Contents

Mitsubishi FR-SW1-SETUP-WE VFD Instruction Manual PDF

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Summary of Content for Mitsubishi FR-SW1-SETUP-WE VFD Instruction Manual PDF

TRANSISTORIZED INVERTER

INSTRUCTION MANUAL

OVERVIEW 1

FUNCTIONS 2

ERROR INDICATIONS 3

APPENDICES 4

e

FR-SW1-SETUP-WE -Windows (English) Version-

VFD SETUP SOFTWARE

INTRODUCTION

Thank you for choosing the Mitsubishi Transistorized VFD Setup Software. This instruction manual gives handling information and precautions for use of this software. Incorrect handling might cause an unexpected fault. Before using this product, please read this manual carefully to use it to the optimum. Please forward this manual to the end user.

When reading this manual, note the following:

This manual is written on the basis that Windows 95 (English version) is the operating system.

The [return] and [enter] keys are represented by the key. Drive D is described as the CD-ROM drive and Drive C as the hard disk drive. In keyboard operation, simultaneous pressing of keys is indicated by "+".

Example: Pressing the [Alt] and [G] keys simultaneously is indicated by (Alt+G). The screens, parameter names, set values and so on given in this manual are written on the basis of the FR-

A500 series. When using the inverter of any other series, refer to the instruction manual of the used inverter.

Trademarks Microsoft and Windows are registered trademark or trademark of Microsoft Corporation in the United States and/

or other countries.

1) The formal name of Windows 95 is Microsoft Windows 95 operating system.

2) The formal name of Windows 98 is Microsoft Windows 98 operating system.

3) The formal name of Windows NT is Microsoft Windows NT operating system.

4) The formal name of Windows 2000 is Microsoft Windows 2000 operating system.

5) The formal name of Windows Me is Microsoft Windows Me operating system.

6) The formal name of Windows XP is Microsoft Windows XP operating system. The DOS/V personal computer is a registered trademark of IBM Corporation. The "Mitsubishi Transistorized VFD Setup Software" is a registered trademark of Mitsubishi Electric Corporation.

The copyright and other rights of this software all belong to Mitsubishi Electric Corporation. No part of this manual may be copied or reproduced without the permission of Mitsubishi Electric Corporation. Other company and product names herein are the trademarks or registered trademarks of their respective own-

ers.

For Maximum Safety

Mitsubishi vector inverters are not designed or manufactured to be used in equipment or systems in situations that can affect or endanger human life.

When considering this product for operation in special applications such as machinery or systems used in pas- senger transportation, medical, aerospace, atomic power, electric power, or submarine repeating applications, please contact your nearest Mitsubishi sales representative.

Although this product was manufactured under conditions of strict quality control, you are strongly advised to install safety devices to prevent serious accidents when it is used in facilities where breakdowns of the product are likely to cause a serious accident.

CONTENTS

1 OVERVIEW 1

1.1 Before Using This Software ................................................................................ 2 1.1.1 Packing list ................................................................................................................................ 2

1.2 Preparations for Startup...................................................................................... 3 1.2.1 System configuration ................................................................................................................. 3 1.2.2 Installing the Setup Software..................................................................................................... 4

2 FUNCTIONS 7

2.1 Starting the VFD Setup Software........................................................................ 8 2.2 Settings................................................................................................................. 9

2.2.1 System Settings....................................................................................................................... 11 2.2.2 Communication Settings.......................................................................................................... 12 2.2.3 Environmental Setting ............................................................................................................. 13

2.3 Parameter ........................................................................................................... 14 2.3.1 All List Format.......................................................................................................................... 14 2.3.2 Functional List Format ............................................................................................................. 17 2.3.3 Individual List Format .............................................................................................................. 18 2.3.4 Basic Settings.......................................................................................................................... 19

2.4 Monitor................................................................................................................ 20 2.4.1 Data Display ............................................................................................................................ 20 2.4.2 Meter Display........................................................................................................................... 21 2.4.3 Oscilloscopes .......................................................................................................................... 21 2.4.4 Alarm History ........................................................................................................................... 23 2.4.5 Trace Oscilloscopes (for FR-V500 series only) ....................................................................... 24

2.5 Diagnosis............................................................................................................ 33 2.5.1 VFD Status .............................................................................................................................. 33 2.5.2 Diagnosis................................................................................................................................. 33

2.6 Test Running ...................................................................................................... 35 2.6.1 Test Running ........................................................................................................................... 35 2.6.2 Auto Tuning ............................................................................................................................. 35

2.7 Advanced Function............................................................................................ 37 2.7.1 Machine analyzer (for FR-V500 series only) ........................................................................... 37

2.8 Saving, Reading and Printing the Files ........................................................... 42 2.8.1 File types ................................................................................................................................. 42 2.8.2 Saving method......................................................................................................................... 42 2.8.3 Reading the file........................................................................................................................ 42 2.8.4 Printing .................................................................................................................................... 42

2.9 Help ..................................................................................................................... 43 2.9.1 Help contents........................................................................................................................... 43 2.9.2 Version information.................................................................................................................. 43

3 ERROR INDICATIONS 45

3.1 Error codes......................................................................................................... 46 3.1.1 Error code lists......................................................................................................................... 46 3.1.2 Panel-displayed errors............................................................................................................. 46

4 APPENDICES 47

4.1 Supplementary Software................................................................................... 48 4.1.1 Introduction.............................................................................................................................. 48 4.1.2 Parameter files ........................................................................................................................ 48 4.1.3 Parameter file edit software (PREDITE) .................................................................................. 49

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1 OVERVIEW

1.1 Before Using This Software ...........................................2 1.2 Preparations for Startup.................................................3

This chapter provides the fundamental "overview" for use of this product. Always read the instructions before using this software.

When using this software to make communication with the inverters, set a value other than 0 in Pr. 122 "communication check time interval" on the inverter's operation panel. When using the FR-A5NR, set any value other than 0 in Pr. 336 "communication check time interval", and when using the FR-S500 series, set any value other than 0 in the communication parameter n6 (336) "communication check time interval". (Refer to the inverter instruction manual for the setting method.)

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Before Using This Software

1.1 Before Using This Software This software can be used effectively as a support tool for operations from startup to maintenance of the Mitsub-

ishi transistorized inverter. The following functions can be performed efficiently on the Windows screen of a per- sonal computer. System setting function Parameter editing function Monitoring function Diagnosis function Test running function File management function Advanced function Help function

1.1.1 Packing list

After unpacking, check that the following items are contained in the package:

Item Quantity CD-ROM 1 disk Instruction manual 1 book

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Preparations for Startup

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1.2 Preparations for Startup

1.2.1 System configuration

The following devices are required to use the VFD Setup Software. Configure the system in accordance with the instruction manuals of the corresponding devices.

Model, Specifications, Etc.

1) Personal computer One on which Windows 95, Windows 98, Windows NT, Windows 2000, Windows Me or

Windows XP (English version) operates

2) Mouse Mouse which can be connected to the personal computer

3) Setup software VFD Setup Software (FR-SW1-SETUP-WE)

4) Inverter

FR-A520 (-NA), FR-A540 (-NA) (-EC) (-CH), FR-A520L-75K, 90K, FR-A540L-75K to 280K (-NA) (-EC), FR-A560-NA, FR-E520-0.1K to 7.5K (-NA), FR-E540-0.4K to 7.5K (-NA) (-EC) (-CH), FR-E520S-0.1K to 0.75K, FR-E520S-0.4K to 2.2K-EC (-CH), FR-E510W-0.1K to 0.75K (-NA), FR-F520-0.75K to 55K, FR-F540-0.75K to 55K (-EC) (-CH), FR-S520-0.1K to 3.7K-R, FR-S540-0.4K to 3.7K-R (-NAR) (-ECR) (-CHR), FR-S520S-0.1K to 1.5K-R, FR-S520S-0.2K to 1.5K-ECR (-CHR), FR-S510W-0.1K to 0.75K-R FR-V520, FR-V540

Mouse

VFD Setup Software

Connection cable Connector: RJ45 connector Example: Tyco Electronics Corporation 5-554720-3 Cable: Cable in compliance with EIA568 (such as 10BASE-T cable) Example: Mitsubishi Cable Industries, Ltd., SGLPEV-T 0.5mm4P (Twisted pair cable, 4 pairs)

3)

Converter *1

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Printer cable

Commercially available printer

(ESC/P compatible)

4) Inverters

Motors

NFB Power supply

InverterInverterInverterInverterInverter

Connection cable RS-485/RS-422

FR-A5NR

Communication option used *2

PU connector used *2

Multidrop link system Termination resistor

Distribution terminal

*1: A converter commercially available is required when the personal computer uses the RS-232C port. Model: FA-T-RS40 Converter (Model with connectors and cable is also available) Mitsubishi Electric Engineering Co., Ltd. The converter cable cannot connect two or more inverters (the computer and inverter are

connected on a 1:1 basis). Since the product is packed with the RS-232C cable and RS-485 cable (10BASE-T + RJ-45 connector), the cable and connector need not be prepared separately.

*2: The PU connector or FR-A5NR (FR-A500 (L) / F500 (L) / V500 series) can be used to make communication. (Refer to the corresponding instruction manual for details.)

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Preparations for Startup

[Connection example between converter and inverter (PU connection port)]

1.2.2 Installing the Setup Software

To use the VFD Setup Software (FR-SW1-SETUP-WE), the files included in the setup disks must be installed onto the personal computer. If the former version of VFD setup software has been installed, delete it before starting the installation of the latest one.

To install the VFD Setup Software, use the setup program (SETUP.EXE) on the Setup Disk (CD-ROM). The setup program creates a directory on the specified hard disk and copies the required files.

Installation procedure

CAUTION 1. Since the files in the Setup Disk are compressed, the VFD Setup Software will not operate by merely

copying the files. Always use the setup program to install the software. 2. Install the software in accordance with the Windows installation procedure. 3. When installing on Windows 95, be sure to install Microsoft DCOM95 for Windows 95, Version 1.3

before installing setup software. You can download DCOM95 for Windows 95, Version 1.3 from the fol- lowing website of Microsoft Corporation. Note that URL is subject to variation.

http://www.microsoft.com/com/

Use the following procedure to register (install) the VFD Setup Software onto the hard disk drive of the personal computer:

(1) Insert the CD-ROM into the CD-ROM drive.

(2) Press the [Start] button and choose the [Run] command.

CAUTION Close any other applications that have already been started.

Personal computer (RS-232C)

Connector coupling

FA-T-RS40 Inverter (PU connection port)

Connector coupling

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Preparations for Startup

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(3) Running the installation program 1) The [Run] dialog box appears.

2) Type "D:\SETUP" (use half-size letters) in [Open] and click the [OK] button or press the key. (When the CD-ROM drive is drive D)

3) After that, perform operation in accordance with the setup guide (screen).

(4) When file copying is over, the following screen appears. Always enter the user and company names and click the [OK] button. Installation is not completed unless the user and company names are entered.

(5) When installation is finished, the "Uninstall", "VFD Setup S/W" and "VFD Setup S/W Help" icons are registered and the following screen appears.

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2 FUNCTIONS

2.1 Starting the VFD Setup Software...................................8 2.2 Settings..........................................................................9 2.3 Parameter ....................................................................14 2.4 Monitor.........................................................................20 2.5 Diagnosis .....................................................................33 2.6 Test Running................................................................35 2.7 Advanced Function ......................................................37 2.8 Saving, Reading and Printing the Files........................42 2.9 Help .............................................................................43

This chapter describes the "functions" for use of this product. Always read the instructions before using this software.

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Starting the VFD Setup Software

2.1 Starting the VFD Setup Software

Start the VFD Setup Software with "INVSUPE.EXE".

CAUTION Start only one VFD setup software program.

REMARKS " Next time no disp.": When you check , the above screen will not appear from the next time the software is run. To display it again, check the check box "Display the initial screen", see section "2.2.3 Environmental Setting" (refer to page 13).

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Settings

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2.2 Settings

When you press the [OK] button on the initial screen, the following screen appears:

(1) Menu list This software has the following functions:

Menu Pull-Down Menu Function/Operation

File (Alt+F)

Open Ctrl+O Opens a file. Close Closes the screen. Save Ctrl+S Saves data. Save As Ctrl+A Save data with a new name. Print Ctrl+P Selects printing. Exit Performs exiting procedure.

Settings (Alt+S)

System Settings Sets the model, capacity (size) and option type. (Stations 00 to 31) Communication Settings Sets serial communication information.

Environmental Settings Sets the directory where data will be stored and sets re-display of the initial screen.

Parameter (Alt+P)

All list Format Shows and sets the parameter list. Functional List Format Shows and sets the related parameters function-by-function.

Individual list Format You can register or delete a total of 32 parameters out of all parameters to or from two different user groups.

Basic Settings You can set the parameters required for starting up the inverter without being aware of parameter numbers.

Monitor (Alt+M)

Data Display Shows four pieces of data (up to four stations) in terms of values. Meter Display Shows four pieces of data (up to four stations) in terms of meter deflections. Oscilloscopes Shows four pieces of data (up to four stations) in terms of waveforms. Alarm History Shows the alarm history of all inverter stations connected. Trace Oscilloscopes Analyzes various types of data.

Diagnosis (Alt+N)

VFD Status Shows various data of all stations connected in real time in terms of values.

Diagnosis Examine the estimated cause of the alarm in accordance with the alarm display.

Test Running (Alt+T)

Test Running Gives the operation command from the personal computer to actually test run the inverter.

Auto Tuning Performs auto tuning in accordance with the motor connected to the inverter.

Advanced function (Alt+V) Machine Analyzer Measures the response frequency characteristic of speed relative to the

motor torque of the machine. Window (Alt+W)

Cascade Display Overlapping Windows. Tile Display Windows are side-by-side.

Help (Alt+H)

Contents Various help functions (parameter explanations, function explanations, etc.)

About VFD Setup S/W Version information (copyright, version information, user and company names, etc.)

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Settings

(2) Description of various buttons and indications

1) Node The station number selected is displayed.

2) [EXT] (Alt+X), [PU] (Alt+U) and [LNK] (Alt+L) buttons You can choose the inverter operation mode for online operation. [EXT] button: External operation mode [PU] button: PU operation mode [LNK] button: Computer link operation mode

3) The operation mode and error codes appear. (Refer to page 46 for the error codes.) Operation mode indications EXT............................ External operation mode PU.............................. PU operation mode EXT JOG ................... External jog mode PU JOG ..................... PU jog mode LNK............................ Computer link mode PU EXT...................... PU-external combined mode TIME .......................... Time scheduled operation SP .............................. Special mode No Node..................... Time-out occurred in the online mode In any other case, the error number at NAK error occurrence appears. When an alarm occurs, the operation mode and error codes are displayed in red. To display a warning, the operation mode and warning appear.

4) [ONLINE/OFFLINE] (Alt+O) button [ONLINE] (online) button: Online operation mode [OFFLINE] (offline) button: Offline operation mode Click the corresponding button to select the online or offline mode.

5) System settings You can set the environment of the inverters of stations 00 to 31. Set the model, capacity and options for these inverters.

6) [New] button (Alt+E) Used to make new system settings.

7) [System Read] button (Alt+Y) Used to batch-read all inverters in the system with which the personal computer communicates.

8) [Confirmed] button (Alt+I) You can register the data specified in the system settings. Always confirm the entry with the [Confirmed] but- ton when you have changed the setting of the system configuration manually.

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Settings

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2.2.1 System Settings

This screen appears when you start this software and press the [OK] button on the initial screen. On this screen, set the station numbers, models, capacities and plug-in options of the inverters connected. Inverters can be set to stations 0 to 31.

(1) Station selection (Ctrl+N) Click the required station number. That line is then chosen.

(2) Selection of model, capacity and options

(3) [Confirmed] button (Alt+I) After setting all stations, pressing the Confirmed button completes the system settings.

(4) [New] button (Alt+E) Press the New button to initialize (clear) the system settings/communication settings being edited.

(5) [System Read] button (Alt+Y) Before pressing the [System Read] button, press the [ONLINE/OFFLINE] button to change the mode indication to [ONLINE] and select the online operation mode. In the online operation mode, the personal computer is switched to the inverter communication status and clicking the [System Read] button reads the models, capaci- ties and options of all stations (stations 0 to 31) and displays the stations connected (with which the personal computer can communicate). After reading, the settings are registered automatically. When the system settings have not yet been made, the read stations are displayed. When the system settings have already been registered, check is performed. If the check result is different from the read data, select whether different points are displayed and changed or not.

When you double-click the selected line, the "VFD Structure" panel (as shown on the right) appears. Set the model, capacity and options and press the [OK] button to complete the settings. Using the same pro- cedure, set all inverter stations which connected.

CAUTION 1. When the [Cancel] button is clicked during [System Read], the system setting made until then is veri-

fied. 2. When the [System Read] button is pressed, the 100V or 200V class of the FR-E500 series is displayed

as the FR-E520-NA, the 400V class as the FR-E540-NA, and the 100V class of the FR-S500 series as the 200V class. When the model differs from that, change the model manually.

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Settings

2.2.2 Communication Settings

The VFD Setup Software uses the serial port of the personal computer to control the inverters through serial communication. Its communication settings must be the same as those of the inverter. (The initial values of the setup software have been matched with the factory settings of the inverter.) When you start this software, the initial screen appears. Pressing the [OK] button displays the system setting screen. Choosing the [Settings] [Communication settings] command on the menu bar. The screen then shows the following dialog box, where various communication settings can be made. Communication settings will be described below:

(1) Screen explanations The values in parentheses are initial values.

1) Communication Port (1) Choose the communication port of the personal computer.

2) Baud Rate (19200) Set the communication speed.

3) Data Length (8) Set the data bit length.

4) Parity Check (Even) Specify the parity bit.

5) Stop Bit (2) Set the stop bit length.

6) Delimiter (CR) Specify the delimiter at the data trailer.

7) Interrogate Time [sec] (1) Set the interval at which data transmission (operation mode indication and error check) is always made to the inverter.

8) Time Out [msec] (1000) Set the time from when data is transferred from the personal computer to the inverter until when the personal computer receives a reply from the inverter. If a reply is not given after the preset time has passed, the "time- out" error is displayed.

The above set values depend on the inverter connected. Set them after confirming the set values of the communication function parameters of the inverter.

(2) Button settings 1) [OK] button

Recognizes the settings on the communication screen and returns to the system setting screen. 2) [Cancel] button

Cancels the communication settings and returns to the system setting screen. 3) [Reflect Default] button

Used to omit the setting of the values specified in communication settings from the next time onward. 4) [Default Read] button

Used to read the default values. The value is as set with the [Reflect Default] button. 5) [Initial Value] button

This button is used to return the communication setting to the initial value (factory setting of the inverter).

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Settings

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(3) Inverter communication settings The values set for communication depend on the inverter and connection method.

(4) Interrogate time Set the interval at which data is always sent or received to or from the inverter. It must be set to at least 2 seconds shorter than the communication check time interval setting of the inverter. If its setting is longer than the communication check time interval setting, the inverter will come to an alarm stop.

2.2.3 Environmental Setting You can specify the data directory (place where data is saved) and default system file.

(1) Screen explanations 1) Data Directory..................................... You can change the directory where data will be saved. 2) Display the initial screen..................... Checking the check box displays the initial screen. 3) Default Sys File .................................. Shows the system file (*.MEL) which is automatically set when start-

ing of the software. There is no default registered.

4) Browse................................................Default system file browsing button. Shows the file selection common dialog and displays the chosen file name in the default system file text box.

5) When the parameter is read it is distinguished automatical ................... Turn on the check box to hide the parameters read-disabled for

parameter batch-read or batch-verify from the error panel. (Refer to page 16)

Inverter Connection Method Operation mode Setting Range FR-A520(-NA) FR-A520L FR-A540(-NA) (-EC) (-CH) FR-A540L (-NA) (-EC) FR-F520 FR-F540 (-EC) (-CH) FR-V520 FR-V540

PU connector (RS-485 connector) or FR-A5NR

When PU connector (RS-485 connector) is connected PU mode

When FR-A5NR is connected LINK mode [Node] Station 0 to 31

[Baud rate] 4800, 9600, 19200 bps [Stop bit] 1 bit, 2 bits [Data length] 7 bits, 8 bits [Parity bit] None, odd, even [Delimiter] None, CR, CR+LF

FR-E520 (-NA) FR-E520S (-EC) (-CH) FR-E510W (-NA) FR-E540 (-NA) (-EC) (-CH)

PU connector (RS-485 connector) PU mode

FR-S520-R FR-S520S-R FR-S520S-ECR (-CHR) FR-S510W-R FR-S540-R (-NAR) (-ECR) (-CHR)

RS-485 connector LINK mode

CAUTION When making communication with the inverters, set a value other than 0 in Pr. 122 "communication check time interval" on the inverter's operation panel. For the FR-A5NR, set any value other than 0 in Pr. 336 "communication check time interval", and for the FR-S500 series, set any value other than 0 in the communication parameter n6 (336) "communication check time interval". (Refer to the inverter instruction manual for the setting method.)

CAUTION The setting of short interrogate time may slow down the response of the menus and buttons on each window depending on the operating model and communication speed.

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Parameter

2.3 Parameter

When system settings are complete, you can choose menu parameters. Choose the [Parameter] [All List Format], [Functional List Format], [Individual List Format] or [Basic Settings] command in the menu to select the corresponding format, and set parameters. Any parameter setting is changed by first entering new data in the Updated column and then pressing the [Write] or [Blk Write] button. The new data is then displayed in the Current setting column, which shows the current settings of the inverter.

2.3.1 All List Format

By choosing the [Parameter] [All List Format] command in the menu, all parameters of the inverter are displayed as a list. When changing any parameter setting, enter a new value in the required parameter column and press the

key to register it.

(1) Buttons and indications common to various parameter setting screens 1) Node (Ctrl+N) ............................. Indicates the inverter station number to be set (only the station numbers

registered in the system settings may be selected.) 2) Inverter operation mode ............. Used to choose/display the operation mode of the selected inverter station

number. 3) Online/offline (Alt+O) .................. To read/write the parameter values of the inverter, select the online opera-

tion mode. 4) Setting Range............................. Indicates the setting range of the selected parameter. 5) Pr Jmp (Alt+J),

updated Val (Alt+E)..................... Shows the number and new value of the selected parameter. Values may be entered directly into these columns.

6) Detail Information (Alt+D,F1) ...... Shows the function explanation of the selected parameter.

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Parameter

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7) Change List (Alt+G).................... Lists the parameters with the present set values which have been changed from the initial values.

8) Parameter initialization (Alt+R) ... Initializes the parameters of the inverter. (The communication parameters are not initialized.) Choose the clearing method from among "Parameter Clear", "All Clear" and "User Clear" on the following panel and click the [OK] button to exe- cute clear.

10) Blk Read (Alt+B) ....................... Reads all parameters of the selected inverter station number. 11) Read (Alt+A) ............................. Reads the data of the parameter numbers selected on the screen. 12) Blk Check (Alt+C) ..................... Batch-checks the parameters of the inverter against those of the personal

computer. 13) Blk write (Alt+K) ........................ Writes new parameter values to the inverter.

(When there are no values in the Updated value field, the screen for selecting whether the present settings will be written or not appears. Per- form operation following the screen prompts.)

14) Write (Alt+I) ............................... Writes the data of the parameter numbers selected on the screen.

CAUTION Changing the Pr. 21 setting automatically switches the minimum setting increments of the acceleration/ deceleration time-related parameters (Pr. 7, Pr. 8, Pr. 16, Pr. 45, Pr. 46, Pr. 110, Pr. 111, Pr. 264, Pr.265). (Increments are 0.1s when Pr. 21=0, 0.01s when Pr. 21=1) The acceleration deceleration time-related parameters differ according to the inverter. Refer to the inverter manual for details.

9) Copy (Alt+Y) .................................. System setting file (*.MEL) Used to copy the parameter list as a file to the inverter. Choose the system setting file (*.MEL) and click the [OK] button to display the panel shown on the right. Making selections at "Copy" and "Node" and clicking the [OK] button reads the parameter settings and sets them to the Updated column. Therefore, by performing block write after that, they are copied to the inverter. (Parameter copy cannot be made between different models.)

Parameter setting file (*.PRM) Choosing the parameter setting file (*.PRM) displays the present settings in the Updated value field of the screen. (When only the present settings are saved) When there are both the present settings and updated values, display the parameter copy panel (shown above) and select the values to be copied.

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Parameter

CAUTION If an error occurred during "block read", "block check" or "block write", the parameter list appears on the panel. Double-clicking the error number in the displayed list shows the details of the error definition on the panel.

[When the parameter is read it is distinguished automatically] Turning on this check box automatically judges the read-disabled parameters and hide them from the read error panel.

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Parameter

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2.3.2 Functional List Format By choosing the [Parameter] [Functional List Format] command in the menu, the parameters are displayed as a function list. For parameter setting and changing, values may only be written in the online operation mode. When changing any parameter setting, enter a new value in the required parameter column and press the key to register it.

(1) Various panel indications FR-A500(L)/F500(L)/E500/S500 series 1) Terminal allocation...................... Lists the parameters concerned with the control circuit terminals. 2) Magnetic flux vector.................... Lists only the parameters for magnetic flux vector control. 3) Intelligent .................................... Shows the parameters related to the intelligent mode in which the inverter

performs operation after setting appropriate parameters automatically. 4) Calibration .................................. Lists the parameters related to the calibration of the FM and AM terminals

and the bias/gain adjustments of the frequency setting voltage (frequency setting current).

5) Option ......................................... Lists the parameters of the values related to the options. 6) Special running........................... Lists the parameters such as the functions used by making pre-selection. 7) Motor torque ............................... Lists the parameters related to motor torque. 8) Frequency settings ..................... Lists the parameters related to frequency. 9) Acceleration/deceleration ........... Lists the parameters related to acceleration/deceleration. 10) Protection.................................. Lists the parameters related to the protective functions. 11) Monitor ...................................... Lists the parameters related to the monitoring function. 12) Brake......................................... Lists the parameters related to braking. 13) Pr Jmp (Alt+J),

Updated Val (Alt+E) .................. Show the selected parameter number and its new value. Values may be entered directly into these columns.

FR-V500 series 1) Terminal allocation...................... Lists the parameters concerned with the control circuit terminals. 2) V/F control .................................. Lists only the parameters used to exercise V/F control. 4) Calibration .................................. Lists the parameters related to the calibration of the DA1 and DA2 termi-

nals and the bias/gain adjustment of the speed setting voltage (speed set- ting current).

5) Option ......................................... Lists the parameters of the values related to the options. 6) Special running........................... Lists the parameters such as the functions used by making pre-selection. 7) Motor .......................................... Lists the parameters related to the motor. 8) Speed setting.............................. Lists the parameters related to the speed. 9) Acceleration/deceleration ........... Lists the parameters related to acceleration/deceleration. 10) Protection.................................. Lists the parameters related to the protective functions. 11) Monitor ...................................... Lists the parameters related to the monitoring function. 12) Brake......................................... Lists the parameters related to braking. 13) Pr Jmp (Alt+J),

Updated Val (Alt+E) .................. Show the selected parameter number and its new value. Values may be entered directly into these columns.

14) Speed control............................ Lists the parameters related to speed control. 15) Torque control ........................... Lists the parameters related to torque control. 16) Position control ......................... Lists the parameters related to position control.

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2.3.3 Individual List Format

By choosing the [Parameter] [Individual List Format] command in the menu, you can select two different user groups ("User Group 1", "User Group 2"). To these user groups, you can register a total of 32 parameters from among all parameters. Click the [Edit Reg.] button. The following panel appears.

(1) Description of individual list editing operation 1) Registration ................................. Choose the items to be registered in the "Parameter List" and press the

[Add>>>] button to register them to the "Individual List". 2) Deletion ....................................... Choose the items to be deleted in the "Individual List" and press the

[<<

After choosing the parameters, pressing the [OK] button completes the user setting and displays the individually selected list in the following panel. To save the individual list, choose the [File] [Save] command from the menu to save it.

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2.3.4 Basic Settings Choosing the [Parameter] [Basic Settings] command in the menu displays the following screen. By entering data into the items shown on the screen, you can set the parameters without being aware of the parameter numbers.

(1) Setting of each specification Set the specification of each item in the Specification column. When the [Click] button is provided, clicking it dis- plays choices. Make selection and click the [OK] button. 60Hz is the maximum setting for operation speed.

(2) Registration of the specifications After entering the specifications of all items, press the [Confirmed] button to register them. Pressing the [Con- firmed] button displays the following panel.

By pressing the [OK] button, the parameters are set automatically and the new values of the parameters that may be set automatically are displayed.

(3) Parameter setting When the automatic settings of the parameters are registered, the following panel appears. To write the new parameter values to the inverter, press the [Blk Write] button.

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2.4 Monitor

Choosing the [Monitor] - [Data Display], [Meter Display], [Oscilloscopes], [Alarm History] or [Trace Oscilloscopes] command in the menu allows you to select the corresponding monitor item.

2.4.1 Data Display

Data Display shows four different signals (those of up to four stations) as numerical values in real time. The input and output statuses of the control terminals can also be monitored. Choosing the [Monitor] [Data Display] command from the menu displays the following screen:

Explanation of the buttons and indications 1) Node setting

You can enter the station number specified in "System Settings" or use the [ / ] button to choose the sta- tion number.

2) Display items Choose the items to be displayed in the menu.

3) Start/Stop (Alt+A) After pressing the [ONLINE/OFFLINE] button to display [ONLINE], click the [Start] button to start monitoring. (The function of this button toggles depending upon the mode.) Click this button during monitoring to stop monitoring.

4) Hold (Alt+D) Clicking the [Hold] button holds the data being monitored. In this state, the data can also be saved. Click this button during holding to cancel hold.

5) Present value Shows the real-time monitor value.

6) Maximum value Shows the maximum value of the monitor value. Once monitoring is stopped, the maximum value is cleared.

7) I/O status When you have chosen "Input Status" or "Output Status" in "Display Item", the I/O status (ON or OFF) is dis- played. (ON: red, OFF: gray)

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2.4.2 Meter Display Meter Display shows four different signals (those of up to four stations) as meters in real time. Meter Display handles show only data which can be indicated by meter deflections. Choosing the [Monitor] [Meter Display] command shows the following screen:

Perform operation as with Data Display. The meter scales are automatically adjusted. After the parameters are batch-read, they are set to the optimum values.

Panel display 1) Meter display

Shows monitor values on the meters. The present value is indicated by the black pointer and the maximum value by the red pointer.

2) Meter full-scale Shows the full-scale value of the meter display. It can be changed by entering a new value.

2.4.3 Oscilloscopes Oscilloscopes show four different signals, which had been received from the inverter beforehand, as waveforms on the personal computer screen. Choosing the [Monitor] [Oscilloscopes] command from the menu displays the following screen:

Max Val.

Present Val.

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[Operating procedure]

[Timing] ...................... Choose the displayed data from among "Before", "During" and "After" the trigger signal.

[Sampling Time] ......... Set the interval of importing data. (100 to 60000msec) [Conditions] ................ Choose the "Rise" or "Down" timing when the trigger is activated.

c. After setting the measurement conditions, press the [OK] button. The screen returns to Oscilloscopes and the station numbers and measurement items set appear.

2) Measurement start (Alt+A) Press the [ONLINE] button. For "Inside Trigger", press the [Measurement Start] button to start the importing of data. On a trigger condition match, waveforms are displayed on the screen. For "Outside Trigger", press- ing the [Measurement Start] button starts the importing of data endlessly. After completion or (suspension), press the [Play Back] button to display the data.

: [sampling count] [sampling interval] + [personal computer processing time] + [data importing time]

4) Play Back (Alt+B) You can play back the measured oscilloscope data. a. By pressing the [Play Back] button after the end of measurement, the oscilloscope data can be played

back. When the waveforms are being displayed, the screen is blanked once and the waveforms are then played back.

b. You can play back saved oscilloscope data. By choosing [File] [Open] to read the data, the waveforms appear (are loaded).

1) Setting (Alt+E) Pressing the [Settings] button shows the "Measurement Condi- tions" panel. a. Choose the station number and measurement item. b. Trigger signal setting

Choose the outside, inside or alarm trigger. For "Outside Trigger", pressing the [Measurement Start] button starts measurement. For "Inside Trigger", since the signal from the inverter is used as a trigger signal, set the station number measurement signal, timing, trigger terminal and conditions. For "Alarm Trigger", the alarm occurrence signal of the inverter is used as a trigger signal. In this case, the trigger settings valid are the station number and timing only.

3) Scale Change (Alt+C) To change the vertical and horizontal axis scales of the dis- played waveforms, press the [Scale Change] button to dis- play the "Scale Change" panel, on which the scales are to be changed. The full-scale values on the vertical axes and time axes (horizontal axes) of the displayed waveforms of the four channels (four stations) can be changed. Specify the sampling count as the unit for the time axis (hor- izontal axis). (Reference) Time converting method

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2.4.4 Alarm History

Alarm History displays the history of eight past alarms of all inverter stations connected. Choosing the [Monitor] [Alarm History] command from the menu displays the following screen.

Explanation of the buttons and indications 1) Block Read (Alt+B)

Press the [ONLINE/OFFLINE] button to show [ONLINE] and then click the [Block Read] button to display the alarm history of all stations specified in the system settings.

2) Alarm History Lists the station numbers specified in the system settings and their history of eight past alarms.

3) Alarm Explanation Clicking the alarm display column in the alarm history list shows the explanation of that alarm.

4) Alarm Clear (Alt+C) Clicking the [Alarm Clear] button clears the alarm history of the chosen station inverter.

5) VFD Reset (Alt+R) Clicking the [VFD Reset] button resets the chosen station inverter.

3)

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2.4.5 Trace Oscilloscopes (for FR-V500 series only)

The FR-V500 series allows you to trace various data by setting Pr. 520 to Pr. 536 and Pr. 538. Using the trace function of the setup software, you can set the parameters on the trace function setting screen and analyze the traced data. The trace function is available for the FR-V500 series only. When using the trace function, the trace option unit T-TRC50 need to be fitted to the inverter. Install the trace option unit T-TRC50 in Slot 1 of the inverter. If you install it in Slot 2 or 3, operation is not performed. The traced data are stored in the memory of the trace option unit T-TRC50. (1) Make sure that the input power of the inverter is OFF. (2) Insert the option unit connector into the connector of the inverter securely. At this time, also insert the option fix-

ing holes securely. Refer to the following diagram for the position of Slot 1. Push the option unit securely into the option fixing hook.

(3) Fix the two left and right places of the option unit to the inverter securely with the accessory mounting screws. If the screw holes do not line-up, the connector may not have been inserted securely. Check for insecure insertion.

(1) Trace function oscilloscope screen Choosing the [Monitor] [Trace Oscilloscopes] command in the menu displays the following screen. To use the trace function, you need to make trace function setting. Click the [Settings] button 14 to make trace function setting. (Refer to page 27 for details of the trace function setting screen.)

Trace function oscilloscope screen

CAUTION 1. You cannot use more than one same option units. 2. Option error (E.OP1) is displayed if the inverter does not recognize the mounted option.

Trace option unit

Accessory screw (2 pcs.)

Option side connector

Inverter (without cover)

Slot 1 Inverter side connector Slot 2

Slot 3 Option fixing hook

The slots 1, 2, and 3 are provided with an option fixing hook.

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Explanation of the buttons and indications 1) Channel setting indication

Shows a data name according of the setting of each channel. The indication is blanked when no data is set. 2) Screen split selection

You can choose any of one to four way splits. (Initial setting: One way split) 3) Channel indication

Clicking the channel of the data you want to display shows the data assigned to the clicked channel. 4) Terminal signal indication

Clicking [ ] displays a list of terminal signals to enable setting. Unset signal names are blanked. Up to four terminal signals can be displayed simultaneously. The input/output terminal signals can be displayed only when the input/output terminal signal data are included in the CH1 to CH10 data.

5) CH signal screen/Terminal signal screen switchover Clicking here alternates between the channel (CH) indication (3) and terminal signal indication (4).

6) Scroll Clicking here shifts the whole screen left to right.

7) Scale adjustment

Click [ ]/[ ] to adjust the scale. The adjustable range is 50% to 400%. (Initial setting: 100%) 8) Data indication

Clicking [ ] and choosing the channel from the list displays on the screen the data value of the selected channel at the point of the cursor A.

9) TA/TB

Clicking [ ]/[ ] moves the cursor to the left/right. The time indication of the cursor A on the right hand side of [TA] also varies with the movement of the cursor A. This also applies to the operation of the cursor B.

10) Horizontal axis time unit

Clicking [ ]/[ ] changes the time unit of the horizontal axis. The changing range is 10ms to 500s. (Initial setting: 20ms)

11) Read Data Clicking [Read Data] starts data read. At the same time, the following screen also appears. Clicking "Can- cel" stops data read and returns to the trace function oscilloscope screen.

12) Start Trace/Stop Trace Clicking [Start Trace]/[Stop Trace] starts/stops a trace. (At this time, write "1" in Pr. 538 "trace start/stop selection" for a start or "0" for a stop.)

13) Trace status indication Shows the trace status. The trace status is monitored at intervals of 500ms.

14) Setting Clicking [Setting] displays the trace function setting screen.

Input terminal signals Output terminal signals STF, STR, DI1, DI2, DI3, DI4, OH, RES DO1, DO2, DO3, ABC

Indication Stop, waiting for pre-trigger, waiting for trigger, during trace, trace completed

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15) Reference Data Clicking [Reference Data] shows the data display reference value setting screen.

Clicking [ ]/[ ] varies the reference value setting. Clicking [OK] changes the data reference value. Clicking "Cancel" stops the setting and returns to the trace function oscilloscope screen.

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(2) Trace function setting screen By changing the set values on the trace function setting screen and writing them to the parameters, you can change the parameter settings of the inverter. (Refer to page 28 for details of the parameters.)

Trace function setting screen 1) Function setting [Pr. 520 to Pr. 529]

Select the data of CH1 to CH10. The selected data are displayed. You can assign one piece of data to two or more channels. Selecting the data changes the Pr. 520 to Pr. 529 values.

2) Sample Time [Pr. 530] Vary the sampling period. (1 = 444s) Varying the sampling period changes the Pr. 530 value.

3) Sample Mode [Pr. 531] Set the number of samplings made at one time. Increasing the sampling count limits the number of data that can be traced. Changing the sampling mode changes the Pr. 531 value.

4) Trigger Signal 1 [Pr. 532] A specific signal times the start and end of a trace. Changing the trigger signal choice 1 changes the Pr. 532 value.

5) Trigger Signal 2 [Pr. 533] When you have selected "Error (trigger signal choice 2)" in the trigger signal choice 1, select the error that will output a trigger signal. Changing the trigger signal choice 2 changes the Pr. 533 value.

6) Trigger Level [Pr. 534] A trigger is enabled when the value of the data set in the trigger signal choice 1 reaches the set trigger level on the trigger condition. Changing the trigger level changes the Pr. 534 value.

7) Trigger conditions [Pr. 535] Select whether a trigger will be enabled on the "leading edge" or on the "trailing edge". Changing the trigger condition changes the Pr. 535 value.

8) Pre-trigger [Pr. 536] Used to trace the data before trigger. Specify the percentage of the trigger point on the assumption that the recording starting point is 0% and the recording end point is 100%. Changing the pre-trigger changes the Pr. 536 value.

9) View Parameter Clicking [View Parameter] shifts to the parameter check screen.

10) Cancel Clicking [Cancel] cancels function changing and returns to the trace function oscilloscope screen.

CAUTION The trace function setting screen is used to only set the parameter values and not to write them. Use the parameter check screen to write them. Click [Parameter check]. (Refer to page 32 for details of the parameter check screen.)

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(3) Parameter list

(4) Parameter details 1. Trace status (Pr. 52, Pr. 190 to Pr. 192, Pr. 195)

The trace progress status, data output status and so on can be displayed on the DU/PU monitor and output to the external output terminals. Pr. 52 "PU/DU main display data selection"

When "38 (trace status)" is set in Pr. 52, the trace status is displayed on the FR-DU04-1/FR-PU04V.

Pr. 190 to Pr. 192, Pr. 195 "output terminal function selection" When you set "40 (positive logic) and 140 (negative logic)" (Y40 signal: trace status) in Pr. 190 to Pr. 192 and Pr. 195, the trace status is output from the output terminals.

Parameter Name Setting Range Factory Setting

52 PU/DU main display data selection

0, 5 to 12, 17 to 20, 23, 24, 32 to 35, 38, 100

(5 to 12 are invalid for FR-PU04V) 0

190 DO1 terminal function selection 0 to 8, 10 to 16, 20, 25 to 27, 30 to 37, 39 to 44, 96 to 99,

100 to 108, 110 to 116, 120, 125 to 127, 130 to 137,

139 to 144, 196 to 199, 9999

0 191 DO2 terminal function selection 1 192 DO3 terminal function selection 2

195 ABC terminal function selection 99

520 Trace data CH1

1 to 12, 15 to 20, 23, 24, 32 to 36, 50 to 56, 9999

1 (speed) 521 Trace data CH2 2 (output current) 522 Trace data CH3 3 (output voltage) 523 Trace data CH4 4 (alarm display) 524 Trace data CH5 5 (set speed) 525 Trace data CH6 15 (input status (DI)) 526 Trace data CH7 16 (output status (DO)) 527 Trace data CH8 50 (U phase output current) 528 Trace data CH9 51 (V phase output current) 529 Trace data CH10 52 (W phase output current) 530 Sampling period 1 to 9998 1 531 Sampling count selection 1, 2, 3, 4 1 532 Trigger source selection 1 0 to 17, 22, 31 to 34, 9999 9999

533 Trigger source selection 2 0 to 23, 25, 26, 29 to 40, 46 to 48, 51, 52, 9999 9999

534 Trigger level 600% to 1400% (*) 1000% 535 Trigger slope selection 0, 1 0 536 Pre-trigger 0 to 100% 85% 538 Trace start/stop selection 0, 1 0

REMARKS 1. *: In Pr. 534, set the trigger level value (-400% to 400%) plus 1000. 2. When Pr. 538 = "1", you cannot write any parameter values to Pr. 520 to Pr. 536. 3. You can write parameter values to Pr. 520 to Pr. 536 and Pr. 538 if Pr. 77 = "0".

Monitor Display Trace Status 0 Stop 1 During pre-trigger 2 Waiting for trigger 3 During trace 4 Trace completed

REMARKS The trace status is displayed instead of the output voltage monitor of the DU/PU main monitor.

Y40 Signal Trace Status40

(positive logic) 140

(negative logic) OFF ON Stop, trace completed, during data output, data output completed ON OFF During pre-trigger, waiting for trigger, during trace

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2. Function setting (Pr. 520 to Pr. 529) Pr. 520 to Pr. 529 "trace data CH1 to CH10" (1 to 12, 15 to 20, 23, 24, 32 to 36, 50 to 56, 9999)

Set the data to be traced. You can set the data of CH1 to CH10.

3. Sampling setting (Pr.530, Pr.531) Pr.530 "Sampling period" (1 to 9998)

Change the sampling period.

Pr.531 "Sampling count selection" (1 to 4) Set the number of samplings made at one time. Increasing the sampling count limits the number of data that can be traced.

4. Trigger source setting (Pr.532, Pr.533) Pr.532 "Trigger source selection 1"(0 to 17, 22, 31 to 34, 9999)

A specific signal can be used to time the start and end of a trace. When Pr. 532 = "1 to 10", set the trigger level in Pr. 534 and Pr. 535.

Setting Name Setting Name Setting Name 9999 No trace data CH setting 11 Output current peak value 33* Torque current command

1 Speed 12 Converter voltage peak value 34* Motor output 2 Output current value 15 Input status (DI) 35* Feedback pulse 3 Output voltage value 16 Output status (DO) 36* Torque monitor 4 Alarm display 17* Load meter 50 U phase output current 5 Set speed 18* Motor exciting current 51 V phase output current 6 Output frequency 19 Position pulse 52 W phase output current 7* Motor torque 20 Energization time 53* Torque current 8 DC bus voltage 23 Operation time 54 U phase voltage command value 9 Regenerative brake duty 24 Motor load factor 55 V phase voltage command value

10 Thermal load factor 32* Torque command 56 W phase voltage command value CAUTION

*: Data that are made invalid under V/F control. If they are traced, correct values will not be displayed.

REMARKS The data to be traced can be assigned to two or more channels.

Pr. 531 Setting Sampling Count Number of Usable Channels 1 360 10 2 720 4 3 1080 2 4 1440 1

CAUTION 1. Set "9999" (no trace data CH setting) in Pr. 520 to Pr. 529 of any unused channel. 2. When Pr. 531 = "2 to 4", the operating channels have the priorities of CH1, CH2 ... and the channel that

has exceeded the number of usable channels does not operate.

Setting Trigger Source Setting Trigger Source 9999 Error (all errors) 11 STF

0 Error (any error can be selected using Pr. 533) 12 STR 1 Trace data CH1 setting data 13 RES 2 Trace data CH2 setting data 14 DI1 3 Trace data CH3 setting data 15 DI2 4 Trace data CH4 setting data 16 DI3 5 Trace data CH5 setting data 17 DI4 6 Trace data CH6 setting data 22 OH 7 Trace data CH7 setting data 31 ABC 8 Trace data CH8 setting data 32 DO1 9 Trace data CH9 setting data 33 DO2 10 Trace data CH10 setting data 34 DO3

CAUTION 1. A trace start trigger is made valid when Pr. 538 = "1". To trace data again after a trace start trigger, set

"1" in Pr. 538. 2. When using the input/output terminal signal as a trigger source, set any of "11 to 17, 22, 31 to 34" in Pr.

532. Do not set the trace data CH1 to 10 (Pr. 520 to Pr. 529 = "15, 16"), to which the input status/output status has been set, as a trigger source.

Sampling period = T Pr.530 T=444 s

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Pr.533 "Trigger source selection 2" (0 to 23, 25, 26, 29 to 40, 46 to 48, 51, 52, 9999) Pr.532 "Trigger source selection 1" = When you selected "0 (error)", choose the error that will output the trigger signal.

5. Trigger level setting (Pr.534, Pr.535) A trigger is enabled when the value of the data set in Pr. 532 "Trigger source selection 1" reaches the trigger level set in Pr. 534 on the trigger condition set in Pr. 535. This setting is made valid when Pr. 532 = "1 to 10".

Pr.534 "Trigger level" (-400% to 400%) Refer to the following table for calculation of the trigger level.

Setting Indication Code Setting Indication Code 9999 No error E.0 21 CPU error E.CPU

0 Overcurrent shutoff during acceleration E.OC1 22 Fan fault FN

1 Overcurrent shutoff during constant speed E.OC2 23 Fin overheat E.FIN

2 Overcurrent shutoff during deceleration E.OC3 25 Excessive acceleration deviation detection E.OSD

3 Regenerative overvoltage shutoff during acceleration E.OV1 26 Open cable detection E.ECR

4 Regenerative overvoltage shutoff during constant speed E.OV2 29 Brake sequence error 1 E.MB1

5 Regenerative overvoltage shutoff during deceleration E.OV3 30 Brake sequence error 2 E.MB2

6 Motor overload shutoff E.THM 31 Brake sequence error 3 E.MB3 7 Inverter overload shutoff E.THT 32 Brake sequence error 4 E.MB4

8 Momentary voltage interruption protection E.IPF 33 Brake sequence error 5 E.MB5

9 Undervoltage protection E.UVT 34 Brake sequence error 6 E.MB6 10 Brake transistor alarm detection E.BE 35 Brake sequence error 7 E.MB7

11 Output side ground fault overcurrent protection E.GF 36 24VDC power output short circuit E.P24

12 External thermal operation E.OHT 37 Operation panel power supply short circuit E.CTE 13 Stall prevention E.OLT 38 Lost output phase failure protection E.LF 14 Option alarm E.OPT 39 P12 alarm E.P12 15 Option slot 1 alarm E.OP1 40 Encoder phase error E.EP 16 Option slot 2 alarm E.OP2 46 Error 1 E.E1 17 Option slot 3 alarm E.OP3 47 Error 2 E.E2 18 Parameter storage device alarm E.PE 48 Error 3 E.E3 19 Parameter unit disconnection E.PUE 51 Error 6 E.E6 20 Retry count excess E.RET 52 Error 7 E.E7

REMARKS Set the trigger level (Pr. 534, Pr. 535) when Pr. 532 = "1 to 10". However, the trigger level is made invalid when the channel where "4: alarm display" is set to the trace data CH setting (Pr. 520 to Pr. 529) is used as a trigger source.

Trigger Data Reference Value Trigger Data Reference

Value Trigger Data Reference Value

Speed Pr.55 Converter voltage peak value 400V/800V Motor output Inverter

capacity Output current value Pr.56 Input status (DI) --- Feedback pulse 0ffff/4 Output voltage value 400V/800V Output status (DO) --- Torque monitor Pr.866

Alarm display 1 Load meter Pr.866 U phase output current Rated current Set speed Pr.55 Motor exciting current 4096/rating V phase output current Rated current

Output frequency 120 Position pulse 0ffff/4 W phase output current Rated current Motor torque Pr.866 Energization time 0ffff/4 Torque current Rated current

DC bus voltage 500V/1000V Operation time 0ffff/4 U phase voltage command value 400V/800V

Regenerative brake duty 100% Motor load factor 100% V phase voltage command value 400V/800V

Thermal load factor 100% Torque command Rated current W phase voltage command value 400V/800V

Output current peak value Pr.56 Torque current command Rated current

CAUTION When setting the trigger level on the setup software, set it within the range -400% to 400%. When directly setting the parameter (Pr. 534) of the inverter, set the calculated trigger level plus 1000 (600% to 1400%).

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Pr.535 "Trigger condition" Select whether a trigger will be enabled on the "leading edge" or on the "trailing edge".

6. Pre-trigger (Pr.536) Pr.536 "Pre-trigger" (0 to 100%)

Used to trace the data before a trigger. Specify the percentage of the trigger point on the assumption that the recording starting point is 0% and the recording end point is 100%. Pr.536 = "85%"

7. Trace start, stop (Pr.538) Pr.538 "Trace start/stop selection"

Select the start or stop of a trace. On completion of a trace, Pr. 538 is automatically set to "0".

Pr. 535 Setting Function 0 Trigger is enabled on the leading edge. 1 Trigger is enabled on the trailing edge.

CAUTION If a trigger occurs during a pre-trigger, the trigger signal is not made valid. The trigger signal is made valid after the pre-trigger time zone has ended.

Pr. 538 Setting Description 0 Trace stop/completion 1 Trace start

CAUTION When "1" is set in Pr. 538, the previous trace data is deleted.

Trigger point

Trigger level (Pr.534)

Leading edge

Trigger point

Trailing edge (Pr.535=0) (Pr.535=1)

Time

Trigger level (Pr.534)

Trigger data Trigger data

Time

Trigger point

Trace record

Recording length

Pre-trigger 85% 15%

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(5) Parameter check

Parameter check screen 1) Present setting

Parameter value currently stored in the inverter. 2) Updated value

New parameter value set using the trace function. 3) OK

Checking the parameter setting and clicking [OK] writes that value to the parameter. Completion of write returns to the trace function oscilloscope screen.

4) NG Clicking [NG] returns to the trace function setting screen without write to the parameter being performed.

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2.5 Diagnosis 2.5.1 VFD Status Choosing the [Diagnosis] [VFD Status] command in the menu displays the following screen.

VFD Status: Displays the output current, output voltage, DC link V, Regenerative brake duty, THM factor, Power on Time and Running Time data of all inverter stations specified in the system settings in real time. The data can also be locked by pressing the [Hold] button (Alt+D). The values displayed can be switched between absolute value indication and % indication (Alt+V).

2.5.2 Diagnosis Choosing the [Diagnosis] [Diagnosis] command from the menu displays the following screen:

Alarm

Diagnosis (Alarm): Click the [Block Read] button (Alt+B) to batch-read the information of the inverters where alarms have occurred. By clicking the corresponding item, its comment appears.

Alarm Clear (Alt+C) Clicking the [Alarm Clear] button clears the alarm history of the chosen station inverter.

VFD Reset (Alt+R) Clicking the [VFD Reset] button resets the chosen station inverter.

CAUTION This command can be chosen in the online mode only.

CAUTION The FR-E500 series or FR-S500 series displays only the output currents/output voltages.

CAUTION This command can be chosen in the online mode only.

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No Alarm

Diagnosis (No Alarm): Shows the diagnosis items. When you choose the corresponding item, the panel appears. Enter data in accordance with the display. As a result, the estimated cause, etc. is shown. For diagnosing the running status, the online mode must be selected.

[Alarm occurrence in online mode] If an inverter alarm has occurred in the online mode, the following panel appears:

Clicking the [Yes] button shows the Diagnosis (Alarm) screen. Clicking the [Help] button shows the alarm detail help.

CAUTION The above alarm panel appears only once in the online mode. Once you have closed the alarm panel, it will not appear even during alarm occurrence. By changing the online mode to the offline, then to the online again, however, the panel will appear again if an alarm has occurred.

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2.6 Test Running

2.6.1 Test Running

Choosing the [Test Running] [Test Running] command from the menu displays the following screen.

Operation procedure 1)Set the station number of the inverter to be run and the operation mode (PU or LNK (Link) operation).

2)Enter the running frequency (running speed for the FR-V500 series) and press the key to confirm. 3)Click the [JOG FWD] (Shift+F5) or [JOG REV] (Shift+F6) button. The motor rotates while the button is being

pressed. The output frequency (speed for the FR-V500 series), output voltage and output current are monitored on the screen.

2.6.2 Auto Tuning

Choosing the [Test Running] [Auto Tuning] command from the menu enables auto tuning. You have to set the auto tuning parameters in advance. If they have not been set, the following screen appears:

CAUTION This command can be chosen in the online mode only.

CAUTION 1. If your inverter is the FR-E500 series, set any value other than "0" in Pr. 146 "frequency setting com-

mand selection". 2. When selecting [JOG REV (Shift+F6)] for the FR-S500 series, set "---" in Pr. 63 "STR terminal function

selection". Setting other than "---" does not enable [JOG REV (Shift+F6)]. 3. The inverter stops if the F6 key is pressed and then released while the inverter is running with [JOG

FWD (shift+F5)]. Likewise, the inverter also stops if the F5 key is pressed and then released during running with [JOG REV (shift+F6)].

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1) Set the station number of the inverter to be run and the operation mode (PU or LNK (Link) operation).

2) Confirmation of the auto tuning parameters Clicking the [Check] button (Alt+C) shows the parameters on the screen in a dialog box.

After entering all parameter set values, click the [Blk Write] button to write the new parameter values to the inverter.

3) Click the [FWD] (Alt+D) or [REV] (Alt+R) button. The LED block and monitor screen display the auto tuning status. When Pr. 96 = "101", the motor is rotated. The motor stops on completion of auto tuning. If the auto tuning has failed, follow the dialog box instructions.

CAUTION 1. In the offline mode, test running and auto tuning cannot be performed. 2. Before starting test running, check and if necessary adjust the parameters. Not doing so may cause

some machines to perform unexpected operation. 3. Provide safety backup devices such as emergency brakes to ensure that the machinery and equip-

ment are not put in hazardous conditions if the inverters become faulty. 4. Auto tuning is not available for the FR-F500 series and FR-S500 series. (Can be displayed on the

screen.)

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2.7 Advanced Function

2.7.1 Machine analyzer (for FR-V500 series only)

Machine analyzer reads and analyzes the torque and speed data available when the inverter oscillates the motor at random torque for about 0.5 to 4 seconds. This allows measurement of the response frequency characteristic of speed relative to the motor torque of the machine so that you can grasp the frequency at which the mechanical system has the resonance point.

(1) Machine analyzer screen Choosing the [Advanced function] [Machine analyzer] command in the menu displays the following screen. Before starting machine analyzer operation, set the oscillation conditions and oscillation mode.

Machine analyzer screen Various buttons, status indications

1) Waveform data Frequency characteristic measurement results are displayed in the board chart (gain, phase).

2) Start Used to start Machine analyzer.

3) Stml Condition Set the oscillation conditions for Machine analyzer.

4) Stml Mode Set the oscillation mode for Machine analyzer.

5) Resonance point, opposite resonance point cursors Used to directly enter and specify the resonance point and opposite resonance point when they cannot be detected automatically.

6) Y-axis Scale Optimization Used to change the scale automatically so that the waveform is contained within the screen.

CAUTION 1. The machine analyzer function is available for only the system that can perform PLG vector control

with the FR-V500 series. 2. The machine analyzer function is not performed in any of the following cases.

During inverter operation When the second motor is selected (Pr. 450 "9999") When the control mode is other than the PLG vector control mode (Pr. 800 "0 to 5")

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Advanced Function

(2) Machine analyzer setting Make the following settings when using Machine analyzer. 1) Stml condition

"% of rated Torque".................................... Set the maximum oscillation torque for oscillating the motor under a random torque command. (Setting range: 1 to 100%)

"Stroke"...................................................... Set the rotation range permitted for oscillation, beginning at the motor position when Machine analyzer is started. If this range is exceeded, Machine analyzer is stopped immediately, and the motor is coasted in the vertical shaft mode or is coasted after deceleration in the normal mode. (Setting range: 1 to 1000 revolutions)

2) Stml mode "Normally Mode" ................The inverter operates in the torque control mode, oscillating the motor ran-

domly. "Vertical Axis Mode"...........A servo lock is placed in the speed control mode, preventing a drop. Gain set-

ting must have been made to ensure that stable servo lock operation will be performed at that time.

REMARKS If a measurement result varies, accurate measurement may not have been made. Accurate measurement may not be made in a mechanical system whose oscillation torque is too small or whose friction is

large. In such a case, increase the oscillation torque and restart Machine analyzer. If the oscillation torque is too large relative to the load inertia moment, an overcurrent or similar alarm may occur. At that

time, reduce the oscillation torque and restart Machine analyzer. Starting oscillation switches to the torque control mode automatically, shifting a position. Before starting operation after

oscillation, therefore, always make a home position return.

REMARKS In "vertical shaft mode"

The accuracy of 100Hz or less on the low frequency side may become low. Too high setting of the position loop gain (Pr. 422) may lower the measurement accuracy.

CAUTION When the machine is a vertical shaft, always perform this function in the "vertical shaft mode" since a drop may occur.

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(3) Starting Machine analyzer operation 1) Checking the settings

Click the [Start] button to check the settings of "Stml condition" and "Stml mode". "Stml condition"..................The following screen appears if either or both "% of rated Torque" and "Stroke"

are set outside the setting ranges.

Clicking the [OK] button returns to the Machine analyzer setting screen. "Stml mode" ....................... In the "normally mode", the Machine analyzer operation start screen appears.

The following screen appears when the "vertical axis mode" is selected.

Clicking the [Cancel] button returns to the Machine analyzer setting screen. Clicking the [OK] button displays the Machine analyzer operation start screen.

2) Operation start

Machine analyzer operation start screen Clicking the [Cancel] button returns to the Machine analyzer screen. Clicking the [OK] button starts Machine analyzer and displays the Machine analyzer operation data read sta- tus screen.

CAUTION 1. When Machine analyzer is executed in the vertical shaft mode, a servo lock is first placed, the "Oper-

ation ready 2" signal is then output, and in 0.5 seconds, the motor is started. 2. When an electromagnetic brake is used, assign the "Operation ready 2" signal to any of the output

terminals (DO1 to DO3, ABC) and modify the circuit to open the electromagnetic brake using this sig- nal. If this is not done, a machine drop or an overcurrent or similar alarm may occur. (For details of Pr. 190 to Pr. 192 and Pr. 195 "output terminal function selection", refer to the instruction manual (basics) of the inverter.)

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Advanced Function

(4) Reading the Machine analyzer operation data

When Machine analyzer is started, the following screen appears so that you can check the Machine analyzer progress conditions.

Machine analyzer operation data read status screen Oscillation time varies with the step.

Clicking the [Cancel] button returns to the Machine analyzer screen.

The following screen appears if the motor rotation stroke exceeds the permissible range or the motor speed exceeds 3000r/min during oscillation. Clicking the [OK] button returns to the Machine analyzer setting screen. If the motor rotation stroke exceeds the permissible range

If the motor speed exceeds 3000r/min

On normal completion of Machine analyzer, the frequency characteristics are displayed on the Machine ana- lyzer screen.

Step Oscillation Time Step 1 About 0.5s

Step 2 About 1s

Step 3 About 5s

Analysis About 15s

REMARKS During oscillation, oscillation can be stopped with the [Cancel] button, MRS signal (output stop signal) or the parameter unit

[STOP] key.

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(1) Observation of waveforms The frequency characteristics measured by Machine analyzer are displayed in board charts. For the waveform data, you can change the vertical axis scale and/or move the resonance point and opposite resonance point cursors.

1) Changing the scale Vertical axis .............. Clicking [ ] displays the drop-down list, from which you can choose the unit of the

vertical axis scale. By clicking the " Y-axis scale optimization" button, you can change the scale value to the one that will put the waveform within the screen automatically.

Horizontal axis.......... The horizontal axis is fixed. 2) Moving the zero point position in the waveform

Vertical axis .............. Click the [ ]/[ ] button to move the position of the zero point. Horizontal axi............ The horizontal axis is fixed.

3) Resonance point, opposite resonance point cursors The resonance point (red cursor) and opposite resonance point (yellow cursor) are automatically detected, but they may not be detected automatically depending on the characteristic. In such a case, move the cur- sors to the normal positions by directly rewriting the resonance point and opposite resonance point frequen- cies.

REMARKS Inverters (FR-V500 series) manufactured in and before February 2002 need the trace option unit T-TRC50 to be fitted. Any of the models may be used with the trace option unit if its SERIAL number indicated on the rating plate and package has the fol- lowing numbers or earlier. (Only the first three digits of the control number are printed on the package.)

Refer to page 24 for installation of the trace option unit T-TRC50.

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3)

2)

Type SERIAL FR-V520-1.5K to 7.5K F 2 2 !!!!!!

FR-V520-37K C 2 2 !!!!!!

F 2 2 !!!!!! Symbol Year Month Control number

SERIAL number

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Saving, Reading and Printing the Files

2.8 Saving, Reading and Printing the Files

2.8.1 File types

2.8.2 Saving method 1)*.MEL file

When the system settings and parameter lists to be saved are open, choose the [File] [Save] command from the menu. The "Save As" panel appears. Choose "Save file as type" to save the file with the "File name". Choose the [File] [Save] command in the menu to overwrite the currently open file. If no file is open, the "Save As" panel appears. The file is saved in the "invsupe1" folder in the hard-disk where the Setup S/W is installed.

2)*.ADT, *.MDT, *.MMT, *.ODT, *.HDT, *.TXT, *.CSV and *.XLS files Choose the [File] [Save] command from the menu on the corresponding display screen. The "Save As" panel appears. Choose "Save as type" to save the file with the "File name". The file is saved in the "invsupe1" folder in the hard-disk where the Setup S/W is installed.

3)*.TDT file Choose the [File] [Save] command on the trace screen. Choose a location for the file to be saved and save it with a file name. The file is saved in a TDT file format. You can edit TDT files using various application software, e.g., spreadsheet software, and graph out their traced data, etc.

2.8.3 Reading the file To read the saved file, choose the [File] [Open] command from the menu. The "Open" panel appears. Choose the file to be read and click the [OK] button to read the saved data.

2.8.4 Printing Calling the screen to be printed and choosing the [File] [Print] command in the menu displays the "Print" panel. Make printer and other settings and click the [OK] button to start printing.

File Name Description *.MEL Manages the system settings and parameter lists (all stations) as a single file. *.ADT Manages the alarm history data. (All stations) *.MDT Manages the data indication data in monitoring. (Data on one screen) *.MMT Manages the meter indication data in monitoring. (Data on one screen) *.ODT Manages the oscilloscope data in monitoring. (Data on one screen) *.TDT Controls the trace data of the monitor. *.TXT, *.CSV Saves the parameter list in a text file format. *.PRM Saves the parameter setting information. *.HDT Controls the frequency characteristic measurement data of Machine analyzer.

*.XLS Saves the parameter list in a Microsoft Excel file format. (edditable with Microsoft Excel 97 or later)

CAUTION When saving the file, the stations whose data are not opened are judged as "data absence". Therefore, if the file is saved as it is, the previous data will be erased. Always save the file with the data open.

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Help

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2.9 Help

2.9.1 Help contents

Choosing the [Help] [Contents] command from the menu displays the following screen:

1) About VFD Setup S/W Explains how to use the VFD Setup Software.

2) Applicable VFD Displays a list of inverters with which the VFD Setup Software is compatible.

3) VFD Parameter List Explains each parameter.

4) VFD Alarm List Explains inverter alarms.

5) NAK Error List Explains the errors displayed in the setup software, e.g. NAK error.

2.9.2 Version information

Choosing the [Help] [About VFD Setup S/W] command in the menu displays the copyright, the version information, the user and company names set for installation and other data on the following screen:

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3 ERROR INDICATIONS

3.1 Error codes ..................................................................46

This chapter explains the "error indications" which may be given during use of this product. Always read the instructions before using this software.

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Error codes

3.1 Error codes

3.1.1 Error code lists When any error occurs, the corresponding error code is output to the error code display column (indicated by 3) on the screen on page 6). (1) Error codes related to a communication error (inverter side)

(2) Error codes related to an inverter error

(3) Error codes related to a communication error (personal computer side)

3.1.2 Panel-displayed errors

Error Code (HEX) Error Name Definition

0(00H) Computer NAK error The number of errors consecutively detected in communication data from the computer is greater than the permissible number of retries.

1(01H) Parity error The parity check result does not match the specified parity. 2(02H) Sumcheck error The sum check code in the computer does not match that of the data received by the inverter.

3(03H) Protocol error Data received by the inverter is in wrong protocol or data receiving is not completed within the predetermined time.

4(04H) Framing error The stop bit length is different from the setting. 5(05H) Overrun error New data has been sent by the computer before the inverter completes receiving the present data. 7(07H) Character error The character received is invalid (other than 0 to 9, A to F, control code).

Error Code (HEX) Error Name Definition

17(11H) Outside parameter range Data outside the setting range was specified for the running frequency (running speed), parameter write or like.

18(12H) Operation mode error The present operation mode is not allowed to perform. Change the operation modes. 19(13H) Running The inverter is running. 20(14H) Parameter write inhibit Parameter write is inhibited. 22(16H) No parameters There are no parameters or related parameters have not been set. 23(17H) No options The preset option is not connected to the inverter. 24(18H) Narrow error There is no difference between analog value settings of Pr. 902 (Pr. 904) and Pr. 903 (Pr. 905). 26(1AH) Instruction code error A non-existing instruction code was sent to the inverter.

33(21H) Running in present mode Mode change etc. cannot be made since the inverter is running in the present operation mode.

34(22H) With STF Mode change etc. cannot be made since the forward rotation command is entered. 35(23H) With STR Mode change etc. cannot be made since the reverse rotation command is entered.

36(24H) Operation mode specified Cannot be executed in the present operation mode.

37(25H) Pr. 75 specified Since Pr. 75 is specified, inverter reset cannot be executed.

Error Code Error Name Definition 2000 Normal termination Communication terminated without fault. 2001 Time-out occurrence Communication with the inverter cannot be made.

2002 Send data error occurrence Send data error

2003 Checksum error The sum check code value of the data received by the computer is invalid. 2004 Receive data error Data from the inverter is invalid. 2005 NAK receive Data from the inverter is invalid. 2006 Line offline The present line is offline. 2007 Unconnected This station number is not yet connected.

Display Definition

Program setting environment is invalid. Redo setup again. There is no program file read from the EXE file. The program directory is different.

Data directory is invalid. After starting, make environmental setting. Data directory setting is invalid. The following file is not found. The program is terminated. The user file is not in the specified directory. Time-out occurred. Check the wiring and communication settings. Communication stopped for some reason in the online mode.

REMARKS When making communication with the inverters, set a value other than 0 in Pr. 122 "communication check time interval" on the inverter's operation panel. For the FR-S500 series, set a value other than 0 in the communication parameter n6 (336) "com- munication check time interval". (Refer to the inverter instruction manual for the setting method.)

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4 APPENDICES

4.1 Supplementary Software .............................................48

This chapter provides the "appendices" for use of this product. Always read the instructions before using this equipment.

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Supplementary Software

4.1 Supplementary Software

4.1.1 Introduction

The parameter file edit software (hereafter "PREDIT") is specifically designed to make changes/additions to the models supported by the VFD setup software (hereafter "setup software") and additions/deletions/changes to the display parameters. Please acknowledge that the PREDIT is not supported.

4.1.2 Parameter files

(1) What are parameter files? Parameter files are text files which consist of information on the models compatible with the setup software and the parameter information of those models. Installing the setup software into the personal computer also installs the following files into the directory where the setup software is installed.

Applicable Model Parameter File Name Description

FR-A500

fra520. ine FR-A520-0.4K to 55K fra540. ine FR-A540-0.4K to 55K fra520na. ine FR-A520-0.4K to 55K-NA fra540na. ine fra540ec. ine fra540ch. ine

FR-A540-0.4K to 55K-NA FR-A540-0.4K to 55K-EC FR-A540-0.4K to 55K-CH

FR-A560 fra560na. ine FR-A560-0.75K to 55K-NA

FR-E500

fre520. ine fre520na. ine

FR-E520-0.1K to 7.5K FR-E520-0.1K to 7.5K-NA

fre520w. ine fre52wna. ine

FR-E510W-0.1K to 0.75K FR-E510W-0.1K to 0.75K-NA

fre520s. ine fre52sec. ine fre52sch. ine

FR-E520S-0.1K to 0.75K FR-E520S-0.4K to 2.2K-EC FR-E520S-0.4K to 2.2K-CH

fre540. ine fre540na. ine fre540ec. ine fre540ch. ine

FR-E540-0.4K to 7.5K FR-E540-0.4K to 7.5K-NA FR-E540-0.4K to 7.5K-EC FR-E540-0.4K to 7.5K-CH

FR-A500L

fra52l. ine fra54l. ine fra54lna. ine fra54lec. ine

FR-A520L-75K, 90K FR-A540L-75K to 280K FR-A540L-75K to 280K-NA FR-A540L-75K to 280K-EC

FR-F500

frf520. ine FR-F520-0.75K to 55K frf540. ine frf540ec. ine frf540ch. ine

FR-F540-0.75K to 55K FR-F540-0.75K to 55K-EC FR-F540-0.75K to 55K-CH

FR-S500

frs520. ine frs520na.ine frs510w.ine frs510wna.ine frs520s. ine frs52sec. ine frs52sch. ine frs540. ine frs540na. ine frs540ec. ine frs540ch. ine

FR-S520-0.1K to 3.7K-R FR-S520-0.1K to 3.7K-NA FR-S510W-0.1K to 0.75K-R FR-S510W-0.1K to 0.75K-NA FR-S520S-0.1K to 1.5K-R FR-S520S-0.2K to 1.5K-ECR FR-S520S-0.2K to 1.5K-CHR FR-S540-0.4K to 3.7K-R FR-S540-0.4K to 3.7K-NAR FR-S540-0.4K to 3.7K-ECR FR-S540-0.4K to 3.7K-CHR

FR-V500 frv520. ine FR-V520-1.5K to 55K frv540. ine FR-V540-1.5K to 55K

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(2) Parameter file structure The parameter file consists of a machine information part and a parameter information part. The machine infor- mation part is used to choose a model on the system setting screen and the parameter information part is used to chiefly display the parameter screen. [Machine information part] Model name (such as FR-A520) Model type code (NA, EC, CH...) Power supply capacity (100V class: 1, 200V class: 2, 400V class: 4) Model code

(FR-A500 series: &HA5, FR-E500 series: &HBF, FR-F500 series: &HF5, FR-S500 series: &H55, FR-V500 series: &25H)

Allowable capacity (0.1K, 0.2K, 0.4K...) Rated current value (0.8A, 1.5A, 3A...) Connectable option (A5AX, A5AY...) Number of parameters

[Parameter information part] Help context ID (number for help display) Parameter number Name Unit (Hz, r/min, V, A...) Step (1, 0.1, 0.01, 0.001) Factory setting Function-based list code (parameter displayed on the functional list screen) Setting range check flag (0: checked, 1: not checked) Setting range

4.1.3 Parameter file edit software (PREDITE) This software is specifically designed to edit the parameter file for the setup software, and cannot be used for other applications. By editing and saving the file, it can be displayed on the parameter screen (all list, functional list, etc.) as a setup software parameter file. You can make an updated inverter version or a special or another inverter compatible with the setup software.

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(1) Input items 1) Pr ................................. Write the parameter number. Set the parameter numbers in the ascending order and

do not write the same parameter number. 2) Name ........................... Write the parameter name. 3) Setting Range.............. Enter the parameter setting range and use "," and "-" for separation.

Example: 0 to 6, 9999 0-6, 9999 4) Range .......................... Choose whether the setup software range is checked or not. By checking this col-

umn, a range check is not made in the setup software.

5) Minimum ...................... Choose the minimum setting increment from among "1", "0.1", "0.01" and "0.001" in the combo box.

6) Unit .............................. Write the parameter unit. This column may be left blank for parameters which do not have units.

7) Factory setting ............. Write the value set at the factory. 8) Help ID......................... Write the help ID. Used to display help relating to the chosen parameter. When add-

ing a parameter, you cannot add its help and therefore set "0". 9) Function list ................. Enter the hexadecimal code as the function class for display on the functional list for-

mat screen. Choosing "Edit" "Functional List Code" shows the functional list code edit panel.

10) Condition count .......... Shows the number of conditions set in parameter read condition editing.

(2) Functions 1) File

Open Opens the parameter file (Tool button available)

Close Closes the currently open file.

Save Overwrites the currently open file. (Tool button available)

Save As Shows the file saving combo box and saves the file with a new name.

Print Prints the open file. (Tool button available)

Exit Exits from the software.

REMARKS The number of parameters and the number of setting ranges need not be entered as they are set automatically.

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7) 8)5)

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2) Edit (may also be displayed with the right button of the mouse) Cut

Cuts the currently chosen range and pastes it to the clipboard. (Tool button available) Copy

Copies the currently chosen range and pastes it to the clipboard. (Tool button available) Paste

Pastes the data of the clipboard. (The clipboard data from another application may not be pasted cor- rectly.) (Tool button available)

Insert & Paste Inserts the data cut or copied on a line basis. (Tool button available)

Insert Inserts a blank line to above the currently chosen line. (Tool button available)

Delete Deletes the currently chosen line. (Tool button available)

Functional list code edit Shows the functional code list of the currently chosen parameter. Clicking the item to be displayed in the functional list and pressing the [OK] button automatically shows the functional list code.

Functional List Code Edit Panel Pr read condition edit

When performing Block Read or Block Check by the VFD setup software, no error indication will be dis- played by setting the parameter reading conditions, even if the parameters of inverters parameter setting and setup software do not match. (Refer to page 14 for Block Read and Block Check of the parameters.)

REMARKS Refer to the inverter instruction manual for the parameter reading conditions of the inverter.

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1) Parameter condition Set the read disable conditions for other parameters. When adding a condition, press the [Add] button and add one row. Enter the parameter number that will be the read disable condition into the Pr. item, = (equal) or <> (not equal) as the condition, and the parameter setting into the Cond1 item. When the setting has a range, enter the range into Cond1 and Cond2. To delete the condition, choose the item to be deleted and press the [Delete] button. ex) When Pr. 19=9999, Pr. 60=1 to 6, Pr. 71<>2

2) Operation mode condition Set the read disable conditions for the operation mode. When adding a condition, press the [Add] button and add one row. Choose = (equal) or <> (not equal) as the condition, and select the mode disabled for read from Op mode. To delete the condition, choose the item to be deleted and press the [Delete] button. ex) In the external mode the reading is not correct

3) Inboard option condition Set the read disable conditions for option fitting. When adding a condition, press the [Add] button and add one row. Choose = (equal) or <> (not equal) as the condition, and enter the option name into the Option item. The option name to be entered is the one set in the model information panel of the setup software. To delete the condition, choose the item to be deleted and press the [Delete] button. ex) The parameter can only be read with FR-A5AX fitted

4) Number of Condition Display setting condition. Automatic setting "OK" button. Machine information edit

Shows the machine information part edit panel of the parameter file. (Tool button available) You can edit the inverter type, voltage code, model code, inverter rating, rated current and compatible options.

Machine Information Edit Panel

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3) Display Display column

Choose whether the display column (refer to the input items) is to be displayed or not. Toolbar

Choose whether the toolbar is to be displayed or not. Status bar

Choose whether the status bar is to be displayed or not. Font

Choose the font of the display list. The set font is also displayed after the next startup. 4) Window

Cascade display Shows the displayed windows side by side.

Tile display Shows the displayed windows one over another.

5) Help Contents

Shows the contents of help. Version information

Shows the version information panel. 6) Parameter count

Shows the number of parameters currently being displayed. Line insertion or deletion automatically changes the number of parameters.

7) Parameter No. Shows the parameter number currently being chosen. After entering the parameter number, pressing the return key displays the entered parameter number at the front of the list.

8) Automatic cell width adjustment Double-click the item name (Pr., name, range check ...) in the list to adjust the cell width to the maximum width of the column.

9) Mouse right-click Press the right button of the mouse to show the edit menu.

10) Tool button function display Placing the mouse on the tool button shows the button function details on the status bar.

11) By relating this software with the parameter file, you can open this software from the parameter file.

CAUTION Before editing the parameter file, always make a backup copy of the file.

Manualsnet FAQs

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