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Chziri ZVF300H User Manual
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Chziri ZVF300H User Manual

Vector inverter
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ZVF300H Vector Inverter
User's Manual
Manufacturer:Zhejiang Ziri Electrical Technology Co.,Ltd.
Add:No.66,Daqiao Road,Liushi Town,Yueqing City,325604,
Zhejiang,China.
Tel:+86-577-27863300
Http://www.chziri.com

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Summary of Contents for Chziri ZVF300H

  • Page 1 ZVF300H Vector Inverter User's Manual Manufacturer:Zhejiang Ziri Electrical Technology Co.,Ltd. Add:No.66,Daqiao Road,Liushi Town,Yueqing City,325604, Zhejiang,China. Tel:+86-577-27863300 Http://www.chziri.com...
  • Page 3 ZVF300H ZVF300H Software Version::V3.75 Printing Date:2020-09...
  • Page 4 P1-P8 P9-P17 P18-P38 P39-P42...
  • Page 5 P43-P50 P51-P170 6.2 Detailed function description P171-P175 P171 P174 P176-P181 P176 P180 P181 P182-P185 P182 P185 P186 P186 P187-P214 P187 P190 P198 P214...
  • Page 9 method.
  • Page 10 personnal...
  • Page 11 suitable...
  • Page 13 Figure 1-5. Three phase AC Power supply...
  • Page 14 300H G5R5/P7R5 M:Integrated IGBT S:Discrete Module Motor Power Code 5.5kW 7.5kW Inverter Model Adaptive Motor Power Inverter Power Rating Output Power Rating Product Serial Number...
  • Page 15 Board...
  • Page 16 Board...
  • Page 17 Board 3. Cabinet Body 8.The door of cabinet...
  • Page 18 Inverter Model Input Voltage Rated Output Adaptive Motor (G:Constant torque load) Power(kW) Current (A) (P:Variable torque load) ZVF300H-G0R4T2/S2 200-240 ZVF300H-G0R7T2/S2 200-240 0.75 ZVF300H-G1R5T2/S2 200-240 ZVF300H-G2R2T2/S2 200-240 10.0 ZVF300H-G3R7T2/S2 200-240 16.0 ZVF300H-G5R5T2 200-240 ZVF300H-G7R5T2 200-240 ZVF300H-G011T2 200-240 ZVF300H-G015T2 200-240 ZVF300H-G018T2 200-240 18.5...
  • Page 19 Inverter Model Input Voltage Rated Output Adaptive Motor (G:Constant torque load) Power(kW) Current (A) (P:Variable torque load) ZVF300H-G7R5/P011T4 360-440 17/25 7.5/11 360-440 ZVF300H-G011/P015T4 25/32 11/15 ZVF300H-G015/P018T4 360-440 32/37 15/18.5 360-440 ZVF300H-G018/P022T4 37/45 18.5/22 ZVF300H-G022/P030T4 360-440 45/60 22/30 ZVF300H-G030/P037T4 360-440 60/75...
  • Page 20 200-240VAC. 360-440VAC.50Hz/60Hz ±10% ±5% Frequency Sensorless vector control (SVC), V/F control, Torque control 50.00Hz...
  • Page 29 Potentiometer input Analog Signal Output or analog voltage (0-10VDC or 0-20mA) input (0-10VDC) Analog current Analog Signal Output input (0-20mA) ( 0-20mA) RS485 COM Port 24V Power Output Port Fig.3-16 Basic wiring diagram Applicable to model: ZVF300H-G0R4T2~055T2 ZVF300H-G0R4S2~3R7S2 ZVF300H-G0R7T4~132T4 ZVF300H-P4R0T4~160T4...
  • Page 30 Open collector Output Analog Signal Output Potentiometer input (0-10VDC or 0-20mA) or analog voltage input (0-10VDC) Analog current Analog Signal Output input (0-20mA) ( 0-20mA) Rs485 COM Port 24V Power Output Port diagram Applicable to model : ZVF300H-G075T2~ 110T2 ZVF300H-G160T4~630T4 ZVF300H-P185T4~630T4...
  • Page 33 ZVF300H Applicable to model : ZVF300H-G0R4T2~3R7T2 ZVF300H-G0R7T4~7R5T4 ZVF300H-P4R0T4~011T4...
  • Page 34 Applicable to model : ZVF300H-G5R5T2~7R5T2 ZVF300H-G011T4~015T4 ZVF300H-P015T4~018T4 motor Applicable to model : ZVF300H-G011T2 ZVF300H-P022T4~030T4 ZVF300H-G018T4~022T4...
  • Page 35 380V connect to three braking (3PH 220V)input power supply phase AC motor resistor Applicable to model : ZVF300H-G015T2~055T2 ZVF300H-G030T4~132T4, ZVF300H-P037T4~160T4 Three phase 380V (3PH 220V) Input power supply Applicable to model : ZVF300H-G075T2~110T2 ZVF300H-G160T4~ 630T4, ZVF300H-P185T4~ 630T4...
  • Page 36 External DC reactor terminal, connect to both ends of the DC reactor G011T2, G022T4 and the smaller power inverters are equipped with a built-in braking unit. When an external braking resistor is required, an external braking resistor can be connected between P and DB terminals; G015~G037T2 and G030~G75T4 inverters are optional to install built-in braking unit, After installation, an external braking resistor can be connected between terminal P and DB;...
  • Page 37 +10V +24V 485+ 485- 485+ 485- +10V +24V A02 PE X7 X8 +24V...
  • Page 38 Terminal Types Function Description Electrical Specifications Symbols Public port Digital signal public terminal Valid only when there is a short circuit between Multi- Xn (n=1, 2, 3, 4,5, 6,7,8) INPUT, 0~24 power level, function and COM. The functions low level valid,5mA Input can be set by the parameter Terminal...
  • Page 39 current OUTPUT,0-10v DC voltage OUTPUT 0 20mA DC Current Programmable analog output with reference of GND. OUTPUT 0 20mA DC Current 24VDC power output Power Port +24V 24VDC-100mA (control power supply) NO:240VAC-3A NC:240VAC-1A Communication signal positive 485+ Communication Terminal Communication signal negative 485-...
  • Page 40 No-fuse circuit breaker MCCB Electromagnetic contactor KM Input AC reactor ACL Input EMI filter DC Reactor External braking resistor INVERTER External brake assembly Output EMI filter Output AC reactor ACL...
  • Page 42 Main Circuit(mm ) Control Brake Switch Wire Inverter Model Capacity (A) Input Wire Output Wire (mm ) 6/16 0.75 ZVF300H-G0R4T2/S2 10/20 0.75 ZVF300H-G0R7T2/S2 10/20 0.75 ZVF300H-G1R5T2/S2 16/32 0.75 ZVF300H-G2R2T2/S2 0.75 ZVF300H-G3R7T2/S2 0.75 ZVF300H-G5R5T2 0.75 ZVF300H-G7R5T2 0.75 ZVF300H-G011T2 0.75 ZVF300H-G015T2 0.75 ZVF300H-G018T2 0.75...
  • Page 43 Main Circuit(mm ) Control Brake Switch Wire Inverter Model Capacity (A) Input Wire Output Wire (mm ) 0.75 ZVF300H-G011/P011T4 0.75 ZVF300H-G015/P015T4 0.75 ZVF300H-G018/P018T4 0.75 ZVF300H-G022/P022T4 0.75 ZVF300H-G030/P030T4 0.75 ZVF300H-G037/P037T4 0.75 ZVF300H-G045/P045T4 0.75 ZVF300H-G055/P055T4 0.75 ZVF300H-G075/P075T4 ZVF300H-G090/P090T4 0.75 0.75 ZVF300H-G110/P110T4 0.75...
  • Page 44 ZVF300H ZVF300H...
  • Page 48 till...
  • Page 49 ZVF300H...
  • Page 54 Setting/Given Signal Feedback signal F0.01- Running channel source selection .F0.01=1-External terminal control F  0.03-Main frequency channel source selection. F0.03=5-PID Control F  5.00-Input terminal X1 function selection .F5.00=1-Forward Running. F  5.01- Input terminal X2 function selection .F5.01=7-External reset input. F ...
  • Page 55 F  9.06—Differential time Td. Set according to the actual request. F  9.07-Sampling cycle T: No need to change. F  9.08-Bias limit .Set according to the actual request. F  9.11— feedback gain :Set according to actual request. F ...

  • Page 56: Function Parameters

    Chapter 6 Detailed function description Chapter 6 Detailed function description 6.1 Function Parameters 6.1.1 F0 Group Basic function Runn Factory Setting Range Code Name Min.Unit setting Modifi cation 0:NO PG vector control 1:V/F control 2:Torque control Speed control mode F0.00 ×...
  • Page 57 Chapter 6 Detailed function description 6.1.1 F0 Group Basic function Continued) Runn Factory Setting Range Code Name Min.Unit setting Modifi cation 0:Valid , save the parameters when the inverter is powered off 1:Valid .the value can not be saved Keyboard and when the inverter is powered off terminal F0.02...
  • Page 58 Chapter 6 Detailed function description 6.1.1 F0 Group Basic function(Continued) Runn Factory Setting Range Code Name Min.Unit setting Modifi cation keypad setting √ 0.00~F0.04(Max. Frequency) F0.07 0.01Hz 50.00Hz frequency Acceleration Depend on √ F0.08 0.1~3600.0s 0.1s time 1 the model Deceleration Depend on √...
  • Page 59 Chapter 6 Detailed function description 6.1.1 F0 Group Basic function Continued) Runn Factory Setting Range Code Name Min.Unit setting Modifi cation LED Unit’s Place: Operand 1 LED Decade: Operand 2 LED Hundreds place: Operand 3 Thousands place: Reserved 0:Keypad Potentiometer Combination 1:Keypad or Encoder √...
  • Page 60 Chapter 6 Detailed function description 6.1.2 F1 Group start and stop control Runn Factory Factory setting Code Name Min.Unit setting Modifi cation 0:Start directly × 1:DC braking and start F1.00 Start Mode 2:Speed tracking starting Direct starting √ F1.01 0.00~50.00Hz 0.01Hz 1.50Hz frequency...
  • Page 61 Chapter 6 Detailed function description 6.1.2 F1 Group start and stop control (Continued) Runn Factory Factory setting Code Name Min.Unit setting Modifi cation DC braking current √ F1.08 0.0~150.0% 0.1% 0.0% at stopping DC braking time √ 0.0~50.0s 0.1s 0.0s F1.09 at stopping Dead time of...
  • Page 62 Chapter 6 Detailed function description 6.1.3 F2 Group Motor parameters Runn Factory Factory setting Code Name Min.Unit setting Modifi cation 0:G Type Depend on Inverter Type × F2.00 1:P Type model Depend on ~ 0.1kW Motor rated power 700.0kW × F2.01 model Motor rated...
  • Page 63 Chapter 6 Detailed function description 6.1.4 F3 Group Vector control Runn Factory Factory setting Code Name Min.Unit setting Modifi cation Proportional gain ~ √ 10000 F3.00 1 of speed loop Integration time 1 √ F3.01 0.01s 2.00s 0.01~100.00s of speed loop Low switching point √...
  • Page 64 Chapter 6 Detailed function description 6.1.5 F4 Group V/F Control Runn Factory Factory setting Code Name Min.Unit setting Modifi cation 0: Linear V/F Curve 1:Square V/F Curve 2:User Setting V/F Curve × V/F Curve Setting 3.1.25power V/F Curve F4.00 4.1.7 power V/F Curve 5.
  • Page 65 Chapter 6 Detailed function description 6.1.6 F5 Group Input terminal Runn Factory Factory setting Code Name Min.Unit setting Modifi cation 0:No function X1 terminal × F5.00 1:Forward running function selection 2:Reverse running 3:3-Wire running control 4:Jog forward control X2 terminal 5:Jog reverse control ×...
  • Page 66 Chapter 6 Detailed function description 6.1.6 F5 Group Input terminal(continued ) Runn Factory Factory setting Code Name Min.Unit setting Modifi cation ~ F5.08 ON/OFF filter times √ : 2-wire control mode 1 Terminal control 1:2-wire control mode 2 × F5.09 running mode 2:3-wire control mode 1 3:3-wire control mode 2...
  • Page 67 Chapter 6 Detailed function description 6.1.6 F5 Group Input terminal(continued ) Runn Factory Factory setting Code Name Min.Unit setting Modifi cation F5.18 0.00~10.00V 0.01V 10.00V √ ACI upper limit ACI upper limit F5.19 -100.0~100.0% 0.1% 100.0% √ corresponding setting 0.00~10.00s 0.01s 0.10s F5.20...
  • Page 68 Chapter 6 Detailed function description 6.1.7 F6 Group Output terminal Runn Factory Factory setting Code Name Min.Unit setting Modifi cation 0 No output 1:Forward running √ Y1 output selection 2:Reverse running F6.00 3:Fault output 4:Frequency level detection FDT output 5:frequency reached 6:Zero speed running 7:Upper limit frequency reached Y2 output selection...
  • Page 69 Chapter 6 Detailed function description 6.1.7 F6 Group Output terminal (continued ) Runn Factory Factory setting Code Name Min.Unit setting Modifi cation The lower limit √ ~ corresponding to 0.01V 0.00V F6.05 0.00 10.00V the AO1 output AO1 output √ 0.1% 100.0% F6.06...
  • Page 70 Chapter 6 Detailed function description 6.1.7 F6 Group Output terminal (continued ) Runn Factory Factory setting Code Name Min.Unit setting Modifi cation Y2 delay √ F6.15 0.1~3600.0s 0.1s 0.0s conduction time Y2 delay √ F6.16 0.1~3600.0s 0.1s 0.0s shut off time Relay delay √...
  • Page 71 Chapter 6 Detailed function description 8 F7 Group Human-machine interface Runn Factory Factory setting Code Name Min.Unit setting Modifi cation ~ √ The user password F7.00 65535 、 LED Unit’s Place Decade: Running status display options 0x00-0x1F The initial selection 、...
  • Page 72 Chapter 6 Detailed function description 8 F7 Group Human-machine interface(continued ) Runn Factory Factory setting Code Name Min.Unit setting Modifi cation 0~0xFFFF BIT0:Running frequency BIT1:Setting frequency BIT2:DC bus voltage BIT3:Output voltage BIT4:Output current BIT5:running rotation speed BIT6:output power Running state display BIT7:output torque √...
  • Page 73 Chapter 6 Detailed function description 8 F7 Group Human-machine interface(continued ) Runn Factory Factory setting Code Name Min.Unit setting Modifi cation IGBT module F7.09 0.1℃ 0~100.0℃ temperature 0.00~99.9 1.00 Software version F7.10 Accumulated 0~65535h F7.11 running time Runtime password ~ ×...
  • Page 74 Chapter 6 Detailed function description 8 F7 Group Human-machine interface(continued ) Runn Factory Factory setting Code Name Min.Unit setting Modifi cation 9:Input phase failure (LP) 10:Output short circuit(SC) 11:inverter overheat (OH1) 12:Motor overload(OL1) The previous 13:Inverter overload (OL2) F7.15 fault type 14:External fault (EF)...
  • Page 75 Chapter 6 Detailed function description 6.1.9 F8 Group-Enhanced function Runn Factory Factory setting Code Name Min.Unit setting Modifi cation Depend on √ F8.00 Acceleration time 2 0.1~3600.0s 0.1s the model Depend on √ F8.01 Deceleration time 2 0.1~3600.0s 0.1s the model Jog running √...
  • Page 76 Chapter 6 Detailed function description 6.1.9 F8 Group-Enhanced function(continued ) Runn Factory Factory setting Code Name Min.Unit setting Modifi cation 380V Series : √ 115.0~140.0% 0.1% 125.0% (Stardard DC bus voltage) Energy braking F8.16 threshold voltage 220V Series: 115.0~140.0% √ 0.1% 115.0% (Stardard DC bus voltage)...
  • Page 77 Chapter 6 Detailed function description 6.1.10 F9 Group PID control Runn Factory Factory setting Code Name Min.Unit setting Modifi cation 0:Keypad(set by F9.01) 1:Analog chanel AVI given 2:Analog chanel ACI given PID given √ F9.00 3:Remote communication given source selection 4:Multi-step speed given 5:keyboard direct given Keyboard preset...
  • Page 78 Chapter 6 Detailed function description 6.1.10 F9 Group PID control (continued ) Runn Factory Factory setting Code Name Min.Unit setting Modifi cation Feedback lost 0.0~100.0% √ 0.1% 0.0% F9.09 detecting value Feedback lost √ 0.0~3600.0s 1.0s F9.10 0.1s detecting time √...
  • Page 79 Chapter 6 Detailed function description 6.1.11 FA Multi- step speed control Runn Factory Factory setting Code Name Min.Unit setting Modifi cation LED Unit’s Place :PLC running mode selection 0:invalid 1:single circulation 2:continuous circulation 3:single circulation keep the final value . LED Decade;PLC input selection 0:automatic control 1:Terminal Control...
  • Page 80 Chapter 6 Detailed function description 6.1.11 FA Multi- step speed control(continued ) Runn Factory Factory setting Code Name Min.Unit setting Modifi cation √ FA.05 Multi-step speed 5 F0.06-F0.04 0.01Hz 0.00Hz √ FA.06 Multi-step speed 6 F0.06-F0.04 0.01Hz 0.00Hz √ FA.07 Multi-step speed 7 F0.06-F0.04 0.01Hz...
  • Page 81 Chapter 6 Detailed function description 6.1.11 FA Multi- step speed control(continued ) Runn Factory Factory setting Code Name Min.Unit setting Modifi cation 0: Mode 1 :Linear Operation 1: Mode 2( No wait time) √ FA.18 Curve selection Gradual Operation 0:External Control Multi-speed direction √...
  • Page 82 Chapter 6 Detailed function description 6.1.11 FA Multi- step speed control(continued ) Runn Factory Factory setting Code Name Min.Unit setting Modifi cation Unit’s Place : Multi-Speed 5 FA.20-FA.27 Decade : Multi-Speed 6 FA.20-FA.27 Acceleration √ FA.29 0x1111 Hundreds place : Multi-Speed 7 Selection 2 FA.20-FA.27 Thousands place :Multi-Speed 8...
  • Page 83 Chapter 6 Detailed function description 6.1.11 FA Multi- step speed control(continued ) Runn Factory Factory setting Code Name Min.Unit setting Modifi cation Unit’s Place : Multi-Speed 5 FA.20-FA.27 Decade: Multi-Speed 6 Deceleration FA.20-FA.27 √ FA.33 0x1111 Selection 2 Hundreds place : Multi-Speed 7 FA.20-FA.27 Thousands place :Multi-Speed 8 FA.20-FA.27...
  • Page 84 Chapter 6 Detailed function description 6.1.11 FA Multi- step speed control(continued ) Runn Factory Factory setting Code Name Min.Unit setting Modifi cation Unit’s Place : Multi-Speed 5 (0-1) 0:Forward 1:Reverse Decade:: Multi-Speed 6 (0-1) 0:Forward 1:Reverse Direction √ FA.37 0x0000 Hundreds place: Multi-Speed 7 Selection 2 (0-1) 0:Forward 1:Reverse...
  • Page 85 Chapter 6 Detailed function description 6.1.11 FA Multi- step speed control(continued ) Runn Factory Factory setting Code Name Min.Unit setting Modifi cation 0.1S 0.0S √ FA.43 PLC Running Time 4 0.0-6553.5 S(Min) (min) (Min) 0.1S 0.0S √ FA.44 PLC Running Time 5 0.0-6553.5 S(Min) (min) (Min)
  • Page 86 Chapter 6 Detailed function description 6.1.12 Fb Protection function Runn Factory Factory setting Code Name Min.Unit setting Modifi cation 0:Disable. 1:normal motor Motor overload × (with low speed compensation) Fb.00 protection 2:variable frequency motor (without low speed compensation ) ~ Motor overload 20.0 120.0%...
  • Page 87 Chapter 6 Detailed function description 6.1.13 Fc Group communication parameters Runn Factory Factory setting Code Name Min.Unit setting Modifi cation ~ √ 247,0 is broadcast address FC.00 Local address : 1200bps 3:9600bps √ FC.01 aud rate selection 1:2400bps 4:19200bps 2:4800bps 5:38400bps 0:No parity(N,8,1)for RTU 1:Even parity(E,8,1)for RTU...
  • Page 88 Chapter 6 Detailed function description 6.1.13 Fc Group communication parameters (continued ) Runn Factory Factory setting Code Name Min.Unit setting Modifi cation : Alarm and coast to stop 1:Do not alarm and keep running 2:Do not alarm and stop at the Communication stopping method( only for √...
  • Page 89 Chapter 6 Detailed function description 6.1.14 Fd Group Supplementary function Runn Factory Factory setting Code Name Min.Unit setting Modifi cation Low-frequency ~ threshold of √ Fd.00 restraining oscillation High-frequency threshold of √ Fd.01 0~500 restraining oscillation Amplitude of √ Fd.02 0~100 restraining oscillation Threshold high-low...
  • Page 90 Chapter 6 Detailed function description 6.1.14 Fd Group Supplementary function (continued ) Runn Factory Factory setting Code Name Min.Unit setting Modifi cation ~ Keypad torque 200.0 200.0% √ Fd.07 0.1% 50.0% setting (the rated current of inverter) : Keypad setting upper limit frequency(F0.05)...
  • Page 91 Chapter 6 Detailed function description 6.2 Detailed function description F0 Group-Basic function F0.00 Speed control mode Setting Range: 0~3 Factory setting : 1 This function is used to select the control mode of the inverter. 0: NO PG vector control Sensorless vector control(SVC).It means open-loop vector contro, applied to occasions without PG,high-performance general-purpose , an inverter can drive a motor .
  • Page 92 Chapter 6 Detailed function description F0.01 Run command channel Setting Range:0~2 Factory setting: 0 This function is used to set the inverter receive the control mode which forward, reverse, jog and stop ect control command. 0: Keyboad command channel To control the inverter start and stop by the key RUN、STOP、REV/JOG On the keypad.
  • Page 93 Chapter 6 Detailed function description 2:UP/DOWN setting is valid . 3:valid during running ,the frequency setting value will be clear automatically when the inverter stops . When the factory setting is restored ,the value of keypad and UP/DOWN will be cleared . F0.03 Frequency command selection Setting range :0~12 Factory setting : 0...
  • Page 94 Chapter 6 Detailed function description 5 PID control setting 12.Common PID control setting The inverter mode is PID control when this parameter is selected .It’s necessary to set F9 group “PID control group”. The inverter running frequency is the frequency value after PIF control .
  • Page 95 Chapter 6 Detailed function description Set the maximum output frequency of inverter .It’s thefoundation of frequency settings .and also the basis of speed acceleration and deceleration .Please pay attention to it. F0.05 Upper limit frequency Setting range:F0.06~F0.04 Factory Setting :50.00Hz F0.06 Lower limit frequency Setting range:0.00~F0.05 Factory Setting:0.00Hz...
  • Page 96 Chapter 6 Detailed function description The acceleration time is the time of accelerating from 0Hz to Maximum frequency. The deceleration time is the time of decelerating from maximum frequency to 0Hz. Please refer to the Figure6-1. Figure 6-1 Acceleration and deceleration time F0.10 Running direction selection Setting range:0~2 Factory setting: 0...
  • Page 97 Chapter 6 Detailed function description Setting Range of 220V Series 380V Series Carrier Frequency 0.4-3.7kW 0.75-7.5kW 1.0-15.0kHz Figure 6-2 Carrier Frequency The advantage of high carrier frequency : ideal current waveform ,little current harmonic wave and motor noise . T  he disadvantage of high carrier frequency L increasing the switch loss .inceasing the inverter termperature and the impact to the output catacity .the inverter needs to derate on high carrier frequency .at the time ,the leakage...
  • Page 98 Chapter 6 Detailed function description 1:Rotation autotuning Do not coonect any load to the motor when performing autotuning and ensure the motor is in static state. Input the nameplate parameters of motor ((F2.01~F2.05)) correctly before performing autotuning . Otherwise the parameter detected by autotuning will be incorrect .
  • Page 99 Chapter 6 Detailed function description F0.13 Restore parameters Setting range: 0~5 Factory setting: 0 : 0 No action 1:Restore the default value to 380V/50Hz Restore all parameters F0~Fd to factory setting except F2 group. 2:Clear fault records Inverter clear all fault records. :...
  • Page 100 Chapter 6 Detailed function description LED Decade: Operand 2 0:Keypad Potentiometer 4:AVI 1:Keypad or Encoder 5:ACI 2:Reseve 6: External Pulse Setting 3:Communication 7: Multi-speed stage LED Hundreds place: Operand 3 0:Keypad Potentiometer 4:AVI 1:Keypad or Encoder 5:ACI 2:Reseve 6: External Pulse Setting 3:Communication 7: Multi-speed stage Thousands place:...
  • Page 101 Chapter 6 Detailed function description LED Hundreds 、Thousands place: Reserved. F0.15、F0.16 will be valid only when F0.03=11 ,The Parameter’s algorithm formula is shown below:(Operand 1) Algorithm 1 (Operand 2) Algorithm 2 (Operand 3) If the decade digit of F0.16 is set to 5, the operand 3 will anticipate in algorithm composed of two figures (Operand 1 and Operand 2).
  • Page 102 Chapter 6 Detailed function description 1: In addition to the digital frequency setting and this parameter,other parameters prohibited rewritten. F0.18 Acceleration and deceleration mode selection Setting Range :0~1 Factory Setting: 0 0:Linear Accel/Decel. The Output frequency increase or decreases with a constant rate . 1:S-Curve Accel/Decel To reduce the noise and vibration of the mechanical system,It can slowly change the output frequency at the initial and ending segments of Accel/Decel.as shown in...
  • Page 103 Chapter 6 Detailed function description S curve end segement as shown in Fig.6-3. The slope of the output frequency decrease process. A combination of the above parameters, especially for transmission, handling and other load start and stop the process. F1 Group- Start and stop control F1.00 Start Mode Setting range: 0~2 Factory setting: 0...
  • Page 104 Chapter 6 Detailed function description Figure 6-4 Start and stop frequency output curve F1.03 DC braking current before start. Setting range:0.0~150.0% Factory setting:0.0 % F1.04 DC braking time before start Setting range:0.0~50.0s Factory setting:0.0s DC braking current before start: The inverter start at DC starting . the braking current percentage .
  • Page 105 Chapter 6 Detailed function description F1.05 Stop mode Setting range :0~1 Factory setting: 0 0:Ramp to stop When the stop command takes affect. The inverter decreases the output frequency according to the selected acceleration/deceleration time till stop. 1:Coast/Free stop When the stop command takes affect,the inverter blocks the output immediately. the motor coasts to stop by its mechanical inertia .
  • Page 106 Chapter 6 Detailed function description The current of DC braking at stopping set too high .The inverter is easy to trip . Please set the current from small to bigger . There is no DC braking when the DC braking time at stopping set to 0.0S.
  • Page 107 Chapter 6 Detailed function description 0:Command invalid when powered on . Although detected effective commandof terminal in process of powered on . the inverter will not run .the system is running is the protection state until withdrawal of the terminal operation command .and then enable the terminal.inverter will run . 1:Command valid when powered on That is to say when the inverter is in the process of powered on .
  • Page 108 Chapter 6 Detailed function description Hundred’s place Unit’s place Decade Place Figure 6-6 Terminal slection setting diagram F1.13 Power off Restart Mode Selection Setting range:1-3 Factory setting 0 F1.14 Power Cut Restart Wait Time Setting range: 0.0-20.0S Factory setting : 0.5S F2 Group- Motor parameters F2.00 Inverter Type Setting range:0~1...
  • Page 109 Chapter 6 Detailed function description F2.02 Motor rated frequency Settig range:0.01-600.00Hz Factory setting:50.00Hz F2.03 Motor rated speed Settig range :0~36000rpm Factory setting: depend on model F2.04 Motor rated voltage Settig range:0~460V Factory setting: depend on model F2.05 Motor rated current Settig range:0.1~2000.0A Factory setting: depend on model In order to achieve superior performance .Please set these parameters according...
  • Page 110 Chapter 6 Detailed function description F2.10 Current without load Setting range :0.01~655.35A Factory setting: depend on model The above parameters is the necessary parameters for vector control . The value of F2.06~F2.10 will be sutomatically updated after auto tuning . Do not change these parameters arbitrarily .otherwise it may deteriotate the control performance of inverter .
  • Page 111 Chapter 6 Detailed function description By setting the ratio the speed regulator factors and integration time .you can adjust the speed of dynamic response characteristics of vector control .Increase the proportional gain .reducing the integtation time can speed up the daynamics of the corresponding ring .But the proportional gain is too large or too small intergtation time are easily lead to system oscillation .overshoot is too large .
  • Page 112 Chapter 6 Detailed function description F3.08 Torque dynamic friction coefficient Setting range:0.000~1.000 Factory setting:0.125 F3.09 Empty load current compensation coefficients Setting range:0.000~9.999 Factory setting:0.800 F3.10 Torque static friction coefficient Setting range:0.00-10.00 Factory setting:2.00 Torque dynamic friction coefficient is used to adjust the operation of the motor torque value;...
  • Page 113 Chapter 6 Detailed function description 2:User-defined Setting V/F Curve When delecting this mode .just set the expected V/F curve through F4.06-F4.11. As shown in Fig.6-10. 3.1.25 Power V/F Curve 4.1.7 power V/F Curve 5. 3 power V/F Curve 6. 4 power V/F Curve Peameters values 3-6 aply to torque-dropped loadsp such as fans and water pumps.See Fig.6-9 Output voltage(V)
  • Page 114 Chapter 6 Detailed function description F4.02 Torque boost cutoff Setting range : 0.0~50.0% Factory setting : 20% Torque boost will take effect when output frequency is less than cut-off frequency of torque boost (F4.02).The boosting V/F curve as shown in 6-9(1).Torque boost can improve the torque performance of V/F control at low speed .
  • Page 115 Chapter 6 Detailed function description If the torque boost too high . It will appear the inverter over current protection . and will lead to the motor couldn’t start normally . At this time It is reasonable toIf the motor working at low frequency for long time .The heat dissipation will become bad .At this time .if the torque boosting value set too high and Intensified this phenomenon.
  • Page 116 Chapter 6 Detailed function description This function is applicable for fan and pump and other load. Auto energy saving running is invliad during acceleration and deceleration running . F4.05 Reserved F4.06 V/F Frequency Value F1 Setting range: 0.00~F4.08 Factory setting: 12.50Hz F4.07 V/F Voltage Value V1 Setting range: 0.00~F4.09 Factory setting:25.00%...
  • Page 117 Chapter 6 Detailed function description F4.12 Low voltage protection selection Setting range :0-1 Factory setting:0 0:Enabled 1:Disable F5 Group-Input terminals F5.00 X1 input terminal selection Setting range:0~34 Factory setting: 1 F5.01 X2 input terminal selection Setting range:0~34 Factory setting: 2 F5.02 X3 input terminal selection Setting range:0~34 Factory setting...
  • Page 118 Chapter 6 Detailed function description 0:No function 1:Forward running 2: Reverse running The inverter running command is given by the above terminal when the running command channel is terminal control . 3:3-Wire control Please refer to the description of P5.09. 4:Jog forward control 5: Jog reverse control Frequency acceleration and deceleration of jog running .Please refer to description...
  • Page 119 Chapter 6 Detailed function description Frequency UP/DOWN clearance is to clear the setting value through UP/DOWN .the given frequency to return to a given frequency by the frequency command channel. 12:Multi-step speed terminal 1 13: Multi-step speed terminal 2 14: Multi-step speed terminal 3 15: Multi-step speed terminal 4 16 steps speed control can be realized by the combination of these four terminal .
  • Page 120 Chapter 6 Detailed function description Table 6-1 Multi-step speed selection Multi-step Multi-step Multi-step Multi-step Multi-step speed speed speed speed speed selection terminal 4 terminal 3 terminal 2 terminal1 4th step of multi-step speed.The running frequency set by FA.04. 5th step of multi-step speed.The running frequency set by FA.05.
  • Page 121 Chapter 6 Detailed function description Table 6-1 Multi-step speed selection Multi-step Multi-step Multi-step Multi-step Multi-step speed speed speed speed speed selection terminal 4 terminal 3 terminal 2 terminal1 10th step of multi-step speed.The running frequency set by FA.10. 11th step of multi-step speed.The running frequency set by FA.11.
  • Page 122 Chapter 6 Detailed function description Table 6-1 Multi-step speed selection Multi-step Multi-step Multi-step Multi-step Multi-step speed speed speed speed speed selection terminal 4 terminal 3 terminal 2 terminal1 16 th step of multi-step speed.The running frequency set by FA.16. Note: ON stand for COM port connection . OFF stand for COM port disconnect . 16:Acceleration and deceleration time selection Select two kinds of acc.and dec.
  • Page 123 Chapter 6 Detailed function description 20:Acceleration and deceleration prohibition Ensure the inverter keeo away from the external signal (except the stopping command) and maintain the current output frequency . 21:Disable torque control The inverter will work shifting from torque control to speed control mode . 22:Clear frequency acc.and dec.
  • Page 124 Chapter 6 Detailed function description 30:PLC reset When selecting PLC function . whether automatically input or terminal manual input .Closing the terminal will clear the internal memory of PLC status infromation . Disconnect the terminal .PLC restart . 31:PLC input When PLC input model is terminal valid .
  • Page 125 Chapter 6 Detailed function description F5.09 Terminal control running mode Setting Range:0~3 Factory Setting :0. This parameter defines four different control modes that control the inverter operation through external terminal . 0:2-wire control mode 1 1:2-wire control mode 2 X1 setting : Forward running X2:Reverse running As shown in table 6-3 and table 6-11 Table 6-3 2-wire controlmode running command...
  • Page 126 Chapter 6 Detailed function description 2:3-wire control mode 1 Fig.6-12 3-wire control mode diagram 3:3-wire control mode 2 3-Wire control shown in 6-10.X1 set the Forward running .X2 is reverse running . X3 is 3-wire running control terminal . 3-wire control mode 1 3-wire control mode 2 K1----- running switch K1----- Forward...
  • Page 127 Chapter 6 Detailed function description F5.14 AVI upper limit corresponding setting Setting range:-100.0~100.0% Factory setting:100.0% F5.15 AVIinput filter time Setting range:0.00~10.00s Factory setting: 0.10s F5.16 ACI lower limit Setting range:0.00~10.00V Factory setting:0.00V F5.17 ACI lower limit corresponding setting Setting range:-100.0~100.0% Factory setting:0.0% F5.18 ACI upper limit Setting range:0.00~10.00V...
  • Page 128 Chapter 6 Detailed function description For different applications . the corresponding value of100.0% analog setting is different . For details. Please refer to description of each application .as shown in Figure 6-13. 、linkage proportion setting . Figure 6-13 Analog given and setting F5.26 Center voltage hysteresis loop width Setting Range:0.00~10.00V Factory Setting:0.15V...
  • Page 129 Chapter 6 Detailed function description F6 Group-Output terminals F6.00 Y1 output selection Setting range:0~15 Factory setting: 1 F6.01 Y2 output selection Setting range:0~15 Factory setting: 2 F6.02 Relay output selection Setting range:0~16 Factory setting: 3 This group parameters defines the content represented by the open collector output terminals Y1, Y2, and relay.
  • Page 130 Chapter 6 Detailed function description 9:Running When the inverter is running .ON signal will be output . 10: PLC stage completed Upon the completion of current step of simple PLC running .ON signal with the width of 200ms will be output . 11:PLC cycle completed Upon the completion of a cycle of simple PLC running .ON signal with the width of 200ms will be output .
  • Page 131 Chapter 6 Detailed function description Table 6-4 analog AO1 and digital AO2 output signal Setting Fuction Range Running frequency 0~ Maximum frequency Setting frequency 0~Maximum frequency Motor speed 0~2 xrated synchronous speed of motor Output current 0~2 x inverter rated current Output Voltage 0~1.5 x inverter rated voltage Output power...
  • Page 132 Chapter 6 Detailed function description F6.10 The lower limit corresponding to the AO2 output Setting range:0.00~20.00mA Factory setting:4.00mA F6.11 output upper limiting Setting range:0.0~100.0% Factory setting:100.0% F6.12 The upper limit corresponding to the output Setting range:0.00~20.00mA Factory setting:20.00mA The above function code defines the corresponding relationship between the output value and the analog output.
  • Page 133 Chapter 6 Detailed function description F6.13 Y1 delay conduction time Setting Range :0.1~3600.0s Factory Setting: 0.0s F6.14 Y1 delay shut off time Setting Range:0.1~3600.0s Factory Setting: 0.0s F6.15 Y2 delay conduction time Setting Range:0.1~3600.0s Factory Setting: 0.0s F6.16 Y2 delay shut off time Setting Range:0.1~3600.0s Factory Setting: 0.0s The parameter is used to control the Y1, Y2 conduction and turn-off delay time.
  • Page 134 Chapter 6 Detailed function description the value of parameters F6.19.the corresponding multi-function output terminal (Setting counting value reached ). Output signal will be with a width of the effective period of 200ms, and the counter is cleared. When the count value of the counter reaches a predetermined value of F6.20, the corresponding multi-function output terminal (designated count value) output valid signal.
  • Page 135 Chapter 6 Detailed function description F7 Group-Human-machine interface F7.00 The user password Setting range: 0~65535 Factory setting :0 The password protection function will be valid when set to be any nonzero data . When F7.00 is set to be 0000, the user’s password set before will be cleared and the password protection gunction will be disable .
  • Page 136 Chapter 6 Detailed function description F7.02 Parameter copy Setting range : 0~4 Factory setting : 0 The parameter determines the method of parameter copy . 0:No operation 1:All parameters will be uploaded to keyboard . the functions parameters are copied to the keyboard. 2:All parameters will be download to the machine .
  • Page 137 Chapter 6 Detailed function description 3:Always valid The reset function of STOP/RESET Is always valid . F7.05 Gauge Range Decimal Place Setting range:0~3 Factory setting:2 F7.06 Running state display parameter selection 1 Setting range :0~0xFFFF Factory setting :0x00FF F7.07 Running state display parameter selection 2 Setting Range :0~0x3 Factory setting :0x0 The parameters will display the function code when the inverter is running .
  • Page 138 Chapter 6 Detailed function description F7.08 Stop state display parameter selection Setting range :0~0x7FF Factory setting:0x40F The setting of this function code is the same as that of F7.06. when the inverters are in the stopping state . the displaying of the parameter is determined by the function code.
  • Page 139 Chapter 6 Detailed function description F7.09 IGBT module temperature Setting range: 0.0~100.0℃ Factory Setting:- - - - F7.10 Software version Setting range: 0.00~9.99 Factory Setting:- - - - F7.11 Accumulated running time Setting range: 0~65535 Factory Setting:- - - - F7.12 Reserved F7.13 Reserved F7.14 The previous two fault type...
  • Page 140 Chapter 6 Detailed function description The state of current fault input terminal is displayed as decimal figures.Display the state of all digital input terminals at the latest fault . The order is : BIT7 BIT6 BIT5 BIT4 BIT3 BIT2 BIT1 BIT0 Current input terminal is ON and the corresponding bit is 0.
  • Page 141 Chapter 6 Detailed function description F8.02 Jog frequency Setting range:0.00~F0.04 Factory setting:5.00Hz F8.03 Jog acceleration time Setting range:0.1~3600.0s Factory setting:Depend on model F8.04 Jog deceleration time Setting range:0.1~3600.0s Factory setting:Depend on model The meaning and factory setting of F8.02-f8.04 are shown as Figure 6-16. Figure 6-16 Jog running frequency and Acc./Dec.
  • Page 142 Chapter 6 Detailed function description F8.05 Skip frequency Setting range :0.00~F0.04 Factory setting :0.00Hz F8.06 Skip frequency bandwidth Setting range :0.00~F0.04 Factory setting :0.00Hz The settings of F8.05 -F8.06 is mainly to keep the inverter awya from the mechanical resonance with the load , you can set a skip frequency point. When the skip frequency point is set to 0, the skip frequency is invalid .
  • Page 143 Chapter 6 Detailed function description F8.09 Rise time of traverse Setting range :0.1~3600.0s Factory setting:5.0s F8.10 Fall time of traverse Setting range:0.1~3600.0s Factory setting:5.0s Traverse operation is widely used in textile and chemincal fiber industry . The typical application is hown in the following figure . Traverse function means the output frequency of the inverter wobbles with reference frequency as the centre .
  • Page 144 Chapter 6 Detailed function description Traverse amplitude (AW)= center frequency (CF)*F8.07 Jitter frequency = traverse amplitude(AW)*F8.08 Rise time of traverse: Indicates the time rising from the lowest traverse frequency to the highest traverse frequency . Fall time of traverse: Indicates the time falling from the highest traverse frequency to the lowest traverse frequency.
  • Page 145 Chapter 6 Detailed function description Figure 6-19 DFT level diagram F8.15 Frequency arrival detecting range Setting range :0.0~100.0% Factory setting :0.0% When the output frequency is within the positive and negative deteacting range of the setting frequency . The selected output terminal is valid output signal (low level), As shown in Figure 6-20.
  • Page 146 Chapter 6 Detailed function description F8.16 Energy Brake threshold voltage Setting range :115.0~140.0% Factory setting :125.0% The function code is used to set the original bus voltage of the energy braking (380V series is 530V, 220V series is 310V).Adjust the value properly can be brake the load effectively .
  • Page 147 Chapter 6 Detailed function description F8.20 Overload pre-alram level Setting Range :0.0~150.0% Factory setting: 130.0% F8.21 Overload detection time Setting Range:0.0~6500.0s Factory setting:5.0s Overload pre-alarm level defines the current threshold of overload pre-alarm action . the setting range is relative to the percentage of rated current .The general overload pre-alarm level should be set lower than the overload protection level.
  • Page 148 Chapter 6 Detailed function description Target value Figure 6-22 PID control diagram F9.00 PID given source selection Setting range :0~5 Factory setting :0 0:Keypad(F9.01) 1:Analog chanel AVI given 2:Analog chanel ACI given 3:Remote communication given 4:Multi-step speed given 5: keyboard direct given When frequency source select PID , F0.03 set to 5.F9 group function will be effect .
  • Page 149 Chapter 6 Detailed function description Select F9.00 = 0, the target source is the keyboard given . This parameter is the reference value as the amount of feedback. F9.02 PID feedback source selection Setting range :0~3 Factory setting :0 0:Analog channel AVI feedback 1:Analog channel ACI feedback 2:AVI+ACI feedback 3: Remote communication feedback...
  • Page 150 Chapter 6 Detailed function description F9.05 Integral time Ti Setting range:0.01~100.00s Factory setting:0.10s The Integral time Ti determines the ratio between the output frequency change speed and deviation. Integral role is the output value will integrate according to the deviation , to eliminate the deviation of feedback value and given value . Integration time is too large, the response is slow, slow response to external disturbances.
  • Page 151 Chapter 6 Detailed function description Bias limit defines the maximum bias between the feedback and the preset . PID stops operation when the bias is within this range . Setting this parameter correctly is helpful to improve the system output accuracy and stability . Figure 6-23 Bias limit action diagram F9.09 Feedback lost detecting value Setting range:0.0~100.0%...
  • Page 152 Chapter 6 Detailed function description F9.12 Awakening threshold range Setting range:0.00~F9.16 Factory setting:0.50 MPa F9.13 Awakening threshold detection time Setting range:0.00~360.00s Factory setting:1.00s F9.14 Sleep Frequency Setting range:0.00~F0.04 Factory setting:.30.00Hz F9.15 Sleep Frequency Detection Time Setting range:0.00~360.00s Factory setting:1.00s F9.12 is the water supply system of the pressure threshold from sleep into the working state .
  • Page 153 Chapter 6 Detailed function description F9.16 The gauge range Setting Range :0.00~20.00MPa Factory Setting: 20.00MPa The parameter is used to set the gauge range . F9.17 PID preset frequency Setting Range :0.00~F0.05 Factory Setting:0.00Hz F9.18 Preset frequency maintain time Setting Range:0.00~360.00s Factory Setting:0.00s This parameter is used to set the PID running frequency and time before running.
  • Page 154 Chapter 6 Detailed function description PLC Thousands place: PLC power failure save selection. 0:Non-save after power off 1:save after power off Detailed functions of the operating mode 1:Simple PLC Simple PLC is the inverter can automationcally stop after multi-step speed running completed a cycle .
  • Page 155 Chapter 6 Detailed function description 2:Continuous Cycle The inverter multi-step running repeatedly cycle, the inverter will stop unless stop command given, shown in Figure 6-26 Fig.6-26 PLC / multi-speed continuous cycle running 3:Keep the final value after a single cycle The inverter complete a single cycle .
  • Page 156 Chapter 6 Detailed function description FA.01 Multi-step speed 1 Setting range: F0.06-F0.04 Factory setting:0.00Hz FA.02 Multi-step speed 2 Setting range: F0.06-F0.04 Factory setting: 0.00Hz FA.03 Multi-step speed 3 Setting range: F0.06-F0.04 Factory setting: 0.00Hz FA.04 Multi-step speed 4 Setting range: F0.06-F0.04 Factory setting: 0.00Hz FA.05 Multi-step speed 5 Setting range: F0.06-F0.04...
  • Page 157 Chapter 6 Detailed function description FA.14 Multi-step speed 14 Setting range: F0.06-F0.04 Factory setting: 0.00Hz FA.15 Multi-step speed 15 Setting range: F0.06-F0.04 Factory setting: 0.00Hz FA.16 Multi-step speed 16 Setting range: F0.06-F0.04 Factory setting: 0.00Hz FA.17 Unit of PLC Running time Setting range: 0-1 Factory setting: 0 0:...
  • Page 158 Chapter 6 Detailed function description LINEAR OPERATION Output Frequency STEP 7 STEP 8 STEP 6 STEP 9 STEP 5 STEP 10 STEP 4 STEP 11 STEP 3 Step STEP 12 Time STEP 2 STEP 13 STEP 1 STEP 14 Time 2: Mode 2 (No wait time) -Gradual operation In gradual operation frequency “F”...
  • Page 159 Chapter 6 Detailed function description Multi-speed takes precedence over the keyboard, analog communication frequency input, can select up to 16 steps speed through a combination of coding Xn,specifically refer to the instructions F5 group parameter. the start and stop chanel selection of multi-speed running are also determined by the function code F0.01.
  • Page 160 Chapter 6 Detailed function description Setting Range: Unit’s Place: Multi-Speed 1 FA.20-FA.27. Decade : Multi-Speed 2 FA.20-FA.27. Hundreds place: Multi-Speed 3 FA.20-FA.27. Thousands place:Multi-Speed 4 FA.20-FA.27. FA.29 Acceleration Selection 2 Factory Setting : 0x1111 FA.33 Deceleration Selection 2 Factory Setting: 0x1111 Setting Range: Unit’s Place : Multi-Speed 5 FA.20-FA.27.
  • Page 161 Chapter 6 Detailed function description Setting Range: Unit’s Place : Multi-Speed 13 FA.20-FA.27. Decade: Multi-Speed 14 FA.20-FA.27. Hundreds place : Multi-Speed 15 FA.20-FA.27. Thousands place :Multi-Speed 16 FA.20-FA.27. FA.36 Direction Selection 1 Factory Setting: 0x0000 Setting Range Unit’s Place : Multi-Speed 1 (0-1) 0:Forward 1:Reverse Decade: Multi-Speed 2 (0-1) 0:Forward 1:Reverse...
  • Page 162 Chapter 6 Detailed function description FA.39 Direction Selection 4 Factory Setting: 0x0000 Setting Range Unit’s Place : Multi-Speed 13 (0-1) 0:Forward 1:Reverse Decade: Multi-Speed 14 (0-1) 0:Forward 1:Reverse Hundreds place: Multi-Speed 15 (0-1) 0:Forward 1:Reverse Thousands place: Multi-Speed 16 (0-1) 0:Forward 1:Reverse FA.40 PLC Running Time 1 Setting Range : 0.0-6553.5 S(Min) Factory Setting : 0.0S(Min)
  • Page 163 Chapter 6 Detailed function description FA.50 PLC Running Time 11 Setting Range : 0.0-6553.5 S(Min) Factory Setting : 0.0S(Min) FA.51 PLC Running Time 12 Setting Range : 0.0-6553.5 S(Min) Factory Setting : 0.0S(Min) FA.52 PLC Running Time 13 Setting Range : 0.0-6553.5 S(Min) Factory Setting : 0.0S(Min) FA.53 PLC Running Time 14 Setting Range : 0.0-6553.5 S(Min)
  • Page 164 Chapter 6 Detailed function description Fb.01 Motor overload protection current Setting range:20.0~120.0% Factory setting:100.0% If the power rating of the inverter do not match with the motor , you can modify the parameters to achieve the purpose of protecting the motor. as shown in Figure 6-28. The value cn be determined by the following formula : Motor overload protection current=(motor rated current/inverter rated current)*100%.
  • Page 165 Chapter 6 Detailed function description Momentary power drop frequency point enable the inverter to perform low voltage compensation when DC bus voltage drops below Fb.02. the inverter can continue to run without tripping by reducing its output frequency and feedback energy via motor. Please adjust these two parameters properly .It can avoid in the switch of the power grid .
  • Page 166 Chapter 6 Detailed function description Figure 6-29 Over voltage stall function Fb.06 Auto current limiting threshold Setting range: 20~200% Factory Setting: 160% Fb.07 Frequency decrease rate when current limiting Setting range: 0.00~100.00Hz/s Factory Setting: 10.00Hz/s Auto current limiting is used to limit the current of inverter smaller than the value determined by Fb.06 in real time.
  • Page 167 Chapter 6 Detailed function description Note: * During auto current limiting process, the inverter's output frequency may change; therefore, it is recommended not to enable the function when requires the inverter's output frequency stable. * During auto current limiting process, if Fb.06 is too low, the overload capacity will be impacted.
  • Page 168 Chapter 6 Detailed function description The software detection is only valid for the model G030T4/P037T4and G015T2 and below power.No hardware detection.While there have software and hardware options when the inverter is power bigger than 30kW. Fb.09 Under load protection current Setting Range: 0~150.0 Factory Setting:0 Fb.10 Under load protection time...
  • Page 169 Chapter 6 Detailed function description 0:1200BPS 1:2400BPS 2:4800BPS 3:9600BPS 4:19200BPS 5:38400BPS FC.02 Data bit check setting Setting Range : 0~17 Factory Setting :1 This parameter defines the baud rate in serial communication, and data format used in protocols , only a consistent format can be normal communication. 0:No parity check (...
  • Page 170 Chapter 6 Detailed function description The upper computer and the data format of the inverter must be consistent . Otherwise , Communication can't work . FC.03 Communication answer delay time Setting range: 0~200ms Factory Setting: 5ms Answer delay: The interval time between the data receiving of the inverter and data sending to the upper monitor.
  • Page 171 Chapter 6 Detailed function description 3: Do not alarm and stop at the stopping method (for all communication control modes ) In the abnormal situation, the inverter can act through setting communication fault processing. The selected running state of the inverter is: shield the CE fault, stop or keep running.
  • Page 172 Chapter 6 Detailed function description 0:Keypad or Encoder Setting(FC.08) 1:Annlog AVI setting 2:Annlog ACI setting 3:Multi-stage setting 4:Keyboard or encoder direct setting Fd Group Supplementary function Fd.00 Low-frequency threshold of restraining oscillation Setting range: 0~500 Factory Setting: 5 Fd.01 High-frequency threshold of restraining oscillation Setting range: 0~500 Factory Setting:5 Most motors may have current oscillation at some frequency point.
  • Page 173 Chapter 6 Detailed function description Fd.04 Restrain oscillation ~ Setting range:0 1 Factory setting:1 0:Enabled 1:Disabled Motor always has current oscillation when its load is light. This will cause abnormal operation even over-current. For details, please refer to description of Fd.00~Fd.03. Fd.05 PWM mode Setting range: 0~2 Factory Setting: 0...
  • Page 174 Chapter 6 Detailed function description If Tset<Tload,output frequency will decrease continuously until it reaches lower frequency limit. Inverter can run at any frequency between upper and lower frequency limit only when Tset=Tload。 Torque control can be seitched to speed control, vice versa. Switching by multi-functional terminal: For example, if torque control is enabled (P0.00=2), torque setting source is AVI, the value of multi-function terminal S5 is set to 20 (Disable torque control).
  • Page 175 Chapter 6 Detailed function description The 100% of this parameter is corresponding to 100% of F0.04 ( maximum frequency ). When running at torque control mode, output frequency can be adjusted by changing upper frequency limit. Fd.09 Auto current limiting selection Setting range:0~1 Factory Setting:0 0: Enabled when constant speed...
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  • Page 187 Chapter 9 Outline Dimension & Mounting Dimension 9.1 Inverter Outline Dimension & Mounting Dimension Fig.9-1 (Model A) Inverter Outline & Dimension Dimension(mm) Power Fig. Inverter Model (kW) W W1 ZVF300H-G0R4T2/S2 ZVF300H-G0R7T2/S2 0.75 ZVF300H-G0R7T4 Ф5 Fig 9-1 0.75 ZVF300H-G1R5T4 ZVF300H-G2R2T4 ZVF300H-G1R5T2/S2...
  • Page 188 Fig. 9-2 (Model B) Inverter Outline & Dimension Power Dimension(mm) Fig. Inverter Model (kW) W W1 ZVF300H-G015T2 ZVF300H-G018T2 18.5 Ф7 Fig.9-2 ZVF300H-G030/P037T4 30/37 ZVF300H-G037/P045T4 37/45 ZVF300H-G022T2 ZVF300H-G030T2 Fig.9-2 Ф9 ZVF300H-G045/P055T4 45/55 ZVF300H-G055/P075T4 55/75 ZVF300H-G037T2 ZVF300H-G045T2 ZVF300H-G055T2 ZVF300H-G075/P090T4 Fig.9-2 75/90 Ф9...
  • Page 189 Fig.9-3 (Model C) Inverter Outline & Dimension Power Dimension(mm) Fig. Inverter Model (kW) W W1 ZVF300H-G250/P280T4 Ф13 Fig.9-2 250/280 ZVF300H-G280/P315T4 Fig.9-3 280/315 1300 ZVF300H-G280/P315T4 280/315 Fig.9-3 1600 ZVF300H-G315/P350T4 315/350 ZVF300H-G350/P400T4 350/400 Fig.9-3 1750 ZVF300H-G400/P450T4 400/450 ZVF300H-G450/P500T4 450/500 ZVF300H-G500/P560T4 500/560 Fig.9-3...
  • Page 190 9.2 Keypad Outline Dimension & Mounting Dimension Fig. 9-4 Dimension of E-300 keypad Extra mounting frame shall be assembled when E-300 operation panel is pulled out to install. T  wo installation frame are below :Fig.9-5 .Fig 9-6. Fig.9-5 Hole dimension 1 of keypad. Fig.9-6 Hole dimension 2 of keypad -185-...
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  • Page 192 ZVF300H-G132/P160T4 -187-...
  • Page 193 0.75 Built-in 80W200Ω 80W200Ω Built-in 160W100Ω 160W100Ω 220V Built-in 300W70Ω 300W70Ω Built-in 400W40Ω 400W40Ω 0.75 Built-in 80W750Ω 80W750Ω Built-in 160W400Ω 160W400Ω Built-in 300W250Ω 300W250Ω Built-in 400W150Ω 400W150Ω Built-in 600W100Ω 600W100Ω Built-in 800W75Ω 800W75Ω Built-in 1000W50Ω 1000W50Ω Built-in 1500W40Ω 1500W40Ω 380V 18.5 Built-in 2500W35Ω...
  • Page 194 2. Remote operation adapter and extended cable There are two options for remote operation of ZVF300H series inverters. For the distance ≤ 15m, you can directly use the extended shielded cable to connect with the operation panel. Our company can provide users with 1m, 1.5m, 2m, 3m, 5m, 10m, etc.
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  • Page 203 ZVF300H series inverter adopts the popular MODBUS communication protocol under RS485 communication control. Before using RS485 communication, inverter address, communication baud rate and data format must be manually set, and these parameters cannot be modified during the communication process. MODBUS communication protocol uses two codes: ASCII (American Standard Code for Information Interchange) or RTU (Remote Terminal Unit).
  • Page 204 RTU encoding format, each Byte data is composed of two 4-bit hexadecimal characters, for example: 0x1F RTU means ‘1FH’. Character structure 10-bit character box (for 7-bit characters): (7,N,2) (7,E,1) (7,O,1) 11-bit character box (for 8-bit characters): 8,N,2 -199-...
  • Page 205 (8,E,1) (8,O,1) Communication data structures Communication data format box: ASCII mode: -200-...
  • Page 206 RTU Mode: ADR (Communication Address) The range of legal communication addresses is between 1 and 247. If the communication address is 0, it means to broadcast to all the inverters. In this case, the inverter will not respond to any information to the host. For example, communication to the inverter with address 16 decimal: ASCII Mode:(ADR 1, ADR 0) = ’1’,’0’...
  • Page 207 Function code (Function) and data content (Data Characters) 03: Read the data from the inverter register 06: Write a WORD to the inverter register 08: Loop detection 10: Write multiple WORDs to the inverter register Instruction code: 03H, read the contents of the inverter register. For example: read 2 words continuously from the address 01H and the starting address 2102H of the inverter.
  • Page 208 RTU mode: -203-...
  • Page 209 Command code: 08H, communication loop test This command is used to test the communication between the host (usually PC or PLC) and the inverter is normal or not . and the inverter will return the received data content to the host intact. -204-...
  • Page 210 Command code: 10H, write multiple words to the inverter register. For example: write 5000 (1338H) and 4000 (0FA0H) to the 0500H and 0501H addresses of the inverter with address 01H. RTU mode: -205-...
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  • Page 212 3.5 CHK (check sum) ASCII mode: ASCII mode adopt LRC (Longitudinal Redundancy Check) check sum. The LRC check sum is ADR1 to the last data content and the results is 256 as one unit . the excess parts removes , (For example , the receiving results is hexadecimal 128H only take 28H), Then calculate the two times complement and the getting result is LRC check sum.
  • Page 213 Unsigned int crc_chk(unsigned char* data, unsigned char length){ int j; unsigned int reg_crc=0xFFFF; while(length--){ reg_crc ^= *data++; for(j=0;j\<8;j++){ if(reg_crc & 0x01){ /* LSB(b0)=1 */ reg_crc=(reg_crc>>1) ^ 0xA001; }else{ reg_crc=reg_crc >>1; return reg_crc; The definition of the communication data address The communication data address is used to control the operation of the inverter, get the state information and the rated function parameter setting.
  • Page 214 3.6 The definition of communication of Parameter address: -209-...
  • Page 215 Table:3-1 Table:3-2 -210-...
  • Page 216 Appendix Table :3-1 Data and fault type in 5000H -211-...
  • Page 217 Additional response to error communication: When the inverter are communication connection. The inverter will response to the error code if the error caused, and the maximum unit (bit 7) of the command code set to 1 ( Function code and 80H) and answer to the host The host will know there will be error.
  • Page 218 Appendix Table :3-2 Data and fault type in 5001H -213-...
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