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Senlan SLANVERT Hope530 Series User Manual

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Summary of Contents for Senlan SLANVERT Hope530 Series

  • Page 2: Table Of Contents

    Content Preface Preface ........................... 1 1. Safety and Precautions ..................... 3 1.1 Safety Precautions ............................3 1.2 Precautions ..............................4 2. Product Specification ......................6 2.1 General Technical Specification of Hope530 Series Inverter ..............6 2.2 Product Series Specification ........................7 3.
  • Page 3 6.4 F3 Speed, Torque and Flux Control Parameters ..................91 6.5 F4 Digital Input Terminal and Multistage Speed ..................94 6.6 F5 Digital Output and Relay Output Settings ..................104 6.7 F6 Analog and Pulse Frequency Terminal Settings ................108 6.8 F7 Process PID Parameters ........................

  • Page 4: Preface

    The Hope530 series inverter is a new generation of low-noise, high-performance and multi-function inverter independently developed by Hope Senlan Science & Technology Holding Co., Ltd. It adopts the rotor-magnetic-field-oriented vector control mode to achieve high torque of motor, high precision, wide range speed regulation, high reliability and powerful functions.
  • Page 5 Product No.: 1234567 Rated output: three-phase 0~380V 0~650Hz Rated current: 112A Rated power: 55kW Hope Senlan Science & Technology Hope Senlan Holding Co., Ltd. Definition of Safety Signs For safety-related contents in this manual, please use the following signs, and the contents with safety signs must be followed.

  • Page 6: Safety And Precautions

    1. Safety and Precautions 1.1 Safety Precautions I. Installation  Do not install the inverter at the place with or near combustible materials, or there will be a fire risk.  The inverter shall be installed on a smooth and solid surface, away from Humid, hot and condensed environment. II.

  • Page 7: Precautions

     The plastic parts of the inverter will produce toxic gas when burned. 1.2 Precautions I. About Motor and Mechanical Load  Compare with power frequency operation The Hope530 series inverter is a kind of PWM voltage inverter with its output voltage containing harmonic wave. Compared with power frequency power supply, the loss generated when driving the motor and the temperature rise and noise of the motor are increased.
  • Page 8 If switches such as contactors need to be installed between the inverter output and the motor, please be sure to switch on and off when the inverter has no output, otherwise the inverter may be damaged.  Occasion for frequent start and stop Start and stop control shall be achieved for inverter via terminals.

  • Page 9: Product Specification

    2. Product Specification 2.1 General Technical Specification of Hope530 Series Inverter Item Description Rated voltage, Three-phase: 380V, 50Hz/60Hz frequency Input Voltage fluctuating range: ± 15%; voltage unbalance: <3%; frequency: Allowable range 47Hz~63Hz Output Voltage Three-phase, 0V~input voltage, tolerance<5% Output Output frequency V/F control: 0.00Hz~650.00Hz;...

  • Page 10: Product Series Specification

    Item Description 2-circuit multifunctional digital output; output of 2 multifunctional relays, Digital output supporting digital output extension Built-in RS485 communication interface, supporting Modbus protocol (RTU, Communication TCP), USS instruction, PROFIbus-DP protocol, PROFINET protocol, etc. Two groups of PID parameters; various modification modes; of free PID Process PID function;...
  • Page 11 Rated Rated Rated Rated Motor Motor output Capacity Capacity Inverter model Inverter model output (kW) (kW) Current (kVA) (kVA) Current (A) Hope530G4T4B* Hope530G110T4*L Hope530G5.5T4B* Hope530G132T4*L Hope530G7.5T4B* Hope530G160T4*L Hope530G11T4B* Hope530G200T4L Hope530G15T4B* Hope530G220T4L 18.5 Hope530G18.5T4B* Hope530G250T4L Hope530G22T4B* Hope530G280T4L Hope530G30T4** Hope530G315T4L Hope530G37T4** Hope530G375T4L —...
  • Page 12 Weight with Weight without Inverter model (mm) (mm) (mm) (mm) (mm) (mm) reactor (kg) reactor (kg) Hope530G5.5T4B* Hope530G7.5T4B* 3) Installation dimensions, weight and outline drawing of Hope530G11T4~ Hope530G37T4 plastic case models: Weight Weight with Inverter model without (mm) (mm) (mm) (mm) (mm) (mm)
  • Page 13 Without shield 不带防护罩 With shield 带防护罩 Note: The shield is an optional component. See section of shield in chapter 9 for details.
  • Page 14 4) Installation dimensions, weight and outline drawing of Hope530G45T4~Hope530G375T4 ironclad models: Weight Weight with Inverter model without (mm) (mm) (mm) (mm) (mm) (mm) (mm) (mm) (mm) reactor (kg) reactor (kg) Hope530G45T4** 32.5 28.1 Hope530G55T4** 33.3 28.1 Hope530G75T4** 51.2 — Hope530G90T4*L 51.2 —...
  • Page 15 With cable bracket 带线缆支架 Note: The cable bracket is an optional component. See section of wiring auxiliary kit in chapter 9 for details.

  • Page 16: Installation And Wiring

    3. Installation and Wiring 3.1 Inverter Installation 1. All inspection work of the inverter can only be carried out by trained professionals. 2. Do not install or use the inverter if it is damaged or its components are incomplete; otherwise it may result in fire and personal injury. DANGER 3.

  • Page 17: Installation Spacing And Direction

    The inverter shall be installed vertically and upward and it is not allowed to be installed inversely, obliquely or horizontally. The inverter shall be fixed on a firm structure using suitable bolts. 9) The Hope530G series products are designed to be installed in cabinets and shall be used in final system that shall provide corresponding fire protection enclosure, electrical protection enclosure and mechanical protection enclosure meeting local laws, regulations and relevant IEC standard requirements.
  • Page 18 In the place requiring installing inverters in upper and lower rows, the heat of lower row of inverter will raise the temperature of the inverter in the upper row, resulting in overheating/overload fault of upper row of inverter, so there shall be a heat insulation guide plate installed between upper row and lower row as shown in figure.

  • Page 19: Complete Installation Of Each Model

    Mounting direction The inverter shall be installed vertically and upward and it is not allowed to be installed inversely or horizontally or in other ways. Fig. 3-5 Installation Directions 3.1.3 Complete Installation of Each Model Hope530G0.75T4~Hope530G7.5T4 models can only be installed on wall, Hope530G11T4~Hope530G375T4 models support wall-mounted way and optional embedded installation.
  • Page 20 1) Wall-mounted type Fig. 3-6 Wall-mounted Type Hope530G0.75T4~Hope530G37T4 Models...
  • Page 21 Lifting position of 吊绳吊装 lifting rope 位置 Local Drawing of 下端安装孔 Lower Installation 局部图 Hole Fig. 3-7 Wall-mounted Type Hope530G45T4~Hope530G375T4 Models Note: As for this installation mode, it is forbidden to fix only the two fixing nuts on the upper end of the inverter, otherwise the inverter may fall off and be damaged after a long time running.
  • Page 22 2) Embedded installation 1.将挂条套入机身,拧紧机身左右侧 2.完成挂条安装。 1. Insert the lanyards into the machine body and 2. Install the lanyards. tighten the screws fixing the lanyards on the left and 固定挂条的螺钉。 right sides of the machine body. Lanyards. 挂条 4. Complete the embedded installation. 3.
  • Page 23 1. Respectively fix the lanyards on 4 sides of the 2.完成挂条安装。 1.分别将挂条固定在机身四侧。 2. Install the lanyards. machine body. 3. Install the inverter vertically and upward on the fixed surface of 4. Complete the embedded installation. 3.将变频器垂直向上装在安装柜的固定面 the installation cabinet 4.完成嵌入式安装。 上。...

  • Page 24: Disassembly And Installation Of Cover Plate

    3.1.4 Disassembly and Installation of Cover Plate Wiring for main circuit and control circuit of Hope530G series shall be carried out after removing the cover plate. ATTENTION: Please be sure to remove the operation panel of the inverter before opening the inverter cover, otherwise the inverter may be damaged! 1) Disassembly and installation of cover plate of Hope530G0.75T4~Hope530G7.5T4 models Disassembly Steps 1.用力按住操...
  • Page 25 2) Disassembly and installation of cover plate of Hope530G11T4~Hope530G37T4 models Disassembly Steps 1. Press the spring on the upper 4. Hold the cover plate with both hands, ① 1.用力按住操作面 2.拔下操作面板 3.用工具将盖板 4.双手握住盖板, 抬起盖板下端; 5.完成盖板拆卸。 2. Unplug the connecting 3. Loosen the fastening screw ①...
  • Page 26 3) Disassembly and installation of cover plate of Hope530G45T4~Hope530G375T4 models Disassembly steps 4. Hold the cover plate with both hands, ① Lift 4.双 手 握 住 盖 板 , 抬 起 5.完成盖板拆卸。 1. Press the spring on the 1.用力按住操作面 2. Unplug the connecting 2.拔下操作面板...

  • Page 27: Wiring Of The Inverter

    3.2 Wiring of the Inverter DANGER 1. Inverter wiring can only be carried out by trained personnel. 2. The door of the inverter can be opened only more than 10 minutes later after the power supply of the converter is reliably cut off and all the indicator lights of the operation panel are off.

  • Page 28: Main Circuit Terminal Wiring And Configuration

    3.2.1 Main Circuit Terminal Wiring and Configuration For the connection between inverter and peripheral equipment, see the figure below: 电 Source 源 空气开关 Air switch 空气开关 Air switch Quickly cut off the power in case of overcurrent of 下游设备过流时快速切断电源 downstream equipment Magnetic Contactor 电磁接触器...
  • Page 29 Table 3-2 Recommended Model of Air Switch Capacity and Input/Output Copper-core Insulated Conductor Recommended Recommended Tightening Input/output copper input/output wiring Screws Inverter model Air switch (A) torque wire range (mm copper wire terminal Spec. (N•m) models (mm² ) model — —...
  • Page 30 Table 3-3 Re commanded Model of Grounding Cables Recommended Grounding Recommended Tightening grounding Screws Inverter model copper wire wiring terminal torque copper wire Spec. (N•m) range (mm model models (mm² ) — — Hope530G0.75T4B* — — Hope530G1.5T4B* — — Hope530G2.2T4B* —...
  • Page 31 SC crimping terminal appearance is shown below: List of model and dimension of SC terminal: Type Type Dimension(mm) Dimension(mm) model model Φd2 ΦD Φd Φd2 ΦD Φd ITEM NO. ITEM NO. SC1.5-4 SC50-6 17.8 SC1.5-5 SC50-8 17.8 SC1.5-6 SC50-10 10.5 17.8 12.4 SC2.5-4...
  • Page 32 List of model and dimension of SC terminal (continued): Type Type Dimension(mm) Dimension(mm) model model Φd2 ΦD Φd Φd2 ΦD Φd ITEM NO. ITEM NO. SC16-5 SC150-8 30.6 SC16-6 SC150-10 10.5 30.6 SC16-8 12.5 SC150-12 30.6 21.2 16.5 SC16-10 10.5 SC150-14 30.6 SC16-12...
  • Page 33 The basic operation wiring connection is as follows: Brake resistor Brake 制动单元 制动电阻 unit Circuit breaker 断路器 三相输入 Three-phase input 380V power supply 380V电源 高压指示 High voltage indicator 50Hz/60Hz Hope530G系列变频器 Hope530G inverter Multi-function relay output and 多功能继电器输出 Short-connected factory configuration 及出厂配置...
  • Page 34 Arrangement of main circuit terminal of Hope530G0.75T4~Hope530G7.5T4 inverters is as follows: Main Circuit Terminal Distribution (0.75~4kW) Main Circuit Terminal Distribution (5.5~7.5kW) Arrangement of main circuit terminal of Hope530G11T4~Hope530G37T4 inverters is as follows: Main Circuit Terminal Distribution (without wire nail) Main Circuit Terminal Distribution (with wire nail) Arrangement of main circuit terminal of Hope530G45T4~Hope530G160T4 inverters is as follows: Main Circuit Terminal Distribution (without cable bracket Main Circuit Terminal Distribution (with cable bracket and...
  • Page 35 Main Circuit Terminal Distribution (without cable bracket Main Circuit Terminal Distribution (with cable bracket and cable clamp) and cable clamp) Arrangement of main circuit terminal of Hope530G250T4L and Hope530G280T4L inverters is as follows: Main Circuit Terminal Distribution (without cable bracket Main Circuit Terminal Distribution (with cable bracket and cable clamp) and cable clamp)
  • Page 36 Control cable, power cable and motor cable shall be applied separately to avoid interference due to intercoupling, and enough far distance shall be maintained between them, especially, when cables are installed in a parallel manner and with long extension distance. If signal cable has to cross power cable, the vertical crossing method shall be applied, shown as follows: 电动机电缆...

  • Page 37: Incoming And Outgoing Form Of Lines Of The Inverter

    3.2.2 Incoming and Outgoing Form of Lines of the Inverter Hope530G0.75T4~Hope530G375T4 models adopts the down-in down-out wiring mode. The complete wiring effect of Hope530G11T4~Hope530G37T4 models without cable bracket is shown in the left figure below. The inverter of 45kW and above power grade is provided with an internal high-voltage indicator light inside at the top left corner of pallet on mainboard, which is below the hexagonal transparent hole composed of multiple circular holes.
  • Page 38 Wiring of main circuit terminal of Hope530G11T4~Hope530G37T4 inverters is as follows: Wiring Effect of Input End of Main Circuit Terminals Overall Wiring Effect of Main Circuit Terminals HOPE510G11T4 ~ HOPE510G37T4 机型主回路端子输出端接线示意图 HOPE510G11T4 ~ HOPE510G37T4 机型主回路端子整体接线示意图 Wiring of main circuit terminal of Hope530G45T4~Hope530G160T4 inverters is as follows: Wiring Effect of Input End of Main Circuit Terminals Overall Wiring Effect of Main Circuit Terminals Grounding of...
  • Page 39 Wiring of main circuit terminal of Hope530G250T4L and Hope530G280T4L inverters is as follows: Wiring Effect of Input End of Main Circuit Terminals Overall Wiring Effect of Main Circuit Terminals Main wiring Main wiring 主接线端子层 主接线端子层 terminal layer terminal layer Grounding of shielding layer Grounding of 屏蔽层接地...

  • Page 40: Control Board Terminal, Jumper And Wiring

    Cable brackets in the wiring figure of main circuit terminal of Hope530G45T4~Hope530G375T4 are optional components, which shall be separately purchased. Installation steps are as follows: 线缆支架装配示意图 1. Remove the cover plate with tools. 2. Clamp into the cable bracket from the 3.
  • Page 41 Functions of control board terminal of Hope530 series are shown below: Terminal Terminal Name Terminal Function & Technical Specification Symbol Description +10V reference power +10V maximum output current +10V +10V power supply to the user supply 15mA, voltage accuracy above 2% Underground water Grounding...
  • Page 42 Terminal Terminal Name Terminal Function & Technical Specification Symbol Description relay 2 1) Analog input terminal wiring Using analog signal for remote operation requires the length of the control line between the operator and the inverter to be less than 30m. Since the analog signal is easily interfered, the analog control line shall be separated from the strong current circuit, relay, contactor, etc.
  • Page 43 Connection of multifunction input terminal and external device: 多功能输入端子和外部设备的连接: Source logic Leakage logic 漏型逻辑 源型逻辑 When 使 using Hope530G Hope530G 短 Hope530G inverter External 用 外部 外部 External 接 devices internal 变频器 变频器 devices Hope530G inverter 变 设备 设备 短 片...
  • Page 44 3) Wiring of relay output terminals TA, TB, TC For driving inductive loads (such as electromagnetic relays, contactors, electromagnetic brakes), surge voltage absorbing circuits, varistor or freewheeling diodes (for DC electromagnetic circuits, must pay attention to polarity when installing) shall be installed. The components of the snubber circuit shall be installed close to the coils of the relay or contactor as shown below: Diode...

  • Page 45: Suppression Method For Inverter Electromagnetic Interference

    Pins of COMM1 communication port are defined as below: Pin No. Terminal Name 485+ 485- Not connected Note: configuration of COMM1 communication port is shown in page. The terminal of COMM1 communication port can also be replaced by a crystal port. Please contact the manufacturer if needed. Only the physical interface corresponds to the COMM1 communication port, and the other ports on the expansion board correspond to the COMM2 communication port.
  • Page 46 position-limit mechanism. The screw can be loosened but do not try to screw it out) to cut off the electric connection. Besides, filter shall not be installed otherwise personal injury or inverter damage may be caused. Schematic Diagram of Stop Screws of Plastic Case Cabinet Schematic Diagram of Stop Screws of Ironclad Cabinet II.

  • Page 47: Inverter Operation And Test Run

    4. Inverter Operation and Test Run 4.1 Inverter Operation and Display 4.1.1 Functions of Operation Panel The operation panel can be used to set and check parameters, operation control and display fault information, its standard configuration is HOPE-PU07, or HOPE-PU04 can be configured as required by customers. Besides, HOPE-PU07 (LEED panel) or HOPE-PU04 (LCD panel) can be installed on cabinet panel by purchasing optional components.
  • Page 48 r/min r/min % Percentage r/min KW (lights A and V are on at the same time) r/min r/min r/min (lights V and Hz are on at the same time) r/min m/s (lights Hz and % are on at the same time) r/min Length m or mm (lights A, V and Hz are on at the same time) r/min...

  • Page 49: Display Status And Operations On The Operations Panel

    Indicator light Display Indicated current status of the inverter Set direction and current running direction are forward REV indicator light Set direction and current running direction are reversed Flashing Set direction and current running direction are inconsistent Operation panel control status EXT indicator light Terminal control state Flashing...

  • Page 50: First Energization

    Password verification status If there is a user password (F0-16 is not zero), enter the password verification status before entering parameter editing. The device shows '――――' at this time, and users can enter password by , during which the '――――' will be displayed all the time. Then password protection can be released by pressing .

  • Page 51: V/F Control Quick Commissioning

    6. Acceleration and deceleration time: set as long as possible under the premise of meeting needs. If it is too short, it will produce too much torque, which may damage load or cause overcurrent; 7. Start and stop mode: see F1-19 'start mode' on page and F1-25 'stop mode' on page for details; 8.

  • Page 52: List Of Functional Parameters

    5. List of Functional Parameters Note: Change: "○" means that both standby and operation state can be changed, "× " means that only the operation state cannot be changed, and "△ " means read-only. F0 Basic Parameters Parameters Name Setting Range and Description Default Change Page Digital settings...

  • Page 53: F1 Acceleration & Deceleration, Starting, Stopping And Jogging Parameters

    Parameters Name Setting Range and Description Default Change Page Lock forward direction 2: Lock reverse direction Parameter write 0: No protection, 1: Except for F0-00 and F7-04, ○ F0-10 protection 2: Full protection 11: Initialization, 22: Initialization, except for F0-11 Parameter initialization ×...
  • Page 54 Parameters Name Setting Range and Description Default Change Page Minimum unit of ○ F1-16 acceleration and 0: 0.01s 1: 0.1s deceleration time Acceleration and deceleration time 0.00~650.00Hz, below this point F1-17 0.00Hz × automatic switching acceleration / deceleration time 8 point Emergency stop 0.01~3600.0s, the minimum unit is determined by...

  • Page 55: F2 V/F Control Parameters

    F2 V/F Control Parameters Parameters Name Setting Range and Description Default Change Page 0: Custom 1: Linear, 2: Reduced torque V/F curve 3: Reduced torque V/F curve 2, 4: Reduced torque F2-00 V/F curve settings × V/F curve 3 5: Reduced torque V/F curve 4, 6: Reduced torque V/F curve 5 0: None, 1: Manual boost F2-01...

  • Page 56: F3 Speed, Torque And Flux Control Parameters

    Parameters Name Setting Range and Description Default Change Page digital setting 0: 100.0% 1: |AI1| 2: |AI2| 3: |AI3| 4: |AI4| 5: |UP/DOWN regulation value | F2-24 V/F voltage coefficient |PFI| × 7: |Arithmetic unit 1| 8: |Arithmetic unit 2| 9: |Arithmetic unit 3| 10: |Arithmetic unit 4| F3 Speed, Torque and Flux Control Parameters...

  • Page 57: F4 Digital Input Terminal And Multi-Speed

    Parameters Name Setting Range and Description Default Change Page 100% Torque control speed 0: Determination of given frequency ○ F3-16 limit selection Determination of F3-17 and F3-18 Forward limit of torque 0.00Hz~F0-07 "upper limit frequency" ○ F3-17 5.00Hz control speed Reversed limit of torque 0.00Hz~F0-07 "upper limit frequency"...
  • Page 58 Parameters Name Setting Range and Description Default Change Page decrease 51: Multistage PID selection 21: Terminal UP/DOWN clear 52: Zero servo command 22: PLC control prohibited 53: Counter presetting 23: PLC suspended 54: Counter reset 24: PLC standby reset 55: length counter and 25: PLC mode selection 1 counter 2 reset 26: PLC mode selection 2...

  • Page 59: F5 Digital Output And Relay Output Settings

    Parameters Name Setting Range and Description Default Change Page PG pulse number per F4-68 1~8192 1024 × revolution F4-69 PG type 0: Quadrature encoder, 1: Single channel encoder × F4-70 PG direction selection 0: Positive 1: Negative × F4-71 PG disconnection action 0: No action, 1: Alarm, 2: Fault and free stop ×...
  • Page 60 Parameters Name Setting Range and Description Default Change Page Functions of DO2 digital 1: Inverter in operation (expansion F5-02 2: Frequency reached terminal) output terminal 3: Frequency level detection (expansion F5-03 T1 relay output function signal 1 terminal) 4: Frequency level detection (expansion signal 2 terminal)

  • Page 61: F6 Analog And Pulse Frequency Terminal Settings

    Parameters Name Setting Range and Description Default Change Page F5-08 DO2 terminal closing 0.00s delay F5-09 DO2 terminal opening 0.00s delay F5-10 T1 terminal closing delay 0.00s F5-11 T1 terminal opening delay 0.00s ○ 0.00~650.00s F5-12 T2 terminal closing delay 0.00s F5-13 T2 terminal opening delay...
  • Page 62 Parameters Name Setting Range and Description Default Change Page difference AI1 inflection point corresponded ○ F6-06 The same as F6-02 and F6-03 0.00% given value/feedback value ○ F6-07 AI1 filtering time 0.000~10.000s 0.100s AI1 connection loss ○ -20.00~20.00% F6-08 0.00% threshold ○...
  • Page 63 Parameters Name Setting Range and Description Default Change Page setting 39: Arithmetic unit 6 digital setting 40: Host computer analog 1 41: Host computer analog 2 42: Manufacturer output 1 43: Manufacturer output 2 0:0~10V OR 0~20mA 1:2~10V or 4~20mA ○...

  • Page 64: F7 Process Pid Parameters

    Parameters Name Setting Range and Description Default Change Page ○ F6-44 AI3 filtering time 0.000~10.000s 0.100s AI3 connection loss ○ F6-45 0.00~20.00% 0.00% threshold ○ F6-46 AI3 offline delay 0~360.00s 1.00s AI4 minimum input ○ F6-47 0.00% analog 0.00~100.00%, take 10V or 20mA as 100% AI4 maximum input ○...
  • Page 65 Parameters Name Setting Range and Description Default Change Page 13: Arithmetic unit 1 14: Arithmetic unit 2 15: Arithmetic unit 3 16: Arithmetic unit 4 ○ F7-03 PID display coefficient 0.010~10.000, only affects the monitoring menu 1.000 -100.0~100.0% ○ F7-04 PID digit given 0.0%...

  • Page 66: F8 Simple Plc

    F8 Simple PLC Parameters Name Setting Range and Description Default Change Page Units: PLC operation mode selection 0: No PLC operation 1: Stop after cycling the number of times set in F8-02 2: Maintain the final value after cycling the number of times set in F8-02 3: Continuous cycle Tens: PLC interrupt operation restart mode...

  • Page 67: F9 Wobble Frequency, Counter, Length Counter, Zero Servo

    PLC and multi-stage frequency corresponding parameters are shown below (division of PLC mode and stage is shown on page): Stage n settings F8-03 F8-05 F8-07 F8-09 F8-11 F8-13 F8-15 F8-17 F8-19 F8-21 F8-23 F8-25 F8-27 F8-29 F8-31 F8-33 Stage n time F8-04 F8-06 F8-08 F8-10 F8-12 F8-14 F8-16 F8-18 F8-20 F8-22 F8-24 F8-26 F8-28 F8-30 F8-32 F8-34 Multi-segment frequency n F4-20 F4-21 F4-22 F4-23 F4-24 F4-25 F4-26 F4-27 F4-28 F4-29 F4-30 F4-31 F4-32 F4-33 F4-34 F4-35...

  • Page 68: Fa Motor Parameters

    Parameters Name Setting Range and Description Default Change Page instruction selection ○ F9-14 Counter preset value 0~65535 ○ F9-15 Set counter F9-16 'specified count value'~65535 10000 ○ F9-16 Specified count value 1 0~F9-15 'set count value' ○ F9-17 Specified count value 2 0~F9-15 'set count value' Counter frequency ○...

  • Page 69: Fb Protection Function And Inverter Advanced Settings

    Parameters Name Setting Range and Description Default Change Page reactance of motor determination ○ FA-10 Motor rotor resistance 0.00~50.00% Model determination ○ FA-11 Mutual inductance 0.0~2000.0% Model resistance of motor determination FA-12 Motor core saturation 1.000~1.500 1.300 × coefficient 1 FA-13 Motor core saturation 1.000~FA-12 "motor core saturation coefficient 1"...
  • Page 70 Parameters Name Setting Range and Description Default Change Page force frequency Units: Inverter input phase loss protection 0: No action, 1: Alarm, 2: Fault and free stop Tens: Inverter output phase loss protection 0: No action, 1: Alarm, 2: Fault and free stop Hundreds: Grounding test 0: No test 1: Test only when powering up...

  • Page 71: Fc Keyboard Operation And Display Settings

    Parameters Name Setting Range and Description Default Change Page power supply is allowed Braking unit operating ○ Fb-27 620~720V 680V point ○ Fb-28 Modulation method 0: Auto 1: Continuous modulation 15kW and below: 1.1k~12.0 kHz, factory default: 4.0kHz 18.5~30 kW: 1.1k~10.0 kHz, factory default: 3.0kHz Model ○...
  • Page 72 Parameters Name Setting Range and Description Default Change Page and communication operation command channel and stop according to stop mode 2: The device stops according to stop mode in running command channel on the operation panel and stops freely in running command channel not on the operation panel, and it also reports Er.Abb Hundreds: function selection (only for panel...

  • Page 73: Fd Retained By The Manufacturer

    Fd Retained by the manufacturer. FE Programmable Unit Parameters Name Setting Range and Description Default Change Page Comparator 1 in-phase Options are the same as AO1 function selection ○ FE-00 input selection F6-20 Comparator 1 inverted Options are the same as AO1 function selection ○...
  • Page 74 Parameters Name Setting Range and Description Default Change Page setting ○ FE-22 Comparator 4 error band 0.0~100.0% 5.0% Comparator 4 output Options are the same as DI1 digital input terminal ○ FE-23 selection function F4 Logical unit 1 input 1 ○...
  • Page 75 Parameters Name Setting Range and Description Default Change Page selection Configuration of logical Options are the same as logical unit 1 configuration ○ FE-46 unit 6 FE-26 Logical unit 6 input Options are the same as DI1 digital input terminal ○...
  • Page 76 Parameters Name Setting Range and Description Default Change Page 8: Input 1 directly outputs (for connection) 9: Encoder position high word 10: Encoder position low word Digital settings of -100.0~100.0% ○ FE-67 0.0% arithmetic unit 1 Arithmetic unit 2 input 1 ○...

  • Page 77: Ff Communication Parameters

    Parameters Name Setting Range and Description Default Change Page Low pass filter 2 filtering ○ FE-91 0.000~10.000s 0.010s time Analog multiway switch Options are the same as AO1 function selection ○ FE-92 output 1 F6-20 Analog multiway switch Options are the same as AO1 function selection ○...

  • Page 78: Fp Fault Records

    FP Fault Records Parameters Name Content and Description Page 0: No fault 19: Co1: Output protection signal ocb: Instantaneous start of comparator 1 overcurrent 20. Co2: Output protection signal 2. ocA: Overcurrent at accelerated of comparator 2 operation 21. Co3: Output protection signal 3.

  • Page 79: Fu Data Monitoring

    Parameters Name Content and Description Page FP-17 Fifth last failure type Content & meaning same as FP-00 FP-18 Total operation time in fifth last The min. unit: 1h failure FP-19 Single operation time in case of fault The min. unit: 0.1h FP-20 Fault record clearing 11: Clear this menu parameter, it will automatically change to...
  • Page 80 Parameters Name Content and Description Page FU-30 Arithmetic unit 4 output Min. unit: 0.1% FU-31 Arithmetic unit 5 output Min. unit: 0.1% FU-32 Arithmetic unit 6 output Min. unit: 0.1% FU-33 Low-pass filter 1 output Min. unit: 0.1% FU-34 Low-pass filter 2 output Min. unit: 0.1% Analog multiway switch FU-35 Min.
  • Page 81 Parameters Name Content and Description Page FU-57 Manufacturing Date Min. unit: 00.00 FU-58 Inverter No. Min. unit: 0001 - - Miscellaneous Reserved...

  • Page 82: Detailed Explanation Of Functional Parameters

    6. Detailed Explanation of Functional Parameters 6.1 F0 Basic Parameters ○ F0-00 Digital settings frequency Default 50.00Hz Change Setting range 0.00Hz~F0-06 'maximum frequency' ○ F0-01 Main preset channel for normal operation Default 0300 Change Thousands, hundreds: Given channel 2 Tens, units: Given channel 1 0: F0-00 digital set, operating panel 1: COMM1 communication setting, F0-00 is the regulation...
  • Page 83 F0-02 Selection for operation command channel Default Change × Tens: Command channel 2 selection Units: Command channel 1 selection Setting range 0: Operation panel 1: Virtual terminal 1 (FWD1/REV1) 2: Virtual terminal 2 (FWD2/REV2) 3: COMM1 control 4: COMM2 control ...
  • Page 84  It is recommended to lock the rotation direction when only one-way rotation is required. ○ Default Change F0-10 Parameter write protection 0: No protection, all parameters can be overwritten (except read-only parameters) 1: Except for F0-00 "digital given frequency", F7-04 "PID digital given" and this parameter, other Setting range parameters are not allowed to be overwritten 2: All, except the parameters, are not allowed to be overwritten...
  • Page 85 5. The number of poles of the motor shall not exceed 8 and vector control shall not be adopted for double-cage motor, deep-slot motor and torque motor; 6. Set F2-12 "basic frequency" to be the same as the rated frequency of the motor, which is convenient for high-speed field-weakening control.

  • Page 86: F1 Acceleration & Deceleration, Starting, Stopping And Jogging Parameters

    6.2 F1 Acceleration & Deceleration, Starting, Stopping and Jogging Parameters Model ○ F1-00 Acceleration time 1 Default Change determination Model ○ F1-01 Deceleration time 1 Default Change determination Model ○ F1-02 Acceleration time 2 Default Change determination Model ○ F1-03 Deceleration time 2 Default Change...
  • Page 87 segmental acceleration and deceleration functions are not required, this parameter can be set to zero. Automatic switch function of acceleration and deceleration time is invalid in jogging operation, emergency stop and stall prevention. The frequency after 加减速处理后的频率 acceleration and deceleration F1-17 加减速时间...
  • Page 88 Starting and stopping DC braking are shown below: Output frequency 输出频率 Stop/DC braking frequency 停机/直流制动频率 Frequency of starting Time 起动频率 时间 Output Current 输出电流 停机直流制动电流 DC brake current at stop Starting DC braking current 起动直流制动电流 Time 时间 DC brake waiting time at stop 起动直流制动时间...
  • Page 89 output when it reaches F1-26 "stop DC braking frequency". After the F1-27 ''stop DC braking waiting time'', there will be DC current as set in F1-29 ''Stop DC brake current'' in motor, then it will stop after reaching the F1-28 ''Stop DC braking time''.
  • Page 90  After setting S curve time, the total acceleration and deceleration time is extended as shown below: Frequency 频率 Time 时间 加速 线性 加速 Initial Linear Acceleration 稳定 Stable 减速 Initial 线性 减速 Linear Deceleration acceleration acceleration ending running deceleration deceleration ending 起始段...

  • Page 91: F2 V/F Control Parameters

    6.3 F2 V/F Control Parameters F2-00 V/F curve settings Default Change × 0: Customized (see parameters F2-14~F2-21 1: Linear V/F curve (1.0 power) for details) 3: Reduced torque V/F curve 2 (1.5 power) Setting range 2: Reduced torque V/F curve 1 (1.2 power) 5: Reduced torque V/F curve 4 (2.0 power) 4: Reduced torque V/F curve 3 (1.7 power) 6: Reduced torque V/F curve 5 (3.0 power)
  • Page 92 (Basic frequency, maximum 电压 Volta (基频,最大输出电压) output voltage) 最大输出电压 Maximum output voltage 手动转矩 Manual torque boost amplitude 提升幅值 手动转矩提升截止点 频率 Manual torque boost end 基本频率 最大频率 Basic Frequency Maximum point frequency frequency  Automatic torque lift can change the voltage value in real time according to the load current size, compensate the voltage loss of stator impedance, automatically adapt to various load conditions, output appropriate voltage, so as to achieve larger output torque under heavy load and smaller output current under no load.
  • Page 93  The AVR allows faster deceleration under the mode of 'invalid only when decelerating' by comparing with the mode of 'always valid', but the deceleration current is slightly larger. This is because deceleration increases the DC bus voltage, and if AVR is invalid, the output voltage will also increase, which increases the motor loss and reduces the mechanical energy feedback of the motor, so that the deceleration time can be set shorter.

  • Page 94: F3 Speed, Torque And Flux Control Parameters

     Customized V/F curve is as follows: (Basic frequency, maximum output (基频,最大输出电压) voltage) 电压 Voltage (F4,V4) (F3,V3) (F1,V1) (F2,V2) Frequency 频率 F2-22 V/F separation voltage input selection Default Change × 0: Digital set voltage, determined by F2-23 1: |AI1| 2: |AI2| Setting range 3: |AI3| 4: |AI4|...
  • Page 95 F3-07 Torque limitation selection Default Change × 0: Determined by F3-08 “electric torque limit“ and F3-09 “regeneration torque limit“. 1: |AI1|× 2.5 2: |AI2|× 2.5 3: |AI3|× 2.5 4: |AI4|× 2.5 Setting range 5: |Arithmetic unit 1|× 2.5 6: |Arithmetic unit 2|× 2.5 7: |Arithmetic unit 3|×...
  • Page 96  F3-06 “ASR acceleration compensation differential time“: The parameter differentiates the given frequency processed by acceleration and deceleration time to obtain a feedforward torque given, which is added to the given torque to better track the given operating frequency in the process of acceleration and deceleration and reduce overshoot. ...

  • Page 97: F4 Digital Input Terminal And Multistage Speed

    Setting range 0.00Hz~F0-07 "upper limit frequency" F3-19 Torque given increase or decrease time Default 0.020s Change × Setting range 0.000~10.000s, time of increasing from 0 to 290% motor rated torque F3-20 Speed/torque control switching delay time Default 0.050s Change × Setting range 0.001~1.000s ...
  • Page 98 F4-02 DI3 digital input terminal function Default Change × F4-03 DI4 digital input terminal function Default Change × Default Change × F4-04 DI5 digital input terminal function Setting range See the digital input function definition table below  Digital input function definition table (a same digital input function cannot be selected for any two digital input terminals at the same time): 0: Not connected to the following signals 21: Terminal UP/DOWN...
  • Page 99 Acceleration and deceleration time 4 (F1-06, F1-07) Acceleration and deceleration time 5 (F1-08, F1-09) Acceleration and deceleration time 6 (F1-10, F1-11) Acceleration and deceleration time 7 (F1-12, F1-13) Acceleration and deceleration time 8 (F1-14, F1-15) Note: Acceleration and deceleration time selection is invalid in case of simple PLC, jogging operation and emergency shutdown.
  • Page 100 function 45. 43: FWD1/REV1 terminal command switching to three-wire type 1. When the FWD1/REV1 channel is valid and the signal is also valid, it forcibly switches to three-wire mode 1. See logic and illustration of various modes of FWD1/REV1 on page. 44: Main given frequency channel switching.
  • Page 101 55: Length counter and counter 2 reset. See length counter function description on page and description on counter 2 on page. 56, 57: Wobble frequency input and state reset. See the description for weaving wobble frequency functions on page. 58: Total fan running time reset. See the description on life expectancy of fan on page. 59: PFI is reversed for position setting.
  • Page 102 F4-13 Mode name Running logics Diagram S: Running switch, run when valid Single-line type Internal virtual FWD1 Note: The direction is determined by the (start/stop) 内部虚拟FWD1端子 terminal direction of the given frequency Meaning (reversal) (forward) Invalid Invalid Stop Internal virtual FWD1 Two-line 1 Forward 内部虚拟FWD1端子...
  • Page 103 F4-13 Mode name Running logics Diagram S: Running switch, run when valid Single-line type Note: The direction is determined by the Internal virtual FWD2 (start/stop) 内部虚拟FWD2端子 direction of the given frequency terminal Meaning (reversal) (forward) Invalid Invalid Stop Two-line 1 Forward Internal virtual FWD2 内部虚拟FWD2端子...
  • Page 104 ○ F4-16 UP/DOWN memory selection Default Change Setting range 0: Power failure storage, 1: Power failure clear, 2: Cleared at stop and power failure ○ Default 100.0% Change F4-17 UP/DOWN upper limit Setting range 0.0~100.0% ○ F4-18 UP/DOWN lower limit Default 0.0% Change...
  • Page 105 F4-21 Multistage F4-37 Multistage frequency 2 frequency 18 F4-22 Multistage F4-38 Multistage frequency 3 frequency 19 F4-23 Multistage F4-39 Multistage frequency 4 frequency 20 F4-24 Multistage F4-40 Multistage frequency 5 frequency 21 F4-25 Multistage F4-41 Multistage frequency 6 frequency 22 F4-26 Multistage F4-42 Multistage frequency 7...
  • Page 106 - F4-26 Multistage frequency 7 F4-27 Multistage frequency 8 F4-19=2 'Overlapping selection': The given frequency is the sum of all selected multistage frequencies (limited by upper and lower frequencies). For example, only 'multistage frequency selection 1', 'multistage frequency selection 3' and 'multistage frequency selection 4' are valid, then: Given frequency = multistage frequency 1 + multistage frequency 3 + multistage frequency 4 F4-19=3 'Number selection': The number of effective signals among 'multistage frequency selection 1'~'multistage...

  • Page 107: F5 Digital Output And Relay Output Settings

     Encoder setting verification method: Adopt non-PG V/F control mode to run in the direction and frequency allowed by the load, and observe whether the direction of FU-38 "PG detection frequency" is consistent with the direction displayed on the operation panel and whether the value is close to the given frequency. For PG control mode, it is required to set PG parameters DANGER: correctly.
  • Page 108 5: Fault output 29: Specified count value reached 55: Timer 4 output 6: Brake locking signal 30: Specified count value reached 2 56: A (encoder A channel) 7: Heavy motor load 31: Set length of length counter 57: B (encoder B channel) 8: Motor overload reached 58: PFI terminal state...
  • Page 109 17: Operation interruption. The signal is valid when the inverter is interrupted from operation. 18: In operation panel control. This signal is valid when the running command channel is the operation panel. 19: Torque limiting. The signal is valid when the torque reaches limiting value. 20: Limited by frequency upper limit.
  • Page 110 Tens: DO2 Units: DO1 Setting range 0: Positive logic, connected when valid and disconnected when invalid 1: Negative logic, disconnected when valid and connected when invalid.  The function can be output after taking DO1 and DO2 signal values reversely. ○...

  • Page 111: F6 Analog And Pulse Frequency Terminal Settings

    频率水平检测滞后值 Frequency level detection lagged value 频率水平检测值 Frequency level detection value Operating 运行频率 frequency 时间 Time Frequency level detection signal 频率水平检测信号 时间 Time Default Change × F5-19 T3 relay output function F5-20 T4 relay output function Default Change × F5-21 T5 relay output function Default Change...
  • Page 112 Corresponding given value/feedback value of AI1 ○ F6-06 Default 0.00% Change inflection point Setting range The same as F6-02 and F6-03 ○ F6-07 AI1 filtering time Default 0.100s Change Setting range 0.000~10.000s ○ F6-08 AI1 connection loss threshold Default 0.00% Change Setting range -20.00~20.00%...
  • Page 113 100% (F6-01,F6-03) 最小输入模拟量 F6-00 = 0.00 Minimum input analog 最大输入模拟量 F6-01 = 100.00 Maximum input analog 最小输入模拟量对应的给定值/反馈值 F6-02 = 0.00 Corresponding given value/feedback value of minimum input analog 最大输入模拟量对应的给定值/反馈值 Corresponding given value/feedback value of maximum input analog F6-03 = 100.00 拐点阈值...
  • Page 114 Analog input example 5: (reverse polarity application) Some applications where the analog input voltage is 0~10V/0~20mA with corresponding given/feedback value of 100~0%, the parameter settings are as follows. At this point, the inflexion point input analog quantity coincides with the minimum input analog quantity.
  • Page 115 100% (F6-01,F6-03) 最小输入模拟量 F6-00 = 0.00 Minimum input analog 最大输入模拟量 Maximum input analog F6-01 = 100.00 最小输入模拟量对应的给定值/反馈值 F6-02 = 0.00 Corresponding given value/feedback value of minimum input analog F6-05 最大输入模拟量对应的给定值/反馈值 Corresponding given value/feedback value of maximum input analog F6-03 = 100.00 拐点阈值...
  • Page 116 7: PID feedback value value as full amplitude) setting 8: PID set value 21: Arithmetic unit 1 output 37: Arithmetic unit 4 digital 9: PID output value 22: Arithmetic unit 2 output setting 10: AI1 23: Arithmetic unit 3 output 38: Arithmetic unit 5 digital 11: AI2 24: Arithmetic unit 4 output...
  • Page 117 Setting range 0~50000Hz ○ F6-35 100% corresponding PFO duty ratio Default 100.0% Change ○ Default 0.0% Change F6-36 0% corresponding PFO duty ratio Setting range 0.0~100.0%  PFO function: Output the internal percentage signal as pulse frequency or duty cycle, as shown below: PFO frequency (Hz) PFO频率(Hz)...

  • Page 118: F7 Process Pid Parameters

    ○ F6-57 AO3 function selection Default Change ○ F6-58 AO3 type selection Default Change ○ Default 100.0% Change F6-59 AO3 gain ○ Default 0.00% Change F6-60 AO3 bias Setting range All settings for AO3 are the same as that of AO1. 6.8 F7 Process PID Parameters F7-00 PID control function selection...
  • Page 119 after acceleration and deceleration ramp, which can also achieve correction effect in acceleration and deceleration process by comparing with 'given frequency correction before acceleration and deceleration ramp'. Torque correction mode: PID output is overlaid on the given torque, and the given torque is corrected as shown in the figure below.
  • Page 120 ○ F7-09 Integration time 2 Default 20.00s Change Setting range 0.01~100.00s ○ Default 0.00s Change F7-10 Derivation time 2 Setting range 0.00~10.00s F7-11 PID parameter transition mode Default Change × 0: Digital input 36 "PID parameter 2 selection" 1: Transition based on operation 2: |Arithmetic unit 1| Setting range determined...
  • Page 121 F7-15 PID regulation characteristics Default Change × Setting range 0: Active, 1: Counteractive  PID regulation characteristics: Positive action refers to the increase in speed required for quantitative increase under stable operating conditions, such as heating control, while negative action indicates that reduction in speed is required when a quantitative increase is given under stable operating conditions, such as refrigeration control.
  • Page 122  For multistage PID control, see digital input 49, 50 and 51 "multistage PID selection 1~3" on page. ○ Default 40.00Hz Change F7-29 Sleep frequency Setting range 0.00~650.00Hz ○ F7-30 Sleep waiting time Default 60.0s Change Setting range 0.0~3600.0s ○ Default 0.00%...

  • Page 123: F8 Simple Plc

    6.9 F8 simple PLC F8-00 PLC running settings Default 0000 Change × Units: PLC operation mode selection 0: No PLC operation 1: Stop after cycling the number of times set in 2: Maintain the final value after cycling the number F8-02 of times set in F8-02 3: Continuous cycle...
  • Page 124 Multi-segment F4-28 F4-29 F4-30 F4-31 F4-32 F4-33 F4-34 F4-35 frequency n Stage n settings F8-35 F8-37 F8-39 F8-41 F8-43 F8-45 F8-47 F8-49 Stage n time F8-36 F8-38 F8-40 F8-42 F8-44 F8-46 F8-48 F8-50 Multi-segment F4-36 F4-37 F4-38 F4-39 F4-40 F4-41 F4-42 F4-43 frequency n...
  • Page 125 频率 Frequency Continue to run from the phase frequency 从中断时刻的运行频率继续运行 of the interruption moment Time 时间 不计时 阶段2时间 阶段3已运行时间 阶段4时间 Phase 1 time 阶段1时间 Phase 2 time Phase 3 elapsed time 阶段3 Phase 3 phase 4 time timed 剩余时间 Remaining Run command time 运行命令...
  • Page 126 Digital input 27 Digital input 26 Digital input 25 "PLC mode selection "PLC mode selection "PLC mode selection Selected PLC mode 3" 2" 1" Mode 0 Mode 1 Digital input 27 Digital input 26 Digital input 25 "PLC mode selection "PLC mode selection "PLC mode selection Selected PLC mode...

  • Page 127: F9 Textile Wobble Frequency, Counter, Length Counter, Zero Servo And Position Control

    F8-00 ones bit = 2 F8-00个位=2 频率 Frequency Keep final value after 循环后保持最终值 loop d13 a14 继续循环 Keep looping 时间 Time F8-00个位=1 F8-00 ones bit a7 d8 循环后停机 Stop after T11 T12 T13 T14 PLC phase operation PLC阶段 completed 运转完成 Digital 数字输出62 output 62...
  • Page 128 Setting range F0-08 "lower limit frequency" ~ F0-07 "upper limit frequency" ○ F9-03 Preset frequency waiting time of wobble frequency Default 0.0s Change Setting range 0.0~3600.0s ○ F9-04 Wobble frequency amplitude Default 0.0% Change Setting range 0.0~50.0%, take center frequency or maximum frequency as 100% ○...
  • Page 129 frequency cycle' and F9-08 'rise time' wobble frequency until there is stop command.  F9-00=2 'manual input' mode: The difference from automatic input is that the end condition of the preset state of wobble frequency is that digital input 56 "wobble frequency input" is valid. If digital input 56 is invalid, return to the preset state of wobble frequency, which is irrelevant to F9-03 "preset wobble frequency waiting time".
  • Page 130 ○ F9-14 Counter preset value Default Change Setting range 0~65535 ○ Default 10000 Change F9-15 Set counter Setting range F9-16 'specified count value'~65535 ○ F9-16 Specified count value 1 Default Change ○ F9-17 Specified count value 2 Default Change Setting range 0~F9-15 'set count value' ○...
  • Page 131 "designated count value reached" becomes valid; until the number of pulses reaches (F9-15 "designated count value" +1), digital output 29 becomes invalid. Example: Set F9-12 "Counter increment command selection" = 32 (DI1), F9-15 "Set count value" = 9, F9-16 "Specify count value"...
  • Page 132  Digital input 55 "length counter and counter 2 clear": when valid, FU-17 "length counter actual length" is cleared. Default Change × F9-22 Zero servo control selection Setting range 0: Invalid 1: Always valid 2: Condition valid, selected through digital input 52 "Zero servo command" F9-23 Zero-speed level Default...

  • Page 133: Fa Motor Parameters

    100% PFI前馈 feedforward 数字输入55 Digital input 55 FU-54 计数器2计数值高字 FU-54 Counter 2 count value higher word 计米器及计数器2清零 length counter and counter 2 reset FU-55 计数器2计数值低字 FU-54 Counter 2 count value lower word 电子齿轮 Electronic 算术单元 Arithmetic unit gear + + F9-27 PID给定...
  • Page 134 FA-04 Motor rated frequency Default 50.00Hz Change × Setting range 1.00~650.00Hz Model FA-05 Motor rated speed Default Change × determination Setting range 125~40000r/min FA-06 Rated motor voltage Default 380V Change × Setting range 150~500V  Be sure to input the motor nameplate parameters FA-01~FA-06 before running the inverter. ...
  • Page 135 Setting range 0.00~50.00% Model ○ Default Change FA-10 Motor rotor resistance determination Setting range 0.00~50.00% Model ○ FA-11 Mutual inductance resistance of motor Default Change determination Setting range 0.0~2000.0% Default 1.300 Change × FA-12 Motor core saturation coefficient 1 Setting range 1.000~1.500 (iron core saturation coefficient corresponding to 50% magnetic flux) FA-13 Motor core saturation coefficient 2 Default...

  • Page 136: Fb Protection Function And Inverter Advanced Settings

    61: Motor rated current selection Motor rated current value 60: Motor rated current selection 2 Invalid Invalid FA-03 "Motor rated current" Invalid Current FA-17 "Motor rated current 3" Current × FA-16 "Motor rated current 2"  Relevant digital input functions: "60: Motor rated current selection 2", "61: Motor rated current selection 3", the former has higher priority.
  • Page 137 Fb-06 Motor under-load protection Default Change × Setting range 0: No action, 1: Alarm, still in operation, 2: Fault and free stop Default 30.0% Change × Fb-07 Motor underload protection level Setting range 0.0~100.0%, the rated current of the motor is 100% ○...
  • Page 138 Setting range 50.0~200.0%, the rated current of the inverter is 100% Fb-15 Constant speed overcurrent & stall point Default 150.0% Change × Setting range 50.0~200.0%, the rated current of the inverter is 100% Fb-16 Overvoltage & stall prevention selection Default Change ×...
  • Page 139 Fb-20 Instantaneous power failure allowable time Default 0.1s Change × Setting range 0.0~30.0s Fb-21 Instantaneous stop deceleration time Default 5.0s Change × Setting range 0.0~200.0s, if set to 0.0, the currently selected deceleration time will be used  The detection of instantaneous power outage is achieved by the detection of DC bus voltage. When the DC bus voltage is lower than Fb-19 "DC bus undervoltage point", there are the following treatment methods: Fb-18=0: Deem undervoltage as a fault with free stop triggered and DC bus undervoltage fault reported;...
  • Page 140 DANGER : Use the automatic reset function with caution. Otherwise, personal injury or property loss may occur. ○ Fb-26 Automatic start after power supply is allowed Default Change Setting range 0: Forbidden, 1: Allowed  For the terminal running command channel and the level-type running mode is selected (the tens or ones digit of F4-13 is equal to 0, 1, 2), if the running command is valid when power on, you can choose whether to power on and starts immediately or not according to this parameter.
  • Page 141 Setting range 0: No memory 1: With memory  It is used to maintain synchronization when the synchronous motor stops and restarts, and is only valid for V/F control. Default Change × Fb-34 Overmodulation enabled Setting range 0: Forbidden, 1: Allowed ...

  • Page 142: Fc Keyboard Operation And Display Settings

    Fb-42 Fan life expectancy settings Default 40000h Change × Setting range 1~65000h  When the accumulated operation time reaches the fan life expectancy setting, the digital output terminal function of “73: fan life expectancy is reached” will be effective. It is suggested to replace a fan with same model. After replacement, make use of external terminal input of "58: reset the fan accumulated operation time”...

  • Page 143: Fe Programmable Unit

    Setting range -1~56 Note: -1 means empty; 0~56 means FU-00~FU-56; the minimum value of FC-02 is 0  Operation and shutdown monitoring parameters: Select the parameters to be monitored from the FU menu and display them in standby and running state. ...
  • Page 144 Units: function settings 0: non-inverting input > inverting input, the comparator outputs 1, otherwise it is 0 1: Non-inverting input < inverting input, the comparator outputs 1, otherwise it is 0 2: Non-inverting input = inverting input (|non-inverting input - inverting input|≤error band/2), the comparator outputs 1, otherwise it is 0 3: Non-inverting input≠inverting input (|non-inverting input-inverting input|>error band/2), the Setting range...
  • Page 145 Number of analogue Digital output 42~45 数字输出42~45 outputs 模拟输出量 > 比较器输出 Comparator 0~43 Output < 同相输入选择 Non-inverting input selection Digital input 数字输入 = 0~62 Whether the input takes 输入是否取绝对值 absolute value ≠ Comparator output 比较器输出选择 模拟输出量 Number of selection analogue 0~43 比较器...
  • Page 146 ○ FE-37 Logical unit 4 input 2 selection Default Change ○ FE-38 Configuration of logical unit 4 Default Change ○ Default Change FE-39 Logical unit 4 output selection ○ Default Change FE-40 Logical unit 5 input 1 selection ○ FE-41 Logical unit 5 input 2 selection Default Change...
  • Page 147 ○ FE-58 Set time of timer 2 Default Change ○ FE-59 Timer 3 output selection Default Change ○ Default Change FE-60 Timer 4 output selection ○ Default Change FE-61 Configuration of timer 4 ○ FE-62 Set time of timer 4 Default Change ○...
  • Page 148 2: Input 1 × input 2 3: Input 1 ÷ input 2 0: Input 1+input 2 1: Input 1-input 2 5: Take the larger of the two inputs 4: Take the smaller of the two inputs 7: Take the absolute value of input 1 and divide by Setting range 6: Take the absolute value of input 1 and multiply it input 2...
  • Page 149 Arithmetic 算术单元 unit input 1 Arithmetic unit + 算术单元配置 输入1选择 selection configuration Number - analogue outputs 模拟输出量 0~43 × ÷ Analog output 19 模拟输出量21~26 算术单元输出 FU-27~FU-32 算术单元输出 Arithmetic unit Arithmetic output 算术单元 unit input 2 输入2选择 × selection Number of ÷...

  • Page 150: Ff Communication Parameters

    FE-92 Number of Analog output 29 模拟输出量29 analogue outputs 模拟输出量 Analog multiway switch 模拟多路开关输出 0~43 output FU-35 FE-93 Number of 模拟多路开关输出 Analog multiway switch analogue outputs 模拟输出量 output 0~43 FE-94 Digital output 数字输出 0~73 6.15 FF Communication Parameters FF-00 COMM2 communication protocol selection Default Change ×...
  • Page 151 the optional communication port, see Chapter 9 Communication Components.  Hope530 inverter RS485 Modbus protocol includes three layers: physical layer, data link layer and application layer. The physical layer and data link layer adopt Modbus protocol based on RS485, and the application layer controls inverter operation, stop, parameter reading and writing and other operations.
  • Page 152 Modbus Name Change Description address Communication set A non-negative number with a unit of 0.01Hz, multiplied by the ○ 3201H frequency communication set frequency ratio and used as frequency reference Host computer Range: -32768~32767 ○ 3202H analog 1 Except for position control, please set it within -10000~10000 Host computer ○...
  • Page 153 Modbus Name Change Description address word 3 Extended status △ 321FH Bits 0 to 15 correspond to digital outputs 48 to 63 word 4 Extended status △ 3220H Bits 0 to 9 correspond to digital outputs 64 to 73 word 5 ...
  • Page 154 The host sends out: The slave responds: Slave address Modbus function number Initial address (high byte) Initial address (low byte) Number written (high byte) Number written (low byte) Slave address Number of bytes written Modbus function number High byte of the first Initial address (high byte) number Low byte of the first...

  • Page 155: Fp Fault Record

    Example: Set bit 7 (digital input 24: PLC standby state reset) of the 3205H address (extended control word 2) of slave machine 1 to 1 and clear it to zero. The master sends and the slave responds as follows (the slave returns the master command as it is): Set bit 7 of extended control word 2 Clears bit 7 of extended control word 2...
  • Page 156 △ Minimum 0.01Hz FP-02 Operation frequency in the most recent failure Change Unit △ Minimum 0.01Hz Change FP-03 Preset frequency in the most recent failure Unit △ Minimum 0.1A FP-04 Output current in the most recent failure Change Unit Minimum △...

  • Page 157: Fu Data Monitoring

    0: No fault 13. oHI: Inverter overheat 26. ccF: Current detection fault 1. ocb: Instantaneous start overcurrent 14. oLI: Inverter overload 27. ArF: Poor self-tuning 2. ocA: Overcurrent at accelerated 15. oLL: Motor overload 28. Aco: Analog input offline operation 16.
  • Page 158 Content FU-13 "PID feedback value" = PID feedback channel × F7-03 "PID display coefficient" description △ Minimum Unit 0.1% Change FU-14 PID given value Content FU-14 "PID given value" = PID given channel × F7-03 "PID display coefficient", the unit indicator flashes description △...
  • Page 159 △ FU-42 Digital input terminal state Minimum Unit Change Content Ten Thousand: DI5 Thousand: DI4 Hundred: DI3 Ten: DI2 One: DI1 (0: Invalid 1: Valid) description △ FU-43 Extended digital input terminal state Minimum Unit Change Content Ten Thousand: DI10 Thousand: DI9 Hundred: DI8 Ten: DI7 One: DI6 (0: Invalid 1: Valid) description △...

  • Page 160: Troubleshooting And Exception Handling

    7. Troubleshooting and Exception Handling 7.1 Faults of Inverter and Solutions Table for faults and solutions: Failure indications Failure type Possible cause Troubleshooting (Fault code) There is phase fault or short circuit to Check the motor and wiring ground inside the motor or wiring Overcurrent at starting moment The inverter module is damaged...
  • Page 161 Failure indications Failure type Possible cause Troubleshooting (Fault code) overvoltage is too short deceleration properly Er.oun(7) Input voltage has abnormal changes Install the input reactor Load inertia is too large Adopt the dynamic braking assembly Input voltage is too high Inspect input power Overvoltage in standby mode...
  • Page 162 Failure indications Failure type Possible cause Troubleshooting (Fault code) The general motor runs with heavy load at Add an independent cooling fan or low speed for a long time select the variable frequency motor Motor nameplate or overload protection is Correctly set FA-03, Fb-00 and Fb-01 not properly set Motor locked-rotor or too large sudden...
  • Page 163 Failure indications Failure type Possible cause Troubleshooting (Fault code) connection loss equipment is damaged equipment Er.Aco(28) The threshold of connection loss is not Check the settings of F6-06, F6-13 properly set The connection with encoder interface Check the connection board fails Jumper of encoder interface board is set Refer to section 9.6 to check the incorrectly...

  • Page 164: Alarms Of Inverter And Solutions

    7.2 Alarms of Inverter and Solutions Table for alarms and solutions: Alarm words Alarm display Alarm name Content and description Solution Corresponding Too high temperature rise of Refer solutions Word 1 Motor overload motor is detected by the corresponding faults Bit 0 AL.oLL thermal model...
  • Page 165 The power grid voltage is too Check the power grid Replace contactor and seek Contactor damage Word 2 service Contactor abnormal Bit 1 AL.cno The power-on buffer resistor Replace the buffer resistor is damaged and seek service Control loop is sdamaged Seek for service AC INPUT POWER Check the three-phase input...

  • Page 166: Abnormal Operation Of The Inverter And Solutions

    7.3 Abnormal Operation of the Inverter and Solutions Table for abnormal operation and solutions: Phenomena Conditions Possible cause Solution Operation panel keys Press for 3s to unlock automatically locked Operation panel The connection wire of the Check the connecting line and seek for Some keys or all No response operation panel is in poor contact...
  • Page 167 Wrong operation command Modify the operation command channel channel Inverter is in fault Remedying malfunctions The logic of input terminal is set Check F4-05, F4-81 settings improperly Inconsistent bus voltage of parallel Check the power input circuit, voltage models detection circuit, etc.

  • Page 168: Maintenance And After-Sales Service

    8. Maintenance and After-sales Service DANGER 1. Only professionally trained personnel can disassemble components, perform maintenance and replace components; 2. Before inspection and maintenance, please confirm that the inverter has been cut off from the power supply, the high-voltage indicator light is off, and the voltage between DC+ and DC- is less than 36V, otherwise there will be danger of electric shock;...

  • Page 169: Replacement For Vulnerable Parts Of Inverter

    If you need to perform insulation test on the inverter, please connect as shown in the figure below, and you need to loosen the two Phillips screws corresponding to VAR and EMC (see Chapter 3, Section 3.3 for details); the high-voltage (>500V) test has been completed before leaving the factory , it is strictly forbidden to perform the test again.
  • Page 170 In case of abnormal working conditions of the inverter, check and adjust according to the Manual. Inn case of fault, please contact the supplier or the local electric company of SENLAN or the company headquarters in time. Within the warranty period, the Company will provide free repair service for any fault due to the product manufacturing and design defects, and any defect beyond the warranty period will be repaired by the Company after being paid according to customer requirements.

  • Page 171: Optional Accessories

    9. Optional Accessories The optional accessories listed below, if necessary, please order from our company. 9.1 Brake Assembly For the inverter with built-in braking unit, you can choose a suitable braking resistor; the recommended selection of braking resistor and insulated cable is as follows: Tightening Recommended for Recommended...

  • Page 172: Communication Components

    The SZ20G series brake unit cooperates with the brake resistor to absorb the regenerative electric energy during motor braking and prevent overvoltage of the frequency converter. In addition to being used in SENLAN inverters, it can also be used in inverters of other brands; at the same time, four braking voltages of 660V, 680V, 700V, and 720V are available, and multiple units can be used in parallel to obtain greater control.
  • Page 173 DPKZ安装接线图 (I) Profibus-DP module The schematic diagram of the installation and wiring of the Profibus-DP module on the control board is as follows: (II) PROFINET module The schematic diagram of the installation and wiring of the PROFINET module on the control board is as follows:...
  • Page 174 (III) SL510-COMM1 isolated RS485 communication module The installation and wiring diagram of the SL510-COMM1 isolated RS485 communication module on the control board is as follows: (IV) SL510-COMM2 isolated RS485 communication module (supports TCP) The installation and wiring diagram of the SL510-COMM2 expansion board on the control board is as follows:...

  • Page 175: Ac Reactor

    COMM3安装接线图 (V) SL510-COMM3 isolated RS485+ isolated CAN communication module The installation and wiring diagram of the SL510-COMM3 expansion board on the control board is as follows: 9.3 AC Reactor The AC reactor on the input side can suppress the higher harmonics of the input current of the inverter and improve the power factor on the input side.
  • Page 176 Expansion board model Extension functions Remark SL510-DIO1 3DI + 4T + RS485 3-channel digital input, 4-channel relay output, RS485 communication, among which SL510-DIO2 SL510-DIO2 3DI + 4T + RS485 + RTC also supports RTC function SL510-DIO3 5DI + 2T 5 digital inputs, 2 relay outputs Taking SL510-DIO1 as an example, the 485- functional specifications are as follows:...

  • Page 177: Encoder Interface Board

    Installation method: Confirm that the inverter is powered off, and then install the SL510-DIO1 expansion board on the control board as shown in the figure below. 9.6 Encoder Interface Board The encoder interface board is used to receive the encoder signal, so that the inverter can carry out PG V/F control or PG vector control;...
  • Page 178 The functions and specifications of the encoder interface board terminals are as follows: Terminal Terminal name Terminal function & description Technical specification symbol Encoder input A+ Encoder A same-phase signal input terminal Encoder input A- Encoder A phase signal input terminal Maximum input...

  • Page 179: Operation Panel Option

    编码器安装示意图 Encoder installation diagram 编码器接线示意图 Encoder wiring diagram 1. Check whether the coaxiality of the connection between the mechanical shaft and the encoder meets the requirements. If not, torque fluctuation and mechanical vibration will occur. 2. It is recommended to use a shielded twisted pair to connect the encoder and the encoder interface board.

  • Page 180: Functions Of The Operator Panel

    9.7.1 Functions of the operator panel HOPE-PU07 is a standard (LED) operation panel, and HOPE-PU04 liquid crystal (LCD) operation panel can also be configured according to customer requirements. The external expansion operation panel can be HOPE-PU04 or HOPE-PU07. For functions and display information, please refer to the related content in Chapter 4. HOPE-PU04 liquid crystal display (LCD) operation panel can set and view parameters, run control, display faults, alarm information, help information, parameter copying and other functions.
  • Page 181 The basic hierarchical structure of the LCD operation panel is as follows: Right Right Right Right navigation key navigation key navigation key navigation key Home screen Home screen Left navigation Main menu Left navigation (monitoring screen) Main menu Left navigation Left navigation (monitoring screen) Submenu...

  • Page 182: Removal And Installation Of Operation Panel

       In the parameter setting interface, press the key and the key at the same time to enter the  previous parameter setting interface.    In the parameter setting interface, press the key and the key at the same time to enter the next ...

  • Page 183: Installation Of The Operation Panel On The Cabinet Panel

    9.7.3 Installation of the Operation Panel on the Cabinet Panel The operation panels HOPE-PU04 or HOPE-PU07 of Hope530 inverter can be also installed on the panel of cabinet and can be connected with inverter body via extended cables. Users can install it via the operation panel installation box according to the steps below: ①...

  • Page 184: Analog I/O Expansion Board

    9.8 Analog I/O Expansion Board The analog I/O expansion board is used to expand the number of analog input and analog output terminals. The analog I/O expansion board provides multiple analog inputs and outputs, and supports analog voltage input and analog current input.

  • Page 185: Flush Mounted Lanyards

    AIO1安装接线图 Installation method: Confirm that the inverter is powered off, and then install the SL510-AIO1 expansion board on the control board as shown in the figure below. 9.9 Flush Mounted Lanyards The embedded installation hanging strip is used to connect the inverter with the installation cabinet. The corresponding models of the hanging strip suitable for each model are as follows: List of Flush Mounted Lanyard Models Corresponding to the order number of...
  • Page 186 200kW and above power requires embedded installation, please contact the manufacturer. 8-φ6 8-M4螺纹 8-M4 thread H510-A-1 Installation Lanyard and Opening Size Diagram HOPE530G11 15T4安装支架及开孔尺寸 ~...
  • Page 187 8-φ6 8-M4螺纹 8-M4 thread HOPE530G18.5 22T4安装支架及开孔尺寸 ~ H510-A-2 Installation Lanyard and Opening Size Diagram...
  • Page 188 6-φ7 2- 10 97.5 6-M6螺纹 6-M6 thread HOPE530G30 37T4安装支架及开孔尺寸 ~ H510-A-3 Installation Lanyard and Opening Size Diagram...
  • Page 189 φ10 4-M8 threaded hole 4-M8螺 纹 孔 HOPE530G45~55T4安装支架及开孔尺寸 H510-A-4 Installation Lanyard and Opening Size Diagram...
  • Page 190 φ10 4-M8 threaded hole 4-M8螺 纹 孔 H510-A-5 Installation Lanyard and Opening Size Diagram HOPE530G75 110T4安装支架及开孔尺寸 ~...
  • Page 191 H530-A-6 Installation Lanyard and Opening Size Diagram...

  • Page 192: Wiring Aid Kit

    9.10 Wiring Aid Kit When wiring the main circuit of the inverter, the auxiliary kit can be used to make the cable installation more secure. There are two main types of wiring auxiliary kits, namely cable brackets and cable trays. 9.10.1 Cable Holder Cable brackets can be used on Hope530G45T4~Hope530G375T4 models.

  • Page 193: Protective Cover

    9.11 Protective Cover The protective cover can enhance the dustproof capability of the inverter, and the Hope530G11T4~Hope530G37T4 models can be equipped with a protective cover. See the illustration on page for the overall appearance of the machine with the protective cover installed. Hope530 Series Protective Cover Selection Table Inverter model Corresponding protective cover order number...
  • Page 194 User Parameter Record Table Parameter Parameters Remark code...
  • Page 195 Parameter Parameters Remark code...
  • Page 196 SENLAN Inverter Service Warranty Card User company Address of the Company Who to contact To be filled by Sales company the Seller Address of the Company Service person Product model Product No. Received on Date Out-of-the-box inspection and power-on test: □ Normal □ Abnormal After the installation and commissioning is completed, the user confirms whether the product is running normally: □...

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