Veikong VFD700 Series Operation Manual
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Veikong VFD700 Series Operation Manual

High performance universal inverter
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VFD700 Series
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Summary of Contents for Veikong VFD700 Series

  • Page 1 Operation manual VFD700 Series High Performance Universal Inverter More options please visit:www.veikong-electric.com...
  • Page 2 Foreword Thanks for your choosing VFD700 AC Drive from Veikong company. This manual introduces installation, setup and commissioning of VFD700 Drive, also troubleshooting and maintenance. This VFD700 User Manual is for easy and efficientoperating. For further technical information and guide, you can download the VFD700 Advanced User Manual from the website:http://www.veikong-electric.com...

  • Page 3: Table Of Contents

    Contents Warnings, Cautions and Notes .................... I 1 Technical specification ......................1 1.1 Model reference ......................1 1.2 Rating Label ....................... 1 1.3 Power size ........................2 1.4 General technical data....................4 2 Installation and cabling ......................8 2.1 Dimension ........................8 2.1.1 Parts of drive ....................
  • Page 4 3.2.1 Drive status ....................52 3.2.2 Control modes ....................53 3.2.3 Reference source ................... 53 3.2.4 Priority of running mode ................54 3.3 Quick commissioning ....................54 3.3.1 Keypad control ....................54 3.3.2 Terminal control .................... 55 4 Parameters .......................... 58 4.1 General description ....................
  • Page 5 Menu P10: Comms. and general function ............... 123 Menu P11: Fault Tracking ..................126 Menu P12: Protection ..................... 127 Menu P13: Motor....................129 Menu P14: Textile function ..................132 Menu P15: PID Controller ..................134 Menu P16: Programmable logic and binary sum ............ 137 Menu P17: Threshold and variable selector ............

  • Page 6: Warnings, Cautions And Notes

    Warnings, Cautions and Notes Warning: A Warning contains information, which is essential for avoiding a safety hazard. Caution: A Caution contains information, which is necessary for avoiding risk of damage to the product or other equipment. A Note contains information, which helps to ensure correct operation of the product. WARNING ...
  • Page 7 CAUTION  The VFD700 is not a field repairable unit. Never attempt to repair a malfunctioning unit; contact the factory or your local Authorized Service Center forreplacement.  The VFD700 will start up automatically after an input voltage interruption if external running command is on.

  • Page 8: Technical Specification

    1 Technical specification 1 Technical specification 1.1 Model reference VFD700 HD700 - 4 0 T 00550 Non: Standard G type Family E: small size G type P: small size P type Supply voltage 2:220V Power size 4:380V 00040:0.4kW | 6:690V 45000:450kW/500kW Brake unit Input phase...

  • Page 9: Power Size

    1 Technical specification Double power type Figure1-3 VFD700 rating label ( NOTE: Size A, B, C are single types. Size D and above are G/P types. 1.3 Power size Power size of VFD700 is based on the standard 4 poles inductionmotor at rated voltage. E, G: Heavy duty P: Normal duty Overload of E, G type: 150% rated output current, 1 minute...
  • Page 10 1 Technical specification Power supply: 380VAC~480VAC, 50Hz, three phase Default carrier Drive Rated Rated Drive Rated Rated Motor Motor Size Model freque- Power Input Output Power Input Output Power Power Size Current Current Size Current Current (kW) (kW) (kHz) (kVA) (kVA) VFD700-40T01850 18.5...

  • Page 11: General Technical Data

    1 Technical specification Power supply: 500VAC~690VAC, 50Hz, three phase Default carrier Drive Rated Rated Drive Rated Rated Motor Motor Size Model freque- Power Input Output Power Input Output Power Power Size Current Current Size Current Current (kW) (kW) (kHz) (kVA) (kVA) VFD700-60T04500 VFD700-60T05500...
  • Page 12 1 Technical specification Maximum Supply ≤3% Imbalance Output Voltage 0V~U Power Output Output Frequency 0Hz~300Hz Voltage Control V/F, Open loop Vector Control Switching 1kHz~15kHz Frequency SpeedAdjustment Open loop vector -1:100, V/F mode -1:50 Range Start Torque 0.5Hz: 100% rated torque, 1Hz: 150% rated torque Torque Accuracy Reference Digit- 0.01Hz, Analogue- 0.1%×...
  • Page 13 1 Technical specification Advanced 2 logic control blocks, 1 binary selector, 2 threshold control blocks, 3 variable selectors Function Blocks Digit: Keypad, motorized pot (E-Pot), preset speed, pulse, comms. Reference Source Analogue: AI1: 0V~10V, 0(4) mA~20mA; AI2: 0V~10V Operating Mode Keypad, Control terminal, Serial comms.
  • Page 14 1 Technical specification LCD keypad, HDOM-232, HDOM-USB, Profibusmodule, Optional Module keypad pallet, HDSOFT (PCTools), etc. Output shortage, over current, over load, over voltage, under Voltage, Phase loss, over heat (heatsink and Protection Function junction), external fault, etc. 1.5kW and below: ≥89% 2.2kW~22kW: ≥93% Efficiency 30kW and above: ≥95%...

  • Page 15: Installation And Cabling

    2 Installation and cabling 2 Installation and cabling 2.1 Dimension 2.1.1 Parts of drive Keypad Barcode Keypad Connector RS485 Port Terminal Cover Control Terminals Option Connector Rating Label EMC filter Link Power Terminals Figure 2-1 Parts of VFD700 drive 2.1.2Diagram of mounting Ø...
  • Page 16 2 Installation and cabling Ø Ø Figure 2-3Mechanical dimensions and mounting (Size D, E) Ø VEIKONG VFD700 Ø Figure 2-4Mechanical dimensions and mounting (Size E1, F) Ø VEIKONG VFD700 Ø Figure 2-5Mechanical dimensions and mounting (Size G) VFD700 AC Drive Getting Started Guide...
  • Page 17 2 Installation and cabling Ø VEIKONG VFD700 Ø Figure 2-6Mechanical dimensions and mounting (Size J) Ø VEIKONG VFD700 Ø Figure 2-7Mechanical dimensions and mounting (Size K) Ø VEIKONG VFD700 Ø Figure 2-8 Mechanical dimensions and mounting (Size K1) 10VFD700 AC Drive Getting Started Guide...
  • Page 18 2 Installation and cabling VEIKONG VFD700 Figure 2-9Mechanical dimensions and mounting (Size L) Table 2-1 Mechanical dimensions Mounting Weight Size Model Name (mm) (mm) (mm) (mm) (mm) (mm) (mm) Hole Ø (kg) VFD700-20D00040 VFD700-20D00075 VFD700-20D00150 − − 97.4 202.4 148.8...
  • Page 19 2 Installation and cabling Weight Mounting Size Model Name (mm) (mm) (mm) (mm) (mm) (mm) (mm) (kg) Hole Ø VFD700-40T03000 VFD700-40T03700 VFD700-40T04500 VFD700-40T05500 VFD700-40T07500 − 355.5 552.5 315.5 VFD700-60T03000 VFD700-60T03700 VFD700-60T04500 VFD700-60T05500 VFD700-60T07500 VFD700-40T09000 VFD700-40T11000 VFD700-40T13200 445.6 701.5 349.5 VFD700-60T09000 VFD700-60T11000 VFD700-60T13200 VFD700-40T16000...

  • Page 20: 3Keypad Pallet

    2 Installation and cabling Weight Mounting Size Model Name (mm) (mm) (mm) (mm) (mm) (mm) (mm) (kg) Hole Ø VFD700-40T31500 VFD700-40T35500 − 194 1595.5 1553.5 483 477.5 VFD700-60T31500 VFD700-60T35500 VFD700-40T31500 VFD700-40T35500 VFD700-40T40000 VFD700-40T45000 − − − − − 2200 VFD700-60T31500 VFD700-60T35500 VFD700-60T40000 VFD700-60T45000...
  • Page 21 2 Installation and cabling Diagram of pallet dimensions and mounting Mounting hole for countersunk head phillips slot screw GB /T819.1M4*12 Location pillar Ø 6 Mounting hole for countersunk head phillips slot screw Location pillar Ø 6 GB/T819.1M4*12 Figure 2-11Outline dimensions of pallet 52.5 Figure 2-12mounting dimensions of pallet 14VFD700 AC Drive Getting Started Guide...

  • Page 22: Simple Keypad Pallet

    2 Installation and cabling 2.1.4 Simple keypad pallet Figure 2-13Outlook of Simple keypad pallet 114.7 105.6 70.6 64.5 53.0 Figure 2-14Outline dimensions of simple keypad pallet 106.6 65.5 Figure 2-15Mounting dimensions of Simple keypad pallet VFD700 AC Drive Getting Started Guide...

  • Page 23: External Dc Reactor Dimensions

    2 Installation and cabling 2.1.5 External DC reactor dimensions Copper bar :30*4.0mm Figure 2-16 External DC reactor dimensions Table 2-2 380V DC reactor dimensions (Unit: mm) Copper Mounting Reactor Model hole mounting weight hole (kg) VFD700-40T05500 167 108 153.5 95 163.5 131 158.5 10×...
  • Page 24 2 Installation and cabling Table 2-3 690V DC reactor dimensions (Unit: mm) Copper Mounting Reactor Model - hole mounting weight hole (kg) VFD700-60T05500 10× 15 Ø9 VFD700-60T07500 VFD700-60T09000 10× 15 Ø12 VFD700-60T11000 VFD700-60T13200 VFD700-60T16000 10× 20 Ø13 VFD700-60T18500 VFD700-60T20000 VFD700-60T16000 VFD700-60T18500 −...

  • Page 25: Mechanical Installation

    2 Installation and cabling Note: 2.Reactors of VFD700-60T31500E and VFD700-60T35500E are AC Reactor, whose dimensions are as follows: Φ Figure 2-18 Dimensions of Externeal AC Reactor (Size K1,690V_) 2.2 Mechanical installation 2.2.1Drive installation diagram Figure 2-19Single drive installation Recommending: L≥50mm, H≥50mm 18VFD700 AC Drive Getting Started Guide...

  • Page 26: How To Fit And Remove The Terminal Cover

    2 Installation and cabling VEIKON VEIKONG VEIKONG VFD700 VFD700 VFD700 Figure 2-20Multi-drives installation Recommending: L≥50mm In vertical installations where drives NOTE: aremounted above each other, there should besuitable air flow to keep the drives cool. Air flowshould be drawn in and expelled as illustrated inthe left picture.

  • Page 27: 3How To Fit And Remove The Keypad

    2 Installation and cabling 2.2.3How to fit and remove the keypad Remove: push the spring clip, and then pull up the keypad. Fit: fit the left two clips (at correct angle) into the slots on the control pod, and then push down the keypad.
  • Page 28 2 Installation and cabling −DC PE +DC Figure 2-26 Size C power terminals layout Table 2-4 Power terminal functions of size A, B, C Terminals Functions AC power supply.For single phase supply, L1and L3/N are L1, L2, L3/N suggested +DC, +DC1 For DC reactor, linked by terminal Brake resistor, the other side of the resistor is connected to +DC1...
  • Page 29 2 Installation and cabling  Models of size E1: VFD700-× × T03000E~VFD700-× × T03700E + DC +DC1 Size E1 +DC -DC Figure 2-28 Size E1 power terminals layout Table 2-6 Power terminal functions of size E1 Terminals Functions AC power supply L1, L2, L3 +DC, +DC1 For DC reactor, linked by busbar from factory...
  • Page 30 2 Installation and cabling  Models of size F: VFD700-× × T05500~VFD700-× × T07500 +DC +DC1 Size F +DC -DC Figure 2-30 Power terminal of size F Table 2-8 Power terminal of size F Terminals Function L1, L2, L3 AC power supply +DC, +DC1 For DC reactor Brake resistor, the other side of the resistor is...
  • Page 31 2 Installation and cabling  Models of size J: VFD700-× × T16000E~VFD700-× × T20000E Size J +DC1+DC1 +DC +DC -DC -DC Figure 2- 32 Power terminal of size J Power terminal functions of size J Table 2- 1 Terminals Function L1, L2, L3 AC power supply +DC, +DC1...
  • Page 32 2 Installation and cabling  Models of size K1:VFD700-xxT31500E、VFD700-xxT35500E Size K1 Figure 2- 34 Power terminal of size Power terminal functions of size Table 2- 12 Terminals Function L1, L2, L3 AC power supply PositiveDC bus Brake resistor, the other side of the resistor is connected to +DC −DC Negative DC bus...

  • Page 33: 2Power Connections

    2 Installation and cabling Power terminal functions of size Table 2- 13 Terminals Function L1, L2, L3 AC power supply PositiveDC bus Brake resistor, another end is +DC −DC Negative DC bus U, V, W Output terminals(Motor terminals) Protective earth terminal NOTE: In “VFD700-×...
  • Page 34 2 Installation and cabling NOTE:  To know how to choose fuse and switch please refer to table 2-14.  When the contactor is used in power supply control ,it is not suggested to use the power contactor to control the drive to RUN/STOP . ...
  • Page 35 2 Installation and cabling Fuse Power Control Input Supply Motor Model cable IEC gR Ferraz HSJ current cable cable ≥0.5 VFD700-40T02200 ≥0.5 VFD700-40T03000 ≥0.5 VFD700-40T03700 ≥0.5 VFD700-40T03000 ≥0.5 VFD700-40T03700 ≥0.5 VFD700-40T04500 ≥0.5 VFD700-40T05500 ≥0.5 VFD700-40T07500 ≥0.5 VFD700-40T09000 ≥0.5 VFD700-40T11000 ≥0.5 VFD700-40T13200 ≥0.5 VFD700-40T16000...
  • Page 36 2 Installation and cabling Fuse Power Control Input Supply Motor Model cable IEC gR Ferraz HSJ current cable cable ≥0.5 VFD700-60T16000 50× 2 50× 2 ≥0.5 VFD700-60T18500 50× 2 50× 2 ≥0.5 VFD700-60T20000 70× 2 70× 2 ≥0.5 VFD700-60T25000 90× 2 90×...

  • Page 37: Typical Cabling

    2 Installation and cabling 2.3.3Typical cabling DC choke Brake resistor − +DC1 Motor Supply 1/3 PH Output frequency Analogue output 0V~10V Zero speed +24V Drive trips +24V Preset select bit0 HD700 VFD700 Preset select bit1 User +24V Coasting Reset Common Drive Keypad connector +10V...

  • Page 38: Control Terminals Specification

    2 Installation and cabling 2.3.4 Control terminals specification RS485 RL3 RL4 DI4 DI5 RL1 RL2 DO1 24V Figure 2-38 Control terminal diagram Table 2-16 Control terminal and comms. port Terminal Type Function Technical Specifications Name RS485 RJ45 port Two lines, ModbusRTU protocol Serial 485 plus signal Same function with RJ45 port, mainly for multi...
  • Page 39 2 Installation and cabling Terminal Type Function Technical Specifications Name Output: 24V/0V Programmable digital Max. output current: 50mA output terminal1 Updating rate: 20ms Digital  same with DO1 output  Programmable digital Highfrequency pulse output(0.1kHz to output terminal 2 50kHz) ...
  • Page 40 2 Installation and cabling Terminal Type Function Technical Specifications Name Type: normally open Programmable relay1 RL1,RL2 Updating rate: 5ms output contacts Contactor rating: Rail 250VAC/2A(cosφ=1) supply 250VAC/1A(cosφ=0.4) Programmable relay2 and Relay 30VDC/1A RL3,RL4 output contacts Default: Relay1: closed when powered and healthy. Relay2: closed when drive is active.
  • Page 41 2 Installation and cabling  Digital input The common port of DIcould be programmed as 0V or 24V, the default is 0V. The parameter P09.21 can control the selection. When P09.21=0, common is 0V P09.21=1, common is 24V. Different connection types of DI and common are as showed in table 2-17. Table 2-18 Digital input connection examples P09.21 P09.21=0 (Source)
  • Page 42 2 Installation and cabling P09.21 P09.21=0 (Source) P09.21=1 (Sink) Connection +24V +24V P09.21=1 P09.21=0 Internal Internal circuit circuit VFD700 HD700 VFD700 HD700 DC (+24V) +24V DC (+24V) P09.21=1 P09. 21 =0 Internal Internal circuit circuit VFD700 HD700 VFD700 HD700 +24V +24V P09 .21 = 0 P09.21 = 1...
  • Page 43 2 Installation and cabling When DI7 is set as motor thermistor input, the connection is showed as figure 2-39. +24V P09.21=1 Internal circuit VFD700 HD700 Figure 2-39 PTC thermistor connection  Digital output There are 2 digital output terminals, all OC type (24V output). DO2can be set as high frequency pulse output;...
  • Page 44 2 Installation and cabling  Analogue input VFD700 drive has two Analogue input channels. +10V 10V/ 0(4)mA 20mA VFD700 HD700 Figure 2-41Analogue input connection  Analogue output Output is voltage (0V~10V), maximum output current is 5mA. Inner Analogue Meter circuit Output Range VFD700 HD700...

  • Page 45: Brake Resistor

    2 Installation and cabling 2.3.5 Brake resistor The choice of brake resistor in specific application is decided by motor power, system inertia, deceleration rate, etc.How to design the brake resistor, please refer to the VFD700 Technical Data Manual. Table 2-19 220Vsupply voltage brake resistor specification Spec.
  • Page 46 2 Installation and cabling Spec. Min.resistance Max. brake Peak power Recommended (Ω) resistance(Ω) Model current (A) (kW) VFD700-40T13200 VFD700-40T16000 VFD700-40T18500 VFD700-40T20000 VFD700-40T16000 VFD700-40T18500 VFD700-40T20000 VFD700-40T25000 VFD700-40T28000 VFD700-40T31500 VFD700-40T35500 VFD700-40T31500 VFD700-40T35500 VFD700-40T40000 1200 VFD700-40T45000 1200 Table 2-21 690Vsupply voltage brake resistor specification Spec.

  • Page 47: Emc Guide

    2 Installation and cabling Spec. Min.resistance Max. brake Peak power Recommended (Ω) resistance(Ω) Model current (A) (kW) VFD700-60T40000 VFD700-60T45000 2.3.6 EMC Guide EMC suggestions:  Immunity 360 degree ground clamps should be used to connect the screen of the cable; avoid "Pigtail"...
  • Page 48 2 Installation and cabling With internal EMC filter Without internal EMC filter Model Supply voltage (mA) (mA) 400V Size G 690V 400V Size J 690V 400V Size K 690V 400V Size K1 690V 15.9 400V Size L 690V 15.9 NOTE: ...
  • Page 49 2 Installation and cabling NOTE: After removing the link of EMC filter, please keep the link in case to fit the EMC filter again. Size D 1. Filter capacitor 2. Varistor grounding screw grounding screw Size E Figure 2-45Fit and remove the internalEMC filter (Size D, E) Tighten the filter capacitor grounding screw, and fit the internal EMC filter.
  • Page 50 2 Installation and cabling Figure 2-47 Fit and remove the internalEMC filter (Size F) Untighten screws 1, 2 and remove the EMC filter board, and then remove the EMC filter. NOTE: In order to ensure reliable earthing, please tighten the screws 1, 2 after removing the EMC filter.
  • Page 51 2 Installation and cabling Figure 2-49 Fit and remove the internalEMC filter (Size J) Untighten screws and remove the EMC filter board, and then remove the EMC filter. NOTE: In order to ensure reliable earthing, please tighten the screws after removing the EMC filter.
  • Page 52 2 Installation and cabling Figure 2-51 Fit and remove the internalEMC filter (Size K1) If you want to remove the EMC filter, please make screw1 unscrewed and disconnect wiring. Wiring to screw 2is suggested, to avoid the EMC wiring contacting other parts of the drive.

  • Page 53: Operation And Display

    3 Operation and display 3 Operation and display 3.1 Keypad There are a 5-digit LED display of 8 segment, 3-lights, and a RUN light on the VFD700 drive keypad as shown below: Figure 3-1 LED keypad 3.1.1 LED lights LED display can show the drive status, parameters and value, fault, warninginformation, etc.

  • Page 54: Key Function

    3 Operation and display 3.1.2 Key function Table 3-2 key function Function Description Pressing the key will return to the previous level; long pressing the key will display the value of parameter decided by P05.01. When the keypad is locked, pressing and holding the key for 5 seconds will unlock.

  • Page 55: Keypad Operation

    3 Operation and display 3.1.3 Keypad operation Keypad can control the operation of the drive, or monitor the status of the drive, details as below:  LED Display  If P05.02 is set to 0 Normal display is the value of the parameter which is selected by the P05.01; default is output frequency(value of P05.11).
  • Page 56 3 Operation and display  How to view and edit parameters For VFD700 family, there are three levels of menu to view and edit parameters. Level 1: menu group Level 2: parameter Level 3: parameter content Operation flow is described in figure 3-5: Change menu group Change parameter Change parameter value...
  • Page 57 3 Operation and display The default function of digit input terminal are: P09.02=3 DI1 function is Run forward. P09.03=4 DI2 function is Run reverse. If changing the setup of DI2, like setting P09.03=3 (DI2 function is forward running also), pressing PRG, and the value of P09.03 is still "4", and the Display can not enter the next parameter P09.04.
  • Page 58 3 Operation and display 0.00 P10.01 P10.06 P10.07 0.00 10 times 1 time 5 times 1 time 4 times 1 time 1 time 1 time 1 time once Figure 3-7User code setting flow  Verify the user code(PIN) When the user code is set, only after entering the correct PIN into P10.06 and pressing PRG, can user view and edit all the parameters.

  • Page 59: Drive Control

    3 Operation and display  Autotune When do the motor auto-tune, make sure to set up the correct data of motor from the motor nameplate. Refer to the motor nameplate; enter right value into following parameters: P00.13 (P13.06) motor rated voltage P00.14 (P13.07) motor rated current P00.15 (P13.08)

  • Page 60: Control Modes

    3 Operation and display (Hxxx). The alarm code will keep flashing for 3 seconds and then turn to the normal display (selected by P05.01). The normal display will flash for 3 seconds then back to alarm code, and the keypad will keep this cycle until the alarm is removed. The parameter P12.13 can be set to display the alarm information or not.

  • Page 61: Priority Of Running Mode

    3 Operation and display 3.2.4 Priority of running mode Under speed mode, VFD700 has 4 running modes, the priority level from high to low is as: Jog >PLC >Textile>Common running, showed in figure 3-10: Power on Stop status Speed control mode High priority Jog order?

  • Page 62: Terminal Control

    3 Operation and display  Press and hold, the drive will run at 5.00Hz (default value of P01.04) at the accelerating rate (set by P02.22), release the key, the drive will stop at the ramp mode set by P03.10. NOTE: To jog again you have to wait for the interval period set by P02.24. ...
  • Page 63 3 Operation and display disabled, the run light will be off. NOTE: Adjusting the potentiometer can change the output frequency.  Close K1 and K2 at the same time, the drive will stop running.  Close switch K3, the drive will run at 5.00Hz (default value of P01.04) at the acceleration rate Open switch K3 (set by P02.22).
  • Page 64 3 Operation and display  When (P09.22=2) 3-wire control mode 2 is selected, DI1, DI2, DI3 are automatically set as below: P09.02=2 DI1 is "RUN" input, Latching control P09.03=5 DI2 is 3-wire enable, Voltage control (SB1 is normal closed button, when it is open, drive will stop) P09.04=6 DI3 is FWD/REV input, Voltage control...

  • Page 65: Parameters

    VFD700 User manual, we only introduce Menu P00 parameters, for total function and technical data explanation please read the VFD700 Advanced User Manual which can be download from our website: http://www.VEIKONG.com 4.2 Property of parameter The following parameter description includes: Parameter ID: code of parameter.

  • Page 66: Menu P00

    4 Parameters 4.3 Menu P00 In P00 parameter group, each P00.XX parameter is related with the parameter from other menus. If the P00.XX parameter is changed, the related parameter will be changed too, and vice versa. The parameters in the brackets are the related parameter codes. Parameter ID Parameter Name Range【Default】...
  • Page 67 4 Parameters Parameter ID Parameter Name Range【Default】 Change Mode P00.03 (P10.07) Control Mode 0~2【0】 Stop Only 0: Keypad control 1: Terminal control 2: Serial comms. control Parameter ID Parameter Name Range【Default】 Change Mode Run&Stop P00.04 (P01.01) Reference source 0~8【0】 0: Keypad Using the ▲...
  • Page 68 4 Parameters  When the reference source is not preset, terminal status is as shown below: Table 4-2 Preset and preset terminal status corresponding table 2 DI5 Status (bit 1) DI4 Status (bit 0) Speed Keep the frequency setting Preset2 (P04.02) Preset3 (P04.03) Preset4 (P04.04) About 16 presets (P04.01~P04.16) control, please refer to Menu P04.
  • Page 69 4 Parameters 7: Optional card (By option modules) 8: User programmed By destination and source control, user can define the reference channel freely. For example through Menu P17, user can define the reference source. About actual application guide, please refer to the VFD700 Advanced User Manual. Parameter ID Parameter Name Range【Default】...
  • Page 70 4 Parameters Parameter ID Parameter Name Range【Default】 Change Mode P00.09 (P02.04) Acceleration rate 1 0.0s~3600.0s【10.0】 Run&Stop P00.10 (P02.05) Deceleration rate 1 0.0s~3600.0s【20.0】 Run&Stop Acceleration rate is the time from 0Hz to maximum reference. Deceleration rate is the time from maximum reference to 0Hz. For example: P00.07 (P01.02) =100.00Hz, set up the maximum reference P00.09 (P02.04) =10.0s...
  • Page 71 4 Parameters Parameter ID Parameter Name Range【Default】 Change Mode 200V: 0V~240V【220V】 P00.13 (P13.06) Motor1 rated voltage Stop Only 400V: 0V~480V【380V】 690V: 0V~690V【660V】 G or P type: 0.1A~rated current×1.2 P00.14 (P13.07) Motor1 rated current Stop Only GP type: 0.1A~P type rated current【by model】...
  • Page 72 4 Parameters 1: Open loop vector control 1 2: Open loop vector control 2 Note: To use open loop vector control mode 1 or 2, please set up motor parameters correctly (rated voltage, current, pole pairs, rated speed) and finish auto-tune. Parameter ID Parameter Name Range【Default】...
  • Page 73 4 Parameters Output voltage Vmax Output frequency Figure 4-2Motor V/F curve Parameter ID Parameter Name Range【Default】 Change Mode P00.24 (P10.08) Load default Stop Only 0~1【0】 0: No action 1: Load default When P00.24=1, press PRG key, and default setup will be loaded and saved into the EEPROM, P00.24=0.

  • Page 74: Troubleshooting

    5 Troubleshooting 5 Troubleshooting 5.1 Faults and corrective actions When a drive trip (fault) occurs, the keypad will display the corresponding trip code and drive output will be disabled. VFD700 trip is listed in the table 5-1. The range is F001 F043.
  • Page 75 5 Troubleshooting Trip Code Trip Description Possible Reasons Corrective Actions Input phase loss Stop the drive according to the stop Check the power supply and F004 mode, turn off the Power supply phase loss cabling IGBTs, the drive can be reset 1s after trouble removal Output phase loss Check the output voltage...
  • Page 76 5 Troubleshooting Trip Code Trip Description Possible Reasons Corrective Actions Switching frequency is Reduce the switching high frequency IGBT junction over Replace by a larger drive; heat Frequently accelerating increase the accel and decel F009 turn off the IGBTs, the and decelerating under a times;...
  • Page 77 5 Troubleshooting Trip Code Trip Description Possible Reasons Corrective Actions AI1 input loosing Stop the drive according to the stop AI1 input current is F013 mode, turn off the Check AI1 input smaller than 3mA IGBTs, and the drive can be reset 1s after trouble removal User 24V overload Stop the drive...
  • Page 78 5 Troubleshooting Trip Code Trip Description Possible Reasons Corrective Actions External fault Stop the drive according to the Stop mode, turn An external fault input from F018 Check the external equipment off the IGBTs, and the one of theDI terminals drive can be reset 1s after trouble removal linkage fault between the...
  • Page 79 5 Troubleshooting Trip Code Trip Description Possible Reasons Corrective Actions − − Reserved F025~F029 Soft start circuit fault Turn off IGBTs, and F030 Soft start circuit failed Contact service center the drive can not be reset Main fan fault Fan blade not rotating Check the fan blades Turn off IGBTs, and correctly...
  • Page 80 5 Troubleshooting Trip Code Trip Description Possible Reasons Corrective Actions Over current during power up Check the output cabling Earth fault or current F037 Turn off IGBTs, and and motor; sense circuit failure the drive can not be Contact service center reset Wrong drive model Turn off IGBTs, and...
  • Page 81 5 Troubleshooting Table 5-2 Fault category Type Trips Description Fault where the drive F003 (under voltage), the drive can be reset can be reset F003 automatically according to actual DC bus voltage automatically Fault where the drive ≥F030 Fault from interal failure (except external disturbance). can not be reset EEPROM reading&...

  • Page 82: Alarms

    5 Troubleshooting 5.2 Alarms When alarming, the drive will keep running, and the keypad will display relative alarm code (Hxxx), which will keep flashing for 3 seconds then turn over to the normal display (selected by P05.01). The normal display will flash for 3 seconds then return back to flashing alarm code, and this cycle will continue until the alarm is removed.

  • Page 83: Other Issues

    5 Troubleshooting 5.3 Other issues When the drive operates, some other issues which are not caused by drive itself can happen, and the drive will not display trip or alarm code. Customer can check these issues and suggestions in following table 5-4. Table 5-4 Other issues Issues Reasons...
  • Page 84 5 Troubleshooting Issues Reasons Checking And Treatments Accel. or decel. time is Motor accel. set suitable values for P00.09 and P00.10 too short or decel. is not stable overload Adjust the load condition After accel. or Load issue Check if the mechanical load keeps changing decel.

  • Page 85: Maintenance

    6 Maintenance 6 Maintenance 6.1 Routine maintenance After long time running in different environmental conditions, like high temperature, humidity, dusty, vibration, etc, some internal drive parts could be degrading somehow. This can increase the risk of drive failure or decrease drive life, so it is necessary to do routine and termly maintenance.
  • Page 86 6 Maintenance Checking Area Items Method Judgment Meet the Voltage of power and control Voltage Using instruments technical parts specification Visual check, noise or vibration Normal listening Retighten loosing Normal Whether screws or nuts loose screws or nuts Whether they are deformor Normal Mechanical parts Visual check, replace...

  • Page 87: Parts Replacement

    6 Maintenance 6.3 Parts replacement Inside a drive, different parts have different lifetimes according to normal technique rules, and the actual lifetime is related with operating and environmental conditions, in order to maintain the drive, it is recommended to replace some electrical parts termly, the suggestion is as listed in the following table.

  • Page 88: Appendix

    Appendix Appendix 1Communication  Communications port and wiring Hardware interface of VFD700 drive communication: RJ45 port Two terminals (A/RS485+, B/RS485−) These two kinds of interface can have the same electric functions. A serial communications link enables one or more drives to be used in a system controlled by a host controller such as a PLC or computer RS485+ RS485-...
  • Page 89 Appendix  Communication mode VFD700 uses Modbus RTU, which supports to read/write with normal registers. The frame has the following basic format: MODBUS data frame Start ( Slave End ( With a minimum silent With a minimum silent Code Data Check code address period of 3.5 character times)
  • Page 90 Appendix 4.01×100=401=1×256+144+1 Then m=1, n=144 by the decimal to hexadecimal converting, M= 01, N=90, So, the register address=0190H, Note: register addresses for all VFD700 parameters are in the Appendix3.  Function code Example 1 (03H) The example is to read the contents in P04.01~P04.10 of VFD700 drive, details are as the table below: A-table1-2Code 03H example Master Require...
  • Page 91 Appendix  Abnormal communication If the communication is abnormal, VFD700 drive will turn back to the response frame, the format is in the below table A-table 1-4 Abnormal response format Drive node Code Abnormal code CRC checking sum 1 bit 1 bit 1 bit A-table 1-5 Abnormal code description...
  • Page 92 Appendix 0x00, 0xC1, 0x81, 0x40, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x01, 0xC0,...
  • Page 93 Appendix 0x99, 0x59, 0x58, 0x98, 0x88, 0x48, 0x49, 0x89, 0x4B, 0x8B, 0x8A, 0x4A, 0x4E, 0x8E, 0x8F, 0x4F, 0x8D, 0x4D, 0x4C, 0x8C, 0x44, 0x84, 0x85, 0x45, 0x87, 0x47, 0x46, 0x86, 0x82, 0x42, 0x43, 0x83, 0x41, 0x81, 0x80, 0x40 /* CRC Generation for Modbus messages */ // The function returns the CRC as a unsigned short type unsigned short CCRC_ModbusRTUCRC16 (unsigned char *puchMsg, short usDataLen ) unsigned short ReturnValue;...
  • Page 94 Appendix  VFD700 communication parameters A-table 1-6 VFD700 communication parameters Change Modbus Function Range Default Mode Address 0: Keypad P00.03 0002H Control mode 1: Control terminal Stop Only (P10.07) (03EEH) 2: Comms. 0: Keypad 1: UP/DOWN 2: Preset 3: AI1 P00.04 0003H Reference channel...
  • Page 95 Appendix P03.27 and P03.28 provide a method of controlling the sequencer inputs and other functions directly from a single control word. If P03.28 = 0, thecontrol word has no effect, if P03.28 = 1, the control word is enabled. Each bit of the control word corresponds to a sequencing bit or function as shown below, A-table 1-7 Control word (P03.27) description Function...
  • Page 96 Appendix Function Overload is calculating Alarm Length is reached Counting is reached PLC running is over PLC is working  Scale definition  Frequency: 1:100 If the drive reference is 50.00Hz, then for hex it is 1388H.  Time rate: 1:10 If the acceleration rate is 10.0s, then for comms.

  • Page 97: Parameter List

    Appendix 2Parameter list Menu P00: Shortcut menu (quick commissioning) Modbus Change Function Range Step Default Register Mode Address 0: Fixed mode Keypad display 1: Auto switch mode P00.01 cycle mode Run&Stop 0000H in running state (P05.02) 2: Reserved 0: Only P00 parameters Parameter 1: All menu...
  • Page 98 Appendix Modbus Change Function Range Step Default Register Mode Address 0: 0mA~20mA 1: 20 mA~0mA 2: 4mA~20mA (current loosing with trip) 3: 20mA~4mA AI1 mode (current loosing with P00.05 selector trip) Stop Only 0004H (P08.02) 4: 4mA~20mA (current loosing without trip) 5: 20mA~4mA (current loosing without trip)
  • Page 99 Appendix Modbus Change Function Range Step Default Register Mode Address 0: 0.00Hz Power up 1: The running Keypad P00.12 frequency of last Run&Stop 000BH reference power-off (P01.11) 2: Preset 1 Motor1 rated 0V~240V 200V: 220V P00.13 voltage 0V~480V Stop Only 000CH 400V: 380V (P13.06)
  • Page 100 Appendix Modbus Change Function Range Step Default Register Mode Address 0: V/F Motor voltage 1: Open loop vector P00.20 control mode control 1 Stop Only 0013H (P13.01) 2:Open loop vector control 2 Switch P00.21 frequency 1kHz~15kHz 1kHz By model Run&Stop 0014H (P10.10) Voltage boost...

  • Page 101: Menu P01: Reference

    Appendix Menu P01: Reference Modbus Change Function Range Step Default Register Mode Address 0: Keypad 1: UP/DOWN 2: Preset 3: AI1 Reference P01.01 4: AI2 Run&Stop 0064H source 5: Serial comms. 6: DI7 pulse 7: Optional card 8: User programmed Maximum 50.00 P01.02...
  • Page 102 Appendix Modbus Change Function Range Step Default Register Mode Address 0: 0.00Hz Power up 1: Running reference when P01.11 keypad Run&Stop 006EH last power off reference 2: Preset 1 Threshold of P01.12 0.00Hz~Max. frequency 0.01Hz 0.50Hz Run&Stop 006FH zero speed Band of P01.13 frequency...
  • Page 103 Appendix Modbus Change Function Range Step Default Register Mode Address Zero speed 0: None zero speed P01.24 Actual Actual 007BH indicator 1: At zero speed running Reference source is 0: Off P01.25 Actual Actual 007CH switched to 1: On Reference source is 0: Off P01.26...

  • Page 104: Menu P02: Ramp

    Appendix Menu P02: Ramp Modbus Change Function Range Step Default Register Mode Address 0: Line Acceleration and 1: S curve1 P02.01 Stop Only 00C8H deceleration mode 2:S curve2 3:special curve 0: Off P02.02 Ramp hold Actual 00C9H 1: On − −...
  • Page 105 Appendix Modbus Change Function Range Step Default Register Mode Address Deceleration rate1 Deceleration rate P02.20 to deceleration rate Actual Actual 00DBH select indicator Acceleration rate 0: Second P02.21 &deceleration rate Stop Only 00DCH 1: Minute unit selector P02.22 Jog acceleration rate 0.1s~600.0s 0.1s 10.0s Run&Stop...
  • Page 106 Appendix Modbus Change Function Range Step Default Register Mode Address 0: 0 1: Running reference of last power-off 2: 0, only can be changed when drive is active 3: Running reference of last power-off, only can be changed when P02.33 UP/DN reference Run&Stop 00E8H drive is active...

  • Page 107: Menu P03: Start And Stop

    Appendix Menu P03: Start and stop Modbus Change Function Range Step Default Register Mode Address 0: Reverse is Reverse limit permitted P03.01 Stop Only 012CH control 1: Reverse is disabled Dead time for P03.02 running 0.0s~3000.0s 0.1s 0.0s Run&Stop 012DH direction change 0: Off Auto-start after...
  • Page 108 Appendix Modbus Change Function Range Step Default Register Mode Address 0: Ramp 1: Coast P03.10 Stop mode 2: Ramp+DC Stop Only 0135H injection 3: Ramp+coast 0.00Hz~Max. P03.11 Stop frequency 0.01Hz 0.10Hz Run&Stop 0136H frequency Stop DC 0.0%~100.0% P03.12 injecting (refer to the max. 0.1% 0.0% Run&Stop...
  • Page 109 Appendix Modbus Change Function Range Step Default Register Mode Address 0: Off P03.22 FWD Actual 0141H 1: On 0: Off P03.23 REV Actual 0142H 1: On 0: Forward P03.24 FWD/REV Actual 0143H 1: Reverse 0: Off P03.25 Jog forward Actual 0144H 1: On 0: Off...

  • Page 110: Menu P04: Preset And Plc

    Appendix Menu P04: Preset and PLC Modbus Change Function Range Step Default Register Mode Address P04.01 Preset1 0.01Hz 5.00Hz Run&Stop 0190H P04.02 Preset 2 0.01Hz 10.00Hz Run&Stop 0191H P04.03 Preset 3 0.01Hz 20.00Hz Run&Stop 0192H P04.04 Preset 4 0.01Hz 30.00Hz Run&Stop 0193H P04.05...
  • Page 111 Appendix Modbus Change Function Range Step Default Register Mode Address PLC step1 P04.20 0.0~6553.5 Run&Stop 01A3H running time PLC step1 0: Accel./Decel. rate 1 Accel./ 1: Accel./Decel. rate 2 P04.21 Run&Stop 01A4H Decel. rate 2: Accel./Decel. rate 3 selector 3: Accel./Decel. rate 4 PLC step2 P04.22 0.0~6553.5...
  • Page 112 Appendix Modbus Change Function Range Step Default Register Mode Address PLC step6 P04.30 0.0~6553.5 Run&Stop 01ADH running time PLC step6 0: Accel./Decel. rate 1 Accel./ 1: Accel./Decel. rate 2 P04.31 Run&Stop 01AEH Decel. Rate 2: Accel./Decel. rate 3 selector 3: Accel./Decel. rate 4 PLC step7 P04.32 0.0~6553.5...
  • Page 113 Appendix Modbus Change Function Range Step Default Register Mode Address PLC step11 P04.40 0.0~6553.5 Run&Stop 01B7H running time PLC step11 0: Accel./Decel. rate 1 Accel./ 1: Accel./Decel. rate 2 P04.41 Run&Stop 01B8H Decel. Rate 2: Accel./Decel. rate 3 selector 3: Accel./Decel. rate 4 PLC step12 P04.42 0.0~6553.5...
  • Page 114 Appendix Modbus Change Function Range Step Default Register Mode Address PLC step16 P04.50 0.0~6553.5 Run&Stop 01C1H running time 0: Accel./Decel. rate 1 PLC step16 1: Accel./Decel. rate 2 P04.51 Accel/Decel. Run&Stop 01C2H 2: Accel./Decel. rate 3 Rate selector 3: Accel./Decel. rate 4 0: Second P04.52 operating...

  • Page 115: Menu P05: Keypad And Display

    Appendix Menu P05: Keypad and display Modbus Change Function Range Step Default Register Mode Address Normal keypad P05.01 P01.01~P18.08 0.01 P05.11 Run&Stop 01F4H display selector Keypad cycle P05.02 0~2 Run&Stop 01F5H display mode 0: Only menu P00 Parameter 1: All menus parameters P05.03 display range Run&Stop...
  • Page 116 Appendix Modbus Change Function Range Step Default Register Mode Address -180000rpm~ Mechanical P05.10 1rpm Actual Actual 01FDH load speed +180000rpm -max. frequency~ Running P05.11 0.01Hz Actual Actual 01FEH frequency +max. frequency Output P05.12 0V~Drive rated voltage Actual Actual 01FFH voltage 200V: 230V~415V P05.13 DC voltage Actual...
  • Page 117 Appendix Modbus Change Function Range Step Default Register Mode Address Energy meter 0: No action P05.23 Run&Stop 020AH reset 1: Reset Average P05.24 0~100 (currency) Actual Actual 020BH running cost Heatsink −25℃~127℃ P05.25 1℃ Actual Actual 020CH temperature IGBT −25℃~200℃ P05.26 junction Actual...

  • Page 118: Menu P06: V/Fcontrols Parameters

    Appendix Menu P06: V/Fcontrols parameters Modbus Change Function Range Step Default Register Mode Address 0: User programmed V/F ramp P06.01 V/F control mode Stop Only 0258H 1: 2 law ramp 2: 1.7 law ramp 3: 1.2 law ramp P06.02 V/F frequency 3 (P06.04)~(P13.08) 0.01Hz 0.00Hz Stop Only...

  • Page 119: Menu P07: Vector

    Appendix Menu P07: Vector Modbus Change Function Range Step Default Register Mode Address Speed/Torque 0: Only stop P07.01 mode change Run&Stop 02BCH 1: Run&stop condition Speed/Torque 0: Speed P07.02 Run&Stop 02BDH control 1: Torque 0.0%~300.0% (refer P07.03 Current limit 0.1% Run&Stop 02BEH to motor rated current)
  • Page 120 Appendix Modbus Change Function Range Step Default Register Mode Address Regen. Current P07.17 0.0%~300.0% 0.1% 150.0% Run&Stop 02CCH limit Maximum 50.00 P07.18 speed under 0.01Hz Run&Stop 02CDH 0.00Hz~1.2×P01.02 torque mode 0: Keypad 1: AI1 Torque mode 2: AI2 P07.19 reference 3: Pulse (DI7) Stop Only 02CEH...

  • Page 121: Menu P08: Analogue Input And Output

    Appendix Menu P08: Analogue input and output Modbus Change Function Range Step Default Register Mode Address 0: P08.03 and P08.08 are only basic function (0~ Analogue P08.01 input function Run&Stop 0320H 1: P08.03 and P08.08 are level control advanced application (P00.00~P18.08) 0: 0mA~20mA 1: 20mA~0mA...
  • Page 122 Appendix Modbus Change Function Range Step Default Register Mode Address 0: Analogue input2 1: Speed limit (Torque AI2 function control) P08.08 Stop Only 0327H select 2: Torque offset 3: No function 99*: Advanced function -200.0%~+200.0% P08.09 AI2 offset 0.1% 0.0% Run&Stop 0328H P08.10 AI2 scaling...
  • Page 123 Appendix Modbus Change Function Range Step Default Register Mode Address 0: Output frequency 1: Reference frequency 2: Active current 3: Output current 4: Motor speed Analogue 5: DC voltage P08.14 output 6: Output voltage Run&Stop 032DH function select 7: AI1 level 8: AI2 level 9: Length 10: Counting...
  • Page 124 Appendix Modbus Change Function Range Step Default Register Mode Address Current 0: No loosing P08.16 loosing Actual Actual 032FH 1: Loosing indicator P08.17 AI1 level 0.1% Actual Actual 0330H 0.0%~100.0% P08.18 AI2 level 0.1% Actual Actual 0331H 0.0%~100.0% Analogue P08.19 0.0%~100.0% 0.1% Actual...

  • Page 125: Menu P09: Digital Input And Output

    Appendix Menu P09: Digital input and output Modbus Change Function Range Step Default Register Mode Address 0: P09.02 to P09.08 are Digit input base application (0~19) function P09.01 1: P09.02~P09.08 are Run&Stop 0384H level advanced application control (P00.00~P18.08) 0: Preset select bit 0 P09.02 DI1: 3 0385H...
  • Page 126 Appendix Modbus Change Function Range Step Default Register Mode Address Status 0: P09.10~P09.11 are relays basic application (0~12) P09.09 function Run&Stop 038CH 1: P09.10~P09.11 level advanced application control (P00.00~P18.08) 0: Drive healthy 1: Drive is active 2: Length arrival Relay1 3: External trip P09.10 Relay1: 0...
  • Page 127 Appendix Modbus Change Function Range Step Default Register Mode Address 0: Off P09.18 DI7 inverter Run&Stop 0395H 1: On Relay1 0: Off P09.19 Run&Stop 0396H inverter 1: On Relay2 0: Off P09.20 Run&Stop 0397H inverter 1: On DI common 0: 0V P09.21 Stop Only 0398H...
  • Page 128 Appendix Modbus Change Function Range Step Default Register Mode Address Digital 0: P09.30~P09.31 is base output application (0~8) P09.29 function Run&Stop 03A0H 1: P09.30~P09.31 is level advanced application control (P00.00~P18.08) 0: PLC is running recycle 1: Drive is active P09.30 2: Drive is alarming DO1: 6 03A1H...
  • Page 129 Appendix Modbus Change Function Range Step Default Register Mode Address DI7 level of -100.0%~+100.0% P09.38 input 0.1% Actual Actual 03A9H frequency − − − − − P09.39 Reserved 0: Off P09.40 DI1 status Actual Actual 03ABH 1: On 0: Off P09.41 DI2 status Actual...

  • Page 130: Menu P10: Comms. And General Function

    Appendix Menu P10: Comms. and general function Modbus Change Function Range Step Default Register Mode Address 0: Modbus RTU P10.01 Protocol Run&Stop 03E8H 1: Reserved P10.02 Address 0~247 Run&Stop 03E9H 0: 2.4KBPS 1: 4.8KBPS 2: 9.6KBPS P10.03 Baud rate Run&Stop 03EAH 3: 19.2KBPS 4: 38.4KBPS...
  • Page 131 Appendix Modbus Change Function Range Step Default Register Mode Address Switch 0: Off P10.11 frequency auto Run&Stop 03F2H 1: On adjust Low DC bus operation (only 0: Off P10.12 Stop Only 03F3H for 400V 1: On models) P10.13 Model code 0~255 Actual 03F4H...
  • Page 132 Appendix Modbus Change Function Range Step Default Register Mode Address Power off stop 0: Coasting stop P10.22 Stop Only 03FDH mode 1: Ramp stop Cumulative 0: Off P10.23 running time Run&Stop 03FEH 1: On reset Set the unit of 0: Hour P10.24 Stop Only 03FFH...

  • Page 133: Menu P11: Fault Tracking

    Appendix Menu P11: Fault Tracking Modbus Change Function Range Step Default Register Mode Address P11.01 Trip 1 044CH P11.02 Trip 2 044DH P11.03 Trip 3 044EH P11.04 Trip 4 044FH P11.05 Trip 5 0450H 0~99 Actual P11.06 Trip 6 0451H P11.07 Trip 7 0452H...

  • Page 134: Menu P12: Protection

    Appendix Menu P12: Protection Modbus Change Function Range Step Default Register Mode Address 0: Off P12.01 Drive healthy Actual Actual 04B0H 1: On Ramp hold by 0: Off P12.02 high voltage Stop Only 04B1H 1: On threshold 220V: 350V~370V 220V: 370V high voltage P12.03 400V: 750V~780V...
  • Page 135 Appendix Modbus Change Function Range Step Default Register Mode Address Alarm display 0: Not display P12.13 Run&Stop 04BCH control 1: Display 0: Off P12.14 External fault Run&Stop 04BDH 1: On 0: Off P12.15 Reset trip Stop Only 04BEH 1: On Under voltage 0: Off P12.16...

  • Page 136: Menu P13: Motor

    Appendix Menu P13: Motor Modbus Change Function Range Step Default Register Mode Address 0: V/F 1: Open loop vector Motor voltage P13.01 control 1 Stop Only 0514H control mode 2: Open loop vector control 2 0: Disabled 1: Auto-tune 1 (run a time) P13.02 Auto-tune...
  • Page 137 Appendix Modbus Change Function Range Step Default Register Mode Address 0: Auto Number of 1: 2 pole P13.09 motor 1 pairs 2: 4 pole Stop Only 051CH of pole 3: 6 pole 4: 8 pole Motor 1 rated P13.10 1rpm~60000rpm 1rpm 0rpm Stop Only...
  • Page 138 Appendix Modbus Change Function Range Step Default Register Mode Address 0: Auto Number of 1: 2 pole P13.21 motor 2 pairs 2: 4 pole Stop Only 0528H of pole 3: 6 pole 4: 8 pole Motor 2 rated P13.22 1rpm~60000pm 1rpm 0rpm Stop Only...

  • Page 139: Menu P14: Textile Function

    Appendix Menu P14: Textile function Modbus Change Function Range Step Default Register Mode Address Textile function 0: Off P14.01 Stop Only 0578H enable 1: On Centre of textile 0.00Hz~Max. P14.02 0.01Hz 0.00Hz Run&Stop 0579H frequency frequency Preset textile 0.00Hz~Max. P14.03 0.01Hz 0.00Hz Run&Stop...
  • Page 140 Appendix Modbus Change Function Range Step Default Register Mode Address Actual number 0: Lees than P14.14 P14.16 meets reference Actual Actual 0587H 1: Equals P14.14 number Actual number 0: Lees than P14.15 P14.17 Actual Actual 0588H meets set number 1: Equals P14.15 Reset length 0: Off P14.18...

  • Page 141: Menu P15: Pid Controller

    Appendix Menu P15: PID Controller Modbus Change Function Range Step Default Register Mode Address PID reference P15.01 0.01 P00.00* Run&Stop 05DCH P00.00~P18.08 source PID feedback P15.02 0.01 P00.00* Run&Stop 05DDH P00.00~P18.08 source Main Reference P15.03 0.01 P00.00* Run&Stop 05DEH P00.00~P18.08 to be modified PID reference 0: Off...
  • Page 142 Appendix Modbus Change Function Range Step Default Register Mode Address 0: Off P15.16 PID hold Run&Stop 05EBH 1: On 0: (P15.13)≤(P15.22) ≤(P15.12) P15.12, P15.13 P15.17 Run&Stop 05ECH 1: -(P15.12)≤ range (P15.22)≤(P15.12) Main reference -100.0%~+100.0% P15.18 0.1% Actual Actual 05EDH level PID reference −100.0%~+100.0% P15.19...
  • Page 143 Appendix Modbus Change Function Range Step Default Register Mode Address − − − − − P15.31 Reserved − − − − − P15.32 Reserved − − − − − P15.33 Reserved Sleep status 0: Not sleep mode P15.34 Actual Actual 05FDH indicator 1: Sleep mode...

  • Page 144: Menu P16: Programmable Logic And Binary Sum

    Appendix Menu P16: Programmable logic and binary sum Modbus Change Function Range Step Default Register Mode Address P16.01 block1 source1 0.01 P00.00* Stop Only 0640H P00.00~P18.08 block1 source1 0: Off P16.02 Run&Stop 0641H inverter 1: On P16.03 block1 source2 P00.00~P18.08 0.01 P00.00* Stop Only...
  • Page 145 Appendix Modbus Change Function Range Step Default Register Mode Address P16.19 Sum output function P00.00~P18.08 0.01 P00.00* Stop Only 0652H Block1 output 0: Off P16.20 Actual Actual 0653H indicator 1: On Block2 output 0: Off P16.21 Actual Actual 0654H indicator 1: On P16.22 Sum output level 0~255...

  • Page 146: Menu P17: Threshold And Variable Selector

    Appendix Menu P17: Threshold and variable selector Modbus Change Function Range Step Default Register Mode Address Threshold block1 P17.01 0.01 P00.00* Stop Only 06A4H P00.00~P18.08 source Threshold block1 P17.02 0.1% Run&Stop 06A5H 0.0%~100.0% threshold Threshold block1 P17.03 0.1% Run&Stop 06A6H 0.0%~25.0% hysteresis Threshold block1...
  • Page 147 Appendix Modbus Change Function Range Step Default Register Mode Address Variable selector1 P17.15 0~9 Run&Stop 06B2H mode P17.15 Action Result Select input1 output=input1 Select input 2 output=input2 output=input1+ input2 Subtract output=input1−input2 Multiply output= (input1× input2)/100 Divide output= (input1× 100)/ input2 Time constant output=input1/[(P17.16) ×...
  • Page 148 Appendix Modbus Change Function Range Step Default Register Mode Address P17.22 Action Result Select input1 output=input1 Select input 2 output=input2 output=input1+ input2 Subtract output=input1−input2 Multiply output= (input1× input2)/100 Divide output= (input1× 100)/ input2 Time constant output=input1/[(P17.23) × s+1] Linear ramp output=Input1 ramp up from 0%~100% in time of (P17.23) Modulus output=|input1|...
  • Page 149 Appendix Modbus Change Function Range Step Default Register Mode Address P17.29 Action Result Select input1 output=input1 Select input 2 output=input2 output=input1+ input2 Subtract output=input1−input2 Multiply output= (input1× input2)/100 Divide output= (input1× 100)/ input2 Time constant output=input1/[(P17.30) × s+1] Linear ramp output=Input1 ramp up from 0%~100% in time of (P17.30) Modulus output=|input1|...
  • Page 150 Appendix Modbus Change Function Range Step Default Register Mode Address User-defined bit P17.38 0~1 Run&Stop 06C9H variable 2 User-defined bit P17.39 0~1 Run&Stop 06CAH variable 3 User-defined bit P17.40 0~1 Run&Stop 06CBH variable 4 User-defined bit P17.41 0~1 Run&Stop 06CCH variable 5 User-defined word -300.0%~300.0%...

  • Page 151: Menu P18: Brake Logic Control

    Appendix Menu P18: Brake logic control Modbus Change Function Range Step Default Register Mode Address Brake controller P18.01 StopOnly 0708H enable Brake release current P18.02 Run&Stop 0709H 0%~200% threshold Brake apply current P18.03 Run&Stop 070AH 0%~200% threshold Brake release P18.04 0.00Hz~20.00Hz 0.01Hz 1.00Hz...

  • Page 152: Multistage Velocity Setup Guide

    Appendix 3 Multistage velocity setup guide ~ Controlled by terminals, the reference is the value of P04.01 (preset 1) P04.16 preset 16). Use the default setup as an example: P09.05=0 DI4 is preset select bit 0 P09.06=1 DI5 is preset select bit 1 There aretwo operation modes: ...
  • Page 153 Appendix Digital input terminal DI4~DI7 control values of P01.15~P01.18, thus controlling the value of P01.19, achieving 16 multistage velocity running. With either setup above, the corresponding relationship between DI4~DI7 status (P01.15~P01.18) and multistage velocity is shown in following table. Preset and the preset terminal mapping table P01.18 P01.17 P01.16...

  • Page 154: User Pid Controller

    Appendix 4 User PID controller VFD700 has a programmable PID controller. The block diagram is as below: VFD700 AC Drive Getting Started Guide...
  • Page 155 Appendix Typical application of PID controller is on the Stress Control, Press Control, Temperature Control, Flow Control, etc. About parameters of PID controller please refer to the Appendix 2, menu15. Using PID controller can do the process close-loop control. Following is a simple application example.

  • Page 156: Options

    10 meters. Simple keypad pallet (HDOM-PadFit1) Can realize the isolate transformation bi-directly between RS-232 Communication adapter and RS-485.VEIKONG drives can realize high speed data (HDOM-232) communication with computers through HDOM-232. Can realize the isolate transformation bi-directly between USB and Communication adapter RS-485.VEIKONG...

  • Page 157: Declaration Of Conformity

    Appendix 6 Declaration of conformity Declaration of conformity Shenzhen VEIKONG Electric Co., Ltd No.63, Punan Road, Yunpu Industry Zone, Huangpu District, Guangzhou, Guangdong, 510760, China VFD700-20D00040 VFD700-20D00075 VFD700-20D00150 VFD700-20D00220 VFD700-20T00400 VFD700-40T00075 VFD700-40T00150 VFD700-40T00220 VFD700-40T00400 VFD700-40T00550 VFD700-40T00750 VFD700-40T00220E VFD700-40T00550E VFD700-40T00550P VFD700-40T01100P...
  • Page 158 Appendix The AC variable speed drive products listed above have been designed and manufactured in accordance with the following European harmonised standards: Adjustable speed electrical power drive systems — Part 5-1: Safety EN 61800-5-1: 2007 requirements — Electrical, thermal and energy Adjustable speed electrical power drive systems —...

  • Page 159: Drive Repair Card

    Drive Repair Card User corporation: Address: User information Post code: Contractor: Tel. no.: Fax no.: Drive Family: Product information Power size (kW): S.N.: Contract no.: Purchase date: Service engineer: Tel. no.: Repair record Fixed date: Fault information: Complaints and demanding on our products: User signature: yearmonthdate Return visit record: Service signature: yearmonthdate...

  • Page 160: Service Agreement

    Service Agreement Guarantee Free-service period is valid since delivery date from VEIKONG factory which was subjected to the serial number on the drive rating label. service free for Failure or trouble caused by our product quality issue. For the service that Exceeding Guarantee time or failure not caused by drive quality issues is out of the free range: ...

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