Mitsubishi Electric A800-E Instruction Manual
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Mitsubishi Electric A800-E Instruction Manual

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INVERTER
A800-E / F800-E
ETHERNET FUNCTION MANUAL
Ethernet communication function
This manual explains the Ethernet communication specifications. For the functions not found in this manual, refer
to the Instruction Manual (Detailed) of the FR-A800/FR-F800 inverter.
In addition to this manual, please read the Instruction Manual (Detailed) of the FR-A800/FR-F800 inverter
carefully. Do not use this product until you have a full knowledge of the equipment, safety information and
Please forward this manual to the end user.
800
800

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  • Page 1 INVERTER A800-E / F800-E ETHERNET FUNCTION MANUAL Ethernet communication function This manual explains the Ethernet communication specifications. For the functions not found in this manual, refer to the Instruction Manual (Detailed) of the FR-A800/FR-F800 inverter. In addition to this manual, please read the Instruction Manual (Detailed) of the FR-A800/FR-F800 inverter carefully.

  • Page 2: Table Of Contents

    CONTENTS 1 INTRODUCTION Ethernet communication overview Ethernet connector Ethernet cable wiring precautions Removal of the Ethernet board 2 PARAMETER Parameter list (by parameter number) Parameter list (by function group) (D) Operation command and frequency command 2.3.1 Selection of the command source during communication operation ..............9 (M) Monitor display and monitor output signal 2.4.1 Output terminal function selection ........................13...

  • Page 3: Introduction

    Ethernet communication overview INTRODUCTION Ethernet communication overview The FR-A800-E/FR-F800-E inverter is equipped with an Ethernet board. Communication with network devices can be made via Ethernet by connecting an Ethernet cable to the Ethernet connector on the Ethernet board. Programmable controller...

  • Page 4: Ethernet Connector

    Ethernet connector Ethernet connector Ethernet communication specifications Item Description Category 100BASE-TX/10BASE-T Data transmission speed 100 Mbps (100BASE-TX) / 10 Mbps (10BASE-T) Transmission method Baseband Maximum segment 100 m between the hub and the inverter length Number of cascade Up to 2 (100BASE-TX) / up to 4 (10BASE-T) connection stages Interface RJ-45...

  • Page 5: Ethernet Cable Wiring Precautions

    Ethernet cable wiring precautions Ethernet cable wiring precautions This section explains Ethernet cable connection and the relevant precautions. Handling of the Ethernet cable • Do not touch the conductors of the cable or the connector on the inverter. Keep the conductors free of dust or dirt. Handling the conductors with oily hands or dust/dirt adhesion to the conductors may cause transmission losses and impair normal data link operation.

  • Page 6: Removal Of The Ethernet Board

    • For reinstalling the Ethernet board to the inverter, remove the plug-in option installed to the option connector 2 and install the Ethernet board and its earth plate in the reverse order. • Remove the Ethernet board on the FR-A800-E inverter to install the FR-A8NS and FR-A8AP/FR-A8AL for the SSCNET III(/ H) communication.

  • Page 7: Parameter

    Parameter list (by parameter number) PARAMETER Parameter list (by parameter number) The following parameters are dedicated to Ethernet communication. Set the parameters according to application. For other parameters, refer to the Instruction Manual (Detailed) of the FR-A800/FR-F800 inverter. Minimum Refer Initial Customer Name...
  • Page 8 The other available settings depend on the inverter. For details, refer to the description of Pr.190 to Pr.196 (Output terminal function selection) in the Instruction Manual (Detailed) of the FR-A800/FR-F800 inverter.  The setting is available for the FR-A800-E only. PARAMETER...

  • Page 9: Parameter List (By Function Group)

      N631 1428 Ethernet function selection 2 N632 1429 Ethernet function selection 3  The setting is available for the FR-A800-E only. Link speed and duplex mode N641 1426 H: Protective function parameter selection N642 1455 Keepalive time Parameters to protect the motor and the inverter.

  • Page 10: D) Operation Command And Frequency Command

    (D) Operation command and frequency command (D) Operation command and frequency command Refer to Purpose Parameter to set page Selection of the command To select the command source source during P.D012, P.D013 Pr.550, Pr.551 during communication operation communication operation To select the torque command Torque command source method in the torque control P.D400...
  • Page 11 (D) Operation command and frequency command Selection of the command source of the PU operation mode (Pr.551) • Any of the PU connector, Ethernet connector, or USB connector can be specified for the command source in the PU operation mode. •...
  • Page 12 (D) Operation command and frequency command Controllability through communication Controllability in each operation mode EXT/PU EXT/PU NET operation NET operation Command Condition External combined combined (when the (when a Item source (Pr.551 setting) (EXT) operation operation Ethernet communication operation operation mode 1 mode 2 connector is...
  • Page 13 (D) Operation command and frequency command  The operation is as set in Pr.338 Communication operation command source and Pr.339 Communication speed command source. (Refer to the Instruction Manual (Detailed) of the FR-A800/FR-F800 inverter.)  At occurrence of communication error, the inverter cannot be reset. ...

  • Page 14: M) Monitor Display And Monitor Output Signal

    (M) Monitor display and monitor output signal (M) Monitor display and monitor output signal Refer to Purpose Parameter to set page To assign functions to the output Output terminal function P.M400 to P.M406, Pr.190 to Pr.196, terminals assignment P.M410 to P.M412 Pr.313 to Pr.315 2.4.1 Output terminal function selection...

  • Page 15: N) Operation Via Communication And Its Settings

    (N) Operation via communication and its settings (N) Operation via communication and its settings Refer Purpose Parameter to set page To start operation via Initial setting of operation P.N001, P.N010, Pr.342, Pr.349, communication via communication P.N013, P.N014 Pr.502, Pr.779 P.N600 to P.N603, P.N610 to P.N613, P.N630 to P.N632, Pr.1424 to Pr.1429,...
  • Page 16 (N) Operation via communication and its settings Communication EEPROM write selection (Pr.342) • When parameter write is performed via the inverter PU connector, USB communication, the Ethernet connector, or a communication option, the parameters storage device setting can be switched to RAM only from both EEPROM and RAM. Use this function if parameter settings are changed frequently.
  • Page 17 (N) Operation via communication and its settings • The following charts show operations when a communication line error occurs. Pr.502 = "0 (initial value)" Pr.502 = "1" Fault detected Fault cleared Fault cleared Fault detected Communication Communication fault fault Motor Motor coasting decelerates Output frequency...
  • Page 18 (N) Operation via communication and its settings • The following charts show operations when a communication option is used and a fault occurs. Pr.502 = "0 (initial value) or 3" Pr.502 = "1 or 2" Fault detected Fault cleared Fault cleared Fault detected Fault Fault...
  • Page 19 (N) Operation via communication and its settings CAUTION  When Pr.502 = "3" and a communication line error occurs, or Pr.502 = "4" and a communication line error or a communication option fault occurs, the operation continues. When setting "3 or 4" in Pr.502, provide a safety stop countermeasure other than via communication.

  • Page 20: Initial Settings And Specifications Of Ethernet Communication

    (N) Operation via communication and its settings 2.5.2 Initial settings and specifications of Ethernet communication Use the following parameters to perform required settings for Ethernet communication between the inverter and other devices. To make communication between other devices and the inverter, perform the initial settings of the inverter parameters to match the communication specifications of the devices.
  • Page 21 (N) Operation via communication and its settings Initial Setting Name Description value range Ethernet communication is available, but the inverter trips in the NET operation mode. Set the interval of the communication check (signal loss detection) time for all devices with IP addresses in the range 1432 Ethernet communication 9999...
  • Page 22 (N) Operation via communication and its settings Ethernet function selection (Pr.1427 to Pr.1429) Refer to the Instruction Manual of the device connected via Ethernet, and set Pr.1427 to Pr.1429 Ethernet function selection 1 to 3 according to the application and protocol. A communication socket is provided only for the selected application.
  • Page 23 (N) Operation via communication and its settings IP address (Pr.1434 to Pr.1437) Enter the IP address of the inverter to be connected to Ethernet in Pr.1434 to Pr.1437. (Enter the IP address assigned by the network administrator.) Set the value in the first octet in Pr.1434. Set the value in the second octet in Pr.1435.
  • Page 24 In order to protect the inverter and the system against unauthorized access by external systems, take additional security measures. Mitsubishi Electric Corporation will not take any responsibility for any problems in the inverter and the system incurred by unauthorized access.
  • Page 25 (N) Operation via communication and its settings Ethernet IP address for command source selection (Pr.1449 to Pr.1454) • To limit the network devices that send the operation or speed command through the Ethernet network (Modbus/TCP or CC- Link IE Field Network Basic), set the range of IP addresses of the devices. •...
  • Page 26 (N) Operation via communication and its settings Ethernet signal loss detection (Pr.1431) Use Pr.1431 to set the operation when Ethernet communication is interrupted by physical factors including disconnection of the Ethernet board or Ethernet cable or damages on the Ethernet cable. Pr.1431 Description Operation panel display/indicator...

  • Page 27: Melsoft / Fa Product Connection

    (N) Operation via communication and its settings 2.5.3 MELSOFT / FA product connection FR Configurator2, GOT, or a relay station (programmable controller) can be connected via Ethernet. Initial setting • Set any value from "5000 to 5002, 5006 to 5008" in any of Pr.1427 to Pr.1429 Ethernet function selection 1 to 3 to select the MELSOFT / FA product connection for the application.

  • Page 28: Slmp

    Ethernet.) (Refer to page 21.) • Enter the Ethernet communication network number in Pr.1424 and the Ethernet communication station number in Pr.1425. (Refer to page 25.) NOTE • The FR-A800-E/FR-F800-E inverter supports binary codes only. (ASCII codes are not supported.) GROUP PARAMETER...

  • Page 29: Communication Procedure

    (N) Operation via communication and its settings Communication procedure • Using TCP/IP The following is the communication procedure when executing SLMP communication with TCP/IP. With TCP/IP, connections are established when communication is executed, and whether data is received normally or not is checked to ensure reliability of data.
  • Page 30 (N) Operation via communication and its settings • Using UDP/IP The following is the communication procedure when executing SLMP communication with UDP/IP. With UDP/IP, connections are not established when communication is executed, and whether data is received normally or not is not checked. Therefore, the line load is low. However, data is less reliable as compared to TCP/IP. Inverter External device Sending a request message...

  • Page 31: Message Format

    (N) Operation via communication and its settings Message format • Request message format The following is the format of a request message sent from the external device to the inverter. The request message data length is 2047 bytes at the maximum. Header Subheader Destination...
  • Page 32 (N) Operation via communication and its settings Item Size Endian Description Set the waiting time until the inverter completes reading/writing after receiving a request message from the external device. When the inverter does not return the response message within the waiting time, the response message will be discarded.
  • Page 33 (N) Operation via communication and its settings Commands • The following table lists the commands and subcommands. (When the inverter receives a command other than listed in the following table, it returns an error code (HC059).) Refer Category Operation Command Subcommand Description to page The inverter reads the value in bit devices (with...
  • Page 34 (N) Operation via communication and its settings Data specified in the command • Device code A one byte numerical value is sent. • Device No. (first device No.) specification The device No. is specified for reading/writing data. When consecutive devices are specified, the first device No. is specified. The device No. is specified in decimal or hexadecimal depending on the device type.
  • Page 35 (N) Operation via communication and its settings • Read data / write data The value read from the device is stored for reading. The value to be written to the device is stored for writing. The data is arranged differently between reading/writing in bit units (subcommand: H0001) and reading/writing in word units (subcommand: H0000).
  • Page 36 (N) Operation via communication and its settings (Example) Data stored in D50/D51 Number First Device device code Data Data devices H32 H00 H00 H02 H00 HAB H56 H0F H17 Stored values for request or response data Values to be read or written The data in D50 is H56AB The data in D51 is H170F...
  • Page 37 (N) Operation via communication and its settings • Read random The inverter reads the value in the devices with the specified numbers. The devices with non-consecutive numbers can be specified. • Request data Specify the devices for the specified number of devices. Number Number Word access...
  • Page 38 (N) Operation via communication and its settings • Write random The inverter writes the value in the devices with the specified numbers. The devices with non-consecutive numbers can be specified. • Request data Writing data in bit units Specify the devices for the specified number of devices. Number of devices Device...

  • Page 39: Error Code

    The inverter model is stored. Up to 16 characters can be stored. If the model name is shorter than 16 Model characters, a space (H20) is stored instead of a character. (Example) FR-A800-E inverter: FR-A800-E Model code Fixed to H054E Error code...

  • Page 40: Modbus/Tcp

    (N) Operation via communication and its settings 2.5.5 Modbus/TCP The Modbus/TCP protocol allows transmission of Modbus messages via Ethernet communication. Communication specifications • The communication specifications are given below. Item Description Communication protocol Modbus/TCP protocol Conforming standard Open Modbus/TCP specification Waiting time setting Not used Maximum number of connections...
  • Page 41 (N) Operation via communication and its settings Message frame (protocol) • Communication method Basically, the master sends a query message (inquiry), and slaves return a response message (response). At normal communication, the transaction identifier, protocol identifier, and function code are copied as they are, and at erroneous communication (illegal function code or data code), bit 7 (H80) of the function code is turned ON, and the error code is set at data bytes.

  • Page 42: Function Code List

    (N) Operation via communication and its settings Function code list Message format Function name Read/write Code Outline Refer to page The data of the holding registers is read. The various data of the inverter can be read from MODBUS registers. System environmental variable (Refer to page 48.)
  • Page 43 (N) Operation via communication and its settings Read holding register (reading data of holding registers) (H03 or 03) • Query message a. Transaction b. Protocol c. Length d. Unit f. Starting e. Function g. No. of points identifier identifier field identifier address (8 bits)
  • Page 44 (N) Operation via communication and its settings Preset single register (writing data to holding registers) (H06 or 06) • The content of the system environmental variables and inverter parameters (refer to MODBUS register on page assigned to the holding register area can be written. •...
  • Page 45 (N) Operation via communication and its settings Diagnostics (diagnosis of functions) (H08 or 08) • A communication check can be made since the query message is sent and the query message is returned as it is as the return message (subfunction code H00 function). Subfunction code H00 (Return query data) •...
  • Page 46 (N) Operation via communication and its settings Preset multiple registers (writing data to multiple holding registers) (H10 or 16) • Data can be written to multiple holding registers. • Query message b. Protocol c. Length d. Unit f. Starting g. No. of Transaction Byte i.
  • Page 47 (N) Operation via communication and its settings Read holding register access log (H46 or 70) • Queries by function codes H03 and H10 are supported. The number and start address of holding registers successfully accessed by the previous communication are returned. "0"...
  • Page 48 (N) Operation via communication and its settings Error response • An error response is returned if the query message received from the master contains an illegal function, address or data. No response is returned for parity, overrun, framing, and busy errors. •...

  • Page 49: Inverter Status

    The data is written as an operation mode setting for writing. The data is read as the operation mode status for reading.  The Pr.811 setting is available only for the FR-A800-E inverter. [Inverter status / control input command] Definition...
  • Page 50 (N) Operation via communication and its settings • Real time monitor For the details of the register numbers and the monitor items for the real time monitor, refer to the description of Pr.52 in the Instruction Manual (Detailed) of the FR-A800/FR-F800 inverter. •...
  • Page 51 (N) Operation via communication and its settings Register Parameter name Read/write Remarks 42118 Terminal 6 bias (torque) Read/write Analog value (%) set to C35 (928) C35 (928) Terminal 6 bias (torque) Analog value (%) of the voltage applied to terminal 6 of 43928 Read (terminal analog value)

  • Page 52: Cc-Link Ie Field Network Basic

    The torque limit input method can be selected. H700 method selection   The setting is applied after an inverter reset or power-ON.  The setting is available for the FR-A800-E only. Communication specifications Item Description Transmission speed 100 Mbps Communication method...
  • Page 53 With (in 1 or 0.1 increments) With -32768 to 32767 (two's complement)  Pr.811 is only available for the FR-A800-E. • Relationship between the start command and sign (Pr.541="1") Start command Sign of the frequency command Actual run command Forward rotation...
  • Page 54 The above 8 bit is always H00 even if a value other than H00 is set.  For the FR-A800-E, when Pr.804="3 or 5" during torque control under Real sensorless vector control or vector control, a torque command value is set in RWwn+1.
  • Page 55 RWrn+3 Read data  For the FR-A800-E, when Pr.804="3 or 5" during torque control under Real sensorless vector control or vector control, a torque command value is set in RWwn+1.  "n" indicates a value determined according to the station number setting.
  • Page 56 (N) Operation via communication and its settings Description Description Refer to Refer to Address Address   page page Upper 8 bits Lower 8 bits Upper 8 bits Lower 8 bits RWwn+D H00 (Free) / Torque limit (2nd quadrant) RWrn+D ...

  • Page 57: Details Of Input And Output Signals

     If "1" is set in these registers at the same time while Pr.544 = "0," only one of these is executed.  The torque command / torque limit setting is available only for the FR-A800-E.  Refer to page 18 for operation conditions of inverter reset.
  • Page 58 Signals are not assigned in the initial setting. Use Pr.313 to Pr.315 to assign signals to the devices RX9 to RXB. The setting range depends on the inverter. For details, refer to the description of Pr.190 to Pr.196 (Output terminal function selection) in the Instruction Manual (Detailed) of the FR-A800/FR-F800 inverter.  The torque command setting is available only for the FR-A800-E. GROUP PARAMETER...

  • Page 59: Details Of Remote Register

    (N) Operation via communication and its settings Details of remote register  Remote register (master module to inverter) • Remote register definition Device No. Signal Description Set the monitor code to be referenced (Refer to page 62). When "1" is set in RYC, data of RWw0 Monitor code1, 2 specified monitored items will be stored in RWr0, RWr1.
  • Page 60 Read data For a normal reply, the reply data to the instruction specified by the instruction code is set. GROUP  When position control is selected for the FR-A800-E, the number of pulses is monitored when Pr.430 ≠ "9999". PARAMETER...

  • Page 61: Instruction Codes

    Set data is outside the permissible data range.  The contents of the reply code 1 are changed when torque commands are given or the torque is limited from the FR-A800-E (when Pr.544="14, 18, 24, or 28"). The upper 4 bits of the reply code 1 are used as the reply code to the torque command / torque limit, and the lower 4 bits are used as the reply code to the frequency command.
  • Page 62  Read inverter.)) • For the FR-A800-E, when Pr.544="0, 1, or 12" and Pr.804="3 or 5" during torque Set frequency (EEPROM) control under Real sensorless vector control or vector control, torque command values are read. The setting range depends on Pr.804.

  • Page 63: Monitor Codes

     When position control is selected for the FR-A800-E, the number of pulses is monitored when Pr.430 ≠ "9999".  Write data is in hexadecimal, and only last two digits are valid. (The upper two digits are ignored.) ...
  • Page 64 (N) Operation via communication and its settings Torque command / torque limit using the CC-Link IE Field Network Basic (only for the FR-A800-E) Torque commands can be given or the torque can be limited on the CC-Link IE Field Network Basic under Real sensorless vector control, Vector control, or PM sensorless vector control.
  • Page 65 (N) Operation via communication and its settings  Torque command setting method and parameter for speed limit Pr.804 Pr.544 Torque command setting method Parameter for setting setting (Any method below can be chosen) speed limit • Set the torque command value in RWwn+1, and "1" in RYD or RYE. •...

  • Page 66: Programming Examples

    (N) Operation via communication and its settings Programming examples This chapter provides programming examples which control the inverter with sequence programs. Item Program example Refer to page Reading the inverter status Reading the inverter status from the buffer memory of the master station Setting the operation mode Selecting the network operation mode Setting the operation commands...

  • Page 67: Program Example For Reading The Inverter Status

    (N) Operation via communication and its settings • The relation between the device of the programmable controller CPU and remote register (RWw, RWr) of the remote device station is as follows: The devices used actually are indicated in shaded regions. Programmable controller CPU Remote device station (station 1)

  • Page 68: Program Example For Setting The Operation Mode

    (N) Operation via communication and its settings  Program example for setting the operation mode The following explains a program to write various data to the inverter. The following explains a program to change the operation mode of station 1 inverter to network operation. •...

  • Page 69: Program Example For Monitoring The Output Frequency

    (N) Operation via communication and its settings  Program example for monitoring the output frequency The following explains a program to read monitor functions of the inverter. The following program reads the output frequency of station 1 inverter to D1. Output frequency read code: H0001 (hexadecimal) Refer to page 62...

  • Page 70: Program Example For Parameter Writing

    (N) Operation via communication and its settings  Program example for parameter writing The following program changes the setting of Pr.7 Acceleration time of station 1 inverter to 3.0 s. • Acceleration time writing instruction code: H87 (hexadecimal) • Acceleration time set data: K30 (decimal) For the parameter instruction codes, refer to the Instruction Manual (Detailed) of the FR-A800/FR-F800 inverter.

  • Page 71: Program Example For Fault Record Reading

    (N) Operation via communication and its settings • Program example for writing data to EEPROM Modify the program on page 69 as follows: Frequency setting command Y100D  Y100E Frequency setting completion X100D  X100E <Timing chart when writing to RAM> <Timing chart when writing to EEPROM>...
  • Page 72 (N) Operation via communication and its settings Instructions  Operating and handling instructions • The inverter only accepts the commands from the programmable controller during operation using the CC-Link IE Field Network Basic. The run command from external and parameter unit is ignored. •...

  • Page 73: Inverter-To-Inverter Link Function

    Inverter-to-inverter link function Inverter-to-inverter link function The inverter-to-inverter link function enables communication between multiple inverters connected by Ethernet in a small-scale system by using the I/O devices and special registers of the PLC function. The inverter-to-inverter link function is enabled by simply setting Pr.1124 Station number in inverter-to-inverter link and Pr.1125 Number of inverters in inverter-to-inverter link system.

  • Page 74: System Configuration

    Inverter-to-inverter link function System configuration The following shows the system configuration for using the inverter-to-inverter link function. The master inverter can communicate with the slave inverters through one or two hubs (refer to the description of Pr.1124 for the master/slave setting).
  • Page 75 Inverter-to-inverter link function Device No. Name Description The communication status of the slaves in the inverter-to-inverter link is stored. (In the slave inverter, only its own communication status is indicated.) Communication status of inverter-to- SD1461 Target station Description inverter link Slave 1 Slave 2 0: The link is not established.

  • Page 76: Protective Functions

    Causes and corrective actions PROTECTIVE FUNCTIONS Causes and corrective actions Warning Output is not shut off when a protective function is activated. Operation panel FR-LU08 Fault indication indication Name Ethernet communication fault Appears when Ethernet communication is interrupted by physical factors while Pr.1431 Ethernet signal loss Description detection function selection = "1 or 2".

  • Page 77: Specifications

    Common specifications SPECIFICATIONS Common specifications FR-A800-E Soft-PWM control, high carrier frequency PWM control (selectable among V/F control, Advanced magnetic flux vector Control method control, Real sensorless vector control), Optimum excitation control, vector control , and PM sensorless vector control ...

  • Page 78: Common Specifications

    Common specifications Overcurrent trip during acceleration, Overcurrent trip during constant speed, Overcurrent trip during deceleration or stop, Regenerative overvoltage trip during acceleration, Regenerative overvoltage trip during constant speed, Regenerative overvoltage trip during deceleration or stop, Inverter overload trip, Motor overload trip, Heatsink overheat, Instantaneous power failure , Undervoltage , Input phase loss...
  • Page 79 Common specifications FR-F800-E Soft-PWM control, high carrier frequency PWM control (selectable among V/F control (Optimum excitation control), Control method Advanced magnetic flux vector control (Advanced optimum excitation control) and PM motor control) Output frequency range 0.2 to 590 Hz (The upper-limit frequency is 400 Hz under Advanced magnetic flux vector control, and PM motor control.) 0.015 Hz/60 Hz (terminal 2, 4: 0 to 10 V/12 bits) Frequency Analog input...
  • Page 80 Common specifications Surrounding air -10°C to +50°C (non-freezing) (LD rating) -10°C to +40°C (non-freezing) (SLD rating) temperature With circuit board coating (conforming to IEC60721-3-3 3C2/3S2): 95% RH or less (non-condensing) Surrounding air humidity Without circuit board coating: 90% RH or less (non-condensing) Storage temperature ...

  • Page 81: Parameters (Functions) And Instruction Codes Under Different Control Methods

    Parameters (functions) and instruction codes under different control methods Parameters (functions) and instruction codes under different control methods The following table shows the Ethernet communication parameters, the corresponding instruction codes, and the availability of the parameters by control method. For information on the instruction codes and availability of other parameters by control method, refer to the Instruction Manual (Detailed) of the FR-A800/FR-F800 inverter.
  • Page 82 CC-Link IE Field Network Basic.)  Position control is enabled when an MM-CF IPM motor is used with the low-speed range high-torque characteristic enabled (Pr.788 Low speed range torque characteristic selection = "9999" (initial value)).  FR-A800-E only SPECIFICATIONS...
  • Page 83 REVISIONS *The manual number is given on the bottom left of the back cover. Print Date *Manual Number Revision May 2016 IB(NA)-0600628ENG-A First edition Nov. 2016 IB(NA)-0600628ENG-B Addition • FR-F800-E • CC-Link IE Field Network Basic • Inverter-to-inverter link function IB(NA)-0600628ENG-B...
  • Page 84 HEAD OFFICE: TOKYO BUILDING 2-7-3, MARUNOUCHI, CHIYODA-KU, TOKYO 100-8310, JAPAN IB(NA)-0600628ENG-B(1611)MEE Printed in Japan Specifications subject to change without notice.

This manual is also suitable for:

F800-e

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