Sinee EM760 Series User Manual
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Sinee EM760 Series User Manual

Sinee EM760 Series User Manual

High-performance vector inverter
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User's Guide for EM760 series high-performance vector inverter
Thank you for choosing SINEE's EM760 series high-performance vector inverter.
Document No.: 31010200
Release time: 2022-3
Version: 200
The EM760 series inverter is a high-performance vector control inverter launched by SINEE, which
integrates the synchronous motor drive and asynchronous motor drive. It supports three-phase AC asynchronous
motors and permanent magnet synchronous motors, internationally advanced drive control technologies [such as
the improved vector V/F control technology (VVF), speed sensorless vector control technology (SVC) and speed
sensor vector control technology (FVC)], speed output and torque output, Wi-Fi access and background software
debugging, expansions (such as I/O expansion cards, communication bus expansion cards and PG cards)
The standard EM 760 supports V/F control, SVC control, FVC control of asynchronous motors; it also
supports V/F control and FVC control of permanent magnet synchronous motors. The non-standard version for
synchronous motors also supports V/F control, SVC control, FVC control of asynchronous motors, as well as V/F
control, SVC control and FVC control of permanent magnet synchronous motors.
The EM760 series high-performance vector inverter has the following features:
Equipment of a built-in DC reactor (in case of an inverter of above 18.5kW) can reduce input current
distortion, increase the power factor and promote the product reliability;
High torque control accuracy: SVC/± 5% rated torque, FVC/± 3% rated torque;
Wide speed range and high control accuracy
Low-frequency carrier: VVF/3Hz/150%, SVC/0.25Hz/150%, FVC/0Hz/180%;
Protections against overvoltage stall, fast current limit, overload, overheat, off-load, overspeed, and so on;
Support I/O expansion: 3-channel digital inputs, 2-channel relay outputs, 1-channel -10V~10V voltage
input, 1-channel sensor input;
Support communication bus expansion: standard configuration including 485 bus, optional PROFINET,
CANopen and EtherCAT;
Support various encoders: ABZ incremental, UVW incremental, UVW wire saver, rotary transformer and
sine-cosine transformer;
Support debugging by the mobile phone APP or monitoring of the inverter status;
Support Wi-Fi module or serial port access;
Rich and convenient PC background software functions.
Before using the EM760 series high-performance vector inverter, please read this guide carefully and
keep it properly.

Preface

:
SVC/1:200 (± 0.2%), FVC/1:1000 (± 0.02%) rated speed;
1
.

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  • Page 1: Preface

    Release time: 2022-3 Version: 200 The EM760 series inverter is a high-performance vector control inverter launched by SINEE, which integrates the synchronous motor drive and asynchronous motor drive. It supports three-phase AC asynchronous motors and permanent magnet synchronous motors, internationally advanced drive control technologies [such as...
  • Page 2 User’s Guide for EM760 series high-performance vector inverter While connecting the inverter to motor for the first time, please select the motor type (asynchronous or synchronous) correctly and set the motor nameplate parameters: rated power, rated voltage, rated current, rated frequency, rated speed, motor connection, rated power factor, etc. In case of FVC drive control mode, it is required to select the optional PG card and set correct encoder parameters.

  • Page 3: Safety Precautions

    User’s Guide for EM760 series high-performance vector inverter Safety precautions Safety definition: Safety precautions are divided into the following two categories in this manual: Danger: The dangers caused by nonconforming operations may include serious injuries and even deaths. Note: The danger caused by nonconforming operations, including moderate or minor injuries and equipment damage.
  • Page 4 User’s Guide for EM760 series high-performance vector inverter Before wiring, make sure that the power supply is OFF (zero energy). Do not carry out wiring when the controller is powered on; otherwise, electric shock may be caused! Never connect the input power supply to the output terminals (U, V, W) of the inverter. Pay attention to the...
  • Page 5 User’s Guide for EM760 series high-performance vector inverter Never carry out repair and maintenance in the live state; otherwise, electric shock may be caused! Maintenance of the inverter must be carried out 10 minutes after the main circuit is powered off and the display interface of the keyboard is disabled;...
  • Page 6 User’s Guide for EM760 series high-performance vector inverter above 50℃, derating by 1.5% per 1℃ temperature rise to maximum 60℃). Contact us for technical advice. Precautions for scrapping of inverter Burning of the electrolytic capacitors of the main circuit and printed circuit board may result in explosion, and burning of plastic parts may generate toxic gases.

  • Page 7: Table Of Contents

    User’s Guide for EM760 series high-performance vector inverter TABLE OF CONTENTS Preface ............................1 Safety precautions ........................3 Chapter 1 Overview ........................8 Chapter 2 Installation ......................11 Chapter 3 Wiring........................21 Chapter 4 Keyboard Operations .................... 30 Chapter 5 Trial Run ........................ 34 Chapter 6 Solution ........................

  • Page 8: Chapter 1 Overview

    User’s Guide for EM760 series high-performance vector inverter Chapter 1 Overview Model and Specification of EM760 Series Inverter Rated voltage of power supply: Three-phase AC 340V~460V Applicable motor: Three-phase AC asynchronous motor and permanent magnet synchronous motor. Rated voltage of...
  • Page 9 User’s Guide for EM760 series high-performance vector inverter control mode communication Frequency control 0.00~600.00Hz/0.0~3000.0Hz range Input frequency Digital input: 0.01Hz Analog input: 0.1% of maximum frequency resolution Speed control range 1:50 (VVF), 1:200 (SVC), 1:1000 (FVC) Speed control ± 0.5% (VVF), ± 0.2% (SVC), ± 0.02% (FVC)
  • Page 10 User’s Guide for EM760 series high-performance vector inverter parameter copying. Short circuit, overcurrent, overvoltage, undervoltage, phase loss, overload, Protectio Protective Function overheat, overspeed, load loss, external fault, etc. Indoor, at an altitude of less than 1 km, free of dust, corrosive gases and direct...

  • Page 11: Chapter 2 Installation

    User’s Guide for EM760 series high-performance vector inverter Chapter 2 Installation 2.1 Product check Warning ⚫ Never install the inverter damaged or with some parts missing. Otherwise, injuries may be caused. When you receive the product, please check it against the table below.
  • Page 12 User’s Guide for EM760 series high-performance vector inverter EM 760 – 4R0G/5R5P – 3 B EM760: EM760:高性能系列 High-performance series B: Built-in braking unit B:内置制动单元 Null: Installation in cabinet 空:柜内安装型 无:不含制动单元 None: Without braking unit TC: Cabinet type C:柜机 标识 适配电机类型...
  • Page 13 User’s Guide for EM760 series high-performance vector inverter (b) Appearance of EM760-0R7G/1R5P~022G/030P inverters (c) Appearance of EM760-030G/037P~400G/450P inverters...
  • Page 14 User’s Guide for EM760 series high-performance vector inverter (d) Appearance of EM760- 450G/500P~560G/630P inverters Fig. 2-1 Overall dimensions of EM760 Series Keyboard and Inverter...
  • Page 15 User’s Guide for EM760 series high-performance vector inverter Table 2-1 Outer and installation dimensions of EM760 inverters appear Specifications ance EM760-0R7G/1R5P-3 EM760-1R5G/2R2P-3 EM760-2R2G/3R0P-3 EM760-4R0G/5R5P-3 EM760-5R5G/7R5P-3 EM760-7R5G/9R0P-3 EM760-011G/015P-3B EM760-015G/018P-3B EM760-018G/022P-3B EM760-022G/030P-3B EM760-030G/037P-3/ 180.5 EM760-037G/045P-3/ EM760-045G/055P-3/ EM760-055G/075P-3/ EM760-075G/090P-3/ 11.5 EM760-090G/110P-3 11.5 EM760-110G/132P-3 EM760-132G/160P-3 256.4...
  • Page 16 2.5 Panel removal and installation Wiring of the main circuit, control circuit and expansion card for the EM760 Series requires removal of the top cover. When wiring is completed, install the wiring ducts and top cover in the reverse order of removal.
  • Page 17 User’s Guide for EM760 series high-performance vector inverter  按压 ③ When an expansion card is used, Press the top cover can be removed after ① Use a tool to remove ①用工具将下盖板 ② Press the side clips inwards, ③如使用扩展卡,则先将上 the screws fixing the top cover are ②向内按压两侧卡扣,...
  • Page 18 User’s Guide for EM760 series high-performance vector inverter The bracket for through-wall installation is available as an optional part for purchase. If it is needed, please contact External heat Internal heat dissipation dissipation Independent air duct External air supply Internal air supply...
  • Page 19 User’s Guide for EM760 series high-performance vector inverter Table 2-2 Number of screws and opening dimension for EM760 0R7G/1R5P~160G/185P through-wall installation Frequency converter model Bracket Through-wall Opening size (L× W) installation installation screws screws EM760-0R7G/1R5P~4R0G/5R5P-3B 2× M4 6× M6 235mm× 100mm EM760-5R5G/7R5P~7R5G/9R0P-3B 2×...
  • Page 20 User’s Guide for EM760 series high-performance vector inverter Through-wall installation 透壁安装支架 bracket 支架安装螺钉 Bracket installation screws 支架安装螺钉 Bracket installation screws Fig. 2-7 Through-wall installation diagram of EM760-030G/037P~110G/132P Through-wall installation 透壁安装支架 bracket Bracket installation 支架安装螺钉 screws Through-wall installation 透壁安装螺钉 screws Fig. 2-8 Through-wall installation diagram of EM760-132G/160P~160G/185P...

  • Page 21: Chapter 3 Wiring

    User’s Guide for EM760 series high-performance vector inverter Chapter 3 Wiring 3.1 Connection of Peripheral Device The standard connection between the EM760 series inverter and peripheral devices is shown in Fig. 3-1. 电源 Power supply Circuit breaker or leakage protection 断路器或漏电开关...
  • Page 22 User’s Guide for EM760 series high-performance vector inverter 3.2 Wiring of Main Circuit Terminal 3.2.1 Composition of main circuit terminal (a) 0.75-22kW main circuit terminal (b) 30-75kW main circuit terminal (-3 series have no PB terminal) (c) 90-110kW main circuit terminal...
  • Page 23 Braking resistor terminal, with one end of the braking resistor connected to and the , PB other end to PB Grounding terminal, connected to earth The standard wiring diagram of the main circuit of the EM760 series inverter is shown in Fig. 3-4. ⚫ EM760-0R7G/1R5P-3B~EM760-075G/090P-3B...
  • Page 24 User’s Guide for EM760 series high-performance vector inverter shield the inverter and its peripheral device with iron boxes to reduce external interference. Refer to Fig. 3-5 for the wiring requirements. For more detailed measures to reduce external interference, refer to the EM760 User’s Manual.
  • Page 25 User’s Guide for EM760 series high-performance vector inverter Supply +24V power to external devices. It is usually used as the working power supply for digital input and output 24V-COM +24V power supply terminals and also the power supply for external devices.
  • Page 26 User’s Guide for EM760 series high-performance vector inverter Wiring of analog input terminal 3.4.1 Wiring of AI1, AI2 and AI3 terminals with analog voltage signal: When analog voltage signal input is selected for terminal AI1 and the function code is set to F02.62 (0/3), corresponding input is (0~10V/-10~10V) When analog voltage signal input is selected for terminal AI2 and the function code is set to F02.63 (0),...
  • Page 27 User’s Guide for EM760 series high-performance vector inverter C. Use of external power supply in NPN mode D. Use of external power supply in PNP mode DC 24V Fig. 3-7 Wiring Diagram of Multi-function Input Terminals Note: When an external power source is used, do remove the short connection line between the 24V power source and the PLC terminal.
  • Page 28 User’s Guide for EM760 series high-performance vector inverter Fig. 3-8 Wiring of Multi-function Output Terminals Note: The relay wire package must include anti-parallel diodes. The components of the absorption circuit should be installed close to both ends of the relay or contactor coil.
  • Page 29 User’s Guide for EM760 series high-performance vector inverter Standard Wiring Diagram of Control Circuit Braking resistor 制动电阻 MCCB R/L1 Three-phase 三相 S/L2 电源 接 power supply EM760 Grounding T/L3 接 地 Grounding 地 24V输出 键盘接口 output Keyboard interface 200mA 200mA Communication card/PG card/extension 通讯卡/PG卡/扩展口接口...

  • Page 30: Chapter 4 Keyboard Operations

    User’s Guide for EM760 series high-performance vector inverter Chapter 4 Keyboard Operations 4.1 Keyboard Functions 0.00Hz 0.00Hz Output Freq Structure of LCD keyboard 0.00A Output Current EM760 inverters may have two kinds of control panels: LED keyboard and 0.00Hz Set Freq LCD keyboard.
  • Page 31 User’s Guide for EM760 series high-performance vector inverter 键盘 速度 0.00Hz 键盘 速度 0.00Hz 0.00Hz 0.00Hz 全菜单模式 All Menu Mode 0.00Hz 0.00Hz 输出频率 Output Freq 0.00A 0.00A 输出电流 Output Current 全菜单模式 非出厂设置 快速设置 All Menu Non-Factory Guide 0.00Hz 0.00Hz 设定频率...
  • Page 32 User’s Guide for EM760 series high-performance vector inverter 0.00Hz F00.00:Not Used F00.01:Control Mode Motor 1 F00.02:Command Source Options Positioning:F00. 00 Positioning:F00. 00 F00.03:Terminal Mode Options F00.04:Main Freq Options Positioning:F00.00 00/36 Positioning:F03. 00 Positioning:F03. 00 0.00Hz 0.00Hz F03.02:R1 Output Function F03.02:R1 Output Function 0:No Output...
  • Page 33 User’s Guide for EM760 series high-performance vector inverter 0.00Hz 0.00Hz F12.03:Parameter Copy Uploading Parameter Cur: Please Wait 1:Upload Parameter to Keypad Scope:0~3 0.00Hz 0.00Hz F12.03:Parameter Copy Downloading Parameter Please Wait Cur: 2:Download Paremeter Scope:0~3 It shall be particularly noted that:...

  • Page 34: Chapter 5 Trial Run

    User’s Guide for EM760 series high-performance vector inverter Chapter 5 Trial Run 5.1 Inverter Commissioning Process 开始 Start Install the inverter and the PG card following instructions in Chapter 2 and Chapter 3, and 按照第2章、第3章的说明安装变频器、PG卡,完成接线 complete the wiring 接通电源前,确认安全及接线正确(5.2节) Before turning on the power supply, check the safety and wiring for correctness (5.2) 接通电源后,确认状态正确(5.3节)...
  • Page 35 User’s Guide for EM760 series high-performance vector inverter 5.2 Confirmation before Power-on Please confirm the following items before turning on the power supply: Item to be confirmed Confirmation content Check whether the input power voltage is consistent with the voltage of the inverter.
  • Page 36 User’s Guide for EM760 series high-performance vector inverter solidly ON, it indicates that the inverter is in the running state. If it flickers, it means that the inverter is decelerating to stop. F00.02=1: terminal control The inverter start and stop are controlled by the start and stop control terminals defined by the function code F02.00 to F02.06.
  • Page 37 User’s Guide for EM760 series high-performance vector inverter F/R to control the reverse running and stop. When the terminals RUN and F/R are enabled simultaneously, the inverter will be stopped. When the mode of deceleration to stop is selected, the logic of forward/reverse running is as shown in Fig.
  • Page 38 User’s Guide for EM760 series high-performance vector inverter Operation Inverter Forward/reverse Parking Output frequency Time (a) Wiring diagram of three-line control (F00.03=3) (d) F04.19=0, F00.03=3: forward/reverse running logic Fig. 5-3 Three-line Control 5.6 Common Process Parameters of Inverter Function Default...
  • Page 39 User’s Guide for EM760 series high-performance vector inverter Static self-learning of synchronous motor F01.34=2 Scenarios where the motor and load can be Rotary self-learning of separated easily and open-loop control is asynchronous motor adopted. Before operation, the motor shaft Good should be separated from the load.
  • Page 40 User’s Guide for EM760 series high-performance vector inverter 5.8 Closed-loop vector adjustment procedures ⚫ Set the command source of the inverter to keyboard control and the main frequency source to digital frequency F00.07 (5.00Hz); set F12.00 M.K multi-functional key to option: 3 (Forward/Reverse switching);...

  • Page 41: Chapter 6 Solution

    In case of protection, the motor will stop rotating normally or slow down until it is stopped. The protection contents and solutions of the EM760 series inverter are shown in Table 6-1. Table 6-1 Protection Contents and Solutions of EM760 Series Inverter...
  • Page 42 User’s Guide for EM760 series high-performance vector inverter energy consumption unit, set F15.30 to 1, and enable the braking function is not enabled energy consumption braking. 1. The input power supply is subject to phase loss. 1. Check the input power supply and 2.
  • Page 43 User’s Guide for EM760 series high-performance vector inverter 3. Excess environment 3. Strengthen the heat dissipation of the temperature. motor. 4. The load is too heavy. 4. The motor model is not suitable. 1.The acceleration 1. Increase acceleration deceleration time is too short.
  • Page 44 User’s Guide for EM760 series high-performance vector inverter 3. The PG card selected is not of 3. Check the PG card type selected. the right type. 4. Replace the encoder. 4. The encoder is damaged. 5. Take electromagnetic compatibility 5. There is on-site interference.
  • Page 45 User’s Guide for EM760 series high-performance vector inverter lower voltage limit. 3. Check whether it is caused by loose connection of the sensor. 1. Check whether the sensor can work 1. The valid time of the wiring normally. detection terminal is too long.

  • Page 46: Chapter 7 Maintenance

    User’s Guide for EM760 series high-performance vector inverter Chapter 7 Maintenance Daily Maintenance of Inverter Due to the operating environment, aging of internal components and other factors, the inverter may have various faults. Thus, the inverter must be regularly maintained during storage and use.
  • Page 47 User’s Guide for EM760 series high-performance vector inverter ⚫ The inverter is damaged as a result of incorrect wiring; ⚫ The inverter is damaged due to unauthorized modification. ⚫ The warranty does not cover any damage caused to the inverter by severe environmental conditions, particularly by exposure to conductive dust, salt spray, corrosive gas, condensation, oily dirt and obvious vibration.

  • Page 48: Chapter 8 Select Accessories

    D = 50% to 60% for lifting equipment with a lowering height over 100m The recommended power and resistance for the braking resistor of the EM760 series inverter are given in the table below. The recommended resistor power is calculated based on the braking rate (10% to 20%). It is for reference only.
  • Page 49 User’s Guide for EM760 series high-performance vector inverter consumption braking BR100-160 Energy 55~160 consumption braking BR100-200 Energy 160~200 consumption braking BR100-315 Energy 185~315 consumption braking BR100-400 Energy 315~400 consumption braking ★ When BR100 works with the minimum resistance, the braking unit can work continuously at the braking frequency D=33%.
  • Page 50 User’s Guide for EM760 series high-performance vector inverter card EM760-CM-PN1 PROFINET communication Support 100Mbps full duplex card Encoder expansion card (PG card) For EM760 inverters, there are multiple types of general PG cards available for the user to choose according...

  • Page 51: Chapter 9 Function Code Table

    User’s Guide for EM760 series high-performance vector inverter Chapter 9 Function Code Table Description of Function Code Table The EM760 inverters have 22 groups of function codes (hereinafter referred to as “function codes”) as shown in the following table, and each group consists of several function codes. Among them, the F18 group is a monitoring parameter group used to view the inverter status;...
  • Page 52 User’s Guide for EM760 series high-performance vector inverter 0: digital frequency setting F00.07 1: AI1 2: AI2 3: AI3 Options of main frequency 4: AI4 (expansion card)  F00.04 source A 5: high frequency pulse input (X7) 6: main frequency communication setting...
  • Page 53 User’s Guide for EM760 series high-performance vector inverter Reference options of auxiliary frequency source B 0: relative to the maximum frequency  F00.09 in main and auxiliary 1: Relative to main frequency source A operation Gain of main frequency ●...
  • Page 54 User’s Guide for EM760 series high-performance vector inverter 1.0-10.0 (rated power of the inverter: 5.5-7.5kW) 1.0 - 8.0 (rated power of inverter 11 - 45kW) 1.0 - 4.0 (rated power of inverter 55 - 90kW) 1.0 - 3.0 (rated power of inverter 110 - 560kW)
  • Page 55 User’s Guide for EM760 series high-performance vector inverter 1: Double-brush double-brush PWM switch 2: Automatic switch control Parameter group of motor 1 0: ordinary asynchronous motor  F01.00 Motor type 1: variable-frequency asynchronous motor 2: permanent magnet synchronous motor Depending Rated power of electric ...
  • Page 56 User’s Guide for EM760 series high-performance vector inverter motor type Magnetic saturation  F01.14 coefficient 1 of 10.00~100.00 87.00 asynchronous motor Magnetic saturation  F01.15 coefficient 2 of 10.00~100.00 80.00 asynchronous motor Magnetic saturation  F01.16 coefficient 3 of 10.00~100.00 75.00...
  • Page 57 User’s Guide for EM760 series high-performance vector inverter Detection time of speed 0.0~10.0 (0.0: inactive detection of speed  F01.32 feedback disconnection feedback disconnection) Speed feedback filtering  F01.33 0.000~0.100 0.002 time 0: No operation 1: static self-learning of asynchronous motor...
  • Page 58 User’s Guide for EM760 series high-performance vector inverter 37: length counter input (≤250Hz) 24: Switching of RUN command to frequency source to AI1 keyboard 38: High-speed length counting input 53: Switching of main (≤100kHz, only valid for X7) 25: switching of RUN command to...
  • Page 59 User’s Guide for EM760 series high-performance vector inverter Maximum input pulse ● F02.28 0.01~100.00 50.00 frequency –100.0~+100.0 ● F02.29 Maximum input setting 100.0 ● F02.30 Pulse input filtering time 0.00~10.00 0.10 Ones place: AI1 0: analog input 1: digital input (0 below 1V, 1 above 3V, the...
  • Page 60 User’s Guide for EM760 series high-performance vector inverter ● F02.47 Maximum input of curve 3 F02.45~10.00 9.90 Maximum input setting of –100.0~+100.0 ● F02.48 100.0 curve 3 ● F02.49 Minimum input of curve 4 -10.00~F02.51 -9.90 Minimum input setting of –100.0~+100.0...
  • Page 61 User’s Guide for EM760 series high-performance vector inverter function 5: reverse running (REV) (EA-EB-EC) 6: jog  7: inverter fault Options of R2 output F03.03 function (RA-RB-RC)  F03.04 Reserved 42: up to the speed 8: inverter ready to run...
  • Page 62 User’s Guide for EM760 series high-performance vector inverter Single pulse time of Y1 ● F03.17 0.001~30.000 0.250 output Single pulse time of Y2 ● F03.18 0.001~30.000 0.250 output Single pulse time of R1 ● F03.19 0.001~30.000 0.250 output Single pulse time of R2 ●...
  • Page 63 User’s Guide for EM760 series high-performance vector inverter Start/stop control parameter group 0: direct start  F04.00 Start-up method 1: start of speed tracking  F04.01 Start frequency 0.00~50.00 0.00  F04.02 Start frequency hold time 0.00-60.00, 0.00 is invalid 0.00...
  • Page 64 User’s Guide for EM760 series high-performance vector inverter  F04.24 Flux braking gain 100-200 (100: no flux braking) Start mode after failure/free 0: start according to F04.00 setting mode  F04.26 stop 1: start of speed tracking 0: Not required for confirmation...
  • Page 65 User’s Guide for EM760 series high-performance vector inverter Rise time of VF separation ● F05.09 0.00~60.00 2.00 voltage Compensation gain of V/F ● F05.10 0.00~200.00 100.00 stator voltage drop ● F05.11 V/F slip compensation gain 0.00~200.00 100.00 ● F05.12 V/F slip filtering time 0.00~10.00...
  • Page 66 User’s Guide for EM760 series high-performance vector inverter Upper limit of speed control ● F06.11 0.0~250.0 165.0 brake torque Excitation current ● F06.12 0.00~100.00 0.50 proportional gain ACR-P1 Excitation current integral 0.00~600.00 ● F06.13 10.00 time constant ACR-T1 0.00: no integral Torque current proportional ●...
  • Page 67 User’s Guide for EM760 series high-performance vector inverter weakening regulator Integral time of flux ● F06.25 0.001~6.000 0.200 weakening regulator MTPA control options of 0: Invalid  F06.26 synchronous motor 1: valid Self-learning gain at initial ● F06.27 0~200 position Frequency of low frequency 0.00-100.00 (100.00 is the rated frequency of...
  • Page 68 User’s Guide for EM760 series high-performance vector inverter Initial lead angle of  F06.45 0.0~359.9 ° magnetic pole Speed tracking proportional  F06.46 0.00~10.00 1.00 gain of synchronous motor Speed tracking integral gain  F06.47 0.00~10.00 1.00 of synchronous motor Filtering time constant of ...
  • Page 69 User’s Guide for EM760 series high-performance vector inverter 0: Built-in permanent magnet synchronous motor Asynchronous motor type  F06.66 1: Surface-mounted permanent magnet selection synchronous motor 2: Permanent magnet direct drive motor Excitation current MTPA ● F06.67 0.0~300.0 20.0 calculation gain Excitation current flux ●...
  • Page 70 User’s Guide for EM760 series high-performance vector inverter gain Motor overload pre-alarm ● F07.02 50~100 coefficient 0: No temperature sensor 1: PT100 Motor temperature sensor ● F07.03 2: PT1000 type 3: KTY84-130/150 4: PTC-130/150 Motor overheat protection ℃ ● F07.04...
  • Page 71 User’s Guide for EM760 series high-performance vector inverter failure 0: allow retry after failure 1: disable retry after failure E21 E16 E15 E14 E13 E12 E08 E07  F07.19 Action option 1 after failure 00000000 0: free stop 1: stop according to stop mode ...
  • Page 72 User’s Guide for EM760 series high-performance vector inverter detection method 1: Hardware detection 2: Simultaneous software and hardware detection Setting value of current for  F07.42 0.00~100.0 20.0 determining short to ground  F07.43 Warning shield 0: Warning valid 00000000...
  • Page 73 User’s Guide for EM760 series high-performance vector inverter 0: no memory (from the first segment) 1: Memory (from the power-down moment) 0: s (second) ● F08.18 Simple PLC time unit 1: min (minute) Ones place: Running direction options 0: forward...
  • Page 74 User’s Guide for EM760 series high-performance vector inverter segment Setting of the eleventh ● F08.39 Same as F08.19 segment Running time of the eleventh ● F08.40 0.0~6000.0 s/min segment Setting of the twelfth ● F08.41 Same as F08.19 segment Running time of the twelfth ●...
  • Page 75 User’s Guide for EM760 series high-performance vector inverter ● F09.09 Integral time 2 0.000 - 30.000, 0.000: no integral 10.000 ● F09.10 Differential time 2 0.000~30.000 0.000 0: no switching PID parameter switching ● F09.11 1: switching via digital input terminal...
  • Page 76 User’s Guide for EM760 series high-performance vector inverter Upper limit of feedback ● F09.36 0.00 to upper limit of feedback voltage 0.00 voltage 0: Always calculate the integral term Options of integral action 1: Calculate the integral term after the F09.21 ●...
  • Page 77 User’s Guide for EM760 series high-performance vector inverter 1: set frequency 4: PID setting 2: output torque 5: output current Proportional factor of slave ● F10.08 0.00-10.00 (multiple) 1.00 reception ● F10.09 Host sending interval 0.000~30.000 0.200 Communication address of ...
  • Page 78 User’s Guide for EM760 series high-performance vector inverter 0: Reply to both read and write commands  F10.61 SCI response option 1: Reply to write commands only 2: No reply to both read and write commands CANopen self check F10.62 0~65535 ×...
  • Page 79 User’s Guide for EM760 series high-performance vector inverter on the motor type Depending F12.20 Rated voltage of inverter 60~690 on the × motor type Depending F12.21 Rated current of inverter 0.1~1500.0 on the × motor type F12.22 Performance software S/N 1 XXX.XX XXX.XX...
  • Page 80 User’s Guide for EM760 series high-performance vector inverter LCD large-line display ● F12.39 0.00~99.99 18.06 parameter 2 LCD large-line display ● F12.40 0.00~99.99 18.01 parameter 3 Options of UP/DOWN zero 0: prohibit zero crossing  F12.41 crossing 1: allow zero crossing Frequency setting of digital F12.42...
  • Page 81 User’s Guide for EM760 series high-performance vector inverter 6: Communication setting (percentage) 7: Communication setting (direct frequency setting) Upper frequency limit of ● F13.09 0.00 to maximum frequency F00.16 50.00 torque control ● F13.10 Upper frequency limit offset 0.00 to maximum frequency F00.16 0.00...
  • Page 82 User’s Guide for EM760 series high-performance vector inverter 0.00~20.00, ● F15.17 Hopping range 2 0.00 0.00: Invalid ● F15.18 Frequency hopping point 3 0.00~600.00 600.00 0.00~20.00, ● F15.19 Hopping range 3 0.00 0.00: Invalid Detection width of output  F15.20 0.00~50.00...
  • Page 83 User’s Guide for EM760 series high-performance vector inverter Switching options of PWM 0: invalid (7-segment PWM modulation)  F15.36 modulation mode 1: valid (5-segment PWM modulation) Switching frequency of ● F15.37 0.00 to maximum frequency F00.16 15.00 PWM modulation mode...
  • Page 84 User’s Guide for EM760 series high-performance vector inverter Customization function group 0: Universal General purpose model  F16.00 Industry application 3: Winding and unwinding application 1~65535 (F16.13=0) 0.1~6553.5 (F16.13=1) ● F16.01 Set length 1000 0.01~655.35 (F16.13=2) 0.001~65.535 (F16.13=3) ● F16.02 Pulses per meter 0.1~6553.5...
  • Page 85 User’s Guide for EM760 series high-performance vector inverter 30: PLC card F16.15 Slot 2 type Same with slot 1 XXXX × F16.16 Slot 1 software S/N 1 0.00~65.335 XXXX × F16.17 Slot 1 software S/N 2 0.00~65.335 XXXX × F16.18 Slot 2 software S/N 1 0.00~65.335...
  • Page 86 User’s Guide for EM760 series high-performance vector inverter F18.28 AI3 0.0~100.0 × F18.29 AI4 -100.0~100.0 × F18.30 Output terminal state 2 × High-frequency pulse input F18.31 0.00~100.00 0.00 × frequency: kHz High-frequency pulse input F18.32 0~65535 × frequency: Hz F18.33 Count value 0~65535 ×...
  • Page 87 User’s Guide for EM760 series high-performance vector inverter fault codes. F19.01 Output frequency in failure 0.00 to upper frequency limit 0.00 × 0.00 to 650.00 (rated power of motor: ≤ 75 kW) F19.02 Output current in failure 0.00 × 0.0 to 6500.0 (rated power of motor: > 75 kW) F19.03 Bus voltage in failure...

This manual is also suitable for:

Em760-0r7g/1r5p-3bEm760-1r5g/2r2p-3bEm760-2r2g/3r0p-3bEm760-4r0g/5r5p-3bEm760-5r5g/7r5p-3bEm760-7r5g/9r0p-3b ... Show all

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