMS_phase1_total A HA_D.ratio_phaseN_total % HA_RMS_phase1_1st A HA_D.ratio_phaseN_3rd % HA_RMS_phase1_3rd A HA_D.ratio_phaseN_5th % HA_RMS_phase1_5th A HA_D.ratio_phaseN_7th % HA_RMS_phase1_7th A HA_D.ratio_phaseN_9th % HA_RMS_phase1_9th A HA_D.ratio_phaseN_11th % HA_RMS_phase1_11th A HA_D.ratio_phaseN_13th % HA_RMS_phase1_13th A HA_D.ratio_phaseN_15th % HA_RMS_phase1_15th A HV_RMS_phase12_total V HA_RMS_phase2_total A HV_RMS_phase12_1st V HA_RMS_phase2_1st A HV_RMS_phase12_3rd V HA_RMS_phase2_3rd A HV_RMS_phase12_5th V HA_RMS_phase2_5th A HV_RMS_phase12_7th V HA_RMS_phase2_7th A HV_RMS_phase12_9th V HA_RMS_phase2_9th A HV_RMS_phase12_11th V HA_RMS_phase2_11th A HV_RMS_phase12_13th V HA_RMS_phase2_13th A HV_RMS_phase12_15th V HA_RMS_phase2_15th A HV_RMS_phase23_total V HA_RMS_phase3_total A HV_RMS_phase23_1st V HA_RMS_phase3_1st A HV_RMS_phase23_3rd V HA_RMS_phase3_3rd A HV_RMS_phase23_5th V HA_RMS_phase3_5th A HV_RMS_phase23_7th V HA_RMS_phase3_7th A HV_RMS_phase23_9th V HA_RMS_phase3_9th A HV_RMS_phase23_11th V HA_RMS_phase3_11th A HV_RMS_phase23_13th V HA_RMS_phase3_13th A HV_RMS_phase23_15th V HA_RMS_phase3_15th A HV_RMS_phase1N_total V HA_RMS_phaseN_total A HV_RMS_phase1N_1st V HA_RMS_phaseN_1st A HV_RMS_phase1N_3rd V HA_RMS_phaseN_3rd A HV_RMS_phase1N_5th V HA_RMS_phaseN_5th A HA_D.ratio_phase1_total %

5-15

Measured items Unit Measured items Unit HV_RMS_phase1N_7th V HV_D.ratio_phase23_3rd % HV_RMS_phase1N_9th V HV_D.ratio_phase23_5th % HV_RMS_phase1N_11th V HV_D.ratio_phase23_7th % HV_RMS_phase1N_13th V HV_D.ratio_phase23_9th % HV_RMS_phase1N_15th V HV_D.ratio_phase23_11th % HV_RMS_phase2N_total V HV_D.ratio_phase23_13th % HV_RMS_phase2N_1st V HV_D.ratio_phase23_15th % HV_RMS_phase2N_3rd V HV_D.ratio_phase1N_total % HV_RMS_phase2N_5th V HV_D.ratio_phase1N_3rd % HV_RMS_phase2N_7th V HV_D.ratio_phase1N_5th % HV_RMS_phase2N_9th V HV_D.ratio_phase1N_7th % HV_RMS_phase2N_11th V HV_D.ratio_phase1N_9th % HV_RMS_phase2N_13th V HV_D.ratio_phase1N_11th % HV_RMS_phase2N_15th V HV_D.ratio_phase1N_13th % HV_RMS_phase3N_total V HV_D.ratio_phase1N_15th % HV_RMS_phase3N_1st V HV_D.ratio_phase2N_total % HV_RMS_phase3N_3rd V HV_D.ratio_phase2N_3rd % HV_RMS_phase3N_5th V HV_D.ratio_phase2N_5th % HV_RMS_phase3N_7th V HV_D.ratio_phase2N_7th % HV_RMS_phase3N_9th V HV_D.ratio_phase2N_9th % HV_RMS_phase3N_11th V HV_D.ratio_phase2N_11th % HV_RMS_phase3N_13th V HV_D.ratio_phase2N_13th % HV_RMS_phase3N_15th V HV_D.ratio_phase2N_15th % HV_D.ratio_phase12_total % HV_D.ratio_phase3N_total % HV_D.ratio_phase12_3rd % HV_D.ratio_phase3N_3rd % HV_D.ratio_phase12_5th % HV_D.ratio_phase3N_5th % HV_D.ratio_phase12_7th % HV_D.ratio_phase3N_7th % HV_D.ratio_phase12_9th % HV_D.ratio_phase3N_9th % HV_D.ratio_phase12_11th % HV_D.ratio_phase3N_11th % HV_D.ratio_phase12_13th % HV_D.ratio_phase3N_13th % HV_D.ratio_phase12_15th % HV_D.ratio_phase3N_15th % HV_D.ratio_phase23_total % *1 The measured items differ with the phase wire method.

For details, refer to the instruction manual or specification sheet of the terminal. *2 Unit can be set for any character up to 8 words. *3 Expanded version of power amount and reactive power amount can be displayed up to 3 digit

digits (maximum 5 digits after the decimal point) from the amount of power and reactive power. The monthly graph (daily amount) and annual graph (monthly amount) may not be displayed correctly because of the small number of significant digits. Please refer to the instruction manual or specifications of the terminal for details on the number of significant digits of electric energy.

5-16

5.3.4. EMU4-BM1-MB

Measured items Unit ElectricenergyImport kWh Electric_energy(Export) kWh Electric_energy(Import)(1P2W_3) kWh Electric_energy(Export)(1P2W_3) kWh Electric_energy(Import)extended kWh Electric_energy(Export)extended kWh Electric_energy(Import)extended(1P2W_3) kWh Electric_energy(Export)extended(1P2W_3) kWh Reactive_energy(Import_lag) kvarh Reactive_energy(Import_lag)extended kvarh Current_phase1 A Current_phase2 A Current_phase3 A Current_phase3(1P2W_3) A Current_Average A Voltage_phase12L V Voltage_phase23L V Voltage_phase31L V Voltage_Average_line_voltage V Electric_power kW Electric_power(1P2W_3) kW Reactive_power kvar Reactive_power(1P2W_3) kvar Power_factor % Power_factor(1P2W_1) % Power_factor(1P2W_3) % Frequency Hz Current_demand_phase1 A Current_demand_phase2 A Current_demand_phase3 A Current_demand_phase3(1P2W_3) A Electric_power_demand kW Electric_power_demand(1P2W_3) kW Operating_time H Operating_time(1P2W_3) H

*1 The measured items differ with the phase wire method.

For details, refer to the instruction manual or specification sheet of the terminal. *2 Expanded version of power amount and reactive power amount can be displayed up to 3 digit

digits (maximum 5 digits after the decimal point) from the amount of power and reactive power. The monthly graph (daily amount) and annual graph (monthly amount) may not be displayed correctly because of the small number of significant digits. Please refer to the instruction manual or specifications of the terminal for details on the number of significant digits of electric energy.

5-17

5.3.5. EMU4-HM1-MB

Measured items Unit Measured items Unit Electric_energy(Import) kWh HA_RMS_phase3_3rd(1P2W_3) A Electric_energy(Export) kWh HA_RMS_phase3_5th(1P2W_3) A Electric_energy(Import)(1P2W_3) kWh HA_RMS_phase3_7th(1P2W_3) A Electric_energy(Export)(1P2W_3) kWh HA_RMS_phase3_9th(1P2W_3) A Electric_energy(Import)extended kWh HA_RMS_phase3_11th(1P2W_3) A Electric_energy(Export)extended kWh HA_RMS_phase3_13th(1P2W_3) A Electric_energy(Import)extended(1P2W_3) kWh HA_RMS_phaseN_total A Electric_energy(Export)extended(1P2W_3) kWh HA_RMS_phaseN_1st A Reactive_energy(Import_lag) kvarh HA_RMS_phaseN_3rd A Reactive_energy(Import_lag)extended kvarh HA_RMS_phaseN_5th A Current_phase1 A HA_RMS_phaseN_7th A Current_phase2 A HA_RMS_phaseN_9th A Current_phase3 A HA_RMS_phaseN_11th A Current_phase3(1P2W_3) A HA_RMS_phaseN_13th A Current_phaseN A HA_D.ratio_phase1_total % Current_Average A HA_D.ratio_phase2_total % Voltage_phase12L V HA_D.ratio_phase3_total % Voltage_phase23L V HA_D.ratio_phaseN_total % Voltage_phase31L V HV_RMS_phase12L_total V Voltage_Average_line_voltage V HV_RMS_phase12L_1st V Voltage_phase1N V HV_RMS_phase12L_3rd V Voltage_phase2N V HV_RMS_phase12L_5th V Voltage_phase3N V HV_RMS_phase12L_7th V Electric_power kW HV_RMS_phase12L_9th V Electric_power(1P2W_3) kW HV_RMS_phase12L_11th V Reactive_power kvar HV_RMS_phase12L_13th V Reactive_power(1P2W_3) kvar HV_RMS_phase23L_total V Power_factor % HV_RMS_phase23L_1st V Power_factor(1P2W_1) % HV_RMS_phase23L_3rd V Power_factor(1P2W_3) % HV_RMS_phase23L_5th V Frequency Hz HV_RMS_phase23L_7th V Current_demand_phase1 A HV_RMS_phase23L_9th V Current_demand_phase2 A HV_RMS_phase23L_11th V Current_demand_phase3 A HV_RMS_phase23L_13th V Current_demand_phase3(1P2W_3) A HV_RMS_phase1N_total V Current_demand_phaseN A HV_RMS_phase1N_1st V Electric_power_demand kW HV_RMS_phase2N_total V Electric_power_demand(1P2W_3) kW HV_RMS_phase2N_1st V Periodic_electric_energy kWh HV_RMS_phase3N_total V Periodic_electric_energy(1P2W_3) kWh HV_RMS_phase3N_1st V Operating_time h HV_D.ratio_phase12L_total % Operating_time(1P2W_3) h HV_D.ratio_phase12L_3rd % Pulse_count *2 HV_D.ratio_phase12L_5th % HA_RMS_phase1_total A HV_D.ratio_phase12L_7th % HA_RMS_phase1_1st A HV_D.ratio_phase12L_9th % HA_RMS_phase1_3rd A HV_D.ratio_phase12L_11th % HA_RMS_phase1_5th A HV_D.ratio_phase12L_13th % HA_RMS_phase1_7th A HV_D.ratio_phase23L_total % HA_RMS_phase1_9th A HV_D.ratio_phase23L_3rd % HA_RMS_phase1_11th A HV_D.ratio_phase23L_5th % HA_RMS_phase1_13th A HV_D.ratio_phase23L_7th % HA_RMS_phase2_total A HV_D.ratio_phase23L_9th % HA_RMS_phase2_1st A HV_D.ratio_phase23L_11th % HA_RMS_phase2_3rd A HV_D.ratio_phase23L_13th % HA_RMS_phase2_5th A HV_D.ratio_phase1N_total % HA_RMS_phase2_7th A HV_D.ratio_phase1N_3rd % HA_RMS_phase2_9th A HV_D.ratio_phase1N_5th % HA_RMS_phase2_11th A HV_D.ratio_phase1N_7th % HA_RMS_phase2_13th A HV_D.ratio_phase1N_9th % HA_RMS_phase3_total A HV_D.ratio_phase1N_11th % HA_RMS_phase3_1st A HV_D.ratio_phase1N_13th % HA_RMS_phase3_3rd A HV_D.ratio_phase2N_total % HA_RMS_phase3_5th A HV_D.ratio_phase2N_3rd % HA_RMS_phase3_7th A HV_D.ratio_phase2N_5th % HA_RMS_phase3_9th A HV_D.ratio_phase2N_7th % HA_RMS_phase3_11th A HV_D.ratio_phase2N_9th % HA_RMS_phase3_13th A HV_D.ratio_phase2N_11th % HA_RMS_phase3_total A HV_D.ratio_phase2N_13th % HA_RMS_phase3_1st(1P2W_3) A HV_D.ratio_phase3N_total %

5-18

Measured items Unit

HV_D.ratio_phase3N_3rd % HV_D.ratio_phase3N_5th % HV_D.ratio_phase3N_7th % HV_D.ratio_phase3N_9th % HV_D.ratio_phase3N_11th % HV_D.ratio_phase3N_13th % *1 The measured items differ with the phase wire method.

For details, refer to the instruction manual or specification sheet of the terminal. *2 Unit can be set for any character up to 8 words. *3 Expanded version of power amount and reactive power amount can be displayed up to 3 digit

digits (maximum 5 digits after the decimal point) from the amount of power and reactive power. The monthly graph (daily amount) and annual graph (monthly amount) may not be displayed correctly because of the small number of significant digits. Please refer to the instruction manual or specifications of the terminal for details on the number of significant digits of electric energy.

5.3.6. EMU4-LG1-MB

Measured items Unit Leak_current(Io) mA Leak_demand_current mA Leak_current_for_resistance(Ior) mA Leak_demand_current_for_resistance mA Leak_current_for_resistance_converted mA Io_alarm(step1)_occurrence_count count Io_alarm(step2)_occurrence_count count Ior_alarm(step1)_occurrence_count count Ior_alarm(step2)_occurrence_count count

5-19

5.3.7. EMU4-A2

Measured items Unit Measured items Unit Electric_energy(Import) kWh HA_RMS_phase3_9th(1P2W_3) A Electric_energy(Export) kWh HA_RMS_phase3_11th(1P2W_3) A Electric_energy(Import)(1P2W_3) kWh HA_RMS_phase3_13th(1P2W_3) A Electric_energy(Export)(1P2W_3) kWh HA_RMS_phaseN_total A Electric_energy(Import)extended kWh HA_RMS_phaseN_1st A Electric_energy(Export)extended kWh HA_RMS_phaseN_3rd A Electric_energy(Import)extended(1P2W_3) kWh HA_RMS_phaseN_5th A Electric_energy(Export)extended(1P2W_3) kWh HA_RMS_phaseN_7th A Reactive_energy(Import_lag) kvarh HA_RMS_phaseN_9th A Reactive_energy(Import_lag)extended kvarh HA_RMS_phaseN_11th A Current_phase1 A HA_RMS_phaseN_13th A Current_phase2 A HA_D.ratio_phase1_total % Current_phase3 A HA_D.ratio_phase2_total % Current_phase3(1P2W_3) A HA_D.ratio_phase3_total % Current_phaseN A HA_D.ratio_phaseN_total % Current_Average A HV_RMS_phase12L_total V Voltage_phase12L V HV_RMS_phase12L_1st V Voltage_phase23L V HV_RMS_phase12L_3rd V Voltage_phase31L V HV_RMS_phase12L_5th V Voltage_Average_line_voltage V HV_RMS_phase12L_7th V Voltage_phase1N V HV_RMS_phase12L_9th V Voltage_phase2N V HV_RMS_phase12L_11th V Voltage_phase3N V HV_RMS_phase12L_13th V Electric_power kW HV_RMS_phase23L_total V Electric_power(1P2W_3) kW HV_RMS_phase23L_1st V Reactive_power kvar HV_RMS_phase23L_3rd V Reactive_power(1P2W_3) kvar HV_RMS_phase23L_5th V Power_factor % HV_RMS_phase23L_7th V Power_factor(1P2W_1) % HV_RMS_phase23L_9th V Power_factor(1P2W_3) % HV_RMS_phase23L_11th V Frequency Hz HV_RMS_phase23L_13th V Current_demand_phase1 A HV_RMS_phase1N_total V Current_demand_phase2 A HV_RMS_phase1N_1st V Current_demand_phase3 A HV_RMS_phase2N_total V Current_demand_phase3(1P2W_3) A HV_RMS_phase2N_1st V Current_demand_phaseN A HV_RMS_phase3N_total V Electric_power_demand kW HV_RMS_phase3N_1st V Electric_power_demand(1P2W_3) kW HV_D.ratio_phase12L_total % Operating_time h HV_D.ratio_phase12L_3rd % Operating_time(1P2W_3) h HV_D.ratio_phase12L_5th % HA_RMS_phase1_total A HV_D.ratio_phase12L_7th % HA_RMS_phase1_1st A HV_D.ratio_phase12L_9th % HA_RMS_phase1_3rd A HV_D.ratio_phase12L_11th % HA_RMS_phase1_5th A HV_D.ratio_phase12L_13th % HA_RMS_phase1_7th A HV_D.ratio_phase23L_total % HA_RMS_phase1_9th A HV_D.ratio_phase23L_3rd % HA_RMS_phase1_11th A HV_D.ratio_phase23L_5th % HA_RMS_phase1_13th A HV_D.ratio_phase23L_7th % HA_RMS_phase2_total A HV_D.ratio_phase23L_9th % HA_RMS_phase2_1st A HV_D.ratio_phase23L_11th % HA_RMS_phase2_3rd A HV_D.ratio_phase23L_13th % HA_RMS_phase2_5th A HV_D.ratio_phase1N_total % HA_RMS_phase2_7th A HV_D.ratio_phase1N_3rd % HA_RMS_phase2_9th A HV_D.ratio_phase1N_5th % HA_RMS_phase2_11th A HV_D.ratio_phase1N_7th % HA_RMS_phase2_13th A HV_D.ratio_phase1N_9th % HA_RMS_phase3_total A HV_D.ratio_phase1N_11th % HA_RMS_phase3_1st A HV_D.ratio_phase1N_13th % HA_RMS_phase3_3rd A HV_D.ratio_phase2N_total % HA_RMS_phase3_5th A HV_D.ratio_phase2N_3rd % HA_RMS_phase3_7th A HV_D.ratio_phase2N_5th % HA_RMS_phase3_9th A HV_D.ratio_phase2N_7th % HA_RMS_phase3_11th A HV_D.ratio_phase2N_9th % HA_RMS_phase3_13th A HV_D.ratio_phase2N_11th % HA_RMS_phase3_total A HV_D.ratio_phase2N_13th % HA_RMS_phase3_1st(1P2W_3) A HV_D.ratio_phase3N_total % HA_RMS_phase3_3rd(1P2W_3) A HV_D.ratio_phase3N_3rd % HA_RMS_phase3_5th(1P2W_3) A HV_D.ratio_phase3N_5th % HA_RMS_phase3_7th(1P2W_3) A HV_D.ratio_phase3N_7th %

5-20

Measured items Unit

HV_D.ratio_phase3N_9th % HV_D.ratio_phase3N_11th % HV_D.ratio_phase3N_13th %

*1 The measured items differ with the phase wire method.

For details, refer to the instruction manual or specification sheet of the terminal. *2 Expanded version of power amount and reactive power amount can be displayed up to 3 digit

digits (maximum 5 digits after the decimal point) from the amount of power and reactive power. The monthly graph (daily amount) and annual graph (monthly amount) may not be displayed correctly because of the small number of significant digits. Please refer to the instruction manual or specifications of the terminal for details on the number of significant digits of electric energy.

5-21

5.3.8. EMU4-VA2

Measured items Unit Measured items Unit Electric_energy(Import) kWh HA_RMS_phase3_9th(1P2W_3) A Electric_energy(Export) kWh HA_RMS_phase3_11th(1P2W_3) A Electric_energy(Import)(1P2W_3) kWh HA_RMS_phase3_13th(1P2W_3) A Electric_energy(Export)(1P2W_3) kWh HA_RMS_phaseN_total A Electric_energy(Import)extended kWh HA_RMS_phaseN_1st A Electric_energy(Export)extended kWh HA_RMS_phaseN_3rd A Electric_energy(Import)extended(1P2W_3) kWh HA_RMS_phaseN_5th A Electric_energy(Export)extended(1P2W_3) kWh HA_RMS_phaseN_7th A Reactive_energy(Import_lag) kvarh HA_RMS_phaseN_9th A Reactive_energy(Import_lag)extended kvarh HA_RMS_phaseN_11th A Current_phase1 A HA_RMS_phaseN_13th A Current_phase2 A HA_D.ratio_phase1_total % Current_phase3 A HA_D.ratio_phase2_total % Current_phase3(1P2W_3) A HA_D.ratio_phase3_total % Current_phaseN A HA_D.ratio_phaseN_total % Current_Average A HV_RMS_phase12L_total V Voltage_phase12L V HV_RMS_phase12L_1st V Voltage_phase23L V HV_RMS_phase12L_3rd V Voltage_phase31L V HV_RMS_phase12L_5th V Voltage_Average_line_voltage V HV_RMS_phase12L_7th V Voltage_phase1N V HV_RMS_phase12L_9th V Voltage_phase2N V HV_RMS_phase12L_11th V Voltage_phase3N V HV_RMS_phase12L_13th V Electric_power kW HV_RMS_phase23L_total V Electric_power(1P2W_3) kW HV_RMS_phase23L_1st V Reactive_power kvar HV_RMS_phase23L_3rd V Reactive_power(1P2W_3) kvar HV_RMS_phase23L_5th V Power_factor % HV_RMS_phase23L_7th V Power_factor(1P2W_1) % HV_RMS_phase23L_9th V Power_factor(1P2W_3) % HV_RMS_phase23L_11th V Frequency Hz HV_RMS_phase23L_13th V Current_demand_phase1 A HV_RMS_phase1N_total V Current_demand_phase2 A HV_RMS_phase1N_1st V Current_demand_phase3 A HV_RMS_phase2N_total V Current_demand_phase3(1P2W_3) A HV_RMS_phase2N_1st V Current_demand_phaseN A HV_RMS_phase3N_total V Electric_power_demand kW HV_RMS_phase3N_1st V Electric_power_demand(1P2W_3) kW HV_D.ratio_phase12L_total % Operating_time h HV_D.ratio_phase12L_3rd % Operating_time(1P2W_3) h HV_D.ratio_phase12L_5th % HA_RMS_phase1_total A HV_D.ratio_phase12L_7th % HA_RMS_phase1_1st A HV_D.ratio_phase12L_9th % HA_RMS_phase1_3rd A HV_D.ratio_phase12L_11th % HA_RMS_phase1_5th A HV_D.ratio_phase12L_13th % HA_RMS_phase1_7th A HV_D.ratio_phase23L_total % HA_RMS_phase1_9th A HV_D.ratio_phase23L_3rd % HA_RMS_phase1_11th A HV_D.ratio_phase23L_5th % HA_RMS_phase1_13th A HV_D.ratio_phase23L_7th % HA_RMS_phase2_total A HV_D.ratio_phase23L_9th % HA_RMS_phase2_1st A HV_D.ratio_phase23L_11th % HA_RMS_phase2_3rd A HV_D.ratio_phase23L_13th % HA_RMS_phase2_5th A HV_D.ratio_phase1N_total % HA_RMS_phase2_7th A HV_D.ratio_phase1N_3rd % HA_RMS_phase2_9th A HV_D.ratio_phase1N_5th % HA_RMS_phase2_11th A HV_D.ratio_phase1N_7th % HA_RMS_phase2_13th A HV_D.ratio_phase1N_9th % HA_RMS_phase3_total A HV_D.ratio_phase1N_11th % HA_RMS_phase3_1st A HV_D.ratio_phase1N_13th % HA_RMS_phase3_3rd A HV_D.ratio_phase2N_total % HA_RMS_phase3_5th A HV_D.ratio_phase2N_3rd % HA_RMS_phase3_7th A HV_D.ratio_phase2N_5th % HA_RMS_phase3_9th A HV_D.ratio_phase2N_7th % HA_RMS_phase3_11th A HV_D.ratio_phase2N_9th % HA_RMS_phase3_13th A HV_D.ratio_phase2N_11th % HA_RMS_phase3_total A HV_D.ratio_phase2N_13th % HA_RMS_phase3_1st(1P2W_3) A HV_D.ratio_phase3N_total % HA_RMS_phase3_3rd(1P2W_3) A HV_D.ratio_phase3N_3rd % HA_RMS_phase3_5th(1P2W_3) A HV_D.ratio_phase3N_5th % HA_RMS_phase3_7th(1P2W_3) A HV_D.ratio_phase3N_7th %

5-22

Measured items Unit

HV_D.ratio_phase3N_9th % HV_D.ratio_phase3N_11th % HV_D.ratio_phase3N_13th %

*1 The measured items differ with the phase wire method. For details, refer to the instruction manual or specification sheet of the terminal.

*2 Expanded version of power amount and reactive power amount can be displayed up to 3 digit digits (maximum 5 digits after the decimal point) from the amount of power and reactive power. The monthly graph (daily amount) and annual graph (monthly amount) may not be displayed correctly because of the small number of significant digits. Please refer to the instruction manual or specifications of the terminal for details on the number of significant digits of electric energy.

5-23

5.3.9. EMU4-AX4

Measured items Unit Ch1 analog value *1 Ch2 analog value *1 Ch3 analog value *1 Ch4 analog value *1 Ch1 number of over limit level A count Ch1 number of over limit level B count Ch1 number of over limit level C count Ch1 number of over limit level D count Ch1 number of over limit level A count Ch1 number of over limit level B count Ch1 number of over limit level C count Ch1 number of over limit level D count Ch1 number of over limit level A count Ch1 number of over limit level B count Ch1 number of over limit level C count Ch1 number of over limit level D count Ch1 number of over limit level A count Ch1 number of over limit level B count Ch1 number of over limit level C count Ch1 number of over limit level D count

*1 Unit can be set for any character up to 8 words.

5.3.10. EMU4-PX4

Measured items Unit Ch1 pulse count value *1 Ch2 pulse count value *1 Ch3 pulse count value *1 Ch4 pulse count value *1 Ch1 digital input value *1 Ch2 digital input value *1 Ch3 digital input value *1 Ch4 digital input value *1 Ch1 operating time h Ch2 operating time h Ch3 operating time h Ch4 operating time h

*1 Unit can be set for any character up to 8 words.

5-24

5.3.11. EMU2-RD3-C, EMU2-RD5-C, EMU2-RD7-B Measured items Unit Measured items Unit

Active energy kWh HA; phase3 D.ratio 3rd % Reactive energy kvarh HA; phase3 D.ratio 5th % Current; phase1 A HA; phase3 D.ratio 7th % Current; phase2 A HA; phase3 D.ratio 9th % Current; phase3 A HA; phase3 D.ratio 11th % Current; average A HA; phase3 D.ratio 13th % Voltage; phase1-2 V HV; phase1-2 RMS total V Voltage; phase2-3 V HV; phase1-2 RMS 1st V Voltage; phase3-1 V HV; phase1-2 RMS 3rd V Voltage; L-N; average V HV; phase1-2 RMS 5th V Active power kW HV; phase1-2 RMS 7th V Reactive power kvar HV; phase1-2 RMS 9th V Power factor % HV; phase1-2 RMS 11th V Frequency Hz HV; phase1-2 RMS 13th V Current demand; phase1 A HV; phase2-3 RMS total V Current demand; phase2 A HV; phase2-3 RMS 1st V Current demand; phase3 A HV; phase2-3 RMS 3rd V Current demand; maximum phase A HV; phase2-3 RMS 5th V Electric power demand kW HV; phase2-3 RMS 7th V HA; phase1 RMS total A HV; phase2-3 RMS 9th V HA; phase1 RMS 1st A HV; phase2-3 RMS 11th V HA; phase1 RMS 3rd A HV; phase2-3 RMS 13th V HA; phase1 RMS 5th A HV; phase1-2 D.ratio total % HA; phase1 RMS 7th A HV; phase1-2 D.ratio 3rd % HA; phase1 RMS 9th A HV; phase1-2 D.ratio 5th % HA; phase1 RMS 11th A HV; phase1-2 D.ratio 7th % HA; phase1 RMS 13th A HV; phase1-2 D.ratio 9th % HA; phase3 RMS total A HV; phase1-2 D.ratio 11th % HA; phase3 RMS 1st A HV; phase1-2 D.ratio 13th % HA; phase3 RMS 3rd A HV; phase2-3 D.ratio total % HA; phase3 RMS 5th A HV; phase2-3 D.ratio 3rd % HA; phase3 RMS 7th A HV; phase2-3 D.ratio 5th % HA; phase3 RMS 9th A HV; phase2-3 D.ratio 7th % HA; phase3 RMS 11th A HV; phase2-3 D.ratio 9th % HA; phase3 RMS 13th A HV; phase2-3 D.ratio 11th % HA; phase1 D.ratio total % HV; phase2-3 D.ratio 13th % HA; phase1 D.ratio 3rd % Active energy (exp.) kWh HA; phase1 D.ratio 5th % HA; phase1 D.ratio 7th % HA; phase1 D.ratio 9th % HA; phase1 D.ratio 11th % HA; phase1 D.ratio 13th % HA; phase3 D.ratio total % *1 The measured items differ with the phase wire method.

For details, refer to the instruction manual or specification sheet of the terminal. *2 Expanded version of power amount and reactive power amount can be displayed up to 3 digit

digits (maximum 5 digits after the decimal point) from the amount of power and reactive power. Because the detailed electric energy has a small number of significant digits, the monthly graph (daily amount) and the yearly graph (monthly amount) may not be displayed correctly. For details on the significant digits of electric energy, refer to the instruction manual or specification sheet of the terminal.

5-25

5.3.12. EMU2-RD2-C-4W, EMU2-RD4-C-4W

Measured items Unit Measured items Unit Active energy kWh HA; phase2 D.ratio 11th % Reactive energy kvarh HA; phase2 D.ratio 13th % Current; phase1 A HA; phase3 D.ratio total % Current; phase2 A HA; phase3 D.ratio 3rd % Current; phase3 A HA; phase3 D.ratio 5th % Current; phaseN A HA; phase3 D.ratio 7th % Current; average A HA; phase3 D.ratio 9th % Voltage; phase1-2 V HA; phase3 D.ratio 11th % Voltage; phase2-3 V HA; phase3 D.ratio 13th % Voltage; phase3-1 V HV; phase1-N RMS total V Voltage; L-N; average V HV; phase1-N RMS 1st V Voltage; phase1-N V HV; phase1-N RMS 3rd V Voltage; phase2-N V HV; phase1-N RMS 5th V Voltage; phase3-N V HV; phase1-N RMS 7th V Active power kW HV; phase1-N RMS 9th V Reactive power kvar HV; phase1-N RMS 11th V Power factor % HV; phase1-N RMS 13th V Frequency Hz HV; phase2-N RMS total V Current demand; phase1 A HV; phase2-N RMS 1st V Current demand; phase2 A HV; phase2-N RMS 3rd V Current demand; phase3 A HV; phase2-N RMS 5th V Current demand; phaseN A HV; phase2-N RMS 7th V Current demand; maximum phase A HV; phase2-N RMS 9th V Electric power demand kW HV; phase2-N RMS 11th V HA; phase1 RMS total A HV; phase2-N RMS 13th V HA; phase1 RMS 1st A HV; phase3-N RMS total V HA; phase1 RMS 3rd A HV; phase3-N RMS 1st V HA; phase1 RMS 5th A HV; phase3-N RMS 3rd V HA; phase1 RMS 7th A HV; phase3-N RMS 5th V HA; phase1 RMS 9th A HV; phase3-N RMS 7th V HA; phase1 RMS 11th A HV; phase3-N RMS 9th V HA; phase1 RMS 13th A HV; phase3-N RMS 11th V HA; phase2 RMS total A HV; phase3-N RMS 13th V HA; phase2 RMS 1st A HV; phase1-N D.ratio total % HA; phase2 RMS 3rd A HV; phase1-N D.ratio 3rd % HA; phase2 RMS 5th A HV; phase1-N D.ratio 5th % HA; phase2 RMS 7th A HV; phase1-N D.ratio 7th % HA; phase2 RMS 9th A HV; phase1-N D.ratio 9th % HA; phase2 RMS 11th A HV; phase1-N D.ratio 11th % HA; phase2 RMS 13th A HV; phase1-N D.ratio 13th % HA; phase3 RMS total A HV; phase2-N D.ratio total % HA; phase3 RMS 1st A HV; phase2-N D.ratio 3rd % HA; phase3 RMS 3rd A HV; phase2-N D.ratio 5th % HA; phase3 RMS 5th A HV; phase2-N D.ratio 7th % HA; phase3 RMS 7th A HV; phase2-N D.ratio 9th % HA; phase3 RMS 9th A HV; phase2-N D.ratio 11th % HA; phase3 RMS 11th A HV; phase2-N D.ratio 13th % HA; phase3 RMS 13th A HV; phase3-N D.ratio total % HA; phase1 D.ratio total % HV; phase3-N D.ratio 3rd % HA; phase1 D.ratio 3rd % HV; phase3-N D.ratio 5th % HA; phase1 D.ratio 5th % HV; phase3-N D.ratio 7th % HA; phase1 D.ratio 7th % HV; phase3-N D.ratio 9th % HA; phase1 D.ratio 9th % HV; phase3-N D.ratio 11th % HA; phase1 D.ratio 11th % HV; phase3-N D.ratio 13th % HA; phase1 D.ratio 13th % Active energy (exp.) kWh HA; phase2 D.ratio total % HA; phase2 D.ratio 3rd % HA; phase2 D.ratio 5th % HA; phase2 D.ratio 7th % HA; phase2 D.ratio 9th %

*1 Expanded version of power amount and reactive power amount can be displayed up to 3 digit digits (maximum 5 digits after the decimal point) from the amount of power and reactive power. Because the detailed electric energy has a small number of significant digits, the monthly graph (daily amount) and the yearly graph (monthly amount) may not be displayed correctly. For details on the significant digits of electric energy, refer to the instruction manual or specification sheet of the terminal.

5-26

5.3.13. EMU3-DP1-C Measured items Unit Measured items Unit

Active energy kWh HA; phase3 RMS 7th A Reactive energy kvarh HA; phase3 RMS 9th A Current; phase1 A HA; phase3 RMS 11th A Current; phase2 A HA; phase3 RMS 13th A Current; phase3 A HA; phase3 RMS 15th A Current; average A HA; phase3 RMS 17th A Voltage; phase1-2 V HA; phase3 RMS 19th A Voltage; phase2-3 V HA; phase1 D.ratio total % Voltage; phase3-1 V HA; phase1 D.ratio 3rd % Voltage; L-N; average V HA; phase1 D.ratio 5th % Leakage current mA HA; phase1 D.ratio 7th % Leakage current; Harmonic mA HA; phase1 D.ratio 9th % Active power kW HA; phase1 D.ratio 11th % Reactive power kvar HA; phase1 D.ratio 13th % Power factor % HA; phase1 D.ratio 15th % Frequency Hz HA; phase1 D.ratio 17th % Current demand; phase1 A HA; phase1 D.ratio 19th % Current demand; phase2 A HA; phase3 D.ratio total % Current demand; phase3 A HA; phase3 D.ratio 3rd % Leakage current demand mA HA; phase3 D.ratio 5th % Leakage current demand; Harmonic mA HA; phase3 D.ratio 7th % Electric power demand kW HA; phase3 D.ratio 9th % HA; phase1 RMS total A HA; phase3 D.ratio 11th % HA; phase1 RMS 1st A HA; phase3 D.ratio 13th % HA; phase1 RMS 3rd A HA; phase3 D.ratio 15th % HA; phase1 RMS 5th A HA; phase3 D.ratio 17th % HA; phase1 RMS 7th A HA; phase3 D.ratio 19th % HA; phase1 RMS 9th A Active energy (exp.) kWh HA; phase1 RMS 11th A Pulse counter value 1 *3 HA; phase1 RMS 13th A Pulse counter value 2 *3 HA; phase1 RMS 15th A Operating time 1 Min HA; phase1 RMS 17th A Operating time 2 Min HA; phase1 RMS 19th A Active energy (Operating:1) kWh HA; phase3 RMS total A Active energy (Operating:2) kWh HA; phase3 RMS 1st A HA; phase3 RMS 3rd A HA; phase3 RMS 5th A

*1 The measured items differ with the phase wire method.

For details, refer to the instruction manual or specification sheet of the terminal. *2 Expanded version of power amount and reactive power amount can be displayed up to 3 digit

digits (maximum 5 digits after the decimal point) from the amount of power and reactive power. Because the detailed electric energy has a small number of significant digits, the monthly graph (daily amount) and the yearly graph (monthly amount) may not be displayed correctly. For details on the significant digits of electric energy, refer to the instruction manual or specification sheet of the terminal.

*3 For the pulse counter values, arbitrary characters (a maximum of 8 characters) can be set as the unit.

*4 For the pulse counter values, 0.001 to 99999 (5 digits including the decimal point, up to 3 places after the decimal point) can be set as the multiplier. Make sure that the pulse counter value for 1 month does not exceed the product of 999999 and the multiplier.

5-27

5.3.14. MDUWS-V Measured items Unit Measured items Unit

Active energy kWh HA; phase1 RMS 11th A Reactive energy kvarh HA; phase1 RMS 13th A Current; phase1 A HA; phase1 RMS 15th A Current; phase2 A HA; phase1 RMS 17th A Current; phase3 A HA; phase1 RMS 19th A Current; phaseN A HA; phase2 RMS fundamental A Current; average A HA; phase2 RMS 3rd A Current; maximum phase A HA; phase2 RMS 5th A Voltage; phase1-2 V HA; phase2 RMS 7th A Voltage; phase2-3 V HA; phase2 RMS 9th A Voltage; phase3-1 V HA; phase2 RMS 11th A Voltage; phase1-N V HA; phase2 RMS 13th A Voltage; phase2-N V HA; phase2 RMS 15th A Voltage; phase3-N V HA; phase2 RMS 17th A Voltage; L-N; average V HA; phase2 RMS 19th A Leakage current mA HA; phase3 RMS fundamental A Leakage current; Harmonic mA HA; phase3 RMS 3rd A Active power kW HA; phase3 RMS 5th A Reactive energy kvar HA; phase3 RMS 7th A Power factor % HA; phase3 RMS 9th A Frequency Hz HA; phase3 RMS 11th A Current demand; phase1 A HA; phase3 RMS 13th A Current demand; phase2 A HA; phase3 RMS 15th A Current demand; phase3 A HA; phase3 RMS 17th A Current demand; phaseN A HA; phase3 RMS 19th A Current demand; maximum phase A HA; phaseN RMS fundamental A Leakage current demand mA HA; phaseN RMS 3rd A Leakage current demand; Harmonic mA HA; phaseN RMS 5th A Electric power demand kW HA; phaseN RMS 7th A Reactive power demand kvar HA; phaseN RMS 9th A HA; phase1 RMS total A HA; phaseN RMS 11th A HA; phase2 RMS total A HA; phaseN RMS 13th A HA; phase3 RMS total A HA; phaseN RMS 15th A HA; phaseN RMS total A HA; phaseN RMS 17th A HA; phase1 RMS fundamental A HA; phaseN RMS 19th A HA; phase1 RMS 3rd A HA demand; phase1 RMS total A HA; phase1 RMS 5th A HA demand; phase2 RMS total A HA; phase1 RMS 7th A HA demand; phase3 RMS total A HA; phase1 RMS 9th A HA demand; phaseN RMS total A

*1 The measured items differ with the phase wire method.

For details, refer to the instruction manual or specification sheet of the terminal.

5-28

5.3.15. MDU(WS)

Measured items Unit Measured items Unit Active energy kWh HA; phase1 RMS 15th A Current; phase1 A HA; phase1 RMS 17th A Current; phase2 A HA; phase1 RMS 19th A Current; phase3 A HA; phase2 RMS 3rd A Current; phaseN A HA; phase2 RMS 5th A Current; average A HA; phase2 RMS 7th A Current; maximum phase A HA; phase2 RMS 9th A Voltage; phase1-2 V HA; phase2 RMS 11th A Voltage; phase2-3 V HA; phase2 RMS 13th A Voltage; phase3-1 V HA; phase2 RMS 15th A Voltage; phase1-N V HA; phase2 RMS 17th A Voltage; phase2-N V HA; phase2 RMS 19th A Voltage; phase3-N V HA; phase3 RMS 3rd A Voltage; L-N; average V HA; phase3 RMS 5th A Leakage current mA HA; phase3 RMS 7th A Leakage current; Harmonic mA HA; phase3 RMS 9th A Active power kW HA; phase3 RMS 11th A Power factor % HA; phase3 RMS 13th A Current demand; phase1 A HA; phase3 RMS 15th A Current demand; phase2 A HA; phase3 RMS 17th A Current demand; phase3 A HA; phase3 RMS 19th A Current demand; phaseN A HA; phaseN RMS 3rd A Current demand; maximum phase A HA; phaseN RMS 5th A Leakage current demand mA HA; phaseN RMS 7th A Leakage current demand; Harmonic mA HA; phaseN RMS 9th A Electric power demand kW HA; phaseN RMS 11th A HA; phase1 RMS total A HA; phaseN RMS 13th A HA; phase2 RMS total A HA; phaseN RMS 15th A HA; phase3 RMS total A HA; phaseN RMS 17th A HA; phaseN RMS total A HA; phaseN RMS 19th A HA; phase1 RMS 3rd A HA demand; phase1 RMS total A HA; phase1 RMS 5th A HA demand; phase2 RMS total A HA; phase1 RMS 7th A HA demand; phase3 RMS total A HA; phase1 RMS 9th A HA demand; phaseN RMS total A HA; phase1 RMS 11th A HA; phase1 RMS 13th A

*1 The measured items differ with the phase wire method. For details, refer to the instruction manual or specification sheet of the terminal.

5-29

5.3.16. AE-SW(BIF-CC)

Measured items Unit Measured items Unit Active energy kWh HA; phase3 RMS 11th A Reactive energy (Import:lag) kvarh HA; phase3 RMS 13th A Reactive energy (Import:lead) kvarh HA; phase3 RMS 15th A Current; phase1 A HA; phase3 RMS 17th A Current; phase2 A HA; phase3 RMS 19th A Current; phase3 A HA; phaseN RMS 1st A Current; phaseN A HA; phaseN RMS 3rd A Voltage; phase1-2 V HA; phaseN RMS 5th A Voltage; phase2-3 V HA; phaseN RMS 7th A Voltage; phase3-1 V HA; phaseN RMS 9th A Voltage; phase1-N V HA; phaseN RMS 11th A Voltage; phase2-N V HA; phaseN RMS 13th A Voltage; phase3-N V HA; phaseN RMS 15th A Voltage; L-L; maximum V HA; phaseN RMS 17th A Voltage; L-N; maximum V HA; phaseN RMS 19th A Leakage current A HA; phase1 D.ratio total % Active power kW HA; phase1 D.ratio 3rd % Reactive power kvar HA; phase1 D.ratio 5th % Power factor % HA; phase1 D.ratio 7th % Frequency Hz HA; phase1 D.ratio 9th % Current demand; phase1 A HA; phase1 D.ratio 11th % Current demand; phase2 A HA; phase1 D.ratio 13th % Current demand; phase3 A HA; phase1 D.ratio 15th % Current demand; phaseN A HA; phase1 D.ratio 17th % Current demand; maximum phase A HA; phase1 D.ratio 19th % Leakage current demand A HA; phase2 D.ratio total % Electric power demand kW HA; phase2 D.ratio 3rd % Reactive power demand kvar HA; phase2 D.ratio 5th % HA; phase1 RMS total A HA; phase2 D.ratio 7th % HA; phase2 RMS total A HA; phase2 D.ratio 9th % HA; phase3 RMS total A HA; phase2 D.ratio 11th % HA; phaseN RMS total A HA; phase2 D.ratio 13th % HA; phase1 RMS 1st A HA; phase2 D.ratio 15th % HA; phase1 RMS 3rd A HA; phase2 D.ratio 17th % HA; phase1 RMS 5th A HA; phase2 D.ratio 19th % HA; phase1 RMS 7th A HA; phase3 D.ratio total % HA; phase1 RMS 9th A HA; phase3 D.ratio 3rd % HA; phase1 RMS 11th A HA; phase3 D.ratio 5th % HA; phase1 RMS 13th A HA; phase3 D.ratio 7th % HA; phase1 RMS 15th A HA; phase3 D.ratio 9th % HA; phase1 RMS 17th A HA; phase3 D.ratio 11th % HA; phase1 RMS 19th A HA; phase3 D.ratio 13th % HA; phase2 RMS 1st A HA; phase3 D.ratio 15th % HA; phase2 RMS 3rd A HA; phase3 D.ratio 17th % HA; phase2 RMS 5th A HA; phase3 D.ratio 19th % HA; phase2 RMS 7th A HA; phaseN D.ratio total % HA; phase2 RMS 9th A HA; phaseN D.ratio 3rd % HA; phase2 RMS 11th A HA; phaseN D.ratio 5th % HA; phase2 RMS 13th A HA; phaseN D.ratio 7th % HA; phase2 RMS 15th A HA; phaseN D.ratio 9th % HA; phase2 RMS 17th A HA; phaseN D.ratio 11th % HA; phase2 RMS 19th A HA; phaseN D.ratio 13th % HA; phase3 RMS 1st A HA; phaseN D.ratio 15th % HA; phase3 RMS 3rd A HA; phaseN D.ratio 17th % HA; phase3 RMS 5th A HA; phaseN D.ratio 19th % HA; phase3 RMS 7th A VA kVA HA; phase3 RMS 9th A VA demand kVA

*1 The measured items differ with the phase wire method. For details, refer to the instruction manual or specification sheet of the terminal.

5-30

5.3.17. ME96NSR

Measured items Unit Measured items Unit Active energy (Import) kWh Active power; phase3 kW Active energy (Export) kWh Reactive power; phase1 kvar Reactive energy (Import:lag) kvarh Reactive power; phase2 kvar Reactive energy (Export:lag) kvarh Reactive power; phase3 kvar Reactive energy (Import:lead) kvarh VA; total kVA Reactive energy (Export:lead) kvarh VA; phase1 kVA Active energy (Import:exp.) kWh VA; phase2 kVA Active energy (Export:exp.) kWh VA; phase3 kVA Reactive energy (Import:lag:exp.) kvarh Power factor % Reactive energy (Export:lag:exp.) kvarh Power factor; phase1 % Reactive energy (Import:lead:exp.) kvarh Power factor; phase2 % Reactive energy (Export:lead:exp.) kvarh Power factor; phase3 % Current; average A Frequency Hz Current; phase1 A HV; phase1-2 RMS total V Current; phase2 A HV; phase1-2 RMS 1st V Current; phase3 A HV; phase1-2 RMS 3rd V Current; phaseN A HV; phase1-2 RMS 5th V Current demand; average A HV; phase1-2 RMS 7th V Current demand; phase1 A HV; phase1-2 RMS 9th V Current demand; phase2 A HV; phase1-2 RMS 11th V Current demand; phase3 A HV; phase1-2 RMS 13th V Current demand; phaseN A HV; phase1-2 D.ratio total % Voltage; L-L; average V HV; phase1-2 D.ratio 3rd % Voltage; phase1-2 V HV; phase1-2 D.ratio 5th % Voltage; phase2-3 V HV; phase1-2 D.ratio 7th % Voltage; phase3-1 V HV; phase1-2 D.ratio 9th % Voltage; L-N; average V HV; phase1-2 D.ratio 11th % Voltage; phase1-N V HV; phase1-2 D.ratio 13th % Voltage; phase2-N V HV; phase2-3 RMS total V Voltage; phase3-N V HV; phase2-3 RMS 1st V Active power; total kW HV; phase2-3 RMS 3rd V Reactive power; total kvar HV; phase2-3 RMS 5th V Active power; phase1 kW HV; phase2-3 RMS 7th V Active power; phase2 kW HV; phase2-3 RMS 9th V

5-31

Measured items Unit Measured items Unit HV; phase2-3 RMS 11th V HA; phase1 RMS 7th A HV; phase2-3 RMS 13th V HA; phase1 RMS 9th A HV; phase2-3 D.ratio total % HA; phase1 RMS 11th A HV; phase2-3 D.ratio 3rd % HA; phase1 RMS 13th A HV; phase2-3 D.ratio 5th % HA; phase1 D.ratio total % HV; phase2-3 D.ratio 7th % HA; phase1 D.ratio 3rd % HV; phase2-3 D.ratio 9th % HA; phase1 D.ratio 5th % HV; phase2-3 D.ratio 11th % HA; phase1 D.ratio 7th % HV; phase2-3 D.ratio 13th % HA; phase1 D.ratio 9th % HV; phase1-N RMS total V HA; phase1 D.ratio 11th % HV; phase1-N RMS 1st V HA; phase1 D.ratio 13th % HV; phase1-N RMS 3rd V HA; phase2 RMS total A HV; phase1-N RMS 5th V HA; phase2 RMS 1st A HV; phase1-N RMS 7th V HA; phase2 RMS 3rd A HV; phase1-N RMS 9th V HA; phase2 RMS 5th A HV; phase1-N RMS 11th V HA; phase2 RMS 7th A HV; phase1-N RMS 13th V HA; phase2 RMS 9th A HV; phase1-N D.ratio total % HA; phase2 RMS 11th A HV; phase1-N D.ratio 3rd % HA; phase2 RMS 13th A HV; phase1-N D.ratio 5th % HA; phase2 D.ratio total % HV; phase1-N D.ratio 7th % HA; phase2 D.ratio 3rd % HV; phase1-N D.ratio 9th % HA; phase2 D.ratio 5th % HV; phase1-N D.ratio 11th % HA; phase2 D.ratio 7th % HV; phase1-N D.ratio 13th % HA; phase2 D.ratio 9th % HV; phase2-N RMS total V HA; phase2 D.ratio 11th % HV; phase2-N RMS 1st V HA; phase2 D.ratio 13th % HV; phase2-N RMS 3rd V HA; phase3 RMS total A HV; phase2-N RMS 5th V HA; phase3 RMS 1st A HV; phase2-N RMS 7th V HA; phase3 RMS 3rd A HV; phase2-N RMS 9th V HA; phase3 RMS 5th A HV; phase2-N RMS 11th V HA; phase3 RMS 7th A HV; phase2-N RMS 13th V HA; phase3 RMS 9th A HV; phase2-N D.ratio total % HA; phase3 RMS 11th A HV; phase2-N D.ratio 3rd % HA; phase3 RMS 13th A HV; phase2-N D.ratio 5th % HA; phase3 D.ratio total % HV; phase2-N D.ratio 7th % HA; phase3 D.ratio 3rd % HV; phase2-N D.ratio 9th % HA; phase3 D.ratio 5th % HV; phase2-N D.ratio 11th % HA; phase3 D.ratio 7th % HV; phase2-N D.ratio 13th % HA; phase3 D.ratio 9th % HV; phase3-N RMS total V HA; phase3 D.ratio 11th % HV; phase3-N RMS 1st V HA; phase3 D.ratio 13th % HV; phase3-N RMS 3rd V HA; phaseN RMS total A HV; phase3-N RMS 5th V HA; phaseN RMS 1st A HV; phase3-N RMS 7th V HA; phaseN RMS 3rd A HV; phase3-N RMS 9th V HA; phaseN RMS 5th A HV; phase3-N RMS 11th V HA; phaseN RMS 7th A HV; phase3-N RMS 13th V HA; phaseN RMS 9th A HV; phase3-N D.ratio total % HA; phaseN RMS 11th A HV; phase3-N D.ratio 3rd % HA; phaseN RMS 13th A HV; phase3-N D.ratio 5th % HA; phaseN D.ratio total % HV; phase3-N D.ratio 7th % HA; phaseN D.ratio 3rd % HV; phase3-N D.ratio 9th % HA; phaseN D.ratio 5th % HV; phase3-N D.ratio 11th % HA; phaseN D.ratio 7th % HV; phase3-N D.ratio 13th % HA; phaseN D.ratio 9th % HV; L-L D.ratio total % HA; phaseN D.ratio 11th % HV; L-L 1st V HA; phaseN D.ratio 13th % HV; L-L D.ratio 3rd % HV; L-L D.ratio 5th % HV; L-L D.ratio 7th % HV; L-L D.ratio 9th % HV; L-L D.ratio 11th % HV; L-L D.ratio 13th % HA; phase1 RMS total A HA; phase1 RMS 1st A HA; phase1 RMS 3rd A HA; phase1 RMS 5th A

*1 The measured items differ with the phase wire method.

For details, refer to the instruction manual or specification sheet of the terminal.

5-32

5.3.18. ME96SSHB-MB Measured items Unit Measured items Unit

Active_energy_Import kWh Total_rolling_demand_kVA_Last kVA Active_energy_Export kWh Total_rolling_demand_kVA_Present kVA Reactive_energy_Import_lag kvarh Total_rolling_demand_kVA_Predict kVA Reactive_energy_Export_lag kvarh Total_power_factor % Reactive_energy_Import_lead kvarh Phase1_power_factor % Reactive_energy_Export_lead kvarh Phase2_power_factor % Active_energy_Import_extended kWh Phase3_power_factor % Active_energy_Export_extended kWh Frequency Hz Reactive_energy_Import_lag_extended kvarh Current_unbalance_rate % Reactive_energy_Export_lag_extended kvarh Voltage_unbalance_rate % Reactive_energy_Import_lead_extended kvarh 1-2_H_voltage_Total V Reactive_energy_Export_lead_extended kvarh 1-2_H_voltage_1st V Apparent_energy kVAh 1-2_voltage_THD % Periodic_active_energy_1 kWh 1-2_voltage_HD_3rd % Periodic_active_energy_2 kWh 1-2_voltage_HD_5th % Periodic_active_energy_3 kWh 1-2_voltage_HD_7th % Operating_time1 h 1-2_voltage_HD_9th % Operating_time2 h 1-2_voltage_HD_11th % CO2_equivalent kg 1-2_voltage_HD_13th % Average_current A 1-2_voltage_HD_15th % Phase1_current A 1-2_voltage_HD_17th % Phase2_current A 1-2_voltage_HD_19th % Phase3_current A 1-2_voltage_HD_21st % PhaseN_current A 1-2_voltage_HD_23rd % Average_current_demand A 1-2_voltage_HD_25th % Phase1_current_demand A 1-2_voltage_HD_27th % Phase2_current_demand A 1-2_voltage_HD_29th % Phase3_current_demand A 1-2_voltage_HD_31st % PhaseN_current_demand A 2-3_H_voltage_Total V Average_L-L_voltage V 2-3_H_voltage_1st V 1-2_voltage V 2-3_voltage_THD % 2-3_voltage V 2-3_voltage_HD_3rd % 3-1_voltage V 2-3_voltage_HD_5th % Average_L-L_voltage(3P4W) V 2-3_voltage_HD_7th % 1-2_voltage(3P4W) V 2-3_voltage_HD_9th % 2-3_voltage(3P4W) V 2-3_voltage_HD_11th % 3-1_voltage(3P4W) V 2-3_voltage_HD_13th % Average_L-N_voltage V 2-3_voltage_HD_15th % 1-N_voltage V 2-3_voltage_HD_17th % 2-N_voltage V 2-3_voltage_HD_19th % 3-N_voltage V 2-3_voltage_HD_21st % Total_active_power kW 2-3_voltage_HD_23rd % Phase1_active_power kW 2-3_voltage_HD_25th % Phase2_active_power kW 2-3_voltage_HD_27th % Phase3_active_power kW 2-3_voltage_HD_29th % Total_rolling_demand_kW_Last kW 2-3_voltage_HD_31st % Total_rolling_demand_kW_Present kW 1-N_H_voltage_Total V Total_rolling_demand_kW_Predict kW 1-N_H_voltage_1st V Total_reactive_power kvar 1-N_voltage_THD % Phase1_reactive_power kvar 1-N_voltage_HD_3rd % Phase2_reactive_power kvar 1-N_voltage_HD_5th % Phase3_reactive_power kvar 1-N_voltage_HD_7th % Total_rolling_demand_kvar_Last kvar 1-N_voltage_HD_9th % Total_rolling_demand_kvar_Present kvar 1-N_voltage_HD_11th % Total_rolling_demand_kvar_Predict kvar 1-N_voltage_HD_13th % Total_apparent_power kVA 1-N_voltage_HD_15th % Phase1_apparent_power kVA 1-N_voltage_HD_17th % Phase2_apparent_power kVA 1-N_voltage_HD_19th % Phase3_apparent_power kVA

5-33

Measured items Unit Measured items Unit 1-N_voltage_HD_21st % 2_H_current_5th A 1-N_voltage_HD_23rd % 2_H_current_7th A 1-N_voltage_HD_25th % 2_H_current_9th A 1-N_voltage_HD_27th % 2_H_current_11th A 1-N_voltage_HD_29th % 2_H_current_13th A 1-N_voltage_HD_31st % 2_H_current_15th A 2-N_H_voltage_Total V 2_H_current_17th A 2-N_H_voltage_1st V 2_H_current_19th A 2-N_voltage_THD % 2_H_current_21st A 2-N_voltage_HD_3rd % 2_H_current_23rd A 2-N_voltage_HD_5th % 2_H_current_25th A 2-N_voltage_HD_7th % 2_H_current_27th A 2-N_voltage_HD_9th % 2_H_current_29th A 2-N_voltage_HD_11th % 2_H_current_31st A 2-N_voltage_HD_13th % 2_current_THD % 2-N_voltage_HD_15th % 3_H_current_Total A 2-N_voltage_HD_17th % 3_H_current_1st A 2-N_voltage_HD_19th % 3_H_current_3rd A 2-N_voltage_HD_21st % 3_H_current_5th A 2-N_voltage_HD_23rd % 3_H_current_7th A 2-N_voltage_HD_25th % 3_H_current_9th A 2-N_voltage_HD_27th % 3_H_current_11th A 2-N_voltage_HD_29th % 3_H_current_13th A 2-N_voltage_HD_31st % 3_H_current_15th A 3-N_H_voltage_Total V 3_H_current_17th A 3-N_H_voltage_1st V 3_H_current_19th A 3-N_voltage_THD % 3_H_current_21st A 3-N_voltage_HD_3rd % 3_H_current_23rd A 3-N_voltage_HD_5th % 3_H_current_25th A 3-N_voltage_HD_7th % 3_H_current_27th A 3-N_voltage_HD_9th % 3_H_current_29th A 3-N_voltage_HD_11th % 3_H_current_31st A 3-N_voltage_HD_13th % 3_current_THD % 3-N_voltage_HD_15th % N_H_current_Total A 3-N_voltage_HD_17th % N_H_current_1st A 3-N_voltage_HD_19th % N_H_current_3rd A 3-N_voltage_HD_21st % N_H_current_5th A 3-N_voltage_HD_23rd % N_H_current_7th A 3-N_voltage_HD_25th % N_H_current_9th A 3-N_voltage_HD_27th % N_H_current_11th A 3-N_voltage_HD_29th % N_H_current_13th A 3-N_voltage_HD_31st % N_H_current_15th A 1_H_current_Total A

N_H_current_17th A 1_H_current_1st A N_H_current_19th A 1_H_current_3rd A N_H_current_21st A 1_H_current_5th A N_H_current_23rd A 1_H_current_7th A N_H_current_25th A 1_H_current_9th A N_H_current_27th A 1_H_current_11th A N_H_current_29th A 1_H_current_13th A N_H_current_31st A 1_H_current_15th A N_current_THD % 1_H_current_17th A 1_H_current_19th A 1_H_current_21st A 1_H_current_23rd A 1_H_current_25th A 1_H_current_27th A 1_H_current_29th A 1_H_current_31st A 1_current_THD % 2_H_current_Total A 2_H_current_1st A 2_H_current_3rd A

*1 The measured items differ with the phase wire method.

For details, refer to the instruction manual or specification sheet of the terminal.

5-34

5.3.19. ME96SSRB-MB Measured items Unit Measured items Unit

Active_energy_Import kWh Total_rolling_demand_kVA_Last kVA Active_energy_Export kWh Total_rolling_demand_kVA_Present kVA Reactive_energy_Import_lag kvarh Total_rolling_demand_kVA_Predict kVA Reactive_energy_Export_lag kvarh Total_power_factor % Reactive_energy_Import_lead kvarh Phase1_power_factor % Reactive_energy_Export_lead kvarh Phase2_power_factor % Active_energy_Import_extended kWh Phase3_power_factor % Active_energy_Export_extended kWh Frequency Hz Reactive_energy_Import_lag_extended kvarh Current_unbalance_rate % Reactive_energy_Export_lag_extended kvarh Voltage_unbalance_rate % Reactive_energy_Import_lead_extended kvarh 1-2_H_voltage_Total V Reactive_energy_Export_lead_extended kvarh 1-2_H_voltage_1st V Apparent_energy kVAh 1-2_voltage_THD % Periodic_active_energy_1 kWh 1-2_voltage_HD_3rd % Periodic_active_energy_2 kWh 1-2_voltage_HD_5th % Periodic_active_energy_3 kWh 1-2_voltage_HD_7th % Operating_time1 h 1-2_voltage_HD_9th % Operating_time2 h 1-2_voltage_HD_11th % CO2_equivalent kg 1-2_voltage_HD_13th % Average_current A 1-2_voltage_HD_15th % Phase1_current A 1-2_voltage_HD_17th % Phase2_current A 1-2_voltage_HD_19th % Phase3_current A 2-3_H_voltage_Total V PhaseN_current A 2-3_H_voltage_1st V Average_current_demand A 2-3_voltage_THD % Phase1_current_demand A 2-3_voltage_HD_3rd % Phase2_current_demand A 2-3_voltage_HD_5th % Phase3_current_demand A 2-3_voltage_HD_7th % PhaseN_current_demand A 2-3_voltage_HD_9th % Average_L-L_voltage V 2-3_voltage_HD_11th % 1-2_voltage V 2-3_voltage_HD_13th % 2-3_voltage V 2-3_voltage_HD_15th % 3-1_voltage V 2-3_voltage_HD_17th % Average_L-L_voltage(3P4W) V 2-3_voltage_HD_19th % 1-2_voltage(3P4W) V 1-N_H_voltage_Total V 2-3_voltage(3P4W) V 1-N_H_voltage_1st V 3-1_voltage(3P4W) V 1-N_voltage_THD % Average_L-N_voltage V 1-N_voltage_HD_3rd % 1-N_voltage V 1-N_voltage_HD_5th % 2-N_voltage V 1-N_voltage_HD_7th % 3-N_voltage V 1-N_voltage_HD_9th % Total_active_power kW 1-N_voltage_HD_11th % Phase1_active_power kW 1-N_voltage_HD_13th % Phase2_active_power kW 1-N_voltage_HD_15th % Phase3_active_power kW 1-N_voltage_HD_17th % Total_rolling_demand_kW_Last kW 1-N_voltage_HD_19th % Total_rolling_demand_kW_Present kW 2-N_H_voltage_Total V Total_rolling_demand_kW_Predict kW 2-N_H_voltage_1st V Total_reactive_power kvar 2-N_voltage_THD % Phase1_reactive_power kvar 2-N_voltage_HD_3rd % Phase2_reactive_power kvar 2-N_voltage_HD_5th % Phase3_reactive_power kvar 2-N_voltage_HD_7th % Total_rolling_demand_kvar_Last kvar 2-N_voltage_HD_9th % Total_rolling_demand_kvar_Present kvar 2-N_voltage_HD_11th % Total_rolling_demand_kvar_Predict kvar 2-N_voltage_HD_13th % Total_apparent_power kVA 2-N_voltage_HD_15th % Phase1_apparent_power kVA 2-N_voltage_HD_17th % Phase2_apparent_power kVA 2-N_voltage_HD_19th % Phase3_apparent_power kVA

5-35

Measured items Unit Measured items Unit 3-N_H_voltage_Total V 2_current_THD % 3-N_H_voltage_1st V 3_H_current_Total A 3-N_voltage_THD % 3_H_current_1st A 3-N_voltage_HD_3rd % 3_H_current_3rd A 3-N_voltage_HD_5th % 3_H_current_5th A 3-N_voltage_HD_7th % 3_H_current_7th A 3-N_voltage_HD_9th % 3_H_current_9th A 3-N_voltage_HD_11th % 3_H_current_11th A 3-N_voltage_HD_13th % 3_H_current_13th A 3-N_voltage_HD_15th % 3_H_current_15th A 3-N_voltage_HD_17th % 3_H_current_17th A 3-N_voltage_HD_19th % 3_H_current_19th A 1_H_current_Total A 3_current_THD % 1_H_current_1st A N_H_current_Total A 1_H_current_3rd A N_H_current_1st A 1_H_current_5th A N_H_current_3rd A 1_H_current_7th A N_H_current_5th A 1_H_current_9th A N_H_current_7th A 1_H_current_11th A N_H_current_9th A 1_H_current_13th A N_H_current_11th A 1_H_current_15th A N_H_current_13th A 1_H_current_17th A N_H_current_15th A 1_H_current_19th A N_H_current_17th A 1_current_THD % N_H_current_19th A 2_H_current_Total A N_current_THD % 2_H_current_1st A 2_H_current_3rd A 2_H_current_5th A 2_H_current_7th A 2_H_current_9th A 2_H_current_11th A 2_H_current_13th A 2_H_current_15th A 2_H_current_17th A 2_H_current_19th A

*1 The measured items differ with the phase wire method. For details, refer to the instruction manual or specification sheet of the terminal.

5-36

5.3.20. ME96SSHA-MB Measured items Unit Measured items Unit

Active_energy_Import kWh Phase1_power_factor % Active_energy_Export kWh Phase2_power_factor % Reactive_energy_Import_lag kvarh Phase3_power_factor % Reactive_energy_Export_lag kvarh Frequency Hz Reactive_energy_Import_lead kvarh 1-2_H_voltage_Total V Reactive_energy_Export_lead kvarh 1-2_H_voltage_1st V Active_energy_Import_extended kWh 1-2_voltage_THD % Active_energy_Export_extended kWh 1-2_voltage_HD_3rd % Reactive_energy_Import_lag_extended kvarh 1-2_voltage_HD_5th % Reactive_energy_Export_lag_extended kvarh 1-2_voltage_HD_7th % Reactive_energy_Import_lead_extended kvarh 1-2_voltage_HD_9th % Reactive_energy_Export_lead_extended kvarh 1-2_voltage_HD_11th % Apparent_energy kVAh 1-2_voltage_HD_13th % Periodic_active_energy_1 kWh 1-2_voltage_HD_15th % Periodic_active_energy_2 kWh 1-2_voltage_HD_17th % Operating_time1 h 1-2_voltage_HD_19th % Operating_time2 h 1-2_voltage_HD_21st % Average_current A 1-2_voltage_HD_23rd % Phase1_current A 1-2_voltage_HD_25th % Phase2_current A 1-2_voltage_HD_27th % Phase3_current A 1-2_voltage_HD_29th % PhaseN_current A 1-2_voltage_HD_31st % Average_current_demand A 2-3_H_voltage_Total V Phase1_current_demand A 2-3_H_voltage_1st V Phase2_current_demand A 2-3_voltage_THD % Phase3_current_demand A 2-3_voltage_HD_3rd % PhaseN_current_demand A 2-3_voltage_HD_5th % Average_L-L_voltage V 2-3_voltage_HD_7th % 1-2_voltage V 2-3_voltage_HD_9th % 2-3_voltage V 2-3_voltage_HD_11th % 3-1_voltage V 2-3_voltage_HD_13th % Average_L-L_voltage(3P4W) V 2-3_voltage_HD_15th % 1-2_voltage(3P4W) V 2-3_voltage_HD_17th % 2-3_voltage(3P4W) V 2-3_voltage_HD_19th % 3-1_voltage(3P4W) V 2-3_voltage_HD_21st % Average_L-N_voltage V 2-3_voltage_HD_23rd % 1-N_voltage V 2-3_voltage_HD_25th % 2-N_voltage V 2-3_voltage_HD_27th % 3-N_voltage V 2-3_voltage_HD_29th % Total_active_power kW 2-3_voltage_HD_31st % Phase1_active_power kW 1-N_H_voltage_Total V Phase2_active_power kW 1-N_H_voltage_1st V Phase3_active_power kW 1-N_voltage_THD % Total_rolling_demand kW 1-N_voltage_HD_3rd % Total_reactive_power kvar 1-N_voltage_HD_5th % Phase1_reactive_power kvar 1-N_voltage_HD_7th % Phase2_reactive_power kvar 1-N_voltage_HD_9th % Phase3_reactive_power kvar 1-N_voltage_HD_11th % Total_rolling_demand_reactive_power kvar 1-N_voltage_HD_13th % Total_apparent_power kVA 1-N_voltage_HD_15th % Phase1_apparent_power kVA 1-N_voltage_HD_17th % Phase2_apparent_power kVA 1-N_voltage_HD_19th % Phase3_apparent_power kVA Total_rolling_demand_apparent_power kVA Total_power_factor %

5-37

Measured items Unit Measured items Unit 1-N_voltage_HD_21st % 2_H_current_5th A 1-N_voltage_HD_23rd % 2_H_current_7th A 1-N_voltage_HD_25th % 2_H_current_9th A 1-N_voltage_HD_27th % 2_H_current_11th A 1-N_voltage_HD_29th % 2_H_current_13th A 1-N_voltage_HD_31st % 2_H_current_15th A 2-N_H_voltage_Total V 2_H_current_17th A 2-N_H_voltage_1st V 2_H_current_19th A 2-N_voltage_THD % 2_H_current_21st A 2-N_voltage_HD_3rd % 2_H_current_23rd A 2-N_voltage_HD_5th % 2_H_current_25th A 2-N_voltage_HD_7th % 2_H_current_27th A 2-N_voltage_HD_9th % 2_H_current_29th A 2-N_voltage_HD_11th % 2_H_current_31st A 2-N_voltage_HD_13th % 2_current_THD % 2-N_voltage_HD_15th % 3_H_current_Total A 2-N_voltage_HD_17th % 3_H_current_1st A 2-N_voltage_HD_19th % 3_H_current_3rd A 2-N_voltage_HD_21st % 3_H_current_5th A 2-N_voltage_HD_23rd % 3_H_current_7th A 2-N_voltage_HD_25th % 3_H_current_9th A 2-N_voltage_HD_27th % 3_H_current_11th A 2-N_voltage_HD_29th % 3_H_current_13th A 2-N_voltage_HD_31st % 3_H_current_15th A 3-N_H_voltage_Total V 3_H_current_17th A 3-N_H_voltage_1st V 3_H_current_19th A 3-N_voltage_THD % 3_H_current_21st A 3-N_voltage_HD_3rd % 3_H_current_23rd A 3-N_voltage_HD_5th % 3_H_current_25th A 3-N_voltage_HD_7th % 3_H_current_27th A 3-N_voltage_HD_9th % 3_H_current_29th A 3-N_voltage_HD_11th % 3_H_current_31st A 3-N_voltage_HD_13th % 3_current_THD % 3-N_voltage_HD_15th % N_H_current_Total A 3-N_voltage_HD_17th % N_H_current_1st A 3-N_voltage_HD_19th % N_H_current_3rd A 3-N_voltage_HD_21st % N_H_current_5th A 3-N_voltage_HD_23rd % N_H_current_7th A 3-N_voltage_HD_25th % N_H_current_9th A 3-N_voltage_HD_27th % N_H_current_11th A 3-N_voltage_HD_29th % N_H_current_13th A 3-N_voltage_HD_31st % N_H_current_15th A 1_H_current_Total A

N_H_current_17th A 1_H_current_1st A N_H_current_19th A 1_H_current_3rd A N_H_current_21st A 1_H_current_5th A N_H_current_23rd A 1_H_current_7th A N_H_current_25th A 1_H_current_9th A N_H_current_27th A 1_H_current_11th A N_H_current_29th A 1_H_current_13th A N_H_current_31st A 1_H_current_15th A N_current_THD % 1_H_current_17th A 1_H_current_19th A 1_H_current_21st A 1_H_current_23rd A 1_H_current_25th A 1_H_current_27th A 1_H_current_29th A 1_H_current_31st A 1_current_THD % 2_H_current_Total A 2_H_current_1st A 2_H_current_3rd A

*1 The measured items differ with the phase wire method.

For details, refer to the instruction manual or specification sheet of the terminal.

5-38

5.3.21. ME96SSRA-MB

Measured items Unit Measured items Unit Active_energy_Import kWh Phase1_power_factor % Active_energy_Export kWh Phase2_power_factor % Reactive_energy_Import_lag kvarh Phase3_power_factor % Reactive_energy_Export_lag kvarh Frequency Hz Reactive_energy_Import_lead kvarh 1-2_H_voltage_Total V Reactive_energy_Export_lead kvarh 1-2_H_voltage_1st V Active_energy_Import_extended kWh 1-2_voltage_THD % Active_energy_Export_extended kWh 1-2_voltage_HD_3rd % Reactive_energy_Import_lag_extended kvarh 1-2_voltage_HD_5th % Reactive_energy_Export_lag_extended kvarh 1-2_voltage_HD_7th % Reactive_energy_Import_lead_extended kvarh 1-2_voltage_HD_9th % Reactive_energy_Export_lead_extended kvarh 1-2_voltage_HD_11th % Apparent_energy kVAh 1-2_voltage_HD_13th % Periodic_active_energy_1 kWh 1-2_voltage_HD_15th % Periodic_active_energy_2 kWh 1-2_voltage_HD_17th % Operating_time1 h 1-2_voltage_HD_19th % Operating_time2 h 2-3_H_voltage_Total V Average_current A 2-3_H_voltage_1st V Phase1_current A 2-3_voltage_THD % Phase2_current A 2-3_voltage_HD_3rd % Phase3_current A 2-3_voltage_HD_5th % PhaseN_current A 2-3_voltage_HD_7th % Average_current_demand A 2-3_voltage_HD_9th % Phase1_current_demand A 2-3_voltage_HD_11th % Phase2_current_demand A 2-3_voltage_HD_13th % Phase3_current_demand A 2-3_voltage_HD_15th % PhaseN_current_demand A 2-3_voltage_HD_17th % Average_L-L_voltage V 2-3_voltage_HD_19th % 1-2_voltage V 1-N_H_voltage_Total V 2-3_voltage V 1-N_H_voltage_1st V 3-1_voltage V 1-N_voltage_THD % Average_L-L_voltage(3P4W) V 1-N_voltage_HD_3rd % 1-2_voltage(3P4W) V 1-N_voltage_HD_5th % 2-3_voltage(3P4W) V 1-N_voltage_HD_7th % 3-1_voltage(3P4W) V 1-N_voltage_HD_9th % Average_L-N_voltage V 1-N_voltage_HD_11th % 1-N_voltage V 1-N_voltage_HD_13th % 2-N_voltage V 1-N_voltage_HD_15th % 3-N_voltage V 1-N_voltage_HD_17th % Total_active_power kW 1-N_voltage_HD_19th % Phase1_active_power kW 2-N_H_voltage_Total V Phase2_active_power kW 2-N_H_voltage_1st V Phase3_active_power kW 2-N_voltage_THD % Total_rolling_demand kW 2-N_voltage_HD_3rd % Total_reactive_power kvar 2-N_voltage_HD_5th % Phase1_reactive_power kvar 2-N_voltage_HD_7th % Phase2_reactive_power kvar 2-N_voltage_HD_9th % Phase3_reactive_power kvar 2-N_voltage_HD_11th % Total_rolling_demand_reactive_power kvar 2-N_voltage_HD_13th % Total_apparent_power kVA 2-N_voltage_HD_15th % Phase1_apparent_power kVA 2-N_voltage_HD_17th % Phase2_apparent_power kVA 2-N_voltage_HD_19th % Phase3_apparent_power kVA Total_rolling_demand_apparent_power kVA Total_power_factor %

5-39

Measured items Unit Measured items Unit 3-N_H_voltage_Total V 2_current_THD % 3-N_H_voltage_1st V 3_H_current_Total A 3-N_voltage_THD % 3_H_current_1st A 3-N_voltage_HD_3rd % 3_H_current_3rd A 3-N_voltage_HD_5th % 3_H_current_5th A 3-N_voltage_HD_7th % 3_H_current_7th A 3-N_voltage_HD_9th % 3_H_current_9th A 3-N_voltage_HD_11th % 3_H_current_11th A 3-N_voltage_HD_13th % 3_H_current_13th A 3-N_voltage_HD_15th % 3_H_current_15th A 3-N_voltage_HD_17th % 3_H_current_17th A 3-N_voltage_HD_19th % 3_H_current_19th A 1_H_current_Total A 3_H_current_31st A 1_H_current_1st A 3_current_THD % 1_H_current_3rd A N_H_current_Total A 1_H_current_5th A N_H_current_1st A 1_H_current_7th A N_H_current_3rd A 1_H_current_9th A N_H_current_5th A 1_H_current_11th A N_H_current_7th A 1_H_current_13th A N_H_current_9th A 1_H_current_15th A N_H_current_11th A 1_H_current_17th A N_H_current_13th A 1_H_current_19th A N_H_current_15th A 1_current_THD % N_H_current_17th A 2_H_current_Total A N_H_current_19th A 2_H_current_1st A N_current_THD % 2_H_current_3rd A 2_H_current_5th A 2_H_current_7th A 2_H_current_9th A 2_H_current_11th A 2_H_current_13th A 2_H_current_15th A 2_H_current_17th A 2_H_current_19th A

*1 The measured items differ with the phase wire method. For details, refer to the instruction manual or specification sheet of the terminal.

5-40

5.3.22. ME96SSH-MB (1P2W, 3P3W)

Measured items Unit Measured items Unit Active_energy_Import kWh 2-3_H_voltage_Total V Active_energy_Export kWh 2-3_H_voltage_1st V Reactive_energy_Import_lag kvarh 2-3_voltage_THD % Reactive_energy_Export_lag kvarh 2-3_voltage_HD_3rd % Reactive_energy_Import_lead kvarh 2-3_voltage_HD_5th % Reactive_energy_Export_lead kvarh 2-3_voltage_HD_7th % Periodic_active_energy_1 kWh 2-3_voltage_HD_9th % Periodic _active_energy_2 kWh 2-3_voltage_HD_11th % Operating_time1 h 2-3_voltage_HD_13th % Operating_time2 h 2-3_voltage_HD_15th % Average_current A 2-3_voltage_HD_17th % Phase1_current A 2-3_voltage_HD_19th % Phase2_current A 2-3_voltage_HD_21st % Phase3_current A 2-3_voltage_HD_23rd % Average_current_max A 2-3_voltage_HD_25th % Phase1_current_max A 2-3_voltage_HD_27th % Phase2_current_max A 2-3_voltage_HD_29th % Phase3_current_max A 2-3_voltage_HD_31st % Average_current_demand A 1-H_current_Total A Phase1_current_demand A 1-H_current_1st A Phase2_current_demand A 1-H_current_3rd A Phase3_current_demand A 1-H_current_5th A Average_current_demand_max A 1-H_current_7th A Phase1_current_demand_max A 1-H_current_9th A Phase2_current_demand_max A 1-H_current_11th A Phase3_current_demand_max A 1-H_current_13th A Average L-L voltage V 1-H_current_15th A 1-2_voltage V 1-H_current_17th A 2-3_voltage V 1-H_current_19th A 3-1_voltage V 1-H_current_21st A Average_L-L_voltage_max V 1-H_current_23rd A 1-2_voltage_max V 1-H_current_25th A 2-3_voltage_max V 1-H_current_27th A 3-1_voltage_max V 1-H_current_29th A Average_L-L_voltage_min V 1-H_current_31th A 1-2_voltage_min V 1_current_THD % 2-3_voltage_min V 2-H_current_Total A 3-1_voltage_min V 2-H_current_1st A Total_active_power kW 2-H_current_3rd A Total_active_power_max kW 2-H_current_5th A Total_active_power_min kW 2-H_current_7th A Total_rolling_demand kW 2-H_current_9th A Total_rolling_demand_max kW 2-H_current_11th A Total_reactive_power kvar 2-H_current_13th A Total_reactive_power_max kvar 2-H_current_15th A Total_reactive_power_min kvar 2-H_current_17th A Total_power_factor % 2-H_current_19th A Total_power_factor_max % 2-H_current_21st A Total_power_factor_min % 2-H_current_23rd A Frequency Hz 2-H_current_25th A Frequency_max Hz 2-H_current_27th A 1-2_H_voltage_Total V 2-H_current_29th A 1-2_H_voltage_1st V 2-H_current_31th A 1-2_voltage_THD % 2_current_THD % 1-2_voltage_HD_3rd % 3-H_current_Total A 1-2_voltage_HD_5th % 3-H_current_1st A 1-2_voltage_HD_7th % 3-H_current_3rd A 1-2_voltage_HD_9th % 3-H_current_5th A 1-2_voltage_HD_11th % 3-H_current_7th A 1-2_voltage_HD_13th % 3-H_current_9th A 1-2_voltage_HD_15th % 3-H_current_11th A 1-2_voltage_HD_17th % 3-H_current_13th A 1-2_voltage_HD_19th % 3-H_current_15th A 1-2_voltage_HD_21st % 3-H_current_17th A 1-2_voltage_HD_23rd % 3-H_current_19th A 1-2_voltage_HD_25th % 3-H_current_21st A 1-2_voltage_HD_27th % 3-H_current_23rd A 1-2_voltage_HD_29th % 3-H_current_25th A 1-2_voltage_HD_31st % 3-H_current_27th A

3-H_current_29th A 3-H_current_31th A 3_current_THD %

5-41

*1 The measured items differ with the phase wire method. For details, refer to the instruction manual or specification sheet of the terminal.

5-42

5.3.23. ME96SSH-MB (1P3W) Measured items Unit Measured items Unit

Active_energy_Import kWh 2-3_H_voltage_Total V Active_energy_Export kWh 2-3_H_voltage_1st V Reactive_energy_Import_lag kvarh 2-3_voltage_THD % Reactive_energy_Export_lag kvarh 2-3_voltage_HD_3rd % Reactive_energy_Import_lead kvarh 2-3_voltage_HD_5th % Reactive_energy_Export_lead kvarh 2-3_voltage_HD_7th % Periodic_active_energy_1 kWh 2-3_voltage_HD_9th % Periodic _active_energy_2 kWh 2-3_voltage_HD_11th % Operating_time1 h 2-3_voltage_HD_13th % Operating_time2 h 2-3_voltage_HD_15th % Average_current A 2-3_voltage_HD_17th % Phase1_current A 2-3_voltage_HD_19th % Phase2_current A 2-3_voltage_HD_21st % Phase3_current A 2-3_voltage_HD_23rd % Average_current_max A 2-3_voltage_HD_25th % Phase1_current_max A 2-3_voltage_HD_27th % Phase2_current_max A 2-3_voltage_HD_29th % Phase3_current_max A 2-3_voltage_HD_31st % Average_current_demand A 1-H_current_Total A Phase1_current_demand A 1-H_current_1st A Phase2_current_demand A 1-H_current_3rd A Phase3_current_demand A 1-H_current_5th A Average_current_demand_max A 1-H_current_7th A Phase1_current_demand_max A 1-H_current_9th A Phase2_current_demand_max A 1-H_current_11th A Phase3_current_demand_max A 1-H_current_13th A Average L-L voltage V 1-H_current_15th A 1-2_voltage V 1-H_current_17th A 2-3_voltage V 1-H_current_19th A 3-1_voltage V 1-H_current_21st A Average_L-L_voltage_max V 1-H_current_23rd A 1-2_voltage_max V 1-H_current_25th A 2-3_voltage_max V 1-H_current_27th A 3-1_voltage_max V 1-H_current_29th A Average_L-L_voltage_min V 1-H_current_31th A 1-2_voltage_min V 1_current_THD % 2-3_voltage_min V 2-H_current_Total A 3-1_voltage_min V 2-H_current_1st A Total_active_power kW 2-H_current_3rd A Total_active_power_max kW 2-H_current_5th A Total_active_power_min kW 2-H_current_7th A Total_rolling_demand kW 2-H_current_9th A Total_rolling_demand_max kW 2-H_current_11th A Total_reactive_power kvar 2-H_current_13th A Total_reactive_power_max kvar 2-H_current_15th A Total_reactive_power_min kvar 2-H_current_17th A Total_power_factor % 2-H_current_19th A Total_power_factor_max % 2-H_current_21st A Total_power_factor_min % 2-H_current_23rd A Frequency Hz 2-H_current_25th A Frequency_max Hz 2-H_current_27th A 1-2_H_voltage_Total V 2-H_current_29th A 1-2_H_voltage_1st V 2-H_current_31th A 1-2_voltage_THD % 2_current_THD % 1-2_voltage_HD_3rd % 3-H_current_Total A 1-2_voltage_HD_5th % 3-H_current_1st A 1-2_voltage_HD_7th % 3-H_current_3rd A 1-2_voltage_HD_9th % 3-H_current_5th A 1-2_voltage_HD_11th % 3-H_current_7th A 1-2_voltage_HD_13th % 3-H_current_9th A 1-2_voltage_HD_15th % 3-H_current_11th A 1-2_voltage_HD_17th % 3-H_current_13th A 1-2_voltage_HD_19th % 3-H_current_15th A 1-2_voltage_HD_21st % 3-H_current_17th A 1-2_voltage_HD_23rd % 3-H_current_19th A 1-2_voltage_HD_25th % 3-H_current_21st A 1-2_voltage_HD_27th % 3-H_current_23rd A 1-2_voltage_HD_29th % 3-H_current_25th A 1-2_voltage_HD_31st % 3-H_current_27th A

3-H_current_29th A 3-H_current_31th A 3_current_THD %

5-43

*1 The measured items differ with the phase wire method. For details, refer to the instruction manual or specification sheet of the terminal.

5-44

5.3.24. ME96SSH-MB (3P4W) Measured items Unit Measured items Unit

Active_energy_Import kWh Total_active_power kW Active_energy_Export kWh Phase1_active_power kW Reactive_energy_Import_lag kvarh Phase2_active_power kW Reactive_energy_Export_lag kvarh Phase3_active_power kW Reactive_energy_Import_lead kvarh Total_active_power_max kW Reactive_energy_Export_lead kvarh Phase1_active_power_max kW Apparent_energy kVAh Phase2_active_power_max kW Periodic_active_energy_1 kWh Phase3_active_power_max kW Periodic _active_energy_2 kWh Total_active_power_min kW Operating_time1 h Phase1_active_power_min kW Operating_time2 h Phase2_active_power_min kW Average_current A Phase3_active_power_min kW Phase1_current A Total_rolling_demand kW Phase2_current A Total_rolling_demand_max kW Phase3_current A Total_reactive_power kvar PhaseN_current A Phase1_reactive_power kvar Average_current_max A Phase2_reactive_power kvar Phase1_current_max A Phase3_reactive_power kvar Phase2_current_max A Total_reactive_power_max kvar Phase3_current_max A Phase1_reactive_power_max kvar PhaseN_current_max A Phase2_reactive_power_max kvar Average_current_demand A Phase3_reactive_power_max kvar Phase1_current_demand A Total_reactive_power_min kvar Phase2_current_demand A Phase1_reactive_power_min kvar Phase3_current_demand A Phase2_reactive_power_min kvar PhaseN_current_demand A Phase3_reactive_power_min kvar Average_current_demand_max A Total_apparent_power kVA Phase1_current_demand_max A Phase1_apparent_power kVA Phase2_current_demand_max A Phase2_apparent_power kVA Phase3_current_demand_max A Phase3_apparent_power kVA PhaseN_current_demand_max A Total_apparent_power_max kVA Average L-L voltage V Phase1_apparent_power_max kVA 1-2_voltage V Phase2_apparent_power_max kVA 2-3_voltage V Phase3_apparent_power_max kVA 3-1_voltage V Total_power_factor % Average_L-L_voltage_max V Phase1_power_factor % 1-2_voltage_max V Phase2_power_factor % 2-3_voltage_max V Phase3_power_factor % 3-1_voltage_max V Total_power_factor_max % Average_L-L_voltage_min V Phase1_power_factor_max % 1-2_voltage_min V Phase2_power_factor_max % 2-3_voltage_min V Phase3_power_factor_max % 3-1_voltage_min V Total_power_factor_min % Average_L-N_voltage V Phase1_power_factor_min % 1-N_voltage V Phase2_power_factor_min % 2-N_voltage V Phase3_power_factor_min % 3-N_voltage V Frequency Hz Average_L-N_voltage_max V Frequency_max Hz 1-N_voltage_max V 2-N_voltage_max V 3-N_voltage_max V Average_L-N_voltage_min V 1-N_voltage_min V 2-N_voltage_min V 3-N_voltage_min V

5-45

Measured items Unit Measured items Unit 1-N_H_voltage_Total V 1-H_current_17th A 1-N_H_voltage_1st V 1-H_current_19th A 1-N_voltage_THD % 1-H_current_21st A 1-N_voltage_HD_3rd % 1-H_current_23rd A 1-N_voltage_HD_5th % 1-H_current_25th A 1-N_voltage_HD_7th % 1-H_current_27th A 1-N_voltage_HD_9th % 1-H_current_29th A 1-N_voltage_HD_11th % 1-H_current_31th A 1-N_voltage_HD_13th % 1_current_THD % 1-N_voltage_HD_15th % 2-H_current_Total A 1-N_voltage_HD_17th % 2-H_current_1st A 1-N_voltage_HD_19th % 2-H_current_3rd A 1-N_voltage_HD_21st % 2-H_current_5th A 1-N_voltage_HD_23rd % 2-H_current_7th A 1-N_voltage_HD_25th % 2-H_current_9th A 1-N_voltage_HD_27th % 2-H_current_11th A 1-N_voltage_HD_29th % 2-H_current_13th A 1-N_voltage_HD_31st % 2-H_current_15th A 2-N_H_voltage_Total V 2-H_current_17th A 2-N_H_voltage_1st V 2-H_current_19th A 2-N_voltage_THD % 2-H_current_21st A 2-N_voltage_HD_3rd % 2-H_current_23rd A 2-N_voltage_HD_5th % 2-H_current_25th A 2-N_voltage_HD_7th % 2-H_current_27th A 2-N_voltage_HD_9th % 2-H_current_29th A 2-N_voltage_HD_11th % 2-H_current_31th A 2-N_voltage_HD_13th % 2_current_THD % 2-N_voltage_HD_15th % 3-H_current_Total A 2-N_voltage_HD_17th % 3-H_current_1st A 2-N_voltage_HD_19th % 3-H_current_3rd A 2-N_voltage_HD_21st % 3-H_current_5th A 2-N_voltage_HD_23rd % 3-H_current_7th A 2-N_voltage_HD_25th % 3-H_current_9th A 2-N_voltage_HD_27th % 3-H_current_11th A 2-N_voltage_HD_29th % 3-H_current_13th A 2-N_voltage_HD_31st % 3-H_current_15th A 3-N_H_voltage_Total V 3-H_current_17th A 3-N_H_voltage_1st V 3-H_current_19th A 3-N_voltage_THD % 3-H_current_21st A 3-N_voltage_HD_3rd % 3-H_current_23rd A 3-N_voltage_HD_5th % 3-H_current_25th A 3-N_voltage_HD_7th % 3-H_current_27th A 3-N_voltage_HD_9th %

3-H_current_29th A 3-N_voltage_HD_11th % 3-H_current_31th A 3-N_voltage_HD_13th % 3_current_THD % 3-N_voltage_HD_15th % N-H_current_Total A 3-N_voltage_HD_17th % N-H_current_1st A 3-N_voltage_HD_19th % N-H_current_3rd A 3-N_voltage_HD_21st % N-H_current_5th A 3-N_voltage_HD_23rd % N-H_current_7th A 3-N_voltage_HD_25th % N-H_current_9th A 3-N_voltage_HD_27th % N-H_current_11th A 3-N_voltage_HD_29th % N-H_current_13th A 3-N_voltage_HD_31st % N-H_current_15th A 1-H_current_Total A N-H_current_17th A 1-H_current_1st A N-H_current_19th A 1-H_current_3rd A N-H_current_21st A 1-H_current_5th A N-H_current_23rd A 1-H_current_7th A N-H_current_25th A 1-H_current_9th A N-H_current_27th A 1-H_current_11th A N-H_current_29th A 1-H_current_13th A N-H_current_31th A 1-H_current_15th A

*1 The measured items differ with the phase wire method.

For details, refer to the instruction manual or specification sheet of the terminal.

5-46

5.3.25. ME96SSR-MB (1P2W, 3P3W)

Measured items Unit Measured items Unit Active_energy_Import kWh 1-2_H_voltage_Total V Active_energy_Export kWh 1-2_H_voltage_1st V Reactive_energy_Import_lag kvarh 1-2_voltage_THD % Reactive_energy_Export_lag kvarh 1-2_voltage_HD_3rd % Reactive_energy_Import_lead kvarh 1-2_voltage_HD_5th % Reactive_energy_Export_lead kvarh 1-2_voltage_HD_7th % Periodic_active_energy_1 kWh 1-2_voltage_HD_9th % Periodic _active_energy_2 kWh 1-2_voltage_HD_11th % Operating_time1 h 1-2_voltage_HD_13th % Operating_time2 h 2-3_H_voltage_Total V Average_current A 2-3_H_voltage_1st V Phase1_current A 2-3_voltage_THD % Phase2_current A 2-3_voltage_HD_3rd % Phase3_current A 2-3_voltage_HD_5th % Average_current_max A 2-3_voltage_HD_7th % Phase1_current_max A 2-3_voltage_HD_9th % Phase2_current_max A 2-3_voltage_HD_11th % Phase3_current_max A 2-3_voltage_HD_13th % Average_current_demand A 1-H_current_Total A Phase1_current_demand A 1-H_current_1st A Phase2_current_demand A 1-H_current_3rd A Phase3_current_demand A 1-H_current_5th A Average_current_demand_max A 1-H_current_7th A Phase1_current_demand_max A 1-H_current_9th A Phase2_current_demand_max A 1-H_current_11th A Phase3_current_demand_max A 1-H_current_13th A Average L-L voltage V 1_current_THD % 1-2_voltage V 2-H_current_Total A 2-3_voltage V 2-H_current_1st A 3-1_voltage V 2-H_current_3rd A Average_L-L_voltage_max V 2-H_current_5th A 1-2_voltage_max V 2-H_current_7th A 2-3_voltage_max V 2-H_current_9th A 3-1_voltage_max V 2-H_current_11th A Average_L-L_voltage_min V 2-H_current_13th A 1-2_voltage_min V 2_current_THD % 2-3_voltage_min V 3-H_current_Total A 3-1_voltage_min V 3-H_current_1st A Total_active_power kW 3-H_current_3rd A Total_active_power_max kW 3-H_current_5th A Total_active_power_min kW 3-H_current_7th A Total_rolling_demand kW 3-H_current_9th A Total_rolling_demand_max kW 3-H_current_11th A Total_reactive_power kvar 3-H_current_13th A Total_reactive_power_max kvar 3_current_THD % Total_reactive_power_min kvar

Total_power_factor % Total_power_factor_max % Total_power_factor_min % Frequency Hz Frequency_max Hz

*1 The measured items differ with the phase wire method. For details, refer to the instruction manual or specification sheet of the terminal.

5-47

5.3.26. ME96SSR-MB (1P3W) Measured items Unit Measured items Unit

Active_energy_Import kWh Total_power_factor % Active_energy_Export kWh Total_power_factor_max % Reactive_energy_Import_lag kvarh Total_power_factor_min % Reactive_energy_Export_lag kvarh Frequency Hz Reactive_energy_Import_lead kvarh Frequency_max Hz Reactive_energy_Export_lead kvarh 1-2_H_voltage_Total V Periodic_active_energy_1 kWh 1-2_H_voltage_1st V Periodic _active_energy_2 kWh 1-2_voltage_THD % Operating_time1 h 1-2_voltage_HD_3rd % Operating_time2 h 1-2_voltage_HD_5th % Average_current A 1-2_voltage_HD_7th % Phase1_current A 1-2_voltage_HD_9th % Phase2_current A 1-2_voltage_HD_11th % Phase3_current A 1-2_voltage_HD_13th % Average_current_max A 2-3_H_voltage_Total V Phase1_current_max A 2-3_H_voltage_1st V Phase2_current_max A 2-3_voltage_THD % Phase3_current_max A 2-3_voltage_HD_3rd % Average_current_demand A 2-3_voltage_HD_5th % Phase1_current_demand A 2-3_voltage_HD_7th % Phase2_current_demand A 2-3_voltage_HD_9th % Phase3_current_demand A 2-3_voltage_HD_11th % Average_current_demand_max A 2-3_voltage_HD_13th % Phase1_current_demand_max A 1-H_current_Total A Phase2_current_demand_max A 1-H_current_1st A Phase3_current_demand_max A 1-H_current_3rd A Average L-L voltage V 1-H_current_5th A 1-2_voltage V 1-H_current_7th A 2-3_voltage V 1-H_current_9th A 3-1_voltage V 1-H_current_11th A Average_L-L_voltage_max V 1-H_current_13th A 1-2_voltage_max V 1_current_THD % 2-3_voltage_max V 3-H_current_Total A 3-1_voltage_max V 3-H_current_1st A Average_L-L_voltage_min V 3-H_current_3rd A 1-2_voltage_min V 3-H_current_5th A 2-3_voltage_min V 3-H_current_7th A 3-1_voltage_min V 3-H_current_9th A Total_active_power kW 3-H_current_11th A Total_active_power_max kW 3-H_current_13th A Total_active_power_min kW 3_current_THD % Total_rolling_demand kW

Total_rolling_demand_max kW Total_reactive_power kvar Total_reactive_power_max kvar Total_reactive_power_min kvar

*1 The measured items differ with the phase wire method. For details, refer to the instruction manual or specification sheet of the terminal.

5-48

5.3.27. ME96SSR-MB (3P4W) Measured items Unit Measured items Unit

Active_energy_Import kWh Total_active_power kW Active_energy_Export kWh Phase1_active_power kW Reactive_energy_Import_lag kvarh Phase2_active_power kW Reactive_energy_Export_lag kvarh Phase3_active_power kW Reactive_energy_Import_lead kvarh Total_active_power_max kW Reactive_energy_Export_lead kvarh Phase1_active_power_max kW Apparent_energy kVAh Phase2_active_power_max kW Periodic_active_energy_1 kWh Phase3_active_power_max kW Periodic _active_energy_2 kWh Total_active_power_min kW Operating_time1 h Phase1_active_power_min kW Operating_time2 h Phase2_active_power_min kW Average_current A Phase3_active_power_min kW Phase1_current A Total_rolling_demand kW Phase2_current A Total_rolling_demand_max kW Phase3_current A Total_reactive_power kvar PhaseN_current A Phase1_reactive_power kvar Average_current_max A Phase2_reactive_power kvar Phase1_current_max A Phase3_reactive_power kvar Phase2_current_max A Total_reactive_power_max kvar Phase3_current_max A Phase1_reactive_power_max kvar PhaseN_current_max A Phase2_reactive_power_max kvar Average_current_demand A Phase3_reactive_power_max kvar Phase1_current_demand A Total_reactive_power_min kvar Phase2_current_demand A Phase1_reactive_power_min kvar Phase3_current_demand A Phase2_reactive_power_min kvar PhaseN_current_demand A Phase3_reactive_power_min kvar Average_current_demand_max A Total_apparent_power kVA Phase1_current_demand_max A Phase1_apparent_power kVA Phase2_current_demand_max A Phase2_apparent_power kVA Phase3_current_demand_max A Phase3_apparent_power kVA PhaseN_current_demand_max A Total_apparent_power_max kVA Average L-L voltage V Phase1_apparent_power_max kVA 1-2_voltage V Phase2_apparent_power_max kVA 2-3_voltage V Phase3_apparent_power_max kVA 3-1_voltage V Total_power_factor % Average_L-L_voltage_max V Phase1_power_factor % 1-2_voltage_max V Phase2_power_factor % 2-3_voltage_max V Phase3_power_factor % 3-1_voltage_max V Total_power_factor_max % Average_L-L_voltage_min V Phase1_power_factor_max % 1-2_voltage_min V Phase2_power_factor_max % 2-3_voltage_min V Phase3_power_factor_max % 3-1_voltage_min V Total_power_factor_min % Average_L-N_voltage V Phase1_power_factor_min % 1-N_voltage V Phase2_power_factor_min % 2-N_voltage V Phase3_power_factor_min % 3-N_voltage V Frequency Hz Average_L-N_voltage_max V Frequency_max Hz 1-N_voltage_max V 2-N_voltage_max V 3-N_voltage_max V Average_L-N_voltage_min V 1-N_voltage_min V 2-N_voltage_min V 3-N_voltage_min V

5-49

Measured items Unit Measured items Unit 1-N_H_voltage_Total V 2-H_current_Total A 1-N_H_voltage_1st V 2-H_current_1st A 1-N_voltage_THD % 2-H_current_3rd A 1-N_voltage_HD_3rd % 2-H_current_5th A 1-N_voltage_HD_5th % 2-H_current_7th A 1-N_voltage_HD_7th % 2-H_current_9th A 1-N_voltage_HD_9th % 2-H_current_11th A 1-N_voltage_HD_11th % 2-H_current_13th A 1-N_voltage_HD_13th % 2_current_THD % 2-N_H_voltage_Total V 3-H_current_Total A 2-N_H_voltage_1st V 3-H_current_1st A 2-N_voltage_THD % 3-H_current_3rd A 2-N_voltage_HD_3rd % 3-H_current_5th A 2-N_voltage_HD_5th % 3-H_current_7th A 2-N_voltage_HD_7th % 3-H_current_9th A 2-N_voltage_HD_9th % 3-H_current_11th A 2-N_voltage_HD_11th % 3-H_current_13th A 2-N_voltage_HD_13th % 3_current_THD % 3-N_H_voltage_Total V N-H_current_Total A 3-N_H_voltage_1st V N-H_current_1st A 3-N_voltage_THD % N-H_current_3rd A 3-N_voltage_HD_3rd % N-H_current_5th A 3-N_voltage_HD_5th % N-H_current_7th A 3-N_voltage_HD_7th % N-H_current_9th A 3-N_voltage_HD_9th %

N-H_current_11th A 3-N_voltage_HD_11th % N-H_current_13th A 3-N_voltage_HD_13th % 1-H_current_Total A 1-H_current_1st A 1-H_current_3rd A 1-H_current_5th A 1-H_current_7th A 1-H_current_9th A 1-H_current_11th A 1-H_current_13th A 1_current_THD %

*1 The measured items differ with the phase wire method.

For details, refer to the instruction manual or specification sheet of the terminal.

5-50

5.3.28. ME110SSR-C(H) (1P2W, 1P3W, 3P3W)

Measured items Unit Measured items Unit Active energy (Import) kWh HA; phase1 D.ratio 11th % Active energy (Export) kWh HA; phase1 D.ratio 13th % Reactive energy (Import:lag) kvarh HA; phase3 D.ratio total % Reactive energy (Export:lag) kvarh HA; phase3 D.ratio 3rd % Reactive energy (Import:lead) kvarh HA; phase3 D.ratio 5th % Reactive energy (Export:lead) kvarh HA; phase3 D.ratio 7th % Current; phase1 A HA; phase3 D.ratio 9th % Current; phase2 A HA; phase3 D.ratio 11th % Current; phase3 A HA; phase3 D.ratio 13th % Voltage; phase1-2 V HV; phase1-2 RMS total V Voltage; phase2-3 V HV; phase1-2 RMS 1st V Voltage; phase3-1 V HV; phase1-2 RMS 3rd V Active power kW HV; phase1-2 RMS 5th V Reactive power kvar HV; phase1-2 RMS 7th V Power factor % HV; phase1-2 RMS 9th V Frequency Hz HV; phase1-2 RMS 11th V Current demand; phase1 A HV; phase1-2 RMS 13th V Current demand; phase2 A HV; phase2-3 RMS total V Current demand; phase3 A HV; phase2-3 RMS 1st V Electric power demand kW HV; phase2-3 RMS 3rd V HA; phase1 RMS total A HV; phase2-3 RMS 5th V HA; phase1 RMS 1st A HV; phase2-3 RMS 7th V HA; phase1 RMS 3rd A HV; phase2-3 RMS 9th V HA; phase1 RMS 5th A HV; phase2-3 RMS 11th V HA; phase1 RMS 7th A HV; phase2-3 RMS 13th V HA; phase1 RMS 9th A HV; phase1-2 D.ratio total % HA; phase1 RMS 11th A HV; phase1-2 D.ratio 3rd % HA; phase1 RMS 13th A HV; phase1-2 D.ratio 5th % HA; phase3 RMS total A HV; phase1-2 D.ratio 7th % HA; phase3 RMS 1st A HV; phase1-2 D.ratio 9th % HA; phase3 RMS 3rd A HV; phase1-2 D.ratio 11th % HA; phase3 RMS 5th A HV; phase1-2 D.ratio 13th % HA; phase3 RMS 7th A HV; phase2-3 D.ratio total % HA; phase3 RMS 9th A HV; phase2-3 D.ratio 3rd % HA; phase3 RMS 11th A HV; phase2-3 D.ratio 5th % HA; phase3 RMS 13th A HV; phase2-3 D.ratio 7th % HA; phase1 D.ratio total % HV; phase2-3 D.ratio 9th % HA; phase1 D.ratio 3rd % HV; phase2-3 D.ratio 11th % HA; phase1 D.ratio 5th % HV; phase2-3 D.ratio 13th % HA; phase1 D.ratio 7th % HA; phase1 D.ratio 9th %

*1 The measured items differ with the phase wire method.

For details, refer to the instruction manual or specification sheet of the terminal.

5-51

5.3.29. ME110SSR-C(H) (3P4W) Measured items Unit Measured items Unit

Active energy (Import) kWh HA; phase1 D.ratio total % Active energy (Export) kWh HA; phase1 D.ratio 3rd % Reactive energy (Import:lag) kvarh HA; phase1 D.ratio 5th % Reactive energy (Export:lag) kvarh HA; phase1 D.ratio 7th % Reactive energy (Import:lead) kvarh HA; phase1 D.ratio 9th % Reactive energy (Export:lead) kvarh HA; phase1 D.ratio 11th % Current; phase1 A HA; phase1 D.ratio 13th % Current; phase2 A HA; phase2 D.ratio total % Current; phase3 A HA; phase3 D.ratio total % Current; phaseN A HA; phase3 D.ratio 3rd % Current; average A HA; phase3 D.ratio 5th % Voltage; phase1-2 V HA; phase3 D.ratio 7th % Voltage; phase2-3 V HA; phase3 D.ratio 9th % Voltage; phase3-1 V HA; phase3 D.ratio 11th % Voltage; L-L; average V HA; phase3 D.ratio 13th % Voltage; phase1-N V HA; phaseN D.ratio total % Voltage; phase2-N V HV; phase1-2 RMS total V Voltage; phase3-N V HV; phase1-2 RMS 1st V Voltage; L-N; average V HV; phase1-2 RMS 3rd V Active power kW HV; phase1-2 RMS 5th V Reactive power kvar HV; phase1-2 RMS 7th V Power factor % HV; phase1-2 RMS 9th V Frequency Hz HV; phase1-2 RMS 11th V Current demand; phase1 A HV; phase1-2 RMS 13th V Current demand; phase2 A HV; phase2-3 RMS total V Current demand; phase3 A HV; phase2-3 RMS 1st V Current demand; phaseN A HV; phase2-3 RMS 3rd V Current demand; average A HV; phase2-3 RMS 5th V Electric power demand kW HV; phase2-3 RMS 7th V HA; phase1 RMS total A HV; phase2-3 RMS 9th V HA; phase1 RMS 1st A HV; phase2-3 RMS 11th V HA; phase1 RMS 3rd A HV; phase2-3 RMS 13th V HA; phase1 RMS 5th A HV; phase1-2 D.ratio total % HA; phase1 RMS 7th A HV; phase1-2 D.ratio 3rd % HA; phase1 RMS 9th A HV; phase1-2 D.ratio 5th % HA; phase1 RMS 11th A HV; phase1-2 D.ratio 7th % HA; phase1 RMS 13th A HV; phase1-2 D.ratio 9th % HA; phase2 RMS total A HV; phase1-2 D.ratio 11th % HA; phase2 RMS 1st A HV; phase1-2 D.ratio 13th % HA; phase2 RMS 3rd A HV; phase2-3 D.ratio total % HA; phase2 RMS 5th A HV; phase2-3 D.ratio 3rd % HA; phase2 RMS 7th A HV; phase2-3 D.ratio 5th % HA; phase2 RMS 9th A HV; phase2-3 D.ratio 7th % HA; phase2 RMS 11th A HV; phase2-3 D.ratio 9th % HA; phase2 RMS 13th A HV; phase2-3 D.ratio 11th % HA; phase3 RMS total A HV; phase2-3 D.ratio 13th % HA; phase3 RMS 1st A HV; phase1-N RMS total V HA; phase3 RMS 3rd A HV; phase1-N RMS 1st V HA; phase3 RMS 5th A HV; phase2-N RMS total V HA; phase3 RMS 7th A HV; phase2-N RMS 1st V HA; phase3 RMS 9th A HV; phase3-N RMS total V HA; phase3 RMS 11th A HV; phase3-N RMS 1st V HA; phase3 RMS 13th A HV; phase1-N D.ratio total % HA; phaseN RMS total A HV; phase1-N D.ratio 3rd % HA; phaseN RMS 1st A HV; phase1-N D.ratio 5th % HA; phaseN RMS 3rd A HV; phase1-N D.ratio 7th % HA; phaseN RMS 5th A HV; phase1-N D.ratio 9th % HA; phaseN RMS 7th A HV; phase1-N D.ratio 11th % HA; phaseN RMS 9th A HV; phase1-N D.ratio 13th % HA; phaseN RMS 11th A HV; phase2-N D.ratio total % HA; phaseN RMS 13th A HV; phase2-N D.ratio 3rd %

5-52

Measured items Unit Measured items Unit HV; phase2-N D.ratio 5th % HV; phase3-N D.ratio 5th % HV; phase2-N D.ratio 7th % HV; phase3-N D.ratio 7th % HV; phase2-N D.ratio 9th % HV; phase3-N D.ratio 9th % HV; phase2-N D.ratio 11th % HV; phase3-N D.ratio 11th % HV; phase2-N D.ratio 13th % HV; phase3-N D.ratio 13th % HV; phase3-N D.ratio total % HV; phase3-N D.ratio 3rd %

*1 The measured items differ with the phase wire method.

For details, refer to the instruction manual or specification sheet of the terminal.

5-53

5.3.30. ME110NSR-C Measured items Unit Measured items Unit

Active energy (Import) kWh HA; phase1 D.ratio total % Active energy (Export) kWh HA; phase1 D.ratio 3rd % Reactive energy (Import:lag) kvarh HA; phase1 D.ratio 5th % Reactive energy (Export:lag) kvarh HA; phase1 D.ratio 7th % Reactive energy (Import:lead) kvarh HA; phase1 D.ratio 9th % Reactive energy (Export:lead) kvarh HA; phase1 D.ratio 11th % Current; phase1 A HA; phase1 D.ratio 13th % Current; phase2 A HA; phase2 D.ratio total % Current; phase3 A HA; phase3 D.ratio total % Current; phaseN A HA; phase3 D.ratio 3rd % Current; average A HA; phase3 D.ratio 5th % Voltage; phase1-2 V HA; phase3 D.ratio 7th % Voltage; phase2-3 V HA; phase3 D.ratio 9th % Voltage; phase3-1 V HA; phase3 D.ratio 11th % Voltage; L-L; average V HA; phase3 D.ratio 13th % Voltage; phase1-N V HA; phaseN D.ratio total % Voltage; phase2-N V HV; phase1-2 RMS total V Voltage; phase3-N V HV; phase1-2 RMS 1st V Voltage; L-N; average V HV; phase1-2 RMS 3rd V Active power kW HV; phase1-2 RMS 5th V Reactive power kvar HV; phase1-2 RMS 7th V Power factor % HV; phase1-2 RMS 9th V Frequency Hz HV; phase1-2 RMS 11th V Current demand; phase1 A HV; phase1-2 RMS 13th V Current demand; phase2 A HV; phase2-3 RMS total V Current demand; phase3 A HV; phase2-3 RMS 1st V Current demand; phaseN A HV; phase2-3 RMS 3rd V Current demand; average A HV; phase2-3 RMS 5th V Electric power demand kW HV; phase2-3 RMS 7th V HA; phase1 RMS total A HV; phase2-3 RMS 9th V HA; phase1 RMS 1st A HV; phase2-3 RMS 11th V HA; phase1 RMS 3rd A HV; phase2-3 RMS 13th V HA; phase1 RMS 5th A HV; phase1-2 D.ratio total % HA; phase1 RMS 7th A HV; phase1-2 D.ratio 3rd % HA; phase1 RMS 9th A HV; phase1-2 D.ratio 5th % HA; phase1 RMS 11th A HV; phase1-2 D.ratio 7th % HA; phase1 RMS 13th A HV; phase1-2 D.ratio 9th % HA; phase2 RMS total A HV; phase1-2 D.ratio 11th % HA; phase2 RMS 1st A HV; phase1-2 D.ratio 13th % HA; phase2 RMS 3rd A HV; phase2-3 D.ratio total % HA; phase2 RMS 5th A HV; phase2-3 D.ratio 3rd % HA; phase2 RMS 7th A HV; phase2-3 D.ratio 5th % HA; phase2 RMS 9th A HV; phase2-3 D.ratio 7th % HA; phase2 RMS 11th A HV; phase2-3 D.ratio 9th % HA; phase2 RMS 13th A HV; phase2-3 D.ratio 11th % HA; phase3 RMS total A HV; phase2-3 D.ratio 13th % HA; phase3 RMS 1st A HV; phase1-N RMS total V HA; phase3 RMS 3rd A HV; phase1-N RMS 1st V HA; phase3 RMS 5th A HV; phase2-N RMS total V HA; phase3 RMS 7th A HV; phase2-N RMS 1st V HA; phase3 RMS 9th A HV; phase3-N RMS total V HA; phase3 RMS 11th A HV; phase3-N RMS 1st V HA; phase3 RMS 13th A HV; phase1-N D.ratio total % HA; phaseN RMS total A HV; phase1-N D.ratio 3rd % HA; phaseN RMS 1st A HV; phase1-N D.ratio 5th % HA; phaseN RMS 3rd A HV; phase1-N D.ratio 7th % HA; phaseN RMS 5th A HV; phase1-N D.ratio 9th % HA; phaseN RMS 7th A HV; phase1-N D.ratio 11th % HA; phaseN RMS 9th A HV; phase1-N D.ratio 13th % HA; phaseN RMS 11th A HV; phase2-N D.ratio total % HA; phaseN RMS 13th A HV; phase2-N D.ratio 3rd %

5-54

Measured items Unit Measured items Unit HV; phase2-N D.ratio 5th % HV; phase3-N D.ratio 5th % HV; phase2-N D.ratio 7th % HV; phase3-N D.ratio 7th % HV; phase2-N D.ratio 9th % HV; phase3-N D.ratio 9th % HV; phase2-N D.ratio 11th % HV; phase3-N D.ratio 11th % HV; phase2-N D.ratio 13th % HV; phase3-N D.ratio 13th % HV; phase3-N D.ratio total % HV; phase3-N D.ratio 3rd %

*1 The measured items differ with the phase wire method. For details, refer to the instruction manual or specification sheet of the terminal.

5.3.31. AJ65BT-68TD Measured items Unit Measured items Unit

Ch1 temperature C Ch5 temperature C Ch2 temperature C Ch6 temperature C Ch3 temperature C Ch7 temperature C Ch4 temperature C Ch8 temperature C

*1 The number of digits after the decimal point is fixed at 1. *2 The type of thermocouple is selected from "K", "E", "J", "T", "B", "R", and "S".

5.3.32. AJ65BT-64RD3 Measured items Unit Ch1 temperature C Ch2 temperature C Ch3 temperature C Ch4 temperature C

*1 The number of digits after the decimal point is selected from "integer", "1 digit", "2 digits", and "3 digits".

5-55

5.3.33. AJ65BT-64AD

Measured items Unit Ch1 analog value *1 Ch2 analog value *1 Ch3 analog value *1 Ch4 analog value *1

*1 Arbitrary characters (a maximum of 8 characters) can be set as the unit. *2 The range of input is selected from "0 to 20mA", "4 to 20mA", "0 to 5V", "1 to 5V", "-5 to 5V",

"-10 to 10V", and "-20 to 20mV". *3 For the scale, -99999 to 999999 (6 digits including signs and the decimal point, up to 3 places

after the decimal point) can be set. *4 When power factor is selected, the power factor indication is selected from "-0% to 100% to

0%" and "-50% to 100% to 50%". *5 The number of digits after the decimal point is selected from "integer", "1 digit", "2 digits", and

"3 digits".

5.3.34. AJ65SBTB1-8D Measured items Unit Measured items Unit

Ch1 digital input value *1 Ch5 digital input value *1 Ch2 digital input value *1 Ch6 digital input value *1 Ch3 digital input value *1 Ch7 digital input value *1 Ch4 digital input value *1 Ch8 digital input value *1

*1 The unit setting is arbitrary.

When the unit is set, arbitrary characters (a maximum of 8 characters) can be set. *2 This terminal is used for a measuring point of operation monitoring.

5.3.35. AJ65SBTB1-16D Measured items Unit Measured items Unit

Ch1 digital input value *1 Ch9 digital input value *1 Ch2 digital input value *1 Ch10 digital input value *1 Ch3 digital input value *1 Ch11 digital input value *1 Ch4 digital input value *1 Ch12 digital input value *1 Ch5 digital input value *1 Ch13 digital input value *1 Ch6 digital input value *1 Ch14 digital input value *1 Ch7 digital input value *1 Ch15 digital input value *1 Ch8 digital input value *1 Ch16 digital input value *1

*1 The unit setting is arbitrary.

When the unit is set, arbitrary characters (a maximum of 8 characters) can be set. *2 This terminal is used for a measuring point of operation monitoring.

5-56

5.3.36. AJ65SBTB1-32D Measured items Unit Measured items Unit

Ch1 digital input value *1 Ch17 digital input value *1 Ch2 digital input value *1 Ch18 digital input value *1 Ch3 digital input value *1 Ch19 digital input value *1 Ch4 digital input value *1 Ch20 digital input value *1 Ch5 digital input value *1 Ch21 digital input value *1 Ch6 digital input value *1 Ch22 digital input value *1 Ch7 digital input value *1 Ch23 digital input value *1 Ch8 digital input value *1 Ch24 digital input value *1 Ch9 digital input value *1 Ch25 digital input value *1 Ch10 digital input value *1 Ch26 digital input value *1 Ch11 digital input value *1 Ch27 digital input value *1 Ch12 digital input value *1 Ch28 digital input value *1 Ch13 digital input value *1 Ch29 digital input value *1 Ch14 digital input value *1 Ch30 digital input value *1 Ch15 digital input value *1 Ch31 digital input value *1 Ch16 digital input value *1 Ch32 digital input value *1

*1 The unit setting is arbitrary.

When the unit is set, arbitrary characters (a maximum of 8 characters) can be set. *2 This terminal is used for a measuring point of operation monitoring.

5.3.37. AJ65SBTB1-16DT Measured items Unit Measured items Unit

Ch1 digital input value *1 Ch5 digital input value *1 Ch2 digital input value *1 Ch6 digital input value *1 Ch3 digital input value *1 Ch7 digital input value *1 Ch4 digital input value *1 Ch8 digital input value *1

*1 The unit setting is arbitrary.

When the unit is set, arbitrary characters (a maximum of 8 characters) can be set. *2 Output cannot be used. *3 This terminal is used for a measuring point of operation monitoring.

5.3.38. AJ65SBTB1-32DT Measured items Unit Measured items Unit

Ch1 digital input value *1 Ch9 digital input value *1 Ch2 digital input value *1 Ch10 digital input value *1 Ch3 digital input value *1 Ch11 digital input value *1 Ch4 digital input value *1 Ch12 digital input value *1 Ch5 digital input value *1 Ch13 digital input value *1 Ch6 digital input value *1 Ch14 digital input value *1 Ch7 digital input value *1 Ch15 digital input value *1 Ch8 digital input value *1 Ch16 digital input value *1 *1 The unit setting is arbitrary.

When the unit is set, arbitrary characters (a maximum of 8 characters) can be set. *2 Output cannot be used. *3 This terminal is used for a measuring point of operation monitoring.

5-57

5.4. List of support terminals (MODBUS terminal [Support terminal])

Product name Icon/type name

Electronic multi-measuring instrument

ME96SSHB-MB

Electronic multi-measuring instrument

ME96SSRB-MB

Electronic multi-measuring instrument

ME96SSEB-MB

Electronic multi-measuring instrument

ME96SSHA-MB

Electronic multi-measuring instrument

ME96SSRA-MB

Electronic multi-measuring instrument

ME96SSEA-MB

Electronic multi-measuring instrument

ME96SSH-MB

Electronic multi-measuring instrument

ME96SSR-MB

Electronic multi-measuring instrument

ME96SSE-MB

Energy measuring unit (1P2W, 1P3W, 3P3W)

EMU4-BD1-MB

Energy measuring unit (1P2W, 1P3W, 3P3W, 3P4W)

EMU4-HD1-MB

Energy measuring unit (1P2W, 1P3W, 3P3W, 3P4W)

EMU4-FD1-MB

Energy measuring standard model*1

EMU4-BM1-MB

Energy measuring high performance model*1

EMU4-HM1-MB

Insulation Monitoring model*1

EMU4-LG1-MB

Control Unit *1

EMU4-CNT-MB

Energy measuring extension model for same voltage system*2

EMU4-A2

Energy measuring extension model for different voltage system*2

EMU4-VA2

Energy measuring extension model for analog input*2

EMU4-AX4

Energy measuring extension model for pulse/digital input*2

EMU4-PX4

MDU breaker

MDU_breaker

AE-SW MODBUS

AE-SW(BIF-MD)

5-58

*1 EMU4-BM1-MB, EMU4-HM1-MB, EMU4-LG1-MB, EMU4-CNT-MB are main units of EcoMonitorPlus. *2 EMU4-A2, EMU4-VA2, EMU4-AX4, EMU4-PX4 are extension units of EcoMonitorPlus. *3 When the main unit of EcoMonitorPlus is EMU4-CNT-MB, the response data of the measurement value of the extension unit is updated every minute, so the response measurement value is up to 1 minute ago.

5-59

5.5. List of model information (MODBUS terminal [Support terminal]) The following describes the details of settings and setting ranges for models that require the settings of model information on the terminal registration screen. NOTE: Valtage rating is set as a special voltage in EcoWebServerIII. Please change the terminal

setting to special voltage when the deviation of the decimal point has occurred.

5.5.1. ME96SSHB-MB

5.5.2. ME96SSRB-MB

5.5.3. ME96SSEB-MB

5.5.4. ME96SSHA-MB

5.5.5. ME96SSRA-MB

Setting item Setting range Phase wire method 1P2W1P3W3P3W3P4W Voltage rating 1P2W3P3W3P4W

60 - 750000V 1P3W 110/220V220/440V

Current rating 1.0A - 30000A

Setting item Setting range Phase wire method 1P2W1P3W3P3W3P4W Voltage rating 1P2W3P3W3P4W

60 - 750000V 1P3W 110/220V220/440V

Current rating 1.0A - 30000A

Setting item Setting range Phase wire method 1P2W1P3W3P3W3P4W Voltage rating 1P2W3P3W3P4W

60 - 750000V 1P3W 110/220V220/440V

Current rating 1.0A - 30000A

Setting item Setting range Phase wire method 1P2W1P3W3P3W3P4W Voltage rating 1P2W3P3W3P4W

60750000V 1P3W 110/220V220/440V

Current rating 1.0 - 30000A

Setting item Setting range Phase wire method 1P2W1P3W3P3W3P4W Voltage rating 1P2W3P3W3P4W

60750000V 1P3W 110/220V220/440V

Current rating 1.0 - 30000A

5-60

5.5.6. ME96SSEA-MB

5.5.7. ME96SSH-MB

5.5.8. ME96SSR-MB

5.5.9. ME96SSE-MB

5.5.10. EMU4-BD1-MB

Setting item Setting range Phase wire method 1P2W1P3W3P3W3P4W Voltage rating 1P2W3P3W3P4W

60750000V 1P3W 110/220V220/440V

Current rating 1.0 - 30000A

Setting item Setting range Phase wire method 1P2W1P3W3P3W3P4W Voltage rating 1P2W3P3W3P4W

60750000V 1P3W 110/220V220/440V

Current rating 1.0 - 30000A

Setting item Setting range Phase wire method 1P2W1P3W3P3W3P4W Voltage rating 1P2W3P3W3P4W

60750000V 1P3W 110/220V220/440V

Current rating 1.0 - 30000A

Setting item Setting range Phase wire method 1P2W1P3W3P3W3P4W Voltage rating 1P2W3P3W3P4W

60750000V 1P3W 110/220V220/440V

Current rating 1.0 - 30000A

Setting item Setting range Phase wire method 1P2W1P3W3P3W Voltage rating 1P2W3P3W

110V220V440V690V1100V2200V3300V6600V 1P3W 110V

Current rating 5A6A7.5A8A10A12A15A20A25A30A40A50A 60A75A80A100A120A150A200A250A300A400A 500A600A750A800A1000A1200A1500A1600A

2000A2500A3000A4000A5000A6000A

5-61

5.5.11. EMU4-HD1-MB

5.5.12. EMU4-FD1-MB

Setting item Setting range Phase wire method 1P2W1P3W3P3W3P4W Voltage rating 1P2W3P3W

110V220V440V690V1100V2200V3300V6600V 1P3W 110V 3P4W 63.5V100V105V110V115V120V127V200V220V

230V240V242V250V254V265V277V Current rating 5A6A7.5A8A10A12A15A20A25A30A40A50A

60A75A80A100A120A150A200A250A300A400A 500A600A750A800A1000A1200A1250A1500A

1600A2000A2500A3000A4000A5000A6000A 5.5.13. EMU4-BM1-MB

Setting item Setting range Phase wire method 1P2W1P3W3P3W Voltage rating 1P2W3P3W

110V220V440V690V1100V2200V3300V6600V

11000V 13200V 13800V 15000V 16500V 22000V

24000V33000V66000V77000V110000V 1P3W 110/220V

Current rating 5A6A7.5A8A10A12A15A20A25A30A40A

50A60A75A80A100A120A150A200A250A

300A400A500A600A750A800A1000A1200A

1250A 1500A 1600A 2000A 2500A 3000A 4000A

5000A6000A7500A8000A10000A12000A20000A

25000A30000A

Setting item Setting range Phase wire method 1P2W1P3W3P3W3P4W Voltage rating *3P4W is used as phase voltage

1P2W3P3W 110V220V440V690V1100V2200V3300V6600V 1P3W 110V 3P4W 63.5V100V105V110V115V120V127V200V220V

230V240V242V250V254V265V277V Current rating 5A6A7.5A8A10A12A15A20A25A30A40A50A

60A75A80A100A120A150A200A250A300A400A 500A600A750A800A1000A1200A1500A1600A

2000A2500A3000A4000A5000A6000A

5-62

5.5.14. EMU4-HM1-MB

Setting item Setting range Phase wire method 1P2W1P3W3P3W3P4W Voltage rating 1P2W3P3W

110V220V440V690V1100V2200V3300V6600V

11000V 13200V 13800V 15000V 16500V 22000V

24000V33000V66000V77000V110000V 1P3W 110/220V220/440V 3P4W 63.5/110V 100/173V 105/182V 110/190V 115/199V

120/208V 127/220V 200/346V 220/380V 230/400V

240/415V 242/420V 250/430V 254/440V 265/460V

277/480V Current rating 5A6A7.5A8A10A12A15A20A25A30A40A

50A60A75A80A100A120A150A200A250A

300A400A500A600A750A800A1000A1200A

1250A 1500A 1600A 2000A 2500A 3000A 4000A

5000A6000A7500A8000A10000A12000A20000A

25000A30000A 5.5.15. EMU4-LG1-MB

Setting item Setting range Measuring mode Low sensitivity mode, High sensitivity mode

5.5.16. EMU4-A2

Setting item Setting range Phase wire method 1P2W1P3W3P3W3P4W Voltage rating 1P2W3P3W

110V220V440V690V1100V2200V3300V6600V

11000V 13200V 13800V 15000V 16500V 22000V

24000V33000V66000V77000V110000V 1P3W 110/220V220/440V 3P4W 63.5/110V 100/173V 105/182V 110/190V 115/199V

120/208V 127/220V 200/346V 220/380V 230/400V

240/415V 242/420V 250/430V 254/440V 265/460V

277/480V Current rating 5A6A7.5A8A10A12A15A20A25A30A40A

50A60A75A80A100A120A150A200A250A

300A400A500A600A750A800A1000A1200A

1250A 1500A 1600A 2000A 2500A 3000A 4000A

5000A6000A7500A8000A10000A12000A20000A

25000A30000A *1 It is necessary to fix phase wire method and voltage rating for EMU4-A2.

5-63

5.5.17. EMU4-VA2 Setting item Setting range

Phase wire method 1P2W1P3W3P3W3P4W Voltage rating 1P2W3P3W

110V220V440V690V1100V2200V3300V6600V

11000V 13200V 13800V 15000V 16500V 22000V

24000V33000V66000V77000V110000V 1P3W 110/220V220/440V 3P4W 63.5/110V 100/173V 105/182V 110/190V 115/199V

120/208V 127/220V 200/346V 220/380V 230/400V

240/415V 242/420V 250/430V 254/440V 265/460V

277/480V Current rating 5A6A7.5A8A10A12A15A20A25A30A40A

50A60A75A80A100A120A150A200A250A

300A400A500A600A750A800A1000A1200A

1250A 1500A 1600A 2000A 2500A 3000A 4000A

5000A6000A7500A8000A10000A12000A20000A

25000A30000A

5.5.18. MDU_breaker

5.5.19. AE-SW(BIF-MD)

Setting item Setting range Ampere frame 250A, 400A, 800A

Setting item Setting range CT rating 250A, 315A, 500A, 600A, 630A, 1000A, 6300A

5-64

5.6. List of measured items (MODBUS terminal [Support terminal]) The following describes the measured items of the MODBUS terminals [Support terminal] supported by EcoServerIII.

5.6.1. ME96SSHB-MB Measured items Unit Measured items Unit

Active_energy_Import kWh Total_rolling_demand_kVA_Last kVA Active_energy_Export kWh Total_rolling_demand_kVA_Present kVA Reactive_energy_Import_lag kvarh Total_rolling_demand_kVA_Predict kVA Reactive_energy_Export_lag kvarh Total_power_factor % Reactive_energy_Import_lead kvarh Phase1_power_factor % Reactive_energy_Export_lead kvarh Phase2_power_factor % Active_energy_Import_extended kWh Phase3_power_factor % Active_energy_Export_extended kWh Frequency Hz Reactive_energy_Import_lag_extended kvarh Current_unbalance_rate % Reactive_energy_Export_lag_extended kvarh Voltage_unbalance_rate % Reactive_energy_Import_lead_extended kvarh 1-2_H_voltage_Total V Reactive_energy_Export_lead_extended kvarh 1-2_H_voltage_1st V Apparent_energy kVAh 1-2_voltage_THD % Periodic_active_energy_1 kWh 1-2_voltage_HD_3rd % Periodic_active_energy_2 kWh 1-2_voltage_HD_5th % Periodic_active_energy_3 kWh 1-2_voltage_HD_7th % Operating_time1 h 1-2_voltage_HD_9th % Operating_time2 h 1-2_voltage_HD_11th % CO2_equivalent kg 1-2_voltage_HD_13th % Average_current A 1-2_voltage_HD_15th % Phase1_current A 1-2_voltage_HD_17th % Phase2_current A 1-2_voltage_HD_19th % Phase3_current A 1-2_voltage_HD_21st % PhaseN_current A 1-2_voltage_HD_23rd % Average_current_demand A 1-2_voltage_HD_25th % Phase1_current_demand A 1-2_voltage_HD_27th % Phase2_current_demand A 1-2_voltage_HD_29th % Phase3_current_demand A 1-2_voltage_HD_31st % PhaseN_current_demand A 2-3_H_voltage_Total V Average_L-L_voltage V 2-3_H_voltage_1st V 1-2_voltage V 2-3_voltage_THD % 2-3_voltage V 2-3_voltage_HD_3rd % 3-1_voltage V 2-3_voltage_HD_5th % Average_L-L_voltage(3P4W) V 2-3_voltage_HD_7th % 1-2_voltage(3P4W) V 2-3_voltage_HD_9th % 2-3_voltage(3P4W) V 2-3_voltage_HD_11th % 3-1_voltage(3P4W) V 2-3_voltage_HD_13th % Average_L-N_voltage V 2-3_voltage_HD_15th % 1-N_voltage V 2-3_voltage_HD_17th % 2-N_voltage V 2-3_voltage_HD_19th % 3-N_voltage V 2-3_voltage_HD_21st % Total_active_power kW 2-3_voltage_HD_23rd % Phase1_active_power kW 2-3_voltage_HD_25th % Phase2_active_power kW 2-3_voltage_HD_27th % Phase3_active_power kW 2-3_voltage_HD_29th % Total_rolling_demand_kW_Last kW 2-3_voltage_HD_31st % Total_rolling_demand_kW_Present kW 1-N_H_voltage_Total V Total_rolling_demand_kW_Predict kW 1-N_H_voltage_1st V Total_reactive_power kvar 1-N_voltage_THD % Phase1_reactive_power kvar 1-N_voltage_HD_3rd % Phase2_reactive_power kvar 1-N_voltage_HD_5th % Phase3_reactive_power kvar 1-N_voltage_HD_7th % Total_rolling_demand_kvar_Last kvar 1-N_voltage_HD_9th % Total_rolling_demand_kvar_Present kvar 1-N_voltage_HD_11th % Total_rolling_demand_kvar_Predict kvar 1-N_voltage_HD_13th % Total_apparent_power kVA 1-N_voltage_HD_15th % Phase1_apparent_power kVA 1-N_voltage_HD_17th % Phase2_apparent_power kVA 1-N_voltage_HD_19th % Phase3_apparent_power kVA

5-65

Measured items Unit Measured items Unit 1-N_voltage_HD_21st % 2_H_current_5th A 1-N_voltage_HD_23rd % 2_H_current_7th A 1-N_voltage_HD_25th % 2_H_current_9th A 1-N_voltage_HD_27th % 2_H_current_11th A 1-N_voltage_HD_29th % 2_H_current_13th A 1-N_voltage_HD_31st % 2_H_current_15th A 2-N_H_voltage_Total V 2_H_current_17th A 2-N_H_voltage_1st V 2_H_current_19th A 2-N_voltage_THD % 2_H_current_21st A 2-N_voltage_HD_3rd % 2_H_current_23rd A 2-N_voltage_HD_5th % 2_H_current_25th A 2-N_voltage_HD_7th % 2_H_current_27th A 2-N_voltage_HD_9th % 2_H_current_29th A 2-N_voltage_HD_11th % 2_H_current_31st A 2-N_voltage_HD_13th % 2_current_THD % 2-N_voltage_HD_15th % 3_H_current_Total A 2-N_voltage_HD_17th % 3_H_current_1st A 2-N_voltage_HD_19th % 3_H_current_3rd A 2-N_voltage_HD_21st % 3_H_current_5th A 2-N_voltage_HD_23rd % 3_H_current_7th A 2-N_voltage_HD_25th % 3_H_current_9th A 2-N_voltage_HD_27th % 3_H_current_11th A 2-N_voltage_HD_29th % 3_H_current_13th A 2-N_voltage_HD_31st % 3_H_current_15th A 3-N_H_voltage_Total V 3_H_current_17th A 3-N_H_voltage_1st V 3_H_current_19th A 3-N_voltage_THD % 3_H_current_21st A 3-N_voltage_HD_3rd % 3_H_current_23rd A 3-N_voltage_HD_5th % 3_H_current_25th A 3-N_voltage_HD_7th % 3_H_current_27th A 3-N_voltage_HD_9th % 3_H_current_29th A 3-N_voltage_HD_11th % 3_H_current_31st A 3-N_voltage_HD_13th % 3_current_THD % 3-N_voltage_HD_15th % N_H_current_Total A 3-N_voltage_HD_17th % N_H_current_1st A 3-N_voltage_HD_19th % N_H_current_3rd A 3-N_voltage_HD_21st % N_H_current_5th A 3-N_voltage_HD_23rd % N_H_current_7th A 3-N_voltage_HD_25th % N_H_current_9th A 3-N_voltage_HD_27th % N_H_current_11th A 3-N_voltage_HD_29th % N_H_current_13th A 3-N_voltage_HD_31st % N_H_current_15th A 1_H_current_Total A

N_H_current_17th A 1_H_current_1st A N_H_current_19th A 1_H_current_3rd A N_H_current_21st A 1_H_current_5th A N_H_current_23rd A 1_H_current_7th A N_H_current_25th A 1_H_current_9th A N_H_current_27th A 1_H_current_11th A N_H_current_29th A 1_H_current_13th A N_H_current_31st A 1_H_current_15th A N_current_THD % 1_H_current_17th A 1_H_current_19th A 1_H_current_21st A 1_H_current_23rd A 1_H_current_25th A 1_H_current_27th A 1_H_current_29th A 1_H_current_31st A 1_current_THD % 2_H_current_Total A 2_H_current_1st A 2_H_current_3rd A

*1 The measured items differ with the phase wire method.

For details, refer to the instruction manual or specification sheet of the terminal.

5-66

5.6.2. ME96SSRB-MB Measured items Unit Measured items Unit

Active_energy_Import kWh Total_rolling_demand_kVA_Last kVA Active_energy_Export kWh Total_rolling_demand_kVA_Present kVA Reactive_energy_Import_lag kvarh Total_rolling_demand_kVA_Predict kVA Reactive_energy_Export_lag kvarh Total_power_factor % Reactive_energy_Import_lead kvarh Phase1_power_factor % Reactive_energy_Export_lead kvarh Phase2_power_factor % Active_energy_Import_extended kWh Phase3_power_factor % Active_energy_Export_extended kWh Frequency Hz Reactive_energy_Import_lag_extended kvarh Current_unbalance_rate % Reactive_energy_Export_lag_extended kvarh Voltage_unbalance_rate % Reactive_energy_Import_lead_extended kvarh 1-2_H_voltage_Total V Reactive_energy_Export_lead_extended kvarh 1-2_H_voltage_1st V Apparent_energy kVAh 1-2_voltage_THD % Periodic_active_energy_1 kWh 1-2_voltage_HD_3rd % Periodic_active_energy_2 kWh 1-2_voltage_HD_5th % Periodic_active_energy_3 kWh 1-2_voltage_HD_7th % Operating_time1 h 1-2_voltage_HD_9th % Operating_time2 h 1-2_voltage_HD_11th % CO2_equivalent kg 1-2_voltage_HD_13th % Average_current A 1-2_voltage_HD_15th % Phase1_current A 1-2_voltage_HD_17th % Phase2_current A 1-2_voltage_HD_19th % Phase3_current A 2-3_H_voltage_Total V PhaseN_current A 2-3_H_voltage_1st V Average_current_demand A 2-3_voltage_THD % Phase1_current_demand A 2-3_voltage_HD_3rd % Phase2_current_demand A 2-3_voltage_HD_5th % Phase3_current_demand A 2-3_voltage_HD_7th % PhaseN_current_demand A 2-3_voltage_HD_9th % Average_L-L_voltage V 2-3_voltage_HD_11th % 1-2_voltage V 2-3_voltage_HD_13th % 2-3_voltage V 2-3_voltage_HD_15th % 3-1_voltage V 2-3_voltage_HD_17th % Average_L-L_voltage(3P4W) V 2-3_voltage_HD_19th % 1-2_voltage(3P4W) V 1-N_H_voltage_Total V 2-3_voltage(3P4W) V 1-N_H_voltage_1st V 3-1_voltage(3P4W) V 1-N_voltage_THD % Average_L-N_voltage V 1-N_voltage_HD_3rd % 1-N_voltage V 1-N_voltage_HD_5th % 2-N_voltage V 1-N_voltage_HD_7th % 3-N_voltage V 1-N_voltage_HD_9th % Total_active_power kW 1-N_voltage_HD_11th % Phase1_active_power kW 1-N_voltage_HD_13th % Phase2_active_power kW 1-N_voltage_HD_15th % Phase3_active_power kW 1-N_voltage_HD_17th % Total_rolling_demand_kW_Last kW 1-N_voltage_HD_19th % Total_rolling_demand_kW_Present kW 2-N_H_voltage_Total V Total_rolling_demand_kW_Predict kW 2-N_H_voltage_1st V Total_reactive_power kvar 2-N_voltage_THD % Phase1_reactive_power kvar 2-N_voltage_HD_3rd % Phase2_reactive_power kvar 2-N_voltage_HD_5th % Phase3_reactive_power kvar 2-N_voltage_HD_7th % Total_rolling_demand_kvar_Last kvar 2-N_voltage_HD_9th % Total_rolling_demand_kvar_Present kvar 2-N_voltage_HD_11th % Total_rolling_demand_kvar_Predict kvar 2-N_voltage_HD_13th % Total_apparent_power kVA 2-N_voltage_HD_15th % Phase1_apparent_power kVA 2-N_voltage_HD_17th % Phase2_apparent_power kVA 2-N_voltage_HD_19th % Phase3_apparent_power kVA

5-67

Measured items Unit Measured items Unit 3-N_H_voltage_Total V 2_current_THD % 3-N_H_voltage_1st V 3_H_current_Total A 3-N_voltage_THD % 3_H_current_1st A 3-N_voltage_HD_3rd % 3_H_current_3rd A 3-N_voltage_HD_5th % 3_H_current_5th A 3-N_voltage_HD_7th % 3_H_current_7th A 3-N_voltage_HD_9th % 3_H_current_9th A 3-N_voltage_HD_11th % 3_H_current_11th A 3-N_voltage_HD_13th % 3_H_current_13th A 3-N_voltage_HD_15th % 3_H_current_15th A 3-N_voltage_HD_17th % 3_H_current_17th A 3-N_voltage_HD_19th % 3_H_current_19th A 1_H_current_Total A 3_current_THD % 1_H_current_1st A N_H_current_Total A 1_H_current_3rd A N_H_current_1st A 1_H_current_5th A N_H_current_3rd A 1_H_current_7th A N_H_current_5th A 1_H_current_9th A N_H_current_7th A 1_H_current_11th A N_H_current_9th A 1_H_current_13th A N_H_current_11th A 1_H_current_15th A N_H_current_13th A 1_H_current_17th A N_H_current_15th A 1_H_current_19th A N_H_current_17th A 1_current_THD % N_H_current_19th A 2_H_current_Total A N_current_THD % 2_H_current_1st A 2_H_current_3rd A 2_H_current_5th A 2_H_current_7th A 2_H_current_9th A 2_H_current_11th A 2_H_current_13th A 2_H_current_15th A 2_H_current_17th A 2_H_current_19th A

*1 The measured items differ with the phase wire method. For details, refer to the instruction manual or specification sheet of the terminal.

5-68

5.6.3. ME96SSEB-MB Measured items Unit

Active_energy_Import kWh Active_energy_Export kWh Reactive_energy_Import_lag kvarh Reactive_energy_Export_lag kvarh Reactive_energy_Import_lead kvarh Reactive_energy_Export_lead kvarh Active_energy_Import_extended kWh Active_energy_Export_extended kWh Reactive_energy_Import_lag_extended kvarh Reactive_energy_Export_lag_extended kvarh Reactive_energy_Import_lead_extended kvarh Reactive_energy_Export_lead_extended kvarh Apparent_energy kVAh Operating_time1 h Operating_time2 h Average_current A Phase1_current A Phase2_current A Phase3_current A PhaseN_current A Average_current_demand A Phase1_current_demand A Phase2_current_demand A Phase3_current_demand A PhaseN_current_demand A Average_L-L_voltage V 1-2_voltage V 2-3_voltage V 3-1_voltage V Average_L-L_voltage(3P4W) V 1-2_voltage(3P4W) V 2-3_voltage(3P4W) V 3-1_voltage(3P4W) V Average_L-N_voltage V 1-N_voltage V 2-N_voltage V 3-N_voltage V Total_active_power kW Phase1_active_power kW Phase2_active_power kW Phase3_active_power kW Total_reactive_power kvar Phase1_reactive_power kvar Phase2_reactive_power kvar Phase3_reactive_power kvar Total_apparent_power kVA Phase1_apparent_power kVA Phase2_apparent_power kVA Phase3_apparent_power kVA Total_power_factor % Phase1_power_factor % Phase2_power_factor % Phase3_power_factor % Frequency Hz 1-2_H_voltage_Total V 1-2_voltage_THD % 2-3_H_voltage_Total V 2-3_voltage_THD % 1-N_H_voltage_Total V 1-N_voltage_THD % 2-N_H_voltage_Total V 2-N_voltage_THD % 3-N_H_voltage_Total V 3-N_voltage_THD % 1_H_current_Total A 1_current_THD % 2_H_current_Total A 2_current_THD % 3_H_current_Total A 3_current_THD % N_H_current_Total A N_current_THD %

*1 The measured items differ with the phase wire method. For details, refer to the instruction manual or specification sheet of the terminal.

5-69

5.6.4. ME96SSHA-MB Measured items Unit Measured items Unit

Active_energy_Import kWh Phase1_power_factor % Active_energy_Export kWh Phase2_power_factor % Reactive_energy_Import_lag kvarh Phase3_power_factor % Reactive_energy_Export_lag kvarh Frequency Hz Reactive_energy_Import_lead kvarh 1-2_H_voltage_Total V Reactive_energy_Export_lead kvarh 1-2_H_voltage_1st V Active_energy_Import_extended kWh 1-2_voltage_THD % Active_energy_Export_extended kWh 1-2_voltage_HD_3rd % Reactive_energy_Import_lag_extended kvarh 1-2_voltage_HD_5th % Reactive_energy_Export_lag_extended kvarh 1-2_voltage_HD_7th % Reactive_energy_Import_lead_extended kvarh 1-2_voltage_HD_9th % Reactive_energy_Export_lead_extended kvarh 1-2_voltage_HD_11th % Apparent_energy kVAh 1-2_voltage_HD_13th % Periodic_active_energy_1 kWh 1-2_voltage_HD_15th % Periodic_active_energy_2 kWh 1-2_voltage_HD_17th % Operating_time1 h 1-2_voltage_HD_19th % Operating_time2 h 1-2_voltage_HD_21st % Average_current A 1-2_voltage_HD_23rd % Phase1_current A 1-2_voltage_HD_25th % Phase2_current A 1-2_voltage_HD_27th % Phase3_current A 1-2_voltage_HD_29th % PhaseN_current A 1-2_voltage_HD_31st % Average_current_demand A 2-3_H_voltage_Total V Phase1_current_demand A 2-3_H_voltage_1st V Phase2_current_demand A 2-3_voltage_THD % Phase3_current_demand A 2-3_voltage_HD_3rd % PhaseN_current_demand A 2-3_voltage_HD_5th % Average_L-L_voltage V 2-3_voltage_HD_7th % 1-2_voltage V 2-3_voltage_HD_9th % 2-3_voltage V 2-3_voltage_HD_11th % 3-1_voltage V 2-3_voltage_HD_13th % Average_L-L_voltage(3P4W) V 2-3_voltage_HD_15th % 1-2_voltage(3P4W) V 2-3_voltage_HD_17th % 2-3_voltage(3P4W) V 2-3_voltage_HD_19th % 3-1_voltage(3P4W) V 2-3_voltage_HD_21st % Average_L-N_voltage V 2-3_voltage_HD_23rd % 1-N_voltage V 2-3_voltage_HD_25th % 2-N_voltage V 2-3_voltage_HD_27th % 3-N_voltage V 2-3_voltage_HD_29th % Total_active_power kW 2-3_voltage_HD_31st % Phase1_active_power kW 1-N_H_voltage_Total V Phase2_active_power kW 1-N_H_voltage_1st V Phase3_active_power kW 1-N_voltage_THD % Total_rolling_demand kW 1-N_voltage_HD_3rd % Total_reactive_power kvar 1-N_voltage_HD_5th % Phase1_reactive_power kvar 1-N_voltage_HD_7th % Phase2_reactive_power kvar 1-N_voltage_HD_9th % Phase3_reactive_power kvar 1-N_voltage_HD_11th % Total_rolling_demand_reactive_power kvar 1-N_voltage_HD_13th % Total_apparent_power kVA 1-N_voltage_HD_15th % Phase1_apparent_power kVA 1-N_voltage_HD_17th % Phase2_apparent_power kVA 1-N_voltage_HD_19th % Phase3_apparent_power kVA Total_rolling_demand_apparent_power kVA Total_power_factor %

5-70

Measured items Unit Measured items Unit 1-N_voltage_HD_21st % 2_H_current_5th A 1-N_voltage_HD_23rd % 2_H_current_7th A 1-N_voltage_HD_25th % 2_H_current_9th A 1-N_voltage_HD_27th % 2_H_current_11th A 1-N_voltage_HD_29th % 2_H_current_13th A 1-N_voltage_HD_31st % 2_H_current_15th A 2-N_H_voltage_Total V 2_H_current_17th A 2-N_H_voltage_1st V 2_H_current_19th A 2-N_voltage_THD % 2_H_current_21st A 2-N_voltage_HD_3rd % 2_H_current_23rd A 2-N_voltage_HD_5th % 2_H_current_25th A 2-N_voltage_HD_7th % 2_H_current_27th A 2-N_voltage_HD_9th % 2_H_current_29th A 2-N_voltage_HD_11th % 2_H_current_31st A 2-N_voltage_HD_13th % 2_current_THD % 2-N_voltage_HD_15th % 3_H_current_Total A 2-N_voltage_HD_17th % 3_H_current_1st A 2-N_voltage_HD_19th % 3_H_current_3rd A 2-N_voltage_HD_21st % 3_H_current_5th A 2-N_voltage_HD_23rd % 3_H_current_7th A 2-N_voltage_HD_25th % 3_H_current_9th A 2-N_voltage_HD_27th % 3_H_current_11th A 2-N_voltage_HD_29th % 3_H_current_13th A 2-N_voltage_HD_31st % 3_H_current_15th A 3-N_H_voltage_Total V 3_H_current_17th A 3-N_H_voltage_1st V 3_H_current_19th A 3-N_voltage_THD % 3_H_current_21st A 3-N_voltage_HD_3rd % 3_H_current_23rd A 3-N_voltage_HD_5th % 3_H_current_25th A 3-N_voltage_HD_7th % 3_H_current_27th A 3-N_voltage_HD_9th % 3_H_current_29th A 3-N_voltage_HD_11th % 3_H_current_31st A 3-N_voltage_HD_13th % 3_current_THD % 3-N_voltage_HD_15th % N_H_current_Total A 3-N_voltage_HD_17th % N_H_current_1st A 3-N_voltage_HD_19th % N_H_current_3rd A 3-N_voltage_HD_21st % N_H_current_5th A 3-N_voltage_HD_23rd % N_H_current_7th A 3-N_voltage_HD_25th % N_H_current_9th A 3-N_voltage_HD_27th % N_H_current_11th A 3-N_voltage_HD_29th % N_H_current_13th A 3-N_voltage_HD_31st % N_H_current_15th A 1_H_current_Total A

N_H_current_17th A 1_H_current_1st A N_H_current_19th A 1_H_current_3rd A N_H_current_21st A 1_H_current_5th A N_H_current_23rd A 1_H_current_7th A N_H_current_25th A 1_H_current_9th A N_H_current_27th A 1_H_current_11th A N_H_current_29th A 1_H_current_13th A N_H_current_31st A 1_H_current_15th A N_current_THD % 1_H_current_17th A 1_H_current_19th A 1_H_current_21st A 1_H_current_23rd A 1_H_current_25th A 1_H_current_27th A 1_H_current_29th A 1_H_current_31st A 1_current_THD % 2_H_current_Total A 2_H_current_1st A 2_H_current_3rd A

5-71

*1 The measured items differ with the phase wire method. For details, refer to the instruction manual or specification sheet of the terminal.

*2 Expanded version of power amount and reactive power amount can be displayed up to 3 digit digits (maximum 5 digits after the decimal point) from the amount of power and reactive power. The monthly graph (daily amount) and annual graph (monthly amount) may not be displayed correctly because of the small number of significant digits. Please refer to the instruction manual or specifications of the terminal for details on the number of significant digits of electric energy.

5-72

5.6.5. ME96SSRA-MB

Measured items Unit Measured items Unit Active_energy_Import kWh Phase1_power_factor % Active_energy_Export kWh Phase2_power_factor % Reactive_energy_Import_lag kvarh Phase3_power_factor % Reactive_energy_Export_lag kvarh Frequency Hz Reactive_energy_Import_lead kvarh 1-2_H_voltage_Total V Reactive_energy_Export_lead kvarh 1-2_H_voltage_1st V Active_energy_Import_extended kWh 1-2_voltage_THD % Active_energy_Export_extended kWh 1-2_voltage_HD_3rd % Reactive_energy_Import_lag_extended kvarh 1-2_voltage_HD_5th % Reactive_energy_Export_lag_extended kvarh 1-2_voltage_HD_7th % Reactive_energy_Import_lead_extended kvarh 1-2_voltage_HD_9th % Reactive_energy_Export_lead_extended kvarh 1-2_voltage_HD_11th % Apparent_energy kVAh 1-2_voltage_HD_13th % Periodic_active_energy_1 kWh 1-2_voltage_HD_15th % Periodic_active_energy_2 kWh 1-2_voltage_HD_17th % Operating_time1 h 1-2_voltage_HD_19th % Operating_time2 h 2-3_H_voltage_Total V Average_current A 2-3_H_voltage_1st V Phase1_current A 2-3_voltage_THD % Phase2_current A 2-3_voltage_HD_3rd % Phase3_current A 2-3_voltage_HD_5th % PhaseN_current A 2-3_voltage_HD_7th % Average_current_demand A 2-3_voltage_HD_9th % Phase1_current_demand A 2-3_voltage_HD_11th % Phase2_current_demand A 2-3_voltage_HD_13th % Phase3_current_demand A 2-3_voltage_HD_15th % PhaseN_current_demand A 2-3_voltage_HD_17th % Average_L-L_voltage V 2-3_voltage_HD_19th % 1-2_voltage V 1-N_H_voltage_Total V 2-3_voltage V 1-N_H_voltage_1st V 3-1_voltage V 1-N_voltage_THD % Average_L-L_voltage(3P4W) V 1-N_voltage_HD_3rd % 1-2_voltage(3P4W) V 1-N_voltage_HD_5th % 2-3_voltage(3P4W) V 1-N_voltage_HD_7th % 3-1_voltage(3P4W) V 1-N_voltage_HD_9th % Average_L-N_voltage V 1-N_voltage_HD_11th % 1-N_voltage V 1-N_voltage_HD_13th % 2-N_voltage V 1-N_voltage_HD_15th % 3-N_voltage V 1-N_voltage_HD_17th % Total_active_power kW 1-N_voltage_HD_19th % Phase1_active_power kW 2-N_H_voltage_Total V Phase2_active_power kW 2-N_H_voltage_1st V Phase3_active_power kW 2-N_voltage_THD % Total_rolling_demand kW 2-N_voltage_HD_3rd % Total_reactive_power kvar 2-N_voltage_HD_5th % Phase1_reactive_power kvar 2-N_voltage_HD_7th % Phase2_reactive_power kvar 2-N_voltage_HD_9th % Phase3_reactive_power kvar 2-N_voltage_HD_11th % Total_rolling_demand_reactive_power kvar 2-N_voltage_HD_13th % Total_apparent_power kVA 2-N_voltage_HD_15th % Phase1_apparent_power kVA 2-N_voltage_HD_17th % Phase2_apparent_power kVA 2-N_voltage_HD_19th % Phase3_apparent_power kVA Total_rolling_demand_apparent_power kVA Total_power_factor %

5-73

Measured items Unit Measured items Unit 3-N_H_voltage_Total V 2_current_THD % 3-N_H_voltage_1st V 3_H_current_Total A 3-N_voltage_THD % 3_H_current_1st A 3-N_voltage_HD_3rd % 3_H_current_3rd A 3-N_voltage_HD_5th % 3_H_current_5th A 3-N_voltage_HD_7th % 3_H_current_7th A 3-N_voltage_HD_9th % 3_H_current_9th A 3-N_voltage_HD_11th % 3_H_current_11th A 3-N_voltage_HD_13th % 3_H_current_13th A 3-N_voltage_HD_15th % 3_H_current_15th A 3-N_voltage_HD_17th % 3_H_current_17th A 3-N_voltage_HD_19th % 3_H_current_19th A 1_H_current_Total A 3_H_current_31st A 1_H_current_1st A 3_current_THD % 1_H_current_3rd A N_H_current_Total A 1_H_current_5th A N_H_current_1st A 1_H_current_7th A N_H_current_3rd A 1_H_current_9th A N_H_current_5th A 1_H_current_11th A N_H_current_7th A 1_H_current_13th A N_H_current_9th A 1_H_current_15th A N_H_current_11th A 1_H_current_17th A N_H_current_13th A 1_H_current_19th A N_H_current_15th A 1_current_THD % N_H_current_17th A 2_H_current_Total A N_H_current_19th A 2_H_current_1st A N_current_THD % 2_H_current_3rd A 2_H_current_5th A 2_H_current_7th A 2_H_current_9th A 2_H_current_11th A 2_H_current_13th A 2_H_current_15th A 2_H_current_17th A 2_H_current_19th A

*1 The measured items differ with the phase wire method.

For details, refer to the instruction manual or specification sheet of the terminal. *2 Expanded version of power amount and reactive power amount can be displayed up to 3 digit

digits (maximum 5 digits after the decimal point) from the amount of power and reactive power. The monthly graph (daily amount) and annual graph (monthly amount) may not be displayed correctly because of the small number of significant digits. Please refer to the instruction manual or specifications of the terminal for details on the number of significant digits of electric energy.

5-74

5.6.6. ME96SSEA-MB

Measured items Unit Active_energy_Import kWh Active_energy_Import_extended kWh Operating_time1 h Operating_time2 h Average_current A Phase1_current A Phase2_current A Phase3_current A PhaseN_current A Average_current_demand A Phase1_current_demand A Phase2_current_demand A Phase3_current_demand A PhaseN_current_demand A Average_L-L_voltage V 1-2_voltage V 2-3_voltage V 3-1_voltage V Average_L-L_voltage(3P4W) V 1-2_voltage(3P4W) V 2-3_voltage(3P4W) V 3-1_voltage(3P4W) V Average_L-N_voltage V 1-N_voltage V 2-N_voltage V 3-N_voltage V Total_active_power kW Phase1_active_power kW Phase2_active_power kW Phase3_active_power kW Total_power_factor % Phase1_power_factor % Phase2_power_factor % Phase3_power_factor % Frequency Hz 1-2_H_voltage_Total V 1-2_voltage_THD % 2-3_H_voltage_Total V 2-3_voltage_THD % 1-N_H_voltage_Total V 1-N_voltage_THD % 2-N_H_voltage_Total V 2-N_voltage_THD % 3-N_H_voltage_Total V 3-N_voltage_THD % 1_H_current_Total A 1_current_THD % 2_H_current_Total A 2_current_THD % 3_H_current_Total A 3_current_THD % N_H_current_Total A N_current_THD %

*1 The measured items differ with the phase wire method. For details, refer to the instruction manual or specification sheet of the terminal.

5-75

5.6.7. ME96SSH-MB

Measured items Unit Measured items Unit Active_energy_Import kWh 1-2_voltage_HD_11th % Active_energy_Export kWh 1-2_voltage_HD_13th % Reactive_energy_Import_lag kvarh 1-2_voltage_HD_15th % Reactive_energy_Export_lag kvarh 1-2_voltage_HD_17th % Reactive_energy_Import_lead kvarh 1-2_voltage_HD_19th % Reactive_energy_Export_lead kvarh 1-2_voltage_HD_21st % Active_energy_Import_extended kWh 1-2_voltage_HD_23rd % Active_energy_Export_extended kWh 1-2_voltage_HD_25th % Reactive_energy_Import_lag_extended kvarh 1-2_voltage_HD_27th % Reactive_energy_Export_lag_extended kvarh 1-2_voltage_HD_29th % Reactive_energy_Import_lead_extended kvarh 1-2_voltage_HD_31st % Reactive_energy_Export_lead_extended kvarh 2-3_H_voltage_Total V Apparent_energy kVAh 2-3_H_voltage_1st V Periodic_active_energy_1 kWh 2-3_voltage_THD % Periodic_active_energy_2 kWh 2-3_voltage_HD_3rd % Operating_time1 h 2-3_voltage_HD_5th % Operating_time2 h 2-3_voltage_HD_7th % Average_current A 2-3_voltage_HD_9th % Phase1_current A 2-3_voltage_HD_11th % Phase2_current A 2-3_voltage_HD_13th % Phase3_current A 2-3_voltage_HD_15th % PhaseN_current A 2-3_voltage_HD_17th % Average_current_demand A 2-3_voltage_HD_19th % Phase1_current_demand A 2-3_voltage_HD_21st % Phase2_current_demand A 2-3_voltage_HD_23rd % Phase3_current_demand A 2-3_voltage_HD_25th % PhaseN_current_demand A 2-3_voltage_HD_27th % Average_L-L_voltage V 2-3_voltage_HD_29th % 1-2_voltage V 2-3_voltage_HD_31st % 2-3_voltage V 1-N_H_voltage_Total V 3-1_voltage V 1-N_H_voltage_1st V Average_L-L_voltage(3P4W) V 1-N_voltage_THD % 1-2_voltage(3P4W) V 1-N_voltage_HD_3rd % 2-3_voltage(3P4W) V 1-N_voltage_HD_5th % 3-1_voltage(3P4W) V 1-N_voltage_HD_7th % Average_L-N_voltage V 1-N_voltage_HD_9th % 1-N_voltage V 1-N_voltage_HD_11th % 2-N_voltage V 1-N_voltage_HD_13th % 3-N_voltage V 1-N_voltage_HD_15th % Total_active_power kW 1-N_voltage_HD_17th % Phase1_active_power kW 1-N_voltage_HD_19th % Phase2_active_power kW 1-N_voltage_HD_21st % Phase3_active_power kW 1-N_voltage_HD_23rd % Total_rolling_demand kW 1-N_voltage_HD_25th % Total_reactive_power kvar 1-N_voltage_HD_27th % Phase1_reactive_power kvar 1-N_voltage_HD_29th % Phase2_reactive_power kvar 1-N_voltage_HD_31st % Phase3_reactive_power kvar 2-N_H_voltage_Total V Total_apparent_power kVA 2-N_H_voltage_1st V Phase1_apparent_power kVA 2-N_voltage_THD % Phase2_apparent_power kVA 2-N_voltage_HD_3rd % Phase3_apparent_power kVA 2-N_voltage_HD_5th % Total_power_factor % 2-N_voltage_HD_7th % Phase1_power_factor % 2-N_voltage_HD_9th % Phase2_power_factor % 2-N_voltage_HD_11th % Phase3_power_factor % 2-N_voltage_HD_13th % Frequency Hz 2-N_voltage_HD_15th % 1-2_H_voltage_Total V 2-N_voltage_HD_17th % 1-2_H_voltage_1st V 2-N_voltage_HD_19th % 1-2_voltage_THD % 2-N_voltage_HD_21st % 1-2_voltage_HD_3rd % 2-N_voltage_HD_23rd % 1-2_voltage_HD_5th % 2-N_voltage_HD_25th % 1-2_voltage_HD_7th % 2-N_voltage_HD_27th % 1-2_voltage_HD_9th % 2-N_voltage_HD_29th %

5-76

*1 The measured items differ with the phase wire method.

For details, refer to the instruction manual or specification sheet of the terminal. *2 Expanded version of power amount and reactive power amount can be displayed up to 3 digit

digits (maximum 5 digits after the decimal point) from the amount of power and reactive power. The monthly graph (daily amount) and annual graph (monthly amount) may not be displayed correctly because of the small number of significant digits. Please refer to the instruction manual or specifications of the terminal for details on the number of significant digits of electric energy.

Measured items Unit Measured items Unit 2-N_voltage_HD_31st % 2_H_current_15th A 3-N_H_voltage_Total V 2_H_current_17th A 3-N_H_voltage_1st V 2_H_current_19th A 3-N_voltage_THD % 2_H_current_21st A 3-N_voltage_HD_3rd % 2_H_current_23rd A 3-N_voltage_HD_5th % 2_H_current_25th A 3-N_voltage_HD_7th % 2_H_current_27th A 3-N_voltage_HD_9th % 2_H_current_29th A 3-N_voltage_HD_11th % 2_H_current_31st A 3-N_voltage_HD_13th % 2_current_THD % 3-N_voltage_HD_15th % 3_H_current_Total A 3-N_voltage_HD_17th % 3_H_current_1st A 3-N_voltage_HD_19th % 3_H_current_3rd A 3-N_voltage_HD_21st % 3_H_current_5th A 3-N_voltage_HD_23rd % 3_H_current_7th A 3-N_voltage_HD_25th % 3_H_current_9th A 3-N_voltage_HD_27th % 3_H_current_11th A 3-N_voltage_HD_29th % 3_H_current_13th A 3-N_voltage_HD_31st % 3_H_current_15th A 1_H_current_Total A 3_H_current_17th A 1_H_current_1st A 3_H_current_19th A 1_H_current_3rd A 3_H_current_21st A 1_H_current_5th A 3_H_current_23rd A 1_H_current_7th A 3_H_current_25th A 1_H_current_9th A 3_H_current_27th A 1_H_current_11th A 3_H_current_29th A 1_H_current_13th A 3_H_current_31st A 1_H_current_15th A 3_current_THD % 1_H_current_17th A N_H_current_Total A 1_H_current_19th A N_H_current_1st A 1_H_current_21st A N_H_current_3rd A 1_H_current_23rd A N_H_current_5th A 1_H_current_25th A N_H_current_7th A 1_H_current_27th A N_H_current_9th A 1_H_current_29th A N_H_current_11th A 1_H_current_31st A N_H_current_13th A 1_current_THD % N_H_current_15th A 2_H_current_Total A N_H_current_17th A 2_H_current_1st A N_H_current_19th A 2_H_current_3rd A N_H_current_21st A 2_H_current_5th A N_H_current_23rd A 2_H_current_7th A N_H_current_25th A 2_H_current_9th A N_H_current_27th A 2_H_current_11th A N_H_current_29th A 2_H_current_13th A N_H_current_31st A N_current_THD %

5-77

5.6.8. ME96SSR-MB

Measured items Unit Measured items Unit Active_energy_Import kWh 2-3_voltage_HD_7th % Active_energy_Export kWh 2-3_voltage_HD_9th % Reactive_energy_Import_lag kvarh 2-3_voltage_HD_11th % Reactive_energy_Export_lag kvarh 2-3_voltage_HD_13th % Reactive_energy_Import_lead kvarh 1-N_H_voltage_Total % Reactive_energy_Export_lead kvarh 1-N_H_voltage_1st % Active_energy_Import_extended kWh 1-N_voltage_THD V Active_energy_Export_extended kWh 1-N_voltage_HD_3rd V Reactive_energy_Import_lag_extended kvarh 1-N_voltage_HD_5th % Reactive_energy_Export_lag_extended kvarh 1-N_voltage_HD_7th % Reactive_energy_Import_lead_extended kvarh 1-N_voltage_HD_9th % Reactive_energy_Export_lead_extended kvarh 1-N_voltage_HD_11th % Periodic_active_energy_1 kWh 1-N_voltage_HD_13th % Periodic_active_energy_2 kWh 2-N_H_voltage_Total % Operating_time1 h 2-N_H_voltage_1st % Operating_time2 h 2-N_voltage_THD V Average_current A 2-N_voltage_HD_3rd V Phase1_current A 2-N_voltage_HD_5th % Phase2_current A 2-N_voltage_HD_7th % Phase3_current A 2-N_voltage_HD_9th % PhaseN_current A 2-N_voltage_HD_11th % Average_current_demand A 2-N_voltage_HD_13th % Phase1_current_demand A 3-N_H_voltage_Total % Phase2_current_demand A 3-N_H_voltage_1st % Phase3_current_demand A 3-N_voltage_THD V PhaseN_current_demand A 3-N_voltage_HD_3rd V Average_L-L_voltage V 3-N_voltage_HD_5th % 1-2_voltage V 3-N_voltage_HD_7th % 2-3_voltage V 3-N_voltage_HD_9th % 3-1_voltage V 3-N_voltage_HD_11th % Average_L-L_voltage(3P4W) V 3-N_voltage_HD_13th % 1-2_voltage(3P4W) V 1_H_current_Total % 2-3_voltage(3P4W) V 1_H_current_1st % 3-1_voltage(3P4W) V 1_H_current_3rd A Average_L-N_voltage V 1_H_current_5th A 1-N_voltage V 1_H_current_7th A 2-N_voltage V 1_H_current_9th A 3-N_voltage V 1_H_current_11th A Total_active_power kW 1_H_current_13th A Phase1_active_power kW 1_current_THD A Phase2_active_power kW 2_H_current_Total A Phase3_active_power kW 2_H_current_1st % Total_reactive_power kvar 2_H_current_3rd A Phase1_reactive_power kvar 2_H_current_5th A Phase2_reactive_power kvar 2_H_current_7th A Phase3_reactive_power kvar 2_H_current_9th A Total_apparent_power kVA 2_H_current_11th A Phase1_apparent_power kVA 2_H_current_13th A Phase2_apparent_power kVA 2_current_THD A Phase3_apparent_power kVA 3_H_current_Total A Total_power_factor % 3_H_current_1st % Phase1_power_factor % 3_H_current_3rd A Phase2_power_factor % 3_H_current_5th A Phase3_power_factor % 3_H_current_7th A Frequency Hz 3_H_current_9th A 1-2_H_voltage_Total V 3_H_current_11th A 1-2_H_voltage_1st V 3_H_current_13th A 1-2_voltage_THD % 3_current_THD A 1-2_voltage_HD_3rd % N_H_current_Total A 1-2_voltage_HD_5th % N_H_current_1st % 1-2_voltage_HD_7th % N_H_current_3rd A 1-2_voltage_HD_9th % N_H_current_5th A 1-2_voltage_HD_11th % N_H_current_7th A 1-2_voltage_HD_13th % N_H_current_9th A 2-3_H_voltage_Total V N_H_current_11th A 2-3_H_voltage_1st V N_H_current_13th A 2-3_voltage_THD % N_current_THD % 2-3_voltage_HD_3rd % 2-3_voltage_HD_5th %

5-78

*1 The measured items differ with the phase wire method. For details, refer to the instruction manual or specification sheet of the terminal.

*2 Expanded version of power amount and reactive power amount can be displayed up to 3 digit digits (maximum 5 digits after the decimal point) from the amount of power and reactive power. The monthly graph (daily amount) and annual graph (monthly amount) may not be displayed correctly because of the small number of significant digits. Please refer to the instruction manual or specifications of the terminal for details on the number of significant digits of electric energy.

5-79

5.6.9. ME96SSE-MB Measured items Unit

Active_energy_Import kWh Active_energy_Import_extended kWh Operating_time1 h Operating_time2 h Average_current A Phase1_current A Phase2_current A Phase3_current A PhaseN_current A Average_L-L_voltage V 1-2_voltage V 2-3_voltage V 3-1_voltage V Average_L-L_voltage(3P4W) V 1-2_voltage(3P4W) V 2-3_voltage(3P4W) V 3-1_voltage(3P4W) V Average_L-N_voltage V 1-N_voltage V 2-N_voltage V 3-N_voltage V Total_active_power kW Phase1_active_power kW Phase2_active_power kW Phase3_active_power kW Total_power_factor % Phase1_power_factor % Phase2_power_factor % Phase3_power_factor % Frequency Hz

*1 The measured items differ with the phase wire method. For details, refer to the instruction manual or specification sheet of the terminal.

5-80

5.6.10. EMU4-BD1-MB

Measured items Unit Electric_energy(Consumption) kWh Electric_energy(Regeneration) kWh Electric_energy(Consumption)extended kWh Electric_energy(Regeneration)extended kWh Reactive_energy(Consumption_lag) kvarh Reactive_energy(Consumption_lag)extended kvarh Current_phase1 A Current_phase2 A Current_phase3 A Current_Average A Voltage_phase12 V Voltage_phase23 V Voltage_phase31 V Voltage_Average_line_voltage V Electric_power kW Reactive_power kvar Power_factor % Frequency Hz Current_demand_phase1 A Current_demand_phase2 A Current_demand_phase3 A Electric_power_demand kW Operating_time H

*1 The measured items differ with the phase wire method. For details, refer to the instruction manual or specification sheet of the terminal.

*2 Expanded version of power amount and reactive power amount can be displayed up to 3 digit digits (maximum 5 digits after the decimal point) from the amount of power and reactive power. The monthly graph (daily amount) and annual graph (monthly amount) may not be displayed correctly because of the small number of significant digits. Please refer to the instruction manual or specifications of the terminal for details on the number of significant digits of electric energy.

5-81

5.6.11. EMU4-HD1-MB Measured items Unit Measured items Unit

Electric_energy(Consumption) kWh HA_D.ratio_phase1_total % Electric_energy(Regeneration) kWh HA_D.ratio_phase2_total % Electric_energy(Consumption)extended kWh HA_D.ratio_phase3_total % Electric_energy(Regeneration)extended kWh HA_D.ratio_phaseN_total % Reactive_energy(Consumption_lag) kvarh HV_RMS_phase12_total V Reactive_energy(Consumption_lag)extended kvarh HV_RMS_phase12_1st V Current_phase1 A HV_RMS_phase12_3rd V Current_phase2 A HV_RMS_phase12_5th V Current_phase3 A HV_RMS_phase12_7th V Current_phaseN A HV_RMS_phase12_9th V Current_Average A HV_RMS_phase12_11th V Voltage_phase12 V HV_RMS_phase12_13th V Voltage_phase23 V HV_RMS_phase23_total V Voltage_phase31 V HV_RMS_phase23_1st V Voltage_Average_line_voltage V HV_RMS_phase23_3rd V Voltage_phase1N V HV_RMS_phase23_5th V Voltage_phase2N V HV_RMS_phase23_7th V Voltage_phase3N V HV_RMS_phase23_9th V Electric_power kW HV_RMS_phase23_11th V Reactive_power kvar HV_RMS_phase23_13th V Power_factor % HV_RMS_phase1N_total V Frequency Hz HV_RMS_phase1N_1st V Current_demand_phase1 A HV_RMS_phase2N_total V Current_demand_phase2 A HV_RMS_phase2N_1st V Current_demand_phase3 A HV_RMS_phase3N_total V Current_demand_phaseN A HV_RMS_phase3N_1st V Electric_power_demand kW HV_D.ratio_phase12_total % Periodic_electric_energy kWh HV_D.ratio_phase12_3rd % Operating_time H HV_D.ratio_phase12_5th % Pulse_count *2 HV_D.ratio_phase12_7th % HA_RMS_phase1_total A HV_D.ratio_phase12_9th % HA_RMS_phase1_1st A HV_D.ratio_phase12_11th % HA_RMS_phase1_3rd A HV_D.ratio_phase12_13th % HA_RMS_phase1_5th A HV_D.ratio_phase23_total % HA_RMS_phase1_7th A HV_D.ratio_phase23_3rd % HA_RMS_phase1_9th A HV_D.ratio_phase23_5th % HA_RMS_phase1_11th A HV_D.ratio_phase23_7th % HA_RMS_phase1_13th A HV_D.ratio_phase23_9th % HA_RMS_phase2_total A HV_D.ratio_phase23_11th % HA_RMS_phase2_1st A HV_D.ratio_phase23_13th % HA_RMS_phase2_3rd A HV_D.ratio_phase1N_total % HA_RMS_phase2_5th A HV_D.ratio_phase1N_3rd % HA_RMS_phase2_7th A HV_D.ratio_phase1N_5th % HA_RMS_phase2_9th A HV_D.ratio_phase1N_7th % HA_RMS_phase2_11th A HV_D.ratio_phase1N_9th % HA_RMS_phase2_13th A HV_D.ratio_phase1N_11th % HA_RMS_phase3_total A HV_D.ratio_phase1N_13th % HA_RMS_phase3_1st A HV_D.ratio_phase2N_total % HA_RMS_phase3_3rd A HV_D.ratio_phase2N_3rd % HA_RMS_phase3_5th A HV_D.ratio_phase2N_5th % HA_RMS_phase3_7th A HV_D.ratio_phase2N_7th % HA_RMS_phase3_9th A HV_D.ratio_phase2N_9th % HA_RMS_phase3_11th A HV_D.ratio_phase2N_11th % HA_RMS_phase3_13th A HV_D.ratio_phase2N_13th % HA_RMS_phaseN_total A HV_D.ratio_phase3N_total % HA_RMS_phaseN_1st A HV_D.ratio_phase3N_3rd % HA_RMS_phaseN_3rd A HV_D.ratio_phase3N_5th % HA_RMS_phaseN_5th A HV_D.ratio_phase3N_7th % HA_RMS_phaseN_7th A HV_D.ratio_phase3N_9th % HA_RMS_phaseN_9th A HV_D.ratio_phase3N_11th % HA_RMS_phaseN_11th A HV_D.ratio_phase3N_13th % HA_RMS_phaseN_13th A

5-82

*1 The measured items differ with the phase wire method. For details, refer to the instruction manual or specification sheet of the terminal.

*2 Unit can be set for any character up to 8 words. *3 Expanded version of power amount and reactive power amount can be displayed up to 3 digit

digits (maximum 5 digits after the decimal point) from the amount of power and reactive power. The monthly graph (daily amount) and annual graph (monthly amount) may not be displayed correctly because of the small number of significant digits. Please refer to the instruction manual or specifications of the terminal for details on the number of significant digits of electric energy.

5-83

5.6.12. EMU4-FD1-MB

Measured items Unit Measured items Unit Electric_energy(Consumption) kWh HA_RMS_phaseN_7th A Electric_energy(Regeneration) kWh HA_RMS_phaseN_9th A Electric_energy(Consumption)extended kWh HA_RMS_phaseN_11th A Electric_energy(Regeneration)extended kWh HA_RMS_phaseN_13th A Reactive_energy(Consumption_lag) kvarh HA_RMS_phaseN_15th A Reactive_energy(Consumption_lag) extended kvarh Electric_energy(Consumption) kWh

Current_phase1 A HA_D.ratio_phase1_total % Current_phase2 A HA_D.ratio_phase1_3rd % Current_phase3 A HA_D.ratio_phase1_5th % Current_phaseN A HA_D.ratio_phase1_7th % Current_Average A HA_D.ratio_phase1_9th % Voltage_phase12 V HA_D.ratio_phase1_11th % Voltage_phase23 V HA_D.ratio_phase1_13th % Voltage_phase31 V HA_D.ratio_phase1_15th % Voltage_Average_line_voltage V HA_D.ratio_phase2_total % Voltage_phase1N V HA_D.ratio_phase2_3rd % Voltage_phase2N V HA_D.ratio_phase2_5th % Voltage_phase3N V HA_D.ratio_phase2_7th % Electric_power kW HA_D.ratio_phase2_9th % Reactive_power kvar HA_D.ratio_phase2_11th % Power_factor % HA_D.ratio_phase2_13th % Frequency Hz HA_D.ratio_phase2_15th % Current_demand_phase1 A HA_D.ratio_phase3_total % Current_demand_phase2 A HA_D.ratio_phase3_3rd % Current_demand_phase3 A HA_D.ratio_phase3_5th % Current_demand_phaseN A HA_D.ratio_phase3_7th % Electric_power_demand kW HA_D.ratio_phase3_9th % Periodic_electric_energy kWh HA_D.ratio_phase3_11th % Operating_time h HA_D.ratio_phase3_13th % Pulse_count *2 HA_D.ratio_phase3_15th % HA_RMS_phase1_total A HA_D.ratio_phaseN_total % HA_RMS_phase1_1st A HA_D.ratio_phaseN_3rd % HA_RMS_phase1_3rd A HA_D.ratio_phaseN_5th % HA_RMS_phase1_5th A HA_D.ratio_phaseN_7th % HA_RMS_phase1_7th A HA_D.ratio_phaseN_9th % HA_RMS_phase1_9th A HA_D.ratio_phaseN_11th % HA_RMS_phase1_11th A HA_D.ratio_phaseN_13th % HA_RMS_phase1_13th A HA_D.ratio_phaseN_15th % HA_RMS_phase1_15th A HV_RMS_phase12_total V HA_RMS_phase2_total A HV_RMS_phase12_1st V HA_RMS_phase2_1st A HV_RMS_phase12_3rd V HA_RMS_phase2_3rd A HV_RMS_phase12_5th V HA_RMS_phase2_5th A HV_RMS_phase12_7th V HA_RMS_phase2_7th A HV_RMS_phase12_9th V HA_RMS_phase2_9th A HV_RMS_phase12_11th V HA_RMS_phase2_11th A HV_RMS_phase12_13th V HA_RMS_phase2_13th A HV_RMS_phase12_15th V HA_RMS_phase2_15th A HV_RMS_phase23_total V HA_RMS_phase3_total A HV_RMS_phase23_1st V HA_RMS_phase3_1st A HV_RMS_phase23_3rd V HA_RMS_phase3_3rd A HV_RMS_phase23_5th V HA_RMS_phase3_5th A HV_RMS_phase23_7th V HA_RMS_phase3_7th A HV_RMS_phase23_9th V HA_RMS_phase3_9th A HV_RMS_phase23_11th V HA_RMS_phase3_11th A HV_RMS_phase23_13th V HA_RMS_phase3_13th A HV_RMS_phase23_15th V HA_RMS_phase3_15th A HV_RMS_phase1N_total V HA_RMS_phaseN_total A HV_RMS_phase1N_1st V HA_RMS_phaseN_1st A HV_RMS_phase1N_3rd V HA_RMS_phaseN_3rd A HV_RMS_phase1N_5th V HA_RMS_phaseN_5th A HA_D.ratio_phase1_total %

5-84

Measured items Unit Measured items Unit HV_RMS_phase1N_7th V HV_D.ratio_phase23_3rd % HV_RMS_phase1N_9th V HV_D.ratio_phase23_5th % HV_RMS_phase1N_11th V HV_D.ratio_phase23_7th % HV_RMS_phase1N_13th V HV_D.ratio_phase23_9th % HV_RMS_phase1N_15th V HV_D.ratio_phase23_11th % HV_RMS_phase2N_total V HV_D.ratio_phase23_13th % HV_RMS_phase2N_1st V HV_D.ratio_phase23_15th % HV_RMS_phase2N_3rd V HV_D.ratio_phase1N_total % HV_RMS_phase2N_5th V HV_D.ratio_phase1N_3rd % HV_RMS_phase2N_7th V HV_D.ratio_phase1N_5th % HV_RMS_phase2N_9th V HV_D.ratio_phase1N_7th % HV_RMS_phase2N_11th V HV_D.ratio_phase1N_9th % HV_RMS_phase2N_13th V HV_D.ratio_phase1N_11th % HV_RMS_phase2N_15th V HV_D.ratio_phase1N_13th % HV_RMS_phase3N_total V HV_D.ratio_phase1N_15th % HV_RMS_phase3N_1st V HV_D.ratio_phase2N_total % HV_RMS_phase3N_3rd V HV_D.ratio_phase2N_3rd % HV_RMS_phase3N_5th V HV_D.ratio_phase2N_5th % HV_RMS_phase3N_7th V HV_D.ratio_phase2N_7th % HV_RMS_phase3N_9th V HV_D.ratio_phase2N_9th % HV_RMS_phase3N_11th V HV_D.ratio_phase2N_11th % HV_RMS_phase3N_13th V HV_D.ratio_phase2N_13th % HV_RMS_phase3N_15th V HV_D.ratio_phase2N_15th % HV_D.ratio_phase12_total % HV_D.ratio_phase3N_total % HV_D.ratio_phase12_3rd % HV_D.ratio_phase3N_3rd % HV_D.ratio_phase12_5th % HV_D.ratio_phase3N_5th % HV_D.ratio_phase12_7th % HV_D.ratio_phase3N_7th % HV_D.ratio_phase12_9th % HV_D.ratio_phase3N_9th % HV_D.ratio_phase12_11th % HV_D.ratio_phase3N_11th % HV_D.ratio_phase12_13th % HV_D.ratio_phase3N_13th % HV_D.ratio_phase12_15th % HV_D.ratio_phase3N_15th % HV_D.ratio_phase23_total %

*1 The measured items differ with the phase wire method. For details, refer to the instruction manual or specification sheet of the terminal.

*2 Unit can be set for any character up to 8 words. *3 Expanded version of power amount and reactive power amount can be displayed up to 3 digit

digits (maximum 5 digits after the decimal point) from the amount of power and reactive power. The monthly graph (daily amount) and annual graph (monthly amount) may not be displayed correctly because of the small number of significant digits. Please refer to the instruction manual or specifications of the terminal for details on the number of significant digits of electric energy.

5-85

5.6.13. EMU4-BM1-MB

Measured items Unit ElectricenergyImport kWh Electric_energy(Export) kWh Electric_energy(Import)(1P2W_3) kWh Electric_energy(Export)(1P2W_3) kWh Electric_energy(Import)extended kWh Electric_energy(Export)extended kWh Electric_energy(Import)extended(1P2W_3) kWh Electric_energy(Export)extended(1P2W_3) kWh Reactive_energy(Import_lag) kvarh Reactive_energy(Import_lag)extended kvarh Current_phase1 A Current_phase2 A Current_phase3 A Current_phase3(1P2W_3) A Current_Average A Voltage_phase12L V Voltage_phase23L V Voltage_phase31L V Voltage_Average_line_voltage V Electric_power kW Electric_power(1P2W_3) kW Reactive_power kvar Reactive_power(1P2W_3) kvar Power_factor % Power_factor(1P2W_1) % Power_factor(1P2W_3) % Frequency Hz Current_demand_phase1 A Current_demand_phase2 A Current_demand_phase3 A Current_demand_phase3(1P2W_3) A Electric_power_demand kW Electric_power_demand(1P2W_3) kW Operating_time H Operating_time(1P2W_3) H

*1 The measured items differ with the phase wire method. For details, refer to the instruction manual or specification sheet of the terminal.

*2 Expanded version of power amount and reactive power amount can be displayed up to 3 digit digits (maximum 5 digits after the decimal point) from the amount of power and reactive power. The monthly graph (daily amount) and annual graph (monthly amount) may not be displayed correctly because of the small number of significant digits. Please refer to the instruction manual or specifications of the terminal for details on the number of significant digits of electric energy.

5-86

5.6.14. EMU4-HM1-MB

Measured items Unit Measured items Unit Electric_energy(Import) kWh HA_RMS_phase3_3rd(1P2W_3) A Electric_energy(Export) kWh HA_RMS_phase3_5th(1P2W_3) A Electric_energy(Import)(1P2W_3) kWh HA_RMS_phase3_7th(1P2W_3) A Electric_energy(Export)(1P2W_3) kWh HA_RMS_phase3_9th(1P2W_3) A Electric_energy(Import)extended kWh HA_RMS_phase3_11th(1P2W_3) A Electric_energy(Export)extended kWh HA_RMS_phase3_13th(1P2W_3) A Electric_energy(Import)extended(1P2W_3) kWh HA_RMS_phaseN_total A Electric_energy(Export)extended(1P2W_3) kWh HA_RMS_phaseN_1st A Reactive_energy(Import_lag) kvarh HA_RMS_phaseN_3rd A Reactive_energy(Import_lag)extended kvarh HA_RMS_phaseN_5th A Current_phase1 A HA_RMS_phaseN_7th A Current_phase2 A HA_RMS_phaseN_9th A Current_phase3 A HA_RMS_phaseN_11th A Current_phase3(1P2W_3) A HA_RMS_phaseN_13th A Current_phaseN A HA_D.ratio_phase1_total % Current_Average A HA_D.ratio_phase2_total % Voltage_phase12L V HA_D.ratio_phase3_total % Voltage_phase23L V HA_D.ratio_phaseN_total % Voltage_phase31L V HV_RMS_phase12L_total V Voltage_Average_line_voltage V HV_RMS_phase12L_1st V Voltage_phase1N V HV_RMS_phase12L_3rd V Voltage_phase2N V HV_RMS_phase12L_5th V Voltage_phase3N V HV_RMS_phase12L_7th V Electric_power kW HV_RMS_phase12L_9th V Electric_power(1P2W_3) kW HV_RMS_phase12L_11th V Reactive_power kvar HV_RMS_phase12L_13th V Reactive_power(1P2W_3) kvar HV_RMS_phase23L_total V Power_factor % HV_RMS_phase23L_1st V Power_factor(1P2W_1) % HV_RMS_phase23L_3rd V Power_factor(1P2W_3) % HV_RMS_phase23L_5th V Frequency Hz HV_RMS_phase23L_7th V Current_demand_phase1 A HV_RMS_phase23L_9th V Current_demand_phase2 A HV_RMS_phase23L_11th V Current_demand_phase3 A HV_RMS_phase23L_13th V Current_demand_phase3(1P2W_3) A HV_RMS_phase1N_total V Current_demand_phaseN A HV_RMS_phase1N_1st V Electric_power_demand kW HV_RMS_phase2N_total V Electric_power_demand(1P2W_3) kW HV_RMS_phase2N_1st V Periodic_electric_energy kWh HV_RMS_phase3N_total V Periodic_electric_energy(1P2W_3) kWh HV_RMS_phase3N_1st V Operating_time h HV_D.ratio_phase12L_total % Operating_time(1P2W_3) h HV_D.ratio_phase12L_3rd % Pulse_count *2 HV_D.ratio_phase12L_5th % HA_RMS_phase1_total A HV_D.ratio_phase12L_7th % HA_RMS_phase1_1st A HV_D.ratio_phase12L_9th % HA_RMS_phase1_3rd A HV_D.ratio_phase12L_11th % HA_RMS_phase1_5th A HV_D.ratio_phase12L_13th % HA_RMS_phase1_7th A HV_D.ratio_phase23L_total % HA_RMS_phase1_9th A HV_D.ratio_phase23L_3rd % HA_RMS_phase1_11th A HV_D.ratio_phase23L_5th % HA_RMS_phase1_13th A HV_D.ratio_phase23L_7th % HA_RMS_phase2_total A HV_D.ratio_phase23L_9th % HA_RMS_phase2_1st A HV_D.ratio_phase23L_11th % HA_RMS_phase2_3rd A HV_D.ratio_phase23L_13th % HA_RMS_phase2_5th A HV_D.ratio_phase1N_total % HA_RMS_phase2_7th A HV_D.ratio_phase1N_3rd % HA_RMS_phase2_9th A HV_D.ratio_phase1N_5th % HA_RMS_phase2_11th A HV_D.ratio_phase1N_7th % HA_RMS_phase2_13th A HV_D.ratio_phase1N_9th % HA_RMS_phase3_total A HV_D.ratio_phase1N_11th % HA_RMS_phase3_1st A HV_D.ratio_phase1N_13th % HA_RMS_phase3_3rd A HV_D.ratio_phase2N_total % HA_RMS_phase3_5th A HV_D.ratio_phase2N_3rd % HA_RMS_phase3_7th A HV_D.ratio_phase2N_5th % HA_RMS_phase3_9th A HV_D.ratio_phase2N_7th % HA_RMS_phase3_11th A HV_D.ratio_phase2N_9th % HA_RMS_phase3_13th A HV_D.ratio_phase2N_11th % HA_RMS_phase3_total A HV_D.ratio_phase2N_13th % HA_RMS_phase3_1st(1P2W_3) A HV_D.ratio_phase3N_total %

5-87

*1 The measured items differ with the phase wire method. For details, refer to the instruction manual or specification sheet of the terminal.

*2 Unit can be set for any character up to 8 words. *3 Expanded version of power amount and reactive power amount can be displayed up to 3 digit

digits (maximum 5 digits after the decimal point) from the amount of power and reactive power. The monthly graph (daily amount) and annual graph (monthly amount) may not be displayed correctly because of the small number of significant digits. Please refer to the instruction manual or specifications of the terminal for details on the number of significant digits of electric energy.

5.6.15. EMU4-LG1-MB

Measured items Unit Leak_current(Io) mA Leak_demand_current mA Leak_current_for_resistance(Ior) mA Leak_demand_current_for_resistance mA Leak_current_for_resistance_converted mA Io_alarm(step1)_occurrence_count count Io_alarm(step2)_occurrence_count count Ior_alarm(step1)_occurrence_count count Ior_alarm(step2)_occurrence_count count

*1 The demand refers to moving average.

5-88

5.6.16. EMU4-A2

Measured items Unit Measured items Unit Electric_energy(Import) kWh HA_RMS_phase3_9th(1P2W_3) A Electric_energy(Export) kWh HA_RMS_phase3_11th(1P2W_3) A Electric_energy(Import)(1P2W_3) kWh HA_RMS_phase3_13th(1P2W_3) A Electric_energy(Export)(1P2W_3) kWh HA_RMS_phaseN_total A Electric_energy(Import)extended kWh HA_RMS_phaseN_1st A Electric_energy(Export)extended kWh HA_RMS_phaseN_3rd A Electric_energy(Import)extended(1P2W_3) kWh HA_RMS_phaseN_5th A Electric_energy(Export)extended(1P2W_3) kWh HA_RMS_phaseN_7th A Reactive_energy(Import_lag) kvarh HA_RMS_phaseN_9th A Reactive_energy(Import_lag)extended kvarh HA_RMS_phaseN_11th A Current_phase1 A HA_RMS_phaseN_13th A Current_phase2 A HA_D.ratio_phase1_total % Current_phase3 A HA_D.ratio_phase2_total % Current_phase3(1P2W_3) A HA_D.ratio_phase3_total % Current_phaseN A HA_D.ratio_phaseN_total % Current_Average A HV_RMS_phase12L_total V Voltage_phase12L V HV_RMS_phase12L_1st V Voltage_phase23L V HV_RMS_phase12L_3rd V Voltage_phase31L V HV_RMS_phase12L_5th V Voltage_Average_line_voltage V HV_RMS_phase12L_7th V Voltage_phase1N V HV_RMS_phase12L_9th V Voltage_phase2N V HV_RMS_phase12L_11th V Voltage_phase3N V HV_RMS_phase12L_13th V Electric_power kW HV_RMS_phase23L_total V Electric_power(1P2W_3) kW HV_RMS_phase23L_1st V Reactive_power kvar HV_RMS_phase23L_3rd V Reactive_power(1P2W_3) kvar HV_RMS_phase23L_5th V Power_factor % HV_RMS_phase23L_7th V Power_factor(1P2W_1) % HV_RMS_phase23L_9th V Power_factor(1P2W_3) % HV_RMS_phase23L_11th V Frequency Hz HV_RMS_phase23L_13th V Current_demand_phase1 A HV_RMS_phase1N_total V Current_demand_phase2 A HV_RMS_phase1N_1st V Current_demand_phase3 A HV_RMS_phase2N_total V Current_demand_phase3(1P2W_3) A HV_RMS_phase2N_1st V Current_demand_phaseN A HV_RMS_phase3N_total V Electric_power_demand kW HV_RMS_phase3N_1st V Electric_power_demand(1P2W_3) kW HV_D.ratio_phase12L_total % Operating_time h HV_D.ratio_phase12L_3rd % Operating_time(1P2W_3) h HV_D.ratio_phase12L_5th % HA_RMS_phase1_total A HV_D.ratio_phase12L_7th % HA_RMS_phase1_1st A HV_D.ratio_phase12L_9th % HA_RMS_phase1_3rd A HV_D.ratio_phase12L_11th % HA_RMS_phase1_5th A HV_D.ratio_phase12L_13th % HA_RMS_phase1_7th A HV_D.ratio_phase23L_total % HA_RMS_phase1_9th A HV_D.ratio_phase23L_3rd % HA_RMS_phase1_11th A HV_D.ratio_phase23L_5th % HA_RMS_phase1_13th A HV_D.ratio_phase23L_7th % HA_RMS_phase2_total A HV_D.ratio_phase23L_9th % HA_RMS_phase2_1st A HV_D.ratio_phase23L_11th % HA_RMS_phase2_3rd A HV_D.ratio_phase23L_13th % HA_RMS_phase2_5th A HV_D.ratio_phase1N_total % HA_RMS_phase2_7th A HV_D.ratio_phase1N_3rd % HA_RMS_phase2_9th A HV_D.ratio_phase1N_5th % HA_RMS_phase2_11th A HV_D.ratio_phase1N_7th % HA_RMS_phase2_13th A HV_D.ratio_phase1N_9th % HA_RMS_phase3_total A HV_D.ratio_phase1N_11th % HA_RMS_phase3_1st A HV_D.ratio_phase1N_13th % HA_RMS_phase3_3rd A HV_D.ratio_phase2N_total % HA_RMS_phase3_5th A HV_D.ratio_phase2N_3rd % HA_RMS_phase3_7th A HV_D.ratio_phase2N_5th % HA_RMS_phase3_9th A HV_D.ratio_phase2N_7th % HA_RMS_phase3_11th A HV_D.ratio_phase2N_9th % HA_RMS_phase3_13th A HV_D.ratio_phase2N_11th % HA_RMS_phase3_total A HV_D.ratio_phase2N_13th % HA_RMS_phase3_1st(1P2W_3) A HV_D.ratio_phase3N_total % HA_RMS_phase3_3rd(1P2W_3) A HV_D.ratio_phase3N_3rd % HA_RMS_phase3_5th(1P2W_3) A HV_D.ratio_phase3N_5th % HA_RMS_phase3_7th(1P2W_3) A HV_D.ratio_phase3N_7th %

5-89

Measured items Unit

HV_D.ratio_phase3N_9th % HV_D.ratio_phase3N_11th % HV_D.ratio_phase3N_13th %

*1 The measured items differ with the phase wire method.

For details, refer to the instruction manual or specification sheet of the terminal. *2 Expanded version of power amount and reactive power amount can be displayed up to 3 digit

digits (maximum 5 digits after the decimal point) from the amount of power and reactive power. The monthly graph (daily amount) and annual graph (monthly amount) may not be displayed correctly because of the small number of significant digits. Please refer to the instruction manual or specifications of the terminal for details on the number of significant digits of electric energy.

5-90

5.6.17. EMU4-VA2

Measured items Unit Measured items Unit Electric_energy(Import) kWh HA_RMS_phase3_9th(1P2W_3) A Electric_energy(Export) kWh HA_RMS_phase3_11th(1P2W_3) A Electric_energy(Import)(1P2W_3) kWh HA_RMS_phase3_13th(1P2W_3) A Electric_energy(Export)(1P2W_3) kWh HA_RMS_phaseN_total A Electric_energy(Import)extended kWh HA_RMS_phaseN_1st A Electric_energy(Export)extended kWh HA_RMS_phaseN_3rd A Electric_energy(Import)extended(1P2W_3) kWh HA_RMS_phaseN_5th A Electric_energy(Export)extended(1P2W_3) kWh HA_RMS_phaseN_7th A Reactive_energy(Import_lag) kvarh HA_RMS_phaseN_9th A Reactive_energy(Import_lag)extended kvarh HA_RMS_phaseN_11th A Current_phase1 A HA_RMS_phaseN_13th A Current_phase2 A HA_D.ratio_phase1_total % Current_phase3 A HA_D.ratio_phase2_total % Current_phase3(1P2W_3) A HA_D.ratio_phase3_total % Current_phaseN A HA_D.ratio_phaseN_total % Current_Average A HV_RMS_phase12L_total V Voltage_phase12L V HV_RMS_phase12L_1st V Voltage_phase23L V HV_RMS_phase12L_3rd V Voltage_phase31L V HV_RMS_phase12L_5th V Voltage_Average_line_voltage V HV_RMS_phase12L_7th V Voltage_phase1N V HV_RMS_phase12L_9th V Voltage_phase2N V HV_RMS_phase12L_11th V Voltage_phase3N V HV_RMS_phase12L_13th V Electric_power kW HV_RMS_phase23L_total V Electric_power(1P2W_3) kW HV_RMS_phase23L_1st V Reactive_power kvar HV_RMS_phase23L_3rd V Reactive_power(1P2W_3) kvar HV_RMS_phase23L_5th V Power_factor % HV_RMS_phase23L_7th V Power_factor(1P2W_1) % HV_RMS_phase23L_9th V Power_factor(1P2W_3) % HV_RMS_phase23L_11th V Frequency Hz HV_RMS_phase23L_13th V Current_demand_phase1 A HV_RMS_phase1N_total V Current_demand_phase2 A HV_RMS_phase1N_1st V Current_demand_phase3 A HV_RMS_phase2N_total V Current_demand_phase3(1P2W_3) A HV_RMS_phase2N_1st V Current_demand_phaseN A HV_RMS_phase3N_total V Electric_power_demand kW HV_RMS_phase3N_1st V Electric_power_demand(1P2W_3) kW HV_D.ratio_phase12L_total % Operating_time h HV_D.ratio_phase12L_3rd % Operating_time(1P2W_3) h HV_D.ratio_phase12L_5th % HA_RMS_phase1_total A HV_D.ratio_phase12L_7th % HA_RMS_phase1_1st A HV_D.ratio_phase12L_9th % HA_RMS_phase1_3rd A HV_D.ratio_phase12L_11th % HA_RMS_phase1_5th A HV_D.ratio_phase12L_13th % HA_RMS_phase1_7th A HV_D.ratio_phase23L_total % HA_RMS_phase1_9th A HV_D.ratio_phase23L_3rd % HA_RMS_phase1_11th A HV_D.ratio_phase23L_5th % HA_RMS_phase1_13th A HV_D.ratio_phase23L_7th % HA_RMS_phase2_total A HV_D.ratio_phase23L_9th % HA_RMS_phase2_1st A HV_D.ratio_phase23L_11th % HA_RMS_phase2_3rd A HV_D.ratio_phase23L_13th % HA_RMS_phase2_5th A HV_D.ratio_phase1N_total % HA_RMS_phase2_7th A HV_D.ratio_phase1N_3rd % HA_RMS_phase2_9th A HV_D.ratio_phase1N_5th % HA_RMS_phase2_11th A HV_D.ratio_phase1N_7th % HA_RMS_phase2_13th A HV_D.ratio_phase1N_9th % HA_RMS_phase3_total A HV_D.ratio_phase1N_11th % HA_RMS_phase3_1st A HV_D.ratio_phase1N_13th % HA_RMS_phase3_3rd A HV_D.ratio_phase2N_total % HA_RMS_phase3_5th A HV_D.ratio_phase2N_3rd % HA_RMS_phase3_7th A HV_D.ratio_phase2N_5th % HA_RMS_phase3_9th A HV_D.ratio_phase2N_7th % HA_RMS_phase3_11th A HV_D.ratio_phase2N_9th % HA_RMS_phase3_13th A HV_D.ratio_phase2N_11th % HA_RMS_phase3_total A HV_D.ratio_phase2N_13th % HA_RMS_phase3_1st(1P2W_3) A HV_D.ratio_phase3N_total % HA_RMS_phase3_3rd(1P2W_3) A HV_D.ratio_phase3N_3rd % HA_RMS_phase3_5th(1P2W_3) A HV_D.ratio_phase3N_5th % HA_RMS_phase3_7th(1P2W_3) A HV_D.ratio_phase3N_7th %

5-91

*1 The measured items differ with the phase wire method. For details, refer to the instruction manual or specification sheet of the terminal.

*2 Expanded version of power amount and reactive power amount can be displayed up to 3 digit digits (maximum 5 digits after the decimal point) from the amount of power and reactive power. The monthly graph (daily amount) and annual graph (monthly amount) may not be displayed correctly because of the small number of significant digits. Please refer to the instruction manual or specifications of the terminal for details on the number of significant digits of electric energy.

5-92

5.6.18. EMU4-AX4

Measured items Unit Ch1 analog value *1 Ch2 analog value *1 Ch3 analog value *1 Ch4 analog value *1 Ch1 number of over limit level A count Ch1 number of over limit level B count Ch1 number of over limit level C count Ch1 number of over limit level D count Ch1 number of over limit level A count Ch1 number of over limit level B count Ch1 number of over limit level C count Ch1 number of over limit level D count Ch1 number of over limit level A count Ch1 number of over limit level B count Ch1 number of over limit level C count Ch1 number of over limit level D count Ch1 number of over limit level A count Ch1 number of over limit level B count Ch1 number of over limit level C count Ch1 number of over limit level D count

*1 Unit can be set for any character up to 8 words.

5.6.19. EMU4-PX4 Measured items Unit

Ch1 pulse count value *1 Ch2 pulse count value *1 Ch3 pulse count value *1 Ch4 pulse count value *1 Ch1 digital input value *1 Ch2 digital input value *1 Ch3 digital input value *1 Ch4 digital input value *1 Ch1 operating time h Ch2 operating time h Ch3 operating time h Ch4 operating time h

*1 Unit can be set for any character up to 8 words.

5-93

5.6.20. MDU breaker Measured items Unit Measured items Unit

Active_energy kWh HA_phase1_RMS_19th A Reactive_energy kvarh HA_phase2_RMS_1st A Current_phase1 A HA_phase2_RMS_3rd A Current_phase2 A HA_phase2_RMS_5th A Current_phase3 A HA_phase2_RMS_7th A Current_phaseN A HA_phase2_RMS_9th A Current_average A HA_phase2_RMS_11th A Current_maximum_phase A HA_phase2_RMS_13th A Voltage_phase1-2 V HA_phase2_RMS_15th A Voltage_phase2-3 V HA_phase2_RMS_17th A Voltage_phase3-1 V HA_phase2_RMS_19th A Voltage_phase1-N V HA_phase3_RMS_1st A Voltage_phase2-N V HA_phase3_RMS_3rd A Voltage_phase3-N V HA_phase3_RMS_5th A Voltage_L-N_average V HA_phase3_RMS_7th A Active_power kW HA_phase3_RMS_9th A Reactive_power kvar HA_phase3_RMS_11th A Power_factor % HA_phase3_RMS_13th A Frequency Hz HA_phase3_RMS_15th A Current_demand_phase1 A HA_phase3_RMS_17th A Current_demand_phase2 A HA_phase3_RMS_19th A Current_demand_phase3 A HA_phaseN_RMS_1st A Current_demand_phaseN A HA_phaseN_RMS_3rd A Current_demand_maximum_phase A HA_phaseN_RMS_5th A Active_power_demand kW HA_phaseN_RMS_7th A Reactive_power_demand kvar HA_phaseN_RMS_9th A HA_phase1_RMS_total A HA_phaseN_RMS_11th A HA_phase2_RMS_total A HA_phaseN_RMS_13th A HA_phase3_RMS_total A HA_phaseN_RMS_15th A HA_phaseN_RMS_total A HA_phaseN_RMS_17th A HA_phase1_RMS_1st A HA_phaseN_RMS_19th A HA_phase1_RMS_3rd A HA_demand_phase1_RMS_total A HA_phase1_RMS_5th A HA_demand_phase2_RMS_total A HA_phase1_RMS_7th A HA_demand_phase3_RMS_total A HA_phase1_RMS_9th A HA_demand_phaseN_RMS_total A HA_phase1_RMS_11th A HA_phase1_RMS_13th A HA_phase1_RMS_15th A HA_phase1_RMS_17th A

*1 The measured items differ with the phase wire method.

For details, refer to the instruction manual or specification sheet of the terminal.

5-94

5.6.21. AE-SW(BIF-MD) Measured items Unit Measured items Unit

Active_energy kWh HA_phase3_RMS_11th A Reactive_energy_Import_lag kvarh HA_phase3_RMS_13th A Reactive_energy_Import_lead kvarh HA_phase3_RMS_15th A Current_phase1 A HA_phase3_RMS_17th A Current_phase2 A HA_phase3_RMS_19th A Current_phase3 A HA_phaseN_RMS_1st A Current_phaseN A HA_phaseN_RMS_3rd A Voltage_phase1-2 V HA_phaseN_RMS_5th A Voltage_phase2-3 V HA_phaseN_RMS_7th A Voltage_phase3-1 V HA_phaseN_RMS_9th A Voltage_phase1-N V HA_phaseN_RMS_11th A Voltage_phase2-N V HA_phaseN_RMS_13th A Voltage_phase3-N V HA_phaseN_RMS_15th A Voltage_L-L_maximum V HA_phaseN_RMS_17th A Voltage_L-N_maximum V HA_phaseN_RMS_19th A Leakage_current A HA_phase1_D_ratio_total % Active_power kW HA_phase1_D_ratio_3rd % Reactive_power kvar HA_phase1_D_ratio_5th % Power_factor % HA_phase1_D_ratio_7th % Frequency Hz HA_phase1_D_ratio_9th % Current_demand_phase1 A HA_phase1_D_ratio_11th % Current_demand_phase2 A HA_phase1_D_ratio_13th % Current_demand_phase3 A HA_phase1_D_ratio_15th % Current_demand_phaseN A HA_phase1_D_ratio_17th % Current_demand_maximum_phase A HA_phase1_D_ratio_19th % Leakage_current_demand A HA_phase2_D_ratio_total % Active_power_demand kW HA_phase2_D_ratio_3rd % Reactive_power_demand kvar HA_phase2_D_ratio_5th % HA_phase1_RMS_total A HA_phase2_D_ratio_7th % HA_phase2_RMS_total A HA_phase2_D_ratio_9th % HA_phase3_RMS_total A HA_phase2_D_ratio_11th % HA_phaseN_RMS_total A HA_phase2_D_ratio_13th % HA_phase1_RMS_1st A HA_phase2_D_ratio_15th % HA_phase1_RMS_3rd A HA_phase2_D_ratio_17th % HA_phase1_RMS_5th A HA_phase2_D_ratio_19th % HA_phase1_RMS_7th A HA_phase3_D_ratio_total % HA_phase1_RMS_9th A HA_phase3_D_ratio_3rd % HA_phase1_RMS_11th A HA_phase3_D_ratio_5th % HA_phase1_RMS_13th A HA_phase3_D_ratio_7th % HA_phase1_RMS_15th A HA_phase3_D_ratio_9th % HA_phase1_RMS_17th A HA_phase3_D_ratio_11th % HA_phase1_RMS_19th A HA_phase3_D_ratio_13th % HA_phase2_RMS_1st A HA_phase3_D_ratio_15th % HA_phase2_RMS_3rd A HA_phase3_D_ratio_17th % HA_phase2_RMS_5th A HA_phase3_D_ratio_19th % HA_phase2_RMS_7th A HA_phaseN_D_ratio_total % HA_phase2_RMS_9th A HA_phaseN_D_ratio_3rd % HA_phase2_RMS_11th A HA_phaseN_D_ratio_5th % HA_phase2_RMS_13th A HA_phaseN_D_ratio_7th % HA_phase2_RMS_15th A HA_phaseN_D_ratio_9th % HA_phase2_RMS_17th A HA_phaseN_D_ratio_11th % HA_phase2_RMS_19th A HA_phaseN_D_ratio_13th % HA_phase3_RMS_1st A HA_phaseN_D_ratio_15th % HA_phase3_RMS_3rd A HA_phaseN_D_ratio_17th % HA_phase3_RMS_5th A HA_phaseN_D_ratio_19th % HA_phase3_RMS_7th A VA kVA HA_phase3_RMS_9th A VA_demand kVA

*1 The measured items differ with the phase wire method. For details, refer to the instruction manual or specification sheet of the terminal.

5-95

5.7. List of measured items of devices The following describes the measured items QCPU devices and GOT supported by EcoWebServerIII. 5.7.1. Bit data

(a) Range of accessible devices for commands common to iQ-R Measured items Device No.

Input X X000000X0007FF Output Y Y000000Y0007FF Internal relay M M000000M008191 Latch relay L L000000L002047 Step relay S S000000S002047 Link relay B B000000B0007FF Annunciator F F000000F001023 Special relay - - Timer (Contact) T TS00000TS00511 Timer (Coil) T TC00000TC00511 Counter (Contact) C CS00000CS00511 Counter (Coil) C CC00000CC00511

(b) Range of accessible devices for commands common to iQ-F

Measured items Device No. Input X X000000X000377 Output Y Y000000Y000377 Internal relay M M000000M007679 Latch relay - - Step relay S S000000S004095 Link relay - - Annunciator - - Special relay - - Timer (Contact) T TS00000TS00511 Timer (Coil) - - Counter (Contact) C CS00000CS00255 Counter (Coil) C CC00000CC01023

5-96

(c) Range of accessible devices for commands common to high-performance model QCPU, process CPU, dual CPU, universal model QCPU, and LCPU

Measured items Device No. Input X X000000 to X001FFF Output Y Y000000 to Y001FFF Internal relay M M000000 to M008191 Latch relay L L000000 to L008191 Step relay S S000000 to S008191 Link relay B B000000 to B001FFF Annunciator F F000000 to F002047 Special relay - - Timer(Contact) T TS00000 to TS02047 Timer(Coil) T TC00000 to TC02047 Counter(Contact) C CS00000 to CS01023 Counter(Coil) C CC00000 to CC01023

(d) Range of accessible devices for commands common to basic model QCPU

Measured items Device No. Input X X000000 to X0007FF Output Y Y000000 to Y0007FF Internal relay M M000000 to M008191 Latch relay L L000000 to L002047 Step relay S S000000 to S002047 Link relay B B000000 to B0007FF Annunciator F F000000 to F001023 Special relay - - Timer(Contact) T TS00000 to TS00511 Timer(Coil) T TC00000 to TC00511 Counter(Contact) C CS00000 to CS00511 Counter(Coil) C CC00000 to CC00511

5-97

(e) Range of accessible devices for commands common to QnACPU Measured items Device No.

Input X X000000 to X001FFF Output Y Y000000 to Y001FFF Internal relay M M000000 to M008191 Latch relay L L000000 to L008191 Step relay S S000000 to S008191 Link relay B B000000 to B001FFF Annunciator F F000000 to F002047 Special relay M M009000 to M009255 Timer(Contact) T TS00000 to TS02047 Timer(Coil) T TC00000 to TC02047 Counter(Contact) C CS00000 to CS01023 Counter(Coil) C CC00000 to CC01023

*1 This terminal is used for a measuring point of operation monitoring.

(f) Range of accessible devices for commands common to ACPU Measured items Device No.

Input X X0000 to X07FF Output Y Y0000 to Y07FF Internal relay M M0000 to M2047 Latch relay L L0000 to L2047 Step relay S S0000 to S2047 Link relay B B0000 to B07FF Annunciator F F0000 to F0255 Special relay M M9000 to M9255 Timer(Contact) T TS000 to TS255 Timer(Coil) T TC000 to TC255 Counter(Contact) C CS000 to CS255 Counter(Coil) C CC000 to CC255

(g) Range of accessible devices for commands common to AnA/AnUCPU

Measured items Device No. Input X X000000 to X001FFF Output Y Y000000 to Y001FFF Internal relay M M000000 to M008191 Latch relay L L000000 to L008191 Step relay S S000000 to S008191 Link relay B B000000 to B001FFF Annunciator F F000000 to F002047 Special relay M M009000 to M009255 Timer(Contact) T TS00000 to TS02047 Timer(Coil) T TC00000 to TC02047 Counter(Contact) C CS00000 to CS01023 Counter(Coil) C CC00000 to CC01023

5-98

(h Range of accessible devices for commands common to FXCPU

Measured items Device No. Input X X0000 to X0377 Output Y Y0000 to Y0377 Internal relay M M0000 to M7679 Step relay S S0000 to S4095 Special relay M M8000 to M8511 Timer(Contact) T TS000 to TS511 Counter(Contact) C CS000 to CS255

(i) Range of accessible devices for commands common to GT27, GT16, GT15, GT14

Measured items Device No. Virtual device L L0000 to L2047 Virtual device M M0000 to M2047

5-99

5.7.2. Word data

(a) Range of accessible devices for commands common to iQ-R

Measured items Device No. Timer (Current value) T TN00000TN00511 Counter (Current value) C CN00000CN00511 Data register D D000000D011135 Link register W W000000W0007FF File register R R000000R032767 Special register - -

(b) Range of accessible devices for commands common to iQ-F Measured items Device No.

Timer (Current value) T TN00000TN00511 Counter (Current value) C CN00000CN00255 Data register D D000000D007999 Link register - - File register R R000000R009999 Special register - -

(c) Range of accessible devices for commands common to high-performance model QCPU, process CPU,

dual CPU, universal model QCPU and LCPU Measured items Device No.

Timer(Current value) T TN00000 to TN02047 Counter(Current value) C CN00000 to CN01023 Data register D D000000 to D008191 Link register W W000000 to W001FFF File register R R000000 to R008191 Special register - -

(d) Range of accessible devices for commands common to basic model QCPU Measured items Device No.

Timer(Current value) T TN00000 to TN00511 Counter(Current value) C CN00000 to CN00511 Data register D D000000 to D008191 Link register W W000000 to W0007FF File register R R000000 to R008191 Special register - -

5-100

(e) Range of accessible devices for commands common to QnACPU Measured items Device No.

Timer(Current value) T TN00000 to TN02047 Counter(Current value) C CN00000 to CN01023 Data register D D000000 to D008191 Link register W W000000 to W001FFF File register R R000000 to R008191 Special register D D009000 to D009255

(f) Range of accessible devices for commands common to ACPU Measured items Device No.

Timer(Current value) T TN000 to TN255 Counter(Current value) C CN000 to CN255 Data register D D0000 to D1023 Link register W W0000 to W03FF File register R R0000 to R8191 Special register D D9000 to D9255

(g) Range of accessible devices for commands common to AnA/AnUCPU Measured items Device No.

Timer(Current value) T TN00000 to TN02047 Counter(Current value) C CN00000 to CN01023 Data register D D000000 to D008191

Link register W W000000 to W001FFF

File register R R000000 to R008191 Special register D D009000 to D009255

(h) Range of accessible devices for commands common to FXCPU

Measured items Device No. Timer(Current value) T TN000 to TN511 Counter(Current value) C CN000 to CN255 Data register D D0000 to D7999 Expanded register R R0000 to R9999 Special register D D8000 to D8511

5-101

(i) Range of accessible devices for commands common to GT27, GT16, GT15, GT14

Measured items Device No. Virtual device D D0000 to D4095 Virtual device R R0000 to R4095

*1 The device number varies with the PLC CPU. For details, refer to the instruction manual or specification sheet of the PLC or the CC-Link master/local unit.

*2 The MSB is a sign bit, and thus two's complement notation is used. *3 Arbitrary characters (a maximum of 8 characters) can be set as the unit. *4 For the multiplier, 0.001 to 99999 can be set. *5 Resister value * multiplying factor is do not exceed the 99999999999 (11digits). *6 Max intergration in 1 month is 999(10n-1). *7 Select from [16bit(W)] and [32bit(L)] about the data length of PLC.

Since the unsigned data type of PLC does not support, please use the signed data type of PLC.

5-102

5.7.3. Long data

(a) Range of accessible devices for commands common to iQ-R Measured items Device No.

Timer (Current value) T TN00000TN00510 Counter (Current value) C CN00000CN00510 Data register D D000000D011134 Link register W W000000W0007FE File register R R000000R032766 Special register - -

(b) Range of accessible devices for commands common to iQ-F Measured items Device No.

Timer (Current value) T TN00000TN00510 Counter (Current value) C CN00000CN00254 Data register D D000000D007998 Link register - - File register R R000000R009998 Special register - -

(c) Range of accessible devices for commands common to high-performance model QCPU, process

CPU, dual CPU, universal model QCPU and LCPU Measured items Device No.

Timer(Current value) T TN00000 to TN02046 Counter(Current value) C CN00000 to CN01022 Data register D D000000 to D008190 Link register W W000000 to W001FFE File register R R000000 to R008190 Special register - -

(d) Range of accessible devices for commands common to basic model QCPU Measured items Device No.

Timer(Current value) T TN00000 to TN00510 Counter(Current value) C CN00000 to CN00510 Data register D D000000 to D008190 Link register W W000000 to W0007FE File register R R000000 to R008190 Special register - -

5-103

(e) Range of accessible devices for commands common to QnACPU Measured items Device No.

Timer(Current value) T TN00000 to TN02046 Counter(Current value) C CN00000 to CN01022 Data register D D000000 to D008190 Link register W W000000 to W001FFE File register R R000000 to R008190 Special register D D009000 to D009254

(f) Range of accessible devices for commands common to ACPU Measured items Device No.

Timer(Current value) T TN00000 to TN02046 Counter(Current value) C CN00000 to CN01022 Data register D D000000 to D008190 Link register W W000000 to W001FFE File register R R000000 to R008190 Special register D D009000 to D009254

(g) Range of accessible devices for commands common to AnA/AnUCPU Measured items Device No.

Timer(Current value) T TN00000 to TN02046 Counter(Current value) C CN00000 to CN01022 Data register D D000000 to D008190

Link register W W000000 to W001FFE

File register R R000000 to R008190 Special register D D009000 to D009254

(h) Range of accessible devices for commands common to FXCPU Measured items Device No.

Timer(Current value) T TN000 toTN510 Counter(Current value) C CN000 to CN254 Data register D D0000 toD7998 Expanded resister R R0000 to R9998 Special register D D8000 toD8510

5-104

(i) Range of accessible devices for commands common to GT27, GT16, GT15, GT14

Measured items Device No. Virtual device D D0000 to D4094 Virtual device R R0000 to R4094

*1 The device number varies with the PLC CPU.

For details, refer to the instruction manual or specification sheet of the PLC or the CC-Link master/local unit.

*2 Data of double word (2 device No. for 1 data). Last device No. is first device No. +1.

*3 First word is being used as symbol (a multiple of 2). *4 Arbitrary characters (a maximum of 8 characters) can be set as the unit. *5 For the multiplier, 0.00001 to 1 (Up to 5 decimal places) can be set. *6 Resister value * multiplying factor is do not exceed the 99999999999 (11digits). *7 Max intergration in 1 month is 999(10n-1). *8 Select from [16bit(W)] and [32bit(L)] about the data length of PLC.

Since the unsigned data type of PLC does not support, please use the signed data type of PLC.

5-105

5.8. PLC Setting The following describes PLC settings to communicate with by Ethernet (CH2). For details, refer to the users manual of the PLC to be used. *1 EcoWebServerIII supports the following PLC series.

iQ-R series iQ-F series QCPU/LCPU/QnACPU series ACPU series An ACPU/ An UCPU series FXCPU series

*FXCPU series PLC is only supported for serial communication by using Ethernet/Serial transfer. *2 The supported communication frames supported by EcoWebServerIII are ASCII of A-compatible 1C frames (Format 4) or QnA-compatible 3E frames 5.8.1. Communicate with EcoWebServerIII by Ethernet (CH2)

(a)For Ethernet interface unit

GX Works2/GX Developer settings for Ethernet interface unit. Item Contents

Operation settings Communication code ASCII

Default settings Always OPEN wait (possible to communicate by STOP) IP address Access by EcoWebServerIII Write in when Run Allow Frame setting Ethernet(V2.0) TCP alive setting KeepAlive

Open setting Line1

Protocol TCP Open mode Unpassive Fixed buffer Receive Fixed buffer step Have Pair open Pair Alive confirm No Local port Any port

(registered in EcoWebServerIII setting software) Target IP address - (no set) Target port No. - (no set)

Line2 Protocol Same as Line1

Open mode Same as Line1 Fixed buffer Send Fixed buffer step Same as Line1 Pair open Same as Line1 Alive confirm Same as Line1 Local port Same as Line1 Target IP address - (no set) Target port No. - (no set)

5-106

(b)For internal Ethernet interface GX Works2/GX Developer settings for internal Ethernet interface.

Item Contents IP address setting IP setting Access by EcoWebServerIII

Subnet (ex) 255.255.0.0 Setting condition

-Start at 1 -Cannot add 0 amount 1 -Last at 0

Gateway IP address of default gateway Communication code ASCII Write in when Run Allow MELSOFT direct No inhibit No answer to CPU from network

Answer

Open setting Protocol TCP

Open mode Unpassive Open type MC protocol Local port Any port

(registered in EcoWebServerIII setting software) Target IP address - (no set)

5.8.2. Communicate with EcoWebServerIII by Ethernet/Serial (CH2) GX Works2/GX Developer settings for Ethernet/Serial interface.

Item Content Transfer setting Operation setting Independent

Data bits 7 Parity bits Yes Parity Even Stop bits 1 Sum check code Yes Write in when Run Allow Change setting Allow

Communication speed 19200bps Protocol setting MC protocol (type 4) Station No. setting 1 to 31(0 for EcoWebServerIII)

5-107

5.9. GOT communication settings This section explains how to set the GOT when connecting the EcoWebServerIII and GOT with the LAN CH2 port in the EcoWebServerIII's server. For details, refer to the users manual of the GOT to be used. *1 The EcoWebServerIII reads/writes data to the GOT's virtual device using the microcomputer

connection (Ethernet). Microcomputer connection (Serial) is not supported.

*2 The following GOT Series are supported. GOT2000 Series (GT27) GOT1000 Series (GT16/GT15/GT14) (Note that support is limited to microcomputer connection (Ethernet) compatible GOTs.)

5.9.1. Settings to connect EcoWebServerIII to GOT with Ethernet

(1) For GOT1000 Series (GT16/GT14/GT15)

Set the connection device with the GOT screen creation software GT Designer 3.

Item Contents Maker Others Model Microcomputer connection I/F Standard I/F (Ethernet): Multi-connection compatible

* For GT15, select extended I/F Driver Ethernet (microcomputer) Details settings

GOT Net No. 1 (any number) GOT station No. 1 (any number) GOT IP address Access by EcoWebServerIII Subnet mask (ex) 255.255.0.0

Setting conditions * Start at 1 * Cannot add 0 amount 1 * Last at 0

Default gateway Set when using default gateway Ethernet download port No. Any number GOT device communication port No. Any number

(This value is registered as GOT port No. by EcoWebServerIII setting software)

Startup time (sec.) 3 Send delay time (x10 ms) 0 32-bit storage order LH order Protocol TCP/IP Type 8 Interrupt data length 1 Special interrupt code output None Alive confirm Disabled Alive confirm cycle (sec.) 20

* Refer to example of setting with GT Designer 3 on next page.

5-108

(2) For GOT2000 Series (GT27)

Set the connection device with the GOT screen creation software GT Designer 3.

Item Contents Maker Others Model Microcomputer connection I/F Standard I/F (Ethernet): Multi-connection compatible Driver Ethernet (microcomputer) Details settings

GOT Net No. 1 (any number) GOT station No. 1 (any number) GOT IP address Access by EcoWebServerIII Subnet mask 255.255.0.0, etc.

Setting conditions * 1 must condition from uppermost bit * Cannot add 0 amount 1 * Last at 0

Default gateway Set when using default gateway Peripheral S/W communication port No. No.

Any number

GOT device communication port No.

Any number (0 65535(DEC)) (This value is registered as GOT port No. by EcoWebServerIII setting software)

Startup time (sec.) 3 Send delay time (x10 ms) 0 32-bit storage order LH order Protocol TCP/IP Type 8 Interrupt data length 1 Special interrupt code output None Alive confirm Disabled Alive confirm cycle (sec.) 20

* Refer to example of setting with GT Designer 3 on next page.

5-109

5.10. Data output to PLC/GOT The following desceibes the range of data output to PLC/GOT. For output items of demand information, refer to [5.7.3 Long data]. 5.10.1. Double word

(1) Range of accessible devices for commands common to iQ-R

Item Device No. Data type

Data register D D000000D011135 Decimal.

(2) Range of accessible devices for commands common to iQ-F

Item Device No. Data type

Data register D D000000D007999 Decimal.

(3) Range of accessible devices for commands common to high-performance model QCPU, process CPU, dual CPU, universal model QCPU, QnACPU and LCPU.

Item Device No. Data type

Data register D D000000 to D12287 Decimal.

(4) Range of accessible devices for commands common to basic model QCPU

Item Device No. Data type

Data register D D000000 to D011135 Decimal.

(5) Range of accessible devices for commands common to AnA/AnUCPU

Item Device No. Data type

Data register D D000000 to D008191 Decimal.

(6) Range of accessible devices for commands common to ACPU

Item Device No. Data type

Data register D D0000 to D1023 Decimal.

(7) Range of accessible devices for commands common to FXCPU

Item Device No. Data type

Data register D D0000 to D7999 Decimal.

(8) Range of accessible devices for commands common to GT27, GT16, GT15 and GT14

Item Device No. Data type

Virtual deice D D0020 to D2031, D2036 to D4095 Decimal.

*1 The details of the device No. refer to the manual of PLC. *2 Data of double word (2 device No. for 1 data).

Last device No. is first device No.+1. *3 First word is being used as symbol (a multiple of 2). *4 Please set up the unit and magnification in the upper end (management). *5 Range of the register value is -2147483648 to 2147483647 (Decimal). *6 Cumulative value of one cycle can be changed by measuring value and magnification,

please confirm in the upper end (management). *7 Refer to Appendix 5.11 Data output specification to PLC / GOT for details on each output data

type.

5-110

1st measuring value in the group.

2nd measuring value in the group

mth measuring value in the group

1st measuring value in the group

2nd measuring value in the group

3rd measuring value in the group

4th measuring value in the group

5th measuring value in the group

First device No.

5.11. Data output specification to PLC/GOT The following describes the specification of data output to the PLC/GOT. In addition to output the measuring value, measuring error and updating time can be output to the selected device. The demand information can also be output to a specified device when using the EcoWebServerIII with demand control function. 5.11.1. Data output Data output for each measuring item occupy 2 device No. Device of data output target is registered as [First device No.] in [4.8.1 Data output settings].

Device n

Device n+1

Device n+2

Device n+3

Device n+(m-1)2

Device n+(m-1)2+1

Example: 5 points of measuring data to D0100 (Device)

D0100 D0101 D0102 D0103 D0104 D0105 D0106 D0107 D0108 D0109

*1 Range of the data output value is -2147483648 to 2147483647 (Decimal). Exceeds the upper limit: 7FFFFFFF, below the lower limit: FFFFFFFF

*2 Data with a decimal point will be output as an integer. Please add a decimal in the upper end. For the decimal point position, refer to the programming manual of each terminal.

Example 123.456 123456 (1E240h) Upper end1000 1234.56 123456 (1E240h) Upper end100 12345.6 123456 (1E240h) Upper end10 123456 123456 (1E240h) Upper end do not need calculus 1234560 1234560 (12D680h) Upper end do not need calculus

*3 Operation monitoring The data of measurement points are as follows.

ON 1(00000001h)

OFF 0(00000000h)

5-111

5.11.2. Measuring error information When [Output measuring error information] is selected in the [4.8.1 Data output settings], output measuring output measuring error information (0: normal or 1: abnormal).

*1 [Monitor] in Report mail for measuring error must be selected in External device coordination setting.

Measuring error information or 1 measuring point is used as a bit. (16 measuring points for 1 device, 32 measuring points for 2 devices). b15 b14 b13 b12 b11 b10 b9 b8 b7 b6 b5 b4 b3 b2 b1 b0

*2 Not use 0: normal output.

5.11.3. Updating time information [Information of the updating will be appended in the end of the device] is selected in the [4.8.1 Data output settings], updating time information will be appended in the next device of measuring error information.

Device n

Device n+1

Device n+2

Measuring error Updating time information information Updating time is output as Hexadecimal. Range is 00:00(0000h) to 59:59(3B3Bh). This can be used to determine whether the information is output correctly from EcoWebServerIII.

16th measuring error information in the group

1st measuring error information in the group

9th measuring error information in the group

5-112

5.11.4. Outputting demand information (Only with demand control function) Each time the demand is updated, the following demand information is output to the specified output destination. The output destination devices are shown below. * Can be output PLC/GOT is only 1.

n: [First device No.] in [4.8.2 Data output settings (demand control)]

Device No. Item Output data range

(Decimal) (Hexadecimal)

n Control device for monitoring 0=Writing / writing incomplete 1= Writing complete 0000h, 0001h

n+1 Healthy 0,1 (Reversed with each write) 0000h, 0001h n+2 Current time Year 2012 to 2099 07DCh to 0833h n+3 Mon. 1 to 12 0001h to 000Ch n+4 Day(s) 1 to 31 0001h to 001Fh n+5 Hour(s) 0 to 23 0000h to 0017h n+6 Minute 0 to 59 0000h to 003Bh n+7 Sec. 0 to 59 0000h to 003Bh n+8 Integrated value of

consumption Down 0 to 999,999,999 00000000h to 3B9AC9FFh

n+9 Top n+10 Current demand Down 0 to 9,999,999 00000000h to 0098967Fh n+11 Top n+12 Predicted demand Down 0 to 9,999,999 00000000h to 0098967Fh n+13 Top n+14 Adjusted electrical power Down -9,999,999 to 9,999,999 FF676981h to 0098967Fh n+15 Top n+16 Permissible power Down 0 to 9,999,999 00000000h to 0098967Fh n+17 Top n+18 Previous demand Down 0 to 9,999,999 00000000h to 0098967Fh n+19 Top n+20 Remaining time 3600 to 10 0E10h to 000Ah n+21 Alarm Refer to next page *1 n+22 Control status Refer to next page *2 n+23 Target demand value Down 0 to 9,999,999 00000000h to 000F423Fh n+24 Top n+25 VCT ratio Down 1 to 100,000 00000001h to 000186A0h n+26 Top

n+27 Alarm type 1=Limit alarm 2=Fixed alarm 0001h, 0002h

n+28 Integrated value of consumption: Number of decimal digits 0 to 3 0000h to 0003h

n+29 Current demand: Number of decimal digits 1 to 4 0001h to 0004h

5-113

*1 Alarm The alarm data output uses one device. (1=Occurred, 0=Recovered)

b15 b14 b13 b12 b11 b10 b9 b8 b7 b6 b5 b4 b3 b2 b1 b0

b15 to b7 Not used (0 fixed) b6 Frequency synchronization error

b5 Error: Demand time limit adjustment by external pulse signal

b4 Battery error b3 System error b2 Limit / Fixed b1 Level 2 b0 Level 1

*2 Control status The control status data output uses one device. 1=ON (Close) Closed, 0=OFF (Open) Open

b15 b14 b13 b12 b11 b10 b9 b8 b7 b6 b5 b4 b3 b2 b1 b0

b15 Not used (0 fixed) b14 Not used (0 fixed) b13 Not used (0 fixed) b12 Not used (0 fixed) b11 Control status (control 12) b10 Control status (control 11) b9 Control status (control 10) b8 Control status (control 9) b7 Control status (control 8) b6 Control status (control 7) b5 Control status (control 6) b4 Control status (control 5) b3 Control status (control 4) b2 Control status (control 3) b1 Control status (control 2) b0 Control status (control 1)

5-114

5.12. EcoWebServerIII MC protocol server This section describes EcoWebServerIII MC protocol server. When using the EcoWebServerIII with demand control function, can read the demand information using the MC protocol communication.

5.12.1. Communications parameter Communication parameters of EcoWebServerIII MC protocol server is shown in the table below.

Item Contents Communication protocol

MCprotocol 3E, 4E frame TCP/IP

Updated data code Binary Port No. 50001 Receive timeout *2 5 [s] First device No. D1000 Data update cycle 10 [s]

*1 Each parameter is fixed and can not be changed. Please set according to the above parameters by the client side. *2 The timeout monitoring time of complete reception from the order message reception start.

5-115

5.12.2. Local virtual device data output contents (Only with demand control

function) Every demand update, the following demand information is output to the local virtual device specified. The output destination device is shown in the table below.

Device No. Item Output data range

(Decimal) (Hexadecimal)

D1000 Control device for monitoring 0=Writing / writing incomplete 1=Writing complete 0000h, 0001h

D1001 Healthy 0, 1 (Reserved with each write) 0000h, 0001h D1002 Current time Year 2012 to2099 07DCh to 0833h D1003 Mon. 1 to 12 0001h to 000Ch D1004 Day(s) 1 to 31 0001h to 001Fh D1005 Hour(s) 0 to 23 0000h to 0017h D1006 Minute 0 to 59 0000h to 003Bh D1007 Sec. 0 to 59 0000h to 003Bh D1008 Integrated value of

consumption Down 0999,999,999 00000000h to 3B9AC9FFh

D1009 Top D1010 Current demand Down 09,999,999 00000000h to 0098967Fh D1011 Top D1012 Predicted demand Down 09,999,999 00000000h to 0098967Fh D1013 Top D1014 Adjusted electrical

power Down -9,999,9999,999,999 FF676981h to 0098967Fh

D1015 Top D1016 Permissible power Down 0 to 9,999,999 00000000h to 0098967Fh D1017 Top D1018 Previous demand Down 0 to 9,999,999 00000000h to 0098967Fh D1019 Top D1020 Remaining time 3600 to 10 0E10h to 000Ah D1021 Alarm Refer to next page *1 D1022 Control status Refer to next page *2 D1023 Target demand Down 0 to 999999 00000000h to 000f423fh D1024 Top D1025 VCT ratio Down 1 to 100000 00000001h to 000186A0h D1026 Top

D1027 Alarm type 1=Limit alarm 2=Fixed alarm 0001h, 0002h

D1028 Integrated value of consumption: Number of decimaldigits 0 to 3 0000h to 0003h

D1029 Current demand: Number of decimal digits 1 to 4 0001h to 0004h

5-116

[Alarm state format]

[Load control state format]

bit contents

b0 Level 1 alarm

0: Restored 1: Occurrence

b1 Level 2 alarm

b2 Limit/Fixed alarm

b3 System error (demand control unit)

b4 to b15 (Not used)

bit contents

b0 Control status (control 1)

0: Restored 1: Occurrence

b1 Control status (control 2)

b2 Control status (control 3)

b3 Control status (control 4)

b4 Control status (control 5)

b5 Control status (control 6)

b6 Control status (control 7)

b7 Control status (control 8)

b8 Control status (control 9)

b9 Control status (control 10)

b10 Control status (control 11)

b11 Control status (control 12)

b12 to b15 (Not used)

5-117

5.13. List of FTP commands The following describes FTP (file transfer protocol) commands that are supported by EcoWebServerIII. The descriptions of the following FTP commands are for data acquisition in EcoWebServerIII from a higher-level device. (The setting for periodic data transfer from EcoWebServerIII to an FTP server is described in "4.8.12 FTP server setting".)

5.13.1. List of FTP commands The following FTP commands are supported. Available commands differ with the login ID. *1 The default data acquisition login ID and password are "guest" and "user", respectively,

and the default system administration login ID and password are "ecoV" and "ecopass", respectively.

*2 Normally, do not use the system administration login ID and password. A change or deletion of a file or folder in the main unit of EcoWebServerIII can cause malfunction.

Command Command of FTP client on Windows

Description Support

For file acquisition

For system administration

OPEN open FTP connection USER user (Login ID) PASS (Password) CWD/XCWD cd Change the current directory CDUP/XCUP cd .. Move to the parent directory QUIT bye

close End FTP connection

PORT Set a port PASV Open the specified port to

listen for connection

TYPE binary (TYPE I) ascii (TYPE A)

Set a file type

RETR get mget

Read out a file Read out files by batch

STOR put mput

Write a file Write files by batch

DELE del mdelete

Delete a file Delete files by batch

PWD/XPWD pwd Display the current directory LIST dir Display a list of files NLST ls Display a list of names MKD/XMKD mkd

mkdir Create the specified directory

RMD/XRMD rmd rmdir

Delete the specified directory

5-118

5.13.2. Acquisition of data files by FTP command

(1) Start up the Command Prompt of Windows. Click [Start] - [Programs] - [Accessories] - [Command Prompt].

(2) Move the file to the destination directory (create a folder with Explorer etc.). Type cd [directory name]. For example, to save a file in [C:EcoWebServerData], type as follows to move the file to the appropriate directory.

(3) Make sure that the prompt shows the appropriate directory name.

(4) Start up the FTP client. Type ftp and then press the [Enter] key.

(5) Connect to EcoWebServerIII. Type open [IP address of EcoWebServerIII] and then press the [Enter] key.

(6) When the communication is established successfully, EcoWebServerIII gives a response. Type the data acquisition login ID and then press the [Enter] key. *1 Do not use the system administration login ID.

(7) Type the data acquisition password and then press the [Enter] key.

C:Documents and SettingsUser>

C:Documents and SettingsUser>cd c:EcoWebServerData

C:EcoWebServerData>

C:EcoWebServerData>ftp ftp>

ftp> open 192.168.10.1

ftp> open 192.168.10.1 Connected 192.168.10.1. 220 FTP server ready User (192.168.10.1:(none)): guest

User (192.168.10.1:(none)): guest 331 Password. Password:

5-119

(8) Display the directory. Type dir and then press the [Enter] key.

* Display of the above is an example. Refer to the table on the next page for more information.

Password: 230 User guest logged in. ftp> dir 200 PORT command successful. 150 ASCII data. 11-03-01 04:00PM

ZoomLog 11-03-01 04:00PM DayLog 11-03-01 04:00PM DayBak 11-03-01 04:00PM MonthLog 11-03-01 04:00PM MonthBak 11-03-01 04:00PM YearLog 11-03-01 04:00PM YearBak 11-03-01 04:00PM VDayLog 11-03-01 04:00PM VDayBak 11-03-01 04:00PM VMonthLog 11-03-01 04:00PM VMonthBak 11-03-01 04:00PM BDayLog 11-03-01 04:00PM BDayBak 11-03-01 04:00PM SystemLog 11-03-01 04:00PM SystemBak 11-03-01 04:00PM DILog 11-03-01 04:00PM DIBak 226 transfer complete. ftp: 916 bytes received in 0.11Seconds 8.40Kbytes/sec ftp>

5-120

*1 Each directory stores the following data files. *2 The Bak directory stores backup data that is used for restoring a corrupted file.

Normally, use the Log directory.

*Demand data is a file that only models with demand control function creates.

(9) Move to the directory. Type cd [directory name] (case-sensitive) and then press the [Enter] key.

(Below is an example of cd MonthLog.)

Directory name

Stored file Remarks

ZoomLog Zoom data file DayLog Daily data file DayBak For backup MonthLog Monthly data file MonthBak For backup YearLog Yearly data file YearBak For backup VDayLog Virtual (daily) data file VDayBak For backup VMonthLog Virtual (monthly) data file VMonthBak For backup BDayLog Specific consumption (daily)

data file

BDayBak For backup FDayLog Equipment (daily) data file FDayBak For backup SystemLog System log file SystemBak For backup DILog Operation history data file DIBak For backup DmLog Demand alarm and control

history data file*

DmBak For backup DmDayLog Demand data (daily) file*

DmDayBak For backup DmMonthLog Demand data (Monthly) file*

DmMonthBak For backup DmYearLog Demand data (Annual) file*

DmYearBak For backup

ftp> cd MonthLog 250 CWD command successful. ftp>

5-121

(10) Display the directory. Type dir and then press the [Enter] key. A list of data files in the [directory name] will be displayed.

(11) Acquire a data file.

Type get [file name] and then press the [Enter] key. To acquire another data file in the same directory, repeat the same operation.

(12) To acquire a file in another directory, return to the original directory (state of Step (8)). Type cd .. and then press the [Enter] key. By following the same steps as Steps (8) to (11), acquire data files in other directories.

(13) When necessary processes are completed, type bye and then press the [Enter] key.

(14) Type exit and then press the [Enter] key. Windows Command Prompt will be closed.

ftp> dir 200 PORT command successful. 150 ASCII data. 11-03-04 00:00AM 3 WrStart 11-03-04 00:00AM 3 WrEnd 11-04-01 00:00AM 12943 1103.csv 11-12-01 00:00AM 14826 1111.csv 12-01-01 00:00AM 12502 1112.csv 12-04-01 00:00AM 16976 1201.csv 226 transfer complete. ftp: 1025 bytes received in 0.25Seconds 4.10Kbytes/sec ftp>

ftp> get 1103.csv 200 PORT command successful. 150 ASCII data connection. 226 transfer complete. ftp: 12502 bytes received in 0.17Seconds 14.69Kbytes/sec ftp>

ftp> cd .. 250 CWD command successful. ftp>

ftp> bye 221 GOOD BYE. C:EcoWebServerData>

C:EcoWebServerData> exit

5-122

5.14. How to check the MAC address

If you need to check the MAC address of EcoServer III, follow the procedure below.

(a)Connect the EcoServer III and the PC one to one with a LAN cable. (b)Start the Windows command prompt.

Click [Start] - [Programs] - [Accessories] - [Command Prompt]. (c)Type [ping ***. ***. ***. ***] and press the [Enter] key.

(***. ***. ***. *** is the IP address of EcoServer III, the following is the case when the IP address is 192.168.10.1.)

(d) Type [arp -a] and press the [Enter] key. The MAC address is displayed in [Physical Address].

C:\Documents and Settings\User>

C:\Documents and Settings\User>ping 192.168.10.1 Pinging 192.168.10.1 with 32 bytes of data: Reply from 192.168.10.1: bytes=32 time<1ms TTL=64 Reply from 192.168.10.1: bytes=32 time<1ms TTL=64 Reply from 192.168.10.1: bytes=32 time<1ms TTL=64 Reply from 192.168.10.1: bytes=32 time<1ms TTL=64 Ping statistics for 192.168.10.1: Packets: Sent = 4, Received = 4, Lost = 0 (0% loss), Approximate round trip times in milli-seconds: Minimum = 0ms, Maximum = 0ms, Average = 0ms C:\Documents and Settings\User>

C:\Documents and Settings\User>arp -a Interface 192.168.10.100 --- 0xb Internet Address Physical Address Type 192.168.10.1 dynamic

MAC address

5-123

5.15. List of prohibited characters

Prohibited characters on EcoWebServerIII are shown below. The following characters may not be displayed correctly on the browser of EcoWebServerIII.

III

III

5-124

5.16. List of error codes

5.16.1. Terminal connection check (CC-Link terminal)

Error code Description of error Factor for occurrence of

error (details) Action

45828 (B304)

Abnormal station detected in circuit test

No terminal of the applicable station number is connected.

Check for proper connection of the terminal and disconnection or short-circuit of the transmission line.

45831 (B307)

Abnormal data link of all stations

No terminal of the applicable station number is connected.

45837 (B30D)

Initial status No terminal of the applicable station number is connected (at the first connection check).

5.16.2. Terminal connection check (MODBUS terminal)

Error code Description of error Factor for occurrence of

error (details) Action

1 To use unsupported function code

To use unsupported function code.

Choose the MODBUS terminal of supported function code.

2 Out of range data address

Data address is out of range setting.

To setting data address in the 1 to 65535 range.

3 Out of range data or mismatch between number of registers and data discrepancy

Number of registers is out of range setting.

Choose the MODBUS terminal to match the number of registers.

4 Connection error of MODBUS RTU terminal-to-terminal or hardware error

To have a problem with connection between MODBUS TCP <-> MODBUS RTU converter and MODBUS terminal.

Check operation of the terminal and connection between MODBUS TCP <-> MODBUS RTU converter and MODBUS terminal.

5.16.3. Mail sending check

Error code Description of error Factor for occurrence of

error (details) Action

-8001 Mail server not set error

SMTP server has not been registered in the setting project

Check the contents of the setting project. And check if the project has been written.

-8002 Mail not set error Mail notification has not been registered in the setting project

5-125

5.16.4. File automatic transfer check

Error code Description of error Factor for occurrence of

error (details) Action

-121 FTP server name incorrect error (connection error)

FTP server name is incorrect

Set the correct FTP server name.

-122 Login error Login name is wrong Set the correct login name.

-130 FTP server connection error

It is not possible to connect to the FTP server

Check starting of FTP server and the connection of the cable.

-370 File transfer error File transfer is not able Check the FTP server address and the cable.

Others

FTP response code Example) 452: There is not enough storage capacity in the system

There is not enough space on the FTP server

Check the used capacity of the FTP server and ensure the free space.

5.16.5. Air-controller connection check

Error code Description of error Factor for occurrence of

error (details) Action

-8005 External device unset error

Air-controller has not been registered in the setting project

Check the contents of setting project and check if written the project.

5-126

5.17. Troubleshooting The following describes what to do when some abnormality or trouble occurs during the use of this software. If an error occurs or a message appears during operation of the OS or an application program, refer to the instruction manual of the OS or application program.

Item Error details/problems Check items CC-Link terminal registration When the station number of AJ65BT-68TD,

AJ65BT-64RD3, or AJ65BT-64AD is set to, for example, 2, no terminal can be registered to station number 3.

Note that the number of occupying stations of AJ65BT-68TD and AJ65BT-64RD3 is 4, and that of AJ65BT-64AD is 2; each terminal successively uses station numbers for the number of its occupying stations. Refer to 5.1 List of support terminals (CC-Link communication products).

AJ65BT-68TD, AJ65BT-64RD3, or AJ65BT-64AD cannot be registered to station number 64.

The number of occupying stations of AJ65BT-68TD and AJ65BT-64RD3 is 4, and that of AJ65BT-64AD is 2; each terminal successively uses station numbers for the number of its occupying stations. Hence, the station number exceeds 64, preventing the registration. Refer to 5.1 List of support terminals (CC-Link communication products).

QJ61BT11N cannot be registered to station number 64. Its number of occupying stations is 1. Why?

Note that the range of station numbers that can be set to QJ61BT11N is 1 to 63.

Is any setting required for model information? Use the same setting as that of the terminal. Incorrect setting prevents the collection of measurement data.

CC-Link deletion of terminal

A terminal cannot be deleted. The message "Delete the measuring point before deleting the terminal" appears.

A terminal that is already registered to a measuring point cannot be deleted. Delete the registered appropriate measuring point before deleting the terminal.

CC-Link change of terminal

The model name of a terminal cannot be changed.

The model name of a terminal that is already registered to a measuring point cannot be changed. Delete the registered appropriate measuring point before changing the model name.

The model name of a terminal cannot be changed even though no measuring point is registered.

The model name cannot be changed for multiple-circuit products (EMU2-RD3-C, EMU2-RD5-C, EMU2-RD7-C, EMU2-RD2-C-4W, EMU2-RD4-C-4W, EMU-C7P4-6-A). Delete the registered terminal and then register the terminal anew.

The EMU-C7P4-6-A phase wire method cannot be changed.

A registered terminal cannot be changed. Delete the terminal once. Register the terminal again and select the phase wire method.

If the rated line voltage of the EMU-C7P4-6-A is changed, the rated voltage of the other circuits in the same terminals also changed.

The EMU-C7P4-6-A rated line voltage is common for all circuits.

CC-Link change of terminal When the line-to-line voltage rating of EMU2-RD2-C-4 or EMU2-RD4-C-4W is changed, the line-to-line voltage rating of other circuits of the same terminal is also changed.

For EMU2-RD2-C-4W and EMU2-RD4-C-4W, the line-to-line voltage rating is common for every two circuits. The line-to-line voltage rating is common between Circuit 1 and Circuit 2 and between Circuit 3 and Circuit 4.

Registration of measuring point

No measuring point can be registered. No terminal is registered. Register at least one terminal.

Even when the phase wire method is 1P2W, S-phase current can be selected. Is measurement (data collection) possible?

The measured items that can be actually measured differ with the phase wire method. (The measured items that cannot be measured due to the phase wire method are also displayed on the pull-down menu.) For the phase wire method and measured items, refer to the instruction manual of each terminal.

Deletion of measuring point A measuring point cannot be deleted. The message "The measuring point is registered to a virtual measuring point, Specific consumption measuring point, equipment, or monitoring and notification settings. Delete the registered items before deleting the measuring point." appears.

A measuring point cannot be registered if it is already registered to a virtual measuring point, Specific consumption measuring point, equipment, or monitoring and notification settings. Delete the registered appropriate virtual measuring point, Specific consumption measuring point, equipment, or monitoring and notification settings.

A measuring point that is occupied as a contact output cannot be deleted.

It cannot be deleted from the measuring point list screen. On the contact output setting list screen, delete the same number of settings as that of contact output points.

5-127

Item Error details/problems Check items Change of measuring point The terminal name, measured item, scale, the

number of digits after the decimal point, device number, data length, or factor of a measuring point cannot be changed.

For a measuring point which is registered to a virtual measuring point, Specific consumption measuring point, equipment, or monitoring and notification settings, the terminal name, measured item, scale, the number of digits after the decimal point, device number, and data length cannot be changed. Delete the registered appropriate virtual measuring point, Specific consumption measuring point, equipment, or monitoring and notification settings.

Registration of group No group can be registered. No measuring point is registered. Register at least one measuring point.

Can a virtual measuring point or a Specific consumption measuring point be registered to a group?

No virtual measuring point or Specific consumption measuring point can be registered to a group.

Can the same measuring point be registered to different groups?

The same measuring point cannot be registered to multiple groups.

Deletion of group If a group is deleted, will the registered measuring points be deleted as well?

Even when a group is deleted, the measuring points that are registered to the group will not be deleted. Register the measuring points to a group again.

Virtual measuring point registration

No measuring point can be registered. No measuring point is displayed on the screen for registering an operational expression.

No measuring point is registered of the same type as that of the integrated value or instantaneous value that is selected in the data type of the virtual measuring point. Register a measuring point of the same type.

Can measuring points of an integrated value and an instantaneous value registered together?

They cannot be registered together to the same virtual measuring point.

What kind of operational expressions cannot be set?

Settings where the operation results of the constants exceed 11 digits or where the number of characters in the operational expression exceeds 256 are not permitted. Refer to 4.6.1 Virtual measuring point

registration. Deletion of virtual measuring point

A virtual measuring point cannot be deleted. The message "The measuring point is registered to either a Specific consumption measuring point or equipment. Delete the registered items before deleting the virtual measuring point." appears.

A virtual measuring point cannot be registered if it is already registered to a Specific consumption measuring point or equipment. Delete the registered Specific consumption measuring point or equipment.

Specific consumption measuring point registration

No Specific consumption measuring point can be registered. No measuring point (virtual measuring point) can be specified for energy amount or production amount.

No measuring point (virtual measuring point) is registered for the integrated value. The measuring point (virtual measuring point) of an instantaneous value cannot be registered to a Specific consumption measuring point.

Can a constant value such as area be specified for production amount?

Register a constant value for virtual measuring point to specify for production amount.

Deletion of Specific consumption measuring point

A Specific consumption measuring point cannot be deleted. The message "The measuring point is registered to a monitoring and notification settings. Delete the registered items before deleting the Specific consumption measuring point." appears.

A Specific consumption measuring point that is already registered to a monitoring and notification settings cannot be deleted. Delete the registered appropriate monitoring and notification settings.

Registration of equipment group

No equipment group can be registered. No equipment is registered. Register at least one measuring point.

Can the same equipment be registered to different groups?

The same equipment can be registered to multiple groups at the same time.

What changes if the order of registration of equipment to an equipment group is changed?

The order of display will be the order of display of the list of equipment details on "Measurement graph display screen - Equipment on EcoWebServerIII.

Mail notification When you paste to copy the subject line and destination, the right-click menu "Paste" can not be used.

Paste by shortcut-keys "Ctrl + V" is enabled.

Each notification (Upper/lower limit monitoring, Operating status monitoring, Specific consumption target value monitoring, and Energy plan value monitoring) settings window does not open. (Edit button is not enabled.)

Must be set to "set" of [Monitoring] in the [measuring point] setting display.

Registration of upper/lower limit monitoring and notification settings

No upper/lower limit monitoring and notification settings can be registered.

No measuring point of the instantaneous value is registered. Upper/lower limit cannot be monitored for the measuring point of an integrated value. Register a measuring point of an instantaneous value, and setting to set of [Monitoring] in the [measuring point] setting display.

5-128

Item Error details/problems Check items Can upper/lower limit be monitored for a measuring point of power factor?

Upper/lower limit can be monitored for power factor because it is a measuring point of an instantaneous value.

Can upper/lower limit monitoring and notification settings be registered for a virtual measuring point?

Upper/lower limit cannot be monitored for a virtual measuring point.

Registration of operation status monitoring and notification settings

No operation status monitor or notification can be registered.

No operation monitoring point is registered. Register an operation monitoring point (a measuring point of a digital input (input/output) unit) and setting to "set" of [Monitoring] in the [measuring point] setting display.

Registration of Specific consumption target value monitoring and notification settings

No Specific consumption target value monitor or notification can be registered.

No Specific consumption measuring point is registered. Resister the specific consumption measuring point, and setting to set of [Monitoring] in the [Specific consumption measuring point] setting display.

Registration of energy planned value monitoring and notification settings

No energy plan value monitor or repo notification rt can be registered.

No measuring point of an integrated value is registered. Resister the measuring point of an integrated value, and setting to set of [Monitoring] in the [measuring point] setting display.

Can an energy plan value be monitored for a virtual measuring point?

An energy plan value cannot be monitored for a virtual measuring point.

EcoWebServerIII error notification

After the time adjustment error occurs, re-set the SNTP server and came to be time adjustment, but does not recover from the error.

In order to recover from the auto time adjustment error, need to reset the EcoWebServerIII.

Contact output setting Can an "Unregistered" monitoring item be selected or registered as a contact output condition?

It is possible. However, please note that an "Unregistered" item cannot establish a monitoring condition. After an "Unregistered" monitoring ID is registered as a contact output condition, the contact output condition will be updated when monitoring registration settings are made to that monitoring ID.

Did the contact output setting, but contact is not output.

There is a possibility that the [monitoring notification register] has not been. Separately, contact output of the following is required monitoring notification registration (When mail notification is not required, resister as no notification.). Upper/lower limit monitoring, Operating status monitoring, Specific consumption target value monitoring, and Energy plan value monitoring. ( Refer to [4.10.8 Upper/lower limit monitoring

notification registration], [4.10.9 Operating status monitoring notification registration], [4.10.10 Specific consumption target value monitoring notification registration], [4.10.11 Energy plan value notification registration])

Contact output setting was changed and written to the project, but the contact remains ON (not OFF).

State of the contact ON is continued, when change the setting about the contact and write the project. Turned OFF the contact manually in the test adjustment function before the project is writen. Reset the EcoWebServerIII or the remote I/O unit, when the project is changed and written in the state of contact ON.

IP address setting "IP address illegal" appears when the EcoWebServerIII IP address setting is input.

Confirm that the client PC's IP address is not duplicated with the IP address set in CH2.

After the IP address of EcoWebServerIII is changed, communication from a client PC is disabled.

Check the IP address and subnet mask setting of the client PC. (The network portion of the IP address must be the same as that of the main unit of EcoWebServerIII. The host address portion of the IP address must be different from that of the main unit of EcoWebServerIII.) Refer to 4.8.2 IP address settings.

[Read Network information] button is not exist Please update your setting software. Including to the setting software, EcoWebServer software should be updated too. More details refers to [4.8.6 Main program Version update]

5-129

Item Error details/problems Check items Connection check "Not supported" appears when the

EMU-B7P4-6-A is connected and the connection is checked.

The EMU-B7P4-6-A input type may be set to "Contact input". Change the setting to "Sensor input" or "Pulse input" on the EMU-B7P4-6-A side.

Checking the connection of the MODBUS terminal displays "Communication error" and "Connection error."

Check that the terminal is powered and check for proper connection between the terminal and EcoWebServerIII

Check if the settings of the IP address and the slave address of the terminal are correct.

Checking the connection of the MODBUS terminal displays "Timeout error."

Check for proper connection between the terminal and EcoWebServerIII.

When EMU4-CNT-MB is connected and the connection is checked, "OK" is displayed for EMU4-CNT-MB, and error is displayed for the connected extension unit.

Terminal processing is in progress between EMU4-CNT-MB and the extension unit. Please check the connection again after a while.

Connection check, write, readout, and confirm of project, various maintenance

A connection error is displayed. Check the following points: The IP address of EcoWebServerIII may be incorrect. The network may not be connected or configured

properly. The version of setting software does not match that of

the program itself. Time setting Time goes back to default. The EcoWebServerIII battery is spent.

Please exchange the battery.(model Q6BAT) Installation The message "This OS is not supported"

appears when installing the setting software and the installation is not completed.

The English version setting software can be installed only in the English version OS. If a tool such as Microsoft AppLocale Utility, which changes the language judgment operation, is installed, the problem on the left might occur. Uninstall the tool in this case.

Project saving The created project cannot be saved. Check Wheter .NET Framework 3.5 is enabled.

Setting change Write to project

The setting was changed and written to the project, but the display was not updated.

After changing the setting, close the browser once and reset.

Demand setting The demand setting was changed and written to the project, but the display was not updated.

The setting is not applied until the current demand time limit ends.

Test and adjustment Mail transfer confirmation

Mail was not sent. Check that the SMTP server name is correct, and the LAN is correctly connected between the SMTP server and EcoWebServerIII.

Check that the send source address is registered in the SMTP server.

Check that the send source address is correct, and that it can be sent from the SMTP server.

When using a SMTP server that requires authorization when sending, such as SMPT-Auth or POPbeforeSMTP, check that the settings are correct.

Test and adjustment File automatic transfer confirmation test

The file is not transferred. Check that the FTP server name is correct, and that the LAN is correctly connected between the FTP server and EcoWebServerIII.

Check that the user name and password for logging into the FTP server are correct.

Check that the transfer destination folder path is correct, and that writing is possible with the user name set in the EcoWebServerIII.

Energy-saving coordination setting

Coordination with external devices is not possible. (The external device operation does not change even when the demand value is large.)

Check that the connection destination and external device address are correct, and that the LAN is correctly connected between the external device and EcoWebServerIII.

Confirm that the energy saving monitoring setting (alarm value 1 to 4) is correctly set.

Check that the demand settings (VCT ratio, pulse constant, alarm type, fixed alarm value, etc.) are correct.

Check that the energy-saving operation on the external device side is correctly set.

5-130

Item Error details/problems Check items Upgrading the main unit software

Reading the version of the main unit software displays a message "This product is not supported by this setting software. Process is aborted" and the version cannot be read.

Check if your setting software supports the model of EcoWebServerIII to be upgraded.

Trying to upgrade the software displays a message "Writing in the product main unit cannot be executed. Try again between 05 and 45 minutes past the hour"

Upgrading cannot be executed if the time of the clock of the EcoWebServerIII is between 45 to 05 minutes past the hour.

Check if the time of the clock of the EcoWebServerIII is between 05 and 45 minutes.

IB63919-M New publication effective Feb.2022

Specifications are subject to change without notice.

HEAD OFFICE: TOKYO BUILDING, 2-7-3, MARUNOUCHI, CHIYODA-KU, TOKYO 100-8310, JAPAN

Mitsubishi Energy Saving Data Collecting Server EcoWebServerIII Service Network

Country/Region Corporation Name Address Telephone Australia Mitsubishi Electric Australia Pty. Ltd. 348 Victoria Road, Rydalmere, N.S.W. 2116, Australia +61-2-9684-7777 Algeria Mec Casa Rue i N 125 Hay-Es-Salem, 02000, W-Chlef, Algeria +213-27798069

Bangladesh PROGRESSIVE TRADING CORPORATION HAQUE TOWER,2ND FLOOR,610/11,JUBILEE ROAD, CHITTAGONG, BANGLADESH +880-31-624307 ELECTRO MECH AUTOMATION& ENGINEERING LTD.

SHATABDI CENTER, 12TH FLOOR, SUITES12-B, 292, INNER CIRCULAR ROAD, FAKIRA POOL, MOTIJHEEL, DHAKA-1000, BANGLADESH +88-02-7192826

Belarus Tehnikon Oktyabrskaya 19, Off. 705, BY-220030 Minsk, Belarus +375 (0)17 / 210 46 26 Belgium Koning & Hartman B.V. Woluwelaan 31, BE-1800 Vilvoorde, Belgium +32 (0)2 / 2570240

Brazil Mitsubishi Electric do Brasil Comrcio e Servios Ltda. Avenida Adelino Cardana, 293 21 andar Bethaville, Barueri SP, Brasil +55-11-4689-3000

Cambodia DHINIMEX CO.,LTD #245, St. Tep Phan, Phnom Penh, Cambodia +855-23-997-725 Central America Automation International LLC 7050 W. Palmetto Park Road Suite #15 PMB #555, Boca Raton, FL 33433 +1-561-237-5228

Chile Rhona S.A. (Main office) Vte. Agua Santa 4211 Casilla 30-D (P.O. Box) Vina del Mar, Chile +56-32-2-320-600

China

Mitsubishi Electric Automation (China) Ltd. Mitsubishi Electric Automation Building, No.1386 Hongqiao Road, Shanghai, China 200336 +86-21-2322-3030 Mitsubishi Electric Automation (China) Ltd. BeiJing 5/F,ONE INDIGO,20 Jiuxianqiao Road Chaoyang District,Beijing, China 100016 +86-10-6518-8830

Mitsubishi Electric Automation (China) Ltd. ShenZhen Level 8, Galaxy World Tower B, 1 Yabao Road, Longgang District, Shenzhen, China 518129 +86-755-2399-8272

Mitsubishi Electric Automation (China) Ltd. GuangZhou

Rm.1006, A1 Times E-Park, No.276-282, Hanxi Road East, Zhongcun Street, Panyu Distric, Guangzhou, China 510030 +86-20-8923-6730

Mitsubishi Electric Automation (China) Ltd. ChengDu

1501-1503,15F, Guang-hua Centre Building-C, No.98 North Guang Hua 3th Rd Chengdu, China 610000 +86-28-8446-8030

Mitsubishi Electric Automation (Hong Kong) Ltd. 20/F., Cityplaza One, 1111 king's Road, Taikoo shing, Hong Kong +852-2510-0555 Colombia Proelectrico Representaciones S.A. Carrera 42 N 75 367 Bodega 109, Itagi, Medelln, Antioquia, Colombia +57-4-4441284

Czech Republic AUTOCONT CONTROL SYSTEMS S.R.O Technologick 374/6, CZ-708 00 Ostrava - Pustkovec +420 595 691 150 Denmark BEIJER ELECTRONICS A/S LYKKEGARDSVEJ 17, DK-4000 ROSKILDE, Denmark +45 (0)46/ 75 76 66

Egypt Cairo Electrical Group 9, Rostoum St. Garden City P.O. Box 165-11516 Maglis El-Shaab,Cairo - Egypt +20-2-27961337 France Mitsubishi Electric Europe B.V. French Branch FR-92741 Nanterre Cedex +33 (0)1 55 68 57 01

Germany Mitsubishi Electric Europe B.V. Mitsubishi-Electric-Platz 1, 40882 Ratingen, Germany +49 (0) 2102 4860

Greece KALAMARAKIS - SAPOUNAS S.A. IONIAS & NEROMILOU STR., CHAMOMILOS ACHARNES, ATHENS, 13678 Greece +30-2102 406000 UTECO 5, MAVROGENOUS STR., 18542 PIRAEUS, Greece +30-211-1206-900

Hungary Meltrade Ltd. Fert utca 14. HU-1107 Budapest, Hungary +36 (0)1-431-9726

India

Mitsubishi Electric India Private Limited 2nd Floor, Tower A&B, Cyber Greens, DLF Cyber City, DLF Phase-III, Gurgaon - 122 022 Haryana, India +91-124-4630300

Mitsubishi Electric India Private Limited Pune Sales Office

ICC-Devi Gaurav Technology Park, Unit no. 402, Fourth Floor, Survey no. 191-192 (P), Opp. Vallabh Nagar Bus Depot, Pune 411018, Maharashtra, India +91-20-68192100

Mitsubishi Electric India Private Limited FA Center

204-209, 2nd Floor, 31FIVE, Corporate Road, Prahladnagar, Ahmedabad 380015,Gujarat. India +91-79677-77888

Indonesia PT.Mitsubishi Electric Indonesia Gedung Jaya 8th floor, JL.MH. Thamrin No.12 Jakarta Pusat 10340, Indonesia +62-21-3192-6461 P.T. Sahabat Indonesia P.O.Box 5045 Kawasan Industri Pergudangan, Jakarta, Indonesia +62-(0)21-6610651-9

Ireland Mitsubishi Electric Europe B.V. Westgate Business Park, Ballymount, IRL-Dublin 24, Ireland +353 (0)1-4198800 Israel Gino Industries Ltd. 26, Ophir Street IL-32235 Haifa, Israel +972 (0)4-867-0656 Italy Mitsubishi Electric Europe B.V. Viale Colleoni 7, I-20041 Agrate Brianza (MI), Italy +39 039-60531

Kazakhstan Kazpromavtomatika Ul. Zhambyla 28, KAZ - 100017 Karaganda +7-7212-501000 Korea Mitsubishi Electric Automation Korea Co., Ltd 9F Gangseo Hangang xi-tower A, 401 Yangcheon-ro, Gangseo-gu, Seoul 07528 Korea +82-2-3660-9573

Laos AROUNKIT CORPORATION IMPORT- EXPORT SOLE CO.,LTD SAPHANMO VILLAGE. SAYSETHA DISTRICT, VIENTIANE CAPITAL, LAOS +856-20-415899

Lebanon Comptoir d'Electricite Generale-Liban Cebaco Center - Block A Autostrade Dora, P.O. Box 11-2597 Beirut - Lebanon +961-1-240445 Lithuania Rifas UAB Tinklu 29A, LT-5300 Panevezys, Lithuania +370 (0)45-582-728

Malaysia Mittric Sdn Bhd No. 5 Jalan Pemberita U1/49, Temasya Industrial Park, Glenmarie 40150 Shah Alam,Selangor, Malaysia +603-5569-3748

Flexible Automation System Sdn Bhd 60, Jalan USJ 10/1B,UEP Subang Jaya,47620 Selangor Darul Ehsan,Malaysia +603-5633-1280 Malta ALFATRADE LTD 99 PAOLA HILL, PAOLA PLA 1702, Malta +356 (0)21-697-816

Maroco SCHIELE MAROC KM 7,2 NOUVELLE ROUTE DE RABAT AIN SEBAA, 20600 Casablanca, Maroco +212 661 45 15 96 Myanmar Peace Myanmar Electric Co.,Ltd. NO137/139 Botahtaung Pagoda Road, Botahtaung Town Ship 11161,Yangon,Myanmar +95-(0)1-202589

Nepal Watt&Volt House KHA 2-65,Volt House Dillibazar Post Box:2108,Kathmandu,Nepal +977-1-4411330 Netherlands Imtech Marine & Offshore B.V. Sluisjesdijk 155, NL-3087 AG Rotterdam, Netherlands +31 (0)10-487-19 11

North America Mitsubishi Electric Automation, Inc. 500 Corporate Woods Parkway, Vernon Hills, IL 60061 USA +847-478-2100 Norway Scanelec AS Leirvikasen 43B, NO-5179 Godvik, Norway +47 (0)55-506000

Mexico Mitsubishi Electric Automation, Inc. Mexico Branch

Blvd. Miguel de Cervantes Saavedra 301, Torre Norte Piso 5, Col. Ampliacin Granada, Miguel Hidalgo, Ciudad de Mxico, CP 11520, Mxico +52-55-3067-7511

Middle East Arab Countries &

Cyprus

Comptoir d'Electricite Generale-International- S.A.L. Cebaco Center - Block A Autostrade Dora P.O. Box 11-1314 Beirut - Lebanon +961-1-240430

Pakistan Prince Electric Co. 2-P GULBERG II, LAHORE, 54600, PAKISTAN +92-42-575232, 5753373

Peru Rhona S.A. (Branch office) Avenida Argentina 2201, Cercado de Lima +51-1-464-4459

Philippines MELCO Factory Automation Philippines Inc. 128, Lopez Rizal St., Brgy. Highway Hills, Mandaluyong City, Metro Manila, Phillippines +63-(0)2-256-8042 Edison Electric Integrated, Inc. 24th Fl. Galleria Corporate Center, Edsa Cr. Ortigas Ave., Quezon City Metro Manila, Philippines +63-(0)2-634-8691

Poland Mitsubishi Electric Europe B.V. Polish Branch Krakowska 48, 32-083 Balice, Poland +48 12 347 65 00 Republic of

Moldova Intehsis SRL bld. Traian 23/1, MD-2060 Kishinev, Moldova +373 (0)22-66-4242

Romania Sirius Trading & Services SRL RO-060841 Bucuresti, Sector 6 Aleea Lacul Morii Nr. 3 +40-(0)21-430-40-06 Russia Mitsubishi Electric (Russia) LLC 2 bld.1, Letnikovskaya street, Moscow, 115114, Russia +7 495 721-2070

Saudi Arabia Center of Electrical Goods Al-Shuwayer St. Side way of Salahuddin Al-Ayoubi St. P.O. Box 15955 Riyadh 11454 - Saudi Arabia +966-1-4770149 Singapore Mitsubishi Electric Asia Pte. Ltd. 307 Alexandra Road, Mitsubishi Electric Building, Singapore 159943 +65-6473-2308

Slovakia PROCONT, Presov Kupelna 1/, SK - 08001 Presov, Slovakia +421 (0)51 - 7580 611 SIMAP Jana Derku 1671, SK - 91101 Trencin, Slovakia +421 (0)32 743 04 72

Slovenia Inea RBT d.o.o. Stegne 11, SI-1000 Ljubljana, Slovenia +386 (0)1-513-8116 South Africa CBI-electric: low voltage Private Bag 2016, ZA-1600 Isando Gauteng, South Africa +27-(0)11-9282000

Spain Mitsubishi Electric Europe B.V. Spanish Branch Carretera de Rub 76-80, E-08190 Sant Cugat del Valls (Barcelona), Spain +34 (0)93-565-3131 Sweden Mitsubishi Electric Europe B.V. (Scandinavia) Hedvig Mllers gata 6, 223 55 Lund, Sweden +46 (0)8-625-10-00 Sweden Euro Energy Components AB Jrnvgsgatan 36, S-434 24 Kungsbacka, Sweden +46 (0)300-690040

Switzerland TriElec AG Muehlentalstrasse 136, CH-8201 Schaffhausen, Switzerland +41-(0)52-6258425 Taiwan Setsuyo Enterprise Co., Ltd 5th Fl., No.105, Wu Kung 3rd, Wu-Ku Hsiang, Taipei, Taiwan, R.O.C. +886-(0)2-2298-8889

Thailand

United Trading & Import Co., Ltd. 77/12 Bamrungmuang Road,Klong Mahanak Pomprab Bangkok Thailand +66-223-4220-3 MITSUBISHI ELECTRIC FACTORY AUTOMATION (THAILAND) CO.,LTD

101, True Digital Park Office, 5th Floor, Sukhumvit Road, Bangchak, Phara Khanong, Bangkok, 10260 Thailand +662-092-8600

Tunisia MOTRA Electric 3, Rsidence Imen, Avenue des Martyrs Mourouj III, 2074 - El Mourouj III Ben Arous, Tunisia +216-71 474 599 Turkey Mitsubishi Electric Turkey A.. erifali Mahallesi Kale Sokak No: 41, 34775 mraniye, stanbul, Turkey +90-216-969-2666

United Kingdom Mitsubishi Electric Europe B.V. Travellers Lane, UK-Hatfield, Herts. AL10 8XB, United Kingdom +44 (0)1707-276100 Uruguay Fierro Vignoli S.A. Avda. Uruguay 1274 Montevideo Uruguay +598-2-902-0808

Vietnam Mitsubishi Electric Vietnam Co.,Ltd. Head Office 11th & 12th Floor, Viettel Tower B, 285 Cach Mang Thang 8 Street, Ward 12, District

Manualsnet FAQs

If you want to find out how the MES3 255C EN Mitsubishi Electric works, you can view and download the Mitsubishi Electric MES3 255C EN User's Manual on the Manualsnet website.

Yes, we have the User's Manual for Mitsubishi Electric MES3 255C EN as well as other Mitsubishi Electric manuals. All you need to do is to use our search bar and find the user manual that you are looking for.

The User's Manual should include all the details that are needed to use a Mitsubishi Electric MES3 255C EN. Full manuals and user guide PDFs can be downloaded from Manualsnet.com.

The best way to navigate the Mitsubishi Electric MES3 255C EN User's Manual is by checking the Table of Contents at the top of the page where available. This allows you to navigate a manual by jumping to the section you are looking for.

This Mitsubishi Electric MES3 255C EN User's Manual consists of sections like Table of Contents, to name a few. For easier navigation, use the Table of Contents in the upper left corner.

You can download Mitsubishi Electric MES3 255C EN User's Manual free of charge simply by clicking the “download” button in the upper right corner of any manuals page. This feature allows you to download any manual in a couple of seconds and is generally in PDF format. You can also save a manual for later by adding it to your saved documents in the user profile.

To be able to print Mitsubishi Electric MES3 255C EN User's Manual, simply download the document to your computer. Once downloaded, open the PDF file and print the Mitsubishi Electric MES3 255C EN User's Manual as you would any other document. This can usually be achieved by clicking on “File” and then “Print” from the menu bar.