Chziri ZVF300H User Manual Download

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Manufacturer

Zhejiang

Ziri

Electrical

Technology

Ltd

Add

Daqiao

Road

Liushi

Town

Yueqing

City,325604,

Zhejiang,China.

Tel:+86-577-27863300

Http://www.chziri.com

User

Manual

ZVF300H Vector Inverter

Summary of Contents for ZVF300H

Page 1: ...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 User s Manual ZVF300H Vector Inverter ...

Page 2: ......

Page 3: ...Software Version V3 75 Printing Date 2020 09 ZVF300H ZVF300H ...

Page 4: ...P1 P8 P1 P2 P2 P3 P5 P8 P9 P17 P9 P9 P9 P10 P13 P15 P18 P38 P18 P19 P24 P35 P39 P42 P39 ...

Page 5: ...P43 P50 P43 P45 P51 P170 P51 P86 P171 P175 P171 P174 P176 P181 P176 P180 P181 P182 P185 P182 P185 P186 P186 P187 P214 P187 P190 P198 P214 6 2 Detailed function description ...

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Page 9: ...method ...

Page 10: ...not personnal ...

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Page 13: ...Figure 1 5 Three phase AC Power supply ...

Page 14: ...G5R5 P7R5 Motor Power Code 5R5 5 5kW 7R5 7 5kW 300H Inverter Model Adaptive Motor Power Inverter Power Rating Output Power Rating Product Serial Number M Integrated IGBT S Discrete Module ...

Page 15: ...Board ...

Page 16: ...Board ...

Page 17: ...3 Cabinet Body 8 The door of cabinet Board ...

Page 18: ...T2 ZVF300H G045T2 ZVF300H G055T2 ZVF300H G075T2 ZVF300H G090T2 ZVF300H G110T2 ZVF300H G0R7T4 ZVF300H G1R5T4 ZVF300H G2R2T4 ZVF300H G3R7 R5R5T4 ZVF300H G5R5 P7R5T4 200 240 200 240 200 240 200 240 200 240 200 240 200 240 200 240 200 240 200 240 200 240 200 240 200 240 200 240 200 240 200 240 200 240 200 240 360 440 360 440 360 440 360 440 360 440 2 4 4 5 7 0 10 0 16 0 20 30 42 55 70 80 110 130 160 2...

Page 19: ...G315 P350T4 ZVF300H G350 P400T4 ZVF300H G400 P450T4 ZVF300H G450 P500T4 ZVF300H G500 P560T4 ZVF300H G560 P630T4 ZVF300H G630T4 360 440 360 440 360 440 360 440 360 440 360 440 360 440 360 440 360 440 360 440 360 440 360 440 360 440 360 440 360 440 360 440 360 440 360 440 360 440 360 440 360 440 360 440 360 440 360 440 360 440 360 440 17 25 25 32 32 37 37 45 45 60 60 75 75 90 90 110 110 150 150 176 ...

Page 20: ...50 00Hz 5 200 240VAC 360 440VAC 50Hz 60Hz 10 Frequency Sensorless vector control SVC V F control Torque control ...

Page 21: ...150 600 50 ...

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Page 29: ...4 Braking unit Braking resistor Three phase AC Input Power supply Potentiometer input or analog voltage input 0 10VDC Analog current input 0 20mA RS485 COM Port Error Relay Output TA TB on when normal TA TC on when failure Open collector Output Analog Signal Output 0 10VDC or 0 20mA Analog Signal Output 0 20mA 24V Power Output Port ...

Page 30: ...Reactor Three phase AC Input Power supply Potentiometer input or analog voltage input 0 10VDC Analog current input 0 20mA Rs485 COM Port Error Relay Output TA TB on when normal TA TC on when failure Open collector Output Analog Signal Output 0 10VDC or 0 20mA Analog Signal Output 0 20mA 24V Power Output Port ...

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Page 33: ...Applicable to model ZVF300H G0R4T2 3R7T2 ZVF300H G0R7T4 7R5T4 ZVF300H P4R0T4 011T4 ZVF300H ...

Page 34: ...motor Applicable to model ZVF300H G5R5T2 7R5T2 ZVF300H G011T4 015T4 ZVF300H P015T4 018T4 Applicable to model ZVF300H G011T2 ZVF300H G018T4 022T4 ZVF300H P022T4 030T4 ...

Page 35: ...00H P185T4 630T4 three phase 380V 3PH 220V input power supply connect to braking resistor connect to three phase AC motor connect to ground Applicable to model ZVF300H G015T2 055T2 ZVF300H G030T4 132T4 ZVF300H P037T4 160T4 Three phase 380V 3PH 220V Input power supply ...

Page 36: ...ve no built in braking unit so there is no DB terminal If you need to install the braking torque please connect external braking assembly between P and DC including braking unit and braking resistor G022T2 G110T2 G045T4 P350T4 are wall mounted installation without a built in DC reactor For models with terminals P and DC you can add a DC reactor between P and DC when needed When adding connections ...

Page 37: ...COM X6 X5 X4 X3 X2 X1 COM 485 485 24V ACI Y2 Y1 A01 GND AVI 10V TC TB TA COM A02 PE X7 X8 PLC 24V PLC COM X8 X7 A02 X6 X5 X4 X3 X2 X1 COM 485 485 24V ACI Y2 Y1 A01 GND AVI 10V TC TB TA ...

Page 38: ...signal public terminal Valid only when there is a short circuit between Xn n 1 2 3 4 5 6 7 8 and COM The functions can be set by the parameter F5 00 F5 07separately Digital signal public port selection terminal Multi function open collector output is defined as on off output terminal whose function is set by the parameter F6 00 F6 01 with reference of COM Ground Terminal INPUT 0 24 power level low...

Page 39: ... Communication signal negative AO1 AO2 Programmable analog output with reference of GND OUTPUT 0 10v DC voltage OUTPUT 0 20mA DC Current OUTPUT 0 20mA DC Current current Power Port 24V 24VDC control power supply power output 24VDC 100mA NO 240VAC 3A NC 240VAC 1A ...

Page 40: ...use circuit breaker MCCB Electromagnetic contactor KM Input AC reactor ACL Input EMI filter DC Reactor DCL External braking resistor External brake assembly Output EMI filter Output AC reactor ACL INVERTER ...

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Page 42: ... ZVF300H G055T2 ZVF300H G075T2 ZVF300H G090T2 ZVF300H G110T2 ZVF300H G0R7T4 ZVF300H G1R5T4 ZVF300H G2R2T4 ZVF300H G3R7 P5R5T4 ZVF300H G5R5 P5R5T4 ZVF300H G7R5 P7R5T4 6 16 10 20 10 20 16 32 25 32 50 63 80 100 125 160 200 225 315 400 500 500 6 6 10 16 20 25 2 5 2 5 2 5 4 4 6 6 10 16 25 25 35 50 70 95 120 150 185 2 5 2 5 2 5 4 4 6 2 5 2 5 2 5 4 4 6 6 10 16 25 25 35 50 70 95 120 150 185 2 5 2 5 2 5 4 ...

Page 43: ... ZVF300H G250 P250T4 ZVF300H G280 P280T4 ZVF300H G315 P315T4 ZVF300H G350 P350T4 ZVF300H G400 P400T4 ZVF300H G450 P450T4 ZVF300H G500 P500T4 ZVF300H G560 P560T4 ZVF300H G630 P630T4 40 50 63 80 80 100 125 160 225 250 315 400 400 500 500 630 630 700 800 800 1000 1000 1250 1250 1600 6 10 10 16 16 25 25 35 50 70 95 120 150 150 185 95 2 120 2 150 2 150 2 185 2 185 2 185 2 185 3 185 3 185 3 6 10 10 16 1...

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Page 49: ...ZVF300H ...

Page 50: ...AO1 ...

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Page 52: ...AO1 15 ...

Page 53: ...AO1 ...

Page 54: ...tion F5 01 7 External reset input F 9 00 PIDpreset source selection F9 00 1 Select external voltage or potentiometer setting F 9 02 PID Feedback value source selection F9 02 1 Select external current feedback F 9 03 PID output characteristic selection F9 03 0 Select positive feedback F 9 04 Proportional gain Kp Set according to the actual request F9 05 Integral time Ti Set according to the actual ...

Page 55: ...gain Set according to actual request F 9 12 Awakening threshold width Set according to the actual request F 9 13 Awakening Threshold detectiontime Set according to the actual request F 9 14 Sleep Frequency Set according to the actual request F 9 15 Sleep Frequency Detection Time Set according to ghe actual request F 9 16 The range of gauge Set according to the actual request ...

Page 56: ...nction Code Name Setting Range Min Unit Factory setting Runn ing Modifi cation F0 00 F0 01 Speed control mode Running command channel 0 NO PG vector control 1 V F control 2 Torque control NO PG Vector Control 3 Reserve 4 PG vector control 0 Keyboad command channel 1 Terminal command channel 2 Communication command channel 1 1 1 0 ...

Page 57: ... F0 03 0 1 0 0 Keyboard or encoder setting 1 AVI 2 ACI 3 AVI ACI 4 keyboard potentiometer setting 5 Water supply PID control setting 6 Remote communication setting 7 External pulse setting 8 AVI host ACI assit combination setting 9 Keyboard host ACI assit combination setting 10 Communication Host ACI assit combination setting 11 Combination 12 Common PID control setting 1 0 F0 03 Frequency command...

Page 58: ...quency 0 Forward the default running direction 1 Reverse 2 Forbid reverse 1 0 15 0kHz 1 0 1kHz 0 Depend on the model F0 12 F0 13 F0 14 Motor parameters autotuning Restore parameters AVR Fcuntion 0 No action 1 Rotation autotuning 2 Static autotuning 0 No action 1 Restore the default value Restore all parameters FO Fd to factory setting except F2 group 2 Clear fault records Inverter clear all fault ...

Page 59: ...perature value LED Unit s Place Operand 1 LED Decade Operand 2 LED Hundreds place Operand 3 Thousands place Reserved 0 Keypad Potentiometer 1 Keypad or Encoder 2 Reseve 3 Communication 4 AVI 5 ACI 6 External pulse setting 7 Multi speed stage LED Unit s Place Algorithm 1 LED Decade Algorithm 2 LED Hundreds Thousands place Reserved 0 Addition 1 Subtraction 2 The absolute value Subtraction 3 Maximize...

Page 60: ...frequency maintain time DC braking current before start DC braking time before start Stop mode Starting frequency of DC braking at stopping Braking wait time at stopping 0 Start directly 1 DC braking and start 2 Speed tracking starting 0 00 50 00Hz 0 0 50 0s 0 0 150 0 0 0 50 0s 0 Ramp to stop 1 Coast Free stop 2 Deceleration stop Free stop 0 00 F0 04 Max frequency 0 0 50 0s 1 0 01Hz 0 1s 0 1 0 1s ...

Page 61: ...ng 0 0 150 0 0 0 50 0s 0 1 0 1s 0 0 0 0s F1 10 F1 11 F1 12 F1 13 F1 14 Dead time of FWD REV Terminal running protection selection when power on Input Output terminal polarity selection Power off Restart Mode Selection Power Cut Restart Wait Time 0 0 3600 0s 0 Command invalid when powered on 1 Command valid when powered on 0x000 0x7FF 1 Disabled 2 Regular Start 3 Start with rotary tracing 0 0 20 0S...

Page 62: ...e Motor rated current Motor stator resistance Motor rotor resistance Motor leackage inductance Motor mutual inductace Motor Current without load 0 G Type 1 P Type 0 4 700 0kW 0 01 600 00Hz 0 36000rpm 0 460V 0 1 2000 0A 0 001 65 535Ω 0 001 65 535Ω 0 1 6553 5mH 0 1 6553 5mH 0 01 655 35A 1 0 1kW 0 01Hz 1rpm 1V 0 1A 0 001Ω 0 001Ω 0 1mH 0 1mH 0 01A Depend on model Depend on model 50 00Hz Depend on mode...

Page 63: ...gain 2 of speed loop Integration time 2 of speed loop High switching point frequency Slip compensation rate of VC Torque upper limit setting Torque dynamic friction coefficient Empty load current compensation coefficients Torque static friction coefficient 0 10000 0 01 100 00s 0 00 F3 05 0 10000 0 01 100 00s F3 02 F0 04 Max Frequency 50 200 0 0 200 0 Inverter rated current 0 000 1 000 0 000 9 999 ...

Page 64: ... 10 F4 11 F4 12 Torque Boost Torque boost cutoff V F Slip compensation limit Auto energy saving selection Reserved V F Frequency Value F1 V F Voltage Value V1 V F Frequency Value F2 V F Voltage Value V2 V F Frequency Value F3 V F Voltage Value V3 Low voltage protection selection 0 0 auto 0 1 30 0 0 0 50 0 Relative to the rated motor frequency 0 0 100 0 0 Disable 1 Enabled 0 F4 08 0 F4 09 F4 06 F4 ...

Page 65: ...ency pause stop at the current frequency 19 Traverse frequency reset return to the centre frequency 20 Acceleration and deceleration prohibition 21 Disable torque control 22 Clear frequency acc and dec settings 23 DC braking when stopping 24 External pulse input 25 Frequency switch to ACI 26 Frequency switch to AVI 27 Reserved 28 Coast to stop control 29 Running command switch to terminal 30 PLC r...

Page 66: ... mode 1 3 3 wire control mode 2 1 0 F5 10 F5 11 F5 12 F5 13 F5 14 F5 15 F5 16 F5 17 UP DOWN terminal change speed rate AVI lower limit AVI lower limit corresponding setting AVI upper limit AVI upper limit corresponding setting AVI input filter time ACI lower limit ACI lower limit corresponding setting 0 01 50 00Hz s 0 00 10 00V 100 0 100 0 0 00 10 00V 100 0 100 0 0 00 10 00s 0 00 10 00V 100 0 100 ...

Page 67: ...e input lower limit corresponding setting pulse input upper limit pulse input upper limit corresponding setting Center voltage hysteresis loop width Cooling Fan control 0 01V 0 1 0 01s 0 01Hz 0 1kHz 0 1 0 1kHz 0 1 0 01V 1 0 00 10 00V 100 0 100 0 0 00 10 00s 0 00 F0 05 0 0 20 0kHz 100 0 100 0 0 0 20 0kHz 100 0 100 0 0 00 10 00V 0 Auto operation The fan will run when the inverter starts and will sto...

Page 68: ...requency reached 9 Running 10 PLC stage completed 11 PLC cycle completed 12 Overload Pre alarm 13 Specified count value reached 14 Setting count value reached 15 Ready for operation 16 Under load output 0 Running frequency 1 Setting frequency 2 Motor speed 3 Output current 4 Output Voltage 5 Output power 6 Output torque 7 Analog AVI input 8 Analog ACI input 9 14 Reserved 0 0 100 0 F6 00 F6 01 F6 0...

Page 69: ...0 00mA 0 0 100 0 0 00 20 00mA 0 1 3600 0s 0 1 3600 0s The lower limit corresponding to the AO1 output AO1 output upper limit The upper limit corresponding to the AO1 output AO2 output selection AO2 output lower limit The lower limit corresponding to the output AO2 AO2 output upper limit The upper limit corresponding to the output AO2 Y1 delay conduction time Y1 delay shut off time 0 01V 0 1 0 01V ...

Page 70: ... 1 3600 0s 0 1 3600 0s 0 9999 0 F6 19 0 01 99 99 LED Unit s Place Clear mode 0 Auto 1 Manual LED Decade Count mode 0 Up counter 1 Down counter LED Hundreds Thousand place Reserved Y2 delay conduction time Y2 delay shut off time Relay delay closing time Relay delay disconnect time Set the count value Specified the count value The count coefficient Counter working mode selection 0 1s 0 1s 0 1s 0 1s ...

Page 71: ...rol 1 Valid when keypad or terminal control 2 Valid when keypad or communication control 3 Always valid 0 65535 F7 00 F7 01 F7 02 F7 03 F7 04 The user password The initial selection when Power on Parameter Copy REV JOG function selection STOP RESET key stop function selection 1 1 1 1 0 0x0000 0 0 F7 05 Gauge Range Decimal Place 0 Invalid 1 The parameters will download from the control board to the...

Page 72: ...BIT0 Count value BIT1 Linkage proportion coefficient BIT2 PLC average speed BIT3 The Current speed of PLC BIT4 The current running remaining time of PLC F7 06 F7 07 Running state display parameter selection 1 Running state display parameter selection 2 1 1 0x00FF 0x0 1 0x1FFF BIT0 setting frequency BIT1 DC bus voltage BIT2 Input terminal state BIT3 Output terminal state BIT4 PID setting value BIT5...

Page 73: ... Software version Accumulated running time Runtime password setting Runtime setting 0 29 0 No fault nonE 1 over current when acceleration ocA 2 over current when decleration ocd 3 over current when constant speed running ocn 4 Over voltage when when acceleration ovA 5 over voltage when decleration ovd 6 Over voltage when constant running ovn 7 over voltage when stopping ovS 8 DC bus under voltage ...

Page 74: ...d communication fault CE 4 19 Autotuning falut tE 20 EEPROM fault EEP 21 PID feedback fault PIDE 22 24 Recerved 25 dCE 26 27 Reserved 28 Output phase failure SPO 29 Reserved 0 00 600 00Hz 0 1 3000 0A 0 1000V 0 100 00 0 0xFFFF 0 0xFFFF F7 15 The previous fault type F7 16 The current fault type F7 17 F7 18 F7 19 F7 20 F7 21 F7 22 The current fault running frequency The current fault output current T...

Page 75: ...averse Fault auto reset times Fault reset interval time FDT Level 0 1 3600 0s 0 1 3600 0s 0 00 F0 04 Max frequency 0 1 3600 0s 0 1 3600 0s 0 00 F0 04 Mex frequency 0 00 F0 04 Max frequency 0 0 100 0 Relative to the setting frequency 0 0 50 0 Relative to the traverse amplitude 0 1 3600 0s 0 1 3600 0s 0 9999 0 1 100 0s 0 00 F0 04 Max frequency 0 1s 0 1s 0 01Hz 0 1s 0 1s 0 01Hz 0 01Hz 0 1 0 1 0 1s 0 ...

Page 76: ...it overload pre alarm detection selection 0 No detection 1 Running Detection 2 Constant speed detection LED ten digit overload pre alarm action selection 0 No alarm continue running 1 OL3 alarm stop running LED Hundred digit under load pre alarm detection selection 0 No detection 1 Under load when Running Detection 2 Under load when Constant speed detection LED Thousand digit under load pre alarm ...

Page 77: ... ACI feedback 2 AVI ACI feedback 3 Remote communication feedback 0 0 F9 16 F9 00 F9 01 F9 02 F9 03 F9 04 F9 05 F9 06 F9 07 F9 08 PID given source selection Keyboard preset PID given PID feedback source selection PID output characteristics selection Proportional gain K Kp Integral time Ti Ti Differential time Td Td Sample cycle T T PID control bias limit 0 PID output is positive 1 PID output is neg...

Page 78: ...ing threshold detection time The gauge range PID preset frequency Preset frequency maintain time 0 0 100 0 0 0 3600 0s 0 200 0 0 F9 16 0 00 360 00s 0 0 360 00s 0 00 20 00MPa 0 00 F0 05 Running frequency upper limit 0 00 360 00s 0 1 0 1s 0 1 0 01 MPa 0 01s 0 01S 0 01 MPa 0 01Hz 0 01s 0 0 1 0s 100 0 50 MPa 1 00s 1 00S 20 00MPa 0 00Hz 0 00s Chapter 6 Detailed function description 73 Sleep Frequency 0...

Page 79: ...trol LED Hundreds place PLC breakpoints recovery options 0 Restart from the first stage frequency 1 Restart from running frequency which is saved before the sunning is breaking 2 Restart from setting frequency when running is break PLC Thousands place PLC power failure save selection 0 Non save after power off 1 save after power off FA 00 FA 01 FA 02 PLC Mode Multi step speed 1 Multi step speed 2 ...

Page 80: ...ti step speed 9 Multi step speed 10 Multi step speed 11 Multi step speed 12 Multi step speed 13 Multi step speed 14 Multi step speed 15 Multi step speed 16 F0 06 F0 04 F0 06 F0 04 F0 06 F0 04 F0 06 F0 04 F0 06 F0 04 F0 06 F0 04 F0 06 F0 04 F0 06 F0 04 F0 06 F0 04 F0 06 F0 04 F0 06 F0 04 F0 06 F0 04 Unit of PLC Running time 0 01Hz 0 01Hz 0 01Hz 0 01Hz 0 01Hz 0 01Hz 0 01Hz 0 01Hz 0 01Hz 0 01Hz 0 01H...

Page 81: ...A 20 FA 27 Thousands place Multi Speed 4 FA 20 FA 27 FA 19 Multi speed direction source selection PLC Accel Decel Time 1 PLC Accel Decel Time 2 PLC Accel Decel Time 3 PLC Accel Decel Time 4 PLC Accel Decel Time 5 PLC Accel Decel Time 6 PLC Accel Decel Time 7 PLC Accel Decel Time 8 Acceleration Selection 1 FA 28 0 01 3600 0s 0 01 3600 0s 0 01 3600 0s 0 01 3600 0s 0 01 3600 0s 0 01 3600 0s 0 01 3600...

Page 82: ...ion Selection 3 FA 31 Acceleration Selection 4 1 0x1111 1 0x1111 Unit s Place Multi Speed 9 FA 20 FA 27 Decade Multi Speed10 FA 20 FA 27 Hundreds place Multi Speed 11 FA 20 FA 27 Thousands place Multi Speed 12 FA 20 FA 27 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 32 Deceleration ...

Page 83: ...eceleration Selection 4 Unit s Place Multi Speed 9 FA 20 FA 27 Decade Multi Speed 10 FA 20 FA 27 Hundreds place Multi Speed 11 FA 20 FA 27 Thousands place Multi Speed12 FA 20 FA 27 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 1 0x1111 1 0x1111 FA 36 Direction Selection 1 Unit s Place M...

Page 84: ...t s Place Multi Speed 9 0 1 0 Forward 1 Reverse Decade Multi Speed 10 0 1 0 Forward 1 Reverse Hundreds place Multi Speed 11 0 1 0 Forward 1 Reverse Thousands place Multi Speed 12 0 1 0 Forward 1 Reverse 1 0x0000 FA 39 Direction Selection 4 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 Thousand...

Page 85: ... Min 0 0S Min 0 0S Min FA 43 FA 44 FA 45 FA 46 FA 47 FA 48 FA 49 FA 50 FA 51 FA 52 FA 53 FA 54 FA 55 PLC Running Time 4 PLC Running Time 5 PLC Running Time 6 PLC Running Time 7 PLC Running Time 8 PLC Running Time 9 PLC Running Time 10 PLC Running Time 11 PLC Running Time 12 PLC Running Time 13 PLC Running Time 14 PLC Running Time 15 PLC Running Time 16 0 0 6553 5 S Min 0 0 6553 5 S Min 0 0 6553 5 ...

Page 86: ...ency rate of decline Over voltage stall protection Over voltage stall protection voltage Auto limiting current threshold Frequency decrease rate when current limiting Input phase loss protection selection Under load protection current Under load protection Time 20 0 120 0 Motor rated current 70 0 110 0 Standard bus voltage 0 00 F0 04 Max frequency 0 Disable 1 Enable 110 150 380V Series 110 150 220...

Page 87: ... No parity N 8 2 for RTU 4 Even parity E 8 2 for RTU 5 Odd parity O 8 2 for RTU 6 No parity N 7 1 forASCII 7 Even parity E 7 1 forASCII 8 Odd parity O 7 1 forASCII 9 No parity N 7 2 forASCII 10 Even parity E 7 2 forASCII 11 Odd parity O 7 2 forASCII 12 No parity N 8 1 forASCII 13 Even parity E 8 1 forASCII 14 Odd parity O 8 1 forASCII 15 No parity N 8 2 forASCII 16 Even parity E 8 2 forASCII 17 Od...

Page 88: ...ot alarm and stop at the stopping method for all communication control modes 0 Response to reading and writing 1 No response to writing 0 group mode 1 Sequential mode 0 01 10 00 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 FC 05 Communication error action FC 06 FC 07 FC 08 FC 09 Response action Communication ...

Page 89: ...etting torque same 4 multi stage torque setting same 1 5 Remote communication setting torque same as 1 Fd 00 Fd 01 Fd 02 Fd 03 Fd 04 Fd 05 Low frequency threshold of restraining oscillation High frequency threshold of restraining oscillation Amplitude of restraining oscillation Threshold high low frequency of restraining oscillation Restrain oscillation PWM Selection 0 500 0 500 0 100 0 00 F0 04 M...

Page 90: ... same as 1 3 Multi step setting of upper limit frequency same as 1 4 Remote communication setting upper limit frequency same as1 0 Enabled when constant speed 1 Disabled when constant speed Fd 07 Fd 08 Fd 09 Fd 10 Fd 11 Keypad torque setting Upper limit frequency source selection Auto current limiting selection Lower limit frequency running mode Zero frequency running braking current 200 0 200 0 t...

Page 91: ...nsorvectorcontrol VC Suitableforhigh performance adjusting the speed occasion with installing encoder PG one inverter can only drive one motor F0 00 Speed control mode Setting Range 0 3 Factory setting 1 When F0 01 0 is selected the motor parameters have to be auto tuning before first running In order to get the correct motor parameters Please make sure the lable of the motor match with the motor ...

Page 92: ...5 serial port F0 02 Keyboard and terminal UP Down setting Setting range 0 3 Factory setting 0 The frequency can be set by or encoder on the keypad and terminal UP DOWN This setting method have the highest and it can be combined with setting channel It is used to adjust the output frequency during the commission of the control system 0 Valid save the parameters when the inverter is power off The fr...

Page 93: ...he running frequency by the key or encoder on the keypad and terminal UP DOWN when the inverter is running The revised frequency value can saved to F0 07 after power off If you want the frequency can not saved Upi am set the parameter F0 02 1 AVI analog setting The running frequency can be set by the external voltage input terminalAVI Please refer to F5 11 F5 15 2 ACI analog setting The running fr...

Page 94: ...unication port 7 External pulse setting The running frequency is set by terminal X8 input pulse signal For more details Please refer to F5 21 F5 25 8 AVI host ACI assit setting 9 Keyboard host ACI assit setting 10 Communication host ACI assit setting AVI keyboard commicanition are the main frequency input linear plus the main frequency when the analogACI is the centre value and above linear minus ...

Page 95: ...ncy The lower frequency limit is the inverter allowable working the minimum output frequency The lower limiting frequency is working when the setting frequency is lower than the lower frequency limit The value should not exceed the the maximum output frequency the maximum output frequency the upper frequency limit the lower frequency limit F0 07 keypad setting frequency Setting range 0 00Hz F0 04 ...

Page 96: ... Acceleration and deceleration time To change the running direction of the motor 0 Forward the default running direction 1 Reverse 2 Forbid reverse F0 11 Carrier frequency Setting range 1 0 15 0kHz Factory setting Depend on the model This functionis used to set the carrier frequency of the inverter output PWM wave shoud adjust correctly the maximum value of the carrier frequency depend on power th...

Page 97: ...e impact to the output catacity the inverter needs to derate on high carrier frequency at the time the leakage and electrical magnetic interference will increase A pplying low carrtier frequency is contrary to the above too low carrier frequency will cause unstable running torque decreasing and surge F0 12 Motor parameters autotuning Setting range 0 2 Factory setting 0 0 No action Forbidding autot...

Page 98: ...TUN0 And the motor begin to run after displaying TUN1 When the parameter autotuning is finished and will dipaly END Finally return to the stop state when TUN is flicker you can press MODE to exit out the autotuning status You can press STOP RESETto stop the parameter autotuning operation during autotuning 2 Static autotuning If it is difficult to disconnect the load static autotuning is recommende...

Page 99: ...oltage regulation function is to adjust PWM to stable the output of inverter when the input voltage and rated input voltage have deviation This function is disable when the output command voltage is bigger than input power voltage IfAVR is function is disable the deceleration time will be short but the current will be big if AVR is enable all the time the motor working stable the deceleration time...

Page 100: ...mmunication 7 Multi speed stage Thousands place Reserved F0 16 Combination algorithm Setting Range 00 54 Factory Setting 00 The parameter is used to set the combination frequency given algorithm LED unit s place digit Algorithm 1 0 Addition 1 Subtraction 2 Absolute value subtraction 3 Take the maximum value 4 Take the minimum value LED decade digit Algorithm 2 0 Addition 1 Subtraction 2 Absolute v...

Page 101: ... In any case the algorithm procedure is always like this operation figure 1 and operation figure 2 participate in algorithm 1 and get the result 1 then put result 1 and operation figure 3 into algorithm 2 and get the final result If the algorithm result of previous two figures is a negative number then the default result of the system will be 0 A lgorithmrule2 Ifthegeneralalgorithmresultisanegativ...

Page 102: ...tant rate 1 S Curve Accel Decel To reduce the noise and vibration of the mechanicalsystem It can slowly change the output frequency at the initial and ending segments ofAccel Decel as shown in Fig 6 3 F0 20 F0 19 F0 19 F0 20 Frequency Time S curve Linear Fig 6 3Accel Decel Curve F0 19 Temperature alarm switch Setting Range 0 1 Factory Setting 0 F0 20 Alarm temperature value Setting Range 0 85 Fact...

Page 103: ...eed running to the setting frequency by acceleration and deceleration time F1 01 Direct starting frequency Setting range 0 00 50 00Hz Factory setting 1 50Hz F1 02 Starting frequency maintain time Setting range 0 0 50 0s Factory setting 0 0s The inverter will start at the starting frequency As shown in Figure 6 4 In order to ensure enough starting torque you should set the reasonable starting frequ...

Page 104: ... 0s DC braking current before start The inverter start at DC starting the braking current percentage DC braking time before start the output DC braking current duration time during the inverter starts this function is invalid when the DC braking time is 0 0s DC braking current and braking time should be consider the load the current couldn t be too high Otherwise the current will trip It s no suit...

Page 105: ...g at stopping Setting range 0 00 F0 04 Factory setting 0 00Hz F1 07 Braking wait time at stopping Setting range 0 0 50 0s Factory setting 0 0s F1 08 DC braking current at stopping Setting range 0 0 150 0 Factory setting 0 0 F1 09 DC braking time at stopping Setting range 0 0 50 0s Factory setting 0 0s F1 06 The frequencyofDCbraking starting when the inverter is decelerating to stop F1 07 The inver...

Page 106: ... to 0 0S F1 10 Dead time of FWD REV Setting range 0 0 3600 0s Factory setting 0 0s Set the interval time at 0 0Hz in the transition between forward and reverse It is shown as following figure 6 5 Fig 6 5 FWD REV dead time F1 11 Terminal running protection selection when poweron Setting range 0 1 Factory setting 0 In the terminal command mode when the inverter powered on The system will automatical...

Page 107: ...ces F1 12 Input Output terminal selection Setting range 0x000 0x7FF Factory setting 0x000 This function code defines the positive and negative logic of terminals Positive logic 0 Valid when connecting SI with corresponding common terminal and invalid when dis connecting these terminal Negative logic 1 Invalid when connecting SI with corresponding common terminal and valid when disconnecting these ...

Page 108: ...Setting range 0 1 Factory setting 0 0 G Type Applicable to constant torque load 1 P Type Applicable to variable torque load i e fans pumps The users can set this group parameters to change the inverter type To realize G P integration function It only has G model for 220V inverter F2 01 Motor rated power Settig range 0 4 700 kW Factory setting depend on model X1 X1 X2 X2 X3 X3 X4 X4 X5 X5 X6 X6 X7 ...

Page 109: ...ding to motor nameplate and then perform auto tuning The power performance of inverter should match the motor If the bias is too big The control performances of inverter will be deteriorated distinctly Reset the motor rated power F2 01 can initialize F2 06 F2 10 automatically F2 06 Motor stator resistance Setting range 0 001 65 535Ω Factory setting depend on model F2 07 Motor rotor resistance Sett...

Page 110: ...5 00Hz F3 04 Integration time 2 of speed loop Setting range 0 01 100 00s Factory setting 3 00s F3 01 Integration time 1 of speed loop Setting range 0 01 100 00s Factory setting 2 00s F3 03 proportional gain 2 of speed loop Setting range 0 10000 Factory setting 10 F3 05 High switching point frequency Setting range F3 02 F0 04 Factory setting 15 00Hz The above parameter are only valid for vector con...

Page 111: ...oportional gain is too small can easily cause the system to steady state oscillation and the speed of static difference may exist PI speed loop parameters and the inertia motor system are closely related Figure 6 7 PI parameter diagram F3 06 Slip compensation rate of VC Setting range 50 200 Factory setting 100 The parameter is used to adjust the slip frequency of vector control and improve the acc...

Page 112: ...iction coefficient is used to adjust the operation of the motor torque value Torque static friction coefficient is used to adjust the torque value of the motor not in operation F4 V F Control Group F4 00 V F Curve setting Setting range 0 6 Factory setting 0 This group parameter is valid when the inverter in V F mode F0 00 1 0 Linear Curve It is applicable for normal constant torque load 1 Square V...

Page 113: ...ower 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 F4 01 Torque Boost Setting range 0 0 30 0 Factory setting 2 Figure 6 9 V F curve Output voltage V Rated voltage of motor 1 0 power 1 7 power 2 0 power 3 0 power 4 0 power Output frequency Hz Rated frequency of motor ...

Page 114: ...0 theinverterwillboosttheoutputtorqueaccodingtotheloadautomatically Torque boost cutoff The torque boost is effective below this frequency point and the torque boost is invalid higher than this frequency point Figure 6 9 1 Manual torque boost diagram If the torque boost toohigh Itwill appear the inverter over current protection and will lead to the motor couldn t start normally At this time It is ...

Page 115: ...range 0 0 100 0 Factory setting 0 0 The motor s slip changes with the load torque which resulit in variance of motor speed the inverter soutput frequency can be adjusted automatically through slip compensation according to the load torque Therefore the change of speed due to the load change can be reduced the value of compensated slip is dependent on the motor s rated slip which can be calculated ...

Page 116: ... F4 08 Factory setting 12 50Hz F4 07 V F Voltage Value V1 Setting range 0 00 F4 09 Factory setting 25 00 F4 08 V F Frequency Value F2 Setting range F4 06 F4 10 Factory setting 25 00Hz F4 09 V F Voltage Value V2 Setting range F4 07 F4 11 Factory setting 50 F4 10 V F Frequency Value F3 Setting range F4 08 F0 05 Factory setting 37 50Hz F4 11 V F Voltage Value V3 Setting range F4 09 100 00 Factory set...

Page 117: ...7 Factory setting F5 03 X4 input terminal selection Setting range 0 34 0 Factory setting F5 04 X5 input terminal selection Setting range 0 34 0 Factory setting F5 05 X6 input terminal selection Setting range 0 34 0 Factory setting F5 06 X7 input terminal selection Setting range 0 34 0 Factory setting F5 07 X8 input terminal selection Setting range 0 34 0 Factory setting External input terminal X1 ...

Page 118: ...F8 02 8 04 6 Coast to stop The inverter blocks the output immediately the motor coasts to stop by its mechanical inertia 7 Reset fault Fault resets through terminal when the inverter is fault alarming the function is same to the STOP key on your keyboard 8 External fault input When an external fault signal sent to the inverter the inverter alarm external fault EF and stop 9 Frequency up command 10...

Page 119: ...terminal The external terminals of the implementation of speed control must comply with the running command can run The speed of the terminal control the step speed as shown in Table 6 1 Table 6 1 Multi step speed selection Multi step speed terminal 4 Multi step speed terminal 3 Multi step speed terminal 2 Multi step speed terminal1 Multi step speed selection OFF OFF OFF OFF OFF OFF OFF ON 1st ste...

Page 120: ...F OFF ON ON ON ON OFF OFF ON ON OFF ON OFF ON 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 6th step of multi step speed The running frequency set by FA 06 7th step of multi step speed The running frequency set by FA 07 ON OFF OFF OFF 8th step of multi step speed The running frequency set by FA 08 9th step of multi s...

Page 121: ...ON ON ON OFF ON 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 ON ON ON ON ON ON OFF OFF ON OFF ON OFF 12th step of multi step speed The running frequency set by FA 12 13th step of multi step speed The running frequency set by FA 13 14th step of multi step speed The running frequency set by FA 14 15th step of multi ...

Page 122: ...inals Table 6 2Acceleration and deceleration time selection Accel and decal time selection Acceleration and deceleration time OFF ON Acceleration and deceleration time 1 Acceleration and deceleration time 2 17 PID control pause The inverterwillkeepthecurrentfrequencyoutput unchangedwhenPIDisinvalid 18 Traverse frequency pause Inverter keeps output frequency unchanged If this terminal is disable In...

Page 123: ...op when this terminal is on the inverter will be in the state of DC brakingpromptly Braking state is determined by F1 07 F1 09 24 External pulse input For receiving an external pulse signal as the frequency giving only X8 multi function terminal can set this feature 25 Frequency switch to ACI 26 Frequency switch to AVI The frequency command forced to switch toACI AVI when the terminal closed and w...

Page 124: ...tion The terminal is valid thefrequencygivenchannelforced to switch to combination channel then restore the original frequency given channel after disconnecting the terminal 34 Count clear When set this function this terminal and COM terminal switch on the counter value becomes zero Item 24 is only valid for multi functional port X8 The maximumfrequency of input pulse is 20KHz theamplitude for low...

Page 125: ...ire 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 Fig 6 11 2 wire control diagram Note connection is ON disconnect is OFF Switch state 2 wire control mode 1 2 wire control mode 2 K2 K1 Running command 1 Running command 2 OFF ON OFF ON OFF OFF ON ON STOP REVERSE FORWARD STOP STOP...

Page 126: ...nning switch K1 Forward K2 Forward and Reverse shifting K2 Reverse K3 Stop K3 Stop F5 10 UP DOWN terminal change speed rate Setting range 0 01 50 00Hz s Factory setting 0 50Hz s Terminal UP DWON regulates the incremental rate of setting frequency F5 11AVI lower limit Setting range 0 00 10 00V Factory setting 0 00V F5 12AVI lower limit corresponding setting Setting range 100 0 100 0 Factory setting...

Page 127: ...ilter time Setting range 0 00 10 00s Factory setting 0 10s F5 21 Maximum pulse input Setting range 0 0 20 0kHz Factory setting 20 0kHz F5 22 pulse input lower limit Setting range 0 0 20 0kHz Factory setting 0 0kHz F5 23 pulse input lower limit corresponding setting Setting range 100 0 100 0 Factory setting 0 0 F5 24 pulse input upper limit Setting range 0 0 20 0kHz Factory setting 20 0kHz F5 25 pu...

Page 128: ...ll not make calculations withine this range F5 27 Cooling Fan control Setting Range 0 1 Factory Setting 0 0 Auto operation The fan will run when the inverter starts and will stop when the inverter stops 1 The cooling fan is running when the inverter energized on For different applications the corresponding value of100 0 analog setting is different For details Please refer to description of each ap...

Page 129: ...rward has output frequency Output ON signal at this time 2 Reverse tunning Inverter runs reverse has output frequency Output ON signal at this time 3 Fault output ON inverter is in fault state 4 Frequency level detection FDT arrival Please refer to functional code F8 13 F8 14 for detailed description 5 frequency reached Please refer to description of P8 15 6 Zero speed running ON The running frequ...

Page 130: ...alarm When the inverter output current exceeds overload warning level An low level active signal will be output after setting the alarm delay time 13 Specified count value reached Refer to the fuction of F6 19 F6 20 14 Setting count value reached Refer to the fuction of F6 19 F6 20 15 Ready for operation 16 Under load output F6 03AO1 output selection Setting range 0 14 Factory setting 0 F6 08AO2 o...

Page 131: ...otor 0 2 x inverter rated current 0 1 5 x inverter rated voltage 0 2 x rated power 0 2 x Motor rated current 0 10V 0 10V 0 20mA Reserved F6 04 AO1 output lower limit Setting range 0 0 100 0 Factory setting 0 0 F6 05 The lower limit corresponding to theAO1 output Setting range 0 00 10 00V Factory setting 0 00V F6 06AO1 output upper limit Setting range 0 0 100 0 Factory setting 100 0 F6 07 The upper...

Page 132: ... the corresponding relationship between the output value and the analog output When the output value exceeds the maximum output or minimum output range of the set it will be calculated as the upper limit output or the lower limit output When the analog output is current output 1mAcurrent is equivalent to 0 5V voltage In different applications the analog output corresponding to 100 of the output va...

Page 133: ...lay time F6 17 Relay delay closing time Setting Range 0 1 3600 0s Factory Setting 0 0s F6 18 Relay delay disconnect time Setting Range 0 1 3600 0s Factory Setting 0 0s The parameter is used to control the output relay closing and disconnect delay time F6 19 Set the count value Setting Range 0 9999 Factory Setting 0 F6 20 Specified the count value Setting Range 0 F6 19 Factory Setting 0 F6 21 The c...

Page 134: ...ontinue to count exceeds the parameters F6 19 and set value when the counter is cleared the output valid signal will undone As shown in Figure 6 15 Y1 is set to couter value reached Y2 is set to specify count value reached F6 19 is set to 8 F6 20 set to 5 1 2 3 4 5 6 7 8 1 X6 Y1 Y2 200ms Fig 6 15 Counter set value and specified value reached schemati F6 22 Counter working mode selection Setting Ra...

Page 135: ...state Press MODE toenterintothefunctioncodeedition state after the password takes effect 0 0 0 0 will be displayed the operator should input correct password F7 01 The initial selection when Power on Setting Range 0x0000 0x0C1F Factory Setting 0x0000 The function code determines the displayed content when the inverter is power on The units of LED decade bits are used to set the running status disp...

Page 136: ...eters are download to the machine the parameters of the keboard are copied to the machine all F7 03 REV JOG function selection Setting ragne 0 4 Factory setting 0 This function is used to set the REV JOG keys on the operation panel 0 Jog operation 1 FWD REV switching 2 Clear UP DOWN setting 3 Reverse Running 4 Fast query is used to query for the modification parameters The function code defines th...

Page 137: ... thenthecorresponding parameters will not be displayed Set the function code F7 06 change a binary number to a hexadecimal number enter the function code the conent are as follows Table 6 5 The display content correspomding to running BIT15 BIT14 BIT13 BIT12 BIT11 BIT10 BIT9 BIT8 BIT7 BIT6 BIT5 BIT4 BIT3 BIT2 BIT1 BIT0 BIT2 BIT1 BIT0 F7 06 F7 07 Torque setting value The current step of multi step ...

Page 138: ...tion code Table 6 6 The display content correspomding to stop 133 BIT0 BIT1 BIT2 BIT3 BIT4 BIT5 BIT7 BIT6 BIT10 BIT9 BIT8 BIT11 Count value AC input voltage Torque setting value The current step of multi step Analog ACI value Analog AVI value PID feedback value PID setting value Output terminal state Input terminal state DC bus voltage Setting frequency BIT15 BIT14 BIT13 BIT12 The current running ...

Page 139: ...7 16 The current fault type Setting range 0 29 Factory Setting F7 17 The current fault running frequency Setting range 0 00 600 00Hz Factory Setting F7 18 The current fault output current Setting range 0 1 2000 0A Factory Setting F7 19 The current fault DC bus voltage Setting range 0 1000V Factory Setting F7 20 The current fault temperature Setting Range 0 0 100 0 Factory Setting F7 21 The current...

Page 140: ... at the latest fault The order is BIT2 BIT1 BIT0 RY Y2 Y1 Current output terminal is ON and the corresponding bit is 1 If current output terminal is OFF and the corresponding bit is 0 the state of the digital input terminal at fault can be known through this value F8 Group Enhanced function F8 00 Acceleration time 2 Setting range 0 1 3600 0s Factory setting Depends on model F8 01 Deceleration time...

Page 141: ...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 andAcc Dec time Jog running The starting mode F1 00 set 0 and stop mode F1 05 set to 0 to stop The operation panel the control terminal and the serial port can be jog control In different kinds of operationconditions Press the jog key Jog frequ...

Page 142: ...ep 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 Figure 6 17 Skip frequency setting In the process of acceleration deceleration operation the dive can not jump the skip frequency F8 07 Traverse amplitude Setting range 0 0 100 0 Factory setting 0 0 F8 08 Jitter frequency Settin...

Page 143: ...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 The track of the output frequency is shown as Figure 6 18 The traverse bandwidth is set by F8 07 when F8 07 is set to 0 The traverse bandwidth is o and has no action Figure6 18 Traverse operation diagram Traverse amplitude Traverse oper...

Page 144: ...selects auto reset times This parameter is used to set the times of auto reset But if the inverter reset continuously for more than the set time the inverter will stop for fault and the user has to deal with the problem by hands Reset interval This parameter selects the interval time from fault accurring to auto reset F8 13 FDT Level Setting range 0 00Hz F0 04 Factory setting 50 00Hz F8 14 FDT lag...

Page 145: ... 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 Figure 6 20 Frequency arriving detecting diagram ...

Page 146: ...ng output starting value Setting Range 0 100 Factory setting 0 control enery braking output proportional to of starting value If it set to 50 The parameter will vary between 50 100 F8 19 Inverter Overload Underload pre alarm selection Setting Range 00 12 Factory setting 00 Select state overload pre alarm dection of the inverter LED bit Overload pre alarm detection selection 0 No detection 1 Runnin...

Page 147: ...droop control frequency Setting Range 0 00 15 00 Factory Setting 0 00 the inverter output frequency will vary with load mainly used to drive the power balance of the same load for multi motor F9 Group PID control PID control is a common used method in process control such as flow pressure and temperature control the principle is firstly detect the biad between preset value and feedback value then ...

Page 148: ...direct given When frequency source select PID F0 03 set to 5 F9 group function will be effect This parameter determines the goal of the process PID given channel the setting target of process PIDisrelativevalue 100 preset value is corresponding to 100 of feedback value the system will operate according to the relative value 0 to 100 Multi step given can set the parameters of FAgroup F9 01 Keyboard...

Page 149: ...feedback will be the same the difference is 0 PID will not work F9 03 PID output characteristics selection Setting range 0 1 Factory setting 0 0 PID output is positive When the feedback value is greater than the preset value Outputfrequencywillbedecreased suchastensioncontrolinwindingapplication 1 PID output is negative when the feedback value is greater than the preset value Output frequency will...

Page 150: ...0s Factory setting 0 00s Differential time Td when the error between the feedback and the reference a proportional adjustment will be output The adjustment only depends on the direction and value of the error change other than the error itself The derivation adjustment controlsthechangeoffeedbacksignalaccordingtothechangingtrendwhenitfluctuates Because the derivation may enlarge the interference t...

Page 151: ... 0 0 F9 10 Feedback lost detecting time Setting range 0 0 3600 0s Factory setting 1 0s Feedback lost detecting value is relative to 100 The system will detect the feedback pf PID all the time whenthefeedbackvalueisbeloworequalto the feedback offline detection value the system will begin to count thedetecting time when the time exceeds the feedback offline detection time the system will report PIDE...

Page 152: ...he pipenetworkislessthan the set value Inverter pass delay waiting of F9 13 the frequency of water supply system automatically transferred to the working state from hibernation F9 14 refers to the lowest operating frequency of PID system from working state to sleeping state When the feedbackvalueisgreaterthanor equal to the set value and the inverter PID system has adjusted the output frequency to...

Page 153: ...ning frequency and time before running FA Group Multi step speed control FA 00 PLC Mode Setting Range 0000 1111 Factory Setting 0000 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 LED Hundreds place PLC breakpoints recovery options 0 R...

Page 154: ... start If the running time for a certain stage is 0 The inverter will skipped the stage into the next stage As shown in Figure 6 25 Fig 6 25 PLC multi speed single cycle running f1 f16 are the running frequency for Stage 1 Stage16 T1 T16 are running time for Stage 1 Stage16 a1 a15 are acceleration time for Stage 1 Stage15 d1 d9 d13 and d16 are deceleration time for Stage 1 9 13 16 T1 T2 T3 T4 T5 T...

Page 155: ...irection running accoding to the last running time setting for multi stage speed is not 0 as shown Fig6 27 Fig 6 27 PLC multi speed keep the final value after a single cycle running T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 a1 a2 a3 a4 a5 a6 a7 a8 d9 a9 a10 a11 a12 d13 a14 a15 d16 a13 f1 f2 f3 f4 f5 f6 f7 f8 f9 f10 f11 f12 f13 f14 f15 f16 T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14...

Page 156: ...ng 0 00Hz FA 06 Multi step speed 6 Setting range F0 06 F0 04 Factory setting 0 00Hz FA 07 Multi step speed 7 Setting range F0 06 F0 04 Factory setting 0 00Hz FA 08 Multi step speed 8 Setting range F0 06 F0 04 Factory setting 0 00Hz FA 09 Multi step speed 9 Setting range F0 06 F0 04 Factory setting 0 00Hz FA 10 Multi step speed 10 Setting range F0 06 F0 04 Factory setting 0 00Hz FA 11 Multi step sp...

Page 157: ...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 second 1 minute FA 18 Curve selection Setting range 0 1 Factory setting 0 0 Mode 1 Linear operation We ofen see 16 Mult step controlling in inverter s In linera operation every step start with main acceleration deceleration for reching it given frequency F 152 ...

Page 158: ... 1 if FA 16 is negative The multi speed driection is reverse direction running Frequency set to 100 0 corresponding to the maximum frequency F0 04 STEP 1 STEP 2 STEP 3 STEP 4 STEP 5 STEP 6 STEP 7 STEP 8 STEP 9 STEP 10 STEP 11 STEP 12 STEP 13 STEP 14 0 10 20 30 40 50 T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 F1 F7 F14 Acc Time Step Time Output Frequency LINEAR OPERATION 0 10 20 30 40 50 T1...

Page 159: ...3600 0s Factory Setting 20 0s FA 22 PLCAccel Decel Time 3 Setting Range 0 01 3600 0s Factory Setting 20 0s FA 23 PLCAccel Decel Time 4 Setting Range 0 01 3600 0s Factory Setting 20 0s FA 24 PLCAccel Decel Time 5 Setting Range 0 01 3600 0s Factory Setting 20 0s FA 25 PLCAccel Decel Time 6 Setting Range 0 01 3600 0s Factory Setting 20 0s FA 26 PLCAccel Decel Time 7 Setting Range 0 01 3600 0s Factory...

Page 160: ...t s Place Multi Speed 5 FA 20 FA 27 Decade Multi Speed 6 FA 20 FA 27 Hundreds place Multi Speed 7 FA 20 FA 27 Thousands place Multi Speed 8 FA 20 FA 27 FA 30 Acceleration Selection 3 Factory Setting 0x1111 FA 34 Deceleration Selection 3 Factory Setting 0x1111 Setting Range Unit s Place Multi Speed 9 FA 20 FA 27 Decade Multi Speed 10 FA 20 FA 27 Hundreds place Multi Speed 11 FA 20 FA 27 Thousands p...

Page 161: ...0 Forward 1 Reverse Thousands place Multi Speed 4 0 1 0 Forward 1 Reverse FA 37 Direction Selection 2 Factory Setting 0x0000 Setting Range Unit s Place Multi Speed 5 0 1 0 Forward 1 Reverse Decade Multi Speed 6 0 1 0 Forward 1 Reverse Hundreds place Multi Speed 7 0 1 0 Forward 1 Reverse Thousands place Multi Speed 8 0 1 0 Forward 1 Reverse FA 38 Direction Selection 3 Factory Setting 0x0000 Setting...

Page 162: ...etting 0 0S Min FA 42 PLC Running Time 3 Setting Range 0 0 6553 5 S Min Factory Setting 0 0S Min FA 43 PLC Running Time 4 Setting Range 0 0 6553 5 S Min Factory Setting 0 0S Min FA 44 PLC Running Time 5 Setting Range 0 0 6553 5 S Min Factory Setting 0 0S Min FA 45 PLC Running Time 6 Setting Range 0 0 6553 5 S Min Factory Setting 0 0S Min FA 46 PLC Running Time 7 Setting Range 0 0 6553 5 S Min Fact...

Page 163: ...used to set PLC multi speed running time 1 16 Fb Group Protection function Fb 00 Motor overload protection Setting range 0 2 Factory setting 2 0 Disable without motor overload protection features caution at this time the drive don t have overload protection for the load motor 1 For normal motor with low speed compensation the lower the speed the poorer the cooling effect based on this reason If ou...

Page 164: ...hemotor as shown in Figure 6 28 The value cn be determined by the following formula Motoroverloadprotectioncurrent motorratedcurrent inverterratedcurrent 100 Figure 6 28 Motor overload protection curve Time Fb 02 Momentary power drop frequency point Setting range 70 0 110 0 Factory setting 80 0 Fb 03 Momentary power drop frequency rate of decline Setting range 0 00 F0 04 Factory setting 0 00Hz If ...

Page 165: ... Setting range 110 150 Factory setting 130 0 Disable 1 Enable During deceleration the motor s decelerating rate may be lower than that of inverter s output frequency due to the load inertia at this time the motor will feed the energy back to the inverter resulting in DC bus voltage rise If no measure taken the inverter will trip due to over voltage Over Voltage stall protection iis the inverter de...

Page 166: ...verter will not trip due to surge over current This function is especially useful for the applications with big load inertia or step change of load Fb 06 is a percentage of the inverter s rated current Fb 07 defines the decrease rate of output frequency when this function is active If Fb 06 is too small overload fault may occur If it is too big the frequency will change too sharply therefore the f...

Page 167: ...low the overload capacity will be impacted Please refer to following figure Fig 6 30Auto current limiting function Fb 08 Input phase loss protection selection Setting Range 0 2 Factory Setting Depend on the model In standay hardware detectiuon valid or running Software or hardward detection valid The inverter will apprears LP input phase loss protection due to the power phase shortage and three ph...

Page 168: ... Factory Setting 0 Fb 10 Under load protection time Setting Range 5 0 6500 00s Factory Setting 5 0s FC Group Serial communication FC 00 Local address Setting range 0 247 Factory setting 1 This parameter determines the slave address used for communication with master The value 0 is the broadcast address FC 01 Baud rate selection Setting range 0 5 Factory Setting 4 This parameter can set the date tr...

Page 169: ...No parity check N 7 1 for ASCII 7 Even parity check E 7 1 for ASCII 8 Odd parity check O 7 1 for ASCII 9 No parity check N 7 2 for ASCII 10 Even parity check E 7 2 for ASCII 11 Odd parity check O 7 2 for ASCII 12 No parity check N 8 1 for ASCII 13 Even parity check E 8 1 for ASCII 14 Odd parity check O 8 1 for ASCII 15 No parity check N 8 2 for ASCII 16 Even parity check E 8 2 for ASCII 17 Odd par...

Page 170: ... set to 0 0s this parameter is invalid If the function code is set to a valid value when the interval time exceeds the communication overtime the system will report communication fault CE 1 Generally the parameter is set to invalid If the parameter is set in a continuous communication system the communication state can be monitored If it doesn t receive correct data signalduringthedelay time of FC...

Page 171: ... The address is calculated according to the parameter group 1 The address is calculated in sequence increased one by one since F0 00 FC 08 Linkage proportion coefficient Setting Range 0 01 10 00 Factory Setting 1 00 when thelocalmachineissetbythemasterinvertercontrol the setting frequency is given by the main station the parameter is used to set the local machine as a slave via RS485 RS232 interfa...

Page 172: ... cautious to adjust these parameters to weaken oscillation This function is only valid when Fb 04 is set to be 0 The smaller the value of Fd 00 and Fd 01 the stronger the restraining effect Fd 02 Amplitude of restraining oscillation Setting range 0 100 Factory Setting 10 This parameter is used to limit the strength of restraining oscillation If the value of Fd 02 is too big it may cause inverter o...

Page 173: ... noise in lower frequency and high noise in higher frequency 1 PWM mode 2 with low noise But it is need to be derated because of higher temperature rise 2 PWM mode 3withhighnoise Butitcanmoreeffectivelyrestrain the oscillation Fd 06 Torque setting mode selection Setting range 0 5 Factory Setting 0 Fd 07 Keypad torque setting Setting range 200 0 200 0 Factory Setting 50 0 Keypad 1 AVI 2 ACI 3 AVI A...

Page 174: ... S5 is valid control mode will switch from torque control to speed control vice versa When running at torque control mode press the key STOP RST it will seitch to speed control automatically If torque setting is positive inverter will run forward otherwise it will run reverse Note When running at torque control mode the acceleration time has nothing to do with F0 08 The 100 of torque setting is co...

Page 175: ...rip over current from surge current It is especially useful for the applications with big load inertia or step change of load Note During auto current limiting process the inverter s output frequency may change therefore it is recommendednottoenablethe function when output frequency need to be stable Fd 10 Lower limit frequency running mode Setting range 0 1 Factory Setting 0 Action mode when runn...

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Page 187: ...300H G3R7T2 S2 ZVF300H G5R5 P7R5T4 ZVF300H G7R5 P011T4 ZVF300H G5R5T2 ZVF300H G011 P015T4 ZVF300H G015 P018T4 ZVF300H G7R5T2 ZVF300H G011T2 ZVF300H G018 P022T4 ZVF300H G022 P030T4 0 4 0 75 0 75 1 5 2 2 1 5 2 2 3 7 5 5 3 7 5 5 7 5 7 5 11 5 5 11 15 15 18 5 7 5 11 18 5 22 22 30 Inverter Model Power kW Dimension mm Fig H H1 W W1 D d 185 185 215 265 385 175 175 205 253 370 118 118 145 185 220 108 108 1...

Page 188: ...F300H G030T2 ZVF300H G045 P055T4 ZVF300H G055 P075T4 ZVF300H G037T2 ZVF300H G045T2 ZVF300H G055T2 ZVF300H G075 P090T4 ZVF300H G090 P110T4 ZVF300H G110 P132T4 ZVF300H G132 P160T4 ZVF300H G075T2 ZVF300H G090T2 ZVF300H G160 P185T4 ZVF300H G185 P200T4 ZVF300H G110T2 ZVF300H G200 P220T4 ZVF300H G220 P250T4 450 510 570 800 900 435 490 550 775 870 260 320 380 460 550 180 220 260 350 400 225 275 320 330 3...

Page 189: ...Dimension mm Fig H H1 W W1 D d ZVF300H G250 P280T4 ZVF300H G280 P315T4 ZVF300H G280 P315T4 ZVF300H G315 P350T4 ZVF300H G350 P400T4 ZVF300H G400 P450T4 ZVF300H G450 P500T4 ZVF300H G500 P560T4 ZVF300H G560 P630T4 ZVF300H G630T4 950 1300 920 650 650 550 385 385 Ф13 Fig 9 2 184 Fig 9 3 Fig 9 3 1600 660 415 1900 950 520 Fig 9 3 Fig 9 3 1750 750 470 ...

Page 190: ...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: ... 187 ZVF300H G132 P160T4 ...

Page 193: ...ilt in Built in Built in 80W200Ω 160W100Ω 300W70Ω 400W40Ω 80W750Ω 160W400Ω 300W250Ω 400W150Ω 600W100Ω 800W75Ω 1000W50Ω 1500W40Ω 2500W35Ω 3000W27 2Ω 5000W19 2Ω 6000W16Ω 9600W13 6Ω 12000W10Ω 16000W7 5Ω 19200W6 8Ω 80W200Ω 160W100Ω 300W70Ω 400W40Ω 80W750Ω 160W400Ω 300W250Ω 400W150Ω 600W100Ω 800W75Ω 1000W50Ω 1500W40Ω 2500W35Ω 1500W54Ω 2500W40Ω 2000W50Ω 2500W54Ω 2000W60Ω 2000W60Ω 2500W54Ω 1 1 1 1 1 1 1 ...

Page 194: ...ion wiring be sure to cut off the power supply Installation steps Follow the method in 3 2 2 of this manual The ZVF300H series inverter has a built in standard RS485 communication interface and its control terminal can be connected to an RS485 communication cable to realize network control or proportional linkage control The RS485 serial communication protocol of the ZVF300H series inverter can ru...

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Page 203: ...ODBUS communication protocol uses two codes ASCII American Standard Code for Information Interchange or RTU Remote Terminal Unit ASCII code is to convert the data to be transmitted into the correspondingASCII before transmission while RTU is to transmit the data directly without conversion ASCII encoding format Each Byte data is composed of two ASCII codes for example 0x1F ASCII is represented by ...

Page 204: ...at 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 ...

Page 205: ... 200 8 E 1 8 O 1 Communication data structures Communication data format box ASCII mode ...

Page 206: ...tween 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 1 31H 0 30H RTU Mode ADR 10H ...

Page 207: ... 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 RTU mode ...

Page 208: ... 203 RTU mode ...

Page 209: ... 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 ...

Page 210: ... 205 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 ...

Page 211: ... 206 ...

Page 212: ...RC register one bit to the right with MSB zero filling Extract and examine the LSB Step 4 If the LSB of CRC register is 0 repeat step 3 else XOR or the CRC register with the polynomial value A001H Step 5 Repeat step 3 and 4 until eight shifts have been performed When this is done a complete 8 bit byte will have been processed Step 6 Repeat steps 2 to 5 for the next 8 bit byte of the command messag...

Page 213: ...t to hexadecimal number except group parameters as they are hexadecimal number For example FA 12 hexadecimal number express the function address is 0A0CH In addition the EEPROM are frequently stored will reduce the life of the EEPROM For the users No need to store for some function code in the mode of communication Only change the value of RAM to meet the requirements To realize this function you ...

Page 214: ... 209 3 6 The definition of communication of Parameter address ...

Page 215: ... 210 Table 3 1 Table 3 2 ...

Page 216: ... 211 Appendix Table 3 1 Data and fault type in 5000H ...

Page 217: ...hen 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: ... 213 Appendix Table 3 2 Data and fault type in 5001H ...

Page 219: ... 214 ...

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