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Hitachi SJ700D-3 SERIES Quick Reference Manual

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HITACHI INVERTER
SJ700D-3 SERIES
Quick Reference Guide
Read through this Quick Reference Guide, and keep it handy for future reference.
NT2311X

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Summary of Contents for Hitachi SJ700D-3 SERIES

  • Page 1 HITACHI INVERTER SJ700D-3 SERIES Quick Reference Guide Read through this Quick Reference Guide, and keep it handy for future reference. NT2311X...
  • Page 2 This guide is “Quick Reference Guide”. Refer to "SJ700D-3 series Instruction Manual" on CD bundled with the inverter for more information. If you use the inverter with optional products, also you should read the manuals for those products.
  • Page 3 Safety Instructions Safety Instructions Be sure to read this Quick Reference Guide and appended documents thoroughly before installing, operating, maintaining, or inspecting the inverter. In this Quick Reference Guide, safety instructions are classified into two levels, namely WARNING and CAUTION. : Indicates that incorrect handling may cause hazardous situations, which may result in serious WARNING personal injury or death.
  • Page 4 Safety Instructions 3. Operation WARNING - While power is supplied to the inverter, do not touch any terminal or internal part of the inverter, check signals, or connect or disconnect any wire or connector. Otherwise, you run the risk of electric shock or fire. - Be sure to close the terminal block cover before turning on the inverter power.
  • Page 5 Safety Instructions Caution for EMC (Electromagnetic Compatibility) (0.4kW-150kW) The SJ700D series inverter conforms to the requirements of Electromagnetic Compatibility (EMC) Directive (2004/108/EC). However, when using the inverter in Europe, you must comply with the following specifications and requirements to meet the EMC Directive and other standards in Europe: WARNING: This equipment must be installed, adjusted, and maintained by qualified engineers who have expert knowledge of electric work, inverter operation, and the hazardous circumstances that can occur.
  • Page 6 Safety Instructions Table 1 cable carrier cable carrier model cat. model cat. length(m) frequency(kHz) length(m) frequency(kHz) SJ700D-004L SJ700D-007L SJ700D-007H SJ700D-015L SJ700D-015H SJ700D-022L SJ700D-022H SJ700D-037H SJ700D-037L SJ700D-040H SJ700D-055L SJ700D-055H SJ700D-075L SJ700D-075H SJ700D-110L SJ700D-110H SJ700D-150L SJ700D-150H SJ700D-185L SJ700D-185H SJ700D-220L SJ700D-220H SJ700D-300L SJ700D-300H SJ700D-370L SJ700D-370H SJ700D-450L...
  • Page 7 Safety Instructions Cautions for UL and cUL (0.4kW-150kW) (Standard to comply with: UL508C, CSA C22.2 No14-5) Warning Markings GENERAL: These devices are open type and/or Enclosed Type 1 (when employing accessory Type 1 Chassis Kit) AC Inverters with three phase input and three phase output. They are intended to be used in an enclosure. They are used to provide both an adjustable voltage and adjustable frequency to the ac motor.
  • Page 8 Safety Instructions Model No. Required Torque (N.m) Wire Range (AWG) SJ700D-007H 14(Stranded only) SJ700D-015H 14(Stranded only) SJ700D-022H 14(Stranded only) SJ700D-037H 14(Stranded only) SJ700D-040H 14(Stranded only) SJ700D-055H SJ700D-075H SJ700D-110H SJ700D-150H SJ700D-185H SJ700D-220H 6 or 4 SJ700D-300H SJ700D-370H 20.0 SJ700D-450H 20.0 SJ700D-550H 20.0 SJ700D-750H 20.0...
  • Page 9 Safety Instructions Model No. Fuse Size (Maximum A) Circuit Breaker (A) Type Rating Type SJ700D-007H 20 A SJ700D-007H SJ700D-015H 20 A SJ700D-015H SJ700D-022H 20 A SJ700D-022H SJ700D-037H 20 A SJ700D-037H SJ700D-040H 20 A SJ700D-040H SJ700D-055H 40 A SJ700D-055H SJ700D-075H 40 A SJ700D-075H SJ700D-110H 40 A...
  • Page 10 SJ700-2 to SJ700D-3 The Hitachi SJ700D-3 series succeed the SJ700-2 series with the additional and enhanced features. The table below is a belief summary of the major improved features. Subject SJ700-2 SJ700D-3 Point! If the inverter drives the light load application (e.g. fan pump...

  • Page 11: Table Of Contents

    Contents Start-up Commissioning the drive S.1 Quick installation and commissioning flowchart ................... S - 2 S.2 Instructing in using the panel........................S - 3 S.3 Example of I/O connections ........................S - 4 S.4 Basic Parameter Setting to Drive Motor ....................S - 8 S.4.1 Setting Frequency command source and Run command source ..........
  • Page 12 Contents (Memo)
  • Page 13 Start-up Commissioning the drive This chapter contains quick installation and commissioning flowchart to drive the motor. Quick installation and commissioning flowchart ..... S - 2 Instructing in using the panel ........... S - 3 Example of I/O connections ..........S - 4 Basic Parameter Setting to Drive Motor ......

  • Page 14: Start-Up Commissioning The Drive

    Start-up Commissioning the drive S.1 Quick installation and commissioning flowchart Start to confirm Refer to chapter 1. Frequency Product inspection Motor command Refer to section 2.1. speed ・Installing Installing Motor Speed Refer to section 2.2. ・Wiring Wiring Time command Before setting parameters, see section S.2.

  • Page 15: Instructing In Using The Panel

    Start-up Commissioning the drive S.2 Instructing in using the panel POWER This section describes how to use the operator to change the settings. ALARM For more information, refer to the SJ700D-3 manual or section 3.2 : How to operate the Digital Operator. STOP/ RESET FUNC...

  • Page 16: Example Of I/O Connections

    Start-up Commissioning the drive S.3 Example of I/O connections Example 1: Frequency command source Setting data in F001 (Digital Operator) Run command source RUN/STOP key (Digital Operator) *) SJ700D-****FF3 (Initial settings) (1) I/O connections 3-phase induction motor R/L1 S/L2 T/L3 (2) Operation Frequency: By using the digital operator, set the frequency command into parameter F001.
  • Page 17 Start-up Commissioning the drive Example 2: :Frequency command source External potentiometer (Control terminal) Run command source RUN/STOP key (Control panel) (1) I/O connections 3-phase induction motor R/L1 S/L2 T/L3 Potentiometer (2) Operation Frequency: Set the frequency command via a potentiometer connected to H/O/L terminal. STOP/ Run/Stop: Push the key to run and stop.
  • Page 18 Start-up Commissioning the drive Example 3: Frequency command source Setting data in F001 (Control panel) + multi speed select Run command source External signal (Control terminal) (1) I/O connections 3-phase induction motor R/L1 S/L2 T/L3 Forward Reverse 8:RV Multi-speed1 7:CF1 Multi-speed2 6:CF2 Sink logic...
  • Page 19 Start-up Commissioning the drive Example 4: Frequency command source External analog voltage source and current source (Control terminal) Run command source External signal (Control terminal) *) SJ700D-****FEF3/FUF3 (Initial settings) (1) I/O connections 3-phase induction motor R/L1 S/L2 T/L3 Forward Reverse 8:RV Analog select 2:AT...

  • Page 20: Basic Parameter Setting To Drive Motor

    Start-up Commissioning the drive S.4 Basic Parameter Setting to Drive Motor S.4.1 Setting Frequency command source and Run command source This section describes how to drive the motor with SJ700D briefly. The frequency and run command are necessary to drive the motor with the inverter. In many cases, these sources are set as below;...

  • Page 21: Frequency Command Source Selection

    Start-up Commissioning the drive S.4.2 Frequency command source selection Key operation to set A001 ****FF3 : Change A001 from 02 (operator) to 01 (control circuit terminal block). Procedure Key operation Indication Details After powering up of the inverter, the operator displays 0.00, ....
  • Page 22 Start-up Commissioning the drive Setting frequency command (A) A001=02: Digital operator With this setting, the value set in the parameter F001 defines the target frequency of the inverter. The procedure below shows an example of a procedure to set F001=40Hz. Procedure Key operation Indication...

  • Page 23: Run Command Source Selection

    Start-up Commissioning the drive S.4.3 Run command source selection Key operation to set A002 ****FF3 : Change from 02 (operator) to 01 (control circuit terminal block). Procedure Key operation Indication Details After powering up of the inverter, the operator displays ....
  • Page 24 Start-up Commissioning the drive Operating run command (A) A001=02: Digital operator RUN and STOP key on the digital operator allows you to start and stop the motor respectively. STOP/ RUN: STOP: RESET *) Changing the rotatory direction can be done by changing the parameter F004, keypad run key routing or to exchange any two phases of the wiring to the motor.

  • Page 25: Selecting The Control Mode

    Start-up Commissioning the drive S.5 Selecting the control mode The SJ700D-3 inverter series provides several options for motor control to satisfy various application requirements. Please choose a suitable control mode for your application by referring to the table below. Initial setting of A044 is 00 (V/f control mode). Check -Using the reduced torque mode (A044=01) In case you want to drive fun, pump or light load...
  • Page 26 Start-up Commissioning the drive (Memo) S - 14...

  • Page 27: Chapter 1 Overview

    Chapter 1 Overview This chapter describes the inspection of the purchased product, the product warranty, and the names of parts. 1.1 Inspection of the Purchased Product ······· 1 - 2 1.2 Method of Inquiry and Product Warranty · 1 - 3 1.3 Exterior Views and Names of Parts ········...

  • Page 28: Inspection Of The Purchased Product

    Figure 1-2 Contents of the specifications label 1.1.2 Quick Reference Guide and Instruction Manual This Quick Reference Guide describes how to handle and maintain the Hitachi SJ700D-3 Series Inverter briefly and "SJ700D-3 series Instruction Manual" on CD bundled with inverter describes the more detailed information. Read these manuals carefully before using the inverter, and then keep it handy for those who operate, maintain, and inspect the inverter.

  • Page 29: Method Of Inquiry And Product Warranty

    To request a repair at your charge, contact your supplier or local Hitachi Distributor. 1.2.3 Warranty Terms The warranty period under normal installation and handling conditions shall be two (2) years from the date of manufacture (“DATE”...

  • Page 30: Exterior Views And Names Of Parts

    Chapter 1 Overview 1.3 Exterior Views and Names of Parts The figure below shows an exterior view of the inverter. Front cover POWER lamp ALARM lamp Digital operator Spacer cover Terminal block cover Specification label Exterior view of inverter For the wiring of the main circuit and control circuit terminals, open the terminal block cover. For mounting optional circuit boards, open the front cover.

  • Page 31: Chapter 2 Installation And Wiring

    Chapter 2 Installation and Wiring This chapter describes how to install the inverter and the wiring of main circuit and control signal terminals with typical examples of wiring. 2.1 Installation ····································· 2 - 2 2.2 Wiring ··········································· 2 - 6...

  • Page 32: Installation

    Chapter 2 Installation and Wiring 2.1 Installation CAUTION - Install the inverter on a non-flammable surface, e.g., metal. Otherwise, you run the risk of fire. - Do not place flammable materials near the installed inverter. Otherwise, you run the risk of fire. - When carrying the inverter, do not hold its top cover.

  • Page 33: Precautions For Installation

    Chapter 2 Installation and Wiring 2.1.1 Precautions for installation (1) Transportation The inverter uses plastic parts. When carrying the inverter, handle it carefully to prevent damage to the parts. Do not carry the inverter by holding the front or terminal block cover. Doing so may cause the inverter to fall. Do not install and operate the inverter if it is damaged or its parts are missing.
  • Page 34 Chapter 2 Installation and Wiring (6) Installation method and position Install the inverter vertically and securely with screws or bolts on a surface that is free from vibrations and that can bear the inverter weight. If the inverter is not installed vertically, its cooling performance may be degraded and tripping or inverter damage may result.

  • Page 35: Backing Plate

    Chapter 2 Installation and Wiring (9) Reduction of enclosure size If you mount the inverter inside an enclosure such that the heat sink of the inverter is positioned outside the enclosure, the amount of heat produced inside the enclosure can be reduced and likewise the size of the enclosure.

  • Page 36: Wiring

    Chapter 2 Installation and Wiring 2.2 Wiring WARNING - Be sure to ground the inverter. Otherwise, you run the risk of electric shock or fire. - Commit wiring work to a qualified electrician. Otherwise, you run the risk of electric shock or fire. - Before wiring, make sure that the power supply is off.

  • Page 37: Terminal Connection Diagram And Explanation Of Terminals And Switch Settings

    2.2.1 Terminal connection diagram and explanation of terminals and switch settings 3-phase power supply 200 V class: 200 to 240 V +10%, -15% (50/60 Hz ±5%) POWER ALARM HITACHI 400 V class: 380 to 480 V +10%, -15% (50/60 Hz ±5%) Jumper Motor STOP/...
  • Page 38 Chapter 2 Installation and Wiring (1) Explanation of main circuit terminals Symbol Terminal name Description R, S, T Connect to the AC power supply. Main power input (L1, L2, L3) Leave these terminals unconnected when using a regenerative converter (HS900 series). U, V, W Inverter output Connect a 3-phase motor.
  • Page 39 Chapter 2 Installation and Wiring Symbol Terminal name Description Electric property To switch the control logic between sink logic and source logic, change the jumper connection of this (PLC) terminal to another terminal on the control circuit terminal block. Intelligent input Jumper terminals P24 and PLC for the sink logic;...

  • Page 40: Wiring Of The Main Circuit

    - This inverter does not support a single-phase input but supports only a three-phase input. If you need to use a single-phase power input, contact your supplier or local Hitachi Distributor. - Do not operate the inverter when an input phase is lost (input phase loss), otherwise the inverter may be damaged.
  • Page 41 A special filter to suppress the surge voltage is available. If you need this filter, contact your supplier or local Hitachi Distributor. - When connecting multiple motors to the inverter, connect a thermal relay to the inverter output circuit for each motor.
  • Page 42 Chapter 2 Installation and Wiring (2) Layout of main circuit terminals The figures below show the terminal layout on the main circuit terminal block of the inverter. Terminal layout Inverter model (L1) (T1) (L2) (L3) (T2) (T3) (+1) Jumper connecting terminals PD and P Charge lamp When not using the DCL, do not remove the jumper...
  • Page 43 Chapter 2 Installation and Wiring Terminal layout Inverter model Charge lamp SJ700D-055,075LFF3 SJ700D-055,075HFF3 (L1) (T1) (L2) (L3) (+1) (T2) (T3) R0 and T0: M4 Ground terminal: M5 Other terminals: M5 Jumper connecting terminals PD and P Ground terminal with jumper (shaded in the figure) to When not using the DCL, enable/disable the EMC filter function.
  • Page 44 Chapter 2 Installation and Wiring Terminal layout Inverter model Charge lamp SJ700D-300LFF3 R0 and T0: M4 Ground terminal: M6 (L1) (T1) (L2) (L3) (T2) Other terminals: M8 (+1) (T3) Jumper connecting terminals PD and P When not using the DCL, Ground terminal with jumper (shaded in the figure) to do not remove the jumper enable/disable the EMC filter function...
  • Page 45 Chapter 2 Installation and Wiring Terminal layout Inverter model Charge lamp (L1) (T1) (L2) (L3) (T2) (+1) (T3) Jumper connecting terminals PD and P Ground terminal with jumper (shaded in the figure) to When not using the DCL, enable/disable the EMC filter function do not remove the jumper from terminals PD and P.
  • Page 46 See Item (4), "Recommended cable gauges, wiring accessories, and crimp terminals." Note 1: The peripheral equipment described here is applicable when the inverter connects a Power standard Hitachi 3-phase, 4-pole squirrel-cage motor. supply Note 2: Select breakers that have proper capacity. (Use breakers that comply with inverters.) Note 3: Use earth-leakage breakers (ELB) to ensure safety.
  • Page 47 Chapter 2 Installation and Wiring (4) Recommended cable gauges, wiring accessories, and crimp terminals Note: For compliance with CE and UL standards, see the safety precautions concerning EMC and the compliance with UL and cUL standards under Safety Instructions. The table below lists the specifications of cables, crimp terminals, and terminal screw tightening torques for reference.
  • Page 48 Chapter 2 Installation and Wiring (5) Connecting the control circuit to a power supply separately from the main circuit. If the protective circuit of the inverter operates to open the magnetic contactor in the input power supply circuit, the inverter control circuit power is lost, and the alarm signal cannot be retained. To retain the alarm signal, connect control circuit terminals R0 and T0 to a power supply.

  • Page 49: Wiring Of The Control Circuit

    Chapter 2 Installation and Wiring 2.2.3 Wiring of the control circuit (1) Wiring instructions 1) Terminals L and CM1 are common to I/O signals and isolated from each other. Do not connect these common terminals to each other or ground them. Do not ground these terminals via any external devices.

  • Page 50: Wiring Of The Digital Operator

    - When you intend to remove the standard digital operator from the inverter and use it as remote equipment, request your local Hitachi Distributor to supply a connection cable, ICS-1 (1-meter cable) or ICS-3 (3-meter cable). If you prepare the cable by yourself, the following product is recommended: HUTP5 PC 4P -X-X: Straight cable equipped with connector at both ends (made by Hitachi Metal, Ltd.)

  • Page 51: Chapter 3 Operation

    Chapter 3 Operation This chapter describes typical methods of operating the inverter, how to operate the digital operator, and how to make a test run of the inverter. 3.1 Operating Methods ······································ 3 - 2 3.2 How To Operate the Digital Operator ····...

  • Page 52: Operating Methods

    Chapter 3 Operation 3.1 Operating Methods WARNING - While power is supplied to the inverter, do not touch any terminal or internal part of the inverter, check signals, or connect or disconnect any wire or connector. Otherwise, you run the risk of electric shock or fire. - Be sure to close the terminal block cover before turning on the inverter power.
  • Page 53 ProDriveNext. Please refer to “Easy sequence function” for details. (5) Operation via communication The inverter can be operated by an external communication device via Modbus-RTU or ASCII protocol (Hitachi protocol) through the TM2 terminal on the control terminal l board. Please refer to “Communication function”...

  • Page 54: How To Operate The Digital Operator (Ope-Sbk)

    Chapter 3 Operation 3.2 How To Operate the Digital Operator (OPE-SBK) 3.2.1 Names and functions of components Monitor POWER lamp (4-digit LED display) ALARM lamp RUN (operation) lamp PRG (program) lamp Monitor lamps RUN key enable LED RUN key FUNC (function) key STR (storage) key 1 (up) key 2 (down) key...

  • Page 55: Code Display System And Key Operations

    Chapter 3 Operation 3.2.2 Code display system and key operations This section describes typical examples of digital operator operation (full display mode). Refer to SJ700D-3 Instruction manual for more information. The initial display on the monitor screen after power-on depends on the setting of function "b038". For details, see "Initial-screen selection,”...
  • Page 56 Chapter 3 Operation Example of operation in full display mode ("b037" = "00") [Factory setting] All parameters can be displayed in full display mode. If you use other display mode, refer to the SJ700D-3 Instruction Manual. Key operation and transition Key operation and transition Key operation and transition Key operation and transition...
  • Page 57 Chapter 3 Operation Procedure for directly specifying or selecting a code - You can specify or select a code or data by entering each digit of the code or data instead of scrolling codes or data in the monitor, function, or extended function mode. - The following shows an example of the procedure for changing the monitor mode code "d001"...
  • Page 58 Chapter 3 Operation (Memo) 3 - 8...

  • Page 59: Chapter 4 List Of Data Settings

    Chapter 4 List of Data Settings This chapter describes the data settings for the various functions of the inverter. 4.1 Precautions for Data Setting ....... 4 - 2 4.2 Monitoring Mode ........4 - 2 4.3 Function Mode ......... 4 - 3 4.4 Extended Function Mode ......

  • Page 60: Precautions For Data Setting

    Chapter 4 List of Data Settings IMPORTANT! Please be sure to set the motor nameplate data into appropriate parameters to ensure proper operation and protection of the motor. *b012 is the motor overload protection value *A003 is the motor base frequency setting *A082 is the motor voltage selection *H003 is the motor kW capacity *H004 is the number of motor poles...

  • Page 61: Function Mode

    Chapter 4 List of Data Settings Change during Default RUN operation Code Function name Monitored data or setting FF FEF FUF b031≠10 b031=10 1: Capacitor on main circuit board    d022 Life-check monitoring 2: Cooling-fan speed drop  ...

  • Page 62: Extended Function Mode

    Chapter 4 List of Data Settings 4.4 Extended Function Mode Change during Default RUN operation Code Function name Monitored data or setting FF FEF FUF b031≠10 b031=10 00 (keypad potentiometer) (*1), 01 (control circuit terminal block), 02 (digital operator), 03 (RS485), 04 (option 1), 05 (option 2), A001 Frequency source setting 02 01 01 06 (pulse-string input), 07 (easy sequence),...
  • Page 63 Chapter 4 List of Data Settings Change during Default RUN operation Code Function name Monitored data or setting FF FEF FUF b031≠10 b031=10 A041 Torque boost method selection 00 (manual torque boost), 01 (automatic torque boost) A241 Torque boost method selection, 2nd motor A042 Manual torque boost value Allowed Allowed A242 Manual torque boost value, 2nd motor...
  • Page 64 Chapter 4 List of Data Settings Change during Default RUN operation Code Function name Monitored data or setting b031≠10 b031=10 A081 AVR function select 00 (always on), 01 (always off), 02 (off during deceleration) 200 V class: 200, 215, 220, 230, 240 (V) 200/ 230/ 230/...
  • Page 65 Chapter 4 List of Data Settings Change during Default RUN operation Code Function name Monitored data or setting FF FEF FUF b031≠10 b031=10 00 (tripping), 01 (starting with 0 Hz), 02 (starting with matching frequency), b001 Selection of restart mode Allowed 03 (tripping after deceleration and stopping with matching frequency), 04 (restarting with active matching frequency)
  • Page 66 Chapter 4 List of Data Settings Change during Default RUN operation Code Function name Monitored data or setting FF FEF FUF b031≠10 b031=10 0. to 9999. (0 to 99990), b034 Run/power-on warning time Allowed 1000 to 6553 (100000 to 655300) (hr) 00 (enabling both forward and reverse rotations), b035 Rotational direction restriction...
  • Page 67 Chapter 4 List of Data Settings Change during Default RUN operation Code Function name Monitored data or setting FF FEF FUF b031≠10 b031=10 b078 Cumulative input power data clearance Clearance by setting "01" and pressing the STR key Allowed Allowed Cumulative input power display gain b079 1.
  • Page 68 Chapter 4 List of Data Settings Change during Default RUN operation Code Function name Monitored data or setting b031≠10 b031=10 01 (RV: Reverse RUN), 02 (CF1: Multispeed 1 setting), 03 (CF2: Multispeed 2 setting), 04 (CF3: Multispeed 3 setting), C001 Terminal [1] function (*2) Allowed 05 (CF4: Multispeed 4 setting), 06 (JG: Jogging),...
  • Page 69 Chapter 4 List of Data Settings Change during Default RUN operation Code Function name Monitored data or setting FUF b031≠10 b031=10 00 (RUN: running), 01 (FA1: constant-speed reached), 02 (FA2: set frequency overreached), 03 (OL: overload notice advance signal (1)), 04 (OD: output deviation for PID control), C021 Terminal [11] function...
  • Page 70 Chapter 4 List of Data Settings Change during Default RUN operation Code Function name Monitored data or setting FF FEF FUF b031≠10 b031=10 00 (output during acceleration/deceleration and constant-speed Low-current indication signal output mode C038 operation), Allowed selection 01 (output only during constant-speed operation) 0.00 to 2.00 x "rated current"...
  • Page 71 Chapter 4 List of Data Settings Change during Default RUN operation Code Function name Monitored data or setting b031≠10 b031=10 0.20 to 2.00 x "rated current" (A) C111 Overload setting (2) <0.20 to 1.80 x "rated current" (A) > (In case of CT) Rated current Allowed Allowed...
  • Page 72 Auto-tuning Setting 01 (auto-tuning without rotation), 02 (auto-tuning with rotation) H002 Motor data selection, 1st motor 00 (Hitachi standard data), 01 (auto-tuned data), 02 (auto-tuned data [with online auto-tuning function]) H202 Motor data selection, 2nd motor H003 Motor capacity, 1st motor Factory setting 0.20 to 160.
  • Page 73 Chapter 4 List of Data Settings Change during Default RUN operation Code Function name Monitored data or setting FUF b031≠10 b031=10 P001 Operation mode on expansion card 1 error Allowed 00 (tripping), 01 (continuing operation) P002 Operation mode on expansion card 2 error Allowed P011 Encoder pulse-per-revolution (PPR) setting...
  • Page 74 Chapter 4 List of Data Settings Change during Default RUN operation Code Function name Monitored data or setting FUF b031≠10 b031=10 P055 Pulse-string frequency scale 1.0 to 50.0 (kHz) 25.0 Allowed P056 Time constant of pulse-string frequency filter 0.01 to 2.00 (s) 0.10 Allowed P057...
  • Page 75 Chapter 4 List of Data Settings Change during Default RUN operation Code Function name Monitored data or setting FUF b031≠10 b031=10 P111 Easy sequence user parameter U (11) 0. to 9999., 1000 to 6553 (10000 to 65535) Allowed Allowed P112 Easy sequence user parameter U (12) 0.
  • Page 76 Chapter 4 List of Data Settings (Memo) 4 - 18...

  • Page 77: Error Codes

    Chapter 5 Error Codes This chapter describes the error and warning codes of the inverter. 5.1 Error Codes and Troubleshooting ··········· 5 - 2 5.2 Warning Codes ································ 5 - 5...

  • Page 78: Error Codes And Troubleshooting

    Chapter 5 Error Codes 5.1 Error Codes and Troubleshooting 5.1.1 Error Codes Display on Display on Name Description Name Description digital operator digital operator If the motor is constrained or If an error occurs in the internal current suddenly accelerated or detector (CT), the inverter will shut off its During decelerated, a high current...
  • Page 79 Chapter 5 Error Codes Name Display on Display on Description Name Description digital operator digital operator Gate array If an error occurs in the communication communica- between the internal CPU and gate array, the tion error inverter will trip. The inverter detects errors in the easy User Trip sequence.

  • Page 80: Trip Conditions Monitoring

    Chapter 5 Error Codes 5.1.2 Trip conditions monitoring 1) Trip factor These digits indicate a trip factor. This digit indicates the inverter status at tripping. See Section 5.1.1. Explanation of display 2) Output frequency (Hz) at tripping : Resetting/Initialization at power-on or with the reset terminal turned on : Stopping the motor : Decelerating or operating the motor...

  • Page 81: Warning Codes

    Chapter 5 Error Codes 5.2 Warning Codes The following table lists the warning codes and the contents of parameter readjustments: Warning code Target function code Condition Basic function code 001/ 201 Frequency upper limit setting (A061/A261) > Maximum frequency setting 002/ 202 Frequency lower limit setting (A062/A262) >...
  • Page 82 Chapter 5 Error Codes (Memo) 5 - 6...

  • Page 83: Chapter 6 Specifications

    Chapter 6 Specifications This chapter describes the specifications and external dimensions of the inverter. 6.1 Specifications ..........6 - 2 6.2 External dimensions ........6 - 5...
  • Page 84 Chapter 6 Specifications 6.1 Specifications (CT : Constant torque mode, VT : Variable torque mode) (1) Specifications of the 200 V class model Model name (type name) SJ700D-***LFF3/FUF3 Max. applicable motor 0.75 18.5 capacity (4-pole) (kW) VT 0.75 18.5 11.0 15.9 22.1 26.3...
  • Page 85 Chapter 6 Specifications (3) Common specifications of 200 V class and 400 V class models (continued) 1320 Model name (type name) 1100 1500 SJ700D-****FF3/FEF3/FUF3 Standard Setting with keys operator External signal 0 to +10 VDC, -10 to +10 VDC (input impedance: 10k), 4 to 20 mA (input impedance: 100) (Note6) External Setting via RS485 communication...
  • Page 86 Note 2: The insulation distance complies with the UL and CE standards. Note 3: The applicable motor refers to Hitachi standard 3-phase motor(4-pole).when using other motors, care must be taken to prevent the rated motor current(50/60Hz)from exceeding the rated output current of the inverter.

  • Page 87: External Dimensions

    Chapter 6 Specifications 6.2 External dimensions (200V class)SJ700D-004 to 037 LFF3/LFEF3/LFUF3 (400V class)SJ700D-007 to 037 HFF3/HFEF3/HFUF3 SJ700D-055 to 110 LFF3/LFEF3/LFUF3/HFF3/HFEF3/HFUF3 6 - 5...
  • Page 88 Chapter 6 Specifications SJ700D-150 to 220 LFF3/LFEF3/LFUF3/HFF3/HFEF3/HFUF3 SJ700D-300 LFF3/LFEF3/LFUF3/HFF3/HFEF3/HFUF3 6 - 6...
  • Page 89 Chapter 6 Specifications SJ700D-370 to 450 LFF3/LFEF3/LFUF3/HFF3/HFEF3/HFUF3 SJ700D-550HFF3/HFEF3/HFUF3 SJ700D-550LFF3/LFEF3/LFUF3 6 - 7...
  • Page 90 Chapter 6 Specifications SJ700D-750 to 900 HFF3/HFEF3/HFUF3 SJ700D-1100HFF3/HFEF3/HFUF3,SJ700D-1320HFF3/HFEF3,SJ700D-1500HFUF3 6 - 8...

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