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Vicruns VD530 Series, User Manual

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Vicruns VD530 Series User Manual Download Page 146

Parameter Description                                                                            VD530 Series Inverter User Manual 

- 142 - 

Define HDO1 (digital output), relay 1, relay 2 and DO1 and DO5 (expansion card) output logic. 

0: Positive logic, digital output terminal and the corresponding piplic end connected to valid state, 
disconnect as invalid state; 

1: Anti-logic, digital output terminal and the corresponding public end connected as the invalid state, 
disconnect for valid state. 

F6-07 

HDO1 Output Delay Time 

0.0s~3600.0s 

0.0s 

○ 

F6-08 

RELAY 1 Output Delay 
Time 

0.0s~3600.0s 

0.0s 

○ 

F6-09 

RELAY 2 Output Delay 
Time 

0.0s~3600.0s 

0.0s 

○ 

F6-10 

DO1 Output Delay Time 

0.0s~3600.0s 

0.0s 

○ 

F6-11 

DO5 (expansion card) 
Output Delay Time 

0.0s~3600.0s 

0.0s 

○ 

Set the delay time of output terminal HDO1, relay 1, relay 2, DO1 and DO5 (expansion card) from 
state changes to the actual output changes. 

F6-12 

HDO1 Output Function 
Selection 

0~15, see table below 

○ 

F6-13 

AO1 Output Function 
Selection 

○ 

F6-14 

AO2 Output Function 
Selection 

○ 

Analog output AO1 and AO2 output range is 0V~10V or 0/4mA~20mA. HDO1 terminal output pulse 
frequency range is 0.01kHz~F6-15(output max frequency when HDO1 pulse output mode), F6-15 
can be set from 0.01kHz~100.00kHz. Pulse or analog signal output 0.0%~100.0% corresponding 
function as below table:   

 

Set 

value 

Function 

Description 

Running frequency 

0~maximum output frequency 

Set frequency 

0~maximum output frequency 

Output current   

0~2 times of rated motor current 

Output torque 

0~2 times of rated motor voltage 

Output power 

0~2 times of rated power   

Output voltage 

0~1.2 times of inverter rated power   

PULSE input (100% 
corresponding 
100.0kHz) 

0.01kHz~100.00kHz 

AI1 

0V~10V 

AI2 

0V~10V (or 0~20mA) 

AI3 (expansion card) 

0V~10V 

Summary of Contents for VD530 Series

Page 1: ...k debug parameters setting failure diagnose and eliminate and daily maintenance and correlation matters Please read this manual to make sure you can install use and maintain the inverter correctly the...

Page 2: ......

Page 3: ...nd Display 38 4 1 Introduction to Operation and Display Interface 38 4 2 Motor Parameter Self learning 40 4 3 Password Setting 41 4 4 Parameter Lock authority lower than password 41 Chapter 5 Function...

Page 4: ...7 8 2 Common Faults and Solutions 211 Chapter 9 Communication Protocol 212 9 1 About Protocol 212 9 2 Application Methods 212 9 3 Bus Structure 212 9 4 Protocol Description 212 9 5 Communication Frame...

Page 5: ...e equipment if you find water seepage component missing or damage upon unpacking Do not install the equipment if the packing list does not conform to the product you received DANGER Handle the equipme...

Page 6: ...and rapid speed pulse signal and ensure the shielding layer is reliably grounded 1 2 4 Before Power on DANGER Check that the following requirements are met The voltage class of the power supply is co...

Page 7: ...st time usage motor is left unused for long time or periodically inspected insulation inspection must be done to avoid motor coils insulation failure which may result in inverter damage Disconnect mot...

Page 8: ...tion function for lightening induction But for user located in lightening frequent zones it is necessary to add lightening protection unit in front of inverter this does good to extend inverter lifesp...

Page 9: ...VD530 Series Inverter User Manual Safety and Precautions 5 damage or performance reduce...

Page 10: ...les 2 2 Nameplate Fig 2 2 1 Nameplate WARNING The bar code on inverter nameplate is the only code to recognize its identity so the bar code is the most important basis for the after sales service 2 3...

Page 11: ...4T 45P 60 0 92 0 91 0 45 60 VD530 4T 55G VD530 4T 55P 72 0 113 0 112 0 55 70 VD530 4T 75G VD530 4T 75P 100 0 157 0 150 0 75 100 VD530 4T 90G VD530 4T 90P 116 0 180 0 176 0 90 110 VD530 4T 110G VD530...

Page 12: ...50 00Hz 600 00Hz Carrier frequency 0 5kHz 16 0kHz auto adjust carrier frequency Input frequency resolution 0 01Hz digit setup mode Control mode Open vector closed vector V F control Start torque 0 25...

Page 13: ...on components defined by the manufacturer Operation Running command source Operation panel control terminals serial communication port you can perform switchover between these sources in various ways...

Page 14: ...corrosive gas combustible gas oil smoke vapor drip or salt etc Altitude level Lower than 2000m de rate if altitude is higher than 2000m Ambient temperature 10 40 de rate if the ambient temperature is...

Page 15: ...n W A D H B Fig 2 6 1 Schematic diagram for physical dimensions and mounting dimensions below 7 5kW W A D H B H1 Fig 2 6 2 Schematic diagram for physical dimensions and mounting dimensions 11kW 110kW...

Page 16: ...06 5 175 185 118 169 4 5 1 8 VD530 4T 1 5GB VD530 4T 2 2GB VD530 4T 3 7GB 5 5PB VD530 4T 5 5GB 7 5PB 148 235 247 160 191 5 5 3 0 VD530 4T 7 5GB 11PB VD530 4T 11GB 15PB 120 308 320 284 190 196 5 6 5 7...

Page 17: ...155 148 18 13 78 Physical dimensions of keyboard Physical dimensions of keyboard holder Fig 2 7 1 External keyboard and holder dimension 66 5 109 5 78 5 148 5 The mounting hole size of the card mounte...

Page 18: ...tor D braking frequency percentage of regenerating process account for the complete process Elevator 20 30 Uncoiling and recoiling 20 30 Centrifuge 50 60 Accidental braking loading 5 General take 10 T...

Page 19: ...D530 4T 500G 560P 100kW 1 2 WARNING Table 2 4 is a guide data user can select different resistor value and power according to actual situation Selection of braking resistor is based on the motor gener...

Page 20: ...rface contacting with metal has cut Non professional staff or untrained operator cannot do maintenance or change device of the inverter failure to comply will result in personal hurt or damage the dev...

Page 21: ...er packaging materials to facilitate future inverter relocation or repair and other logistics transportation Our company will provide 12 month warranty starting from the leave factory date as indicate...

Page 22: ...s lower than 95 The inverter shall be mounted in locations free from oil dirt dust and metal powder The inverter shall be mounted in locations free from corrosive gas explosive gas or combustible gas...

Page 23: ...ottom hook of panel to the install claw under the tank of panel put middle finger on upper clip and pull in until it fixed Cover Plate Hook Corner Hook Both Sides Inward pressure Fig 3 3 2 Removing an...

Page 24: ...r plate then loosen the two screws at the top of the undercover plate pull down the undercover plate can be disassemble reverse order the undercover plate can be install 3 4 Inverter and External Elec...

Page 25: ...reater than 600kVA 2 On the same power source node has switch type reactive power compensation capacitor or with silicon controlled phased load will produce a lot of peak current could lead to convert...

Page 26: ...18 5kW 50 132kW 400 400kW 1250 22kW 63 160kW 450 450kW 1500 30kW 80 185kW 560 500kW 1800 37kW 100 200kW 560 560kW 2000 45kW 125 220kW 630 55kW 160 250kW 800 Table 3 3 Conductor cross sectional area C...

Page 27: ...16 16 1 5 VD530 4T 45G 55P 200 100 25 25 1 5 VD530 4T 55G 75P 200 125 35 35 1 5 VD530 4T 75G 90P 250 125 50 50 1 5 VD530 4T 90G 110P 250 160 70 70 1 5 VD530 4T 110G 132P 350 350 95 95 1 5 VD530 4T 13...

Page 28: ...80 VD530 4T 37G 45P 90 0 16 90 0 030 78 0 70 VD530 4T 45G 55P 120 0 13 120 0 023 95 0 54 VD530 4T 55G 75P 150 0 10 150 0 019 115 0 45 VD530 4T 75G 90P 200 0 12 200 0 014 160 0 36 VD530 4T 90G 110P 25...

Page 29: ...VicRuns Fig 3 5 1 Schematic diagram for single phase 220V inverter Precautions are as follows 1 Terminal refers to main circuit terminal terminal refers to control circuit terminal 2 B which is follo...

Page 30: ...ns Fig 3 5 2 Standard wiring diagram for three phase and lower than 15kW inverter Precautions are as follows 1 Terminal refers to main circuit terminal terminal refers to control circuit terminal 2 B...

Page 31: ...uit terminal Terminal refers to control circuit terminal 2 B which is followed the product model represents standard model built in brake unit 3 Braking resistor s selection is based on the user deman...

Page 32: ...hase power Three phase motor R S T P1 P P U V W Brake unit Brake resistor LDC Fig 3 6 4 Wiring diagram of main circuit of three phase and higher than 18 5kW inverter 3 6 2 Instructions of Main Circuit...

Page 33: ...as built in braking unit its braking resistor connecting terminal is effect The braking resistor selection table2 4 recommending value and the wiring distance should less than 5M Otherwise it can dama...

Page 34: ...Terminal Table 3 7 Description of control circuit terminal Type Terminal Sign Terminal Name Function Power Supply 5V 10V GND External 5V 10V power supply Provide 5V 10V power supply for external unit...

Page 35: ...ut DI1 COM Digital input terminal 1 1 Optical coupling isolation compatible with dual polarity input internal resistance 3 3k 2 Multi function digital input through F5 01 F5 05 to set function 3 The i...

Page 36: ...l up resistance range 0 48k 10k Output current range 2mA 50mA Relay Output T1 A T1 B Relay T1 normally closed terminal Contact driving capacity AC250V 3A DC 30V 5A T1 A T1 C Relay T1 normally open ter...

Page 37: ...jump cap plug connect to 10V terminal 5V 10V GND on main board provide power supply 10V 3 7 4 Socket Connection Function Description Table 3 9 Socket connection function description Socket Code Functi...

Page 38: ...nd port wiring diagram as Fig 3 7 3 showed take note to remove the connect wire between J14 jumper OPEN and 24V terminal 3 7 5 2 Analog Input Terminal Since the weak analog voltage signal is easy to s...

Page 39: ...tor C 0 022uF50V Internal circuit VicRuns Fig 3 7 6 Schematic diagram of analog input terminal cable jacket ferrite magnetic ring 3 7 5 3 Digital Output Terminal Using Internal Power Supply 24V DO1 HD...

Page 40: ...of digital output terminal using external power HDO1 COM 4 7k Internal circuit External control Digital Frequency DC5 24V COM VicRuns Fig 3 7 10 Schematic diagram of high speed pulse output using ext...

Page 41: ...current signal 3 7 5 6 Output Terminals of Relay COM T1 C External control Internal circuit COM 24V 24V T1 A T1 B T1 Run Indicate Halt Indicate Short Circuit Plate or Wire HL DC24V HL DC24V VicRuns A...

Page 42: ...z A L R FWD REV RUN V LED DIGITAL PANEL JOG REV MENU ESC ENTER DATA STOP RESET RUN Fig 4 1 1 Operation panel schematic 4 1 1 Keyboard Button Description Buttons Name Function Description Programming k...

Page 43: ...n panel of the inverter adopts three level menu structure to carry out operations such as parameter setting The three level menu includes function parameter set level 1 menu Function code level 2 menu...

Page 44: ...ion code group or function code function code parameter press ENTER DATA key enter into function parameter display status In function parameter display status press the ENTER DATA key to save and jump...

Page 45: ...d and the password protection turns Enabled after exiting the function code editing status When pressing MENU ESC key again enter function code to view edit state 0 0 0 0 0 will be displayed and commo...

Page 46: ...turer F0 Basic Parameter Group Function Code Parameter Name Setting Range Factory Default Value Property F0 00 Motor Control Mode Led unit s digit motor 1 0 V F control 1 SVC 2 FVC Led ten s digit mot...

Page 47: ...ation relationship 0 Main auxiliary 1 Main auxiliary 2 Max value of the two 3 Min value of the two 0x00 F0 06 Auxiliary Frequency Source B Range Reference Selection when Superimposed 1 Relative to the...

Page 48: ...me 1 0 00s 65000s Model depende nt F0 19 Deceleration Time 1 0 00s 65000s Model depende nt F0 20 Acceleration De celeration Time Unit 0 1s 1 0 1s 2 0 01s 1 F0 21 Acceleration De celeration Time Refere...

Page 49: ...meter Name Setting Range Factory Default Value Property F1 00 Start Mode 0 Direct start 1 Speed tracking restart 2 Pre excitation start AC asynchronous 0 F1 01 Starting Frequency 0 00Hz 10 00Hz 0 50Hz...

Page 50: ...F1 17 Operation Mode of Set Frequency is Lower than the Frequency Lower Limit 0 Running with frequency lower limit 1 Stop 2 Zero speed running 0 F1 18 Start Selection of Set Frequency is Lower than t...

Page 51: ...oltage Output Selection 0 No voltage output 1 Voltage output 2 Output according to stop DC braking current 0 F2 Motor 1 Parameter Function Code Parameter Name Setting Range Factory Default Value Prope...

Page 52: ...verter power 55kW Tune parameter F2 10 Asynchronous Motor No load Current 0 01A F2 03 Inverter power 55kW 0 1A F2 03 Inverter power 55kW Tune parameter F2 17 Encoder Line Number 1 65535 2000 F2 18 Enc...

Page 53: ...lter Time Constant 0 000s 0 100s 0 000s F3 09 Speed Control Mode Torque Upper Limit Source 0 Encode F3 10 setting 1 AI1 2 AI2 3 AI expansion card 4 PULSE setting 5 Communication setting 6 MIN AI AI2 7...

Page 54: ...00 F3 25 Exciting Current Compensation Gain 0 500 200 F3 26 Torque Current Compensation Gain 0 500 0 F3 27 Torque Response Gain 1 1000 10 F4 Motor 1 V F Control Parameter Function Code Parameter Name...

Page 55: ...10 VF Slip Compensation Gain 0 0 200 0 20 0 F4 12 VF Oscillation Suppression Gain 0 100 Model dependen t F4 14 The Separation of VF Voltage Source 0 Digital setting F4 15 1 AI1 2 AI2 3 AI3 expansion c...

Page 56: ...uency source A switching with preset frequency 16 Frequency source B switching with preset frequency 17 MS reference terminal 1 18 MS reference terminal 2 19 MS reference terminal 3 20 MS reference te...

Page 57: ...t 45 Counter reset 46 Length count input 47 Length reset 48 Motor selection terminal 49 Reserved 50 User defined failure 1 51 User defined failure 2 52 Cleared the running time 53 Switching between tw...

Page 58: ...3 Open Delay Time 0 0s 3600 0s 0 0s F5 19 Terminal UP DOWN change rate 0 001Hz s 65 535Hz s 1 000Hz s F5 20 AI Curve Selection Unit s digit AI1 curve selection 1 Curve 1 2 point see F5 22 F5 26 2 Curv...

Page 59: ...Input 100 0 100 0 0 0 F5 29 AI Curve 2 Max Input F5 27 10 00V 10 00V F5 30 Corresponding Setting of AI Curve 2 Max Input 100 0 100 0 100 0 F5 31 AI 2 Filter Time 0 00s 10 00s 0 10s F5 32 AI Curve 3 M...

Page 60: ...correspond to DO1 HDO1 T1 T2 DO5 binary Bit set value function 0 Switch closed 1 switch open 0 F6 02 Relay T1 Function Selection 0 No output 1 Inverter in running 2 Ready for run 3 Fault output 1 fau...

Page 61: ...Accumulative power on time reached 32 Timing reached output 33 PLC circulation output 34 Frequency limit 35 Torque limit 36 Reverse running 37 AI1 input limit 38 AI1 AI2 39 Communication setting 40 R...

Page 62: ...voltage 6 PULSE input 100 corresponding 100 0kHz 7 AI1 8 AI2 9 AI3 expansion card 10 Length 11 Count value 12 Communication setting 13 Motor rotate speed 14 Output current when 55kW 100 0 correspondi...

Page 63: ...t 0 0 F6 24 0 0 F6 23 AO2 Output Voltage Upper Limit 0 00V 10 00V 10 00V F6 24 Corresponding Setting Value of AO2 Output Voltage Upper Limit F6 22 100 0 100 0 F6 25 AO2 Output Filter Time 0 00s 10 00s...

Page 64: ...alid in any operation mode 0 F7 02 LED Running Display Parameter 1 0000 0xFFFF Bit00 Running frequency Hz Bit01 Set frequency Hz Bit02 Bus voltage V light on Bit03 Output voltage V Bit04 Output curren...

Page 65: ...ate Bit04 AI1 voltage V Bit05 AI2 voltage V Bit06 AI3 expansion card voltage V Bit07 Count value Bit08 Length value Bit09 PLC stage Bit10 Load speed Bit11 PID setting Bit12 Pulse input frequency kHz B...

Page 66: ...Disabled 1 Enabled 0 F8 04 Motor 1 Overload Protection Gain 0 20 10 00 1 00 F8 05 Motor 1 Overload Pre alarm Coefficient 50 100 80 F8 06 Overvoltage ove r current Stall Mode Selection 0 Mode 0 1 Mode...

Page 67: ...0 100 0 10 0 F8 19 Offload Detection Time 0 0s 60 0s 1 0s F8 20 Overspeed Detection Value 0 0 50 0 max frequency 20 0 F8 21 Overspeed Detection Time 0 0 No detection 0 1s 60 0s 0 0s F8 22 Large Speed...

Page 68: ...ware 3 Constant speed over current hardware 4 Acceleration over current software 5 Deceleration over current software 6 Constant speed over current software 7 Acceleration overvoltage 8 Deceleration o...

Page 69: ...eviation is too larg 41 Motor overspeed 42 Reserved 43 Manufacturer defined fault F9 03 Frequency Upon the Third Time Last Time Fault F9 04 Current Upon the Third Time Last Time Fault F9 05 Bus Voltag...

Page 70: ...rminal State Upon the Second Time Fault F9 18 Inverter State Upon the Second Time Fault F9 19 Power on Time Upon the Second Time Fault F9 20 Running Time Upon the Second Time Fault F9 23 Frequency Upo...

Page 71: ...e to run Ten s digit input phase loss 13 0 Coast to stop 1 Stop according to stop mode 2 Continue to run Hundred s digit output phase loss 14 0 Coast to stop 1 Stop according to stop mode 2 Continue t...

Page 72: ...Unit s digit user defined fault 1 35 0 Coast to stop 1 Stop according to stop mode 2 Continue to run Ten s digit user defined fault 1 36 0 Coast to stop 1 Stop according to stop mode 2 Continue to ru...

Page 73: ...actory Default Value Property FA 00 PID Given Source 0 FA 01 setting 1 AI1 2 AI2 3 AI3 expansion card 4 PULSE setting 5 Communication setting 6 Multi reference setting 7 Keypad potentiometer 0 FA 01 P...

Page 74: ...ential Time Td2 0 000s 10 000s 0 000s FA 18 PID Parameters Switching Condition 0 No switching 1 Switching through DI terminal 2 Automatic switching according to the deviation 0 FA 19 PID Parameters Sw...

Page 75: ...de Parameter Name Setting Range Factory Default Value Property Fb 00 Jog Running Frequency 0 00Hz max frequency 2 00Hz Fb 01 Jog Acceleration Time 0 0s 6500 0s 20 0s Fb 02 Jog Deceleration Time 0 0s 6...

Page 76: ...ping Frequency Whether Valid in the Process of Acceleration dec eleration 0 Disabled 1 Enabled 0 Fb 16 Frequency Detection Value FDT1 0 00Hz max frequency 50 00Hz Fb 17 Frequency Detection Lagged Valu...

Page 77: ...Limit Exceed Detection Delay Time 0 00s 600 00s 0 00s Fb 29 Any Current Reaching 1 0 0 300 0 rated motor current 100 0 Fb 30 Any Current Reaching 1 Amplitude 0 0 300 0 rated motor current 0 0 Fb 31 An...

Page 78: ...ime 0 0s 6500 0s 0 0s Fb 44 Dormancy Frequency 0 00Hz wakeup frequency Fb 42 0 00Hz Fb 45 Dormancy Delay Time 0 0s 6500 0s 0 0s Fb 48 Timing Braking Frequency 0 00Hz 50 00Hz 1 50Hz Fb 49 Timing Brakin...

Page 79: ...cess is effective 0 FC Multi reference and Simple PLC Function Code Parameter Name Setting Range Factory Default Value Property FC 00 Multi reference 0 100 0 100 0 0 0 FC 01 Multi reference 1 100 0 10...

Page 80: ...ntive selection 0 Non retentive at stop 1 Retentive at stop 0x00 FC 18 Run Time of Simple PLC Reference 0 0 0s h 6553 5s h 0 0s h FC 19 Acceleration De celeration Time Selection of Simple PLC Referenc...

Page 81: ...of Simple PLC Reference 6 0 0s h 6553 5s h 0 0s h FC 31 Acceleration De celeration Time Selection of Simple PLC Reference 6 0 3 0 FC 32 Run Time of Simple PLC Reference 7 0 0s h 6553 5s h 0 0s h FC 3...

Page 82: ...f Simple PLC Reference 12 0 0s h 6553 5s h 0 0s h FC 43 Acceleration De celeration Time Selection of Simple PLC Reference 12 0 3 0 FC 44 Run Time of Simple PLC Reference 13 0 0s h 6553 5s h 0 0s h FC...

Page 83: ...1 Terminal confirm 0 Fd MODBUS Communication Function Code Parameter Name Setting Range Factory Default Value Property Fd 00 Baud Rate 0 300BPS 1 600BPS 2 1200BPS 3 2400BPS 4 4800BPS 5 9600BPS 6 1920...

Page 84: ...s 0 FF 03 Function Code Display Selection Unit s digit 0 Not display A group 1 Display A group Ten s digit 0 Not display b group 1 Display b group 0x11 FF 04 Function Code Modify Property 0 Can modify...

Page 85: ...rque Control Function Code Parameter Name Setting Range Factory Default Value Property A0 00 Speed Torque Control Mode Selection 0 Speed control 1 Torque control 0 A0 01 Torque Setting Source Selectio...

Page 86: ...tal setting A0 06 1 AI1 2 AI2 3 AI3 expansion card 4 PULSE 5 Communication setting 6 Keypad potentiometer 0 A0 06 Max Frequency Digital Setting under the Torque Control Reverse 0 00Hz max frequency 50...

Page 87: ...mmunication setting 0 A0 17 Rotational Inertia Compensation Coefficient 0 00 10 00 0 00 A0 18 Rotational Inertia Compensation Upper Limit 0 0 50 0 5 0 A0 19 Rotational Inertia Compensation Starting Fr...

Page 88: ...Enable 0 Disable 1 Enable 1 A1 07 Current Detection Compensation 0 100 5 A1 08 SVC Optimize Mode Selection 0 Not optimize 1 Optimize 1 2 Optimize 2 1 A1 09 Dead Zone Time Adjustment 100 200 150 A1 10...

Page 89: ...ronous Motor Stator Resistance 0 001 65 535 Inverter power 55kW 0 0001 6 5535 Inverter power 55kW Tune parameter A2 07 Asynchronous Motor Rotor Resistance 0 001 65 535 Inverter power 55kW 0 0001 6 553...

Page 90: ...e Factory Default Value Property A3 00 Speed Loop Proportion Gain 1 1 100 30 A3 01 Speed Loop Integral Time 1 0 01s 10 00s 0 50s A3 02 Switching Frequency 1 0 00Hz A6 05 5 00Hz A3 03 Speed Loop Propor...

Page 91: ...0 A3 16 Torque Regulation Integral Gain 0 60000 1300 A3 17 Speed Loop Proportion Integral Property Unit s digit Integral separation 0 Disabled 1 Enabled 0 A3 20 Max Weak Magnetic Current 1 300 50 A3 2...

Page 92: ...ost 1 Manual torque boost 1 A4 02 Manual Torque Boost 0 0 30 0 Model dependent A4 03 Manual Torque Boost Cutoff Frequency 0 00Hz max frequency 50 00Hz A4 04 MS VF Frequency Point 1 0 00Hz F4 05 0 00Hz...

Page 93: ...ion the time that 0V rise to rated motor voltage 5 0s A4 17 VF Separation Voltage Fall Time 0 0s 1000 0s Remark Indication the time that rated motor voltage drop to 0V 5 0s b0 User Customize Function...

Page 94: ...06 b0 24 User Code 24 FF 06 b0 25 User Code 25 FF 06 b0 26 User Code 26 FF 06 b0 27 User Code 27 FF 06 b0 28 User Code 28 FF 06 b0 29 User Code 29 FF 06 b0 30 User Code 30 FF 06 b0 31 User Code 31 FF...

Page 95: ...1 06 Virtual VDI Terminal state setting Unit s digit virtual VDI1 0 Disabled 1 Enabled Ten s digit virtual VDI2 same as above Hundred s digit virtual VDI3 same as above Thousand s digit virtual VDI4 s...

Page 96: ...ical DO output selection 0 b1 15 Virtual VDO5 Output Function Selection 0 Short circuit with physical DIX internal 1 43 see the F6 group physical DO output selection 0 b1 16 VDO1 Output Delay Time 0 0...

Page 97: ...I Curve 4 Inflection Point 1 Input b2 00 b2 04 3 00V b2 03 Corresponding Setting of AI Curve 4 Inflection Point 1 Input 100 0 100 0 30 0 b2 04 AI Curve 4 Inflection Point 2 Input b2 00 b2 06 6 00V b2...

Page 98: ...ng Jump Point 100 0 100 0 0 0 b2 17 AI1 Setting Jump Range 0 0 100 0 0 5 b2 18 AI2 Setting Jump Point 100 0 100 0 0 0 b2 19 AI2 Setting Jump Range 0 0 100 0 0 5 b2 20 AI3 expansion card Setting Jump P...

Page 99: ...000V 9 999V Factory Correction b3 11 AI3 expansion card Displayed Voltage 2 6 000V 9 999V Factory Correction b3 12 AO1 Target Voltage 1 0 500V 4 000V Factory Correction b3 13 AO1 Measured Voltage 1 0...

Page 100: ...g 0 C0 02 MechanicalTran smission Ratio 0 01 600 00 1 00 C0 03 Coil Diameter Reset Mode 0 Stop automatic reset 1 Terminal reset 1 C0 04 Torque Calculation Mode Selection 0 Torque calculation model 1 1...

Page 101: ...4 C0 14 Maximum Coil Diameter Diameter of the System 1mm 10000mm 500mm C0 15 Empty Salver Coil Diameter Diameter 1mm 10000mm 100mm C0 16 Initial Coil Diameter 1 Diameter 1mm 10000mm 100mm C0 17 Initi...

Page 102: ...l switching 5 Communication setting 6 AI1 7 AI2 8 AI3 expansion card 0 C0 27 Coil Material Thickness 0 0 001mm 60 000mm 0 100mm C0 28 Coil Material Thickness 1 0 001mm 60 000mm 0 100mm C0 29 Coil Mate...

Page 103: ...Feeding 1mm 1000mm 10mm C0 40 Automatic Detection Filter Time of Starved Feeding 0 1s 60 0s 2 0s C0 41 Tension Taper Mode Selection 0 Disabled 1 Linear mode 2 Curve mode 0 C0 42 Tension Taper 1 0 000...

Page 104: ...3 0 0 C0 08 0 0 C0 55 Reeling and Unreeling Time 3 0s C0 48 3000s C0 56 Relling and Unreeling set Arrive Time 0s C0 48 3600s U0 Basic Monitoring Parameters Function Code Parameter Name Setting Range...

Page 105: ...d 0 1Hz 0 1Hz U0 20 Setting Torque 0 1 U0 21 AI1 Voltage before Correction 0 001V U0 22 AI2 Voltage before Correction 0 001V U0 23 AI3 expansion card Voltage before Correction 0 001V U0 24 Line Speed...

Page 106: ...eparation Target Voltage 1V U0 40 VF Separation Output Voltage 1V U0 41 Visual Display DI Input State 1 U0 42 Visual Display DO Input State 1 U0 43 Visual Display DI Function State 1 Function 01 40 1...

Page 107: ...done motor parameter identification process Only accurate motor parameter can give a full pay to the superiority of the vector control mode By adjusting the speed regulator parameter F3 group function...

Page 108: ...keys and or multi function input terminal of the UP DOWN correction by memory What need reminds is F0 17 is digital set frequency stop memory selection F0 17 is used to select the frequency correction...

Page 109: ...equency Commonly used in the scene of the closed loop technology such as constant pressure closed loop control constant tension closed loop etc Application of PID as frequency source you need to set u...

Page 110: ...y When multi function input terminal function 20 frequency source switch is valid auxiliary frequency B as the target frequency 3 The main frequency source A switch main and auxiliary operation result...

Page 111: ...mposed 0 00Hz max frequency F0 10 0 00Hz This function code is only valid at the time of frequency source selection of the main and auxiliary operation When the frequency source is main and auxiliary...

Page 112: ...pad key or terminal UP DOWN action adopt what way correction set frequency namely the target frequency is increase or decrease based on the running frequency or increase or decrease base on the set fr...

Page 113: ...acceleration deceleration time units is 1 seconds 0 1 seconds and 0 01 seconds respectively Note modify the function parameters 4 groups of acceleration deceleration time display the decimal digits w...

Page 114: ...requency source of F0 02 F0 07 is no longer work F0 23 Communication Protocol Selection 0 Modbus 0 See chapter 9 communication protocol description F0 24 Motor Selection 0 Motor 1 1 Motor 2 0 VD530 su...

Page 115: ...frequency to start Pre excitation time is not zero the first pre excitation restart can improve the motor dynamic response performance F1 01 Starting Frequency 0 00Hz 10 00Hz 0 50Hz F1 02 Startup Fre...

Page 116: ...m frequency 0 In the shortest possible time to complete the speed tracking process through the function of choosing the way of frequency converter motor speed tracking code Zero track down from the fr...

Page 117: ...current The greater the value is the stronger the dc braking effect is but the greater the fever of motor and frequency inverter is Stop dc braking time refers to the dc braking holding time The dc ba...

Page 118: ...1 When set frequency is lower than the start frequency the running state of inverter can be through the parameter selection VD530 provide two kinds of running mode meet various application requirement...

Page 119: ...ver excitation Filter Coefficients 0 10 3 Over excitation control can inhibit the bus voltage rise avoid the overvoltage fault The bigger the over excitation gain is the better the inhibition effect i...

Page 120: ...time is T b t f f 9 5 9 4 2 Among them f is set frequency f b is the rated motor frequency T is the time for 0 frequency accelerate to f b rated frequency F1 28 Time Ratio of S Curve Start Segment 0...

Page 121: ...eleration B diagram Fig 6 4 S curve acceleration deceleration diagram F1 30 Zero Frequency Voltage Output Selection 0 No voltage output 1 Voltage output 2 Output according to stop DC braking current o...

Page 122: ...0 0001 6 5535 Inverter power 55kW Tune parameter F2 07 Asynchronous Motor Rotor Resistance 0 001 65 535 Inverter power 55kW 0 0001 6 5535 Inverter power 55kW Tune parameter F2 08 Asynchronous Motor Le...

Page 123: ...synchronous motor no load tuning AB phase sequence of ABZ encoder can be obtained F2 21 Encoder Mounting Angle 0 0 359 9 0 0 This parameter applies only to synchronous motor control type of encoder f...

Page 124: ...s of complete tuning inverter conduct to static tuning first and then according to the acceleration time F0 18 to the 80 of rated motor frequency after a period of time accordance with the deceleratio...

Page 125: ...erence Fig 6 5 Parameter diagram By setting the proportional coefficient and integral time of speed regulator can adjust the speed of dynamic response characteristics of vector control Increase the pr...

Page 126: ...erter output torque by the torque limit source control F3 09 is used to select the set source of torque upper limit when setting by analog PULSE communication 100 of corresponding set corresponding F3...

Page 127: ...pensate the speed vector control low frequency torque characteristics inverter output voltage do some compensation when low frequency But torque boost set is too large motor easy to overheat inverter...

Page 128: ...mode commonly used in these occasions such as induction heating inverter power supply torque motor control 8 V F half separation mode In this case V and F is proportional but the proportion relationsh...

Page 129: ...0 0 0 F4 08 MS VF Frequency Point 3 F4 05 Rated motor frequency F2 04 0 00Hz F4 09 MS VF Voltage Point 3 0 0 100 0 0 0 F4 03 F4 08 six parameters defined multistage V F curve The curve of multipoint V...

Page 130: ...ion of the motor should be appropriate to increase the gain and the greater the gain the more obvious the suppression of the oscillation When using suppression oscillation function wants the rated mot...

Page 131: ...ation given Refers to the voltage by the HC is given by way of communication When above voltage source to select 1 8 0 100 are corresponding to the output voltage 0V rated motor voltage F4 16 VF Separ...

Page 132: ...s the most commonly used two line mode The forward reverse rotation of the motor is decided by the commands of Dix DIy terminals when Dix and DIy are effective the inverter to keep the first effective...

Page 133: ...mand end DIn Three line control model 1 SB2 SB3 VicRuns Fig 6 11 Three line control mode 1 SB1 Stop button SB2 Forward rotation button SB3 Forward rotation button Three line control mode 2 In this mod...

Page 134: ...is up and run run direction by a third impulse signal is produced DIx or pulse produced by DIy At the same time through disconnect DIn terminal signal can also achieve the downtime control frequency...

Page 135: ...0 F5 08 DI8 expansion card Input Terminal Function Selection 0 F5 09 DI9 expansion card Input Terminal Function Selection 0 This parameter is used to set the functions of the multifunctional digital...

Page 136: ...to change frequency up down command Setting frequency can be goes up down when frequency source setting for the digital setting 12 Frequency setting decrease DOWN 13 UP DOWN setting clear When freque...

Page 137: ...29 External stop terminal 2 According to the deceleration time 4 In any control mode panel control terminal control communication control can use the terminal to make the frequency inverter decelerat...

Page 138: ...rminal Through four kinds of condition of two terminals can realize four groups of motor parameters switch the detailed content see table 3 50 User defined failure 1 When the user defined fault 1 and...

Page 139: ...of digital quantity input terminal When selection for high level is valid the corresponding DI terminal is valid connected with the COM and is invalid disconnection When selection for low level is va...

Page 140: ...vides 2 way analog input port use AI3 to configure the multifunction input and output expansion card F5 21 AI is Lower than Min Input Set Selection Unit s digit AI1 is lower than min input setting sel...

Page 141: ...the filter time is bigger the analog signal detecting response speed is lower Please consider the actual situation to set In different application analog set 100 0 is different from its corresponding...

Page 142: ...e group function code is used to set the relationship between HDI1 pulse frequency set and corresponding setting Pulse frequency can only be input into the inverter through the HDI1 channel The applic...

Page 143: ...indicate the inverter is in running state have the output frequency can be zero output ON signal at this time 2 Ready for run When the inverter main circuit and control loop is stable and the inverte...

Page 144: ...f function code Fb 29 Fb 30 18 Current 2 reached output Please refer to the instruction of function code Fb 31 Fb 32 19 Zero current state Please refer to the instruction of function code Fb 25 Fb 26...

Page 145: ...ning output ON signal 37 AI1 input limit When the value of analog input AI1 is more than Fb 41 AI1 input protection upper limit or less than Fb 40 AI1 input protection lower limit output ON signal 38...

Page 146: ...expansion card from state changes to the actual output changes F6 12 HDO1 Output Function Selection 0 15 see table below 0 F6 13 AO1 Output Function Selection 0 F6 14 AO2 Output Function Selection 1...

Page 147: ...age Lower Limit 0 0 F6 19 0 0 F6 18 AO1 Output Voltage Upper Limit 0 00V 10 00V 10 00V F6 19 Corresponding Setting Value of AO1 Output Voltage Upper Limit F6 17 100 0 100 0 F6 20 AO1 Output Filter Tim...

Page 148: ...orresponding input types of hardware the parameters are selected as the same type F6 28 HDO1 Disconnect Delay 0 0s 3600 0s 0 0s F6 29 T1 Disconnect Delay 0 0s 3600 0s 0 0s F6 30 T2 Disconnect Delay 0...

Page 149: ...is switched by JOG REV key The funtion is valid only in the command source for the operation panel command channel 3 Forward jog Through the keypad JOG REV key to realize forward jog 4 Reverse jog Th...

Page 150: ...frequency X display Hz Bit15 Auxiliary frequency Y display Hz 0x000 0 Inverter in run condition parameter display is subjected to the function code which is a 16 bit binary number if one bit is 1 the...

Page 151: ...ameters switch by shift key display only to input hexadecimal addition results of that several parameter F7 04 LED Display Stop Parameter 0000 0x3FFF Bit00 Set frequency Hz Bit01 Bus voltage V Bit02 D...

Page 152: ...eral parameter F7 05 The Second Line LED Running Display Parameters 0 15 corresponding bit0 bit15 of F7 03 16 31 corresponding bit0 bit15 of F7 04 4 F7 06 The Second Line LED Stop Display Parameters 0...

Page 153: ...Coefficient 50 100 80 This function is used to in the front of the motor overload fault protection through the DO give a warning signal to control system The warning coefficient used to detemine how...

Page 154: ...eater the inhibition of overcrrent ability is On the premise of not occur overcurrent the gain settings as small as possible For small inertia load the gain of the overcurrent stall is small is better...

Page 155: ...is greater than the large speed deviation detection value F8 22 and duration time is greater than the over speed detection time F8 23 frequency converter fault alarm Err 40 and deal with according to...

Page 156: ...F8 24 2 Decelerate to Stop time Deceleration time 1 Acceleration time 1 Instantaneous power failure judgment voltage F8 25 Deceleration time 1 Fig 6 16 Schematic diagram of instantaneous power failure...

Page 157: ...ime Fault F9 04 Current Upon the Third Time Last Time Fault F9 05 Bus Voltage Upon the Third Time Last Time Fault F9 06 Input Terminal State Upon the Third Time Last Time Fault F9 07 Output Terminal S...

Page 158: ...Time Fault F9 29 Power on Time Upon the First Time Fault F9 30 Running Time Upon the First Time Fault F9 33 Fault Automatic Reset Times 0 20 0 F9 34 Fault Automatic Reset Interval Time 0 1s 100 0s 1...

Page 159: ...inue to run Hundred s digit running time reached 27 0 Coast to stop 1 Stop according to stop mode 2 Continue to run Thousand s digit speed deviation is too larg 40 0 Coast to stop 1 Stop according to...

Page 160: ...show Err after stop When the option is continue to run frequency converter continue to run and displays A running frequency is set by F9 40 F9 40 Continue Running Frequency Selection at Failure 0 Run...

Page 161: ...ntroduce and enlarge the interference signals and cause the system unstable please use caution Ti S 1 1 Td s 1 1 p PID output quantity Feedback Target quantity Fig 6 17 Process PID principle block dia...

Page 162: ...me Ti1 Determine the intensity of the PID regulator integral regulation The shorter the integration time the greater the intensity of adjustment Integration time is when the PID feedback quantity and...

Page 163: ...t meet the needs of the whole operation process need to adopt different PID parameters under different conditions This set of function is used to switch between two groups of PID parameters The set mo...

Page 164: ...abled 1 Enabled Ten s digit whether stop integral after output the limit 0x00 Integral separation If set up integral separation is effective then when the multifunction digital DI integral pause funct...

Page 165: ...to the direct start mode F1 00 0 and the stop mode is fixed to the deceleration stop F1 08 0 Fb 03 Acceleration Time 2 0 0s 6500 0s Model dependent Fb 04 Deceleration Time 2 0 0s 6500 0s Model depend...

Page 166: ...Deceleration time 2 Acceleration time 2 Acceleration time 1 Acceleration time 2 Fig 6 20 Schematic diagram of acceleration deceleration time switching Fb 12 Hopping Frequency 1 0 00Hz frequency hoppin...

Page 167: ...al running frequency will skip hopping frequency set boundary The following diagram is a schematic diagram of the hopping frequency effectively in the process of acceleration and deceleration Hopping...

Page 168: ...entage of lagging frequency relative to the frequency detection values Fb 6 Fb 18 The diagram below for the FDT function FDT Lagged value Fb 16 Fb 17 or Fb 18 Fb 19 Time t Output frequency Hz FDT Elec...

Page 169: ...e 1 0 0 100 0 max frequency 0 0 Fb 23 Any Frequency Reaching Detection Value 2 0 00Hz max frequency 50 00Hz Fb 24 Any Frequency Reaching Detection Amplitude 2 0 0 100 0 max frequency 0 0 When the outp...

Page 170: ...s 600 00s 0 1s When the output current of the inverter is less than or equal to zero current detection level and the duration is more than the zero current detection delay time the inverter muti funct...

Page 171: ...00 0 rated motor current 100 0 Fb 32 Any Current Reaching 2 Amplitude 0 0 300 0 rated motor current 0 0 When the output current of frequency converter is set at the positive and nagetive detection amp...

Page 172: ...e inverter timing starts when it is started to set timing run time the inverter automatically stop muti function DO output ON signal at the same time Frequency converter starting at each time timing s...

Page 173: ...A 29 must be selected PID stop operation FA 29 1 at this time Fb 48 Timing Brake Frequency 0 00Hz 50 00Hz 1 50Hz Fb 49 Timing Brake Time 0 0s 60 0s 2 0s In the process of stop when the output frequenc...

Page 174: ...s a fixed value Swing running frequency is constraints by the frequency upper limit and frequency lower limit Aw Aw Swing frequency amplitude Aw Fset Pb 52 Jumping frequency Aw Pb 53 Output frequency...

Page 175: ...In the application need to set the corresponding input terminals function to counter input function 44 when the pulse frequency is higher must use DI5 port When the count vale reached set count value...

Page 176: ...i reference 11 100 0 100 0 0 0 FC 12 Multi reference 12 100 0 100 0 0 0 FC 13 Multi reference 13 100 0 100 0 0 0 FC 14 Multi reference 14 100 0 100 0 0 0 FC 15 Multi reference 15 100 0 100 0 0 0 Multi...

Page 177: ...i reference 0 FC 00 OFF OFF OFF ON Multi reference 1 FC 01 OFF OFF ON OFF Multi reference 2 FC 02 OFF OFF ON ON Multi reference 3 FC 03 OFF ON OFF OFF Multi reference 4 FC 04 OFF ON OFF ON Multi refer...

Page 178: ...to determine the running direction if the negative value indicates that the frequency inverter is running in the opposite direction Time t DO or relay output 250ms pulse output Running direction FC 19...

Page 179: ...tart to restart PLC process FC 18 Run Time of Simple PLC Reference 0 0 0s h 6553 5s h 0 0s h FC 19 Acceleration Deceleratio n Time Selection of Simple PLC Reference 0 0 3 0 FC 20 Run Time of Simple PL...

Page 180: ...of Simple PLC Reference 9 0 3 0 FC 38 Run Time of Simple PLC Reference 10 0 0s h 6553 5s h 0 0s h FC 39 Acceleration Deceleratio n Time Selection of Simple PLC Reference 10 0 3 0 FC 40 Run Time of Sim...

Page 181: ...enient switching between multi reference and other given way When the multi reference is used as a frequency source or simple PLC as a frequency source can be easy to implement the switching between t...

Page 182: ...F 14 the total running time FF 15 are not restored 2 Clear the record information To remove converter fault record information cumulative power consumption FF 13 cumulative power on time FF 14 total r...

Page 183: ...display mode Display Function parameter display Custom parameters display User change parameters display The display code of display mode of each parameters is VD530 inverter provides two groups of pe...

Page 184: ...converter since the factory When this time reach to set running time Fb 35 inverter multi function digital output function 30 output ON signal FF 15 Accumulative Power on Time 0h 65535h 0h Display th...

Page 185: ...id A0 01 Torque Setting Source Selection under the Torque Control Mode 0 Digital setting A0 02 1 AI1 2 AI2 3 AI3 expansion card 4 PULSE 5 Communication setting 6 MIN AI1 AI2 7 MAX AI1 AI2 8 Keypad Pot...

Page 186: ...mine the speed change rate of the motor and load so the speed of the motor can be changed quickly which brings the problems such as high noise or mechanical stress By setting the torque control accele...

Page 187: ...4 Communication setting 0 A0 17 Rotational Inertia Compensation Coefficient 0 00 10 00 0 00 A0 18 Rotational Inertia Compensation Upper Limit 0 0 50 0 5 0 A0 19 Rotational Inertia Compensation Startin...

Page 188: ...than the factory value will lead to frequency inverter radiator temperature rise at this time the user needs to use the frequency converter derating otherwise the inverter has the risk of overheating...

Page 189: ...sation mode High power is recommended for use with compensation mode 2 A1 05 Random PWM Depth 0 Random PWM invalid 1 10 PWM carrier frequency random depth 0 Set up random PWM can make the motor sound...

Page 190: ...degrees in stop state When selection for 1 the fan operation after power on A1 12 Speed Identification Filter Depth 0 8 4 A1 13 Low Frequency Carrier Limit Mode 0 Limit mode 1 1 Limit mode 2 2 Not Lim...

Page 191: ...r Code 9 F5 02 b0 10 User Code 10 F5 03 b0 11 User Code 11 F6 02 b0 12 User Code 12 F6 03 b0 13 User Code 13 FF 06 b0 14 User Code 14 FF 06 b0 15 User Code 15 FF 06 b0 16 User Code 16 FF 06 b0 17 User...

Page 192: ...rameter Group b1 00 Virtual VDI1 Terminal Function Selection 0 59 0 b1 01 Virtual VDI2 Terminal Function Selection 0 59 0 b1 02 Virtual VDI3 Terminal Function Selection 0 59 0 b1 03 Virtual VDI4 Termi...

Page 193: ...1 00 50 Set VDI1 terminal valid state model for determine by VDO1 b1 05 xxx0 Set VDO1 output function as AI1 input beyond the upper and lower limit b1 11 37 When AI1 input beyond the upper and lower l...

Page 194: ...ollowing figure is take AI input voltage as an example explaine the relationship between AI input voltage and the corresponding DI state Time DC7V DC3V AI input voltage AI terminal state OFF ON ON Fig...

Page 195: ...4 Disconnection Delay 0 0s 3600 0s 0 0s b1 26 VDO5 Disconnection Delay 0 0s 3600 0s 0 0s Virtual digital output function similar to the control panel DO output function can be used to cooperate with v...

Page 196: ...AI Curve 4 Max Input 100 0 100 0 100 0 b2 08 AI Curve 5 Min Input 10 00V b2 10 10 00V b2 09 Corresponding Setting of AI Curve 5 Min Input 100 0 100 0 100 0 b2 10 AI Curve 5 Inflection Point 1 Input b2...

Page 197: ...0 0 100 0 0 5 b2 18 AI2 Setting Jump Point 100 0 100 0 0 0 b2 19 AI2 Setting Jump Range 0 0 100 0 0 5 b2 20 AI3 expansion card Setting Jump Point 100 0 100 0 0 0 b2 21 AI3 expansion card Setting Jump...

Page 198: ...group function code is used to correct the analog input AI to eliminate the influence of zero bias and gain of AI input port The group function parameters has been corrected before factory when restor...

Page 199: ...revert to the values after factory correction Generally don t need to be corrected at the scene of the application Target voltage is refers to the theory output voltage value of inverter The measured...

Page 200: ...ID adjustment so that the system is more stable that is the accuracy of the detection of linear speed is more important Tension Control Mode Default Modify Function Code Function Code Description C0 0...

Page 201: ...ter is smaller and smaller C0 02 Machine Transmissi on Ratio 0 01 600 00 1 00 Transmission Ratio spindle rotate speed motor speed In tension control must be set to the correct transmission ratio C0 03...

Page 202: ...fixed value C0 09 Friction Torque Compensati on 0 0 200 0 0 0 A torque compensation to overcome the inherent friction loss of machine C0 10 Tension Set Source 0 Function code seting C0 11 1 AI1 2 AI2...

Page 203: ...4 Strip thickness cumulation method Based on the strip thickness C0 21 the cumulative integral method for calculating the coil diameter The calculation equation for D D0 2 n d Among them D0 is the in...

Page 204: ...feed forward coefficient selection terminal 1 and the DI4 terminal F5 04 is set to 55 initial coil diameter feed forward coefficient selection terminal 2 The initial coil diameter selection relationsh...

Page 205: ...m When the thickness of coil material analog is set the 100 corresponds to the reference value C0 26 Coil Material Thickness Setting 0 Coil material thickness 0 1 Coil material thickness 1 2 Coil mate...

Page 206: ...00 0m min 1000 0m min When Linear velocity input source is given by analog 100 corresponding maximum linear velocity of the system C0 36 Coil Diameter Calculation the Lowest Linear Velocity 0 1m min 6...

Page 207: ...Tension Taper 2 0 000 1 000 0 000 C0 45 Taper Inflection Point 2 1mm 10000mm 200mm C0 46 Tension Taper Correction 0mm 1000mm 0mm This set of parameters only used for rolling control In the process of...

Page 208: ...Unreeling Time 0 65535s 3600s C0 49 MS Torque Calculation Selection 0 Disabled 1 Enabled 0 C0 50 Torque Increment 1 0 0 C0 08 0 0 C0 51 Reeling and Unreeling Time 1 0s C0 48 1000s C0 52 Torque Increm...

Page 209: ...d 2 The power input and output power cables of the inverter and weak current signal cables e g control line shall not be arranged in parallel and vertical arrangement is preferable 3 It is recommended...

Page 210: ...tween motor and inverter can reduce distributed capacitance The bigger the carrier frequency is the bigger the leakage current is By reducing carrier frequency to reduce leakage current but reducing c...

Page 211: ...is too small 5 V F curve inappropriate 6 Inverse module short circuit protection 1 Extend acceleration time 2 Self tuning to motor parameter 3 Check grid input power 4 Select inverter with bigger pow...

Page 212: ...hort 4 No installation brake unit and brake resistor 1 Set the voltage to the normal range 2 Cancel the external power or installation brake resistance 3 Increase the acceleration time 4 Installation...

Page 213: ...n damage 4 Module thermal resistance damage 5 Inverter module damage 1 Reduce the environmental temperature 2 Clean air duct 3 Replace the fan 4 Replace the thermal resistance 5 Replace the inverter m...

Page 214: ...4 PG card anormal 1 According to the actural set right encoder type 2 Out of line fault 3 Replace encoder 4 Replace PG card Err 32 Encoder reverse fault 1 Encoder phase sequence and motor running in t...

Page 215: ...ut ask for support Check the CHARGE light on If the light is off the fault is mainly in the rectify bridge or the buffer resistor If the light is on the fault may be lies in the switchover power suppl...

Page 216: ...rk That is the basis to guarantee the Modbus serial communication 9 4 Protocol Description VD530 series inverter communication protocol is a kind of serial master slave communication protocol in the n...

Page 217: ...ess 0 247 decimal 0 as broadcast address Function field CMD 03H read slave parameter 06H write slave parameter Data field DATA N 1 DATA 0 2 N Bit data this part is the main content of communication al...

Page 218: ...s voltage low Bit xx H Output frequency high Bit xx H Output frequency low Bit xx H CRC CHK low Bit xx H CRC CHK high Bit xx H END T1 T2 T3 T4 When Fd 05 1 START T1 T2 T3 T4 ADDR 01H CMD 03H Bit numbe...

Page 219: ...01H Data content high Bit 13H Data content low Bit 88H CRC CHK low Bit DAH CRC CHK high Bit 5CH END T1 T2 T3 T4 9 6 3 Communication Format Error Check Method Frame error check mode includes two part...

Page 220: ...character is separately do XOR with the register contents the results is shifting towards the lowest Enabled Bit the highest Enabled Bit is filled with 0 LSB is extracted to be checked if LSB is 1 th...

Page 221: ...order to realize the function the function code as long as the address of A high into 4 can be achieved Corresponding function code shown by the following address High byte 00 0 F group F 40 4 F group...

Page 222: ...Command function 2000H 0001 Forward rotation 0002 Reverse rotation 0003 Forward jog 0004 Reverse jog 0005 Coast to stop 0006 Decelerate to stop 0007 Fault reset 0008 Emergency stop Read inverter state...

Page 223: ...loss 000FH module overheat 0010H reserved 0011H external fault 0012H communication abnormal 0013H current detection abnormal 0014H motor debugging abnormal 0015H read write abnormal 0016H reserved 001...

Page 224: ...asting functions The machine address has uniqueness except the broadcast address which is to achieve the basis of upper machine and inverter peer to peer communications Fd 03 Response Delay 0ms 200ms...

Page 225: ...the standard Modbus protocol Fd 05 0 read command from the machine returns number of bytes is more than the standard Modbus protocol a byte specific see communications data structures part of this ag...

Page 226: ...nd pull tight a brass screw for the specification of the M3 11 2 Insert the expansion card J20 insert to extension seat of control board J7 correctly 3 Firstly pull tight the screws that removed previ...

Page 227: ...parts A 3 Jumper Switchover Function Description Table A 2 Socket connection function description Jumper Switchover Code Jump Selection Function Description J21 24V port When jump cap plug connect to...

Page 228: ...EN DI4 DI5 COM HDO1 DO1 T2 A T2 C A A Z Z B B GND 5V S1 S2 S3 S4 Separate dial any of a set of dialswitch to realize frequency division output S1 S2 S3 S4 corresponding 2 4 6 8 16 frequency division J...

Page 229: ...onverter set parameters FF 01 for 1 parameters to restore the factory values After set the the related motor parameters of F2 group then set F2 26 doing motor parameter self learning set up the relate...

Page 230: ......

Page 231: ...rnal device 3 If there is any failure or damage to the product please correctly fill out the Product Warranty Card in detail 4 The maintenance fee is charged according to the latest Maintenance Price...

Page 232: ...Customer Information Address Company Name Postcode Contact Person Tel of Email Product Information Product Model Serial No Name of supplier who supplied you the unit Failure Description eg Fault code...

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