Xinje VB3 User Manual
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Xinje VB3 User Manual

Xinje VB3 User Manual

Frequency inverter
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VB3/VB5/V5
frequency inverter
User manual
Xinje Electronic Co.,Ltd.
No. INV C 01 20081130 204

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Summary of Contents for Xinje VB3

  • Page 1 VB3/VB5/V5 frequency inverter User manual Xinje Electronic Co.,Ltd. No. INV C 01 20081130 204...
  • Page 2 VB3/VB5/V5 seires inverter Table of Contents Preface ——————————————— Safty Precautions VB3/VB5/V5 ——————————————— Series Inverter Product Introductions User Manual ——————————————— Installation and Wiring ——————————————— Operation Descriptions ——————————————— Function Parameters ——————————————— Fault Diagnosis and Disposal ——————————————— Maintenance ——————————————— Communication Protocol ———————————————...
  • Page 3 The device and its components can only be used in the applications described in the catalog and the technical manuals, can only be connected with devices or components from other manufacturers which have been approved or recommended by Xinje. The products will run normally in the condition of been transported, stored, configured and installed correctly, been operated and maintained as recommended.

  • Page 5: Table Of Contents

    VB3/VB5/V5 series inverter CATALOG PREFACE ............................1 SAFETY PRECAUTIONS .......................2 1 PRODUCT INSTRUCTION ......................6 1-1. Product overview ................................6 1-2. Product technical specification ............................7 1-3. Product appearance ................................9 1-4. Product dimension ................................12 2 INSTALLATION AND WIRING ....................15 2-1. Installation environment ..............................15 2-1-1.
  • Page 6 VB3/VB5/V5 seires inverter 3-2-1. Keyboard layout ................................ 28 3-2-2. Keyboard function ..............................28 3-2-3. Fucntion description of LED and indicator ......................... 29 3-2-4. Display of the operation panel............................ 29 3-2-5. Panel operation method ............................. 31 3-3. Power on the inverter ..............................33 3-3-1.
  • Page 7 VB3/VB5/V5 series inverter 7-2. Communication protocal ..............................91 7-2-1. Communication networking mode ..........................91 7-2-2. Communication protocol modes..........................92 7-2-3. Communication port ..............................92 7-3.Modbus-RTU communication protocol ........................... 92 7-3-1. Character structure ..............................92 7-3-2. Communication information ............................92 7-3-3.Communication parameter ............................95 APPENDIX A ACCESSORIES .....................97...

  • Page 9: Preface

    Preface ——Essential introduction for this manual Thank you for purchasing Xinje inverter, this manual should be read and understood before attempting relevant operations. 1. Purpose of this manual This manual offers guidance and introductions about how to use and maintains the inverter correctly, including functions, usages, installation, maintenance, etc.

  • Page 10: Safety Precautions

    VB3/V5/VB5 series inverter Safety Precautions ——Essential introduction about product operation Upon unpacking, please confirm that: Check whether the model and the rated values on the nameplate of the inverter are in accordance with your order. Check if there is any damage occurred during transportation; pleases contact us or the distrib- utor if you find any missing or damage of the products.
  • Page 11 VB3/V5/VB5 series inverter 1. Confirm that the voltage of the main AC power supply satisfies the rated voltage of the Inverter. Injury and fire may occur if the voltage is not right. 2. Do not perform voltage withstand tests on the Inverter. Otherwise, semiconductor elements and other devices can be damaged.
  • Page 12 VB3/V5/VB5 series inverter  Mechanical resonance point of load The inverter may encounter the mechanical resonance point of load within certain output frequency range. Jump frequen- cies have to be set to avoid it.  Capacitor and resistor Because the inverter output pulse wave, capacitor and resistors shouldn't be connected with the output terminals of the in- verter, or the inverter may trip or components may be damaged;...
  • Page 13 VB3/V5/VB5 series inverter  About protection classes The protection class of V5/F5 series inverter IP20 is reached in the case of status display unit or keyboard. ◎ Note For Scrap ◎ When you scrap the inverter, please pay attention to: Explosion risk of capacitor: The capacitors in the main circuits may explode when they are burned.

  • Page 14: Product Instruction

    1-1. Product overview VB3/VB5/V5 series inverter is produced by Xinje Co., Ltd with high performance, easy operating and low noise. It is a innovative product with a series advanced and practical running and control functions such as practical PI, flexible input and output terminals, parameter modification online, fixed length control, traverse operation, RS485 control, bus-mastering.

  • Page 15: Product Technical Specification

    VB3/V5/VB5 series inverter V5-4022 V5-4030 V5-4037 V5-4045 V5-4055 1-2. Product technical specification 1. Technical specification 220V Type VB3-20P4 VB3-20P7 VB5-20P7 VB5-21P5 VB5-22P2 Output Match Motor (kW) 0.75 0.75 Output Current (A) 10.0 Voltage (V) AC 200 Frequency Range (Hz) 0~500 Frequency Resolution (Hz) 0.01...
  • Page 16 VB3/V5/VB5 series inverter output Rated current (A) 14.0 17.0 Rated voltage ( V) AC 380 frequency range (Hz) 0~500 frequency accuracy (Hz) 0.01 Overload Ability 150% Rated Current for 1 minute, 180% Rated Current for 1 second Rated voltage Three phase 380V; 50Hz/60Hz...

  • Page 17: Product Appearance

    VB3/V5/VB5 series inverter Frequency resolution Digital Setting: 0.01Hz; Analog Setting: max frequency × 0.1% Main Control Start frequency 0.40Hz ~ 20.00Hz Function Torque boost Auto torque boost, manual torque boost 0.1% ~ 30.0% Five modes: constant torque V/F curve, 1 V/F curve mode by user and 3 kinds of V/F curve torque-derating modes (2nd power, 1.7th power, 1.2nd power)
  • Page 18 VB3/V5/VB5 series inverter 4 bits LED display MENU DATA Buttons STOP RESET Control terminals Analog potentiometer Power terminals Mounting hole...
  • Page 19 VB3/V5/VB5 series inverter VB5 series single-phase 0.75~2.2KW VB5 series 5.5KW~7.5KW VB3/VB5 series 3-phase 0.75~3.7KW MENU MENU STOP DATA RESET STOP DATA RESET WARNING ! * STORED CHARGE DO NOT TOUCH UNTIL 10 MIN. AFTER DISCO- NNECTION * DO NOT CONNECT AC POWER TO OUTPUT TERMINALS OF "U V W"...

  • Page 20: Product Dimension

    VB3/V5/VB5 series inverter 1-4. Product dimension  VB3 series 0.4~0.75KW (Unit: mm)  VB3, VB5 series 0.75~3.7KW (Unit: mm) The details of the dimension: Type VB5-20P7 VB5-21P5 VB5-22P2 VB3/VB5-40P7 VB3/VB5-41P5...
  • Page 21 VB3/V5/VB5 series inverter VB3/VB5-42P2 VB3/VB5-43P7  VB5 series 3-phase 5.5~7.5KW (Unit: mm) MENU STOP DATA RESET 167.0 180.0  V5 series 3-phase 11~55KW (Unit: mm) F WD R EV AL M MENU ENTER DATA STOP RESET WARNING ! * STO RED CHARGE DO NOT TO UCH UNTIL 10 MIN.
  • Page 22 VB3/V5/VB5 series inverter The details of the dimension: Type V5-4011 V5-4015 V5-4018 V5-4022 V5-4030 V5-4037 V5-4045 V5-4055...

  • Page 23: Installation And Wiring

    V5 series inverter Installation and Wiring 2-1. Installation environment 2-1-1. Environment requirement  Ambient tempeature: -10ºC~40ºC. The inverter should be derated when the temperature over 40ºC, at the same time ventilation and heat dissipation should be enhanced.  Far away from the location with direct sunlight, dust, floating fiber or metal powder. ...

  • Page 24: Wiring

    V5 series inverter 2-2. Wiring Caution  Wiring after power off for at least 10 minutes, otherwise, an electronic short may occur.  Do not connect AC power to output terminals U, V and W.  Both the inverter and the motor should be safety grounded as there is leakage current inside the inverter.The diameter of grounding copper cable must be more than 3.5mm², grounding resistor must be less than 10ohm.

  • Page 25: Terminal Assignment And Description

    I/O terminals Voltage Terminal Function L, N Single phase AC 220V input VB3, VB5 series U, V, W Three phases AC output Single phase 220V Ground L1, L2, L3 Three phases AC 380V input (fit for power below 3.7KW ) R, S, T Three phases AC 380V input (fit for power below 3.7KW )

  • Page 26: Basic Running Wiring

    (4) VB5 series 0.75~3.7KW three phases have no digital input X5, analog input VI and digital output DO. (5) VB3/VB5 series single phase have no X4~X6, VI, AO, DO, OC, P+, P-, PB. (6) VB3 series 0.75~3.7KW three phases have no terminal X5, X6 and VI, DO, P+, P-, PB. 2-5. Setting and wiring of control circuit 2-5-1.Position and function of terminals and jumpers on control panel...
  • Page 27 V5 series inverter 0.75~2.2KW VB5 series single phase inverter jumper position Fig 2-4 (b) jumper position 0.75~3.7KW VB3, VB5 series three phases inverter jumper position Fig 2-4 (c) jumper position 5.5~7.5KW VB5 series three phases inverter jumper position Fig 2-4 (d) jumper position 11~55KW V5 series inverter jumper position Fig 2-4 (e) jumper position...

  • Page 28: 2-5-2.Terminals On Control Panel

    Contactor Capacity: relay output terminal tion parameters P4.11 and de- AC250V/2A (COSΦ=1) terminals scription of output terminals AC250V/1A (COSΦ=0.4) DC30V/1A 2. Control circuit terminals CN2 VB3 3-phase 0.4~0.75KW VB5 1-phase 0.75~2.2KW VB3 3-phase 0.75~3.7KW VB5 3-phase 0.75~3.7KW VB5 3-phase 5.5~7.5KW...
  • Page 29 V5 series inverter 3. CN2 terminals’ function description are shown as below: Table 2-4 CN2 terminals’ function description Type Terminal Name Terminal Function Description Specification RS485 difference signal + standard RS485 port, please use Communication RS485 port twisted cable or shielded cable RS485 difference signal - optical coupling isolation output Multi-function digital output terminal,...

  • Page 30: Analog I/O Terminal Wiring

    V5 series inverter 2-5-3. Analog I/O terminal wiring 1. The wiring of VI terminal voltage signal input Fig. 2-6 VI terminal wiring diagram 2. CI terminal analog input, jumper select voltage input(0~10V) or current input(4~20mA): Fig. 2-7 CI terminal wiring 3.

  • Page 31: Connection Of Communication Terminals

    V5 series inverter 2-5-4. Connection of communication terminals The communication port of this inverter is standard RS485 port. With the following wiring methods, you can build up control system of one-host-one-slave or one-host-multi-slaves. Also, the superior device (PC or PLC) can realize the functions such as real time monitor inverter, remote control, highly auto- mated motion control.

  • Page 32: Mounting Guide According With Emc

    V5 series inverter (Inverters and motors are all grounded well) If the communication is still failed with the above connection methods, you can adopt the following methods: (1) Use separate power supply for PLC or isolate its power supply. (2) Use magnetism ring for the cable and reduce the inverter’s carrier frequency. 2-6.

  • Page 33: Local Wiring And Grounding

    V5 series inverter (1)The equipment and the signal cables should be far away from the inverter. The signal cables should be shielded and the shielding layer should be grounded. The signal cables should be located far away from the in- put/output cables of the inverter.

  • Page 34: Operating Instructions

    V5 series inverter Operating Instructions 3-1. Run the inverter 3-1-1. Command channel of inverter We can control the inverter’s START, STOP, JOG and other running actions by three command channels. 1. Operation panel Control by keys on the operation panel (default setting) 2.

  • Page 35: Running Modes

    V5 series inverter 3-1-4. Running modes V5 inverter has 5 kinds of running modes which can be sequenced according to the priority: Jog running→Close loop run- ning→PLC running→Multi-speed running→Simple running, as shown in Fig. 3-1. 0: Jog running When the inverter is in the stopp state, it will running according to jog frequency (refer to P3.06~P3.08 for details) af- ter receiving jog running command (e.g after pressing key) 1: Close loop...

  • Page 36: Use The Keyboard

    3-2. Use the keyboard 3-2-1. Keyboard layout Start, speed, stop, brake, running parameter setting and control of the peripheral can be performed by inverter’s operation panel and control terminals; operation panel is shown in Fig.3-2. VB3 0.4~0.75KW VB5-OPU-01 V5-OPU-03 MENU...

  • Page 37: Fucntion Description Of Led And Indicator

    V5 series inverter Save/switch In program state, press this key to enter the next menu or save the parameters. Analog potentiometer When P0.01=0, adjust potentiometer to change the inverter’s output frequency. 3-2-3. Fucntion description of LED and indicator The operation panel consists of 4-bit 8-segment LED, 3 unit indicators and 3 state indicators. The three unit indicators have 6 different combinations and each combination corresponds to one unit while settting parameters.The relationship between the combination of the indicators and the unit are shown in Fig.3-3.
  • Page 38 V5 series inverter Power on and Stop status, display running status, Fig.A Fig. B Fig. C initialize, display display the running the stop parameters parameters the dynamic picture Fig. 3-4 Display during initialize, stop and run 2. Parameters displayed in running status When the inverter receive running command, it starts to enter running status and operation panel will display running mon- itor parameters, the default parameter is output frequency (b-00),as shown in Fig.3-4 C, the unit indicator on the top right indicates the unit.

  • Page 39: Panel Operation Method

    V5 series inverter Fig. 3-6 Editing status 3-2-5. Panel operation method The following show how to do various operations through the operation panel. 1. Parameter Display Press key to display parameter group b. First display the parameter No, then display parameter value after one second.
  • Page 40 V5 series inverter Fig. 3-8 Parameter editing In the third level menu, the parameter can’t be changed if no bit is flashing, the possible reasons are: (1) The setting of this parameter can not be changed, such as the actural detected parameters or recorded parameters. (2) This parameters can only be changed in stopping state and can not be changed in running state.

  • Page 41: Power On The Inverter

    V5 series inverter 5. Check error parameters: Fig. 3-11 Check operation in error status Note: (1) Press key to check parameter P6 in error code display mode, the range is P6.01~P6.06, press key, parameter No. will firstly displayed and the parameter value will be displayed after 1s. (2)While checking, press key to back to error code display.
  • Page 42 V5 series inverter Fig. 3-12 Procedures of starting the inverter for the first time...

  • Page 43: Function Parameters

    V5 series inverter Function Parameters 4-1. Function code ○: Parameters can be changed while running ×: Parameters can not be changed while running * : Parameters can only be read, can not be changed 1. Basic running parameters (Group P0) Group P0: Basic running parameters Minmum Default setting...
  • Page 44 V5 series inverter ○ P0.15 Linear time of S 10.0%~80.0%(Acc/Dec time) 0.1% 60.0% curve P0.14+P0.15<90% × P0.16 Acc/Dec time unit 0: second 1: minute ○ P0.17 Accerlate time 1 0.1~6000.0 10.0 ○ P0.18 Decerlate time 1 0.1~6000.0 10.0 × P0.19 High limit frequency Lowest frequency ~highest output 0.01Hz...
  • Page 45 V5 series inverter ○ P1.09 Max setting of CI P1.07 ~10.00V 0.01V 10.00V ○ P1.10 Frequency 0.00~highest frequency 0.01Hz 50.00Hz max setting of CI ○ P1.11 input pulse 0.1~20.0K 0.1K 10.0K frequency PULSE ○ P1.12 setting 0.0~P1.14 0.1K 0.1K PULSE (Max setting of PULSE) ○...
  • Page 46 V5 series inverter 4. Auxiliary running parameters (Group P3) Group P3: Auxiliary running parameters Minmum Factory Change Parameter Name Range unit setting × P3.00 Combination of 0: VI+CI frequency input 1: VI-CI 2: External pulse+VI+ Increase/Decrease key 3: External pulse-VI- Increase/Decrease key 4: External pulse+CI 5: External pulse -CI...
  • Page 47 V5 series inverter tion 1: Enabled × P3.04 AVR function 0: disabled 1: enable all the time 2: Disabled when decelerating × P3.05 Slip frequency compen- 0~150% sation ○ P3.06 Jog frequency 0.10~50.00Hz 0.01Hz 5.00Hz ○ P3.07 Accelerate time of jog 0.1~60.0s 0.1s 5.0s...
  • Page 48 V5 series inverter ○ P3.25 Decerlate time 7 0.1~6000.0 10.0 ○ P3.26 Multi-frequency 1 Min frequency~max frequency 0.01Hz 5.00Hz ○ P3.27 Multi-frequency 2 Min frequency~max frequency 0.01Hz 10.00Hz ○ P3.28 Multi-frequency 3 Min frequency~max frequency 0.01Hz 20.00Hz ○ P3.29 Multi-frequency 4 Min frequency~max frequency 0.01Hz 30.00Hz...
  • Page 49 V5 series inverter terminal 2 3: Multi-speed control terminal 3 4: Exteral forward jog in- 5: Exteral reverse jog input 6: Acc/Dec time terminal 1 7: Acc/Dec time terminal 2 8: Acc/Dec time terminal 3 9: 3-wire operation control 10: Free stop (FRS) 11: External stop command 12: DC brake input com- mand DB...
  • Page 50 V5 series inverter 33: Counter reset input 34: External interrupt input 35: Pulse frequency input (only valid for X6) 36: Actual length reset input × P4.01 Function selection of Ditto input terminal X2 × P4.02 Function selection of Ditto input terminal X3 ×...
  • Page 51 V5 series inverter 13: Mid counting value arrived 14: Inverter running prepa- ration is finished (RDY) 15: Inverter fault 16: Running with start frenquence 17: DC brake when startup 18: brake when stop 19: High and low limit of swing frequency 20: set running time arrived ×...
  • Page 52 V5 series inverter 101: frequency reach signal (FAR) 102: frequency level detect signal (FDT1) 103: frequency level detect signal (FDT2) 104: overload pre-alarm (OL) 105: inverter under voltage blockade and stop (LU) 106: external error stop (EXT) 107: output frequency reach upper limit (FH) 108: output...
  • Page 53 V5 series inverter 6. Protective function parameters (Group P5) Group P5: Protective function parameters Minmum Change Parameter Name Range Default setting unit × P5.00 Motor overload protection 0: Inverter lock the output mode selection 1: Disabled × P5.01 Motor overload protection 20~120% 100% coefficient...
  • Page 54 V5 series inverter P6.07 First 2 times fault records First 2 times fault records P6.08 First 3 times fault records First 3 times fault records P6.09 First 4 times fault records First 4 times fault records P6.10 First 5 times fault records First 5 times fault records P6.11 First 6 times fault records...
  • Page 55 V5 series inverter 9. Simple PLC operation parameters (Group P8) Group P8: Simple PLC operation parameters Minmum Default Parameters Name Range Change unit setting × P8.00 Simple PLC operation 0000~1113 0000 mode selection Lowest bit: mode selection 0: Disabled 1: Stop after single cycle 2: keep the final value after single cycle 3: continuous cycle Ten bit: PLC pause and restartup mode selection...
  • Page 56 V5 series inverter 10. Swing frequency and measurement functions parameters (Group 9) Group P9: Swing frequency and measurement function parameters Minmum unit Default Parameters Name Range Change setting × P9.00 Swing frequency selection 0: Disabled 1: Enabled × P9.01 Swing frequency mode 00~11 Lowest bit: input mode 0: Auto input mode...
  • Page 57 V5 series inverter × PA.05 Poles of motor 2~48 Dependent on in- verter’s model × PA.06 Stator inductance of motor 0.1~5000.0mH 0.1mH Dependent on in- verter’s model × PA.07 Rotor inductance of motor 0.1~5000.0mH 0.1mH Dependent on in- verter’s model ×...
  • Page 58 V5 series inverter 13. Default setting (Group PF) Group PP: Default Setting Minmum Default Parameter Name Range Change unit setting PF.00 Default password ○ PF.01 User’s password 0:No password 0000 0001-9999: passwor protection PF.02 Software version PF.03~PF.10 Reversed 14. B Monitor function parameters B-Monitor function parameters Minmum Factory...

  • Page 59: Function Code Description

    V5 series inverter 4-2. Function code description 4-2-1. Basic operating function parameters (Group P0) P0.00 Control mode selection Range: 0~1 0: V/F control 1: Open loop vector control P0.01 Frequency setting channel selection Range: 1~8 0: Panel analog potentiometer setting keys on the panel You can set the reference frequency via keys on the panel.
  • Page 60 V5 series inverter P0.03 Running command channel selection Range: 0, 1, 2 0: Panel control to stop, start the inverter. 1: Terminal control Use external terminal FWD, REV, X1~X6 to start or stop the inverter. 2: Serial port control To start or stop the inverter via RS485 port. Note: The control modes can be set by P0.03, please be careful to use this method during operating.
  • Page 61 V5 series inverter Fig. 4-2 Characteristic parameter FH(highest frequency), FL(lowest frequency) are defined by P0.19 and P0.20 . P0.09 Torque boost Range: 0.0%~30.0% 2.0% Improve inverter low frequency torque characteristics, boost-compensate the output voltage. (a) Torque boost of constant torque curve (b)Torque boost of square torque curve Fig.
  • Page 62 V5 series inverter P0.12 Carrier frequency Range: 1.0K~14.0K 8.0K The default carrier frequency below 3.7kW inverter is 5.0 kHz; it is 3.0 kHz for 5.5kW and larger inverters. Carrier frequency will effects the motor’s noise and heat loss.The relationship among carier frequency, motor noise, leak current, and interference are shown below: Note:(1) In order to achieve better performances, the ratio of carrier Note: (1) to obtain the best control features, the ratio of carrier frequency and highest running frequency must more than...
  • Page 63 V5 series inverter P0.16 Acc/Dec time unit Range: 0, 1 This function defines Acc/Dec time unit 0: second 1: minute Note: (1) This function is valid for all the Acc/Dec mode except jog running. (2) Second unit is recommended. P0.17 Acc time 1 Range: 0.1~6000.0 10.0...

  • Page 64: Parameters Of Frequency Setting (Group P1)

    V5 series inverter To obtain the best energy-saving effect, user can select V/F curve 1, 2, 3 for fan, pump load. Fig.4-7 V/F curve Fig. 4-8 User-defined V/F curve When P0.22 = 4, you can define V/F curve via modifying (V1, F1), (V2, F2), (V3, F3) to satisfy the special load require- ment, as shown in Fig.4-8.

  • Page 65: Starting And Braking Parameters (Group P2)

    V5 series inverter P1.13 Frequency of PULSE min setting Range: 0.00~upper limit of frequency 0.00Hz P1.14 Max setting of PULSE Range: P1.12~P1.11 10.0K P1.15 Frequency of PULSE max setting Range: 0.00~upper limit of frequency 50.00Hz P1.16 Input mode of CI Range: 0, 1 When VI, CI and PULSE are selected as open loop frequency setting channel, the relationship between setting and the present frequency is shown below:...
  • Page 66 V5 series inverter Inverter starts at the starting frequency (P2.01) within the lasting time of starting frequency (P2.02). 1: Brake first and then start from the starting frequency Brake with DC braking current (P2.03) within braking time (P2.04) and then start at starting frequency. 2: Track the speed then start When P2.00=2, it is valid for repowering after instantaneous power off or restarting after external fault.

  • Page 67: Auxiliary Running Parameters (Group P3)

    V5 series inverter Fig.4-11 Starting mode 1 Fig. 4-12 Decelerate stop+DC brake P2.05 Stopping mode Range: 0,1,2 0: Decelerate stop After receiving the stopping command, the inverter reduces its output frequency within decelerate time and stops when the frequency becomes 0. 1: Free stop After receiving the stopping command, the inverter stops immediately and the motor stops according to mechanical inertia.
  • Page 68 V5 series inverter When P0.01(Frequency setting chanel)= 8, set the frequency setting channel combination via P3.00. 0: VI+CI 1: VI-CI 2: External pulse +VI+Increase/Decrease key 3: External pulse-VI-Increase/Decrease key 4: External pulse+CI 5: External pulse-CI 6: RS485+VI+Increase/Decrease key 7: RS485-VI-Increase/Decrease key 8: RS485+CI+Increase/Decrease key 9: RS485-CI-Increase/Decrease key 10: RS485+CI+External pulse...
  • Page 69 V5 series inverter AVR is auto voltage regulation.When the input voltage of inverter fluctuates, AVR function can keep it stable. When decelerating stop, if AVR is disabled, the decelerate time is short and the running current is large; if AVR is enabled, the motor will stable decelerate, the running current is small and the decelerate time is longer.
  • Page 70 V5 series inverter P3.09. Lowest bit of LED: Set baud rate, the values are shown below: 0: 1200BPS 1: 2400BPS 2: 4800BPS 3: 9600BPS 4: 19200BPS 5: 38400BPS Ten bit of LED: Set digital format, the values are show below: 0: 1-7-2 format, no parity check;...
  • Page 71 V5 series inverter Seven kinds of Acc/Dec time can be defined, and the inverter’s Acc/Dec time 1~7 can be selected by different combination of control terminals. Please refer to the introductions of P4.00~P4.05 for the definitions of terminals used to select Acc/Dec time, also, you can refer to Acc/Dec time defined in P0.17 and P0.18.

  • Page 72: Function Parameters Of Terminal (Group P4)

    V5 series inverter P3.42 Display parameters selection 2 Range: 0000~FFFF 0000 P3.42 uses the 4 bits of this parameter (hex value) to control the displaying of b-25~b-40. Please transform the parameter to binary value when using. Each binary bit controls the displaying of one monitor parameter b. See Fig4-17. P3.42 binary value: 0000 0000...
  • Page 73 V5 series inverter Multi-speed choice terminal 1 Frequency setting channel 2 Multi-speed choice terminal 2 Frequency setting channel 3 Multi-speed choice terminal 3 Command switch to terminal Exteral forward jog input Running command channel selection 1 Exteral reverse jog input Running command channel selection 2 Acc/Dec time terminal 1 Swing frequency input...
  • Page 74 V5 series inverter Fig.4-18 Multi-speed operation In Fig.4-19 terminal control is selected, the running direction is controlled by K . In Fig.4-18, inverter can run at mul- ti-speed 1~7 or normal speed by controlling the ON/OFF of K Fig.4-19 Wire of multi-speed Fig.4-20 External device fault input 4~5: External jog input JOGP/JOGR.
  • Page 75 V5 series inverter 13: Inverter running prohibition. When the terminal is enabled, the inverter in running mode will free stop and prohibit to restart in standby mode. This function is sutiable for safe linkage. 14~15: Frequency up (UP)/Frequency down (DOWN). The terminal can be used to increase or decrease the frequency. Its function is the same with operating keys on the panel, which enables remote control.
  • Page 76 V5 series inverter 29: PLC disabled. This terminal can be used to flexible switch the PLC operation and low level operation. Note: The switching between PLC operation and low level operation are valid only when PLC is running (the lowest bit of P8.00 is not 0) 30: Reset PLC stopping status.
  • Page 77 V5 series inverter Fig. 4-23 3-wire operation mode 1 Xi is the multi-function input terminal of X1~X6; here you should define its function to No.9 “3-wire control mode”. 3: 3-wire control mode 2 SB1: Stop button SB2: Running button Fig.4-24 3-wire control mode 2 Xi is the multi-function input terminal of X1~X6, here you should define its function to No.9 “3-wire control mode”.
  • Page 78 V5 series inverter DC brake when stop Upper limit of output frequency (FH) High and lower limit of swing frequency Lower limit of output frequency (FL) Inverter zero speed running Reach the preset running time Simple PLC running completed Instructions of the functions shown in Tabel 4-6: 0: Inverter is running(RUN).
  • Page 79 V5 series inverter 20: Reach the setting running time.When the accumulating running time(P3.40)arrive the setting time (P3.39), an indication signal will be output. P4.12 Detecting range of frequency arrive (FAR) Range: 0.00~50.00Hz 5.00Hz This parameter is the additional definition of No. 1 function in Table 4-6. As shown in Fig.4-26, when the output frequency of inverter is in the detecting range of setting frequency, pulse signal will be output.
  • Page 80 V5 series inverter For analog output AO, you can adjust the output gain to change the measuring range or calibrate the meter. P4.19 AO output mode Range: 0, 1 0: 4 ~20mA 1: 0 ~10V P4.20 DO output terminal Range: 0~120 Refer to Table 4-7 and 4-6 for function selection of DO output terminal.

  • Page 81: Protection Function Parameters (Group P5)

    V5 series inverter 4-2-6. Protection function parameters (Group P5) P5.00 Motor overload protection mode selection Range: 0,1 This parameter defines the protection mode when overload or overheat occurs. 0: Inverter locks the output. When overload or overheat occurs, inverter will lock output and the motor will free stop. 1: Disabled.
  • Page 82 V5 series inverter Fig. 4-31 Overvoltage speed loss function P5.04 Auto current limiting level Range: 110~200(%) 150(%) P5.05 Frequeny decrease rate when current limiting Range: 0.00~99.99Hz/s 10.00Hz/s P5.06 Auto current limiting selection Range: 0, 1 Auto current limiting function is used to limit the load current smaller than the value defined in P0.54. Therefore the in- verter will not trip due to surge over-current.

  • Page 83: Fault Recording Parameters (Group P6)

    V5 series inverter 4-2-7. Fault recording parameters (Group P6) P6.00 last fault record Range: 0~23 P6.07 Last 2 fault record Range: 0~23 P6.08 Last 3 fault record Range: 0~23 P6.09 Last 4 fault record Range: 0~23 P6.10 Last 5 fault record Range: 0~23 P6.11 Last 6 fault record...
  • Page 84 V5 series inverter Fig.4-33. In actual applications, if the motor speed increases with the preset value increasing, it is positive feature; if the motor speed decreases with the preset value increasing, it is negative features. The two close-loop features can be set via P7.14, as shown in Fig4-35. Fig.4-34 Preset and Fig.4-35 Close-loop adjustment expected feedback...
  • Page 85 V5 series inverter P7.06 Min setting value Range: 0.0~Max setting value 0.0% P7.07 Feedback value corresponding to min setting Range: 0.0~100.0 (%) 0.0% P7.08 Max setting value Range: min reference~100.0 (%) 100.0% P7.09 Feedback value corresponding to max setting Range: 0.0%~100.0 (%) 100.0% P7.06~P7.09 defines the relationship curve of analog close-loop setting value and expected feedback.

  • Page 86: Simple Plc Operation Parameters (Group P8)

    V5 series inverter P7.16 Close-loop preset frequency Range: 0~upper limit of frequency 0.00Hz P7.17 Holding time of close-loop preset frequency Range: 0.0~250.0s 0.1s This function can make the close-loop adjustment enter stable status. When inverter is in close-loop running mode, it accelerates to close-loop preset frequency P7.16 in acc time, and is running for a while (P7.17), then runs according to close-loop features.
  • Page 87 V5 series inverter Fig.4-40 Simple PLC running In Fig 4-40, a are the Acc/Dec time of each stage and they are set by Acc/Dec time parameters P0.17, P0.18 and P3.14~P3.2. F are the running frequency and running time and they are set by P8.01~P8.14. Range: LED lowest bit: 0~3;...
  • Page 88 V5 series inverter Fig. 4-43 PLC continuous running mode 3: Continuous cycle. See Fig.4-43, inverter start next cycle after one cycle finished, it will stop when stop command is input. LED Ten bit: restart after pause 0: restart from stage 1. Stop caused by stop command, fault or power-off, restart from the first stage. 1: Continue to run from the frequency of stopping stage.

  • Page 89: Swing Frequency Function Parameters (Group P9)

    V5 series inverter P8.07 Stage 4 setup Range: 000~621 P8.08 Running time of stage 4 Range: 0.1~6000.0 10.0 P8.09 Stage 5 setup Range: 000~621 P8.10 Running time of stage 5 Range: 0.1~6000.0 10.0 P8.11 Stage 6 setup Range: 000~621 P8.12 Running time of stage 6 Range: 0.1~6000.0 10.0...
  • Page 90 V5 series inverter Fig.4-45 swing frequency P9.00 Swing frequency function Range: 0, 1 0: Disabled 1: Enabled P9.01 Swing frequency running mode Range: 00~11 Lowest bit of LED:input mode 0: Auto input mode. The inverter will run at preset frequency (P9.02) for a while (P9.03), and then enter the swing fre- quency status.

  • Page 91: Vector Control Parameters (Group Pa)

    V5 series inverter P9.07 Up time of triangle wave Range: 0.0~98.0% 50.0% Running time of swing frequency up stage =P9.06×P9.07(s), Time of down stage=P9.06×(1-P9.07)(s). Refer to Fig.4-45. Note: You can select S-curve Acc/Dec mode along with swing frequency, the swing frequency will run more smoothly. P9.08 set length Range: 0.000~65.535km...

  • Page 92: Special Application Function Parameters (Group Pb)

    V5 series inverter PA.07 Rotor inductance of motor Range: 0.1~5000.0mH Model confirmation Mutual inductance of motor Model confirmation PA.08 Range: 0.1~5000.0mH rotor and stator PA.09 Stator resistance of motor Range: 0.001~50.000Ω Model confirmation PA.10 Rotor resistance of motor Range: 0.001~50.000Ω Model confirmation PA.01~PA.10 are motor parameters which have default setting according to inverter model, you can reset these parameters according to the motor parameters.

  • Page 93: Default Setting And Password (Group Pf)

    Choose PF.01 (PF.01=0000), input new password and press to confirm, then the password will be valid immediately. The password for super user is 2644. - - PF.02 Software version Software version is set by Xinje company, cannot be changed.

  • Page 94: Fault Diagnosis And Solution

    V5 series inverter Fault Diagnosis and solution 5-1. Fault diagnosis and solution When fault occurs, the error code will show in LED display, the inverter stops outputting and the fault relay contactor is acti- vated. If the motor is running when the fault occurs, motor will free stop. Table 5-1 is the fault inverter may happen. Please check the fault according to the table or contact us for service.
  • Page 95 V5 series inverter Restart the motor when it is running Set to restart after speed detection Low AC supply voltage Check AC supply voltage Too heavy load Select higher power inverter Adjust V/F curve and torque boost value V/F curve is not suitable Low AC supply voltage Check AC supply voltage Common motor is running with heavy load at...

  • Page 96: Check The Fault Records

    V5 series inverter Main circuit under Lack of phase when input current, momentary Check the reason and reset E-24 voltage,the electro- power off, power supply terminals are loose, Check the power supply POFF magnetic contactor power supply voltage fluctuates serious, the Ask the factory or agent for help action error main circuit contactor is open...

  • Page 97: Maintenance

    V5 series inverter Maintenance 6-1. Maintenance Environment effections such as ambient temperature, humidity, fog, internal component aging and other factors will give rise to the occurrence of potential faults. Therefore, it is necessary to daily check and routine maintain the inverters. 6-1-1.

  • Page 98: Warranty Of The Inverter

    (3)Running time : below 12 hours per day. 6-3. Warranty of the inverter Xinje Company will offer warranty service in the case of the following situations: (1) The warranty range only points to the inverter; (2) We will take the responsibility of 15 months defects liability period for any faults or damages under the normal opera- tion conditions.

  • Page 99: Communication Protocol

    V5 series inverter Communication Protocol 7-1. Overview of communication protocol The inverters supply RS485 communication port and adopt MODBUS startded communication proto- col. Therefore, the inverter can be set as a slave to communicate with the marter (such as PLC and PC) which has the same communicatin port and protocol;...

  • Page 100: Communication Protocol Modes

    V5 series inverter 7-2-2. Communication protocol modes The inverter can be master and slave in RS485 network. If it is master, it can control other inverters made by our company to realize multi-machine linkage.If it is slave, PC or PLC (master) can control it. The concrete communication modes are shown below: (1) The inverter is slave, master-slave point-to-point mode.
  • Page 101 V5 series inverter START Keep no signal input > =10ms Address Communication address: 8-bit binary address Function Function code: 8-bit binary address DATA (n - 1) Data: …………… N*8-bit data, N< =8, Max=8 bit DATA 0 CRC CHK Low CRC parity code CRC CHK High 16-bit CRC parity code is combined by 2 8-bit binary value Keep no signal I/O >...
  • Page 102 V5 series inverter Data Data CRC CHECK Low CRC CHECK Low CRC CHECK High CRC CHECK High (3) Command mode: 08H circuit test This command is used to test if the communication between the device (master) and inverter (slave) is normal.

  • Page 103: 7-3-3.Communication Parameter

    V5 series inverter sent. The receiving device will calculate the CRC again and compare to the received CRC value. If the two value are not the same, discard this frame and receive the next frame. 7-3-3.Communication parameter Name Parameter address Function Internal parameters setting GGnnH...
  • Page 104 V5 series inverter Bit3: X4 Bit4: X5 Bit5: X6 Bit6: FWD Bit7: REV Bit8: OC Bit9: relay output GGnnH Read data of function (GG: Group No. Inverter responses to the data code (03H) of function code nn: (When use Modbus address, the nn must be turned into hex) function code No.) GGnnH (GG: Group No.

  • Page 105: Appendix A Accessories

    V5 series inverter Appendix A Accessories A-1. Brake resistor 1.5~18.5KW (not including VB5-21P5, VB5-22P2) inverters have built-in brake unit. Please select brake unit as table 1-1. 22KW and above inverters need to connect brake unit. Please refer to Fig. 1-1 for wiring.

  • Page 106: A-2. Operate Panel

    Mounting dimension W*H Operate panel Power (KW) Suitable model (mm) 0.75~2.2 VB5 series single-phase V5-OPU-01 0.75~3.7 VB3, VB5 series 3-phase 62*75 5.5~7.5 VB5 series 3-phase V5-OPU-03 11~55 V5 series 71*131 A-3. Extension cable of operate panel The frequency inverter will be attached with 0.3m extension cable when out of factory. Besides, we also provide 0.5m, 1.0m, and 1.5m extension cables.

  • Page 107: Appendix B Function Configuration List

    The terminal and function of inverter is shown in table 1~3: Note: ○ user selection × not support √ support Table 1: Power Current Voltage level Type Vector RS485 Brake unit Brake resistor (KW) VB3-20P7 0.75 × √ × 220V/ VB5-20P7 0.75 × √ Built-in 150Ω/200W○ 1-phase VB5-21P5 ×...
  • Page 108 V5 series inverter Table 2: Multi-funtion Transistor output Voltage level Type Pulse input X6 Relay output input VB3-20P7 X1~X3 × √ × 220V/ VB5-20P7 X1~X3 × √ × 1-phase VB5-21P5 X1~X3 × √ × VB5-22P2 X1~X3 × √ × 380V/...
  • Page 109 Pulse out- Analog External Voltage put DO input VI Analog input CI Analog output AO power supply Type level (compati- ble digital) (0~10V) (0~10V/4~20mA) (0~10V/4~20mA) VB3-20P7 × × √ × × √ 220V/ VB5-20P7 × × √ × × √ 1-phase VB5-21P5 ×...
  • Page 110 Xinje Electronic Co., Ltd. 4th Floor Building 7,Orignality Industry park, Liyuan Development Zone, Wuxi City, Jiangsu Province, China 214072 Tel: 86-510-85134136 Fax: 86-510-85111290...

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