Table of Contents
Advertisement
Preface
Thank you for purchasing VD500 Series Inverters!
VD500 is a high-performance vector control inverter developed by VicRuns. Adopting advanced
vector control algorithm, it is widely used for asynchronous motor speed control. Through its
integrated EMC design and with optimized PWM control technique to meet users' demand on
environmental requirement such as low-noise in application places and low EMI. It has perfect
anti-tripping control and good adaptive ability to bad power grid, temperature, humidity and dust, in
order to satisfy various sophisticated requirement under high precision drive applications, thus to
satisfy users expectation of higher reliability and stronger adaptability to environment of their
equipment, achieving industry specialization and personalized motor drive and control system
solution.
VD500 series high performance vector control inverter has following outstanding features:
1. Various control method
Supporting control method: SVC, V/F control.
2. Leading vector control algorithm
Optimized sensorless vector control has better low speed stability, stronger low frequency load
capacity, supporting speed control and torque control.
3. Support multi-function I/O extension and multi-function MFI extension port
Multi-function I/O extension card, multi-function MFI extension port can connect related extension
function unit defined by manufacturer.
This manual provides the related issues: user installing and site wiring, quick 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, then play their
superior performance.
Please send this manual to the user or maintainer of this inverter, and properly kept.
Unpacking and Inspection:
Every inverter has been inspected rigorously before shipping.
Please confirm carefully when unpacking the packing carton:
● Check if any damage signs of the product and its package.
● Check if the model and inverter rated values on the nameplate are the same as stated on your order
and user manual.
● The box contains the inverter, manufacturer certificate, user manual.
If the product is damaged during transportation, or there is any omission or damage, please contact
our company or your local supplier immediately.
First time use suggests:
The users who use this product for the first time shall read this manual carefully. For any doubt on
certain functions and performances, please contact the technical support personnel of our company
for help, so as to use this product properly. With commitment to the constant improvement of the
inverter products, our company may change the information provided without additional notice.
VD500 series inverter is confirmed to below international standard, has passed the CE certification.
IEC/EN 61800-5-1: 2003 adjustable speed electric drive system safety regulation requirements;
IEC/EN 61800-3: 2004 adjustable speed electric drive system: part 3: product EMC standard and its
specific test method;
IEC/EN61000-2-1, 2-2, 3-2, 3-3, 4-2, 4-3, 4-4, 4-5, 4-6; EMC international and EU standard .
Advertisement
Table of Contents
Related Manuals for Vicruns VD500 Series
Summary of Contents for Vicruns VD500 Series
- Page 1 With commitment to the constant improvement of the inverter products, our company may change the information provided without additional notice. VD500 series inverter is confirmed to below international standard, has passed the CE certification. IEC/EN 61800-5-1: 2003 adjustable speed electric drive system safety regulation requirements;...
-
Page 3: Table Of Contents
Contents Chapter 1 Safety and Precautions......................- 1 - 1.1 Safety Definition ........................... - 1 - 1.2 Safety Precautions ..........................- 1 - 1.3 General Precautions ..........................- 3 - Chapter 2 Product Information ........................- 6 - 2.1 Designation Rules ..........................- 6 - 2.2 Nameplate............................. - Page 4 Chapter 7 EMC Guide..........................- 190 - 7.1 Definition............................- 190 - 7.2 EMC Standard Introduction......................- 190 - 7.3 EMC Guide............................- 190 - Chapter 8 Fault Shooting and Solutions ....................- 192 - 8.1 Fault Alarm and Countermeasures ....................- 192 - 8.2 Common Faults and Solutions......................
-
Page 5: Chapter 1 Safety And Precautions
VD500 Series Inverter User Manual Safety and Precautions Chapter 1 Safety and Precautions 1.1 Safety Definition In order to ensure that your personal, equipment and property safety, before the using the frequency converter, please be sure to read this chapter carefully, and in the subsequent handling, installation, debugging, operation and maintenance process in accordance with the implementation. - Page 6 Safety and Precautions VD500 Series Inverter User Manual damages. ● Install inverter in place avoid to vibration, water drops and direct sunlight. ● When two inverters are installed in the same cabinet, arrange the installation positions properly to ensure normal cooling effect, keep the cabinet with good ventilation.
-
Page 7: General Precautions
VD500 Series Inverter User Manual Safety and Precautions while motor is run, if it is necessary to identify the motor parameter. 1.2.6 During Operation ● Do not touch the cooling fan or braking resistor etc, otherwise may cause personal injury! ●... - Page 8 Safety and Precautions VD500 Series Inverter User Manual 1.3.5 Regarding Motor Heating and Noise Inverter output voltage is PWM wave, with some higher harmonic, so motor temperature rising, noise and vibration should increase a little comparing with power frequency, which is normal.
- Page 9 VD500 Series Inverter User Manual Safety and Precautions damage or performance reduce. - 5 -...
-
Page 10: Chapter 2 Product Information
Product Information VD520 Series Inverter User Manual Chapter 2 Product Information 2.1 Designation Rules VD500-4T-11GB/15PB Vicrns series Voltage level 220V 220V Brake unit Adaptable motor power 380V G type 11kW motor B: Including brae unit 690V P type 15kW motor None 1140V Fig 2.1-1 Designation Rules... - Page 11 VD520 Series Inverter User Manual Product Information Three-phase Power supply:380V, 50/60Hz VD500-4T-0.7GB 0.75 VD500-4T-1.5GB VD500-4T-2.2GB VD500-4T-3.7GB 10.5 VD500-4T-5.5GB VD500-4T-5.5PB 14.6 13.0 VD500-4T-7.5GB VD500-4T-7.5PB 11.0 20.5 17.0 VD500-4T-11GB VD500-4T-11PB 17.0 26.0 25.0 11.0 VD500-4T-15GB VD500-4T-15PB 21.0 35.0 32.0 15.0 VD500-4T-18.5G VD500-4T-18.5PB 24.0 38.5 37.0...
-
Page 12: Product Specifications
Product Information VD520 Series Inverter User Manual 2.4 Product Specifications Table 2-2 Product technical specification Item Specifications Grade of rated voltage is 220V or 380V: voltage continued Rated input fluctuation±10%, brief fluctuation:-15~+10%, voltage voltage imbalance rated<3%, aberration rate meet IEC61800-2 requirements. - Page 13 VD520 Series Inverter User Manual Product Information Easy PLC, Via built-in PLC or control terminal can realize max 16 multi-stage speed stage speed run. Built-in PID Can realize process control conveniently. Auto-adjustment Can keep the output voltage constant automatically when of the voltage the grid voltage changed.
-
Page 14: Physical Appearance And Main Structure Diagram
Product Information VD520 Series Inverter User Manual 2 relay output terminal Extension capacity: 1 digit output terminal. LED display Can display 5 parameters Display and Motor short-circuit detection at power-on, input/output Keypad phase loss protection, overcurrent protection, overvoltage Protection Operation function protection, undervoltage protection, overheat protection and overload protection etc. -
Page 15: Product Appearance And Installation Dimension
VD520 Series Inverter User Manual Product Information 2.6 Product Appearance and Installation Dimension Fig 2.6-1 Schematic diagram for physical dimensions and mounting dimensions (below 7.5kW) Fig 2.6-2 Schematic diagram for physical dimensions and mounting dimensions (11kW~110kW) Fig 2.6-3 Schematic diagram for physical dimensions and mounting dimensions (up 132 kW) - 11 -... - Page 16 Product Information VD520 Series Inverter User Manual Table 2-3 Physical dimensions and installation hole (mm) Diameter Weight Mounting Hole Physical Dimensions ( mm) (mm) Mounting (kg) Model Hole (mm) Single-phase 220V, 50/60Hz VD500-2S-0.7GB VD500-2S-1.5GB 106.5 VD500-2S-2.2GB VD500-2S-3.7GB VD500-2S-5.5GB Three-phase 380V, 50/60Hz VD500-4T-0.7GB VD500-4T-1.5GB 106.5...
-
Page 17: Physical Dimensions Of External Keyboard
VD520 Series Inverter User Manual Product Information VD500-4T-220G/250P VD500-4T-250G/280P 1000 1450 VD500-4T-280G/315P VD500-4T-315G/355P VD500-4T-355G/400P VD500-4T-400G/450P 1300 1270 1240 1750 VD500-4T-450G/500P VD500-4T-500G/560P 2.7 Physical Dimensions Of External Keyboard 2-M4 Physical dmensions of keyboard Physical dimensions of keyboard holder Fig 2.7-1 External keyboard and holder dimension 78.5 66.5 The mounting hole size of the card mounted... -
Page 18: Braking Unit Model Selection Guide
Product Information VD520 Series Inverter User Manual 2.8 Braking Unit Model Selection Guide 2.8.1 Resistor Value Selection The regenerative energy of the motor is almost all consumed in the braking resistor when braking. According to formula U*U/R=Pb In formula U---braking voltage when system is stability braking (different system with different value, for AC380V system, it generally take DC700V) Pb----braking power 2.8.2 Braking Resistor Power Selection... -
Page 19: Routine Repair And Maintenance Of Inverter
VD520 Series Inverter User Manual Product Information VD500-4T-18.5G/22P 3.7kW ≥31.5Ω VD500-4T-22G/30P 4.4kW ≥26.5Ω External VDBU-4T-70G VD500-4T-30G/37P ≥19.4Ω VD500-4T-37G/45P 7.4kW ≥15.8Ω VD500-4T-45G/55P ≥13Ω External VDBU-4T-110G VD500-4T-55G/75P 11kW ≥10.6Ω VD500-4T-75G/90P 15kW ≥7.8Ω VD500-4T-90G/110P 18kW ≥6.5Ω External VDBU-4T-160G VD500-4T-110G/132P 22kW ≥5.3Ω VD500-4T-132G/160P 26.4kW ≥4.4Ω... - Page 20 Product Information VD520 Series Inverter User Manual 2.9.1 Daily Round Check Daily Inspection Projects ● If the heat from motor and the run inverter is higher than normal temperature ● If any abnormal noise or vibration from motor and the run inverter ●...
-
Page 21: Warranty Introduction
VD520 Series Inverter User Manual Product Information ● Do not keep it in high temperature, humid or vibrated place with metal powder, and keep good ventilation. ● If inverter kept too long without run, the filter capacitor performance will reduce. For every 2years, the inverter should be powered on to restore the performance of big capacity filter capacitor, check the inverter function. -
Page 22: Chapter 3 Mechanical And Electrical Installation
Mechanical and Electrical Installation VD500 Series Inverter User Manual Chapter 3 Mechanical and Electrical Installation 3.1 Installation Environment The ambient temperature exerts great influences on the service life of the inverter and is not allowed ℃ ℃ to exceed the allowable temperature range (-10 Celsius to 40 Celsius). -
Page 23: Removing And Mounting The Cover Plate And Keyboard
VD500 Series Inverter User Manual Mechanical and Electrical Installation 3.3 Removing and Mounting the Cover Plate and Keyboard Fig 3.3-1 Removing and mounting the keyboard diagram Disassembly of control panel: put the middle finger on upper part of control panel, lightly press the upper clip and pull out. -
Page 24: Inverter And External Electrical Parts Connection
Mechanical and Electrical Installation VD500 Series Inverter User Manual Fig 3.3-3 Removing and installing the cover plate of sheet-metal enclosure Disassembly and installation of sheet-metal enclosure: with cross screwdriver to screw off the two screws at the bottom of the undercover 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. - Page 25 VD500 Series Inverter User Manual Mechanical and Electrical Installation Table 3-1 the peripheral devices Must install the isolation switch device such as a obvious segmentation between the grid and frequency inverter, and ensure the personal safety when equipment maintenance. Breaker The capacity of breaker is 1.5~2 time of frequency inverter rated...
- Page 26 Mechanical and Electrical Installation VD500 Series Inverter User Manual Note: the data in the table in only two conductors using the same metal case is correct, if not so, protective conductor cross-sectional area should be through the method of conductivity coefficient equivalent using the determined.
- Page 27 VD500 Series Inverter User Manual Mechanical and Electrical Installation Three-phase 380V 50/60Hz VD500-4T-0.7GB VD500-4T-1.5GB VD500-4T-2.2GB VD500-4T-3.7GB/5.5PB VD500-4T-5.5GB/7.5PB VD500-4T-7.5GB/11PB VD500-4T-11GB/15PB VD500-4T-15GB/18.5PB VD500-4T-18.5G/22P VD500-4T-22G/30P VD500-4T-30G/37P VD500-4T-37G/45P VD500-4T-45G/55P VD500-4T-55G/75P VD500-4T-75G/90P VD500-4T-90G/110P VD500-4T-110G/132P VD500-4T-132G/160P VD500-4T-160G/185P VD500-4T-185G/200P VD500-4T-200G/220P 150*2 150*2 VD500-4T-220G/250P 150*2 150*2 VD500-4T-250G/280P 185*2...
- Page 28 Mechanical and Electrical Installation VD500 Series Inverter User Manual Table 3-5 Selection table of input/output AC Reactor, DC reactor Input AC Reactor Output AC Reactor DC Reactor Inverter Capacity(kW) Inductance Current Inductance Current Inductance Current(A) (mH) (mH) (mH) VD500-4T-0.7GB VD500-4T-1.5GB VD500-4T-2.2GB...
-
Page 29: Standard Wiring Diagram
VD500 Series Inverter User Manual Mechanical and Electrical Installation 3.5 Standard Wiring Diagram 3.5.1 Standard Wiring Diagram for Single-phase 220V Inverter 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;... - Page 30 Mechanical and Electrical Installation VD500 Series Inverter User Manual 3.5.2 Standard Wiring Diagram for Three-phase and Lower than 15kW Inverter: Fig 3.5-2 Standard wiring diagram for three-phase and lower than 15kW Inverter Precautions are as follows: ◎ main circuit terminal, terminal ○ refers to control circuit terminal;...
-
Page 31: Main Circuit Terminals
VD500 Series Inverter User Manual Mechanical and Electrical Installation 3.5.3 Standard Wiring Diagram for Three-phase and High than 18.5kW Inverter: Fig 3.5-3 Standard wiring diagram for three-phase 18.5Kw and above inverter Precautions are as follows: ◎ ○ refers to control circuit terminal;... - Page 32 Mechanical and Electrical Installation VD500 Series Inverter User Manual 3.6.1.2 Wiring Diagram of Main Circuit of Three-phase and Lower Than 2.2kw Inverter Fig 3.6-2 Wiring diagram of main circuit of three-phase and lower than 2.2kW inverter 3.6.1.3 Wiring Diagram of Main Circuit of Three-phase 3.7kw-15kw Inverter Fig 3.6-3 Wiring diagram of main circuit of three-phase 3.7kw-15kw inverter...
- Page 33 VD500 Series Inverter User Manual Mechanical and Electrical Installation ● The voltage class of VD500 series inverter 3phase power has two grades: 220V, 380V, before connecting power, please make sure the power class on inverter nameplate is the same with the accessing power.
-
Page 34: Control Circuit Terminal
Mechanical and Electrical Installation VD500 Series Inverter User Manual 3.7 Control Circuit Terminal 3.7.1 Control Terminals and Functional Fig 3.7-1 Diagram of main control board and function extension card connection 3.7.2 Description of Control Circuit Terminal Table 3-7 Description of control circuit terminal... - Page 35 VD500 Series Inverter User Manual Mechanical and Electrical Installation 2. The maximum output current is 200mA. 1. Connect to 24V by default, J14 jumper on main control board to select +24V or COM External connection. power OPEN 2. When external power is used to drive...
- Page 36 Mechanical and Electrical Installation VD500 Series Inverter User Manual output current output, decided by jumper J4, default terminal 2 0V~10V voltage output 1. Optical coupling isolation, dual polarity open collector output; Digital DO1-COM 2. Pull-up voltage range: 5V~24V (pull-up output 1 resistance range: 0.48kΩ~10kΩ);...
- Page 37 VD500 Series Inverter User Manual Mechanical and Electrical Installation When jump cap plug connect to V, AO2 terminal select DC0V-10V V terminal voltage signal output When jump cap plug connect to A, AI2 terminal select A terminal DC0/4mA-20mA current signal output...
- Page 38 Mechanical and Electrical Installation VD500 Series Inverter User Manual Fig 3.7-3 Schematic diagram of digital input terminal with external power connection Use external power(power must comply with UL CLASS 2 standard, a 4A fuse protector should be added between power and 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...
- Page 39 VD500 Series Inverter User Manual Mechanical and Electrical Installation 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 Fig 3.7-7 Schematic diagram of digital output terminal using internal power supply +24V 4.7kΩ...
- Page 40 Mechanical and Electrical Installation VD500 Series Inverter User Manual Fig 3.7-9 Schematic diagram of digital output terminal using external power Fig 3.7-10 Schematic diagram of high speed pulse output using external power HDO1 Fig 3.7-10 as high speed pulse terminals(F6-00 set to 0)...
- Page 41 VD500 Series Inverter User Manual Mechanical and Electrical Installation Fig 3.7-12 Schematic diagram of terminal of analog output of current signal 3.7.5.6 Output Terminals of Relay A use internal DC24V power B use external AC220V power Fig 3.7-13 Schematic diagram of relay output terminal...
-
Page 42: Chapter 4 Operation And Display
Operation and Display VD500 Series Inverter User Manual Chapter 4 Operation and Display 4.1 Introduction to Operation and Display Interface With the operation panel, it can perform such operations on the inverter as function parameter modification, inverter working status monitoring and inverter run control (startup and stop). - Page 43 VD500 Series Inverter User Manual Operation and Display This key is used to operate on the inverter in key Run key operation mode This key is used to stop in running state and it is limited Stop/Reset key by function code F7-01...
-
Page 44: Motor Parameter Self-Learning
Select vector control mode, before inverter operation, must input the parameter from the nameplate of the motor, VD500 series inverter will match standard motor parameter according to this message. Vector control mode is highly dependent on motor parameter, so to acquire good control performance, it needs correct motor parameter. -
Page 45: Password Setting
After self-learning, the function code recover to 0. 4.3 Password Setting The VD500 series inverter provides user password protection function. When FF-00 is set to non-zero value, it indicates the user password, and the password protection turns enabled after exiting the function code editing status. -
Page 46: Chapter 5 Function Parameter Table
Function Parameter Table VD500 Series Inverter User Manual Chapter 5 Function Parameter Table The symbols in the function table are described as follows: ○——It indicates that the parameter setup value can be modified when the inverter is in run state;... - Page 47 VD500 Series Inverter User Manual Function Parameter Table Auxiliary Same as F0-02 (Main Frequency Frequency ◎ F0-04 Source A Selection) Source A Selection Unit’s digit: frequency source selection 0: Main frequency source A 1: Main auxiliary operation result(operational relationship is...
- Page 48 Function Parameter Table VD500 Series Inverter User Manual Frequency Upper ○ F0-13 0.00Hz~max frequency F0-10 0.00Hz Limit Offset Frequency Lower ○ F0-14 0.00Hz~frequency upper limit F0-12 0.00Hz Limit Frequency ● F0-15 Command 2: 0.01Hz Resolution Frequency Command 0: Running frequency ◎...
- Page 49 VD500 Series Inverter User Manual Function Parameter Table Thousand’s digit: Automatic operation command binding frequency source selection, same as above Communication ● F0-23 0: Modbus Protocol Selection 0: Motor 1 ◎ F0-24 Motor Selection 1: Motor 2 1: G type (constant torque load model) ◎...
- Page 50 Function Parameter Table VD500 Series Inverter User Manual Stop DC Braking ○ F1-11 0%~100% Current Stop DC Braking ○ F1-12 0.0s~100.0s 0.0s Time ○ F1-13 Stop Frequency 0.00Hz~max frequency 0.50 Stop Frequency ○ F1-14 0.0s~60.0s 0.0s Holding Time Restart Selection 0: Enabled ○...
- Page 51 VD500 Series Inverter User Manual Function Parameter Table 0: Straight-line acceleration/deceleration Acceleration/Decel ◎ F1-27 eration Mode 1: S curve acceleration/deceleration A 2: S curve acceleration/deceleration B Time Ratio of S ◎ F1-28 Curve Start 30.0% 0.0%~(100.0%-F1-26) Segment Time Ratio of S ◎...
- Page 52 Function Parameter Table VD500 Series Inverter User Manual 0.01mH ~655.35mH (Inverter Asynchronous Tune power≤55kW) Motor Leakage ◎ paramete F2-08 Inductive 0.001mH ~65.535mH (Inverter Reactance power>55kW) 0.1mH~6553.5mH (Inverter Asynchronous Tune power≤55kW) Motor Mutual ◎ F2-09 paramete Inductive 0.01mH ~655.35mH (Inverter Reactance power>55kW)
- Page 53 VD500 Series Inverter User Manual Function Parameter Table Speed Loop ○ F3-04 0.01s~10.00s 1.00s Integral Time 2 Switch Frequency ○ F3-05 F3-02~max frequency 10.00Hz Vector Control Slip ○ F3-06 20%~200% 100% Gain Speed Loop Filter ○ F3-07 0.000s~0.100s 0.000s Time Constant...
- Page 54 Function Parameter Table VD500 Series Inverter User Manual Speed Loop 0: Disabled Integral ○ F3-17 Separation 1: Enabled Enable Max Weak ○ F3-20 1%~300% Magnetic Current Weak Magnetic ○ F3-21 Automatic Gain 10%~500% 100% Adjustment Weak Magnetic ○ F3-22 2~10...
- Page 55 VD500 Series Inverter User Manual Function Parameter Table Boost Cutoff Frequency MS VF Frequency ◎ F4-04 0.00Hz~F4-05 0.00Hz Point 1 MS VF Voltage ◎ F4-05 0.0%~100.0% 0.0% Point 1 MS VF Frequency ◎ F4-06 F4-04~F4-07 0.00Hz Point 2 MS VF Voltage ◎...
- Page 56 Function Parameter Table VD500 Series Inverter User Manual Voltage Fall Time Remark: Indication the time that rated motor voltage drop to 0V F5 Input Terminal Factory Function Parameter Name Setting Range Default Property Code Value 0: Two-line mode 1 1: Two-line mode 2...
- Page 57 VD500 Series Inverter User Manual Function Parameter Table 25: Control command switch terminal 26: Immediate DC braking 27: Deceleration DC braking 28: External stop terminal 1 (Only effective for keypad control) 29: External stop terminal 2 (According to the deceleration time 4)
- Page 58 Function Parameter Table VD500 Series Inverter User Manual Selection 2 0: High level effective Effectively 1: Low level effective Ten’s digit: DI7, same as above Hundred’s digit: DI8, same as above Thousand’s digit: DI9, same as above ○ F5-12 DI Filter Time 0.000s~1.000s...
- Page 59 VD500 Series Inverter User Manual Function Parameter Table AI Curve 1 Max ○ F5-24 F5-22~+10.00V 10.00V Input Corresponding ○ F5-25 Setting of AI Curve -100.0%~+100.0% 100.0% 1 Max Input ○ F5-26 AI 1 Filter Time 0.00s~10.00s 0.10s AI Curve 2 Min ○...
- Page 60 Function Parameter Table VD500 Series Inverter User Manual HDO1 Terminals 0: HS Pulse output ○ Output Mode F6-00 1: Switch signal output Selection HDO1 Terminals 0: No output ○ F6-01 Output Function 1: Inverter in running Mode Selection 2: Ready for run...
- Page 61 VD500 Series Inverter User Manual Function Parameter Table 34: Frequency limit 35: Torque limit 36: Reverse running 37: AI1 input limit 38: AI1>AI2 39: Communication setting 40: Reserved 41: Timing braking (power on braking) 42: Inverter in running (jog no output) Unit’s digit: HDO1...
- Page 62 Function Parameter Table VD500 Series Inverter User Manual when>55kW, 100.0% corresponding 1000.00A) 15: Output voltage (100.0% corresponding 1000.00A) 16: Encoder feedback frequency HDO1 Output Max ○ F6-15 0.01kHz~100.00kHz 50.00kHz Frequency AO1 Output ○ F6-16 Voltage Lower 0.00V~10.00V 0.00V Limit Corresponding Setting Value of ○...
- Page 63 VD500 Series Inverter User Manual Function Parameter Table T2 Disconnect ○ F6-30 0.0s~3600.0s 0.0s Delay DO1 Disconnect ○ F6-31 0.0s~3600.0s 0.0s Delay DO5 Disconnect ○ F6-32 0.0s~3600.0s 0.0s Delay F7 AIAO Keyboard and Display Factory Function Parameter Name Setting Range...
- Page 64 Function Parameter Table VD500 Series Inverter User Manual Bit02: PULSE input frequency (kHz) Bit03: Running frequency 2 (Hz) Bit04: Set torque (0.%) Bit05: Voltage before AI1 correction (V) Bit06: Voltage before AI2 correction (V) Bit07: Voltage before AI3 correction (V)...
- Page 65 VD500 Series Inverter User Manual Function Parameter Table Places 2: 2 bit decimal place 3: 3 bit decimal place F8 Protection Parameters Factory Function Default Parameter Name Setting Range Property Code Value Motor 1 Overload 0: Disabled ○ F8-00 Protection...
- Page 66 Function Parameter Table VD500 Series Inverter User Manual Input Phase Loss 0: Disabled ○ Protection F8-15 1: Enabled Selection Output Phase Loss 0: Disabled ◎ F8-16 Protection 1: Enabled Selection 0: Invalid Offload Protection ○ F8-17 Selection 1: Valid Offload Detection ○...
- Page 67 VD500 Series Inverter User Manual Function Parameter Table V/F Overvoltage 1~30000 Stall F9 Fault Record and Setting Factory Function Parameter Name Setting Range Default Property Code Value Fault Types for the 0: No fault ● F9-00 First Time 1: Acceleration over current...
- Page 68 Function Parameter Table VD500 Series Inverter User Manual 36: User-defined fault 2 37: Offload 38: Fast current-limiting timeout 39: Switch motor in running 40: Speed deviation is too larg 41: Motor overspeed 42: Reserved 43: Manufacturer defined fault Frequency Upon ●...
- Page 69 VD500 Series Inverter User Manual Function Parameter Table Output Terminal ● State Upon the F9-17 Second Time Fault Inverter State ● F9-18 Upon the Second Time Fault Power on Time ● F9-19 Upon the Second Time Fault Running Time ●...
- Page 70 Function Parameter Table VD500 Series Inverter User Manual 1: Stop according to stop mode 2: Continue 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...
- Page 71 VD500 Series Inverter User Manual Function Parameter Table 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 run Hundred’s digit: power on time...
- Page 72 Function Parameter Table VD500 Series Inverter User Manual Code Default Value 0: FA-01 setting 1: AI1 2: AI2 3: AI3 (expansion card) ○ FA-00 PID Given Source 4: PULSE setting 5: Communication setting 6: Multi-reference setting 7: Keypad potentiometer ○...
- Page 73 VD500 Series Inverter User Manual Function Parameter Table ○ FA-16 Integral Time Ti1 0.01s~10.00s 2.00s Differential Time ○ FA-17 0.000s~10.000s 0.000s 0: No switching PID Parameters 1: Switching through DI terminal ○ FA-18 Switching 2: Automatic switching according to Condition...
- Page 74 Function Parameter Table VD500 Series Inverter User Manual Fb Enhance Function Group Factory Function Parameter Name Setting Range Default Property Code Value Jog Running ○ Fb-00 0.00Hz~max frequency 5.00Hz Frequency Model Jog Acceleration ○ Fb-01 0.0s~6500.0s depende Time Model Jog Deceleration ○...
- Page 75 VD500 Series Inverter User Manual Function Parameter Table Hopping ○ Fb-14 0.01Hz~max frequency 0.01Hz Frequency Range Hopping Frequency 0: Disabled Whether Valid in ○ Fb-15 the Process of 1: Enabled Acceleration/decel eration Frequency ○ Fb-16 Detection Value 0.00Hz~max frequency 50.00Hz...
- Page 76 Function Parameter Table VD500 Series Inverter User Manual Output Current Limit Exceed ○ Fb-28 0.00s~600.00s 0.00s Detection Delay Time Any Current ○ Fb-29 0.0%~300.0% (rated motor current) 100.0% Reaching 1 Any Current ○ Fb-30 Reaching 1 0.0%~300.0% (rated motor current) 0.0%...
- Page 77 VD500 Series Inverter User Manual Function Parameter Table Dormancy ○ Fb-44 0.00Hz~wakeup frequency (Fb-42) 0.00Hz Frequency Dormancy Delay ○ Fb-45 0.0s~6500.0s 0.0s Time Timing Braking ○ Fb-48 0.00Hz~50.00Hz 1.50Hz Frequency Timing Braking ○ Fb-49 0.0s~60.0s 2.0s Time 0: Disabled Terminal Jog ○...
- Page 78 Function Parameter Table VD500 Series Inverter User Manual ○ FC-06 Multi-reference 6 -100.0%~100.0% 0.0% ○ FC-07 Multi-reference 7 -100.0%~100.0% 0.0% ○ FC-08 Multi-reference 8 -100.0%~100.0% 0.0% ○ FC-09 Multi-reference 9 -100.0%~100.0% 0.0% ○ FC-10 Multi-reference 10 -100.0%~100.0% 0.0% ○ FC-11 Multi-reference 11 -100.0%~100.0%...
- Page 79 VD500 Series Inverter User Manual Function Parameter Table Acceleration / Deceleration Time ○ FC-23 Selection of Simple PLC Reference 2 Run Time of ○ FC-24 Simple PLC 0.0s (h)~6553.5s (h) 0.0s (h) Reference 3 Acceleration / Deceleration Time ○ FC-25...
- Page 80 Function Parameter Table VD500 Series Inverter User Manual Acceleration / Deceleration Time ○ FC-35 Selection of Simple PLC Reference 8 Run Time of ○ FC-36 Simple PLC 0.0s (h)~6553.5s (h) 0.0s (h) Reference 9 Acceleration/Decel eration Time ○ FC-37 Selection of...
- Page 81 VD500 Series Inverter User Manual Function Parameter Table Acceleration/Decel eration Time ○ FC-47 Selection of Simple PLC Reference 14 Run Time of ○ FC-48 Simple PLC 0.0s (h)~6553.5s (h) 0.0s (h) Reference 15 Acceleration / Deceleration Time ○ FC-49 Selection of...
- Page 82 Function Parameter Table VD500 Series Inverter User Manual 0: No verify(8-N-2) 1: Even verify(8-E-1) ○ Fd-01 Data Format 2: Odd verify(8-O-1) 3: 8-N-1 ○ Fd-02 Local Address 0~247, 0 is broadcast address ○ Fd-03 Response Delay 0ms~200ms Communication ○ Fd-04 0.0 (disabled), 0.1s~60.0s...
- Page 83 VD500 Series Inverter User Manual Function Parameter Table Factory ● FF-06 Product Code 0~65535 Setting Software Factory ● FF-07 1.00~10.00 Versioning Setting Factory ● FF-08 Inverter Model Setting Date of Production Factory ● FF-09 0~9999 (Year/Month) Setting Date of Production Factory ●...
- Page 84 Function Parameter Table VD500 Series Inverter User Manual 7: MAX (AI1, AI2) 8: Keypad Potentiometer (the full scale of option 1~7 corresponding digital setting of A0-02) Torque Digital Setting under the ○ A0-02 -200.0%~2000% 100.0% Torque Control Mode 0: Digital setting (A0-04)
- Page 85 VD500 Series Inverter User Manual Function Parameter Table Torque Compensation Frequency Upper Limit High Frequency Torque ○ A0-13 0.0%~50.0% 3.0% Compensation Amount High Frequency Torque ○ A0-14 Compensation 0.00Hz~Max frequency 25.00Hz Frequency Upper Limit 0: Internal frequency Rotational Inertia ◎...
- Page 86 Function Parameter Table VD500 Series Inverter User Manual DPWM Switching ○ Frequency Upper A1-02 0.00Hz~15.00Hz 12.00Hz Limit LED unit’s digit: 0: Asynchronous modulation 1: Synchronous modulation PWM Modulation ◎ A1-03 0x00 LED ten’s digit: Mode 0: Two phase and three phase...
- Page 87 VD500 Series Inverter User Manual Function Parameter Table Value 0: Common Asynchronous motor Motor Type ◎ A2-00 1: Frequency conversion Selection asynchronous motor Model Rated Motor ◎ A2-01 0.1Kw~1000.0kW depende Power Model Rated Motor ◎ A2-02 1V~2000V depende Voltage 0.01A~655.35A (Inverter...
- Page 88 Function Parameter Table VD500 Series Inverter User Manual Value Speed Loop ○ A3-00 1~100 Proportion Gain 1 Speed Loop ○ A3-01 0.01s~10.00s 0.50s Integral Time 1 Switching ○ A3-02 0.00Hz~A6-05 5.00Hz Frequency 1 Speed Loop ○ A3-03 1~100 Proportion Gain 2 Speed Loop ○...
- Page 89 VD500 Series Inverter User Manual Function Parameter Table Property 0: Disabled 1: Enabled Max Weak ○ A3-20 1%~300% Magnetic Current Weak Magnetic ○ A3-21 Automatic 10%~500% 100% Adjustment Gain Weak Magnetic ○ A3-22 2~10 Integral Multiple Torque Boost ○ A3-23 0.0%~60.0%...
- Page 90 Function Parameter Table VD500 Series Inverter User Manual Frequency MS VF Frequency ◎ A4-04 0.00Hz~F4-05 0.00Hz Point 1 MS VF Voltage ◎ A4-05 0.0%~100.0% 0.0% Point 1 MS VF Frequency ◎ A4-06 F4-04~F4-07 0.00Hz Point 2 MS VF Voltage ◎...
- Page 91 VD500 Series Inverter User Manual Function Parameter Table Factory Function Default Parameter Name Setting Range Property Code Value ○ b0-00 User Code 0 F0-00 ○ b0-01 User Code 1 F0-01 ○ b0-02 User Code 2 F0-02 ○ b0-03 User Code 3 F0-09 ○...
- Page 92 Function Parameter Table VD500 Series Inverter User Manual ○ b0-29 User Code 29 FF-06 ○ b0-30 User Code 30 FF-06 ○ b0-31 User Code 31 FF-06 b1 Virtual IO Factory Function Parameter Name Setting Range Default Property Code Value Virtual VDI1 ◎...
- Page 93 VD500 Series Inverter User Manual Function Parameter Table same as above Function Selection ◎ b1-07 when AI1 Terminal 0~59 as DI Function Selection ◎ b1-08 when AI2 Terminal 0~59 as DI Unit’s digit: AI1 0: High electrical level enable Effective Mode ◎...
- Page 94 Function Parameter Table VD500 Series Inverter User Manual above Ten thousand’s digit: VDO5, same as above VDO1 ○ b1-22 Disconnection 0.0s~3600.0s 0.0s Delay VDO2 ○ b1-23 Disconnection 0.0s~3600.0s 0.0s Delay VDO3 ○ b1-24 Disconnection 0.0s~3600.0s 0.0s Delay VDO4 ○ b1-25 Disconnection 0.0s~3600.0s...
- Page 95 VD500 Series Inverter User Manual Function Parameter Table 4 Max Input AI Curve 5 Min ○ b2-08 -10.00V~b2-10 -10.00V Input Corresponding ○ b2-09 Setting of AI Curve -100.0%~+100.0% -100.0% 5 Min Input AI Curve 5 ○ b2-10 Inflection Point 1 b2-08~b2-12 -3.00V...
- Page 96 Function Parameter Table VD500 Series Inverter User Manual Factory AI1 Displayed ○ Correctio b3-03 6.000V~9.999V Voltage 2 Factory AI2 Measured ○ b3-04 0.500V~4.000V Correctio Voltage 1 Factory AI2 Displayed ○ b3-05 0.500V~4.000V Correctio Voltage 1 Factory AI2 Measured ○ b3-06 6.000V~9.999V...
- Page 97 VD500 Series Inverter User Manual Function Parameter Table Factory AO2 Measured ○ b3-19 6.000V~9.999V Correctio Voltage 2 U0 Basic Monitoring Parameters Factory Function Parameter Name Setting Range Default Property Code Value Running ● U0-00 0.01Hz Frequency (Hz) Set Frequency ●...
- Page 98 Function Parameter Table VD500 Series Inverter User Manual Correction AI3 Voltage before ● U0-23 Correction ● U0-24 Line Speed 1m/Min Current Power on ● U0-25 1Min Time Current Running ● U0-26 0.1Min Time Input PULSE ● U0-27 Frequency Communication ●...
- Page 99 VD500 Series Inverter User Manual Function Parameter Table (Function 41~80) ● U0-45 Current Fault State Torque ● U0-46 Compensation 0.1% Amount - 95 -...
-
Page 100: Chapter 6 Parameter Description
Parameter Description VD500 Series Inverter User Manual Chapter 6 Parameter Description F0 Basic Function Led unit’s digit: motor 1 0: V/F control 1: SVC 2: FVC ◎ F0-00 Motor Control Mode 0x00 Led ten’s digit: motor 2 0: V/F control... - Page 101 VD500 Series Inverter User Manual Parameter Description communication card with communication card, the appendix of this manual contains brief description of communication card. 0: Digital setting(F0-09, UP/DOWN can be modified, no memory when power failure) 1: Digital setting(F0-09, UP/DOWN can be...
- Page 102 Parameter Description VD500 Series Inverter User Manual Pulse can only be given from multi-function input terminal HDI1 input. HDI1 terminal input pulse frequency and the corresponding set of relations, through the F5-37~F5-40 setting, the corresponding relations of 2 points of straight line, the corresponding set of input pulses 100.0%, is refers to the relative maximum frequency F0-10 percentage.
- Page 103 VD500 Series Inverter User Manual Parameter Description Tip: auxiliary frequency source selection B and main frequency source A selection, can’t be set to the same channel, namely F0-02 and F0-04 can’t set to the same value, otherwise easy to cause confusion.
- Page 104 Parameter Description VD500 Series Inverter User Manual Take the maximum absolute of main frequency A and auxiliary frequency B as the target frequency. 3: Min (main frequency source A, auxiliary frequency source B) Take the minimum absolute of main frequency A and auxiliary frequency B as the target frequency.
- Page 105 VD500 Series Inverter User Manual Parameter Description For example at the scene of the winding control using torque control mode, in order to avoid material break appear “galloping” phenomenon, can use analog set the frequency upper limit, when inverter running to the frequency upper limit value, the frequency inverter in frequency upper limit running.
- Page 106 Parameter Description VD500 Series Inverter User Manual Acceleration time refers to the time required that frequency inverter from zero frequency acceleration to acceleration/deceleration reference frequency (F0-21), as show in figure 6-1 in the t1. Deceleration time refers to the time required that frequency inverter from deceleration/deceleration reference frequency (F0-21) deceleration to zero frequency, as show in figure 6-1 in the t2.
- Page 107 VD500 Series Inverter User Manual Parameter Description 5: PULSE setting 6: MS reference 7: Simple PLC 8: PID 9: Communication setting Ten’s digit: terminal command binding frequency source selection, same as above Hundred’s digit: communication command binding frequency source selection, same as above Thousand’s digit: Automatic operation...
-
Page 108: F1 Start/Stop Control Group
Parameter Description VD500 Series Inverter User Manual F1 Start/Stop Control Group 0: Direct start ○ F1-00 Start Mode 1: Speed tracking restart 2: Pre excitation start (AC asynchronous ) 0: Direct start If start dc braking time is set to 0, the frequency inverter starting run from start frequency. - Page 109 VD500 Series Inverter User Manual Parameter Description Starting DC Braking ◎ F1-03 Current/ Pre-excitation 0%~100% Current Starting DC Braking ◎ F1-04 Current/ Pre-excitation 0.0s~100.0s 0.0s Current Start the dc braking, generally used to make the running motor restart after stop. Pre excitation is used to make the asynchronous motor build magnetic field first then restart, improve the response speed.
- Page 110 Parameter Description VD500 Series Inverter User Manual Stop DC Braking ○ F1-11 0%~100% Current ○ F1-12 Stop DC Braking Time 0.0s~100.0s 0.0s Initial frequency of stop dc braking: in the process of deceleration, when reduce the running frequency to the frequency, began to dc braking process.
- Page 111 VD500 Series Inverter User Manual Parameter Description Enabled: when terminal run command has maintained, inverter will autostart after power on self-inspection normal and delay the time of F1-16. Disabled: when terminal run command has maintained, inverter will not autostart after power on self-inspection normal, only start when run command given again after disconnecting.
- Page 112 Parameter Description VD500 Series Inverter User Manual Output frequency(Hz) Forward Reverse Dead-zone time Fig 6-3 Schematic diagram of forward/reverse dead-zoen time 0: Disabled Dynamic Braking ○ F1-22 Enable 1: Enabled ○ F1-23 Braking Usage Rate 0%~100% 100% Only be effective for the inverter that built-in braking unit.
- Page 113 VD500 Series Inverter User Manual Parameter Description 1: S curve acceleration/deceleration A Output frequency increase or decrease according to the S curve. S curve is used in the pace with gentle start or stop demand, such as elevator, conveyor belt, etc. Function code F1-28 and F1-29 respectively defined the time scale of inertial stage and finish stage of S curve acceleration/deceleration.
- Page 114 Parameter Description VD500 Series Inverter User Manual Output frequency(Hz) Set frequency(f) Rated frequency(f Time(t) S curve acceleration/deceleration B diagram Fig 6-4 S curve acceleration/deceleration diagram Zero Frequency 0: Have voltage output ○ F1-30 Voltage Output 1: Non voltage output Selection When the parameter set to 1, the inverter will be output voltage in the zero frequency.
-
Page 115: F2 Motor 1 Parameter
VD500 Series Inverter User Manual Parameter Description F2 Motor 1 Parameter 0: Ordinary asynchronous motor ◎ F2-00 Motor Type Selection 1: Frequency conversion asynchronous motor Model ◎ F2-01 Rated Motor Power 0.1kW~1000.0kW dependent Model ◎ F2-02 Rated Motor Voltage 1V~2000V dependent 0.01A~655.35A (Inverter power≤55kW) - Page 116 Parameter Description VD500 Series Inverter User Manual If the site can’t tuned for asynchronous motor, can according to the parameters given by motor manufacturer, input the above corresponding function code. ◎ F2-17 Encoder Line Number 1~65535 2000 Set ABZ or UVW incremental encoder pulse per number.
- Page 117 VD500 Series Inverter User Manual Parameter Description parameters F2-00~F2-05. Asynchronous motor static tuning, inverter can obtain F2-06~F2-08 three parameters. Action description: set the function code to 1, and then press RUN key, inverter will conduct static tuning. 2: Asynchronous motor complete tuning In order to guarantee the dynamic control performance of the frequency inverter, please select complete tuning, the motor must disconnect with load, and to keep the motor for the idling condition.
-
Page 118: F3 Motor 1 Vector Control Parameter
Parameter Description VD500 Series Inverter User Manual F3 Motor 1 Vector Control Parameter 01~100 Speed Loop ○ F3-00 Proportional Gain 1 Speed Loop Integral ○ F3-01 0.01s~10.00s 0.50s Time 1 ○ F3-02 Switch Frequency 1 0.00~F3-05 5.00Hz Speed Loop ○... - Page 119 VD500 Series Inverter User Manual Parameter Description Speed Loop Filter Time ○ F3-07 0.000s~0.100s 0.000s Constant Under the vector control mode, the output of the speed loop controller for torque current instruction, the parameter is used for filtering for torque instruction. Generally do not need to adjust the parameters, it can be appropriately increase the filtering time when speed is volatile;...
- Page 120 Parameter Description VD500 Series Inverter User Manual Torque Adjustment ○ F3-16 0~60000 1300 Integral Gain Vector control current loop PI regulation parameter, the parameter will automatically receive after in the asynchronous motor complete tuning, generally do not need to be modified.
-
Page 121: F4 Motor 1 V/F Control Parameter
VD500 Series Inverter User Manual Parameter Description F4 Motor 1 V/F Control Parameter This function code is only effective for V/F control, is invalid for vector control. V/F control is suitable for general load such as fan, water pump, or one inverter with more motor, or inverter power and motor power different applications. - Page 122 Parameter Description VD500 Series Inverter User Manual than the set frequency, torque boost failure, see below instructions. Output voltage Output frequency V1: manual torque boost voltage Vb: max output voltage f1: manual torque boost cutoff frequency fb: rated running frequency Fig 6-6 Manual torque boost diagram ◎...
- Page 123 VD500 Series Inverter User Manual Parameter Description ◎ F4-10 VF Slip Compensation Gain 0.0%~200.0% 20.0% This parameter is only effective for asynchronous motor. V/F slip compensation gain: can compensate asynchronous motor caused motor speed deviation when the load increases, to make the speed of the motor can basically remained stable when the load changes.
- Page 124 Parameter Description VD500 Series Inverter User Manual 1: AI1, 2, AI2 Voltage by the analog inputs to determined. 4: PULSE setting (DI5) Voltage is given by the terminal pulse. Pulse given signal specifications: voltage range: 9V~30V, frequency range: 0kHz~100kHz. 5: MS instruction When voltage source for MS instruction, to set up the F5 and FC group parameters, to determine the corresponding relation of given signal and given voltage.
-
Page 125: F5 Input Terminal Group
VD500 Series Inverter User Manual Parameter Description F5 Input Terminal Group VD500 series inverter with six multi-function digital input terminals (including HDI1 can be used as a high speed pulse input terminal), two analog input terminals. 0: Two-line mode 1... - Page 126 Parameter Description VD500 Series Inverter User Manual Three-line control mode 1: In this mode, Dln is enabled terminal, and the direction is controlled by DIx, DIy respectively. Terminal function set as below. Terminal Set Value Description Running (FWD/REV) Three-line control mode 1 (1) When need to run, must be closed DIn terminals first, implemented by DIx or DIy pulse rising to realize the motor forward or reverse control;...
- Page 127 VD500 Series Inverter User Manual Parameter Description Alternative control mode: this mode Din as enabled terminal, run and the rotating direction and stop are separately controlled by Din DIy alternatively. Terminal function as below: Terminal Set Value Description Forward, stop...
- Page 128 Parameter Description VD500 Series Inverter User Manual Fig 6-14 Back and forth control mode DI1 Input Terminal ◎ F5-01 Function Selection DI2 Input Terminal ◎ F5-02 Function Selection DI3 Input Terminal ◎ F5-03 Function Selection DI4 Input Terminal ◎ F5-04...
- Page 129 VD500 Series Inverter User Manual Parameter Description Inverter block output, at present motor stop is not controlled by inverter. This method is the same as F1-08 described coast to Coast to stop stop. Inverter deceleration stop, but all run parameter is in memory state.
- Page 130 Parameter Description VD500 Series Inverter User Manual Acceleration/decel eration time selection terminal 2 PULSE frequency (Only effective for HDI1 as the function of the pulse input terminals. HDI1) Used to switch between the keypad control and terminal control. Control command...
- Page 131 VD500 Series Inverter User Manual Parameter Description Make inverter switching between torque control and speed Switching between control. When the terminal is invalid, the inverter running on the speed control and defined mode of A0-00 (speed/torque control mode); when the torque control terminal is valid, then switch to another mode.
- Page 132 Parameter Description VD500 Series Inverter User Manual Ten’s digit: DI7, same as above Hundred’s digit: DI8, same as above Thousand’s digit: DI9, same as above Used to set the valid state model 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.
- Page 133 VD500 Series Inverter User Manual Parameter Description Unit’s digit: AI1 is lower than min input setting selection 0: Corresponding to the min input set AI is Lower than Min 1: 0.0% ○ F5-21 0X000 Input Set Selection Ten’s digit: AI2 is lower than min input setting selection, same as above Hundred’s digit: AI3 is lower than min...
- Page 134 Parameter Description VD500 Series Inverter User Manual Setup frequency Setup frequency or torque or torque 100% 100% 0V/0mA 0V/0mA 10V/20mA 10V/20mA -100% Fig 6-15 Corresponding relationship between analog reference and setting ○ F5-27 AI Curve 2 Min Input -10.00V~F5-29 0.00V Corresponding Setting of ○...
- Page 135 VD500 Series Inverter User Manual Parameter Description The 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 application of the group is simlar to the curve 1, please refer to the instructions of curve 1.
-
Page 136: F6 Output Terminal Function Group
Parameter Description VD500 Series Inverter User Manual F6 Output Terminal Function Group 0: HS Pulse output HDO1 Terminals Output ○ F6-00 Mode Selection 1: Switch signal output HDO1 terminal is programmable multiplexing terminal. It can be used as high-speed pulse output terminal, it can also be used as collector open circuit output terminal. - Page 137 VD500 Series Inverter User Manual Parameter Description Frequency 1 Please refer to the instruction of function code Fb-21, Fb-22. reached output Frequency 2 Please refer to the instruction of function code Fb-23, Fb-24. reached output Zero speed running When frequency inverter is running and the output frequency is 1 (no output when 0, then output ON signal.
- Page 138 Parameter Description VD500 Series Inverter User Manual Accumulative When frequency inverter accumulative running time more than running time reached the setting time of Fb-35, output ON signal. Accumulative When frequency inverter accumulative power-on time more power-on time than the setting time of Fb-35, output ON signal.
- Page 139 VD500 Series Inverter User Manual Parameter Description ○ F6-07 HDO1 Closing Delay 0.0s~3600.0s 0.0s ○ F6-08 T1 Closing Delay 0.0s~3600.0s 0.0s ○ F6-09 T2 Closing Delay 0.0s~3600.0s 0.0s ○ F6-10 DO1 Closing Delay 0.0s~3600.0s 0.0s ○ F6-11 DO5 Closing Delay 0.0s~3600.0s...
- Page 140 Parameter Description VD500 Series Inverter User Manual Output voltage 0.0V~1000.0V Encoder feedback 0~100.00kHz frequency HDO1 Output Max ○ F6-15 0.01kHz~100.00kHz 50.00kHz Frequency When selecting HDO1 terminals as pulse output, the function code is used to select the maximum frequency value of the output pulse.
-
Page 141: F7 Keyboard And Display Function Group
VD500 Series Inverter User Manual Parameter Description F7 Keyboard and Display Function Group 0: Invalid 1: Operation panel command channel switching with remote command channel (terminal command channel or JOG / REV Key Function communication command channel) ◎ F7-00 Selection... - Page 142 Parameter Description VD500 Series Inverter User Manual Bit09: AI1 voltage (V) Bit10: AI2 voltage (V) Bit11: AI3 (expansion card) (V) Bit12: Count value Bit13: Length value Bit14: Load speed display BIT15: PID setting 0000~0xFFFF Bit00: PID feedback Bit01: PLC stage Bit02: PULSE input frequency (kHz)...
- Page 143 VD500 Series Inverter User Manual Parameter Description AI3 voltage before DI input state 0x0080 0x0080 correction (V) DO output state 0x0100 Linear velocity 0x0100 Current power on time AI1 voltage (V) 0x0200 0x0200 (Hour) Current running time AI2 voltage (V)
- Page 144 Parameter Description VD500 Series Inverter User Manual Bus voltage (V on) 0x0002 Input terminal state 0x0004 Output terminal state 0x0008 PID given value (% flash) 0x0010 PID feedback value (% on) 0x0020 Torque set value (% on) 0x0040 Analog AI1 value (V on)
-
Page 145: F8 Protection Parameters
VD500 Series Inverter User Manual Parameter Description F8 Protection Parameters 0: Disabled Motor 1 Overload ○ F8-00 Protection Selection 1 : Enabled Motor 1 Overload ○ F8-01 0.20~10.00 1.00 Protection Gain F8-00=1: no motor overload protection function, there may be a motor overheating damage risk, suggest adding thermal relay between inverter and motor. - Page 146 Parameter Description VD500 Series Inverter User Manual response is slow. For large inertia load, this value should be larger, otherwise the supppression effect is not good, may apppear overvoltage fault. When overvoltage stall gain is set to 0, cancel the function of overvoltage stall.
- Page 147 VD500 Series Inverter User Manual Parameter Description Overspeed Detection ○ F8-20 0.0%~50.0% (max frequency) 20.0% Value (FVC) 0.0: No detection Overspeed Detection ○ F8-21 0.0s Time (FVC) 0.1s~60.0s This function is valid only when frequency converter is running in a speed sensor vector control.
- Page 148 Parameter Description VD500 Series Inverter User Manual Instantaneous power voltage Instantaneous pick up judgment time power failure F8-26 judgment voltage Bus voltage F8-25 Instantaneous power failure action judgment voltage F8-27 Running frequency (F8-24=1:deceleration) Time Running frequency Deceleration time 1 Acceleration time 1 (F8-24=2:Decelerate to Stop time)...
-
Page 149: F9 Fault Record And Setting Parameter Group
VD500 Series Inverter User Manual Parameter Description F9 Fault Record and Setting Parameter Group Fault Types for the First ● F9-00 Time Fault Types for the ● F9-01 0~43 Second Time Fault Types for the Third ● F9-02 Time (Last Time) Record recently three failure types of inverter, 0 is no fault. - Page 150 Parameter Description VD500 Series Inverter User Manual Inverter State Upon the ● F9-18 Second Time Fault Power on Time Upon the ● F9-19 Second Time Fault Running Time Upon the ● F9-20 Second Time Fault Frequency Upon the First ●...
- Page 151 VD500 Series Inverter User Manual Parameter Description 0: Coast to stop 1: Stop according to stop mode 2: Continue to run Ten thousand’s digit: communication abnormal (18) 0: Coast to stop 1: Stop according to stop mode 2: Continue to run Unit’s digit: encoder / PG card abnormal...
- Page 152 Parameter Description VD500 Series Inverter User Manual 2: Continue to run Thousand’s digit: offload (37) 0: Coast to stop 1: Stop according to stop mode 2: Decelerate to 7% of the rated motor frequency continue running, automatically restored to the set frequency operation when no offload Ten thousand’s digit: PID feedback lost...
-
Page 153: Fa Process Pid Parameter Group
VD500 Series Inverter User Manual Parameter Description FA Process PID Parameter Group Process PID closed-loop control is the control mode in the control system using proportion (P), integral (I) and differential (D) controller of three parts, make the diviation between the feedback value and the instruction valueis gradually reduced, suitable for the flow rate, pressure, temperature and other process control. - Page 154 Parameter Description VD500 Series Inverter User Manual The feedback quantity of process PID is also relative value, setting range is 0.0% ~ 100.0%. 0: Positive action ○ FA-03 PID Action Direction 1: Anti-action Positive action: when the feedback signal of PID is less than the quantitative, the output frequency of inverter is increased.
- Page 155 VD500 Series Inverter User Manual Parameter Description In PID controller, the effect of differential is more sensitive, easy to cause system oscillation, therefore, generally limit the effect of differential PID in a smaller range, FA - 10 is used to set the PID differential output range.
- Page 156 Parameter Description VD500 Series Inverter User Manual Fig 6-18 Schematic diagram for PID parameters automatically switchover ○ FA-21 PID Initial Value 0.0%~100.0% 0.0% PID Initial Value Hold ○ FA-22 0.00s~650.00s 0.00s Time When the frequency converter starts up, the PID output is fixed to the PID initial FA-21, continuous PID initial value after holding time FA-22, PID to start the closed-loop adjustment operation.
- Page 157 VD500 Series Inverter User Manual Parameter Description Whether to stop the integral after output to the limit After the PID operation output reached the maximum or minimum value, can selection whether to stop the integral action. If selection for stop integral, then the PID integral stop calculation, which may help to reduce the overshoot amount of PID.
-
Page 158: Fb Enhance Function Group
Parameter Description VD500 Series Inverter User Manual Fb Enhance Function Group ○ Fb-00 Jog Running Frequency 0.00Hz~max frequency 5.00Hz ○ Fb-01 Jog Acceleration Time 0.0s~6500.0s Model dependent ○ Fb-02 Jog Deceleration Time 0.0s~6500.0s Model dependent Definition the given frequency and acceleration/deceleration time of frequency converter in jog. - Page 159 VD500 Series Inverter User Manual Parameter Description Set frequency Fb-10 Fb-11 Time(t) Deceleration Acceleration time 2 time 2 Acceleration Acceleration time 1 time 2 Fig 6-20 Schematic diagram of acceleration/deceleration time switching ○ Fb-12 Hopping Frequency 1 0.00Hz~max frequency 0.00Hz ○...
- Page 160 Parameter Description VD500 Series Inverter User Manual acceleration and deceleration. Output frequency(Hz) Hopping Hopping frequency range frequency 2 Hopping frequency range Hopping frequency range Hopping Hopping frequency range frequency 2 Time(t) Fig 6-22 Effective schematic diagram of hopping frequency in the process of acceleration and deceleration Frequency Detection ○...
- Page 161 VD500 Series Inverter User Manual Parameter Description Frequency Reached ○ Fb-20 0.0%~100.0% (max frequency) 0.0% Detection Amplitude The running frequency of the inverter, in a certain range of target frequency, inverter multi-function DO output ON signal. This parameter is used to set the detection range of frequency reached, which is relative to the percentage of the maximum frequency.
- Page 162 Parameter Description VD500 Series Inverter User Manual Running frequency Frequency Any frequency detection range Frequency reaching detection range Time(t) Any frequency reaching detection DO or relay Fig 6-25 Schematic diagram of any frequency reaching detection 0.0%~300.0% Zero Current Detection ○...
- Page 163 VD500 Series Inverter User Manual Parameter Description When the output current of the inverter is greater than or limit exceed detection point, and the duration is more than the software overcurrent point detection delay time, inverter multi-function DO output ON signal, the following figure is the output current limit exceed function diagram.
- Page 164 Parameter Description VD500 Series Inverter User Manual Accumulative Power-on ○ Fb-34 0h~65535h time Reached Used to set the inverter power on time. When the accumulative power on time (FF-15) reached the setting accumulative power on time, frequency converter multi-function digital DO output ON signal.
- Page 165 VD500 Series Inverter User Manual Parameter Description This set of parameters are used to realize the dormancy and wakeup function in water supply applications. In the running process of frequency converter, when setting frequency less than or equal to Fb-44 dormancy frequency, after Fb-45 delay time, frequency converter to enter a dormant state, and automatically stop.
- Page 166 Parameter Description VD500 Series Inverter User Manual 1: Relative maximum frequency (F0-10), as the swing system, swing fixed. Swing Frequency ○ Fb-52 0.0%~100.0% 0.0% Amplitude Jumping Frequency ○ Fb-53 0.0%~50.0% 0.0% Amplitude Through this parameter to determine the value of the amplitude and jumping frequency.
- Page 167 VD500 Series Inverter User Manual Parameter Description Number of Pulse per ○ Fb-58 0.1~6553.5 100.0 Meter The above function code is used to fixed-length control. Length information need to be cpllect by the multi-function digital input terminals, terminal sampling pulse number and the number of pulses per meter Fb-58 division, can calculate the actual length Fb-57.
- Page 168 Parameter Description VD500 Series Inverter User Manual FC Multi-reference and Simple PLC Parameters Group ○ FC-00 Multi-reference 0 -100.0%~100.0% 0.0% ○ FC-01 Multi-reference 1 -100.0%~100.0% 0.0% ○ FC-02 Multi-reference 2 -100.0%~100.0% 0.0% ○ FC-03 Multi-reference 3 -100.0%~100.0% 0.0% ○ FC-04 Multi-reference 4 -100.0%~100.0%...
- Page 169 VD500 Series Inverter User Manual Parameter Description Fig 6-32 Multistage speed operation schematic diagram Schedule 2 is function instruction of multi-reference. Four multi-reference terminals, can be combined into 16 kinds of state, these 16 states corresponding to16 instruction set value. As shown in table 1.
- Page 170 Parameter Description VD500 Series Inverter User Manual When the frequency source is selected for MS speed, 100.0% of function code FC-00~ FC-15, corresponding to the maximum frequency F0-10. Multi-reference in addition to as a multistage speed function, also can be a given source of PID, or as a voltage source of V/F separation control etc., to meet the demand of the need of switching between...
- Page 171 VD500 Series Inverter User Manual Parameter Description Unit’s digit: power failure retentive selection 0: Non-retentive at power failure Simple PLC Power 1: Retentive at power failure ○ FC-17 Failure Retentive 0x00 Selection Ten’s digit: stop retentive selection 0: Non-retentive at stop...
- Page 172 Parameter Description VD500 Series Inverter User Manual Acceleration / Deceleration Time ○ FC-29 Selection of Simple PLC Reference 5 Run Time of Simple PLC ○ FC-30 0.0s (h)~6553.5s (h) 0.0s (h) Reference 6 Acceleration / Deceleration Time ○ FC-31 Selection of Simple PLC...
-
Page 173: Fd Communication Parameter Group
VD500 Series Inverter User Manual Parameter Description Run Time of Simple PLC ○ FC-44 0.0s (h)~6553.5s (h) 0.0s (h) Reference 13 Acceleration / Deceleration Time ○ FC-45 Selection of Simple PLC Reference 13 Run Time of Simple PLC ○ FC-46 0.0s (h)~6553.5s (h) -
Page 174: Ff User Parameters Group
Parameter Description VD500 Series Inverter User Manual FF User Parameters Group ○ FF-00 User Password 0:~65535 FF-00 set any non-zero number, and then the password protection function will be enabled. When enter the menu next time, must input password correctly, otherwise can’t view and modify the function parameters, please keep in mind that the user password is set. - Page 175 VD500 Series Inverter User Manual Parameter Description Unit’s digit: user custom parameter group display selection 0: Not display 1: Display ○ FF-05 Fast Debugging Setting 0x10 Ten’s digit: user change parameter group display selection 0: Not display 1: Display When F7-00 selection for 5 (fast debugging) function, to set open or close the JOG/REV key by FF-05 can switch of three kinds of parameters display.
-
Page 176: Fp Factory Parameter Group
Parameter Description VD500 Series Inverter User Manual Date of Production Factory ● FF-10 0~31 (Date) Setting Product information. Inverter Module Radiator ● FF-11 0°C~120°C Temperature Inverter module temperature. Accumulative Power ● FF-12 0~65535h Time (time lock) Inverter accumulative power time. -
Page 177: A0 Motor 1 Torque Control Parameter Group
VD500 Series Inverter User Manual Parameter Description A0 Motor 1 Torque Control Parameter Group 0: Speed control Speed/Torque Control ◎ A0-00 Mode Selection 1: Torque control Used to select the inverter control mode: speed control or torque control. VD500’s multi-function digital DI terminal, have two function associated with torque control: torque control prohibit (function 40), speed control/torque control switch (function 39). - Page 178 Parameter Description VD500 Series Inverter User Manual 2: AI2 3: AI3 (expansion card) 4: PULSE 5: Communication setting 6: Keypad potentiometer Max Frequency Digital 50.00 ○ A0-06 Setting under the Torque 0.00Hz~max frequency Control Reverse Used to set the forward or reverse maximum running frequency of the inverter under the torque control mode.
- Page 179 VD500 Series Inverter User Manual Parameter Description 0: Internal frequency Rotational Inertia ◎ A0-15 Compensation 1: Feedforward frequency variation Reference 2: Feedforward frequency 0: AI1 1: AI2 Feedforward Frequency ◎ A0-16 2: AI3 (expansion card) Source Selection 3: PULSE 4: Communication setting Rotational Inertia ○...
-
Page 180: Ai Optimize Control Parameter Group
Parameter Description VD500 Series Inverter User Manual AI Optimize Control Parameter Group ○ A1-00 Carrier Frequency 0.5kHz~16.0kHz Model dependent This function is used to adjust the carrier frequency of the inverter. By adjusting the carrier frequency can reduce motor noise and avoid the resonance point of mechanical system, reduce the line of floor drain current and reducing interference caused by frequency inverter. - Page 181 VD500 Series Inverter User Manual Parameter Description LED unit’s digit: 0: Asynchronous modulation 1: Synchronous modulation ◎ A1-03 PWM Modulation Mode 0x00 LED ten’s digit: 0: Two phase and three phase modulation 1: Three phase modulation Only valid for V/F control.
-
Page 182: A2, 3, 4 Motor 2 Parameter Function Group
Parameter Description VD500 Series Inverter User Manual 0: Optimize 0 SVC Optimize Mode ○ A1-08 1: Optimize 1 Selection 2: Optimize 2 Optimize mode 1: used when have higher torque control linearity requirements. Optimize mode 2: used when have high speed stability requirement. -
Page 183: B0 User Customize Function Code
VD500 Series Inverter User Manual Parameter Description b0 User Customize Function Code ○ b0-00 User Code 0 F0-00 ○ b0-01 User Code 1 F0-01 ○ b0-02 User Code 2 F0-02 ○ b0-03 User Code 3 F0-09 ○ b0-04 User Code 4 F0-18 ○... - Page 184 Parameter Description VD500 Series Inverter User Manual ○ b0-30 User Code 30 FF-06 ○ b0-31 User Code 31 FF-06 This function code is the users customize parameter group. Users can in all VD500 function code, select the needed parameter summary to b0 group, as the user customization parameters, convenient to view and change such as operation.
-
Page 185: B1 Virtual Io Parameter Group
VD500 Series Inverter User Manual Parameter Description b1 Virtual IO Parameter Group Virtual VDI1 Terminal ◎ b1-00 0~59 Function Selection Virtual VDI2 Terminal ◎ b1-01 0~59 Function Selection Virtual VDI3 Terminal ◎ b1-02 0~59 Function Selection Virtual VDI4 Terminal ◎... - Page 186 Parameter Description VD500 Series Inverter User Manual beyond the upper and lower limit, frequency inverter fault alarm and stop", can use the following setting method: Set VDI1 function to "user-defined failure 1" (b1-00 = 50); Set VDI1 terminal valid state model for determine by VDO1 (b1-05 = xxx0);...
- Page 187 VD500 Series Inverter User Manual Parameter Description AI input voltage DC7V DC3V Time AI terminal state Fig 6-34 AI terminal effective state judgment 0: Short circuit with physical DIX internal Virtual VDO1 Output ○ b1-11 Function Selection 1~43: see the F6 group physical DO...
- Page 188 Parameter Description VD500 Series Inverter User Manual above Thousand’s digit: VDO4, same as above Ten thousand’s digit: VDO5, same as above VDO1 Disconnection ○ b1-22 0.0s~3600.0s 0.0s Delay VDO2 Disconnection ○ b1-23 0.0s~3600.0s 0.0s Delay VDO3 Disconnection ○ b1-24 0.0s~3600.0s 0.0s...
-
Page 189: B2 Ai Curve Setting Parameter Group
VD500 Series Inverter User Manual Parameter Description b2 AI Curve Setting Parameter Group ○ b2-00 AI Curve 4 Min Input -10.00V~b2-02 0.00V Corresponding Setting of ○ b2-01 -100.0%~+100.0% 0.0% AI Curve 4 Min Input AI Curve 4 Inflection ○ b2-02 b2-00~b2-04 3.00V... - Page 190 Parameter Description VD500 Series Inverter User Manual Analog input corresponding setting 100% AI Max input setting AI curve inflection point 1 corresponding setting AI curve AI input inflection point 2 voltage 0V(0mA) AI curve AI curve inflection point 1 (20mA)...
-
Page 191: B3 Aiao Correction Parameter Group
VD500 Series Inverter User Manual Parameter Description b3 AIAO Correction Parameter Group Factory ○ b3-00 AI1 Measured Voltage 1 0.500V~4.000V Correction Factory ○ b3-01 AI1 Displayed Voltage 1 0.500V~4.000V Correction Factory ○ b3-02 AI1 Measured Voltage 2 6.000V~9.999V Correction Factory ○... -
Page 192: U0 Basic Monitoring Parameters Group
Parameter Description VD500 Series Inverter User Manual U0 Basic Monitoring Parameters Group Code Parameter Name Display Value Display Unit Property ● U0-00 Running Frequency (Hz) 0.01Hz ● U0-01 Set Frequency (Hz) 0.01Hz ● U0-02 Bus Voltage (V) 0.1V ● U0-03 Output Voltage (V) ●... - Page 193 VD500 Series Inverter User Manual Parameter Description ● U0-27 Input PULSE Frequency Communication Setting ● U0-28 0.01% Value ● U0-29 Encoder feedback speed 0.01Hz Main Frequency A ● U0-30 0.01Hz display Auxiliary Frequency B ● U0-31 0.01Hz Display View Any Memory ●...
-
Page 194: Chapter 7 Emc Guide
EMC Guide VD500 Series Inverter User Manual Chapter 7 EMC Guide 7.1 Definition Electromagnetic compatibility is the ability of the electric equipment to run in the electromagnetic interference environment and implement its function stably without interferences on the electromagnetic environment. - Page 195 VD500 Series Inverter User Manual EMC Guide placed nearby the inverter or together with the inverter in the same control cabinet, they are easy to suffer interference and thus generate error actions. It is recommended to handle with the following methods: Put in places far away from the interference source;...
-
Page 196: Chapter 8 Fault Shooting And Solutions
Fault Shooting and Solutions VD500 Series Inverter User Manual Chapter 8 Fault Shooting and Solutions 8.1 Fault Alarm and Countermeasures VD500 inverter has warning information and fault protection function. In case of abnormal fault, the inverter error relay contactor will be in action, before user seeking for help, please do self-inspection according to this chapter to analyze causes and find out solution. - Page 197 VD500 Series Inverter User Manual Fault Shooting and Solutions 1. Extend deceleration time 1. Deceleration time is too short Deceleration 2. Add external energy overcurrent 2. Load inertia torque is too big consumption braking unit Err.05 (software) 3. Inverter power is too small 3.
- Page 198 Fault Shooting and Solutions VD500 Series Inverter User Manual 2. Small frequency converter 2. Selection inverter with bigger selection class power 1. Three-phase input power is 1. Check and eliminate the not normal problems existing in the peripheral 2. Drive board abnormal...
- Page 199 VD500 Series Inverter User Manual Fault Shooting and Solutions set nonzero value, and the actural output frequency reaches the upper limit frequency PID feedback 1. Check the PID feedback signal 1. PID feedback less than Err.23 loss when or set the FA-26 to an appropriate...
-
Page 200: Common Faults And Solutions
Fault Shooting and Solutions VD500 Series Inverter User Manual 1. Correctly set the encoder 1. The encoder parameter parameters setting is not correct Too large 2. Doing motor parameter 2. No parameter identification Err.40 speed identification 3. Excessive speed deviation deviation 3. -
Page 201: Chapter 9 Communication Protocol
(PC), industrial control machine or programmable logical controller(PLC) etc., and the slave refers to the VD500 series inverter or other control equipment with the same communication protocol. Master not only visits some slave, but also sends the broadcast information to all the slaves. -
Page 202: Command Code And Communication Data Description
Communication Protocol VD500 Series Inverter User Manual times marks the end of the message. A new message can begin after this interval) The entire message frame must be transmitted as a continuous stream. If a silent interval of more than 1.5 character times occurs before completion of the frame, the receiving device flushes the incomplete message and assumes that the next byte will be the address field of a new message. - Page 203 VD500 Series Inverter User Manual Communication Protocol Bit number Output frequency high Bit xx H Output frequency low Bit xx H Setting frequency high Bit xx H Setting frequency low Bit xx H Motor run speed high Bit xx H...
- Page 204 Communication Protocol VD500 Series Inverter User Manual 9.6.2 Command Code: 06H (0000 0110), write one word Such as: Put 5000(1388H) (namely write-in setting frequency 50.00Hz) write to slave address 01H inverter 3001H (communication set frequency address). The frame structure description as below: RTU Master command information.
- Page 205 VD500 Series Inverter User Manual Communication Protocol parity check Bit will be processed and put at the position of format check Bit. And the receiving device will also do parity check, if it found the parity of the received data is not the same as pre-set, then it decides that communication was in error.
- Page 206 Communication Protocol VD500 Series Inverter User Manual High byte: F0 ~ FF (group F), A0 - AF (group A), 70-7 F (U) low byte: 00 to FF Such as: F3-12, address represented as F30C; Note: FP groups: neither read the parameters, and do not change the parameters;...
- Page 207 VD500 Series Inverter User Manual Communication Protocol 101CH PULSE input pulse frequency, unit 1Hz 101DH Communication set value 101EH Reserved 101FH Main frequency X display Auxiliary frequency Y display 1020H Note: Communication value is relative percentage, 10000 corresponds to 100.00% and - 10000-100.00%.
- Page 208 Communication Protocol VD500 Series Inverter User Manual Inverter fault address Inverter fault information 0000H: no fault 0001H: acceleration over current (hardware) 0002H: deceleration over current (hardware) 0003H: constant over current (hardware) 0004H: acceleration over current (software) 0005H: deceleration over current (software)
-
Page 209: Fd Communication
VD500 Series Inverter User Manual Communication Protocol Fd Communication 0: 300BPS 1: 600BPS 2: 1200BPS 3: 2400BPS 4: 4800BPS ○ Fd-00 Baud Rate 5: 9600BPS 6: 19200BPS 7: 38400BPS 8: 57600BPS 9: 115200BPS This parameter is used to set data transfer rate between the PC and inverter.Note that set the baud rate of upper machine and converter must agree, otherwise, the communication can't be.The faster... - Page 210 Communication Protocol VD500 Series Inverter User Manual 0: 0.01A Communication Read ○ Fd-06 Current Resolution 1: 0.1A Used to determine the communication while reading the output current, current value of the output units. - 206 -...
-
Page 211: Appendix A Multi-Function I/O Extension Card
Appendix A Multi-function I/O Extension Card Appendix A Multi-function I/O Extension Card VD500 series inverter support multi-function I/O extension card. There have 3 DI input terminal, 1 DO output terminal and 1 AI input terminal in multi-function I/O extension card. Multi-function... - Page 212 Appendix A Multi-function I/O Extension Card VD500 Series Inverter User Manual A.2 Socket Function Description Table A-1 Socket function description Socket Code Function Function Description Multi-function J20 is connection port of main control board and power board, I/O extension control board supply power to multi-function I/O extension card card –...
-
Page 213: Appendix B Incremental Pg Card
VD500 Series Inverter User Manual Appendix B Incremental PG Card Appendix B Incremental PG Card VD500 series inverter support close-loop vector control, incremental PG card, the model is: V5GT005PG3Y0. Separate dial any of a set of dialswitch to realize frequency division output: S1, S2, S3,... - Page 214 Appendix B Incremental PG Card VD500 Series Inverter User Manual Frequency division difference signal OA+, OA- 0~300kHz output terminal Frequency division difference signal OB+, OB- 0~300kHz output terminal Difference open collector output OA, OB 0~300kHz terminal Output terminal 5. Dial switch introduction: PG card frequency division coefficient determined by dial the code switch on the card.
- Page 215 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 List of Vicruns. 5. The product Warranty Card is not re-issued. Please keep the card and present it to the maintenance personnel when asking for maintenance.
- Page 216 Product Warranty Card Address: Contact Person: Customer Company Name: Information Tel of Email: Postcode: Product Model: Product Serial No: Information Name of supplier who supplied you the unit: Failure Description (eg. Fault code) Maintenance Personnel:...
Need help?
Do you have a question about the VD500 Series and is the answer not in the manual?
Questions and answers