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Mitsubishi EMU2-RD7-C Measuring Unit Programming Manual PDF
Summary of Content for Mitsubishi EMU2-RD7-C Measuring Unit Programming Manual PDF
LEN160305A
Energy Measuring Unit Programming Manual (CC-Link) For ver.1 remote device station
MODEL
EMU2-HM1-C EMU2-RD1-C, EMU2-RD3-C
EMU2-RD5-C, EMU2-RD7-C, EMU2-RD2-C-4W, EMU2-RD4-C-4W EMU3-DP1-C EMU4-BD1-MB, EMU4-HD1-MB EMU4-BM1-MB, EMU4-HM1-MB
EMU4-LG1-MB, EMU4-A2, EMU4-VA2 EMU4-AX4, EMU4-PX4
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.
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CONTENTS
1. General Description .......................................................................................................................................................... 2
2. Specification ...................................................................................................................................................................... 3
3. Configuration Conditions of CC-Link System .................................................................................................................... 4
3.1 Remote net ver.1 mode ............................................................................................................................................ 4
3.2 Remote net ver.2 mode ............................................................................................................................................ 5
4. Programming .................................................................................................................................................................... 7
4.1 Programming Procedure .......................................................................................................................................... 7
5. Parameter Settings ........................................................................................................................................................... 8
5.1 Procedure from Parameter Settings to Data Link Startup ......................................................................................... 8
5.1.1 CPU Parameter Area and Master Module Parameter Memory ........................................................................ 8
5.1.2 Procedure for Parameter Settings to Data Link Startup with GX Developer ..................................................... 8
5.2 Example of Parameter Settings with GX Developer ................................................................................................. 9
5.2.1 Master Station Network Parameter Settings ..................................................................................................... 9
6. Communication Between the Master Station and Measuring Unit .................................................................................. 13
6.1 Communication Guideline ...................................................................................................................................... 13
6.2 Initial Communication ............................................................................................................................................. 14
6.3 Error Communication .............................................................................................................................................. 14
6.4 Normal Communication .......................................................................................................................................... 15
7. Remote I/O and Remote Register ................................................................................................................................... 16
7.1 Remote Input RX, Remote Output RY .................................................................................................................... 16
7.1.1 Remote input RX ............................................................................................................................................ 16
7.1.2 Remote Output RY ......................................................................................................................................... 21
7.2 Remote Register (RWr, RWw) ................................................................................................................................ 23
7.2.1 Supported Command ..................................................................................................................................... 26
7.2.2 Details of Commands ..................................................................................................................................... 27
7.2.3 Data Composition ........................................................................................................................................... 56
7.2.4 Significant digits and Multiplying factor ........................................................................................................... 69
7.2.5 About Error Occurrence ................................................................................................................................ 92 8. Abbreviations and Special Terms .................................................................................................................................... 93
9. Program Example ........................................................................................................................................................... 94
9.1 Program Example 1 ................................................................................................................................................ 94
9.1.1 Program Content ............................................................................................................................................ 94
9.1.2 Parameter Settings ........................................................................................................................................ 95
9.1.3 Program example ........................................................................................................................................... 99
9.2 Program Example 2 .............................................................................................................................................. 107
9.2.1 Program Content .......................................................................................................................................... 107
9.2.2 Parameter Settings ...................................................................................................................................... 108
9.2.3 Device Allocation .......................................................................................................................................... 111
9.2.4 Program example ......................................................................................................................................... 114
10. Test Mode ..................................................................................................................................................................... 127
10.1 How to Test ........................................................................................................................................................... 127
10.2 Reply Data ............................................................................................................................................................ 127
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1. General Description This manual describes the programming methods that should be created by the user for monitoring measurement value of Energy Measuring Unit (called Measuring Unit from here on) with the Control & Communication Link (abbreviated as CC-Link from here on). In programming, read the following related manuals in addition to this manual.
Table 1.1 Related Manuals
Manual Name Manual No.
CC-Link System Master/Local Module User's Manual type QJ61BT11
SH-080016 (13JL91)
CC-Link System Master/Local Module User's Manual type QJ61BT11N
SH-080394E (13JR64)
CC-Link System Master/Local Module User's Manual type AJ61BT11/A1SJ61BT11
IB-66721 (13J872)
CC-Link System Master/Local Module User's Manual type AJ61QBT11/A1SJ61QBT11
IB-66722 (13J873)
MELSEC-L CC-Link System Master/Local Module User's Manual SH-080895ENG (13JZ41)
FX2N-16CCL-M USER'S MANUAL JY992D93101 (09R710)
FX3U-16CCL-M USER'S MANUAL JY997D43601 (09R724)
Users Manual for Measuring Unit Supplied with product or download.
NOTICE When using Energy Measuring Unit EcoMonitorLight (EMU4-BD1-MB, EMU4-HD1-MB), EcoMonitorPlus(EMU4-BM1-MB, EMU4-HM1-MB, EMU4-LG1-MB) is necessary CC-Link communication is not available without optional plug-in module. In this manual, EMU4-BD1-MB or EMU4-HD1-MB means the main device of EcoMonitorLight with the optional plug-in module (model: EMU4-CM-C) and EMU4-BM1-MB or EMU4-HM1-MB means the main device of EcoMonitorPlus with the optional plug-in module(model: EMU4-CM-C).
Point
EMU4-BD1-MB, EMU4-HD1-MB, EMU4-BM1-MB, EMU4-HM1-MB, EMU4-LG1-MB can be setup the version
of remote device station by the dip switch of the CC-Link Communication Unit (model: EMU4-CM-C).
Use the following as a guideline in setting the remote device station version and set the version.
Setup Guideline for selection
Ver.1remote device station
(Ver.1 compatible slave station)
Select this when utilizing the conventional program, because of
compatibility with Measuring unit previous EMU4.
Ver.2remote device station
(Ver.2 compatible slave station)
Select this when configuring a new system or the being newly
added to the existing system in combination with the applicable
master module.
This programming manual is for ver.1 remote device station.
For use in the ver.2 remote device station (Ver.2 compatible slave station), refer to the following manual.
EMU4 Programing Manual (CC-Link)(For ver.2 remote device station)
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2. Specification Measuring Unit specification is shown in Table 2.1.
Table 2.1 CC-Link Specification
Item Specification
CC-Link station type Remote device station (ver.1 remote device station) Number of occupied stations 1 station Maximum number of stations per master station
42 stations (In case of connecting only remote device station occupied by 1 station.)
Transmission speed 156kbps/625kbps/2.5Mbps/5Mbps/10Mbps Remote I/O (RX, RY) 32 points each Remote register (RWw, RWr) 4 points each
Master station
Measuring Unit
Maximum number of connection is 42. (In case of Measuring Unit connection.)
System Configration (CC-Link)
Measuring Unit Measuring Unit
Measuring Unit Measuring Unit Measuring Unit
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3. Configuration Conditions of CC-Link System
3.1 Remote net ver.1 mode
A total of 64 remote I/O stations, remote device stations, local stations, standby master stations, or intelligent device stations can be connected to a single master station. However, the following conditions must all be satisfied.
Condition 1 {(1a)+(2b)+(3c)+(4d)} 64
a: Number of modules occupying 1 station (Measuring Unit is applied)
b: Number of modules occupying 2 stations c: Number of modules occupying 3 stations d: Number of modules occupying 4 stations
Condition 2 {(16A) + (54B) + (88C)} 2304
A: Number of remote I/O stations 64 B: Number of remote device stations
(Measuring Unit is applied) 42 C: Number of local stations, standby master stations and
intelligent device stations 26
Measuring Unit EMU2-RD3-C
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3.2 Remote net ver.2 mode
A total of 64 remote I/O stations, remote device stations, local stations, standby master stations, or intelligent device stations can be connected to a single master station. However, the following conditions must all be satisfied.
Condition 1
(aa2a4a8) (bb2b4b8)2 (cc2c4c8)3 (dd2d4d8)464
a: The total number of ver.1 compatible slave stations that occupy 1 station, and ver.2 compatible slave stations that occupy 1 station which are set to Single. (Measuring Unit is applied)
b: The total number of ver.1 compatible slave stations that occupy 2 stations, and ver.2 compatible slave stations that occupy 2 stations which are set to Single.
c: The total number of ver.1 compatible slave stations that occupy 3 stations, and ver.2 compatible slave stations that occupy 3 stations which are set to Single.
d: The total number of ver.1 compatible slave stations that occupy 4 stations, and ver.2 compatible slave stations that occupy 4 stations which are set to Single.
a2: The number of ver.2 compatible stations that occupy 1 station which are set to Double.
b2: The number of ver.2 compatible stations that occupy 2 stations which are set to Double.
c2: The number of ver.2 compatible stations that occupy 3 stations which are set to Double.
d2: The number of ver.2 compatible stations that occupy 4 stations which are set to Double.
a4: The number of ver.2 compatible stations that occupy 1 station which are set to Quadruple.
b4: The number of ver.2 compatible stations that occupy 2 stations which are set to Quadruple.
c4: The number of ver.2 compatible stations that occupy 3 stations which are set to Quadruple.
d4: The number of ver.2 compatible stations that occupy 4 stations which are set to Quadruple.
a8: The number of ver.2 compatible stations that occupy 1 station which are set to Octuple.
b8: The number of ver.2 compatible stations that occupy 2 stations which are set to Octuple.
c8: The number of ver.2 compatible stations that occupy 3 stations which are set to Octuple.
d8: The number of ver.2 compatible stations that occupy 4 stations which are set to Octuple.
Condition 2
(a32)(a232)(a464)(a8128) (b64)(b296)(b4192)(b8384) (c96)(c2160)(c4320)(c8640) (d128)(d2224)(d4448)(d8896) 8192
Condition 3
(a4)(a28)(a416)(a832) (b8)(b216)(b432)(b864) (c12)(c224)(c448)(c896) (d16)(d232)(d464)(d8128) 2048
Condition 4 {(16A) + (54B) + (88C)} 2304
A: Number of remote I/O stations 64 B: Number of remote device stations (Measuring Unit is
applied) 42 C: Number of local stations, standby master stations and
intelligent device stations 26
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Measuring Unit EMU2-RD3-C
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4. Programming
4.1 Programming Procedure
Create a program which executes the Monitoring of the measurement values by following the procedure below:
START
Parameter setting
Selecting Commands
Initial Communication
Error Communication
Set the CPU parameter to start the data link. (Refer to Section 5)
Convert the data Convert the measurement data using the effective range and multiplicand. (Refer to Section 7.2.2)
Select the command to transmit to the Measuring Unit. (Refer to Section 7.2.2)
Initialize the Measuring Unit. (Refer to Section 6.2)
Check the error status flag and error code. (Refer to Section 6.3)
End
Required
In necessary
Normal Communication Transmit and receive the command to monitor the measurement value. (Refer to Section 6.4,Section 7.2.2)
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5. Parameter Settings
5.1 Procedure from Parameter Settings to Data Link Startup
The following explains the procedure from setting the parameters to stating the data link.
5.1.1 CPU Parameter Area and Master Module Parameter Memory
(1) CPU Parameter Area This area is used to set the basic values for controlling the programmable controller system and the network parameters that control the CC-Link system.
(2) Master Station Parameter Memory This area stores the network parameters for the CC-Link system. When the module is powered OFF or the programmable controller CPU is reset, the network parameters are erased.
5.1.2 Procedure for Parameter Settings to Data Link Startup with GX Developer
Follow the procedure below for parameter settings to data link startup:
GX Developer Master station
Network parameters
Parameter memory
Programmable controller CPU
Network parameters
CC-Link system parameter area
Automatic refresh parameters
Network parameters
Automatic refresh parameters
The GX Developer is used to create network parameters and automatic refresh parameters, which are then written to the programmable controller CPU.
GX Developer Master station
Network parameters
Parameter memory
Programmable controller CPU
Network parameters
CC-Link system parameter area
Automatic refresh parameters
Network parameters
Automatic refresh parameters
When the programmable controller system is powered ON or the programmable controller CPU is reset, the network parameters in the programmable controller CPU are transferred to the master station and the data link is automatically started.
Master station
Parameter memory
Programmable controller CPU
CC-Link system network
parameter area
Parameter area Power ON CPU reset
CC-Link system network
parameter area
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5.2 Example of Parameter Settings with GX Developer
This section explains the parameter settings using the GX Developer. For more details on the GX Developer operation, refer to the GX Developer Operating Manual. The explanations in this section are based on the following example of the system configuration.
5.2.1 Master Station Network Parameter Settings
1) Double-click on the Network param. 2) Double-click on the CC-Link on the Network parameter screen. 3) Set the parameters as required. The following describes an example of the parameter settings.
Master station (X00 to X1F) (Y00 to Y1F)
Measuring Unit (occupies 1 station)
Measuring Unit (occupies 1 station)
Station number 1 Station number 2
1)
2)
3)
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Setting Item Description Example for settings Remarks
No.of boads in module
Set the "No. of boards in module " for which the network parameters are to be set.
1
Start I/O No Set the "Start I/O No." for the master station. 0000 Please setup same value of start XY of
CC-Link Unit in PC parameter setup
Operational settings
Set the following: Parameter name Data link err station setting Case of CPU Stop setting Block data assurance per station
Refer to next page.
Even if the Parameter name is not set, this will not affect the operation of the CC-Link system
Type Set the station type. Master station
Mode Set the CC-Link mode. Remote net
(Ver.1 mode)
Remote net ver.2 mode and Remote net additional mode can be also used in case of the QJ61BT11N.
All connect count Set the total number of connected stations in the CC-Link system including reserved stations.
2 (modules)
Remote input (RX)
Set the remote input (RX) refresh device. X100
Device name - Select from X, M, L, B, D, W, R or ZR. Device number - Within the range of the device points that the CPU has.
Remote output (RY)
Set the remote output (RY) refresh device. Y100
Device name - Select from Y, M, L, B, T, C, ST, D, W, R or ZR. Device number - Within the range of the device points that the CPU has.
Remote register (RWr)
Set the remote register (RWr) refresh device. W300
Device name - Select from M, L, B, D, W, R, or ZR. Device number - Within the range of the device points that the CPU has.
Remote register (RWw)
Set the remote register (RWw) refresh device. W400
Device name - Select from M, L, B, T, C, ST, D, W, R, or ZR. Device number - Within the range of the device points that the CPU has.
Special relay (SB)
Set the link special relay (SB) refresh device. SB0
Device name - Select from M, L, B, D, W, R, SB or ZR. Device number - Within the range of the device points that the CPU has.
Special register (SW)
Set the link special register (SW) refresh device. SW0
Device name - Select from M, L, B, D, W, R, SW or ZR. Device number - Within the range of the device points that the CPU has.
Retry count Set the number of retries for "Retry count", when a communication error occurs.
3
Automatic reconnection station count
Set the number of modules that can return to system operation by a single link scan.
1
Standby master station No.
Set the station number for the standby master station Blank Blank: No standby master station specified.
PLC down select
Set the data link status for "PLC down select", when a master station programmable controller CPU error occurs.
Stop
Scan mode setting Set whether the link scan for the sequence scan is synchronous or asynchronous.
Asynchronous
Delay information setting
Set for the link scan delay time. 0
Station information settings
Set the station data. Refer to 12
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POINT (1) For the automatic refresh parameter setting, set the start device only. Devices are automatically
assigned until the last station number including reserved stations and occupied stations. In the example of the system configuration in this section, the last station number is "2". Therefore, total of remote I/O points is 64 points (32 x 2 = 64) and total of remote register points is 8 points (4 x 2 = 8). If refresh device of remote input (RX) is set to "X100" and that of remote register (RWr) is set to "W300", the end devices will be "X13F" and "W307" respectively.
(2) When setting X, Y, B, W, SB and SW as refresh devices, make setting so that they do not overlap with the device numbers used on the other networks, etc.
Example for Operational settings
Setting Item Example for settings Description Remarks
Parameter name SAMPLE Set the Parameter name. Even if the Parameter
name is not set, this will not affect the operation of the CC-Link system
Data link disorder station setting
Clear ("Hold input data" not checked)
Set the input status for the data link error station.
Case of CPU STOP setting
Refresh ("Clears compulsorily " not checked)
Set the slave station refresh/compulsory clear setting at programmable controller CPU STOP.
Block data assurance per station
Disable ("Enable setting" not checked)
Set the block guarantee of cyclic data per station.
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Example for Station information settings
Setting Item Description Example for settings Remarks
Station type
Set the station data.
Remote device station
Set the remote device station in case of the Measuring Unit. (If setting of Mode is remote net(Ver.2 mode, Set the Ver.1 Remote device station.)
Number of occupied stations * Occupies 1 station Set the Occupies 1 station in case of
the Measuring Unit.
Remote station points 32 points [when occupies 1 station]
Cannot be changed.
Reserved/invalid station select No setting
* "Number of exclusive stations" on the screen is described as "Number of occupied stations" in this manual. "Exclusive station 1" on the screen is described as "Occupies 1 station" in this manual
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6. Communication Between the Master Station and Measuring Unit
6.1 Communication Guideline
There are three communication statuses (Initial Communication, Normal Communication, Error Communication) between the Master station and Measuring Unit. The following can be performed at normal communication. Monitoring of the measurement values such as the current, voltage and energy, etc. Setting the set data of the time constant for current demand.
Measuring Unit has a special-purpose command for each measurement items and each setting items. It becomes possible to monitor measurement value or to set the setting value by writing the command into the remote register RWw of the master station.
Command/Data
Word device(Ex:W)
Command execution request
Bit device(Ex:Y)
Command completion reply
Bit device(Ex:X)
Reply data to command
Word device(Ex:W)
PLC CPU
Command/Data
Remote register(RWw)
Remote output(RY)
Remote input(RX)
Reply data to command
Remote register(RWr)
Master station
Command/Data
Remote register (RWw)
Remote input(RX)
Reply data to command
Measuring Unit
C om
m an
d ex
ec ut
e
Li nk
s ca
n
A ut
om at
ic re
fre sh
By automatic refresh, command and data stored in the word device of PLC CPU are stored in the remote register RWw of the master station.
By link scan, command and data stored in the remote register RWw of the master station are sent to Measuring Unit, and is stored in the remote register RWw of the Measuring Unit.
By automatic refresh, command execution request stored in the bit device of PLC CPU is stored in the remote output RY of the master station.
By link scan, command execution request stored in the remote output RY of the master station is sent to Measuring Unit, and is stored in the remote output RY of the Measuring Unit. And then Measuring Unit executes the command and data.
By link scan, command completion reply stored in the remote input RX of the Measuring Unit is sent to the master station, and is stored in the remote input RX of the master station.
By automatic refresh, command completion reply stored in the remote input RX of the master station is stored in the bit device of the PLC CPU.
By link scan, reply data to command stored in the remote register RWr of the Measuring Unit is sent to the master station, and is stored in the remote register RWr of the master station.
By automatic refresh, reply data to command stored in the remote register RWr of the master station is stored in the word device of the PLC CPU.
Overview of the Command Communication to Measuring Unit
Command execution request
Command execution request
Remote output(RY)
Command completion reply
Command completion reply
Remote register(RWr)
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6.2 Initial Communication
Initial communication is performed at the beginning after the power supply is turned on or hardware is reset. Refer to section 7.1 about the remote input RX and the remote output RY.
6.3 Error Communication
When an error occurs in Measuring Unit, error status flag is turned on and the remote READY is turned off. When the error status flag is turned on, read the error code from the remote register RWr. Eliminate the
cause of the error while referring to the red error code. When resuming communication with Measuring Unit, turn on the error reset request flag.
After the error reset request flag is turned on, the error status flag is turned off. After the error status flag is turned off, turn off the error reset request flag. After the error reset request flag is turned off, the remote READY is turned on and normal
communication is resumed. Note: Refer to About Error Occurrence for error code.
RX(n+1)A (Error status flag)
RY(n+1)A (Error reset request flag)
Remote register (RWr)
RX(n+1)B Remote READY
RX(n+1)8 (Initial data processing request flag)
RY(n+1)8 (Initial data setting completion flag)
RX(n+1)B (Remote READY)
After the power supply is turned on, or hardware is reset, the initial data processing request flag is turned on by Measuring Unit.
After the initial data processing request flag is turned on, turn on the initial data setting completion flag. After the initial data setting completion flag is turned on, the initial data processing request flag is turned
off and the remote READY is turned on. After the initial data processing request flag is turned off, turned off the initial data setting completion flag.
Error occurrence
Error code
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6.4 Normal Communication
After initial data processing is complete, the normally communication is performed to monitor the measurement values and to set the parameters.
Command and related data Remote register (RWw)
RYnF (Command execution request flag)
Reply data
RXnF (Command completion reply flag)
Remote register (RWr)
After writing the command and related data into the remote register RWw, turn on the command execution request flag.
After receiving the reply data corresponding to the command, the command completion reply flag turned on.
After the command completion reply flag is turned on, read the reply data from the remote register RWw. After reading the reply data, cancel the command execution request by turning off the command
execution request flag. After the command execution request flag is turned off, the command completion reply flag is turned off.
Note1: When sending commands successively, repeat to above. Note2: The command can be sent only when the remote READY is ON.
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7. Remote I/O and Remote Register
7.1 Remote Input RX, Remote Output RY
The remote input RX and remote output RY are used to communicate for bit data between the master station and Measuring Unit.
7.1.1 Remote input RX
The allocation of the remote input RX of Measuring Unit is shown in the table below. Device
No. Signal name Description EMU2-
*-C*7 EMU3- DP1-C Note
OFF0 ON1 RXn0 Reserved
RXn1 Alarm of demand leak current Non-Alarm state Alarm state Note2
RXn2 Alarm of demand current Non-Alarm state Alarm state Note2
RXn3 Alarm of demand active power Non-Alarm state Alarm state Note2
RXn4 Reserved RXn5 Alarm (total) Non-Alarm state Alarm state Note2 RXn6 Reserved RXn7 Reserved RXn8 Alarm of voltage Non-Alarm state Alarm state Note2 RXn9 Alarm of operating time2 Non-Alarm state Alarm state Note2 RXnA Alarm of operating time1 Non-Alarm state Alarm state Note2 RXnB Alarm of Pulse count2 Non-Alarm state Alarm state Note2 RXnC Alarm of Pulse count1 Non-Alarm state Alarm state Note2 RXnD Alarm of power factor Non-Alarm state Alarm state Note2 RXnE External input 2 OFF(open) ON(close) Note3
RXnF Command completion reply flag
No receiving of reply data
Receiving of reply data
Note1 Note4
RX(n+1)0 Reserved RX(n+1)1 Reserved RX(n+1)2 Reserved RX(n+1)3 Reserved RX(n+1)4 Reserved RX(n+1)5 Reserved RX(n+1)6 Reserved RX(n+1)7 Reserved
RX(n+1)8 Initial data processing request flag
remote READY ON or
error status flag ON
Power supply is turned ON or
hardware reset Note1
RX(n+1)9 Reserved RX(n+1)A Error status flag Non-Alarm state Alarm state Note1
RX(n+1)B Remote READY Command sending not possible
Normally communication status (Command sending
possible)
Note1
RX(n+1)C Reserved RX(n+1)D Reserved RX(n+1)E Reserved RX(n+1)F Reserved
Note1: For the details, refer to Communication Between the Master Station and Measuring Unit. Note2: The Alarm is output only when it is set in the Measuring Unit. Note3: External input2 is available only when Setting of external input signal of EMU3-DP1-C is setup Contact input. Note4: Please monitor External input 1 (Group:A0, Channnel:31) in data monitor command. Note5: EMU2-*-C is EMU2-HM1-C, EMU2-RD1-C, EMU2-RD3-C, EMU2-RD5-C, EMU2-RD7-C, EMU2-RD2-C-4W or
EMU2-RD4-C-4W. Note6: RX is bit data which is stored the input status of Measuring Unit. Note7: The n in the table is determined by the station number of Measuring Unit.
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The allocation of the remote input RX of Measuring Unit is shown in the table below.
Device No. Signal name
Description EMU4-BD1 -MB
EMU4-HD1 -MB Note
OFF(0) ON1
RXn0 Alarm of Pulse Non-Alarm state Alarm state Note 2
Note 3 RXn1 Reserved
RXn2 Alarm of Demand current Non-Alarm state Alarm state
Note 2
RXn3 Alarm of Demand Active power Non-Alarm state Alarm state Note 2
RXn4 Contact Input OFF(open) ON(close) Note 4 RXn5 Alarm (total) Non-Alarm state Alarm state Note 2 RXn6 Reserved RXn7 Reserved RXn8 Alarm of Voltage Non-Alarm state Alarm state Note 2 RXn9 Reserved RXnA Reserved RXnB Reserved RXnC Reserved RXnD Alarm of Power factor Non-Alarm state Alarm state Note 2 RXnE Reserved
RXnF Command completion reply flag
No receiving of reply date
Receiving of reply data Note 1
Note 5 RX(n+1)0 Reserved RX(n+1)1 Reserved RX(n+1)2 Reserved RX(n+1)3 Reserved RX(n+1)4 Reserved RX(n+1)5 Reserved RX(n+1)6 Reserved RX(n+1)7 Reserved
RX(n+1)8 Initial data processing request flag
Power OFF, remote READY
ON, or error status flag ON
Power supply is turned ON or hardware
reset
Note 1
RX(n+1)9 Reserved
RX(n+1)A Error status flag No error occurrence
Error occurrence Note 1
RX(n+1)B Remote READY Command
sending not possible
Normally communication
status (Command
sending possible)
Note 1
RX(n+1)C Reserved RX(n+1)D Reserved RX(n+1)E Reserved RX(n+1)F Reserved
Note1: For the details, refer to Communication Between the Master Station and Measuring Unit. Note2: The Alarm is output only when it is set in the Measuring Unit. Note3: Alarm of Pulse count is available only when Setting of external input signal of EMU4-HD1-MB is setup
Pulse input. Note4: Contact Input is available only when Setting of external input signal of EMU4-HD1-MB is setup Contact
input. Note5: Please monitor External input 1 (Group:A0, Channnel:31) in data monitor command. Note6: RX is bit data which is stored the input status of Measuring Unit. Note7: The n in the table is determined by the station number of Measuring Unit.
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Device No. Signal name
Description EMU4- BM1 -MB
EMU4- HM1 -MB
EMU4- LG1- MB
Note OFF(0) ON1
RXn0 Alarm of Pulse Non-Alarm state Alarm state Note 2 Note 3
RXn1 Reserved Non-Alarm state Alarm state RXn2 Alarm of Demand current Non-Alarm state Alarm state Note 2
RXn3 Alarm of Demand Active power Non-Alarm state Alarm state Note 2
RXn4 Contact Input OFF(open) ON(close) Note 4 RXn5 Alarm (total) Non-Alarm state Alarm state Note 2
RXn6 Alarm of Current unbalance rate upper limit
Non-Alarm state Alarm state Note 2
RXn7 Alarm of Voltage unbalance rate upper limit
Non-Alarm state Alarm state Note 2
RXn8 Alarm of Voltage Non-Alarm state Alarm state Note 2 RXn9 Leak current 1-alarm Non-Alarm state Alarm state Note 2 RXnA Leak current 2-alarm Non-Alarm state Alarm state Note 2
RXnB Leak current for resistanse 1-alarm Non-Alarm state Alarm state Note 2
RXnC Leak current for resistance 2-alarm Non-Alarm state Alarm state Note 2
RXnD Alarm of power factor Non-Alarm state Alarm state Note 2 RXnE Unusable
RXnF Command completion reply flag
No receiving of reply data
Receiving of reply data Note 1
RX(n+1)0 Reserved RX(n+1)1 Reserved RX(n+1)2 Reserved RX(n+1)3 Reserved RX(n+1)4 Reserved RX(n+1)5 Reserved RX(n+1)6 Reserved RX(n+1)7 Reserved
RX(n+1)8 Initial data processing request flag
Power OFF, remote READY
ON, or error status flag ON
Power supply is
turned ON or hardware
reset
Note 1
RX(n+1)9 Reserved
RX(n+1)A Error status flag No error occurrence
Error occurrence Note 1
RX(n+1)B Remote READY Command
sending not possible
Normally communication
status (Command
sending possible)
Note 1
RX(n+1)C Reserved RX(n+1)D Reserved RX(n+1)E Reserved RX(n+1)F Reserved
(19/127) LEN160305A
Note 1: For the details, refer to 6.Communication Between the Master Station and Measuring Unit Note 2: The Alarm is output only when it is set in the Measuring Unit. Note 3: Alarm of Pulse converted is available only when Setting of external input signal of EMU4-HM1-MB is setup
Pulse input. Note 4: Contact Input is available only when Setting of external input signal of EMU4-HM1-MB is setup Contact
input. Note 5: RX is bit data which is stored the input status of Measuring Unit. Note 6 The n in the table is determined by the station number of Measuring Unit.
(20/127) LEN160305A
(1) Relationships between programmable controller CPU, master module and Measuring Unit(RX)
1) The input status of Measuring Unit is stored automatically (for each link scan) in the master station's "remote input RX" buffer memory.
2) The input status stored in the "remote input RX" buffer memory is stored in the CPU device set with the automatic refresh parameters.
Station number Device No. Station
number Device No. Station number Device No.
1 X100 X11F 15 X2C0 X2D9 29 X480 X49F 2 X120 X13F 16 X2E0 X2F9 30 X4A0 X4B9 3 X140 X15F 17 X300 X31F 31 X4C0 X4D9 4 X160 X17F 18 X320 X33F 32 X4E0 X4F9 5 X180 X19F 19 X340 X35F 33 X500 X51F 6 X1A0 X1B9 20 X360 X37F 34 X520 X53F 7 X1C0 X1D9 21 X380 X39F 35 X540 X55F 8 X1E0 X1F9 22 X3A0 X3B9 36 X560 X57F 9 X200 X21F 23 X3C0 X3D9 37 X580 X59F 10 X220 X23F 24 X3E0 X3F9 38 X5A0 X5B9 11 X240 X25F 25 X400 X41F 39 X5C0 X5D9 12 X260 X27F 26 X420 X43F 40 X5E0 X5F9 13 X280 X29F 27 X440 X45F 41 X600 X61F 14 X2A0 X2B9 28 X460 X47F 42 X620 X63F
Device No. is determined to X100X63F if refresh device of remote input (RX) is set to X100.
Device X Measuring Unit X100X10F (Station number1) X110X11F Measuring Unit X120X12F (Station number2) X130X13F Measuring Unit X140X14F (Station number3) X150X15F
to
Measuring Unit X620X62F (Station number42)
X630X63F
Remote input(RX) RX00RX0F RX10RX1F RX20RX2F RX30RX3F RX40RX4F RX50RX5F
to
RX520RX52F RX530RX53F
Programmable controller CPU Master module Measuring Unit(Station number 1)
Remote input(RX) RX00RX0F RX10RX1F
Measuring Unit
(Station number 2)
Remote input(RX) RX00RX0F RX10RX1F
Measuring Unit (Station number 3)
Remote input(RX) RX00RX0F RX10RX1F
Measuring Unit (Station number 42)
Remote input(RX) RX00RX0F RX10RX1F
to
1) 2)
2)
2)
2)
1)
1)
1)
(21/127) LEN160305A
7.1.2 Remote Output RY
The allocation of the remote output RY of Measuring Unit is shown in the table below.
Device No. Signal name
Description Note ON1OFF0 OFF0ON1
RYn0 Reserved RYn1 Reserved RYn2 Reserved RYn3 Reserved RYn4 Reserved RYn5 Reserved RYn6 Reserved RYn7 Reserved RYn8 Reserved RYn9 Reserved RYnA Reserved RYnB Reserved RYnC Reserved RYnD Reserved RYnE Reserved
RYnF Command execution request flag
Cancel command request Command request Note 1
RY(n+1)0 Reserved RY(n+1)1 Reserved RY(n+1)2 Reserved RY(n+1)3 Reserved RY(n+1)4 Reserved RY(n+1)5 Reserved RY(n+1)6 Reserved RY(n+1)7 Reserved
RY(n+1)8 Initial data setting completion flag
Cancel normal communication request
Normal communication request Note 1
RY(n+1)9 Reserved RY(n+1)A Error reset request flag Cancel error reset request Error reset request Note 1 RY(n+1)B Reserved RY(n+1)C Reserved RY(n+1)D Reserved RY(n+1)E Reserved RY(n+1)F Reserved
Note 1: For the details, refer to 6.Communication Between the Master Station and Measuring Unit Note 2: RY is bit device which is sent by the program. Note 3: The n in the table is determined by the station number of Measuring Unit.
Point Do not read or write to reserved remote registers. If reading or writing is performed, the functions of Measuring Unit is not guaranteed.
(22/127) LEN160305A
(1) Relationships between programmable controller CPU, master module and Measuring Unit(RY) 1) The on/off data of the CPU device set with the automatic refresh parameters is stored in the "remote output
RY" buffer memory. 2) Remote output RY is automatically set to on/off (for each link scan) according to the output status stored in
the "remote output RY" buffer memory.
Station number Device No. Station
number Device No. Station number Device No.
1 Y100 Y11F 15 Y2C0 Y2D9 29 Y480 Y49F 2 Y120 Y13F 16 Y2E0 Y2F9 30 Y4A0 Y4B9 3 Y140 Y15F 17 Y300 Y31F 31 Y4C0 Y4D9 4 Y160 Y17F 18 Y320 Y33F 32 Y4E0 Y4F9 5 Y180 Y19F 19 Y340 Y35F 33 Y500 Y51F 6 Y1A0 Y1B9 20 Y360 Y37F 34 Y520 Y53F 7 Y1C0 Y1D9 21 Y380 Y39F 35 Y540 Y55F 8 Y1E0 Y1F9 22 Y3A0 Y3B9 36 Y560 Y57F 9 Y200 Y21F 23 Y3C0 Y3D9 37 Y580 Y59F 10 Y220 Y23F 24 Y3E0 Y3F9 38 Y5A0 Y5B9 11 Y240 Y25F 25 Y400 Y41F 39 Y5C0 Y5D9 12 Y260 Y27F 26 Y420 Y43F 40 Y5E0 Y5F9 13 Y280 Y29F 27 Y440 Y45F 41 Y600 Y61F 14 Y2A0 Y2B9 28 Y460 Y47F 42 Y620 Y63F
Device No. is determined to Y100Y63F if refresh device of remote output (RY) is set to Y100.
Device Y Measuring Unit Y100Y10F (Station number1) Y110Y11F Measuring Unit Y120Y12F (Station number2) Y130Y13F Measuring Unit Y140Y14F (Station number3) Y150Y15F
to
Measuring Unit Y620Y62F (Station number42)
Y630Y63F
Remote output(RY) RY00RY0F RY10RY1F RY20RY2F RY30RY3F RY40RY4F RY50RY5F
to
RY520RY52F RY530RY53F
Programmable controller CPU Master module Measuring Unit (Station number 1)
Remote output(RY) RY00RY0F RY10RY1F
Measuring Unit
(Station number 2)
Remote output(RY) RY00RY0F RY10RY1F
Measuring Unit (Station number 3)
Remote output(RY) RY00RY0F RY10RY1F
Measuring Unit (Station number 42)
Remote output(RY) RY00RY0F RY10RY1F
to
2) 1)
1)
1)
1)
2)
2)
2)
(23/127) LEN160305A
7.2 Remote Register (RWr, RWw)
The remote register RWr and RWw are used to communicate word data between the master station and Measuring Unit. Because it occupiers 1 station, the remote registers RWr and RWw each have 4 words in length. Measuring Unit has the special-purpose commands for each measurement items and setting items.It becomes possible to monitor each measurement values or set each parameters by writing into the remote register RWw of the master station command and the related data allocated to the item you want to monitor or set. (1) Relationships between programmable controller CPU, master module and Mearing Unit(RWr)
1) The remote register RWr data of a remote device station is automatically stored in the "remote register Rwr" buffer memory of the master station.
2) The remote register RWr data of Measuring Unit stored in the "remote register RWr" buffer memory is stored in the CPU device set with the automatic refresh parameters.
Device No. W300 Measuring Unit W301 (Station number1) W302 W303 W304 Measuring Unit W305 (Station number2) W306 W307
to
W3A4 Measuring Unit W3A5 (Station number42)
W3A6
W3A7
Remote register(RWr) RWr0 RWr1 RWr2 RWr3 RWr4 RWr5 RWr6 RWr7
to
RWrA4 RWrA5 RWrA6 RWrA7
Programmable controller CPU Master module Measuring Unit (Station number 1)
Remote register(RWr) RWr0 RWr1 RWr2 RWr3
Measuring Unit (Station number 2)
Measuring Unit (Station number 42)
to
1)
Remote register(RWr) RWr0 RWr1 RWr2 RWr3
Remote register(RWr) RWr0 RWr1 RWr2 RWr3
1)
1)
2)
2)
2)
(24/127) LEN160305A
Station number Device No. Station
number Device No. Station number Device No.
1 W300 W303 15 W338 W33B 29 W370 W373 2 W304 W307 16 W33C W33F 30 W374 W377 3 W308 W30B 17 W340 W343 31 W378 W37B 4 W30C W30F 18 W344 W347 32 W37C W37F 5 W310 W313 19 W348 W34B 33 W380 W383 6 W314 W317 20 W34C W34F 34 W384 W387 7 W318 W31B 21 W350 W353 35 W388 W38B 8 W31C W31F 22 W354 W357 36 W38C W38F 9 W320 W323 23 W358 W35B 37 W390 W393 10 W324 W327 24 W35C W35F 38 W394 W397 11 W328 W32B 25 W360 W363 39 W398 W39B 12 W32C W32F 26 W364 W367 40 W39C W39F 13 W330 W333 27 W368 W36B 41 W3A0 W3A3 14 W334 W337 28 W36C W36F 42 W3A4 W3A7
Device No. is determined to W300W3A7 if refresh device of remote register (RWr) is set to W300.
(25/127) LEN160305A
(2) Relationships between programmable controller CPU, master module and Measuring Unit(RWw) 1) The transmission data of the CPU device set with the automatic refresh parameters is stored in the "remote
register RWw" buffer memory. 2) The data stored in the "remote register RWw" buffer memory is automatically sent to the remote register RWw
of each remote device station.
Station number Device No. Station
number Device No. Station number Device No.
1 W400 W403 15 W438 W43B 29 W470 W473 2 W404 W407 16 W43C W43F 30 W474 W477 3 W408 W40B 17 W440 W443 31 W478 W47B 4 W40C W40F 18 W444 W447 32 W47C W47F 5 W410 W413 19 W448 W44B 33 W480 W483 6 W414 W417 20 W44C W44F 34 W484 W487 7 W418 W41B 21 W450 W453 35 W488 W48B 8 W41C W41F 22 W454 W457 36 W48C W48F 9 W420 W423 23 W458 W45B 37 W490 W493 10 W424 W427 24 W45C W45F 38 W494 W497 11 W428 W42B 25 W460 W463 39 W498 W49B 12 W42C W42F 26 W464 W467 40 W49C W49F 13 W430 W433 27 W468 W46B 41 W4A0 W4A3 14 W434 W437 28 W46C W46F 42 W4A4 W4A7
Device No. is determined to W400W4A7 if refresh device of remote register (RWw) is set to W400.
Device No. W400 Measuring Unit W401 (Station number1) W402 W403 W404 Measuring Unit W405 (Station number2) W406 W407
to
W4A4 Measuring Unit W4A5 (Station number42)
W4A6
W4A7
Remote register(RWw) RWw0 RWw1 RWw2 RWw3 RWw4 RWw5 RWw6 RWw7
to
RWwA4 RWwA5 RWwA6 RWwA7
Programmable controller CPU Master module Measuring Unit (Station number 1)
Remote register(RWw) RWw0 RWw1 RWw2 RWw3
Measuring Unit (Station number 2)
Measuring Unit (Station number 42)
to
2)
Remote register(RWw) RWw0 RWw1 RWw2 RWw3
Remote register(RWw) RWw0 RWw1 RWw2 RWw3
2)
2)
1)
1)
1)
(26/127) LEN160305A
7.2.1 Supported Command
The commands supported by Measuring Unit are listed in the table below. For the details of each commands, refer to 7.2.2 Details of Commands.
(1) Command Table 7.1 Suppoted Commands
Command Name Descriprion Note page
1H Data Monitor For monitoring measurement
27
2H Data Set For setting measurement
44
Note) 1: The command can be sent only when the remote READY is ON.
2: The command execution request flag and command completion reply flag are used to send the command and receive replay data. For details of each flag, refer to 6.4 Normal Communication.
3: In case of monitoring the present value and its maximum continuously according to the renewal data timing of Measuring Unit, the maximum may be smaller than the present value.
(27/127) LEN160305A
7.2.2 Details of Commands
The details of the command and reply data supported by Measuring Unit are described here.
(1) Data Monitor Command (1H) m, n : Address is allocated to the master module by the station number setting. Note: Measuring Unit can monitor the value of the measurement items which are not displayed.
*1: It is described as 8 bits data by combining the unit No. (high 4 bits) and the command (low 4 bits).
Model Unit No. EMU2-HM1-C EMU2-RD1-C 0H
EMU2-RD3-C EMU2-RD5-C EMU2-RD7-C
EMU2-RD2-C-4W EMU2-RD4-C-4W
Input circuit number is used as unit No.
EMU3-DP1-C 0H EMU4-BD1-MB EMU4-HD1-MB EMU4-BM1-MB EMU4-HM1-MB EMU4-LG1-MB
1H
EMU4-A2 EMU4-VA2 EMU4-AX4 EMU4-PX4
Input circuit number is used as unit No.
For example, When the unit No. is 0H and the command is 1H, it becomes 01H.
The measurement items are assigned Unit No., Group No. and Channel No.. (Refer to Table 7.2.) After writing the command as shown below into the remote register RWw, set the command excution request
flag to ON(1). When the command completion reply frag is turned on, the item specified is reset. The details of the data format are shown in the Data Composition Table 7.4 to Table 7.10. The monitoring item is changed with the setting of phase wire system. (Refer to Table 7.3.)
1H Data Monitor
b15 b8 b7 b0
n Channel No. Group No.
n+1 Index number 00H
n+2 Low data
n+3 High data
b15 b8 b7 b4 b3 b0
m Group No. Unit No. *1 1H
m+1 00H Channel No.
m+2 00H 00H
m+3 00H 00H
*10H to 7H is used in the unit No. of Measuring Unit
Remote register RWw PLCMeasuring Unit
Remote register RWr Measuring UnitPLC
b7 b4 b3 b0
Command: data range 0H7H Unit No.: data range 0H7H
(28/127) LEN160305A
Table 7.2 Group Channel List for Data Monitor Command (1H) (1/15) Group
(H) Channel
(H) Note Data type Content name EMU2- HM1-C
EMU2- RD *1
EMU3- DP1-C
EMU4- BD1-MB
EMU4- HD1-MB
Data format
F0 02 Set-up Model code E0 11 Primary current A
E0 12 Primary voltage (L-L) V
E0 1B *2 Primary voltage (L-N) V
E0 1C Secondary voltage (L-L/L-N) V
E0 13 Phase & Wiring
E0 16 *5 Time constant for total demand min
02 E0 Time constant for DA sec
08 E0 Time constant for DW sec
12 E0 Time constant for leakage current demand sec
E0 92 5A/Direct
E0 8B Connected phase switch
01 01 Measurement Average current A Inst.
01 21 Phase 1 current A Inst.
01 41 *1 Phase 2 current A Inst.
01 61 *1 Phase 3 current A Inst.
01 81 *2 Phase N current A Inst.
02 21 Phase 1 current demand A Inst.
02 41 *1 Phase 2 current demand A Inst.
02 61 *1 Phase 3 current demand A Inst.
02 81 *2 Phase N current demand A Inst.
02 A1 Maximum rate current demand A Inst.
02 C5 Average current demand A Min.
02 A2 Average current demand A Max.
02 A3 Max.
occurrence time
Date and time of above occurrence
03 21 *2 Measurement 1-N voltage V Inst.
03 41 *2 2-N voltage V Inst.
03 61 *2 3-N voltage V Inst.
05 01 Average L-L voltage V Inst.
05 21 1-2 voltage V Inst.
05 41 *1 2-3 voltage V Inst.
05 61 *1 3-1 voltage V Inst.
05 A2 Average L-L voltage V Max.
05 A3 Max.
occurrence time
Date and time of above occurrence
05 C5 Measurement Average L-L voltage V Min.
07 01 *3 Active power kW Inst. Total
08 01 *3 Active power demand kW Inst. Total
08 02 *3 Active power demand kW Max. Total
08 03 Max.
occurrence time
Date and time of above occurrence
08 05 *3 Measurement Active power demand kW Min. Total
09 01 *3 Reactive power kvar Inst. Total
0B 01 *2 *3 Apparent power kVA Inst. Total
0D 01 Power factor % Inst. Total
0D 02 Power factor % Max. Total
0D 05 Power factor % Min. Total
0F 01 Frequency Hz Inst.
(29/127) LEN160305A
Inst.: Instantaneous value. Max.: Maximum value. Min.: Minimum value. RMS.: Root-Mean-Square value. Note: Measurement data correspond as follows according to setting of phase wiring. (Maximum / Minimum data and harmonic data are same.)
Name of channel Phase wiring 3P3W 1P3W(1N3) 1P3W(1N2) 1P2W
1-2 voltage 1-2 voltage 1-N voltage 1-N voltage Voltage 2-3 voltage 2-3 voltage 2-N voltage 2-N voltage - 3-1 voltage 3-1 voltage 1-3 voltage 1-3 voltage - Phase 1 current Phase 1 current Phase 1 current Phase 1 current Current Phase 2 current Phase 2 current Phase N current Phase N current - Phase 3 current Phase 3 current Phase 3 current Phase 2 current -
(30/127) LEN160305A
Table 7.2 Group Channel List for Data Monitor Command (1H) (2/15) Group
(H) Channel
(H) Note Data type Content name EMU2- HM1-C
EMU2- RD *1
EMU3- DP1-C
EMU4- BD1-MB
EMU4- HD1-MB
Data format
11 01 Measurement Leakage current (Harmonic non-inclusion) mA Inst.
12 01 Leakage current demand (Harmonic non-inclusion) mA Inst.
12 02 Leakage current demand (Harmonic non-inclusion) mA Max.
12 03 Max.
occurrence time
Date and time of above occurrence
13 01 Measurement Leakage current (Harmonic inclusion) mA Inst.
14 01 Leakage current demand (Harmonic inclusion) mA Inst.
14 02 Leakage current demand (Harmonic inclusion) mA Max.
14 03 Max.
occurrence time
Date and time of above occurrence
63 21 *6 Measurement 1-2 harmonic voltage V RMS. Total
4D 21 *6 1-2 harmonic voltage V RMS. 1st
4F 21 *6 1-2 harmonic voltage V RMS. 3rd
51 21 *6 1-2 harmonic voltage V RMS. 5th
53 21 *6 1-2 harmonic voltage V RMS. 7th
55 21 *6 1-2 harmonic voltage V RMS. 9th
57 21 *6 1-2 harmonic voltage V RMS. 11th
59 21 *6 1-2 harmonic voltage V RMS. 13th
76 86 *6 Measurement 1-2 voltage THD % Inst. Total
76 73 *6 1-2 voltage harmonic distortion % Inst. 3rd
76 75 *6 1-2 voltage harmonic distortion % Inst. 5th
76 77 *6 1-2 voltage harmonic distortion % Inst. 7th
76 79 *6 1-2 voltage harmonic distortion % Inst. 9th
76 7B *6 1-2 voltage harmonic distortion % Inst. 11th
76 7D *6 1-2 voltage harmonic distortion % Inst. 13th
63 41 *1 *6
Measurement 2-3 harmonic voltage V RMS. Total
4D 41 *1 *6 2-3 harmonic voltage V RMS. 1st
4F 41 *1 *6 2-3 harmonic voltage V RMS. 3rd
51 41 *1 *6 2-3 harmonic voltage V RMS. 5th
53 41 *1 *6 2-3 harmonic voltage V RMS. 7th
55 41 *1 *6 2-3 harmonic voltage V RMS. 9th
57 41 *1 *6 2-3 harmonic voltage V RMS. 11th
59 41 *1 *6 2-3 harmonic voltage V RMS. 13th
76 9C *1 *6
Measurement 2-3 voltage THD % Inst. Total
76 89 *1 *6 2-3 voltage harmonic distortion % Inst. 3rd
76 8B *1 *6 2-3 voltage harmonic distortion % Inst. 5th
76 8D *1 *6 2-3 voltage harmonic distortion % Inst. 7th
76 8F *1 *6 2-3 voltage harmonic distortion % Inst. 9th
76 91 *1 *6 2-3 voltage harmonic distortion % Inst. 11th
76 93 *1 *6 2-3 voltage harmonic distortion % Inst. 13th
Inst.: Instantaneous value. Max.: Maximum value. Min.: Minimum value. RMS.: Root-Mean-Square value.
(31/127) LEN160305A
Table 7.2 Group Channel List for Data Monitor Command (1H) (3/15) Group
(H) Channel
(H) Note Data type Content name EMU2- HM1-C
EMU2- RD *1
EMU3- DP1-C
EMU4- BD1-MB
EMU4- HD1-MB
Data format
63 61 *2 Measurement 3-1 harmonic voltage V RMS. Total
4D 61 *2 3-1 harmonic voltage V RMS. 1st
4F 61 *2 3-1 harmonic voltage V RMS. 3rd
51 61 *2 3-1 harmonic voltage V RMS. 5th
53 61 *2 3-1 harmonic voltage V RMS. 7th
55 61 *2 3-1 harmonic voltage V RMS. 9th
57 61 *2 3-1 harmonic voltage V RMS. 11th
59 61 *2 3-1 harmonic voltage V RMS. 13th
76 B2 *2 Measurement 3-1 voltage THD % Inst. Total
76 9F *2 3-1 voltage harmonic distortion % Inst. 3rd
76 A1 *2 3-1 voltage harmonic distortion % Inst. 5th
76 A3 *2 3-1 voltage harmonic distortion % Inst. 7th
76 A5 *2 3-1 voltage harmonic distortion % Inst. 9th
76 A7 *2 3-1 voltage harmonic distortion % Inst. 11th
76 A9 *2 3-1 voltage harmonic distortion % Inst. 13th
4B 21 *2 Measurement 1-N harmonic voltage V RMS. Total
35 21 *2 1-N harmonic voltage V RMS. 1st
37 21 *2 1-N harmonic voltage V RMS. 3rd
39 21 *2 1-N harmonic voltage V RMS. 5th
3B 21 *2 1-N harmonic voltage V RMS. 7th
3D 21 *2 1-N harmonic voltage V RMS. 9th
3F 21 *2 1-N harmonic voltage V RMS. 11th
41 21 *2 1-N harmonic voltage V RMS. 13th
77 86 *2 Measurement 1-N voltage THD % Inst. Total
77 73 *2 1-N voltage harmonic distortion % Inst. 3rd
77 75 *2 1-N voltage harmonic distortion % Inst. 5th
77 77 *2 1-N voltage harmonic distortion % Inst. 7th
77 79 *2 1-N voltage harmonic distortion % Inst. 9th
77 7B *2 1-N voltage harmonic distortion % Inst. 11th
77 7D *2 1-N voltage harmonic distortion % Inst. 13th
4B 41 *2 Measurement 2-N harmonic voltage V RMS. Total
35 41 *2 2-N harmonic voltage V RMS. 1st
37 41 *2 2-N harmonic voltage V RMS. 3rd
39 41 *2 2-N harmonic voltage V RMS. 5th
3B 41 *2 2-N harmonic voltage V RMS. 7th
3D 41 *2 2-N harmonic voltage V RMS. 9th
3F 41 *2 2-N harmonic voltage V RMS. 11th
41 41 *2 2-N harmonic voltage V RMS. 13th
77 9C *2 Measurement 2-N voltage THD % Inst. Total
77 89 *2 2-N voltage harmonic distortion % Inst. 3rd
77 8B *2 2-N voltage harmonic distortion % Inst. 5th
77 8D *2 2-N voltage harmonic distortion % Inst. 7th
77 8F *2 2-N voltage harmonic distortion % Inst. 9th
77 91 *2 2-N voltage harmonic distortion % Inst. 11th
77 93 *2 2-N voltage harmonic distortion % Inst. 13th
4B 61 *2 Measurement 3-N harmonic voltage V RMS. Total
35 61 *2 3-N harmonic voltage V RMS. 1st
37 61 *2 3-N harmonic voltage V RMS. 3rd
39 61 *2 3-N harmonic voltage V RMS. 5th
3B 61 *2 3-N harmonic voltage V RMS. 7th
3D 61 *2 3-N harmonic voltage V RMS. 9th
3F 61 *2 3-N harmonic voltage V RMS. 11th
41 61 *2 3-N harmonic voltage V RMS. 13th
Inst.: Instantaneous value. Max.: Maximum value. Min.: Minimum value. RMS.: Root-Mean-Square value.
(32/127) LEN160305A
Table 7.2 Group Channel List for Data Monitor Command (1H) (4/15)
Group (H)
Channel (H) Note Data type Content name EMU2-
HM1-C EMU2- RD *1
EMU3- DP1-C
EMU4- BD1-MB
EMU4- HD1-MB
Data format
77 B2 *2 Measurement 3-N voltage THD % Inst. Total
77 9F *2 3-N voltage harmonic distortion % Inst. 3rd
77 A1 *2 3-N voltage harmonic distortion % Inst. 5th
77 A3 *2 3-N voltage harmonic distortion % Inst. 7th
77 A5 *2 3-N voltage harmonic distortion % Inst. 9th
77 A7 *2 3-N voltage harmonic distortion % Inst. 11th
77 A9 *2 3-N voltage harmonic distortion % Inst. 13th
33 21 Measurement Phase 1 harmonic current A RMS. Total
1D 21 Phase 1 harmonic current A RMS. 1st
1F 21 Phase 1 harmonic current A RMS. 3rd
21 21 Phase 1 harmonic current A RMS. 5th
23 21 Phase 1 harmonic current A RMS. 7th
25 21 Phase 1 harmonic current A RMS. 9th
27 21 Phase 1 harmonic current A RMS. 11th
29 21 Phase 1 harmonic current A RMS. 13th
2B 21 Phase 1 harmonic current A RMS. 15th
2D 21 Phase 1 harmonic current A RMS. 17th
2F 21 Phase 1 harmonic current A RMS. 19th
75 86 Measurement Phase 1 current THD % Inst. Total
75 73 Phase 1 current harmonic distortion % Inst. 3rd
75 75 Phase 1 current harmonic distortion % Inst. 5th
75 77 Phase 1 current harmonic distortion % Inst. 7th
75 79 Phase 1 current harmonic distortion % Inst. 9th
75 7B Phase 1 current harmonic distortion % Inst. 11th
75 7D Phase 1 current harmonic distortion % Inst. 13th
75 7F Phase 1 current harmonic distortion % Inst. 15th
75 81 Phase 1 current harmonic distortion % Inst. 17th
75 83 Phase 1 current harmonic distortion % Inst. 19th
33 41 *2 Measurement Phase 2 harmonic current A RMS. Total
1D 41 *2 Phase 2 harmonic current A RMS. 1st
1F 41 *2 Phase 2 harmonic current A RMS. 3rd
21 41 *2 Phase 2 harmonic current A RMS. 5th
23 41 *2 Phase 2 harmonic current A RMS. 7th
25 41 *2 Phase 2 harmonic current A RMS. 9th
27 41 *2 Phase 2 harmonic current A RMS. 11th
29 41 *2 Phase 2 harmonic current A RMS. 13th
75 9C *2 Measurement Phase 2 current THD % Inst. Total
75 89 *2 Phase 2 current harmonic distortion % Inst. 3rd
75 8B *2 Phase 2 current harmonic distortion % Inst. 5th
75 8D *2 Phase 2 current harmonic distortion % Inst. 7th
75 8F *2 Phase 2 current harmonic distortion % Inst. 9th
75 91 *2 Phase 2 current harmonic distortion % Inst. 11th
75 93 *2 Phase 2 current harmonic distortion % Inst. 13th
33 61 *1 Measurement Phase 3 harmonic current A RMS. Total
1D 61 *1 Phase 3 harmonic current A RMS. 1st
1F 61 *1 Phase 3 harmonic current A RMS. 3rd
21 61 *1 Phase 3 harmonic current A RMS. 5th
23 61 *1 Phase 3 harmonic current A RMS. 7th
25 61 *1 Phase 3 harmonic current A RMS. 9th
27 61 *1 Phase 3 harmonic current A RMS. 11th
29 61 *1 Phase 3 harmonic current A RMS. 13th
2B 61 *1 Phase 3 harmonic current A RMS. 15th
2D 61 *1 Phase 3 harmonic current A RMS. 17th
2F 61 *1 Phase 3 harmonic current A RMS. 19th
Inst.: Instantaneous value. Max.: Maximum value. Min.: Minimum value. RMS.: Root-Mean-Square value.
(33/127) LEN160305A
Table 7.2 Group Channel List for Data Monitor Command (1H) (5/15) Group
(H) Channel
(H) Note Data type Content name EMU2- HM1-C
EMU2- RD *1
EMU3- DP1-C
EMU4- BD1-MB
EMU4- HD1-MB
Data format
75 B2 *1 Measurement Phase 3 current THD % Inst. Total
75 9F *1 Phase 3 current harmonic distortion % Inst. 3rd
75 A1 *1 Phase 3 current harmonic distortion % Inst. 5th
75 A3 *1 Phase 3 current harmonic distortion % Inst. 7th
75 A5 *1 Phase 3 current harmonic distortion % Inst. 9th
75 A7 *1 Phase 3 current harmonic distortion % Inst. 11th
75 A9 *1 Phase 3 current harmonic distortion % Inst. 13th
75 AB *1 Phase 3 current harmonic distortion % Inst. 15th
75 AD *1 Phase 3 current harmonic distortion % Inst. 17th
75 AF *1 Phase 3 current harmonic distortion % Inst. 19th
33 81 *2 Measurement Phase N harmonic current A RMS. Total
1D 81 *2 Phase N harmonic current A RMS. 1st
1F 81 *2 Phase N harmonic current A RMS. 3rd
21 81 *2 Phase N harmonic current A RMS. 5th
23 81 *2 Phase N harmonic current A RMS. 7th
25 81 *2 Phase N harmonic current A RMS. 9th
27 81 *2 Phase N harmonic current A RMS. 11th
29 81 *2 Phase N harmonic current A RMS. 13th
75 C8 *2 Measurement Phase N current THD % Inst. Total
75 B5 *2 Phase N current harmonic distortion % Inst. 3rd
75 B7 *2 Phase N current harmonic distortion % Inst. 5th
75 B9 *2 Phase N current harmonic distortion % Inst. 7th
75 BB *2 Phase N current harmonic distortion % Inst. 9th
75 BD *2 Phase N current harmonic distortion % Inst. 11th
75 BF *2 Phase N current harmonic distortion % Inst. 13th
80 01 Measurement Active energy (import) kWh count
80 63 Active energy (export) kWh count
81 01 Reactive energy (import lag) kvar count
80 64 Active energy (import) kWh count expand
80 65 Active energy (export) kWh count expand
81 66 Reactive energy (import lag) kvar count expand
83 01 Pulse count 1 pulse count
84 01 Pulse count 2 pulse count
87 01 Operating time 1 min count
88 01 Operating time 2 min count
8B 01 *7 Active energy during operation 1 kWh count
8C 01 Active energy during operation 2 kWh count
E0 03 Date and time
A0 31 Alarm state Alarm state Alarm
Inst.: Instantaneous value. Max.: Maximum value. Min.: Minimum value. RMS.: Root-Mean-Square value.
(34/127) LEN160305A
Table 7.2 Group Channel List for Data Monitor Command (1H) (6/15)
Group (H)
Channel (H) Note Data type Content name EMU4-
BM1-MB EMU4-
HM1-MB EMU4-
A2 EMU4-
VA2 Data
format F0 02 Set-up Model code E0 11 Primary current A
E0 12 Primary voltage (L-L) V
E0 1B *2 Primary voltage (L-N) V
E0 1C Secondary voltage (L-L/L-N) V
E0 13 Phase & Wiring
E0 21 VT use or non-use
02 E0 Time constant for DA sec
02 E7 Time constant for DA(3side) sec
08 E0 Time constant for DW sec
08 E7 Time constant for DW(3side) sec
E0 92 5A/Direct
E0 97 External input
E0 98 Contact input
E0 99 External output
E0 9A External output circuit
83 E6 Unit of pulse output 87 E2 Counting operating time 8E E2 Counting operating time(3side) 87 E3 Counting method of operating time
8E E3 Counting method of operating time(3side)
01 E8 Cut-off setup %
01 EA Cut-off setup(3side) %
83 E4 Pulse conversion
83 E5 Pulse conversion unit 80 E4 Electric energy conversion
8A E4 Electric energy conversion(3side)
80 E5 Electric energy conversion unit
8A E5 Electric energy conversion unit(3side)
E0 9C Upper and lower limit alarm extence
E0 A6 Upper and lower limit alarm extence(3side)
E0 9D Upper and lower limit alarm element
E0 A7 Upper and lower limit alarm element(3side)
E0 9E Upper and lower limit alarm value
E0 A8 Upper and lower limit alarm value(3side)
E0 9F Alarm delay time
E0 A9 Alarm delay time(3side)
E0 A0 Alarm reset method
E0 AA Alarm reset method(3side)
E0 AB Simple measuring setup
E0 AC Power factor setup in simple measuring
E0 AD Power factor setup in simple
measuring(3side)
E0 B1 2 circuits measuring 01 01 Measurement Average current A Inst.
01 21 Phase 1 current A Inst.
01 41 *1 Phase 2 current A Inst.
01 61 *1 Phase 3 current A Inst.
01 81 *2 Phase N current A Inst.
01 1E Current unbalance rate %
02 21 Phase 1 current demand A Inst.
02 41 *1 Phase 2 current demand A Inst.
02 61 *1 Phase 3 current demand A Inst.
02 81 *2 Phase N current demand A Inst.
(35/127) LEN160305A
Table 7.2 Group Channel List for Data Monitor Command (1H) (7/15) Group
(H) Channel
(H) Note Data type Content name EMU4-B M1-MB
EMU4-H M1-MB
EMU4- A2
EMU4- VA2
Data format
03 21 *2 Measurement 1-N voltage V Inst.
03 41 *2 2-N voltage V Inst.
03 61 *2 3-N voltage V Inst.
03 1E Voltage unbalance rate %
05 01 Average L-L voltage V Inst.
05 21 1-2 voltage V Inst.
05 41 *1 2-3 voltage V Inst.
05 61 *1 3-1 voltage V Inst.
05 A2 Average L-L voltage V Max.
07 01 *3 Measurement Active power kW Inst.
07 61 *3 Active power(3side) kW Inst.
08 01 *3 Active power demand kW Inst.
08 61 *3 Active power demand(3side) kW Inst.
09 01 *3 Reactive power kvar Inst. Total
09 61 *3 Reactive power(3side) kvar Inst. Total
0B 01 *2 *3
Apparent power kVA Inst. Total
0D 01 Power factor % Inst. Total
0D 61 Power factor(3side) % Inst. Total
0F 01 Frequency Hz Inst.
63 21 Measurement Harmonics total voltage RMS(1-2)
V
4D 21 Harmonic voltage fundamental(1-2) V
4F 21 Harmonic voltage 3rd(1-2) V
51 21 Harmonic voltage 5th(1-2) V
53 21 Harmonic voltage 7th(1-2) V
55 21 Harmonic voltage 9th(1-2) V
57 21 Harmonic voltage 11th(1-2) V
59 21 Harmonic voltage 13th(1-2) V
76 86 Measurement Harmonics total voltage distortion ratio(1-2) %
76 73 Harmonics voltage 3rd distortion ratio(1-2) %
76 75 Harmonics voltage 5th distortion ratio(1-2) %
76 77 Harmonics voltage 7th distortion ratio(1-2) %
76 79 Harmonics voltage 9th distortion ratio(1-2) %
76 7B Harmonics voltage 11th distortion ratio(1-2) %
76 7D Harmonics voltage 13th distortion ratio(1-2) %
63 41 Measurement Harmonics total voltage RMS(2-3)
V
4D 41 Harmonic voltage fundamental(2-3) V
4F 41 Harmonic voltage 3rd(2-3) V
51 41 Harmonic voltage 5th(2-3) V
53 41 Harmonic voltage 7th(2-3) V
55 41 Harmonic voltage 9th(2-3) V
57 41 Harmonic voltage 11th(2-3) V
59 41 Harmonic voltage 13th(2-3) V
76 9C Measurement Harmonics total voltage distortion ratio(2-3) %
76 89 Harmonics voltage 3rd distortion ratio(2-3) %
76 8B Harmonics voltage 5th distortion ratio(2-3) %
76 8D Harmonics voltage 7th distortion ratio(2-3) %
76 8F Harmonics voltage 9th distortion ratio(2-3) %
76 91 Harmonics voltage 11th distortion ratio(2-3) %
76 93 Harmonics voltage 13th distortion ratio(2-3) %
(36/127) LEN160305A
Table 7.2 Group Channel List for Data Monitor Command (1H) (8/15) Group
(H) Channel
(H) Note Data type Content name EMU4-B M1-MB
EMU4-H M1-MB
EMU4- A2
EMU4- VA2
Data format
4B 21 Measurement Harmonic total voltage RMS(1-N) V
35 21 Harmonic voltage fundamental(1-N) V
37 21 Harmonic voltage 3rd(1-N) V
39 21 Harmonic voltage 5th(1-N) V
3B 21 Harmonic voltage 7th(1-N) V
3D 21 Harmonic voltage 9th(1-N) V
3F 21 Harmonic voltage 11th(1-N) V
41 21 Harmonic voltage 13th(1-N) V
77 86 Measurement Harmonics total voltage distortion ratio(1-N) %
77 73 Harmonics voltage 3rd distortion ratio(1-N) %
77 75 Harmonics voltage 5th distortion ratio(1-N) %
77 77 Harmonics voltage 7th distortion ratio(1-N) %
77 79 Harmonics voltage 9th distortion ratio(1-N) %
77 7B Harmonics voltage 11th distortion ratio(1-N) %
77 7D Harmonics voltage 13th distortion ratio(1-N) %
4B 41 Measurement Harmonics total voltage RMS(2-N)
V
35 41 Harmonic voltage fundamental(2-N) V
37 41 Harmonic voltage 3rd(2-N) V
39 41 Harmonic voltage 5th(2-N) V
3B 41 Harmonic voltage 7th(2-N) V
3D 41 Harmonic voltage 9th(2-N) V
3F 41 Harmonic voltage 11th(2-N) V
41 41 Harmonic voltage 13th(2-N) V
77 9C Measurement Harmonics total voltage distortion ratio(2-N) %
77 89 Harmonics voltage 3rd distortion ratio(2-N) %
77 8B Harmonics voltage 5th distortion ratio(2-N) %
77 8D Harmonics voltage 7th distortion ratio(2-N) %
77 8F Harmonics voltage 9th distortion ratio(2-N) %
77 91 Harmonics voltage 11th distortion ratio(2-N) %
77 93 Harmonics voltage 13th distortion ratio(2-N) %
4B 61 Measurement Harmonics total voltage RMS(3-N)
V
35 61 Harmonic voltage fundamental(3-N) V
37 61 Harmonic voltage 3rd(3-N) V
39 61 Harmonic voltage 5th(3-N) V
3B 61 Harmonic voltage 7th(3-N) V
3D 61 Harmonic voltage 9th(3-N) V
3F 61 Harmonic voltage 11th(3-N) V
41 61 Harmonic voltage 13th(3-N) V
77 B2 Measurement Harmonics total voltage distortion ratio(3-N) %
77 9F Harmonics voltage 3rd distortion ratio(3-N) %
77 A1 Harmonics voltage 5th distortion ratio(3-N) %
77 A3 Harmonics voltage 7th distortion ratio(3-N) %
77 A5 Harmonics voltage 9th distortion ratio(3-N) %
77 A7 Harmonics voltage 11th distortion ratio(3-N) %
77 A9 Harmonics voltage 13th distortion ratio(3-N) %
Inst.: Instantaneous value. RMS.: Root-Mean-Square value.
(37/127) LEN160305A
Table 7.2 Group Channel List for Data Monitor Command (1H) (9/15) Group
(H) Channel
(H) Note Data type Content name EMU4- BM1
EMU4- HM1
EMU4- A2
EMU4- VA2
Data format
33 21 Measurement Phase 1 harmonic current A RMS. Total
1D 21 Phase 1 harmonic current A RMS. 1st
1F 21 Phase 1 harmonic current A RMS. 3rd
21 21 Phase 1 harmonic current A RMS. 5th
23 21 Phase 1 harmonic current A RMS. 7th
25 21 Phase 1 harmonic current A RMS. 9th
27 21 Phase 1 harmonic current A RMS. 11th
29 21 Phase 1 harmonic current A RMS. 13th
75 86 Measurement Phase 1 current THD % Inst. Total
75 73 Phase 1 current harmonic distortion % Inst. 3rd
75 75 Phase 1 current harmonic distortion % Inst. 5th
75 77 Phase 1 current harmonic distortion % Inst. 7th
75 79 Phase 1 current harmonic distortion % Inst. 9th
75 7B Phase 1 current harmonic distortion % Inst. 11th
75 7D Phase 1 current harmonic distortion % Inst. 13th
33 41 *2 Measurement Phase 2 harmonic current A RMS. Total
1D 41 *2 Phase 2 harmonic current A RMS. 1st
1F 41 *2 Phase 2 harmonic current A RMS. 3rd
21 41 *2 Phase 2 harmonic current A RMS. 5th
23 41 *2 Phase 2 harmonic current A RMS. 7th
25 41 *2 Phase 2 harmonic current A RMS. 9th
27 41 *2 Phase 2 harmonic current A RMS. 11th
29 41 *2 Phase 2 harmonic current A RMS. 13th
75 9C *2 Measurement Phase 2 current THD % Inst. Total
75 89 *2 Phase 2 current harmonic distortion % Inst. 3rd
75 8B *2 Phase 2 current harmonic distortion % Inst. 5th
75 8D *2 Phase 2 current harmonic distortion % Inst. 7th
75 8F *2 Phase 2 current harmonic distortion % Inst. 9th
75 91 *2 Phase 2 current harmonic distortion % Inst. 11th
75 93 *2 Phase 2 current harmonic distortion % Inst. 13th
33 61 *1 Measurement Phase 3 harmonic current A RMS. Total
1D 61 *1 Phase 3 harmonic current A RMS. 1st
1F 61 *1 Phase 3 harmonic current A RMS. 3rd
21 61 *1 Phase 3 harmonic current A RMS. 5th
23 61 *1 Phase 3 harmonic current A RMS. 7th
25 61 *1 Phase 3 harmonic current A RMS. 9th
27 61 *1 Phase 3 harmonic current A RMS. 11th
29 61 *1 Phase 3 harmonic current A RMS. 13th
75 B2 *1 Measurement Phase 3 current harmonic distortion A RMS. Total
75 9F *1 Phase 3 current harmonic distortion A RMS. 3rd
75 A1 *1 Phase 3 current harmonic distortion A RMS. 5th
75 A3 *1 Phase 3 current harmonic distortion A RMS. 7th
75 A5 *1 Phase 3 current harmonic distortion A RMS. 9th
75 A7 *1 Phase 3 current harmonic distortion A RMS. 11th
75 A9 *1 Phase 3 current harmonic distortion A RMS. 13th
Inst.: Instantaneous value. RMS.: Root-Mean-Square value.
(38/127) LEN160305A
Table 7.2 Group Channel List for Data Monitor Command (1H) (10/15) Group
(H) Channel
(H) Note Data type Content name EMU4- BM1
EMU4- HM1
EMU4- A2
EMU4- VA2
Data format
33 81 *2 Measurement Phase N harmonic current A RMS. Total
1D 81 *2 Phase N harmonic current A RMS. 1st
1F 81 *2 Phase N harmonic current A RMS. 3rd
21 81 *2 Phase N harmonic current A RMS. 5th
23 81 *2 Phase N harmonic current A RMS. 7th
25 81 *2 Phase N harmonic current A RMS. 9th
27 81 *2 Phase N harmonic current A RMS. 11th
29 81 *2 Phase N harmonic current A RMS. 13th
75 C8 *2 Measurement Phase N current THD % Inst. Total
75 B5 *2 Phase N current harmonic distortion % Inst. 3rd
75 B7 *2 Phase N current harmonic distortion % Inst. 5th
75 B9 *2 Phase N current harmonic distortion % Inst. 7th
75 BB *2 Phase N current harmonic distortion % Inst. 9th
75 BD *2 Phase N current harmonic distortion % Inst. 11th
75 BF *2 Phase N current harmonic distortion % Inst. 13th
80 01 Measurement Active energy (import) kWh count
8A 01 Active energy (import)(3side) kWh count
80 63 Active energy (export) kWh count
8A 63 Active energy (export)(3side) kWh count
81 01 Reactive energy (import lag) kvarh count
80 64 Active energy (import) kWh count expand
8A 64 Active energy (import)(3side) kWh count expand
80 65 Active energy (export) kWh count expand
8A 65 Active energy (export)(3side) kWh count expand
81 66 Reactive energy (import lag) kvar count expand
8B 01 *7 Active energy during operation kWh count
8C 01 Active energy during operation(3side) kWh count
80 6A Electric energy conversion
8A 6A Electric energy conversion(3side)
83 01 Pulse conversion pulse count
84 01 Pulse count pulse count
87 01 Operating time hour
88 01 Operating time(3side) hour
A0 31 Alarm state Alarm state1 Alarm
A1 35 Alarm state Alarm state2 Alarm
Note
*1: If phase wire system is set to single-phase 2-wire, Out-of-range error occurs. *2: If phase wire system is set to except three-phase 4-wire, Out-of-range error occurs. *3: Multiplicand and effective range is fixed for each items according to phase wire system, primary voltage and primary
current.(For details, refer to 7.2.2) *4: Target model are as follows.
EMU2-RD1-C, EMU2-RD3-C, EMU2-RD5-C, EMU2-RD7-C, EMU2-RD2-C-4W, EMU2-RD4-C-4W *5: Monitor value is Time constant for DA. *6: If phase wire system is set to three-phase 4-wire in EMU4-HD1-MB, Out-of-range error occurs. *7: Monitor value is Periodic active energy in EMU4-HD1-MB.
(39/127) LEN160305A
Table 7.2 Group Channel List for Data Monitor Command (1H) (11/15) Group
(H) Channel
(H) Note Data type Content name EMU4- LG1-MB
Data format
F0 02 Set-up Model code
E0 13 Phase & Wiring
12 E0 Demand alarm: Leak current sec
E0 AF Measurement mode
7A 81 Differential conversion use/non-use
7A 88 Differential conversion value mA 11 89 Leak current monitoring element
7A 89 Ior leak current monitoring element
11 86 Leak current Io1- alarm setting value mA
11 87 Leak current Io2- alarm setting value mA
7A 86 Ior leak current Io1- alarm setting value mA
7A 87 Ior leak current Io2- alarm setting value mA
11 8A Io1-alarm count upper limit count
11 8B Io2-alarm count upper limit count
7A 8A Ior1-alarm count upper limit count
7A 8B Ior2-alarm count upper limit count
E0 9F Alarm mask time
E0 A0 Reset mode
E0 B0 - Target output of alarm
11 01 Measurement Leak current present value mA
12 01 Demand leak current demand mA
7A 01 Present leak current for resistance mA
7B 01 Demand leak current for resistance mA
7A 82 Ior differential conversion value mA
11 84 Io1-alarm count count
11 85 Io2-alarm count count
7A 84 Ior1-alarm count count
7A 85 Ior2-alarm count count
A0 31
Alarm status Alarm status1
A1 35 Alarm status2
(40/127) LEN160305A
Table 7.2 Group Channel List for Data Monitor Command (1H) (12/15) Group
(H) Channel
(H) Note Data type Content name Unit EMU4- AX4
Data format
F0 02 Set-up Model code 65 EB Conversion rate setting 65 EC AD Conversion use or non-use setting(Ch1)
67 EC AD Conversion use or non-use setting(Ch2) 69 EC AD Conversion use or non-use setting(Ch3) 6B EC AD Conversion use or non-use setting(Ch4) 65 E2 Input range setting(Ch1)
67 E2 Input range setting(Ch2) 69 E2 Input range setting(Ch3) 6B E2 Input range setting(Ch4) 65 ED Scaling value lower value(Ch1)
67 ED Scaling value lower value(Ch2) 69 ED Scaling value lower value(Ch3) 6B ED Scaling value lower value(Ch4) 65 EE Scaling value upper value(Ch1)
67 EE Scaling value upper value(Ch2) 69 EE Scaling value upper value(Ch3) 6B EE Scaling value upper value(Ch4) 65 F0 Scaling unit(Ch1)
67 F0 Scaling unit(Ch2) 69 F0 Scaling unit(Ch3) 6B F0 Scaling unit(Ch4) 66 EF Moving average(Ch1) Times
68 EF Moving average(Ch2) Times 6A EF Moving average(Ch3) Times 6C EF Moving average(Ch4) Times 91 E0 Limit A setting(Ch1)
91 E1 Limit B setting(Ch1) 91 E2 Limit C setting(Ch1) 91 E3 Limit D setting(Ch1) 91 E4 Limit A setting(Ch2) 91 E5 Limit B setting(Ch2) 91 E6 Limit C setting(Ch2) 91 E7 Limit D setting(Ch2) 91 E8 Limit A setting(Ch3) 91 E9 Limit B setting(Ch3) 91 EA Limit C setting(Ch3) 91 EB Limit D setting(Ch3) 91 EC Limit A setting(Ch4) 91 ED Limit B setting(Ch4) 91 EE Limit C setting(Ch4) 91 EF Limit D setting(Ch4) 91 F0 Number over limit monitoring factor (Ch1)
91 F1 Number over limit monitoring factor (Ch2) 91 F2 Number over limit monitoring factor (Ch3) 91 F3 Number over limit monitoring factor (Ch4)
(41/127) LEN160305A
Table 7.2 Group Channel List for Data Monitor Command (1H) (13/15) Group
(H) Channel
(H) Note Data type Content name Unit EMU4- AX4
Data format
E0 99 Set-up External output setting E0 9A External output Channel E0 B0 External output alarm E0 9C Upper limit alarm (Ch1)
E0 A1 Upper limit alarm (Ch2) E0 A6 Upper limit alarm (Ch3) E0 B2 Upper limit alarm (Ch4) E0 9E Upper limit value (Ch1)
E0 A3 Upper limit value (Ch2) E0 A8 Upper limit value (Ch3) E0 B4 Upper limit value (Ch4) E0 B7 Lower limit alarm (Ch1)
E0 B9 Lower limit alarm (Ch2) E0 BB Lower limit alarm (Ch3) E0 BD Lower limit alarm (Ch4) E0 B8 Lower limit value (Ch1)
E0 BA Lower limit value (Ch2) E0 BC Lower limit value (Ch3) E0 BE Lower limit value (Ch4) E0 9F Delay (Ch1)
E0 A4 Delay (Ch2) E0 A9 Delay (Ch3) E0 B5 Delay (Ch4) E0 A0 Alarm reset mode (Ch1)
E0 A5 Alarm reset mode (Ch2) E0 AA Alarm reset mode (Ch3) E0 B6 Alarm reset mode (Ch4)
(42/127) LEN160305A
Table 7.2 Group Channel List for Data Monitor Command (1H) (14/15) Group
(H) Channel
(H) Note Data type Content name Unit EMU4- AX4
Data format
65 01 Measurement AD Conversion value(Ch1) Digit 67 01 AD Conversion value(Ch2) Digit
69 01 AD Conversion value(Ch3) Digit 6B 01 AD Conversion value(Ch4) Digit 65 21 Scaling value(Ch1)
67 21 Scaling value(Ch2) 69 21 Scaling value(Ch3) 6B 21 Scaling value(Ch4) 91 00 Number over limit A(Ch1) Times
91 01 Number over limit B(Ch1) Times 91 02 Number over limit C(Ch1) Times 91 03 Number over limit D(Ch1) Times 91 10 Number over limit A(Ch2) Times 91 11 Number over limit B(Ch2) Times 91 12 Number over limit C(Ch2) Times 91 13 Number over limit D(Ch2) Times 91 20 Number over limit A(Ch3) Times 91 21 Number over limit B(Ch3) Times 91 22 Number over limit C(Ch3) Times 91 23 Number over limit D(Ch3) Times 91 30 Number over limit A(Ch4) Times 91 31 Number over limit B(Ch4) Times 91 32 Number over limit C(Ch4) Times 91 33 Number over limit D(Ch4) Times A0 31 Alarm
state Monitoring alarm state
(43/127) LEN160305A
Table 7.2 Group Channel List for Data Monitor Command (1H) (15/15) Group
(H) Channel
(H) Note Data type Content name Unit EMU4- PX4
Data format
F0 02 Set-up Model code
87 E2 Operating time measuring (CH1)
88 E2 Operating time measuring
(CH2)
8D E2 Operating time measuring (CH3)
8E E2 Operating time measuring (CH4)
83 E4 Pulse conversion rate(CH1)
84 E4 Pulse conversion rate (CH2) 85 E4 Pulse conversion rate (CH3) 86 E4 Pulse conversion rate (CH4) 83 E5 Pulse conversion unit (CH1)
84 E5 Pulse conversion unit (CH2) 85 E5 Pulse conversion unit (CH3) 86 E5 Pulse conversion unit (CH4) E0 99 External output setting value E0 9A External output channel E0 9C Upper limit alarm (Ch1)
E0 A1 Upper limit alarm (Ch2) E0 A6 Upper limit alarm (Ch3) E0 B2 Upper limit alarm (Ch4) E0 9E Upper limit value (Ch1) *1
E0 A3 Upper limit value (Ch2) *1 E0 A8 Upper limit value (Ch3) *1 E0 B4 Upper limit value (Ch4) *1 E0 97 External input setting (CH1)
E0 BF External input setting (CH2) E0 C0 External input setting (CH3) E0 C1 External input setting (CH4) E0 98 Contact input reset mode
(CH1)
E0 C2 Contact input reset mode
(CH2)
E0 C3 Contact input reset mode
(CH3)
E0 C4 Contact input reset mode (CH4)
83 01 Measurement Pulse count (CH1) pulse
84 01 Pulse count (CH2) pulse 85 01 Pulse count (CH3) pulse 86 01 Pulse count(CH4) pulse 83 6A Pulse conversion value(CH1) *1
84 6A Pulse conversion value (CH2) *1 85 6A Pulse conversion value (CH3) *1 86 6A Pulse conversion value (CH4) *1 87 01 Operating time (Ch1) hour
88 01 Operating time (Ch2) hour 8D 01 Operating time (Ch3) hour 8E 01 Operating time (Ch4) hour A0 01 Contact input state (Ch1)
A0 02 Contact input state (Ch2) A0 03 Contact input state (Ch3) A0 04 Contact input state (Ch4) A0 31 Monitoring alarm state
*1: Unit is different by the setting of pulse conversion unit.
Please refer to Group Channel List for Data Set Command (2H)
(44/127) LEN160305A
Data Set Command (2H) m, n : Address is allocated to the master module by the station number setting.
You can change setting value of measuring unit by PLC. Writing the number of Group number and Channnel number of data to the memory. Please refer to Table 7.3 for data group number and data channel number. *After writing the set-up value, about 5 seconds is needed to restart the measurement based on new set-up
value.
2H Data Set
b15 b8 b7 b0
n Channel No. Group No.
n+1 00H 00H
n+2 00H 00H
n+3 00H 00H
b15 b8 b7 b4 b3 b0
m Group No. 2H
m+1 Index number Channel No.
m+2 Low data
m+3 High data
*10H to 7H is used in the unit No. of Measuring Unit
Remote register RWw PLCMeasuring Unit
Remote register RWr Measuring UnitPLC
(Unit.No. *1)
(45/127) LEN160305A
Table 7.3 Group Channel List for Data Set Command (2H) (1/8) Hex Content name EMU2 *1 EMU3-DP1-C Data
format Group Channel Range Setting unit Range Setting unit
E0 11 Primary current (Note1) 3CH: 60A 7DH: 125A
E0 12 Primary voltage (Note2) (Note5)
E0 13 Phase Wire system
01H: 1P2W 02H: 1P3W 03H: 3P3W 04H: 3P4W
01H: 1P2W 02H: 1P3W 03H: 3P3W
E0 16 Time constant for total demand (Note3) (Note3)
02 E0 Time constant for DA (Note3) Default: 2min (Note3)
(Note3) Default: 2min (Note3)
08 E0 Time constant for DW (Note3) Default: 2min (Note3)
(Note3) Default: 2min (Note3)
12 E0 Time constant for leakage current demand
(Note3) Default: 2min (Note3)
E0 8B Connected phase switch
00H: Phase switch disable 01H: Phase switch enable
E0 92 5A input switch 00H: Direct sensor 02H: 5A sensor
80 01 Active energy 0 to 999999Multiplican d(Note4)
1Multiplica nd
0 to 999999Multiplican d (Note4)
1Multiplicand
81 01 Reactive energy (import lag)
0 to 999999Multiplican d(Note4)
1Multiplica nd
0 to 999999Multiplican d (Note4)
1Multiplicand
A1 3A 16bit set register Refer to Table 7.8 Data Format (5/7)
Refer to Table 7.8 Data Format (5/7)
Note 1 EMU2-HM1-C
EMU2-RD*1 5A input switch: 00H 50A,100A,250A,400A,600A 5A input switch: 02H 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
Note 2
EMU2-HM1-C EMU2-RD*1 1P2W/3P3W 110V,220V,440V 110V,220V,440V,690V,1100V,2200V,3300V,6600V,
11000V,13200V,13800V,15000V,16500V,22000V,24000V, 33000V,66000V,77000V,110000V
1P3W 110V 110V 3P4W(L-L)
63.5V/110V,110/190V,120V/208V,220V/380V, 240V/415V,254V/440V Only EMU2-RD*-C-4W
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Note.3 Group: Channel Range Unit Note
E0:16 0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15 Minute [02:E0], [08: E0], [12:E0] is setup same value at once when setup left value in [E0: 16]. Setting value is read when read [E0: 16]. 900 is setup in [02:E0], [08: E0], [12:E0] when setting 15 in [E0: 16]. 0 is read when setting un supported value in [E0: 16].
02:E0 0,10,20,30,40,50,60,120,180,240,300, 360,420,480,540,600,660,720,780, 840,900,1200,1500,1800
Second 08:E0
12:E0
Note 4 : Multiplicand fixed for each items according to phase wire system, primary voltage and primary current. (For details, refer to 7.2.2)
Note 5 Phase Wire system Measuring Unit
EMU3-DP1-C 1P2W 63.5V,100V,110V,120V,173V,190V,208V,220V,240V,254V,380V,415V,440V 1P3W 110V 3P3W 110V,173V,190V,208V,220V,380V,415V,440V
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Table 7.3 Group Channel List for Data Set Command (2H) (2/8)
Hex Content name EMU4-BD1-MB EMU4-HD1-MB Data
format Group Channel Range Setting unit
E0 11 Primary current 5.0A to 6000.0A (Note1)
E0 12 Primary voltage (L-L) 1V to 6600V (Note2)
E0 1B Primary voltage (L-N) 1V to 6600V (EMU4-HD1-MB 3P4W only) (Note3)
E0 1C Secondary voltage (L-L/L-N) 1V to 220V Step 1V
E0 13 Phase Wire system
01H: 1P2W 02H: 1P3W 03H: 3P3W 04H: 3P4W (EMU4-HD1-MB only)
02 E0 Time constant for DA 0 to 1800s Note4
08 E0 Time constant for DW 0 to 1800s Note4
E0 92 5A input switch 00H: Direct sensor 02H: 5A sensor
80 01 Active energy (import) 0 to 999999Multiplicand (Note5) Step 1Multiplicand
80 63 Active energy (export) 0 to 999999Multiplicand (Note5) Step 1Multiplicand
81 01 Reactive energy (import lag) 0 to 999999Multiplicand (Note5) Step 1Multiplicand
A1 3A 16bit set register Refer to Table 7.8 Data Format (5/7)
Note 1 : Effective value of 5A input switch. Primary current when setup value is 5A/Direct is 0:Direct Sensor.
50A,100A,250A,400A,600A
Primary current when setup value is 5A/Direct is 0:5A Sensor.
From the most significant digit to 3 digits can be freely setting in the range from 5.0A to 6000.0A. Digits of 4 or more are rounded down to 3 digits. (When less than 10A, to 2 digits.)
Note 2: Effective value of primary voltage(L-L) is follows. 3P3W or 1P2W From the most significant digit to 3 digits can be freely setting in the range from 1V to 6600V. (When less than from 1V to 99V, to 2 digits.) When setup 110V or 220V, Setup is Direct setup (Not use VT) in EMU4-BD1-MB. When setup 110V, 220V or 440V, Setup is Direct setup (Not use VT) in EMU4-HD1-MB. 1P3W 110V is valid only. 3P4W From the most significant digit to 3 digits can be freely setting in the range from 1V to 6600V. (When less than 1V-99V, to 2 digits.)
Set value Direct voltage Set value Direct voltage 110V 63.5/110V 380V 220/380V 173V 100/173V 400V 230/400V 182V 105/182V 415V 240/415V 190V 110/190V 420V 242/420V 199V 115/199V 430V 250/430V 208V 120/208V 440V 254/440V 220V 127/220V 460V 265/460V 346V 200/346V 480V 277/480V
*From the most significant digit to 3 figures can be freely set up in the range.
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Note 3 : Setup of phase voltage is only available in 3P4W.
From the most significant digit to 3 digits can be freely setting in the range from 1V to 6600V. (When less than from 1V to 99V, to 2 digits.) Setup is Direct setup(Not use VT) when setup in below value.
Set value Direct voltage 63.5V 63.5/110V 100V 100/173V 105V 105/182V 110V 110/190V 115V 115/199V 120V 120/208V 127V 127/220V 200V 200/346V 220V 220V/380V 230V 230/400V 240V 240/415V 242V 242/420V 250V 250/430V 254V 254/440V 265V 265/460V 277V 277/480V
Note 4 : The set value is the second unit value. (For example of 2 minutes, set as 120 seconds.) About setting range, please refer to each users manuals. Note 5 : Multiplicand fixed for each items according to phase wire system, primary voltage and primary current. (For details, refer to 7.2.4 Significant digits and Multiplying factor)
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Table 7.3 Group Channel List for Data Set Command (2H) (3/8)
Hex Content name EMU4-BM1-MBEMU4-HM1-MB
EMU4-A2EMU4-VA2 Data format
Group(H) Channel(H) Range Setting unit E0 11 Primary current 5.0A to 30000.0A (Note1)
E0 12 Primary voltage (L-L) 1V to 110000V (Note2)
E0 1B Primary voltage (L-N) 1V to 110000V (EMU4-HM1-MB 3P4W, EMU4-A2 3P4W, EMU4-VA2 3P4W only)
(Note3)
E0 1C Secondary voltage (L-L/L-N) 1V to 220V Step 1V
E0 13 Phase Wire system
01H: 1P2W 02H: 1P3W 03H: 3P3W 04H: 3P4W (EMU4-HM1-MB
EMU4-A2EMU4-VA2 only)
E0 21 VT use or non-use 00H:VT non-use01H: VT use
02 E0 Time constant for DA 0 to 1800s Note4 02 E7 Time constant for DA(3side) 08 E0 Time constant for DW 0 to 1800s Note4 08 E7 Time constant for DW(3side)
E0 92 5A input switch 00H: Direct sensor 02H: 5A sensor
E0 97 External input 00H:non-use,01H:pulse input,02H:contact input
E0 98 Contact input reset mode 01H:AUTO,02H:HOLD
E0 99 External output 00H:non-use,01H:pulse output,02H:alarm output
E0 A0 External output target circuit 00H:1side,01H:3side
83 E6 The unit of pulse output
00H:0.001,01H:0.01,02H:0.1,03H: 1, 04H:10,05H:100,06H:1000,07H:10 000,08H:100000
87 E2 Operating time 00H:non-use 8E E2 Operating time(3side) 01H:use
87 E3 00H:Current input 8E E3 Counting method of operating
time(3side) 01H:Contact input
01 E8 Cut-off 0.1 to 50.0 Step 0.1 01 EA Cut-off(3side) 03 E4 Pulse conversion 0.001 to 10000
83 E5 Pulse conversion unit
00H:non-use,01H:Wh,02H:kWh, 03H:MWh,04H:J,05H:m2,06H:m3, 07H:l,08H:kl,09H:sec,0AH:min, 0BH:hour,0CH:piece,0DH:set, 0EH:g,0FH:kg,10H:t,11H:,12H:$
80 E4 Electric energy conversion 0.001 to 10000 8A E4 Electric energy conversion(3side)
80 E5 Electric energy conversion unit 00H:non-use,01H:Wh,02H:kWh, 03H:MWh,04H:J,05H:m2,06H:m3, 07H:l,08H:kl,09H:sec,0AH:min, 0BH:hour,0CH:piece,0DH:set, 0EH:g,0FH:kg,10H:t,11H:,12H:$
8A E5 Electric energy conversion unit(3side)
E0 9C Upper and lower limit alarm extence 00H:non-use 01H:use E0 A6 Upper and lower limit alarm
extence(3side)
E0 9D Upper and lower limit alarm element
00H:Current demand upper limit 01H:Current demand lower limit 02H:N phase demand upper limit 03H:Line voltage upper limit 04H:Line voltage lower limit 05H:Phase voltage upper limit 06H:Phase voltage lower limit 07H:Electric power demand upper limit 08H:Electric power demand lower
E0 A7 Upper and lower limit alarm element(3side)
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limit 09H:Power factor upper limit 0AH:Power factor lower limit 0BH:Pulse converted upper limit 0CH:Current unbalance rate upper limit 0DH:Voltage unbalance rate upper limit
E0 9E Upper and lower limit alarm value Note7 Note7 E0 A8 Upper and lower limit alarm
value(3side)
Table 7.3 Group Channel List for Data Set Command (2H) (4/8)
Hex Content name EMU4-BM1-MBEMU4-HM1-MB
EMU4-A2EMU4-VA2 Data format
Group(H) Channel(H) Range Setting unit
E0 9F Alarm delay time 00H:0,01H:5,02H:10,03H:20,04H: 30, 05H:40,06H50,07H:60,08H:120, 09H:180,0AH:240,0BH:300
E0 A9 Alarm delay time(3side)
E0 A0 Alarm reset method 01H:AUTO E0 AA Alarm reset method(3side) 02H:HOLD
E0 AB Simple measuring setup 00H: non-use 01H: use
E0 AC Power factor setup in simple measuring -0.1 to 100.0 to 0.0% 0.1%
E0 AD Power factor setup in simple measuring (3side) -0.1 to 100.0 to 0.0% 0.1%
E0 B1 2 circuits measuring 00H: non-use 01H: use
80 01 Active energy (import) 0 to 999999Multiplicand (Note4) 1Multiplicand
8A 01 Active energy (import)(3side) 0 to 999999Multiplicand (Note4) 1Multiplicand
80 63 Active energy (export) 0 to 999999Multiplicand (Note4) 1Multiplicand
8A 63 Active energy (export)(3side) 0 to 999999Multiplicand (Note4) 1Multiplicand
81 01 Reactive energy (import lag) 0 to 999999Multiplicand (Note4) 1Multiplicand
A1 3A 16bit set register Refer to Table 7.8 Data Format (5/7)
Note 1 : Effective value of 5A/Direct setup is follows. Primary current when setup value is 5A input switch is 0: Direct Sensor
50A,100A,250A,400A,600A
Primary current when setup is 5A input switch is 2 5A Sensor.
From the most significant digit to 3 digits can be freely setting in the range from 5.0A to 6000.0A. Digits of 4 or more are rounded down to 3 digits. (When less than 10A, to 2 digits.)
Note 2 : Effective value of primary voltage(L-L) is follows.
3P3W or 1P2W From the most significant digit to 3 digits can be freely setting in the range from 1V to 110000V. (When less than from 1V to 99V, to 2 digits.) When setup 110V or 220V, setup is use VT in EMU4-BM1-MB. When setup 110V, 220V or 440V, setup is use VT inEMU4-HM1-MB, EMU4-A2, EMU4-VA2. 1P3W 110V is valid when use EMU4-BM1-MB. 110V and 220V is valid when use EMU4-HM1-MB, EMU4-A2, EMU4-VA2.
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3P4W From the most significant digit to 3 digits can be freely setting in the range from 1V to 110000V. (When less than 1V-99V, to 2 digits.) Digits of 4 or more are rounded down to 3 digits. Note 3 : Phase voltage 3P4W is only setup.
From the most significant digit to 3 digits can be freely setting in the range from 1V to 63500V. Digits of 4 or more are rounded down to 3 digits.
Note 4 : The set value is the second unit value. (For example of 2 minutes, set as 120 seconds.) About setting range, please
refer to each users manuals.
Note 5 : Setting range is changed by the value of Full load power. Full load power(kW) Setting range
Less than 12 0.001, 0.01, 0.1, 1 12 or more Less than 120 0.01, 0.1, 1, 10 120 or more Less than 1200 0.1, 1, 10, 100 1200 or more Less than 12000 1, 10, 100, 1000 12000 or more Less than 120000 10, 100, 1000, 10000 120000 or more 100, 1000, 10000, 100000
Full load power is calculated in below.
Full load power = (Primary voltage)(Primary current) /1000
: 1 1P2W : 2 1P3W(Primary voltage is 110V or 220V) : 3 3P3W : 3 3P4W(Primary voltage is phase voltage)
Note 6 : From the most significant digit to 4 digits can be freely setting in the range from 0.001 to 10000. Note 7 : Setup for upper and lower alarm
Setup range is different from target of alarm. Upper/lower alarm value is needed to setup value.
Target of alarm Setting range Current demand upper limit alarm 0120% of primary current Current demand lower limit alarm Line voltage upper limit alarm Phase voltage upper limit alarm
15/110100% of primary voltage
Line voltage lower limit alarm Phase voltage lower limit alarm Electric energy demand upper limit alarm -120120% of Full load power Electric energy demand lower limit alarm Power factor upper limit alarm -51005% Power factor lower limit alarm Pulse conversion upper limit alarm 1999999.999 Current unbalance rate upper limit alarm 0.01999.99 Voltage unbalance rate upper limit alarm
Note 8 : Multiplicand fixed for each items according to phase wire system, primary voltage and primary current.
(For details, refer to 7.2.4Significant digits and Multiplying factor)
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Table 7.3 Group Channel List for Data Set Command (2H) (5/8) Hex Content name EMU4-LG1-MB Data
format Group(H) Channel(H) Range Setting unit
E0 13 Phase Wire system 01H: 1P2W02H: 1P3W 03H: 3P3W04H: 3P4W
E0 AF Measurement mode 00H:Low SENS01H:High SENS
12 E0 Leak current demand time 0 to 1800s Note1
7A 81 Differential conversion ON/OFF setting 00H:OFF,01H:ON
7A 88 Differential conversion value Low SENS:0 to 1000mA High SENS:0 to 100.00mA Note2
11 89 Io alarm element 00H:Present value,01H:Demand value
7A 89 Ior alarm element 00H:Present value,01H:Demand value 02H: Differential conversion value
11 86 Alarm value (Io1-alarm) Low SENS:0 to 1000mA High SENS:0 to 100.00mA Note2
11 87 Alarm value (Io2-alarm) Low SENS:0 to 1000mA High SENS:0 to 100.00mA Note2
7A 86 Alarm value (Ior1-alarm) Low SENS:0 to 1000mA High SENS:0 to 100.00mA Note2
7A 87 Alarm value (Ior2-alarm) Low SENS:0 to 1000mA High SENS:0 to 100.00mA Note2
11 8A Io1-alarm count upper limit 0 to 999999 1 count step 11 8B Io2-alarm count upper limit 7A 8A Ior1-alarm count upper limit 0 to 999999 1 count step 7A 8B Ior2-alarm count upper limit
E0 B0 Target output of alarm
00H:non-use 01H: Io1-alarm 02H: Io2-alarm 03H: Ior1-alarm 04H: Ior2-alarm 05H: Io1-alarm count upper limit 06H: Io2-alarm count upper limit 07H: Ior1-alarm count upper limit 08H: Ior2-alarm count upper limit
E0 9E Alarm delay time
00H:0, 01H:5, 02H:10, 03H:20, 04H:30, 05H:40, 06H:50, 07H:60, 08H:120, 09H:180, 0AH:240, 0BH:300
E0 9F Alarm reset method 01H:AUTO, 02H:HOLD
A1 3A 16bit set register Refer to Table 7.8 Data Format (5/7)
Note 1 : The set value is the second unit value. (For example of 2 minutes, set as 120 seconds.) Note 2
Range Low SENS 0 to 1000mA by 1mA step High SENS 0 to 100.00mA by 0.01mA step
*From the most significant digit to 3 figures can be freely set up in the range.
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Table 7.3 Group Channel List for Data Set Command (2H) (6/8) Hex Content name EMU4-AX4 Data
format Group(H) Channel(H) Range Setting unit 65 EB Conversion rate setting 00H50ms01H1ms
65 EC AD Conversion use or non-use setting (Ch1)
00Hnon-use 01Huse
67 EC AD Conversion use or non-use setting (Ch2)
69 EC AD Conversion use or non-use setting (Ch3)
6B EC AD Conversion use or non-use setting (Ch4)
65 E2 Input range setting (Ch1) 00HVoltage Input 01HCurrent Input
67 E2 Input range setting (Ch2) 69 E2 Input range setting (Ch3) 6B E2 Input range setting (Ch4) 65 ED Scaling value lower value (Ch1)
-3276732767 1 step 67 ED Scaling value lower value (Ch2) 69 ED Scaling value lower value (Ch3) 6B ED Scaling value lower value (Ch4) 65 EE Scaling value upper value (Ch1)
-3276732767 1 step 67 EE Scaling value upper value (Ch2) 69 EE Scaling value upper value (Ch3) 6B EE Scaling value upper value (Ch4) 65 F0 Scaling unit (Ch1) 00HNon01HA02HmA
03HkA04HV05HkV 06HW07HkW08HMW 09HHz0AHN0BHkN 0CHPa0DHkPa0EHMPa, 0FHC10Hdeg11H%
67 F0 Scaling unit (Ch2)
69 F0 Scaling unit (Ch3)
6B F0 Scaling unit (Ch4)
66 EF Moving average (Ch1)
1100 times 1 count step 68 EF Moving average (Ch2) 6A EF Moving average (Ch3) 6C EF Moving average (Ch4) 91 E0 Limit A setting (Ch1)
-3276732767 Please setting with in the range of Scaling value lower value to Scaling value upper value.
1 step
91 E1 Limit B setting (Ch1) 91 E2 Limit C setting (Ch1) 91 E3 Limit D setting (Ch1) 91 E4 Limit A setting (Ch2) 91 E5 Limit B setting (Ch2) 91 E6 Limit C setting (Ch2) 91 E7 Limit D setting (Ch2) 91 E8 Limit A setting (Ch3) 91 E9 Limit B setting (Ch3) 91 EA Limit C setting (Ch3) 91 EB Limit D setting (Ch3) 91 EC Limit A setting (Ch4) 91 ED Limit B setting (Ch4) 91 EE Limit C setting (Ch4) 91 EF Limit D setting (Ch4) 91 F0 Number over limit monitoring
factor(CH1) 00HInteger 01HInteger (10) 02HInteger (100) 03HInteger (1000)
91 F1 Number over limit monitoring
factor(CH2)
91 F2 Number over limit monitoring factor(CH3)
91 F3 Number over limit monitoring factor(CH4)
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Table 7.3 Group Channel List for Data Set Command (2H) (7/8) Hex Content name EMU4-AX4 Data
format Group(H) Channel(H) Range Setting unit
E0 99 External output setting value 00HNon 02HAlarm output 03HContact output
E0 9A External output channel 00HNon, 01HCH102HCH203HCH3 04HCH4
E0 B0 External output alarm
00HUpper limit alarm or Lower limit alarm 01HUpper limit alarm 02H Lower limit alarm
E0 9C Upper limit alarm (Ch1) 00HOff 01HOn
E0 A1 Upper limit alarm (Ch2) E0 A6 Upper limit alarm (Ch3) E0 B2 Upper limit alarm (Ch4) E0 9E Upper limit value (Ch1) -3276732767
Please setting with in the range of Scaling value lower value to Scaling value upper value.
E0 A3 Upper limit value (Ch2) E0 A8 Upper limit value (Ch3) E0 B4 Upper limit value (Ch4) E0 B7 Lower limit alarm (Ch1) 00HOff
01HOn E0 B9 Lower limit alarm (Ch2) E0 BB Lower limit alarm (Ch3) E0 BD Lower limit alarm (Ch4) E0 B8 Lower limit value (Ch1) -3276732767
Please setting with in the range of Scaling value lower value to Scaling value upper value.
E0 BA Lower limit value (Ch2) E0 BC Lower limit value (Ch3) E0 BE Lower limit value (Ch4)
E0 9F Delay (Ch1) 00H0sec01H5sec 02H10sec03H20 sec 04H30 sec05H40 sec 06H50 sec07H60 sec 08H120 sec09H180 sec 0AH240 sec0BH300 sec
E0 A4 Delay (Ch2)
E0 A9 Delay (Ch3)
E0 B5 Delay (Ch4)
E0 A0 Alarm reset mode (Ch1) 01HAuto 02Hhold
E0 A5 Alarm reset mode (Ch2) E0 AA Alarm reset mode (Ch3) E0 B6 Alarm reset mode (Ch4)
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Table 7.3 Group Channel List for Data Set Command (2H) (8/8) Hex
Content name EMU4-PX4 Data
format Group(H) Group(H) Range Setting unit
87 E2 Operating time measuring (CH1)
00HOff 01HOn
88 E2 Operating time measuring
(CH2)
8D E2 Operating time measuring (CH3)
8E E2 Operating time measuring (CH4)
83 E4 Pulse conversion (CH1) 0.00110000 Valid for up to four digits. Truncates after five digit. 1Multiplier
84 E4 Pulse conversion (CH2) 85 E4 Pulse conversion (CH3) 86 E4 Pulse conversion (CH4) 83 E5 Pulse conversion unit (CH1) 00HNon01HWh02HkWh03HMWh
04HJ05Hm2 06Hm3
07Hl08Hkl 09Hsec0AHmin0BHhour0CHpiece 0DHset0EHg0FHkg10Ht11H12H $
84 E5 Pulse conversion unit (CH2) 85 E5 Pulse conversion unit (CH3)
86 E5 Pulse conversion unit (CH4)
E0 99 External output setting value 00HNon 02HAlarm output 03HContact output
E0 9A External output channel 00HNon 01HCH102HCH203HCH304HCH4
E0 9C Upper limit alarm (Ch1) 00HOff 01HOn
E0 A1 Upper limit alarm (Ch2) E0 A6 Upper limit alarm (Ch3) E0 B2 Upper limit alarm (Ch4) E0 9E Upper limit value (Ch1) 0.001999999000
1Multiplier E0 A3 Upper limit value (Ch2) E0 A8 Upper limit value (Ch3) E0 B4 Upper limit value (Ch4) E0 97 External input setting (CH1) 00HNon
01HPulse input 02HContact input
E0 BF External input setting (CH2) E0 C0 External input setting (CH3) E0 C1 External input setting (CH4)
E0 98 Contact input reset mode (CH1)
01HAuto 02HHold
E0 C2 Contact input reset mode
(CH2)
E0 C3 Contact input reset mode (CH3)
E0 C4 Contact input reset mode (CH4)
83 01 Pulse count (CH1) 0999999
1 step 84 01 Pulse count (CH2) 85 01 Pulse count (CH3) 86 01 Pulse count(CH4) 87 01 Operating time (CH1) 0999999
1 step 88 01 Operating time (CH2) 8D 01 Operating time (CH3) 8E 01 Operating time (CH4)
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7.2.3 Data Composition
Table 7.4 Data Format (1/7)
Data Data Format Measurement
Current,
Voltage,
Active power,
Reactive power,
Power factor,
Frequency, etc.
Multiplicand
Multiplicand is fixed for every item according to settings of primary current, primary voltage, and phase wiring. (Refer to P43.)
Index number Multiplicand Remarks
03H 103
Actual value =
Numerical value Multiplicand
02H 102
01H 10
00H 1
FFH 10-1
FEH 10-2
FDH 10-3
Example: Active power
Data Multiplicand Numerical value Actual value
FF000000FFH FFH10-1 000000FFH255 25510-1= 25.5[kW]
00000000FFH 00H1 000000FFH255 2551 = 255[kW]
FFFFFFFF01H FFH10-1 FFFFFF01H-255 -25510-1= -25.5[kW]
00FFFFFF01H 00H1 FFFFFF01H-255 -2551 = -255[kW]
Format
b15 b8 b7 b0
Index number
Low data
High data
High data
b31 b24 b23 b16 b15 b8 b7 b0
Numerical value: 32-bit integer with a sign -21474836482147483647 80000000H7FFFFFFFH
Low data
Multiplicand
Numerical value
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Table 7.4 Data Format (2/7)
Data Data Format Measurement
Active energy
Reactive energy
Operating time
Periodic power
Pulse converted
Multiplicand
Multiplicand is fixed for every item according to settings of primary current, primary voltage, and phase wiring. (Refer to 7.2.4 Significant digits and Multiplying factor)
Index number Multiplicand Remarks
04H 104
Actual value =
Numerical value Multiplicand
03H 103
02H 102
01H 10
00H 1
FFH 10-1
FEH 10-2
FDH 10-3
FCH 10-4
FBH 10-5
Example: Active Energy
Data Multiplicand Numeric value Actual value
FF000000FFH FFH10-1 000000FFH255 25510-1 = 25.5[kWh]
00000000FFH 00H1 000000FFH255 2551 = 255[kWh]
Format
b15 b8 b7 b0
Index number
Low data
High data
High data
b31 b24 b23 b16 b15 b8 b7 b0
Numerical value: 32-bit integer with a sign However, the effective numerical value is 0999999 0HF423FH
Low data
Multiplicand
Numerical value
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Table 7.4 Data Format (3/7)
Data Data Format Alarm state
Alarm: Refer to next page.
Format
Alarm state
b15 b8 b7 b0
Index number
Low data
High data
High data
b15 b8 b7 b0
00H(fixed)
Low data
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The allocation of the alarm state 1
Bit Data EMU2- *-C
EMU3- DP1-C
EMU4- BD1-MB
EMU4- HD1-MB Content OFF(0) ON(1)
b0 Alarm of Pulse Non-Alarm Alarm
b1 Alarm of Leak Current
Non-Alarm Alarm
b2 Alarm of Demand current
Non-Alarm Alarm
b3 Alarm of Demand Active power
Non-Alarm Alarm
b4 Contact Input OFF(Open) ON(Close)
b5 Alarm (total) Non-Alarm Alarm
b6 Reserved
b7 Reserved
b8 Alarm of Voltage Non-Alarm Alarm
b9 Alarm of Operating Time 2
Non-Alarm Alarm
b10 Alarm of Operating Time 1
Non-Alarm Alarm
b11 Alarm of Pulse 2 Non-Alarm Alarm
b12 Alarm of Pulse 1 Non-Alarm Alarm
b13 Alarm of Power factor
Non-Alarm Alarm
b14 External Input 2 OFF(Open) ON(Close)
b15 External Input 1 OFF(Open) ON(Close) Note1 : b14-15 (External input 1 and External input 2) is available only when external input signal setup is
Contact input in EMU3-DP1-C. Note2 : b0 (Pulse count) is available only when external input signal setup is Pulse input in EMU4-HD1-MB. Note3 : b4 (Contact input) is available only when external input signal setup is Contact input in EMU4-HD1-MB.
Bit Data EMU4- BM1-MB
EMU4- HM1-MB
EMU4- LG1-MB
EMU4-A2 EMU4-VA2 Content OFF(0) ON(1)
b0 Alarm of Pulse Non-Alarm Alarm
b1 Reserved
b2 Alarm of Demand current Non-Alarm Alarm
b3 Alarm of Demand Active power Non-Alarm Alarm
b4 Contact Input OFF(Open) ON(Close)
b5 Alarm (total) Non-Alarm Alarm
b6 Upper limit current unbalance rate Non-Alarm Alarm
b7 Upper limit voltage unbalance rate Non-Alarm Alarm
b8 Alarm of Voltage Non-Alarm Alarm
b9 Io alarm1 Non-Alarm Alarm
b10 Io alarm2 Non-Alarm Alarm
b11 Ior alarm1 Non-Alarm Alarm
b12 Ior alarm2 Non-Alarm Alarm
b13 Alarm of Power factor Non-Alarm Alarm
b14 Reserved
b15 Reserved
Note1 : b0 (Pulse converted alarm) is available only when external input signal setup is Pulse input in EMU4-HM1-MB.
Note2 : b0 (Pulse converted alarm) is available both Alarm1 and Alarm2. Note3 : b4 (Contact input) is available only when external input signal setup is Contact input in MU4-HM1-MB.
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Bit Data EMU4-AX4 EMU4-PX4 Content OFF(0) ON(1) b0 Alarm (Ch1) Non-Alarm Alarm
b1 Alarm (Ch2) Non-Alarm Alarm
b2 Alarm (Ch3) Non-Alarm Alarm
b3 Alarm (Ch4) Non-Alarm Alarm
b4 Contact input(Ch1) OFF(Open) ON(Close)
b5 Alarm (Total) Non-Alarm Alarm
b6 Contact input(Ch2) OFF(Open) ON(Close) b7 Contact input(Ch3) OFF(Open) ON(Close) b8 Contact input(Ch4) OFF(Open) ON(Close)
b9 Reserved
b10 Reserved
b11 Reserved
b12 Reserved
b13 Reserved
b14 Reserved
b15 Reserved Note1 : b0 - b3 (Alarm) is upper limit alarm only in using EMU4-PX4. Note2 : b0 - b3 (Alarm) is available when setting pulse input in each external input setup . Note3 : b4, b6 b8 (Contact input) is available when setting contact input in each external input setup .
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The allocation of the alarm state 2
Bit Data EMU4- BM1-MB
EMU4- HM1-MB
EMU4- LG1-MB
EMU4-A2 EMU4-VA2 Content OFF(0) ON(1)
b0 Upper limit pulse conversion alarm Non-Alarm Alarm
b1 Reserved
b2 Upper/ lower demand electric power alarm (3side in 1P2W)
Non-Alarm Alarm
b3 Upper/ lower demand electric power alarm (3side in 1P2W)
Non-Alarm Alarm
b4 Reserved
b5 Upper/lower alarm Total (3side in 1P2W)
Non-Alarm Alarm
b6 Reserved b7 Reserved b8 Voltage alarm Non-Alarm Alarm
b9 Io alarm1 Upper limit of alarm occurrence
Non-Alarm Alarm
b10 Io alarm2 Upper limit of alarm occurrence
Non-Alarm Alarm
b11 Ior alarm1 Upper limit of alarm occurrence
Non-Alarm Alarm
b12 Ior alarm2 Upper limit of alarm occurrence
Non-Alarm Alarm
b13 Upper/lower power factor alarm (3side in 1P2W)
Non-Alarm Alarm
b14 Reserved b15 Reserved
Note1 : b0 (Pulse converted alarm) is available only when external input signal setup is Pulse input in EMU4-HM1-MB.
Note2 : b0 (Pulse converted alarm) is available both Alarm1 and Alarm2.
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Table 7.4 Data Format (4/7)
Data Data Format Set-up
Primary current
Primary voltage
Multiplicand
Multiplicand is fixed for every item according to settings of primary current, primary voltage, and phase wiring. (Refer to 7.2.4 Significant digits and Multiplying factor)
Index number = 00H: The actual value is the numeric value. Index number = FFH: The actual value is 10-1 times the numeric value.
Example: Primary current, Primary voltage
Set-up value Multiplicand Numeric value Data Set-up value = 100.0A (Effective range = one place of decimals)
10-1 FFH 100003E8H 000003E8H
Set-up value = 400A (Effective range = Integer)
100H 4000190H 00000190H
Set-up value = 110.0V (Effective range = one place of decimals)
10-1 FFH 1100044CH 0000044CH
Set-up value = 3300V (Effective range = Integer)
100H 33000CE4H 00000CE4H
Format
b15 b8 b7 b0
Index number
Low data
High data
High data
b31 b24 b23 b16 b15 b8 b7 b0
Numerical value: 32-bit integer with a sign -21474836482147483647 80000000H7FFFFFFFH
Low data
Multiplicand
Numerical value
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Table 7.4 Data Format (5/7) Data Data Format
Set-up
Phase wiring
Time constant
5A input switch
Connected phase
switch
Model code
16bit set register
Data(Numeric value) 1) Phase wiring
Phase wiring Data Note Single phase 2 wire (1P2W) 00000001H About setting range, please
refer to the instrument manual.
Single phase 3 wire (1P3W)(1N3 display) 00000002H Three phase 3 wire (3P3W) 00000003H Three phase 4 wire (3P4W) 00000004H
2) Time constant for demand Group Channel Range
E0 16 The range of 0 (=0H) to 15 minutes (=FH) can be set up per minute.
02 E0 The range of 0(= 0H) to 1800 seconds(= 708H)can be set up per seconds. 08 E0
12 E0 3)5A input switch : Direct sensor = 0 (00H), 5A sensor = 2 (02H) 4)Connected phase switch : Phase switch disable = 0 (00H), Phase switch enable =1 (01H) 5) Model code
Model Name Data Note EMU2-HM1-C 02H
b31 to b8 is fixed 0.
EMU2-RD1-C 31H EMU2-RD3-C 33H EMU2-RD5-C 35H EMU2-RD7-C 37H EMU2-RD2-C-4W 52H EMU2-RD4-C-4W 54H EMU3-DP1-C 61H EMU4-BD1-MB 01H EMU4-HD1-MB 02H EMU4-BM1-MB 03H EMU4-HM1-MB 04H EMU4-A2 05H EMU4-VA2 06H EMU4-LG1-MB 07H EMU4-AX4 09H EMU4-PX4 0AH
6)16bit set register Refer to next page.
Format
b15 b8 b7 b0
Index number
Low data
High data
High data
b31 b24 b23 b16 b15 b8 b7 b0
Numerical value: 32-bit integer with a sign -21474836482147483647 80000000H7FFFFFFFH
Low data
Numerical value
00H(fixed)
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Details of 16bit set register(1/4)
Bit Contents EMU2-
*-C EMU3- DP1-C
Note
b0 Alarm reset b1 All measurement data reset Note1, Note3, Note4
b2 Measurement data reset (except active energy and reactive energy)
Note2, Note3, Note4
b3 Reserved b4 Reserved
b5 Maximum leak current demand reset
Note3
b6
Maximum active power demand reset
Note3 Maximum / Minimum active power demand reset
b7 Reserved
b8 External input 2 reset Note4 Contact input latch clear
b9 External input 1 reset Note4
b10 Maximum power factor reset
Note3 Maximum / Minimum power factor reset
b11 Maximum current demand reset
Note3 Maximum / Minimum current demand reset
b12 Maximum voltage demand reset
Note3 Maximum / Minimum voltage demand reset
b13 Maximum over current reset
b14 Active energy / Reactive energy reset
b15 Reserved
Note1: All Max and Min value is reset. Electric Energy and Reactive power (Integrated) is 0kWh (kvarh). Note2: All Max and Min value is reset. Electric Energy and Reactive power (Integrated) is 0kWh (kvarh). Note3: All measurement data reset is contained the occurance time. Note4: Pulse count is 0pulse , Operating Time is 0min and Electric Energy in Operating Time is 0kWh in EMU3-DP1-C.
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Details of 16bit set register(2/4)
Bit Content EMU4-
BD1-MB EMU4-
HD1-MB EMU4-
BM1-BM EMU4-
HM1-MB EMU4-
LG1-MB EMU4-A2
EMU4-VA2 Note
b0 Alarm reset
b1 All measurement data reset
Note1
b2 Measurement max/min data reset
b3 Alarm count reset b4 Reserved b5 Reserved b6 Reserved b7 Reserved
b8 Contact input latch clear
b9 External input reset Note2 b10 Reserved b11 Reserved b12 Reserved b13 Reserved
b14 Active energy / Reactive energy reset
b15 Reserved
Note 1: Reset value is showed in below table. Integral value
EMU4-BD1-BM Electric energy, Reactive power, Operating time
EMU4-HD1-BM Electric energy, Reactive power, Pulse count, Operating time Periodic electric energy, CO2 conversion
EMU4-BM1-MB Electric energy, Reactive power, Operating time
EMU4-HM1-MB Electric energy, Reactive power, Pulse count, Pulse conversion, Operating time, Periodic electric energy, Electric energy conversion
EMU4-A2, EMU4-VA2 Electric energy, Reactive power, Operating time, Electric energy conversion
Note 2: Reset value is showed in below table.
value
EMU4-BD1-BM Operating time
EMU4-HD1-BM Electric energy, Reactive power, Pulse count, Operating time Periodic electric energy, CO2 conversion
EMU4-BM1-MB Operating time
EMU4-HM1-MB Pulse count, Pulse conversion, Operating time, Periodic electric energy, Electric energy conversion
EMU4-A2, EMU4-VA2 Operating time, Electric energy conversion
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Details of 16bit set register(3/4)
bit Set data EMU4-AX4 Note Content OFF(0) ON(1) b0 Reset alarm Not clear Clear it b1 Reserved b2 Reset max and min value Not clear Clear it b3 Reserved
b4 All CH of number over limit A-D is reset.
Not clear Clear it
b5 Contact output OFF(Open) ON(Close) Note3 b6 Reserved b7 Reserved b8 Reserved b9 Reserved
b10 Reserved b11 Reserved b12 Reserved b13 Reserved b14 Reserved b15 Reserved
Details of 16bit set register(4/4)
bit Set data EMU4-PX4 Note Content OFF(0) ON(1) b0 Reset alarm Not reset Reset b1 Data reset Not reset Reset Note1 b2 Reserved b3 Reserved b4 Reserved b5 Contact output OFF(Open) ON(Close) Note3 b6 Reserved b7 Reserved
b8 Clear hold contact input Not clear Clear
b9 Reset external input Not reset Reset Note2 b10 Reserved b11 Reserved b12 Reserved b13 Reserved b14 Reserved b15 Reserved
Note 1: Reset integrate value is showed in below items. Pulse count, Pulse conversion, Operating time Note 2: Reset value is showed in below items. Pulse count, Pulse conversion, Oerating time Note 3: This is only available only when setting external output setting value is contact output.
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Table 7.4 Data Format (6/7)
Data Data Format
Time data
Time data
Year data : Last two digits of year (05H indicates 2005.)
Month data : Data on month (11H indicates November.)
Day data : Data on day (16H indicates the 16th.)
Hour data : Data on hour (17H indicates 17 oclock.)
Minute data : Data on minute (15H indicates 15 minutes.)
Second data : Data on second (28H indicates 28 minutes.)
Note : In case of EMU3-DP1-C, Range of second is 0 fixed.
Format
b7 b0
Second (BCD) 0059
b15 b8
Minute(BCD) 0059
b7 b0
Hour (BCD) 0023
b15 b8
Day (BCD) 0131
b7 b0
Month (BCD) 0112
15 b8
Year (BCD) 0099
b15 b8 b7 b0
n Channel No. Group No.
n+1 Year Month
n+2 Day Hour
n+3 Minute Second
n+3 n+2 n+1
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Table 7.4 Data Format (7/7)
Data Data Format Measurement
Pulse
Operating time
Multiplicand
Multiplicand is fixed for every item according to settings of primary current, primary voltage, and
phase wiring. (Refer to 7.2.4 Significant digits and Multiplying factor)
Example: Measurement value
Item Multiplicand Numeric value Actual value
Pulse 00H1 000000FFH255 2551 = 255[pulse]
Operating time 00H1 0000003CH60 601 = 60[min]
Format
b15 b8 b7 b0
Index number
Low data
High data
High data
b31 b24 b23 b16 b15 b8 b7 b0
Numerical value: 32-bit integer with a sign However, the effective numerical value is 0999999 0HF423FH
Low data
Multiplicand
Numerical value
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7.2.4 Significant digits and Multiplying factor
(1) Electric power and Reactive power data EMU2-*-C Vertical axis Primary current setting value Horizontal axis Primary voltage setting value, Phase wire system setting value.
Phase wire
system
1P2W 1P3W 3P3W
V A
110 220 440 3300 6600 110 110
220 440 3300 6600 11000 22000 33000
5 3digit 3digit 3digit 2digit 2digit 3digit 3digit 3digit 3digit 2digit 2digit 2digit 1digit 1digit 6 3digit 3digit 3digit 2digit 2digit 3digit 3digit 3digit 3digit 2digit 2digit 2digit 1digit 1digit
7.5 3digit 3digit 3digit 2digit 2digit 3digit 3digit 3digit 3digit 2digit 2digit 1digit 1digit 1digit 8 3digit 3digit 3digit 2digit 2digit 3digit 3digit 3digit 3digit 2digit 2digit 1digit 1digit 1digit 10 3digit 3digit 3digit 2digit 2digit 3digit 3digit 3digit 3digit 2digit 2digit 1digit 1digit 1digit
12 3digit 3digit 3digit 2digit 2digit 3digit 3digit 3digit 3digit 2digit 1digit 1digit 1digit 1digit 15 3digit 3digit 3digit 2digit 2digit 3digit 3digit 3digit 3digit 2digit 1digit 1digit 1digit 1digit
20 3digit 3digit 3digit 2digit 1digit 3digit 3digit 3digit 2digit 2digit 1digit 1digit 1digit 1digit
25 3digit 3digit 3digit 2digit 1digit 3digit 3digit 3digit 2digit 1digit 1digit 1digit 1digit x1
30 3digit 3digit 2digit 2digit 1digit 3digit 3digit 3digit 2digit 1digit 1digit 1digit 1digit x1
40 3digit 3digit 2digit 1digit 1digit 3digit 3digit 2digit 2digit 1digit 1digit 1digit x1 x1 50 3digit 3digit 2digit 1digit 1digit 3digit 3digit 2digit 2digit 1digit 1digit 1digit x1 x1
60 3digit 2digit 2digit 1digit 1digit 2digit 3digit 2digit 2digit 1digit 1digit 1digit x1 x1
75 3digit 2digit 2digit 1digit 1digit 2digit 2digit 2digit 2digit 1digit 1digit x1 x1 x1 80 3digit 2digit 2digit 1digit 1digit 2digit 2digit 2digit 2digit 1digit 1digit x1 x1 x1 100 3digit 2digit 2digit 1digit 1digit 2digit 2digit 2digit 2digit 1digit 1digit x1 x1 x1
120 2digit 2digit 2digit 1digit 1digit 2digit 2digit 2digit 2digit 1digit x1 x1 x1 x1 150 2digit 2digit 2digit 1digit 1digit 2digit 2digit 2digit 2digit 1digit x1 x1 x1 x1
200 2digit 2digit 2digit 1digit x1 2digit 2digit 2digit 1digit 1digit x1 x1 x1 x1
250 2digit 2digit 2digit 1digit x1 2digit 2digit 2digit 1digit x1 x1 x1 x1 x10
300 2digit 2digit 1digit 1digit x1 2digit 2digit 2digit 1digit x1 x1 x1 x1 x10
400 2digit 2digit 1digit x1 x1 2digit 2digit 1digit 1digit x1 x1 x1 x10 x10 500 2digit 2digit 1digit x1 x1 2digit 2digit 1digit 1digit x1 x1 x1 x10 x10
600 2digit 1digit 1digit x1 x1 1digit 2digit 1digit 1digit x1 x1 x1 x10 x10
750 2digit 1digit 1digit x1 x1 1digit 1digit 1digit 1digit x1 x1 x10 x10 x10 800 2digit 1digit 1digit x1 x1 1digit 1digit 1digit 1digit x1 x1 x10 x10 x10 1000 2digit 1digit 1digit x1 x1 1digit 1digit 1digit 1digit x1 x1 x10 x10 x10
1200 1digit 1digit 1digit x1 x1 1digit 1digit 1digit 1digit x1 x1 x10 x10 x10 1500 1digit 1digit 1digit x1 x1 1digit 1digit 1digit 1digit x1 x10 x10 x10 x10
1600 1digit 1digit 1digit x1 x1 1digit 1digit 1digit x1 x1 x10 x10 x10 x10
2000 1digit 1digit 1digit x1 x10 1digit 1digit 1digit x1 x1 x10 x10 x10 x10
2500 1digit 1digit 1digit x1 x10 1digit 1digit 1digit x1 x10 x10 x10 x10 x100
3000 1digit 1digit x1 x1 x10 1digit 1digit 1digit x1 x10 x10 x10 x10
4000 1digit 1digit x1 x10 x10 1digit 1digit x1 x1 x10 x10 x10 x100
5000 1digit 1digit x1 x10 x10 1digit 1digit x1 x1 x10 x10 x10
6000 1digit x1 x1 x10 x10 x1 1digit x1 x1 x10 x10 x10
7500 1digit x1 x1 x10 x10 x1 x1 x1 x1 x10 x10 x100 8000 1digit x1 x1 x10 x10 x1 x1 x1 x1 x10 x10 x100
10000 1digit x1 x1 x10 x10 x1 x1 x1 x1 x10 x10
12000 x1 x1 x1 x10 x10 x1 x1 x1 x1 x10 x100
20000 x1 x1 x1 x10 x1 x1 x1 x10 x10
25000 x1 x1 x1 x10 x1 x1 x1 x10 x100
30000 x1 x1 x10 x1 x1 x1 x10
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Phase wire
system
3P4W
V A
63.5 110
110 190
120 208
220 380
240 415
254 440
5 3digit 3digit 3digit 3digit 3digit 3digit 6 3digit 3digit 3digit 3digit 3digit 3digit 7.5 3digit 3digit 3digit 3digit 3digit 3digit 8 3digit 3digit 3digit 3digit 3digit 3digit 10 3digit 3digit 3digit 3digit 3digit 3digit 12 3digit 3digit 3digit 3digit 3digit 3digit 15 3digit 3digit 3digit 3digit 3digit 3digit
20 3digit 3digit 3digit 2digit 2digit 2digit 25 3digit 3digit 3digit 2digit 2digit 2digit 30 3digit 3digit 3digit 2digit 2digit 2digit
40 3digit 2digit 2digit 2digit 2digit 2digit 50 3digit 2digit 2digit 2digit 2digit 2digit 60 3digit 2digit 2digit 2digit 2digit 2digit
75 2digit 2digit 2digit 2digit 2digit 2digit 80 2digit 2digit 2digit 2digit 2digit 2digit 100 2digit 2digit 2digit 2digit 2digit 2digit 120 2digit 2digit 2digit 2digit 2digit 2digit 150 2digit 2digit 2digit 2digit 2digit 2digit
200 2digit 2digit 2digit 1digit 1digit 1digit 250 2digit 2digit 2digit 1digit 1digit 1digit 300 2digit 2digit 2digit 1digit 1digit 1digit
400 2digit 1digit 1digit 1digit 1digit 1digit 500 2digit 1digit 1digit 1digit 1digit 1digit 600 2digit 1digit 1digit 1digit 1digit 1digit
750 1digit 1digit 1digit 1digit 1digit 1digit 800 1digit 1digit 1digit 1digit 1digit 1digit 1000 1digit 1digit 1digit 1digit 1digit 1digit 1200 1digit 1digit 1digit 1digit 1digit 1digit 1500 1digit 1digit 1digit 1digit 1digit 1digit
1600 1digit 1digit 1digit 1digit 1digit x1
2000 1digit 1digit 1digit x1 x1 x1 2500 1digit 1digit 1digit x1 x1 x1 3000 1digit 1digit 1digit x1 x1 x1
4000 1digit x1 x1 x1 x1 x1 5000 1digit x1 x1 x1 x1 x1 6000 1digit x1 x1 x1 x1 x1
7500 x1 x1 x1 x1 x1 x1 8000 x1 x1 x1 x1 x1 x1 10000 x1 x1 x1 x1 x1 x1 12000 x1 x1 x1 x1 x1 x1
20000 x1 x1 x1 x10 x10 x10 25000 x1 x1 x1 x10 x10 x10 30000 x1 x1 x1 x10 x10 x10
Note 3 digit means three decimal places10-3
and 2 digit means two decimal places10-2 and 1 digit means 1
decimal places10-1
Note x1 means integer1 and x10 means integer10.
Note - means out of setting range.
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EMU3-DP1-C Vertical axis Primary current setting value Horizontal axis Primary voltage setting value, Phase wire system setting value.
Phase
wire
system
1P2W 1P3W 3P3W
V
A
63.5 100 110 120 173 190 208 220 240 254 380 415 440 110 110 173 190 208 220 380 415 440
60 3digit 3digit 3digit 3digit 3digit 3digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 3digit 3digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
125 3digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
Note 3 digit means three decimal places10-3 and 2 digit means two decimal places10-2
.
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EMU4-BD1-MB, EMU4-HD1-MB Vertical axis Primary current setting value Horizontal axis Primary voltage setting value, Phase wire system setting value.
Phase
Wire
system
1P2W 1P3W 3P3W
V A
110 220 440 690 1100 2200 3300 6600 110 110 220 440 690 1100 2200 3300 6600
5 3digit 3digit 3digit 3digit 3digit 3digit 2digit 2digit 3digit 3digit 3digit 3digit 3digit 3digit 2digit 2digit 2digit
6 3digit 3digit 3digit 3digit 3digit 2digit 2digit 2digit 3digit 3digit 3digit 3digit 3digit 3digit 2digit 2digit 2digit
7.5 3digit 3digit 3digit 3digit 3digit 2digit 2digit 2digit 3digit 3digit 3digit 3digit 3digit 2digit 2digit 2digit 2digit
8 3digit 3digit 3digit 3digit 3digit 2digit 2digit 2digit 3digit 3digit 3digit 3digit 3digit 2digit 2digit 2digit 2digit
10 3digit 3digit 3digit 3digit 3digit 2digit 2digit 2digit 3digit 3digit 3digit 3digit 3digit 2digit 2digit 2digit 2digit
12 3digit 3digit 3digit 3digit 2digit 2digit 2digit 2digit 3digit 3digit 3digit 3digit 2digit 2digit 2digit 2digit 1digit
15 3digit 3digit 3digit 3digit 2digit 2digit 2digit 2digit 3digit 3digit 3digit 3digit 2digit 2digit 2digit 2digit 1digit
20 3digit 3digit 3digit 2digit 2digit 2digit 2digit 1digit 3digit 3digit 3digit 2digit 2digit 2digit 2digit 2digit 1digit
25 3digit 3digit 3digit 2digit 2digit 2digit 2digit 1digit 3digit 3digit 3digit 2digit 2digit 2digit 2digit 1digit 1digit
30 3digit 3digit 2digit 2digit 2digit 2digit 2digit 1digit 3digit 3digit 3digit 2digit 2digit 2digit 2digit 1digit 1digit
40 3digit 3digit 2digit 2digit 2digit 2digit 1digit 1digit 3digit 3digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit
50 3digit 3digit 2digit 2digit 2digit 2digit 1digit 1digit 3digit 3digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit
60 3digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 2digit 3digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit
75 3digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit
80 3digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit
100 3digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit
120 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1
150 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1
200 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit x1
250 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1 x1
300 2digit 2digit 1digit 1digit 1digit 1digit 1digit x1 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1 x1
400 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1
500 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1
600 2digit 1digit 1digit 1digit 1digit x1 x1 x1 1digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1
750 2digit 1digit 1digit 1digit 1digit x1 x1 x1 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1
800 2digit 1digit 1digit 1digit 1digit x1 x1 x1 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1
1000 2digit 1digit 1digit 1digit 1digit x1 x1 x1 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1
1200 1digit 1digit 1digit 1digit x1 x1 x1 x1 1digit 1digit 1digit 1digit x1 x1 x1 x1 x10
1500 1digit 1digit 1digit 1digit x1 x1 x1 x1 1digit 1digit 1digit 1digit x1 x1 x1 x1 x10
1600 1digit 1digit 1digit 1digit x1 x1 x1 x1 1digit 1digit 1digit x1 x1 x1 x1 x1 x10
2000 1digit 1digit 1digit x1 x1 x1 x1 x10 1digit 1digit 1digit x1 x1 x1 x1 x1 x10
2500 1digit 1digit 1digit x1 x1 x1 x1 x10 1digit 1digit 1digit x1 x1 x1 x1 x10 x10
3000 1digit 1digit x1 x1 x1 x1 x1 x10 1digit 1digit 1digit x1 x1 x1 x1 x10 x10
4000 1digit 1digit x1 x1 x1 x1 x10 x10 1digit 1digit x1 x1 x1 x1 x10 x10 x10
5000 1digit 1digit x1 x1 x1 x1 x10 x10 1digit 1digit x1 x1 x1 x1 x10 x10 x10
6000 1digit x1 x1 x1 x1 x10 x10 x10 x1 1digit x1 x1 x1 x1 x10 x10 x10
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Phase
Wire
system
3P4W
V
A
63.5
110
100
173
105
182
110
190
115
199
120
208
127
220
200
346
220
380
230
400
240
415
242
420
250
430
254
440
265
460
277
480
5 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit
6 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit
7.5 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit
8 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit
10 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit
12 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit
15 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 2digit
20 3digit 3digit 3digit 3digit 3digit 3digit 3digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
25 3digit 3digit 3digit 3digit 3digit 3digit 3digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
30 3digit 3digit 3digit 3digit 3digit 3digit 3digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
40 3digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
50 3digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
60 3digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
75 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
80 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
100 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
120 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
150 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 1digit
200 2digit 2digit 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
250 2digit 2digit 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
300 2digit 2digit 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
400 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
500 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
600 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
750 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
800 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
1000 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
1200 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
1500 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1
1600 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1
2000 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1
2500 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1
3000 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1
4000 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1
5000 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1
6000 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1
Note Phase wire system : 3P4W is EMU4-HD1-MB only.
Note 3 digit means three decimal places10-3 and 2 digit means two decimal places10-2
and 1 digit means 1
decimal places10-1
Note x1 means integer1 and x10 means integer10.
Note Reply error of out of range of channel according upper table.
(74/127) LEN160305A
EMU4-BM1-MB, EMU4-HM1-MB, EMU4-A2, EMU4-VA2 Vertical axis Primary current setting value Horizontal axis Primary voltage setting value, Phase wire system setting value.
Phase
Wire
system
1P2W 1P3W
V
A
110 220 440 690 1100 2200 3300 6600 11000 13200 13800 15000 16500 22000 24000 33000 66000 77000 110000 110 220
5 3digit 3digit 3digit 3digit 3digit 3digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 3digit 3digit
6 3digit 3digit 3digit 3digit 3digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 3digit 3digit
7.5 3digit 3digit 3digit 3digit 3digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 3digit 3digit
8 3digit 3digit 3digit 3digit 3digit 2digit 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 3digit 3digit
10 3digit 3digit 3digit 3digit 3digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 3digit 3digit
12 3digit 3digit 3digit 3digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1 3digit 3digit
15 3digit 3digit 3digit 3digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1 3digit 3digit
20 3digit 3digit 3digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 3digit 3digit
25 3digit 3digit 3digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 3digit 3digit
30 3digit 3digit 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 3digit 2digit
40 3digit 3digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 3digit 2digit
50 3digit 3digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 3digit 2digit
60 3digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 2digit 2digit
75 3digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 2digit 2digit
80 3digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 2digit 2digit
100 3digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 2digit 2digit
120 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x10 2digit 2digit
150 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x10 2digit 2digit
200 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10 2digit 2digit
250 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10 2digit 2digit
300 2digit 2digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10 2digit 1digit
400 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10 x10 2digit 1digit
500 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10 x10 x10 2digit 1digit
600 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 1digit 1digit
750 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 1digit 1digit
800 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 1digit 1digit
1000 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 1digit 1digit
1200 1digit 1digit 1digit 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x100 1digit 1digit
1500 1digit 1digit 1digit 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x100 1digit 1digit
1600 1digit 1digit 1digit 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x100 x100 1digit 1digit
2000 1digit 1digit 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x100 x100 x100 1digit 1digit
2500 1digit 1digit 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x100 x100 x100 1digit 1digit
3000 1digit 1digit x1 x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x100 x100 x100 1digit x1
4000 1digit 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x100 x100 x100 x100 1digit x1
5000 1digit 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x100 x100 x100 x100 x100 1digit x1
6000 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x1 x1
7500 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x1 x1
8000 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x1 x1
10000 1digit x1 x1 x1 x1 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100 x1 x1
12000 x1 x1 x1 x1 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100 x1 x1
20000 x1 x1 x1 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100 x1 x1
25000 x1 x1 x1 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100 x1 x1
30000 x1 x1 x10 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100 x1 x10
(75/127) LEN160305A
Phase Wire
system
3P3W
V
A
110 220 440 690 1100 2200 3300 6600 11000 13200 13800 15000 16500 22000 24000 33000 66000 77000 110000
5 3digit 3digit 3digit 3digit 3digit 2digit 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
6 3digit 3digit 3digit 3digit 3digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
7.5 3digit 3digit 3digit 3digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1
8 3digit 3digit 3digit 3digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1
10 3digit 3digit 3digit 3digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1
12 3digit 3digit 3digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1
15 3digit 3digit 3digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1
20 3digit 3digit 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1
25 3digit 3digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1
30 3digit 3digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1
40 3digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1
50 3digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1
60 3digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x1
75 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x10
80 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x10
100 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x10 x10
120 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10
150 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10
200 2digit 2digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10
250 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10 x10
300 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10 x10 x10
400 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10 x10 x10 x10
500 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10
600 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10
750 1digit 1digit 1digit 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x100
800 1digit 1digit 1digit 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x100
1000 1digit 1digit 1digit 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x100 x100
1200 1digit 1digit 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x100 x100 x100
1500 1digit 1digit 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x100 x100 x100
1600 1digit 1digit x1 x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x100 x100 x100
2000 1digit 1digit x1 x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x100 x100 x100
2500 1digit 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x100 x100 x100 x100
3000 1digit 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x100 x100 x100 x100 x100
4000 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100
5000 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100
6000 1digit x1 x1 x1 x1 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100
7500 x1 x1 x1 x1 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100
8000 x1 x1 x1 x1 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100
10000 x1 x1 x1 x1 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100
12000 x1 x1 x1 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100
20000 x1 x1 x10 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100
25000 x1 x1 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100
30000 x1 x1 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100
(76/127) LEN160305A
Phase
Wire
system
3P4W
V A
63.5 110
100 173
105 182
110 190
115 199
120 208
127 220
200 346
220 380
230 400
240 415
242 420
250 430
254 440
265 460
277 480
5 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit
6 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit
7.5 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit
8 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit
10 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit
12 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit
15 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 3digit 2digit
20 3digit 3digit 3digit 3digit 3digit 3digit 3digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
25 3digit 3digit 3digit 3digit 3digit 3digit 3digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
30 3digit 3digit 3digit 3digit 3digit 3digit 3digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
40 3digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
50 3digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
60 3digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
75 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
80 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
100 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
120 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
150 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 1digit
200 2digit 2digit 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
250 2digit 2digit 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
300 2digit 2digit 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
400 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
500 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
600 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
750 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
800 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
1000 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
1200 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
1500 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1
1600 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1
2000 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1
2500 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1
3000 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1
4000 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1
5000 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1
6000 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1
7500 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1
8000 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1
10000 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1
12000 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1
20000 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10
25000 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10
30000 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10
Note Phase wire system : 3P4W is EMU4-HM1-MB, EMU4-A2, EMU4-VA2 only.
Note 3 digit means three decimal places10-3 and 2 digit means two decimal places10-2
and 1 digit means 1
decimal places10-1
Note x1 means integer1 and x10 means integer10.
Note Reply error of out of range of channel according upper table.
(77/127) LEN160305A
(2) Current and harmonics current data
EMU2-*-C and EMU3-DP1-C
Primary current(A)
EMU2--C EMU3-DP1-C
5 2digit 6 2digit 7.5 2digit 8 2digit 10 2digit 12 2digit 15 2digit 20 2digit 25 2digit 30 2digit 40 1digit 50 1digit 60 1digit 1digit 75 1digit 80 1digit 100 1digit 120 1digit 125 1digit 150 1digit 200 1digit 250 1digit 300 1digit 400 x1 500 x1 600 x1 750 x1 800 x1 1000 x1 1200 x1 1500 x1 1600 x1 2000 x1 2500 x1 3000 x1 4000 x10 5000 x10 6000 x10 7500 x10 8000 x10 10000 x10 12000 x10 20000 x10 25000 x10 30000 x10
Note 3 digit means three decimal places10-3 and 2 digit means two decimal places10-2
and 1 digit means 1
decimal places10-1
Note x1 means integer1 and x10 means integer10.
Note - means out of setting range.
(78/127) LEN160305A
EMU4-BD1-MB, EMU4-HD1-MB, EMU4-BM1-MB, EMU4-HM1-MB, EMU4-A2, EMU4-VA2
Primary current
EMU4-BD1-MB EMU4-HD1-MB EMU4-BM1-MB EMU4-HM1-MB
EMU4-A2 EMU4-VA2
Less than 40A Decimal 3 digit 40A to 400A Decimal 2 digit 400A to 4000A Decimal 2 digit More than 4000A Integer
(79/127) LEN160305A
(3) Voltage and harmonics voltage data
EMU2-*-C and EMU3-DP1-C
Phase wire
system
Primary voltage(V)
EMU2-HM1-C
EMU2-RD1-C EMU2-RD3-C EMU2-RD5-C EMU2-RD7-C
EMU2-RD2-C-4W EMU2-RD4-C-4W EMU3-DP1-C
63.5 1digit 1digit 1digit 100 1digit 110 1digit 120 1digit 173 1digit 190 1digit 208 1digit 220 1digit 1digit 1digit 240 1digit 254 1digit 380 1digit 415 1digit
1P2W 440 x1 x1 x1 1P3W 690 x1 3P3W 1100 x1 2200 x1 3300 x10 6600 x10 11000 x10 13200 x10 13800 x10 15000 x10 16500 x10 22000 x10 24000 x10 33000 x10 66000 x10 77000 x10 110000 x10 63.5/110 1digit 110/190 1digit 3P4W 120/208 1digit 220/380 1digit 240/415 1digit 254/440 x1
Note x1 means integer1 and x10 means integer10.
(80/127) LEN160305A
EMU4-BD1-MB, EMU4-HD1-MB
Primary voltage (Note1)
EMU4-BD1-MB EMU4-HD1-MB
Less than 300V Decimal 1 digit More than 300V Intenger1
Note1: Primary voltage is phase voltage when phase wire system is 3P4W.
EMU4-BM1-MB, EMU4-HM1-MB, EMU4-A2, EMU4-VA2
Primary voltage (Note1)
EMU4-BM1-MB EMU4-HM1-MB
EMU4-A2 EMU4-VA2
Less than 300V Decimal 1 digit 300V to 3000V Intenger1 More than 3000V Intenger10
Note1: Primary voltage is phase voltage when phase wire system is 3P4W.
(81/127) LEN160305A
(4) Electric energy, reactive energy and electric energy conversion
EMU2-*-C
Phase wire
system
1P2W 1P3W 3P3W
V A
110 220 440 3300 6600 110 110
220 440 3300 6600 11000 22000 33000
5 2digit 2digit 2digit 1digit 1digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit x1 x1 6 2digit 2digit 2digit 1digit 1digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit x1 x1
7.5 2digit 2digit 2digit 1digit 1digit 2digit 2digit 2digit 2digit 1digit 1digit x1 x1 x1 8 2digit 2digit 2digit 1digit 1digit 2digit 2digit 2digit 2digit 1digit 1digit x1 x1 x1 10 2digit 2digit 2digit 1digit 1digit 2digit 2digit 2digit 2digit 1digit 1digit x1 x1 x1
12 2digit 2digit 2digit 1digit 1digit 2digit 2digit 2digit 2digit 1digit x1 x1 x1 x1 15 2digit 2digit 2digit 1digit 1digit 2digit 2digit 2digit 2digit 1digit x1 x1 x1 x1
20 2digit 2digit 2digit 1digit x1 2digit 2digit 2digit 1digit 1digit x1 x1 x1 x1
25 2digit 2digit 2digit 1digit x1 2digit 2digit 2digit 1digit x1 x1 x1 x1 x10
30 2digit 2digit 1digit 1digit x1 2digit 2digit 2digit 1digit x1 x1 x1 x1 x10
40 2digit 2digit 1digit x1 x1 2digit 2digit 1digit 1digit x1 x1 x1 x10 x10 50 2digit 2digit 1digit x1 x1 2digit 2digit 1digit 1digit x1 x1 x1 x10 x10
60 2digit 1digit 1digit x1 x1 1digit 2digit 1digit 1digit x1 x1 x1 x10 x10
75 2digit 1digit 1digit x1 x1 1digit 1digit 1digit 1digit x1 x1 x10 x10 x10 80 2digit 1digit 1digit x1 x1 1digit 1digit 1digit 1digit x1 x1 x10 x10 x10 100 2digit 1digit 1digit x1 x1 1digit 1digit 1digit 1digit x1 x1 x10 x10 x10
120 1digit 1digit 1digit x1 x1 1digit 1digit 1digit 1digit x1 x10 x10 x10 x10 150 1digit 1digit 1digit x1 x1 1digit 1digit 1digit 1digit x1 x10 x10 x10 x10
200 1digit 1digit 1digit x1 x10 1digit 1digit 1digit x1 x1 x10 x10 x10 x10
250 1digit 1digit 1digit x1 x10 1digit 1digit 1digit x1 x10 x10 x10 x10 x100
300 1digit 1digit x1 x1 x10 1digit 1digit 1digit x1 x10 x10 x10 x10 x100
400 1digit 1digit x1 x10 x10 1digit 1digit x1 x1 x10 x10 x10 x100 x100 500 1digit 1digit x1 x10 x10 1digit 1digit x1 x1 x10 x10 x10 x100 x100
600 1digit x1 x1 x10 x10 x1 1digit x1 x1 x10 x10 x10 x100 x100
750 1digit x1 x1 x10 x10 x1 x1 x1 x1 x10 x10 x100 x100 x100 800 1digit x1 x1 x10 x10 x1 x1 x1 x1 x10 x10 x100 x100 x100 1000 1digit x1 x1 x10 x10 x1 x1 x1 x1 x10 x10 x100 x100 x100
1200 x1 x1 x1 x10 x10 x1 x1 x1 x1 x10 x100 x100 x100 x100 1500 x1 x1 x1 x10 x10 x1 x1 x1 x1 x10 x100 x100 x100 x100
1600 x1 x1 x1 x10 x10 x1 x1 x1 x10 x10 x100 x100 x100 x100
2000 x1 x1 x1 x10 x100 x1 x1 x1 x10 x10 x100 x100 x100 x100
2500 x1 x1 x1 x10 x100 x1 x1 x1 x10 x100 x100 x100 x100 x1000
3000 x1 x1 x10 x10 x100 x1 x1 x1 x10 x100 x100 x100 x100
4000 x1 x1 x10 x100 x100 x1 x1 x10 x10 x100 x100 x100 x1000
5000 x1 x1 x10 x100 x100 x1 x1 x10 x10 x100 x100 x100
6000 x1 x10 x10 x100 x100 x10 x1 x10 x10 x100 x100 x100
7500 x1 x10 x10 x100 x100 x10 x10 x10 x10 x100 x100 x1000 8000 x1 x10 x10 x100 x100 x10 x10 x10 x10 x100 x100 x1000
10000 x1 x10 x10 x100 x100 x10 x10 x10 x10 x100 x100
12000 x10 x10 x10 x100 x100 x10 x10 x10 x10 x100 x1000
20000 x10 x10 x10 x100 x10 x10 x10 x100 x100
25000 x10 x10 x10 x100 x10 x10 x10 x100 x1000
30000 x10 x10 x100 x10 x10 x10 x100
(82/127) LEN160305A
Phase Wire
system
3P4W
V A
63.5 110
110 190
120 208
220 380
240 415
254 440
5 2digit 2digit 2digit 2digit 2digit 2digit 6 2digit 2digit 2digit 2digit 2digit 2digit 7.5 2digit 2digit 2digit 2digit 2digit 2digit 8 2digit 2digit 2digit 2digit 2digit 2digit 10 2digit 2digit 2digit 2digit 2digit 2digit 12 2digit 2digit 2digit 2digit 2digit 2digit 15 2digit 2digit 2digit 2digit 2digit 2digit
20 2digit 2digit 2digit 1digit 1digit 1digit 25 2digit 2digit 2digit 1digit 1digit 1digit 30 2digit 2digit 2digit 1digit 1digit 1digit
40 2digit 1digit 1digit 1digit 1digit 1digit 50 2digit 1digit 1digit 1digit 1digit 1digit 60 2digit 1digit 1digit 1digit 1digit 1digit
75 1digit 1digit 1digit 1digit 1digit 1digit 80 1digit 1digit 1digit 1digit 1digit 1digit 100 1digit 1digit 1digit 1digit 1digit 1digit 120 1digit 1digit 1digit 1digit 1digit 1digit 150 1digit 1digit 1digit 1digit 1digit 1digit
200 1digit 1digit 1digit x1 x1 x1 250 1digit 1digit 1digit x1 x1 x1 300 1digit 1digit 1digit x1 x1 x1
400 1digit x1 x1 x1 x1 x1 500 1digit x1 x1 x1 x1 x1 600 1digit x1 x1 x1 x1 x1
750 x1 x1 x1 x1 x1 x1 800 x1 x1 x1 x1 x1 x1 1000 x1 x1 x1 x1 x1 x1 1200 x1 x1 x1 x1 x1 x1 1500 x1 x1 x1 x1 x1 x1
1600 x1 x1 x1 x1 x1 x10
2000 x1 x1 x1 x10 x10 x10 2500 x1 x1 x1 x10 x10 x10 3000 x1 x1 x1 x10 x10 x10
4000 x1 x10 x10 x10 x10 x10 5000 x1 x10 x10 x10 x10 x10 6000 x1 x10 x10 x10 x10 x10
7500 x10 x10 x10 x10 x10 x10 8000 x10 x10 x10 x10 x10 x10 10000 x10 x10 x10 x10 x10 x10 12000 x10 x10 x10 x10 x10 x10
20000 x10 x10 x10 x100 x100 x100 25000 x10 x10 x10 x100 x100 x100 30000 x10 x10 x10 x100 x100 x100
Note 2 digit means two decimal places10-2 and 1 digit means 1 decimal places10-1
, x1 means integer 1.
Note x1 means integer1 and x10 means integer10.
Note - means out of setting range.
(83/127) LEN160305A
EMU3-DP1-C
Phase
wire
system
1P2W 1P3W 3P3W
V
A
63.5 100 110 120 173 190 208 220 240 254 380 415 440 110 110 173 190 208 220 380 415 440
60 2digit 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
125 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
Note 2 digit means two decimal places10-2 and 1 digit means 1 decimal places10-1
, x1 means integer 1.
(84/127) LEN160305A
EMU4-BD1-MB, EMU4-HD1-MB
Phase
wire
system
1P2W 1P3W 3P3W
V
A
110 220 440 690 1100 2200 3300 6600 110 110 220 440 690 1100 2200 3300 6600
5 2digit 2digit 2digit 2digit 2digit 2digit 1digit 1digit 2digit 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit
6 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 2digit 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit
7.5 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit
8 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit
10 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit
12 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1
15 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1
20 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit x1
25 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1 x1
30 2digit 2digit 1digit 1digit 1digit 1digit 1digit x1 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1 x1
40 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1
50 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1
60 2digit 1digit 1digit 1digit 1digit x1 x1 x1 1digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1
75 2digit 1digit 1digit 1digit 1digit x1 x1 x1 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1
80 2digit 1digit 1digit 1digit 1digit x1 x1 x1 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1
100 2digit 1digit 1digit 1digit 1digit x1 x1 x1 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1
120 1digit 1digit 1digit 1digit x1 x1 x1 x1 1digit 1digit 1digit 1digit x1 x1 x1 x1 x10
150 1digit 1digit 1digit 1digit x1 x1 x1 x1 1digit 1digit 1digit 1digit x1 x1 x1 x1 x10
200 1digit 1digit 1digit x1 x1 x1 x1 x10 1digit 1digit 1digit x1 x1 x1 x1 x1 x10
250 1digit 1digit 1digit x1 x1 x1 x1 x10 1digit 1digit 1digit x1 x1 x1 x1 x10 x10
300 1digit 1digit x1 x1 x1 x1 x1 x10 1digit 1digit 1digit x1 x1 x1 x1 x10 x10
400 1digit 1digit x1 x1 x1 x1 x10 x10 1digit 1digit x1 x1 x1 x1 x10 x10 x10
500 1digit 1digit x1 x1 x1 x1 x10 x10 1digit 1digit x1 x1 x1 x1 x10 x10 x10
600 1digit x1 x1 x1 x1 x10 x10 x10 x1 1digit x1 x1 x1 x1 x10 x10 x10
750 1digit x1 x1 x1 x1 x10 x10 x10 x1 x1 x1 x1 x1 x10 x10 x10 x10
800 1digit x1 x1 x1 x1 x10 x10 x10 x1 x1 x1 x1 x1 x10 x10 x10 x10
1000 1digit x1 x1 x1 x1 x10 x10 x10 x1 x1 x1 x1 x1 x10 x10 x10 x10
1200 x1 x1 x1 x1 x10 x10 x10 x10 x1 x1 x1 x1 x10 x10 x10 x10 x100
1500 x1 x1 x1 x1 x10 x10 x10 x10 x1 x1 x1 x1 x10 x10 x10 x10 x100
1600 x1 x1 x1 x1 x10 x10 x10 x10 x1 x1 x1 x10 x10 x10 x10 x10 x100
2000 x1 x1 x1 x10 x10 x10 x10 x100 x1 x1 x1 x10 x10 x10 x10 x10 x100
2500 x1 x1 x1 x10 x10 x10 x10 x100 x1 x1 x1 x10 x10 x10 x10 x100 x100
3000 x1 x1 x10 x10 x10 x10 x10 x100 x1 x1 x1 x10 x10 x10 x10 x100 x100
4000 x1 x1 x10 x10 x10 x10 x100 x100 x1 x1 x10 x10 x10 x10 x100 x100 x100
5000 x1 x1 x10 x10 x10 x10 x100 x100 x1 x1 x10 x10 x10 x10 x100 x100 x100
6000 x1 x10 x10 x10 x10 x100 x100 x100 x10 x1 x10 x10 x10 x10 x100 x100 x100
(85/127) LEN160305A
Phase
wire
system
3P4W
V
A
63.5
110
100
173
105
182
110
190
115
199
120
208
127
220
200
346
220
380
230
400
240
415
242
420
250
430
254
440
265
460
277
480
5 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
6 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
7.5 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
8 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
10 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
12 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
15 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 1digit
20 2digit 2digit 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
25 2digit 2digit 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
30 2digit 2digit 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
40 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
50 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
60 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
75 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
80 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
100 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
120 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
150 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1
200 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1
250 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1
300 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1
400 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1
500 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1
600 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1
750 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1
800 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1
1000 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1
1200 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1
1500 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x10
1600 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10 x10
2000 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10
2500 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10
3000 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10
4000 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10
5000 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10
6000 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10
Note Phase wire system is only EMU4-HD1-MB.
Note 2 digit means two decimal places10-2 and 1 digit means 1 decimal places10-1
Note x1 means integer1 and x10 means integer10 and x100 means integer100.
(86/127) LEN160305A
EMU4-BM1-MB, EMU4-HM1-MB, EMU4-A2, EMU4-VA2
Phase
wire
system
1P2W 1P3W
V
A
110 220 440 690 1100 2200 3300 6600 11000 13200 13800 15000 16500 22000 24000 33000 66000 77000 110000 110 220
5 2digit 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 2digit 2digit
6 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 2digit 2digit
7.5 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 2digit 2digit
8 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 2digit 2digit
10 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 2digit 2digit
12 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x10 2digit 2digit
15 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x10 2digit 2digit
20 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10 2digit 2digit
25 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10 2digit 2digit
30 2digit 2digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10 2digit 1digit
40 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10 x10 2digit 1digit
50 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10 x10 x10 2digit 1digit
60 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 1digit 1digit
75 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 1digit 1digit
80 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 1digit 1digit
100 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 1digit 1digit
120 1digit 1digit 1digit 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x100 1digit 1digit
150 1digit 1digit 1digit 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x100 1digit 1digit
200 1digit 1digit 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x100 x100 x100 1digit 1digit
250 1digit 1digit 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x100 x100 x100 1digit 1digit
300 1digit 1digit x1 x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x100 x100 x100 1digit x1
400 1digit 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x100 x100 x100 x100 1digit x1
500 1digit 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x100 x100 x100 x100 x100 1digit x1
600 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x1 x1
750 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x1 x1
800 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x1 x1
1000 1digit x1 x1 x1 x1 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100 x1 x1
1200 x1 x1 x1 x1 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100 x1000 x1 x1
1500 x1 x1 x1 x1 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100 x1000 x1 x1
1600 x1 x1 x1 x1 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x100 x1000 x1000 x1 x1
2000 x1 x1 x1 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x100 x1000 x1000 x1000 x1 x1
2500 x1 x1 x1 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x100 x1000 x1000 x1000 x1 x1
3000 x1 x1 x10 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x100 x1000 x1000 x1000 x1 x10
4000 x1 x1 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x100 x1000 x1000 x1000 x1000 x1 x10
5000 x1 x1 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x1000 x1000 x1000 x1000 x1000 x1 x10
6000 x1 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x1000 x1000 x1000 x1000 x1000 x1000 x10 x10
7500 x1 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x10 x10
8000 x1 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x10 x10
10000 x1 x10 x10 x10 x10 x100 x100 x100 x100 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x10 x10
12000 x10 x10 x10 x10 x100 x100 x100 x100 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x1000 *1 x10 x10
20000 x10 x10 x10 x100 x100 x100 x100 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x1000 *1 *1 *1 x10 x10
25000 x10 x10 x10 x100 x100 x100 x100 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x1000 *1 *1 *1 x10 x10
30000 x10 x10 x100 x100 x100 x100 x100 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x1000 *1 *1 *1 x10 x100
(*1): Electric energy is x1000, Electric energy conversion is x10000.
(87/127) LEN160305A
Phase
wire
system
3P3W
V
A
110 220 440 690 1100 2200 3300 6600 11000 13200 13800 15000 16500 22000 24000 33000 66000 77000 110000
5 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1
6 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x1
7.5 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x10 8 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x10
10 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x10 x10
12 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10 15 2digit 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10
20 2digit 2digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10
25 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10 x10
30 2digit 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10 x10 x10
40 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10 x10 x10 x10
50 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10
60 2digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10
75 1digit 1digit 1digit 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x100
80 1digit 1digit 1digit 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x100
100 1digit 1digit 1digit 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x100 x100
120 1digit 1digit 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x100 x100 x100
150 1digit 1digit 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x100 x100 x100
200 1digit 1digit x1 x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x100 x100 x100
250 1digit 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x100 x100 x100 x100
300 1digit 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x100 x100 x100 x100 x100
400 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100
500 1digit x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100
600 1digit x1 x1 x1 x1 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100
750 x1 x1 x1 x1 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100 x1000 800 x1 x1 x1 x1 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x100 x100 x1000 1000 x1 x1 x1 x1 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x100 x1000 x1000 1200 x1 x1 x1 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x100 x1000 x1000 x1000 1500 x1 x1 x1 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x100 x1000 x1000 x1000 1600 x1 x1 x10 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x100 x1000 x1000 x1000 2000 x1 x1 x10 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x100 x1000 x1000 x1000 2500 x1 x1 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x100 x1000 x1000 x1000 x1000 3000 x1 x1 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x1000 x1000 x1000 x1000 x1000 4000 x1 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x1000 x1000 x1000 x1000 x1000 x1000 5000 x1 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x1000 6000 x1 x10 x10 x10 x10 x100 x100 x100 x100 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x1000 7500 x10 x10 x10 x10 x100 x100 x100 x100 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x1000 *1 8000 x10 x10 x10 x10 x100 x100 x100 x100 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x1000 *1 10000 x10 x10 x10 x10 x100 x100 x100 x100 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x1000 *1 *1 12000 x10 x10 x10 x100 x100 x100 x100 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x1000 *1 *1 *1 20000 x10 x10 x100 x100 x100 x100 x100 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x1000 *1 *1 *1 25000 x10 x10 x100 x100 x100 x100 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x1000 *1 *1 *1 *1 30000 x10 x10 x100 x100 x100 x100 x1000 x1000 x1000 x1000 x1000 x1000 x1000 x1000 *1 *1 *1 *1 *1
(*1): Electric energy is x1000, Electric energy conversion is x10000.
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Phase
wire
system
3P4W
V
A
63.5
110
100
173
105
182
110
190
115
199
120
208
127
220
200
346
220
380
230
400
240
415
242
420
250
430
254
440
265
460
277
480
5 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
6 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
7.5 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
8 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
10 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
12 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit
15 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 2digit 1digit
20 2digit 2digit 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
25 2digit 2digit 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
30 2digit 2digit 2digit 2digit 2digit 2digit 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
40 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
50 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
60 2digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
75 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
80 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
100 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
120 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit
150 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1
200 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1
250 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1
300 1digit 1digit 1digit 1digit 1digit 1digit 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1
400 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1
500 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1
600 1digit x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1
750 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1
800 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1
1000 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1
1200 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1
1500 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x10
1600 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10 x10
2000 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10
2500 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10
3000 x1 x1 x1 x1 x1 x1 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10
4000 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10
5000 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10
6000 x1 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10
7500 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10
8000 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10
10000 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10
12000 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10 x10
20000 x10 x10 x10 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x100
25000 x10 x10 x10 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x100
30000 x10 x10 x10 x10 x10 x10 x10 x100 x100 x100 x100 x100 x100 x100 x100 x100
Note Phase wire system is only EMU4-HM1-MB, EMU4-A2 and EMU4-VA2.
Note 2 digit means two decimal places10-2 and 1 digit means 1 decimal places10-1
Note x1 means integer1 and x10 means integer10 and x100 means integer100 and x1000 means integer1000
and x10000 means integer10000.
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(5) Pulse conversion data
Pulse converted rate
EMU4-HM1-MB EMU4-PX4
0.001 or more Less than 0.01 Decimal 3 digit 0.01 or more Less than0.1 Decimal 2 digit 0.1 or more Less than 1 Decimal 1 digit 1 or more Less than 10 Intenger1 10 or more Less than 100 Intenger10 100 or more Less than 1000 Intenger100 1000 or more Less than 10000 Intenger1000
(6) Leak current data (EMU3-DP1-C)
Data is integer 1.
EMU4-LG1-MB
Mode EMU4-LG1-MB
Low SENS Intenger1 High SENS Decimal 2 digit
(7) Over current (EMU3-DP1-C only) Data is integer 1.
(8) Number of times exceeding the limit
Number of times exceeding the Limit EMU4-AX4 Integer 1 Integer1
Integer 10 Integer10 Integer 100 Integer100
Integer 1000 Integer1000
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Effective Range and Multiplicand
Element Condition Multiplying factor
Voltage Harmonics voltage Primary voltage (Note1)
0V300V less than 10-1 300V or more 1
Current Primary current
0A40A less than 10-2 Current demand 40A400A less than 10-1 Harmonics current 400A4000A less than 1
Active power Active power demand Reactive power Apparent power
Full load power (Note2)
0kW12kW less than 10-3 12kW120kW less than 10-2 120kW1200kW less than 10-1 1200kW12000kW less than 1 12000kW120000kW less than 101 120000kW or more 102
Active energy Reactive energy Full load power (Note2)
0kW12kW less than 10-2 12kW120kW less than 10-1 120kW1200kW less than 1 1200kW12000kW less than 10 12000kW120000kW less than 102 120000kW or more 103
Active energy (extended) Reactive energy (extended)
Full load power (Note2)
0kW12kW less than 10-5 12kW120kW less than 10-4 120kW1200kW less than 10-3 1200kW12000kW less than 10-2 12000kW120000kW less than 10-1 120000kW or more 1
Frequency 10-1 Power factor 10-1 Harmonics distortion 10-1
Note1: At 3P4W, primary voltage is phase to neutral voltage. Note2: How to calculate Full load power is the following.
Full load power [kW] (Primary voltage)(Primary current) 1000
1 at 1P2W 2 at 1P3W (Primary voltage is 110V) 3 at 3P3W 3 at 3P4W (Primary voltage is phase to neutral voltage)
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Effective Range and Multiplicand
Element Condition Multiplying factor
Voltage Harmonics voltage Primary voltage (Note1)
0V300V less than 10-1 300V3000V less than 1 3000V or more 10
Current Current demand Harmonics current
Primary current
0A40A less than 10-2 40A400A less than 10-1 400A4000A less than 1 4000A or more 10
Active power Active power demand Reactive power Apparent power
Full load power (Note2)
0kW12kW less than 10-3 12kW120kW less than 10-2 120kW1200kW less than 10-1 1200kW12000kW less than 1 12000kW120000kW less than 101 120000kW or more 102
Active energy Reactive energy Full load power (Note2)
0kW12kW less than 10-2 12kW120kW less than 10-1 120kW1200kW less than 1 1200kW12000kW less than 10 12000kW120000kW less than 102 120000kW or more 103
Active energy (extended) Reactive energy (extended)
Full load power (Note2)
0kW12kW less than 10-5 12kW120kW less than 10-4 120kW1200kW less than 10-3 1200kW12000kW less than 10-2 12000kW120000kW less than 10-1 120000kW or more 1
Frequency 10-1 Power factor 10-1 Harmonics distortion 10-1
Note1: At 3P4W, primary voltage is phase to neutral voltage. Note2: How to calculate Full load power is the following.
Full load power [kW] (Primary voltage)(Primary current) 1000
1 at 1P2W 2 at 1P3W (Primary voltage is 110V) 3 at 3P3W 3 at 3P4W (Primary voltage is phase to neutral voltage)
Effective Range and Multiplicand
Element Condition Multiplying factor
Leak current Low SENS 1 High SENS 10-2
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7.2.5 About Error Occurrence
When the command and related data transmitted to Measuring Unit is improper or Measuring Unit is in H/W error, RX(n+1)A (Error status flag) becomes 1(ON), the error code shown in Table 7.11 is returned as reply data. Table 7.5 Error Code
Error Description Error Code (Hex.) EMU2--C EMU3-DP1-C EMU4-*
Undefined command or Illegal command or packet length
01H
Frequency, voltage harmonic or current harmonic are out of range (Measuring frequency and harmonics needs a voltage input.)
17H
Undefined command or Illegal command or packet length 40H
Invalid group number 41H
Invalid channel number 42H
Measuring Unit is in set-up mode 43H
44H
Invalid unit number 45H
Invalid data for set-up 51H
H/W error C0H
Invalid channel number C1H
Invalid data for set-up C2H
If an error occurs, the error code is written into the RWrn as shown in the figure below, and RX(n+1)A (error status flag) is turned on (error occurrence) and RX(n+1)B (remote READY) is turned off (normal communication stop). For the error resetting method, refer to 6.3 Error Communication.
(1) At the command No. is in range
(2) At the command No. is out of range
Remote register RWrn
b15 b8 b7 b0
n Channel No. Group No.
n+1 00H 00H
n+2 00H Error code
n+3 00H 00H
Remote register RWrn b15 b8 b7 b0
n 00H Error code
n+1 00H 00H
n+2 00H 00H
n+3 00H 00H
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8. Abbreviations and Special Terms Abbreviations and special terms used in this manual are shown below:
Abbreviation and Special Terms Description
Master station Station which controls remote stations and local stations. One station is required for one system.
Local station Station with the CPU which can communicate with master station and other local stations.
Remote I/O station Remote station which deals with bit information only. Remote device station Remote station which deals with bit information and word information. Remote station General name for remote I/O station and remote device station.
Controlled by a master station. Intelligent device station Station that can perform transient transmission. RX Remote input RY Remote output RWw Remote resister (write area) RWr Remote resister (read area) Command Identification code allocated to items to be monitored or set.
Measuring Unit uses a special-purpose command that is transmitted to monitor each measurement value or set each parameter.
Demand value The demand value is an approximate average value during the demand time period. When it is set to 0, each demand present value becomes equivalent to the present value.
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9. Program Example This chapter provides example programs of two types. One is the program to monitor only active energy from a Measuring Unit. Another is the program to monitor the multi-items from two units of Measuring Unit. *1. Sample programs are for Q series programmable controller. *2. Sample programs are created by using SW8D5C-GPPW GX Developer. *3. The refresh set with the automatic refresh parameters and the refresh executed with the FROM/TO instructions cannot be performed simultaneously.
9.1 Program Example 1
9.1.1 Program Content
This section shows an example the program to monitor only active energy from a Measuring Unit whose station number is 1. This program example is assumed the system configuration in below and the I/O number of the master station is X/Y00 to X/Y 1F.
Power Unit
CPU CC-Link Master
Unit
Q series programmable controller Slot No.0
Terminating resistor
Terminating resistor
CC-Link dedicated cable
CC-Link Station number: 1 EMU4-HM1-MB
*1: Reading data Station number1:EMU4-HM1-MB Active energy (import)
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9.1.2 Parameter Settings
Parameter settings are set as following with GX Developer. (1) Network Parameter Settings and Auto Refresh Parameter Settings The following is shown CC-Link network parameter settings and auto refresh parameter settings.
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Setting Item Description Example for
settings Remarks
No.of boards in Module
Set the "No. of boards in module for which the network parameters are to be set.
1
Start I/O No Set the "Start I/O No." for the master station
0000 Set the same setting of Start XY in PC parameter setting
Type Set the station type. Master station Mode Set the CC-Link mode. Remote net
(Ver.1 mode) Remote net ver.2 mode and Remote net additional mode can be also used in case of the QJ61BT11N.
All connect count Set the total number of connected stations in the CC-Link system including reserved stations
1
Remote input (RX)
Set the remote input (RX) refresh device.
X100 Device name - Select from X, M, L, B, D, W, R or ZR. Device number - Within the range of the device points that the CPU has.
Remote output (RY)
Set the remote output (RY) refresh device.
Y100 Device name - Select from Y, M, L, B, T, C, ST, D, W, R or ZR. Device number - Within the range of the device points that the CPU has.
Remote register (RWr)
Set the remote register (RWr) refresh device.
W300 Device name - Select from M, L, B, D, W, R, or ZR. Device number - Within the range of the device points that the CPU has.
Remote register (RWw)
Set the remote register (RWw) refresh device.
W400 Device name - Select from M, L, B, T, C, ST, D, W, R, or ZR. Device number - Within the range of the device points that the CPU has.
Special relay (SB)
Set the link special relay (SB) refresh device.
SB0 Device name - Select from M, L, B, D, W, R, SB or ZR. Device number - Within the range of the device points that the CPU has.
Special register (SW)
Set the link special register (SW) refresh device.
SW0 Device name - Select from M, L, B, D, W, R, SW or ZR. Device number - Within the range of the device points that the CPU has.
Retry count Set the number of retries for "Retry count", when a communication error occurs.
1
Automatic reconnection station count
Set the number of modules that can return to system operation by a single link scan.
1
Standby master station No.
Set the station number for the standby master station
Blank Blank: No standby master station specified.
PLC down select Set the data link status for "PLC down select", when a master station programmable controller CPU error occurs
Stop
Scan mode setting
Set whether the link scan for the sequence scan is synchronous or asynchronous
Asynchronous
Delay information setting
Set for the link scan delay time. 0
50s
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(2) Operational Settings Operational settings are as follows.
(3) Station Information Settings Station information settings are as follows.
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(4) File Register Settings This program example uses file registers R (ZR). The procedures of file register settings are as follows. 1) Double-click PLC parameter. 2) Select PLC file. 3) Select Use the same file name as the program or Use the following file and set the each item. In details, refer to the manual for the CPU module used.
If you use the CPU module which doesnt have file registers (ex. Q00UJCPU), replace the file register (R) with other
device (ex. Data register (D) )
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9.1.3 Program example
(1) Example of Send Data Setting This program describes an example of setting commands which are sent to Measuring Unit to devices.
(i) Device Allocation The following table lists devices used above the example. Device No. Setting data Descriptions Note
D400 H8011 Send data for monitoring. (Group No. :H80, Unit No.:H1, Command No.: H1)
Group No. changes depending on the data which you want to monitor. Unit No. changes depending on the Measuring Unit. Unit No. is H0 when use
EMU2-HM1-C, EMU2-RD1-C, EMU3-DP1-C
Unit No. is H1 when use EMU4-BD1-MB, EMU4-HD1-MB, EMU4-BM1-MB, EMU4-HM1-MB, EMU4-LG1-MB
Unit No. is No. of input circuit (channel No.)when use EcoMonitorPro
multiple measuring, EMU4-A2,EMU4-VA2.
D401 H1 Send data for monitoring. (Channel No.: H01)
It changes depending on the data which you want to monitor.
D402 H0 Send data for monitoring. (H0 fixed.) D403 H0 Send data for monitoring. (H0 fixed.)
Note: Set the D400 to D403 same as that set device in (iii) Example of Normal Communication. Depending on the data that you want to monitor, the setting data vary.
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The following table lists the examples of setting data.
Command Descriptions Device No.
Setting data
Descriptions of setting data.
Data monitor Phase 1 current D400 H0111 Group No. :H01, Unit No.:H1, Command No.: H1 D401 H0021 Channel No.: H21 D402 H0000 H0 fixed. D403 H0000 H0 fixed.
Total active power D400 H0711 Group No. :H07, Unit No.:H1, Command No.: H1 D401 H0001 Channel No.: H01 D402 H0000 H0 fixed. D403 H0000 H0 fixed.
Data set Phase wiring (Set to 3P3W)
D400 HE012 Group No. :HE0, Unit No.:H1, Command No.: H2 D401 H0013 Index No.: H00, Channel No.: H13 D402 H0003 Low data D403 H0000 High data
For details, refer to 7.2.3.Details of Commands (2) Example of Initial After confirming if data link is normal or not, the initial process is performed only when the connection status is normal.
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(i) Device Allocation The following table lists devices used above the example.
Device No. Descriptions Note X0 This signal indicates whether the
module is normal of faulty. OFF: Module normal ON: Module error
Depending on the start I/O number of the master/local module, the devices No. vary.
X1 This signal indicates the data link status of the host station. OFF: Data link stopped ON: During data link
X0F This signal indicates whether the module is ready for operation. When the module becomes ready, this signal turns on. This signal turns off under either condition. An error has been detected in the switch setting of the module. Module error (Xn0) turns on.
X118 Remote input (RX) of HM1. Initial data processing request flag.
Depending on the setting of refresh device and the station number of Measuring Unit, the devices No. vary. (In details, refer to 7.1.1 Remote input RX)
X11A Remote input (RX) of HM1. Error status flag.
X11B Remote input (RX) of HM1. Remote READY.
Y118 Remote output (RY) of HM1. Initial data setting completion flag.
Depending on the setting of refresh device and the station number of Measuring Unit, the devices No. vary. (In details, refer to 7.1.2 Remote Output RY)
Y11A Remote output (RY) of HM1. Error reset request flag.
W300 to W303 Remote register (RWr) Receiving data.
Depending on the setting of refresh device and the station number of Measuring Unit, the devices No. vary. (In details, refer to 7.2 Remote Register (RWr, RWw))
SW80 to SW83 Data link status of each station. OFF: Normal ON: Error
Depending on the setting of refresh device, the devices No. vary.
M0 to M63 Data link status of each station. OFF: Normal ON: Error
Devices in a CPU module. (User selectable)
D500 to D503 Error code receiving data. Devices in a CPU module. (User selectable) About error code, refer to 7.2.4About Error Occurrence.
T10 Timer for error canceling wait. Devices in a CPU module. (User selectable)
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(3) Example of Normal Communication This program describes an example of monitoring of measurement values.
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(i) Device Allocation The following table lists devices used above the example.
Device No. Descriptions Note X10F Remote input (RX) of measuring unit.
Command completion reply flag. Depending on the setting of refresh device and the station number of HM1, the devices No. vary. (In details, refer to 7.1.1 Remote input RX) X11A Remote input (RX) of measuring unit.
Error status flag. X11B Remote input (RX) of HM1.
Remote READY. Y10F Remote output (RY) of Measuring Unit.
Command execution request flag. Depending on the setting of refresh device and the station number of HM1, the devices No. vary. (In details, refer to 7.1.2 Remote Output RY)
W300 to W303 Remote register (RWr) receiving data Depending on the setting of refresh device and the station number of HM1, the devices No. vary. (In details, refer to 7.2 Remote Register (RWr, RWw))
W400 to W403 Remote register (RWw) sending data.
D300 to D303 Reading device of receiving data Devices in a CPU module. (User selectable) The following table lists the description.
D300 Channel No. Group No D301 Multiplying factor D302 Low data D303 High data
D600 to D602 Checking device for match/mismatch of sending data and receiving data.
Devices in a CPU module. (User selectable)
M0 Data link status of station 1. Devices in a CPU module. (User selectable) Set the same device of data link status which set in (ii) Example of Initial.
M100 Command setting completion flag. Devices in a CPU module. (User selectable) M101 Transmitting completion flag. Devices in a CPU module. (User selectable) T11 Transmission starts time. Devices in a CPU module. (User selectable) T12 Time-out. Devices in a CPU module. (User selectable) R0 Receiving data (Index number) Devices in a CPU module. (User selectable)
The following table lists the description of index number.
Index number Multiplicand Remarks 03H x 103
Actual value = Numerical value Multiplicand
02H x 102 01H x 10 00H x FFH x 10-1 FEH x 10-2 FDH x 10-3 FCH x 10-4 FBH x 10-5
On the basis of the index number, multiply the numerical value by the multiplicand in the host side.
R1, R2 Receiving data (numerical value) Devices in a CPU module. (User selectable) Numerical value is 32-bit integer with a sign. However, the effective numerical value is 0999999(0H F423FH). Data changes 999998 999999 0 1 .
Note: In details of index number and numerical value, refer to 7.2.3Details of Commands.
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Depending on the sending data (D400 to D403), the receiving data (D300 to D303) vary. The following describes the
receiving data in case of example in (i) Example of Send Data Setting. Command Descriptions Receiving
data device No. Setting data Stored device No.
Data monitor Phase 1 current D300 Channel No., Group No.
-
D301 Index number. R0 D302, D303 Receiving data R1, R2
Total active power D300 Channel No., Group No.
-
D301 Index number. R0 D302, D303 Receiving data R1, R2
Index number Depending on the index number (R0), the multiplicand of the measuring data varies. The following table lists the description of index number.
Index number Multiplicand Remarks 02H x 102
Actual value = Numerical value Multiplicand
01H x10 00H x FHH x 10-1 FEH x 10-2 FDH x 10-3
On the basis of the index number, multiply the numerical value by the multiplicand in the host side. In details of index number and numerical value, refer to 7.2.3Details of Commands. Receiving data Numerical value is 32-bit integer with a sign. -21474836482147483647 (80000000H7FFFFFFFH)
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Command Descriptions Data Set Data set is the command that changes setting data of Measuring Unit.The following is an example of
modifying at a data set.
After setup is
completed, please not to setup
again
Set M200 after setting. After M200 turns on, please Confirm whether setting is done correctly in measuring unit.
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9.2 Program Example 2
9.2.1 Program Content
This section shows an example the program to monitor only active energy from a Measuring Unit whose station number is 1. This program example is assumed the system configuration in below and the I/O number of the master station is X/Y00 to X/Y 1F.
*1: Reading data Station number Model Input circuit number Reading data Station number 1 EMU4-HM1-MB Circuit 1 Phase 1 current, Phase 2 current, Phase 3 current
1-2 voltage, 2-3 voltage, 3-1 voltage Power factor, Total active power, Active energy(import)
EMU4-VA2 Circuit 2 Phase 1 current, Phase 2 current, Phase 3 current Power factor, Total active power, Active energy(import)
Circuit 3 Phase 1 current, Phase 2 current, Phase 3 current Total active power, Active energy(import)
Station number 2 EMU4-HM1-MB Circuit 1 Phase 1 current, Phase 2 current, Phase 3 current 1-2 voltage, 2-3 voltage, 3-1 voltage Power factor, Total active power, Active energy(import)
*1: Reading data are common in the circuit 1 to 7
EMU4-VA2 Circuit 2,3 EMU4-VA2 Circuit 4,5 EMU4-VA2 Circuit 6,7
Power Unit
CPU Unit
CC-Link Master
Unit
Q series programmable
Station number 1
Slot No.0
Terminating resistor
CC-Link dedicated cable
Measuring Unit
EMU4-HM1-MB + EMU4-VA21
Station number 2
Measuring Unit
EMU4-HM1-MB + EMU4-VA23
Terminating resistor
(108/127) LEN160305A
9.2.2 Parameter Settings
Parameter settings are set as following with GX Developer. (1) Network Parameter Settings and Auto Refresh Parameter Settings
The following is shown CC-Link network parameter settings and auto refresh parameter settings.
(109/127) LEN160305A
(2) Operational Settings
Operational settings are as follows.
(3) Station Information Settings
Station information settings are as follows.
(110/127) LEN160305A
(4)File Register Settings
This program example uses file registers (ZR). The procedures of file register settings are as follows. 1) Double-click PLC parameter. 2) Select PLC file. 3) Select Use the same file name as the program or Use the following file and set the each item. In details, refer to the manual for the CPU module used.
If you use the CPU module which doesnt have file registers (ex. Q00UJCPU), replace the file register (R) with other device (ex. Data register (D) )
(111/127) LEN160305A
9.2.3 Device Allocation
The following table lists devices used above the example. Items Descriptions Device No. Note
Input/Output signal of CC-Link Unit
Status of CC-Link master station X0 Device number is changed by the first input/output number of CC-Link unit
Status of data link of CC-Link master station X1 READY of CC-Link master station X0F
Remote input(RX) Remote input of Station1 (RX00 to RX1F) X100X11F Set X100 to remote input (RX)
refresh device. Remote input of Station2 (RX20 to RX3F) X120X13F
Remote output(RY) Remote output Station1 (RY00 to RY1F) Y100Y11F Set Y100 to remote output (RY)
refresh device. Remote output Station2 (RY20 to RY3F) Y120Y13F
Remote register(RWr)
Remote register Station1 (RWr0 to RWr3) W300W303 Set W300 to remote register (RWr) refresh device. Remote register Station2 (RWr4 to RWr7) W304W307
Remote register(RWw)
Remote register Station1 (RWw0 to RWw3) W400W403 Set W400 to remote register (RWw) refresh device. Remote register Station2 (RWw4 to RWw7) W404W407
Link special relay (SB)
Link special relay of master station (SB0 to SB01FF) SB0SB01FF Set SB0 to link special relay
(SB) refresh device. Link special register (SW)
Link special register of master station (SW0 to SW01FF)
SW0 SW01FF
Set SW0 to link special register (SW) refresh device.
Writing sending data Writing device of sending data of Station1 D300D303 Writing device of sending data of Station2 D304D307
Reading receiving data
Reading device of receiving data of Station1 D400D403 Reading device of receiving data of Station1 D404D407
Error code Error code of Station1 D500D503 Error code of Station2 D504D507
Checking device
Checking device for match/mismatch of sending data and receiving data of Station1 D600D602
Checking device for match/mismatch of sending data and receiving data of Station2 D604D606
Writing Unit No. Writing device of sending Unit No. data of Station2 D603
Writing receive data Writing device of receiving data of Station2 D608D613
Data link status Error status flag of Station1 M0
ON:Occuring data link error Error status flag of Station2 M1
Command setting
Completion flag of setting for command of Station1 M100
Completion flag of setting for command of Station2 M101
Transmitting completion
Completion flag of transmitting of Station1 M150 Completion flag of transmitting of Station2 M151
Waiting time of error clear
Waiting time for error clear of Station1 T0 Waiting time for error clear of Station2 T1
Time of start transmitting
Time of start transmitting of Station1 T50 Time of start transmitting of Station2 T51
Time out Time out of Station1 T100 Time out of Station2 T101
Select for receiving data
Index of select the Station Z0 Index of remote I/O for measuring unit Z2 Index of remote register Z3 Index of measuring items Z4 Index of storing receiving data Z5
(112/127) LEN160305A
Measuring module for Station1
Setting number of monitoring items and circuits, monitor setting data in each circuit in sample program of Station1. Please refer to sample program of Station1 when the data is different from each circuit.
Items Descriptions Device No. Setup Note Number of monitoring items
Please setup number of monitoring items by measuring unit D0 19
Number of completed monitoring items
Number of completed monitoring by measuring unit D1
Sending data
Circuit 1 Current1 Group,Module,Command D10 H111
Setup the command of monitoring items. Please refer to 7.2.2 Details of Command.
Channel D11 H21
Electric Energy
Group,Module,Command D26 H8011 Channel D27 H1
Circuit 2 Current1 Group,Module,Command D28 H121 Channel D29 H21
Electric Energy
Group,Module,Command D38 H8021 Channel D39 H1
Circuit 3 Current1 Group,Module,Command D40 H131 Channel D41 H21
Electric Energy
Group,Module,Command D46 H8031 Channel D47 H1
Receiving data
Circuit 1 Current1
Multiplying factor R0
Please refer to 7.2.3 Data Composition for Multiplying factor and Numeric data.
Data R1R2
Electric Energy
Multiplying factor R24 Data R25R26
Circuit 2 Current1
Multiplying factor R27 Data R28R29
Electric Energy
Multiplying factor R42 Data R43R44
Circuit 3 Current1
Multiplying factor R45 Data R46R47
Electric Energy
Multiplying factor R54 Data R55R56
(113/127) LEN160305A
Measuring module for Station2 Setting number of monitoring items and circuits, monitor setting data in each circuit in sample program of Station2. Please refer to sample program of Station2 when the data is same in each circuit.
Items Descriptions Device No. Setup Note Number of monitoring items Please setup number of items of measuring unit. D100 9
Number of monitoring circuit Please setup number of circuits of measuring unit D101 7
Number of completed monitoring items
Number of completed items by measuring unit D102
Number of completed monitoring circuit
Number of completed circuits by measuring unit D103
Sending data
Current1 Group,Module(H0),Command D110 H101
Setup command of monitoring items. Please refer to 7.2.2 Details of Command. Please set H0 in module number because module number is changed automatically for monitoring.
Channel D111 H21
Current2 Group,Module(H0),Command D112 H101 Channel D113 H41
Current3 Group,Module(H0),Command D114 H111 Channel D115 H41
Voltage1-2 Group,Module(H0),Command D116 H101 Channel D117 H21
Voltage2-3 Group,Module(H0),Command D118 H101 Channel D119 H41
Voltage3-1 Group,Module(H0),Command D120 H111 Channel D121 H41
Power factor Group,Module(H0),Command D122 HD01 Channel D123 H1
Electric Power
Group,Module(H0),Command D124 H701 Channel D125 H1
Electric Energy
Group,Module(H0),Command D126 H8001 Channel D127 H1
Receiving data
Circuit 1 Current1
Multiplying factor R100
Please refer to 7.2.3 Data Composition for Multiplying factor and Numeric data.
Data R101,R102
Electric Energy
Multiplying factor R124 Data R125R126
Circuit 2 Current1
Multiplying factor R127 Data R128R129
Electric Energy
Multiplying factor R151 Data R152R153
Circuit 3 Current1
Multiplying factor R154 Data R155R156
Electric Energy
Multiplying factor R178 Data R179,R180
Circuit 4 Current1
Multiplying factor R181 Data R182,R183
Electric Energy
Multiplying factor R205 Data R206,R207
Circuit 5 Current1
Multiplying factor R208 Data R209,R210
Electric Energy
Multiplying factor R232 Data R233,R234
Circuit 6 Current1
Multiplying factor R235 Data R236,R237
Electric Energy
Multiplying factor R259 Data R260,R261
Circuit 7 Current1
Multiplying factor R262 Data R263,R264
Electric Energy
Multiplying factor R286 Data R287,R289
(114/127) LEN160305A
9.2.4 Program Example
*Data clear
Turn- on for one scan after run
Monitoring
Items Station1
*Set the number of monitoring items
Turn-on for one scan after run
*Set the sending data (circuit1, Station1)
Turn- on for one scan after run
I1: circuit1,
Station1
(Group, Module)
I2 circuit1
Station1
(Group, Module)
I3 circuit1
Station1
(Group, Module)
I1: circuit1,
Station1
(Channel)
I2 circuit1
Station1
(Channel)
I3 circuit1
Station1
(Channel)
(115/127) LEN160305A
(Continued from the previous page)
V12: circuit1,
Station1
(Group, Module)
V23: circuit1,
Station1
(Group, Module)
V31: circuit1, Station1
(Group, Module)
V31: circuit1,
Station1
(Group, Module)
W(total):
circuit1,Station1
(Group, Module)
V31: circuit1,
Station1
(Channel)
V31: circuit1, Station1
(Channel)
V23: circuit1,
Station1
(Channel)
V12: circuit1,
Station1
(Channel)
(116/127) LEN160305A
(Continued from the previous page)
Turn- on for one scan after run
I1:
circuit2,Station1
(Group, Module)
I2:
circuit2,Station1
(Group, Module)
I3:
circuit2,Station1
(Group, Module)
kWh:
circuit1,Station1
(Group, Module)
*Set the sending data (circuit2, Station1)
I3:
circuit2,Station1
(Channel)
I2:
circuit2,Station1
(Channel)
I1:
circuit2,Station1
(Channel)
kWh:
circuit1,Station1
(Channel)
W(total):
circuit1,station1
(Channel)
(117/127) LEN160305A
(Continued from the previous page)
< W(total): circuit2, Station1 (Channel)>
< kWh: circuit2, Station1 (Channel)>
< I1: circuit3, Station1 (Channel)>
PF:
circuit2,Station1
(Group, Module)
W(total):
circuit2,Station1
(Group, Module)
kWh:
circuit2,Station1
(Group, Module)
I1:
circuit3,Station1
(Group, Module)
V12:
circuit3,Station1
(Group, Module)
Turn- on for one scan after run
*Set the sending data (circuit3, Station1)
I1:
circuit3,Station1
(Channel)
PF:
circuit2,Station1
(Channel)
W(total):
circuit2,Station1
(Channel)
kWh:
circuit2,Station1
(Channel)
(118/127) LEN160305A
(Continued from the previous page)
< V12: circuit3, Station1 (Channel)>
< W(total): circuit3, Station1 (Channel)>
< kWh: circuit3, Station1 (Channel)>
< Monitoring items: Station2>
< Number of circuit: Station2>
W(total):
circuit3,Station1
(Group, Module)
kWh:
circuit3,Station1
(Grop, Module)
Monitoring items:
Station2
Number of circuit:
Station2
I1: Station2
(Group, Module)
Turn- on for one scan after run
Turn- on for one scan after run
I1: Station2
(Channel)
kWh:
circuit3,Station1
(Channel)
W(total):
circuit3,Station1
V12:
circuit3,Station1
(Channel)
(119/127) LEN160305A
(Continued from the previous page)
I2: Station2
(Group, Module)
I3: Station2
(Group, Module)
V12: Station2
(Group, Module)
V23: Station2
(Group, Module)
V31: Station2
(Group, Module)
V23: Station2
(Channel)
V12: Station2
(Channel)
I2: Station2
(Channel)
I3: Station2
(Channel)
(120/127) LEN160305A
(Continued from the previous page)
Data link error
Station1
V31 Station2
(Channel)
PF: Station2
(Group, Module)
PF Station2
(Channel)
W(total)
Station2
kWh: Station2
(Group, Module)
*Data link confirmation
Module
error
Module
ready
Host data Link status
*For station1
Data link error Station1
Initial data processing request Station1
Initial data setting Completion Station1
Other module
Data link error
kWh: Station2
(Channel)
kW: Station2
(Channel)
(121/127) LEN160305A
(Continued from the previous page)
Waiting for error clear: Station1
Remote READY: Station1
Error status Flag: Station 1
RWr(m) Station1
Receiving data (Error code) Station1
Waiting for error clear: Station1
Error reset request flag:1
Transmi ssion start time Station1
Comma nd setting Station1
Transmi ssion start time:1
Data link error :Station 1
Error status flag: Station1
Remote READY: Station1
Comma nd executio n request flag Station1
Comma nd completi on reply flag Station1
Comm and setting Station 1
Number of taken items: Station1
I1: Station1
Writing send data Station1
Writing Send data Station1
RWw(m) Station1
Command execution request flag Station1
Transmitting completion: Station1
Comm and executi on reques t flag1
Data link error :Station 1
Command completion reply flag1
(122/127) LEN160305A
(Continued from the previous page)
Transmi tting completi on: Station1
RWw(m) Station1
Group of sending data(tmp) Station1
RWw (m+1) Station1
Channel of sending data(tmp) Station1
Group of sending data(tmp) Station1
Channel of sending data(tmp) Station1
Check device of matching
Check device of matching
RWr(m) Station1
Check device of matching
Error status flag: Station 1
RWr(m) Station1
Receiving data Station1
Number of taken items: Station1
Receiving data Station1
Storing Receive data (Magnificant) Station1
Storing Receive data (Magnificant) Station1
Receiving data Station1
Storing Receive data (data) Statino1
(123/127) LEN160305A
(Continued from the previous page)
Trans mitting comple tion: Staion 1
Time- out Staion 1
Check device of matchin g
Command execution request flag Station1
Number of taken items Station1
Number of taken items Station1
Number of taken items Station1
Monitoring items Staion1
Data link error staion2
Initial data processing request flag2 station2
Initial data processing completion Station2
Waiting for error clear Station2
Remote READY Station2
Error statu s flag Stati on2
Waiting for error clear station2
Error reset start time Station2
RWw(m) Station2
Receiving data (Error code) Station2
Error status flag Station 2
Remote READY Station2
RWwm Station2
Com mand execu tion reque st flag1
Transmitting start time Station2
Command setting Station2
Transmission start time
Comm and setting Station 2
Number of taken items Station2
Data link error Station 2
Com mand execu tion reply flag1
(124/127) LEN160305A
(Continued from the previous page)
Data link error Staion2
Comm and comple tion reply flag2
I1: Staion2
Sending data Station2
Number of taken items Station2
Number of unit number TMP for writing
Writing send data Station2
Sending data Station2
RWw(m) Station2
Command execution request flag2
Trans mittin g compl etion Statio n2
Time-out: Station2
Com mand execu tion reque st flag2
Transmission start time:2
RWw(m) Station2
Group of sending data(tmp)
RWw(m+1) Station2
Channel of sending data(tmp)
Number of unit number TMP for writing
Number of unit number TMP for writing
(125/127) LEN160305A
(Continued from the previous page)
Error status flag Station2
Group of sending data(tmp)
Channel of sending data(tmp)
Check device of matching
Check device of matching
Check device of matching
RWr:m Station2
RWr:m Station2
Receiving data: Station2
Number of taken items Station2
Number of taken items offset
Number of taken items Station2
1 circuit offset
Number of taken circuits Station2
1 circuit offset
Taken circuits offset
Number of taken items offset
Number of taken circuits offset
Receiving data Station2
Storing Receiving data (Magnificant) Station2
Storing Receiving data (Magnificant) Station2
Receiving data Station2
Storing Receiving data (Data) Station2
(126/127) LEN160305A
(Continued from the previous page)
Trans mitting comple tion Station 2
Time- out Statio n2
Check device of matching
RWr:m Station2
Command execution request flag2
Number of taken items Station2
Number of taken items Station2
Number of taken circuits Station2
Number of circuits Station2
Number of taken circuits Station2
Number of taken circuits Station2
Number of taken items Station2
Monitorin g items Station2
(127/127) LEN160305A
10. Test Mode Measuring Unit has the test mode which the fixed values are replied even if the voltage and current are not input. It can be used to check the communication to programmable controller.
10.1 How to Test
To do the test, it is necessary to operate the Measuring Unit. About how to use the test mode, refer to the each instrument manual of Measuring Unit.
10.2 Reply
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