Quick Start Manual
Contents
1. Pr Explanation Settings Setting VF VFPG SVC FOCPG TQRPG 43 PG feedback loss PGF2 O O 44 PG feedback stall PGF3 O 45 PG slip error PGF4 46 PG ref input error PGr1 O O 47 PG ref loss PGr2 O O 48 Analog current input loss ACE O O 49 External fault input EF O O 50 Emergency stop EF1 O O 51 External Base Block B B 2 O 52 Password error PcodE O O 53 Reserved 54 Communication error cE1 O O 55 Communication error cE2 Q O 56 Communication error cE3 O O 57 Communication error cE4 O O 58 Communication Time out cE10 O O 59 PU time out cP10 O O 60 Brake transistor error bF O O 61 Y connection A connection switch error ydc O 62 Decel Energy Backup Error dEb O O 63 Slip error oSL O 64 Broken belt error bEb O O 65 Error PID feedback signal of tension tdEv O O 2106 23 Fault Output Option 1 0 65535 refer to bit table for fault code 0 O O w06 24 Fault Output Option 2 0 65535 refer to bit table for fault code 0 O O 2106 25 Fault Output Option 3 0 65535 refer to bit table for fault code 0 O O 2106 26 Fault Output Option 4 0 65535 refer to bit table for fault code 0 O O w 06 27 Electronic Thermal Relay 0 Inverter motor 2 O Selection Motor 2 1 Standard motor 2 Disable Electronic Thermal 30 0 600 0 sec 60 0 O O 06 28 Characteristic for Motor 2 w06 29 PTC Positive Temperature 0 Warn and keep operation 0 OTO O O O Coefficient2. o N 0 20mA ACM 77 Analog control signal common Factory Settings SINK ON Connect to DCM Max 48VDC 50mA 10VDC 20mA variable resistor 3 5kohm Impedance Resolution Range Set up Impedance Resolution Range Set up Jumper Impedance Resolution Range Set up 0 to 10V 2mA Impedance Output current Resolution Range Function Switch 200kQ 12 bits 0 10VDC 0 Max Output Frequency Pr 01 00 Pr 03 00 Pr 03 02 2500 12 bits 4 20mA 0 Max Output Frequency Pr 01 00 Pr 03 00 Pr 03 02 ACI jumper factory setting is 4 20mA 200kQ 12 bits 10 10VDC 0 Max Output Frequency Pr 01 00 Pr 03 00 Pr 03 02 18 5kQ voltage output 1 1mQ current output 20mA max max frequency corresponds to 0 10V 0 10VDC Pr 03 18 AFM switch factory setting is 0 10V Common for AVI ACI AUI AFM English 9 Power Terminals and Control Terminals Frame Power range Models VFD007V23A 43A 2 VFD015V23A 43A 2 B B1 1 3hp 0 75 2 2kW VFDO22V23A 43A 2 B B2 5hp 3 7kW VFD037V23A 43A 2 C 17 5 15hp 5 5 11kW VFDO55V23A 43A 2 VFD075V23A 43A 2 VFD110V43B 2 VFD110V23A 43A 2 VFD150V23A 43A 2 DE BRPO VFD185V23A 43A 2 VFD220V23A 43A 2 E E1 40 60hp 30 45kW VFD300V43A 2 VFD370V43A 2 VFD450V43A 2 VFD300V23A 2 VFD370V23A 2 VFD550V43C 2
3. 8 Over torque OT2 Pr 06 09 06 11 O Multi function Output 4 9 Drive ready 0 O 02 14 7 MO2 10 User defined Low voltage Detection O 11 Malfunction indication O Multi function Output 5 12 Mechanical brake release Pr 02 31 O w 02 35 MO3 13 Overheat O 14 Software brake signal O w02 36 Multi function Output 6 15 PID feedback error O MO4 16 Slip error OSL 17 Terminal count value attained Pr 02 16 O Multi function Output 7 18 Preliminary count value attained Pr 02 17 O w 02 37 MOS 19 Baseblock B B Indication O 20 Warning output O Multi function Output 8 21 Over voltage warning O xw 02 38 z MO6 22 Over current stall prevention warning O 23 Over voltage stall prevention warning Multi function Output 9 24 Operation mode indication O w 02 39 MO7 25 Forward command 26 Reverse command w02 40 Multi function Output 10 27 Output when current gt Pr 02 32 O MO8 28 Output when current lt Pr 02 32 D Q Q 29 Output when frequency gt Pr 02 33 English 15 Factory Pr Explanation Settings Setting VF VFPG SVC FOCPG TQRPG Multi function Output 11 30 Output when frequency lt Pr 02 33 O w 02 41 MO9 31 Y connection for the motor coil 32 A connection for the motor coil Multi functi
4. A Rated Output Current for Variable Torque A 5 3 7 5 56 75 113 138 188 2 q 5 3 phase Proportional to Input Voltage 2 0 00 600 00 Hz Carrier Frequency kHz 15 J 9 6 3 phase 380 480V a Rated neuen 40 58 74 99 12 17 25 27 35 42 56 67 87 101 122 3 phase 380 to 480 V 3 10 342 528 V E 5 47 68 Ha Cooling Method Fan Cooled Weight kg 2 7 32 45 68 8 io 13 13 13 13 36 50 General Specifications Control System 1 V f curve 2 V f PG 3 SVC 4 FOC PG 5 TQR PG Start Torque Starting torque is 150 at 0 5Hz and 0Hz with FOC PG control mode Speed Control Range 1 100 Sensorless vector up to 1 1000 when using PG card Speed Control Resolution 0 5 Sensorless vector up to 0 02 when using PG card 8 Speed Response Ability 5Hz up to 30Hz for vector control 5 Max Output Frequency 0 00 to 600 00Hz 3 Output Frequency Accuracy Digital command 0 005 analog command 0 5 5 Frequency Setting Digital command 0 01Hz analog command 1 4096 12 bit of the max output O Resolution frequency g Torque Limit Max is 200 torque current 8 Torque Accuracy 5 Accel Decel Time 0 00 to 600 00 0 0 to 6000 0 seconds V f Curve Adjustable V f curve using 4 independent points and square curve Frequency Setting Signal 10V 4 20mA pulse input Brake Torque About 20 Motor Protection Electronic thermal relay protection English 2 Over current Protection Ground Leakage Current Protect
5. Check if the data value exceeds max min value Check the connection of the Slave device Check if the wiring for the communication is correct Te Check if the wiring for the communication is correct 2 Check if there is any wrong with the keypad If the fault code is still displayed on the keypad after pressing RESET key please return to the factory Check the wiring of the Y connection A connection 2 Check the parameters settings Set Pr 07 13 to 0 Check if input power is stable Check if motor parameter is correct please decrease the load if overload Check the settings of Pr 05 26 and Pr 05 27 Check if the belt is broken Check the settings of Pr 08 60 Pr 08 62 and Pr 08 63 Check if the PID feedback is correct Check if the material is broken Check the settings of Pr 08 63 and Pr 08 64 English 31 Dimensions Frame B D w D1 a w1 D2 1 t sl SJ N 5 M Unit mm inch Frame W W1 H H1 D D1 D2 S1 S2 B1 150 0 135 0 260 0 244 3 160 2 67 0 4 0 8 0 6 5 5 91 5 32 10 24 9 63 6 31 2 64 0 16 0 32 0 26 B2 150 0 135 0 272 1 244 3 183 7 67 0 4 0 8 0 6 5 5 91 5 32 10 72 9 63 7 24 2 64 0 16 0 32 0 26 Em NOTE Frame B1 VFD007V23A 43A 2 VFD015V23A 43A 2 VFD022V23A 43A 2 Frame B2 VFD037V23A 43A 2 English 32 Frame C I SL sa Unit
6. REV AA E FWD REV Direction Key RUN key STOP RESET English 3 AO ESO LED Display Display frequency current voltage and error etc Part Number Status Display Display of driver status Parameter Unit Key Enable the keypad itcan determine the source of RUN STOP Right Key Moves the cursor right PROG DATA Used to enter programming parameters STOP RESET How to Operate the Digital Keypad KPV CE01 Selection mode START F HY CG Geir KS more ES more ES moe GO START NOTE Inthe selection mode press DAR to set the parameters To set parameters c full ming F nn parameter set successfully ga ue WIL Gs PROG PROG ES nd FE DATA gt tl parameter set error KS MODE move to previous display NOTE In the parameter setting mode you can press KS MoDE to return to the selection mode To shift cursor START F F F SEED Emm Ar A To modify data E 5050 a Ra AI A I START F m F ma EE gt GUUU y gt English 4 To copy parameters 1 Copy parameters from the AC Motor Drive to the KPV CE01 about 2 3 seconds SRZD gt Gaza start blinking It will display End to indicate that the first parameter is saved then return to rEAdO F ann UU gt Fi F F gt FINA gt GLK ISTAT Se start blinking It will display End to indicate that about 2 3 seconds the second parameter
7. TET A MRC 48VDC 50mA t sw Multi step 1 MI1 factory setting Factory Multi step 2 indicate harit is running Source i ulti step Please refer to setting T Multi step 3 MI2 Moi gt Multi function contact output 3 Figure 3 for wiring p Us top i Mi3 ye photocoupler of SINK mode and Multi step 4 La SOURCEmode MI4 i i No function MO 2 Multi function contact output 4 M gt MIS A photocoupler No function JL gt 55 MI6 hos Digital Signal Common DCM J Multi function Don t apply the mains voltage directly e MCM Photocoupler Output to above terminals F JE DFM Digital Frequency Output ACI current voltage selection 10V p A Terminal tk ACI Switch Power supply vo factory setting 1 1 AE y Make sure that poweris OFF al 2 AV 20mA i a J aa Kaa r before changing the switch 5 lt a Tu igital Signal Commo setting Master Frequency DCM DFM output signal selection 1 Oto 10V 47k0 BEMISWRGR 0 20mA fer 0 10V ACI witc TTV 4 30mA 0 10V Make sure that power is OFF before changing the switch SOW setting Analog Signal Common oc UP Analog Multi function Output Terminal E gt AFM analog output selection AFM g 10VDC 2MA 6 1 RS 485 serial communication AFM Switch 1 EV Make sure that power is OFF ACM 2 GND For communication before changing the switch i 3 5G i tti Analog Signal common it needs to use sening t 4 SG VFD USB01 IF D8500 0 10V p 0 20mA 5 NC to connect to PC 6
8. mm inch Frame W W1 H H1 D S1 S2 C 200 0 185 6 323 0 244 3 160 2 _ 7 0 7 0 7 88 7 31 12 73 9 63 6 31 0 28 0 28 TE Frame C VFD055V23A 43A 2 VFD075V23A 43A 2 VFD110V43B 2 English 33 Frame D ill 1 LS1 DU ON f la j I pwm D Unit mm inch Frame w w1 H H1 D D1 D2 S1 D 250 0 226 0 408 2 384 0 205 4 110 0 10 0 10 0 E 9 85 8 90 16 07 15 13 8 08 4 33 0 39 0 39 SIGE Frame D VFD110V23A 43A 2 VFD150V23A 43A 2 VFD185V23A 43A 2 VFD220V23A 43A 2 English 34 Frame E D1 ell RACCOSSNE 82 OU Ls1 LS2_ La BONE FAR g Unit mm inch Frame W W1 H H1 H2 D D1 D2 S1 S2 S3 E1 370 0 335 0 589 0 560 0 260 0 132 5 18 0 13 0 13 0 18 0 14 57 13 19 23 19 22 05 10 24 5 22 0 71 0 51 0 51 0 71 E2 370 0 335 0 595 0 589 0 560 0 260 0 132 5 18 0 13 0 13 0 18 0 14 57 13 19 23 43 23 19 22 05 10 24 5 22 0 71 0 51 0 51 0 71 TE Frame E1 VFD300V43A 2 VFD370V43A 2 VFD450V43A 2 Frame E2 VFD300V23A 2 VFD370V23A 2 VFD550V43C 2 VFD750V43C 2 English 35
9. 0 O O Command 6 MI6 specific 1 B B input terminal for TRG 12 Output stop O O O 02 23 Multi Function Input 13 cancel the setting of the optimal 0 O O Command 7 acceleration deceleration time 02 24 Mu runean Input 14 switch between drive settings 1 and 2 9 OjO O ommand 8 02 23 Roe Input 15 operation speed command form AVI 8 O O JO o ommand 9 E gt OToOTO 5 02 26 oda Input 16 operation speed command form ACI 0 ils a Sf 02 27 kasko Input 17 operation speed command form AUI 9 ST S3 7 gt SOTO 5 5 02 28 Menci n Input 18 Emergency Stop 07 36 0 OJ oO O O 7 z alo Te 5 02 29 Mu Funcion Input 19 Digital Up command 0 olojo O 7 7 alo Te 5 02 30 aa Input 20 Digital Down command 9 E AS kj 21 PID function disabled o O O 22 clear counter O O O 23 input the counter value multi function input O O O command 6 24 FWD JOG command O O 25 REV JOG command DO O O 26 TQC PG FOC PG model selection O O 27 ASR1 ASR2 selection 28 Emergency stop EF1 Q 29 Signal confirmation for Y connection English 14 Factory Setting VF VFPG SVC FOCPG TQRPG Pr Explanation Settings 30 Signal confirmation for A connection 31 High torque bias by Pr 07 29 Q 32 Middle torque bias by Pr 07 30 O O OJO Q 33 Low torque bias by Pr 07 31 34 Enable multi step position control 35 Enable position control 36 Enable position l
10. 60 00 O O O O Frequency 50 00 01 01 1st Output Frequency 0 00 600 00Hz 60 00 O O O Setting 1 50 00 01 02 1st Output Voltage Setting 230V 0 1V 255 0V 220 0 QTO O O gt 1 460V 0 1V 510 0V 440 0 01 03 2nd Output Frequency 0 00 600 00Hz 0 50 Setting 1 2nd Output Voltage 230V 0 1V 255 0V 5 0 w01 04 Setting 1 460V 0 1V 510 0V 10 0 01 05 3rd Output Frequency 0 00 600 00Hz 0 50 Setting 1 3rd Output Voltage Setting 230V 0 1V 255 0V 5 0 01 06 1 460V 0 1V 510 0V 10 0 01 07 4th Output Frequency 0 00 600 00Hz 0 00 O Setting 1 4th Output Voltage Setting 230V 0 1V 255 0V 0 0 01 08 1 460V 0 1V 510 0V 0 0 01 09 Start Frequency 0 00 600 00Hz 0 50 O Output Frequency Upper 600 00 O 01 10 Limit 0 00 600 00Hz gt Output Frequency Lower 0 00 O x01 11 Limit 0 00 600 00Hz a w01 12 Accel Time 1 0 00 600 00 sec 0 00 6000 0 sec O w 01 13 Decel Time 1 0 00 600 00 sec 0 00 6000 0 sec O w01 14 Accel Time 2 0 00 600 00 sec 0 00 6000 0 sec O w 01 15 Decel Time 2 0 00 600 00 sec 0 00 6000 0 sec O w 01 16 Accel Time 3 0 00 600 00 sec 0 00 6000 0 sec O w 01 17 Decel Time 3 0 00 600 00 sec 0 00 6000 0 sec O w 01 18 Accel Time 4 0 00 600 00 sec 0 00 6000 0 sec O 01 19 Decel Time 4 0 00 600 00 sec 0 00 6000 0 sec olol o 01 20 JOG Acceleration Time 0 00 600 00 sec 0 00 6000 0 sec Ojoj O W01 21 JOG Deceleration Time 0 00 600 00 sec 0 00 6000 0 sec Ojoj O x 01 22 JOG Frequency 0 00 600 00Hz O O 1st 4th Accel decel 0 00 600 00H
11. Maximum Torque 0 500 100 O 07 22 Command 2 07 23 Filter Time of Torque 0 000 1 000 sec 0 000 O Command 07 24 Speed Limit Selection 0 By Pr 07 25 and Pr 07 26 0 O 1 Frequency command source Pr 00 20 07 25 Torque Mode Speed Limit 0 120 10 2 w07 26 Torque Mode Speed Limit 0 120 10 O Source of Torque Offset 0 Disable 0 O O AMET nalog input Pr 03 00 2 Torque offset setting 3 Control by external terminal by Pr 07 29 to Pr 07 31 w07 28 Torque Offset Setting 0 0 100 0 0 0 O O O w07 29 High Torque Offset 0 0 100 0 30 0 O O O w07 30 Middle Torque Offset 0 0 100 0 20 0 O O O 07 31 Low Torque Offset 0 0 100 0 10 0 O O O w07 32 HE Motor Torque 0 500 200 O O 07 33 Forward AT Regenerative 0 500 200 O Torque Limit 07 34 Reverse Motor Torque 0 500 200 O O 07 35 Reverse Regenerative 0 500 200 O Torque Limit w07 36 Emergency Stop EF amp 0 Coast stop 0 O O O O Forced Stop Selection y deceleration Time 1 y deceleration Time 2 By deceleration Time 3 4 By deceleration Time 4 5 System Deceleration 6 Automatic Deceleration English 22 Factory Pr Explanation Settings Setting VF VFPG SVC FOCPG TQRPG Group 8 High function PID Parameters w 08 00 Input Terminal for PID 0 No function O O O O Feedback 1 Negative PID feedback from external termina
12. O O O Loss Time x 07 08 B B Time for Speed 0 1 5 0 sec 0 5 O O O O O Search w07 09 Current Limit for Speed 20 200 150 O Oo O O O Search x 07 10 Base block Speed Search 0 Stop operation 0 O OTlO O O 1 Speed search starts with last frequency command 2 Speed search starts with minimum output frequency WOT 11 Auto Restart after Fault 0 10 0 Ol Oo O O O Speed Search during Start 0 Disable 0 O O O O WwW07 12 up Speed search from maximum frequency 2 Speed search from start up frequency 3 Speed search from minimum frequency 07 13 Decel Time Selection for 0 Disable 0 Onl EO O O Momentary Power Loss 1 1 decel time 2 2 decel time 3 3 decel time 4 4 decel time 5 Current decel time 6 Auto decel Time 07 14 DEB Return Time 0 0 25 0 sec 0 0 O O O O mM 07 15 Dwell Time at Accel 0 00 600 00sec 0 00 O O w07 16 Dwell Frequency at Accel 0 00 600 00Hz 0 00 O O O MOT AT Dwell Time at Decel 0 00 600 00sec 0 00 O O O 07 18 Dwell Frequency at Decel 0 00 600 00Hz 000 O O O O w07 19 Fan Control 0 Fan always ON 0 CR Re O O 1 1 minute after AC motor drive stops fan will be OFF 2 AC motor drive runs and fan ON AC motor drive stops and fan OFF 3 Fan ON to run when preliminary heat sink temperature attained 4 Fan always OFF w07 20 Torque Command 100 0 100 0 Pr 07 22 setting 100 0 0 O mM 07 21 Torque Command Source 0 Digital keypad 0 O 1 RS485 serial communication RJ 11 2 Analog signal Pr 03 00
13. PG position G refer to Pr 10 00 and Pr 10 01 5 10 Display PID feedback 00 04 Dr of Multi Function 11 Display AVI 9 12 Display ACI 13 Display AUI 14 Display the temperature of heat sink C 15 Display the temperature of IGBT C 16 The status of digital input ON OFF 17 The status of digital output ON OFF 18 Multi step speed 19 The corresponding CPU pin status of digital input 20 The corresponding CPU pin status of digital output 21 Number of actual motor revolution PG1 of PG card 22 Pulse input frequency PG2 of PG card 23 Pulse input position PG2 of PG card X 00 05 User Defined Coefficient K Digi NK number 0 to 3 0 O O Ol O O 00 06 Software Version Read only O O Brenda 1 to 9998 and 10000 to 65535 o lolo 00 07 p 0 to 2 times of wrong password 1 to 9998 and 10000 to 65535 0 lololol o w 00 08 Password Set 0 No password set or successful input in Pr 00 07 1 Password has been set x 00 09 Energy Saving Gain 10 1000 100 O 0 V f Control 0 ololo O O 1 V f Control Encoder VFPG 00 10 Control Method 2 Sensorless vector control SVC FOC vector control Encoder FOCPG 4 Torque control Encoder TQRPG 0 V f curve determined by group 01 0 Olo 00 11 V f Curve Selection 1 1 5 power curve 2 Square curve p Constant Torque 100 0 O O 8 O 00 12 e a Torque 1 Variable Torque 125 0 Linear accel decel I 0 Ol OO O i 1 Auto accel linear decel Optimal i
14. is saved then rota e E E euro WEAGT To copy parameters 2 Copy parameters from the KPV CE01 to the AC Motor Drive start blinking It will display End to indicate that the first parameter is saved then return to SAvEv nn gt gt Mh GRE mim mi mi rm ESTA x bg start blinking It will display End to indicate that the second parameter is saved then return to SAvEv about 2 3 seconds about 2 3 seconds English 5 Basic Wiring Diagram Users must connect wiring according to the following circuit diagram shown below DC choke optional Brake resistor Foreach model it may have optional different wiring Referto the AG following diagram for details J e l S Fuse NFB No Fuse Breaker qu AA NE 1 2 B1 B2 a Motor R L1 O 2 R L1 U T1 IM S L2 0 ___ Oo 1 S L2 V T2 3 24 p 1 x I T L3 OF T L3 W T3 3 OE E I Recommended Circuit y i I SA when powersupply E Wy is turned OFF by a MC RB RA fault output 010 G RC If the fault occurs the OFF ON RB Multi function contact output 1 contact will be ON to turn MC 1 relay off the power and protect the power system RC factory setting fault indication FWD STOP 2AN Factory setting o00 FWD MRA Multi function contact output 2 SINK Mode REV STOP REV relay
15. parameter can be set during operation Pr Explanation Settings 4 2 AWG 21 2 33 6mm 57kgf cm 49in Ibf Factory Setting VFPG Wire Type Stranded copper only 75 C SVC IE MMA To connect 6 AWG 13 3 mm2 wires use Recognized Ring Terminals FOCPG TQRPG Group 0 System Parameters Identity Code of the AC Read only 0 O S 00 00 motor drive Rated Current Display of Read only 0 O D 00 01 the AC motor drive 0 No function 0 8 O D D 1 Read only 2 Enable group 11 parameters setting Parameter Reset 8 Keypad lock 00 02 9 All parameters are reset to factory settings 50Hz 220V 380V 10 All parameters are reset to factory settings 60Hz 220V 440V 0 Display the frequency command value LED F 0 O D 1 Display the actual output frequency LED H 00 03 Start up Display Selection 2 Multifunction display see Pr 00 04 LED U 3 Display the output current A English 11 R Factory Pr Explanation Settings Setting VF VFPG SVC FOCPG TQRPG 0 Display output current A 0 OIO O O O 1 Display counter value C 2 Display output frequency H 3 Display DC BUS voltage Y 4 Display output voltage E 5 Output power factor angle n 6 Display output power kW Display actual motor speed HU isplay estimate output torque kg m 9 Display
16. value in REV direction O O REV Direction 1 1 Output OV in REV direction 2 Enable output voltage in REV direction W 03 22 Analog Output Gain 2 0 200 0 O O 2103 23 Analog Output Value in 0 Absolute value in REV direction O O REV Direction 2 1 Output OV in REV direction 2 Enable output voltage in REV direction 2103 25 Analog Output Gain 3 0 200 0 O O w03 26 Analog Output Value in 0 Absolute value in REV direction O O REV Direction 3 1 Output OV in REV direction 2 Enable output voltage in REV direction English 17 Pr Explanation Settings Sp VF VFPG SVC FOCPG TQRPG Group 4 Multi Step Speed Parameters w04 00 1st Step Speed Frequency 0 00 600 00Hz 0 00 O O w04 01 2nd Step Speed Frequency 0 00 600 00Hz 0 00 O O O w04 02 3rd Step Speed Frequency 0 00 600 00Hz 0 00 O O Y w04 03 4th Step Speed Frequency 0 00 600 00Hz 0 00 O O O 2104 04 5th Step Speed Frequency 0 00 600 00Hz 0 00 O O w04 05 6th Step Speed Frequency 0 00 600 00Hz 0 00 O O O w04 06 7th Step Speed Frequency 0 00 600 00Hz 0 00 O O w04 07 8th Step Speed Frequency 0 00 600 00Hz 0 00 ojo O w04 08 9th Step Speed Frequency 0 00 600 00Hz 0 00 O O O 04 09 oth Step Speed 0 00 600 00Hz 0 00 olol Frequency 04 10 11 Step Speed 0 00 600 00Hz 00 O olol Frequency 04 14 21h Ste
17. 0 O 08 79 Source of Zero speed 0 Disable 0 O Tension Setting ommunication RS 485 Pr 08 80 2 Analog input Pr 03 00 03 02 is set to 16 zero speed tension Pr 08 80 08 80 Setting of Zero speed 0 30000 N 0 O Tension 08 81 Source of Tension Taper 0 Communication RS 485 Pr 08 82 0 O 1 Analog input Pr 03 00 03 02 is set to 17 tension taper Pr 08 82 08 82 Tension Taper 0 100 0 O 08 83 Friction Compensation 0 0 100 0 0 0 08 84 Compensation Coefficient 0 30000 0 of Material Inertial 08 85 Torque Feedforward Gain 0 0 100 0 50 0 O Low Pass Filter Time of 0 00 100 00 5 00 O 08 86 Torque Feedforward 08 87 Reserved 08 99 Group 9 Communication Parameters 09 00 Communication Address 1 254 1 O O O O O w09 01 COM1 Transmission 4 8 115 2Kbps 9 6 Ol O O O O Speed w 09 02 COM1 Transmission Fault 0 Warn and keep operation 3 O O O O Treatment 1 Warn and ramp to stop Warn and coast to stop 3 No warning and keep operation 09 03 COM1 Time out Detection 0 0 100 0 sec 0 0 O O O COM1 Communication 0 7N1 ASCII 1 O O O 109 04 protocol 1 7N2 ASCII 2 7E1 ASCII 3 701 ASCII 4 7E2 ASCII 5 702 ASCII 6 8N1 ASCII 7 8N2 ASCII 8 8E1 ASCII 9 801 ASCII 10 8E2 ASCII 11 802 ASCII 12 8N1 RTU 13 8N2 RTU 14 8E1 RTU 15 801 RTU 16 8E2 RTU 17 802 RTU COM2 Transmission 4 8 115 2Kbps 9 6 O O O 09 05 Speed Keypad w09 06 COM2 Transmission Fault 0 Warn and keep operation 3 OTO O O
18. 09 Over torque Detection 0 disable i z 0 O O O O O Selection OT2 1 over torque detection during constant speed operation continue to operate after detection 2 over torque detection during constant speed operation stop operation after detection 3 over torque detection during operation continue to operate after detection 4 over torque detection during operation stop operation after detection Over torque Detection 10 250 150 O OJO O O 06 10 evel 012 Re Ea IS Over torque Detection 0 0 60 0 sec 0 1 O O O O O 2106 11 Time 072 AA EA x w 06 12 Current Limit 0 250 150 O O 06 13 Electronic Thermal Relay 0 Inverter motor 2 O O O O Selection Motor 1 1 Standard motor 2 Disable 06 14 Electronic Thermal 30 0 600 0 sec 600 O O O O O Characteristic for Motor 1 X 06 15 Warn Over heat OH 0 0 110 0 C 85 0 o O O O w 06 16 Stall Prevention Limit Level 0 100 refer to Pr 06 03 Pr 06 04 50 O O O 06 17 Present Fault Record 0 No fault 0 O O ver current during acceleration ocA O O 06 18 Second Most Recent Fault 2 Over current during deceleration ocd 0 O O Record 3 Over current during constant speed ocn O O 4 Ground fault GFF O O 06 19 Third Most Recent Fault 5 IGBT short circuit occ 0 O Record 6 Over curent at stop ocS O O 7 Over voltage during acceleration ovA O O 06 20 Fourth Most Recent Fault 8 Over voltage during deceleration ovd 0 O O Record 9 Over voltage during constant speed o
19. 1 1 O O O 2 Motor 2 Frequency for Y 0 00 600 00Hz 60 00 O O O O m05 11 connection A connection Switch English 18 Pr Explanation Settings SVC FOCPG TQRPG 05 12 Y connection 0 Disable O O JA connection Switch 1 Enable 05 13 Full load Current of Motor 2 40 100 O O O WOB 14 Rated Power of Motor 2 0 655 35 O O O 05 15 Rated Speed of Motor 2 0 65535 O O O rpm 05 16 Number of Motor Poles 2 2 20 O O 05 17 No load Current of Motor 2 0 factory setting of Pr 05 01 O 8 05 18 Rs of Motor 2 0 65 535Q O O 05 19 Rr of Motor 2 0 65 5350 O O 05 20 Lm of Motor 2 0 6553 5mH O O 05 21 Lx of Motor 2 0 6553 5mH O O Torque Compensation 0 001 10 000sec 05 22 Time Constant 05 23 Slip Compensation Time 0 001 10 000sec O Constant Torque Compensation 0 10 u 05 24 Gain w05 25 Slip Compensation Gain 0 00 10 00 O w 05 26 Slip Deviation Level 0 1000 0 disable O O x 05 27 Detection Time of Slip 0 0 10 0 sec O O Deviation w 05 28 0 Warn and keep operation O O Over Slip Treatment 1 Warn and ramp to stop 2 Warn and coast to stop w 05 29 Hunting Gain 0 10000 0 disable w05 30 Delay Time for Y 0 60 000 sec O connection A connection 05 31 Accumulative Motor 00 1439 O O Operation Time Min 05 32 Accumulative Motor 00 65535 O O Operation Time day Group 6 Protec
20. 10 0 sec 0 5 O O PG Stall and Slip Error 0 Warn and keep operation 2 O O x 10 14 Treatment Warn and ramp to stop 2 Warn and coast to stop 10 15 Pulse Input Type Setting 0 Disable 0 O O O O O 1 Phase A leads in a forward run command and phase B leads in a reverse run command 2 Phase B leads in a forward run command and phase A leads in a reverse run command 3 Phase A is a pulse input and phase B is a direction input low input reverse direction high input forward direction 4 Phase A is a pulse input and phase B is a direction input low input forward direction high input reverse direction w 10 16 Output Setting for 1 255 1 O O O Frequency Division denominator PG Electrical Gear A 1 5000 100 O O 410 17 Channel 1 of PG card PG Electrical Gear B 1 5000 100 O O X 10 18 Channel 2 of PG card w10 19 PG Position Control Point 0 20000 0 O O Home Range for PG Position 0 20000 10 O O 10 20 Attained Home range w 10 21 P Gain of Zero Speed 0 40 10 O O 10 22 Gain of Zero Speed 0 000 10 000 sec 0 100 O O O w 10 23 Feed Forward Gain of APR 0 100 30 O Decelerate Time of 0 00 600 00 sec 00 6000 0 sec 3 00 M 10 24 an Position 3 0 W 10 25 Max Frequency for 50 00 600 00Hz 50 00 O O O O O Resolution Switch 10 26 Reserved mM 10 27 PG Mechanical Gear A1 1 65535 100 O 2 w10 28 PG Mechanical Gear B1 1 65535 100 O O w10 29 PG Mechanical Gear A2 1 65535 100 O O w10 30 PG Mechanical Gear B2 1 65535 100 O O Group
21. 11 Advanced Parameters bit 0 ASR Auto tuning 0 O bit 1 Inertia estimate only for FOCPG mode 11 00 System Control bit 2 Zero Servo bit 3 Reserved bit 4 Enable gain adjustment of position loop KP x 11 01 Per Unit of System Inertia 1 65535 256 1PU 400 O O 4 11 02 Low speed Bandwidth 0 40Hz 10 O O 11 03 High speed Bandwidth 0 40Hz 10 O x 11 04 PDFF Gain Value 0 200 30 O Gain Value of Flux 0 200 90 O m 11 05 Weakening Curve for Motor 1 Gain Value of Flux 0 200 90 O O m 11 06 Weakening Curve for Motor 2 English 27 Pr Explanation Settings Ra VF VFPG SVC FOCPG TQRPG Detection Time for Phase 0 01 600 00 sec 0 20 O O O O O 4 11 07 loss 11 08 Reserved x 11 09 Level of Phase loss 0 0 320 0 600 O O O O 11 10 Speed Feed Forward Gain 0 100 0 11 11 Zero speed Bandwidth 0 40Hz 10 O O Speed Response of Flux 0 Disable 65 11 12 Weakening Area 0 150 w 11 13 Notch Filter Depth 0 20db 0 w11 14 Notch Filter Frequency 0 00 200 00 0 00 O 4 11 15 0 00 1 00 1 00 3 Low pass Filter Time of 0 001 65 535sec oiwlololo O O 11 16 Keypad Display 5 i z Low pass Filter Time of 0 000 65 535sec 0100 0 OO O 411 17 pG2 Pulse Input E u 4 11 18 APR Gain 0 00 40 00 10 00 w 11 19 APR Curve Time 0 00 655 35 sec 3 00 11 20 Reserved 11 28 11 29 Accumulative Operation 0 65
22. 535 hour 0 ol oO O O O Time of Phase loss 11 30 Reserved 11 40 Fault Codes lame Check for loose contacts between AC motor drive and motor Short circuit at motor output Check for possible poor insulation at the output lines och Over current during acceleration 3 oj Time too short Increase the Acceleration 4 In SVC mode torque boost too high Decrease the torque compensation setting in Pr 05 24 5 AC motor drive output power is too small Replace the AC motor drive with the next higher power model Short circuit at motor output Check for possible poor insulation at the output line ocd Over current during deceleration Deceleration Time too short Increase the Deceleration Time AC motor drive output power is too small Replace the AC motor drive with the next higher power model Short circuit at motor output Check for possible poor insulation at the output line ocn Over current during steady state Sudden increase in motor loading Check for possible operation motor stall 3 AC motor drive output power is too small Replace the AC motor drive with the next higher power model When one of the output terminal s is grounded short circuit current is more than 50 of AC motor drive rated current the AC motor drive power module may be damaged NOTE The short circuit protection is provided for AC GEF motor drive protection not for protection of the user Check the wiring connections between the AC motor drive and motor fo
23. 60V 0 1V 510 0V 10 0 01 39 3rd Output Frequency 0 00 600 00Hz 0 50 O O 3 Setting 2 3rd Output Voltage Setting 230V 0 1V 255 0V 5 0 O 01 40 2 460V 0 1V 510 0V 10 0 01 41 4th Output Frequency 0 00 600 00Hz 0 00 O O O O O Setting 2 4th Output Voltage Setting 230V 0 1V 255 0V 0 0 O O 01 42 2 460V 0 1V 510 0V 0 0 Group 2 Digital Input Output Parameters 02 00 2 wire 3 wire Operation 0 FWD STOP REV STOP 0 O O O O O Control FWD STOP REV STOP Line Start Lockout 2 RUN STOP REV FWD 3 RUN STOP REV FWD Line Start Lockout 4 3 wire momentary push button 5 3 wire momentary push button and Line Start Lockout 02 01 Multi Function Input 0 no function 1 O O O Command 1 MI1 1 multi step speed command 1 multi step position O O it is Stop terminal for 3 command 1 wire operation 2 multi step speed command 2 multi step position O O O command 2 02 02 3 multi step speed command 3 multi step position 2 O O O Multi Function Input command 3 Command 2 MI2 4 multi step speed command 4 multi step position OL O O command 4 02 03 Multi Function Input 5 Reset 3 O O O Command 3 MI3 6 JOG command O O 02 04 Multi Function Input 7 acceleration deceleration speed inhibit 4 O O Command 4 MI4 8 the 1st 2nd acceleration deceleration time selection O O 02 05 Multi Function Input 9 the 3rd 4th acceleration deceleration time selection 0 O O Command 5 MIS 10 EF input 07 36 O O O 02 06 Multi Function Input 3
24. 8 26 O Command Line Speed 1 RS 485 communication setting Pr 08 26 2 Analog input Pr 03 00 03 02 is set to 14 PID target value of tension 03 00 03 02 is set to 12 line speed PID Target Value of 0 0 100 0 500 O OJO O O X 08 26 TensioniLine Speed 08 27 Source of Tension Line 0 Analog input Pr 03 00 03 02 is set to 11 PID O O O O O Speed PID Feedback feedback of tension 1 Pulse input Pr 08 40 08 28 Auto tuning Tension PID 0 Disable O O O O O 1 Reel diameter 08 29 08 31corresponds to 08 44 08 32 08 34 corresponds to 08 43 2 Frequency 08 29 08 31 corresponds to 01 07 08 32 08 34 corresponds to 01 00 w 08 29 Tension PID P1 0 0 1000 0 50 0 O w 08 30 Tension PID 11 0 00 500 00 sec O O 08 31 Reserved 08 32 Tension PID P2 0 0 1000 0 500 TOTO English 23 Factory Pr Explanation Settings Setting FOCPG TQRPG w08 33 Tension PID 12 0 00 500 00 sec 1 00 O O O 08 34 Reserved PID Line Speed Output 0 Positive output 0 O O 08 35 Status 1 Negative output Tension Line Speed PID 0 100 00 according to Pr 01 00 20 00 O O 08 36 ENIE Output Limit 08 37 Source of Line Speed 0 Disable 0 O O Input Command Analog input Pr 03 00 03 02 is set to 12 line speed S 485 communication setting Pr 08 41 Pulse input Pr 08 40 4 DFM DCM pulse input Pr 02 18 0
25. 8 38 Max Line Speed 0 0 3000 0m min 1000 0 O 08 39 Min Line Speed 0 0 3000 0m min 0 0 O O 08 40 Pulse Number for Each 0 0 6000 0 0 0 O O Meter 08 41 Current Line Speed 0 0 3000 0m min 0 0 O O 08 42 Source of Reel Diameter 0 Calculated by line speed 0 2 O 1 Calculated by integrating thickness encoder is on reel shaft Pr 08 49 51 Pr 10 15 2 Calculated by integrating thickness encoder is on motor Pr 08 23 08 24 08 50 08 51 10 00 10 01 3 Calculated by analog input Pr 03 00 03 02 is set to 13 08 43 Max Reel Diameter 1 0 6000 0mm 6000 0 O O 08 44 Empty Reel Diameter 1 0 6000 0mm 1 0 O O 08 45 Source of Initial Reel 0 RS 485 communication setting Pr 08 46 0 O O Diameter 1 Analog input Pr 03 00 Pr 03 02 is set to 13 w 08 46 Initial Reel Diameter 1 0 6000 0mm 1 0 O O 08 47 Initial Reel Diameter 1 1 0 6000 0mm 1 0 O O 08 48 Initial Reel Diameter 2 1 0 6000 0mm 1 0 O 08 49 Number of Pulse per 1 10000ppr 1 O O Revolution Coil Number for Each 0 001 60 000mm 1 000 O 08 50 Layer 08 51 Material Thickness 0 001 60 000mm 1 000 O O 08 52 Filter Time of Reel 0 00 to 100 00 seconds 1 00 O Diameter Auto Compensation of Reel 0 Disable 1 00 E O 08 53 e Diameter 1 Enable w 08 54 Current Reel Diameter 1 0 6000 0mm 1 0 O O Smart Start 0 Disable 1 O O 08 55 1 Enable 2 In unwind mode rewind in reverse direction 08 56 Switch Level for Smart 0 0 100 0 according to Pr 08 26 15 0 O O Start and PID functio
26. Detection 1 Warn and ramp to stop Selection 2 Warn and coast to stop w 06 30 PTC Level 0 0 100 0 50 0 w06 31 Filter Time for PTC 0 00 10 00sec 0 20 O O Detection Qutput Frequency for 0 00 655 35 Hz 000 OJ OJO O O 06 32 Malfunction Output AC Voltage for 0 0 6553 5 V 0 0 O O O 06 33 Malfunction 06 34 DC Voltage for Malfunction 0 0 6553 5 V 0 0 La O O Current Value for 0 00 655 35 Amp 0 00 O O 06 35 Malfunction IGBT Temperature for 0 0 6553 5 C 0 0 O O O O O 06 36 Malfunction Group 7 Special Parameters 07 00 Software Brake Level 230V 350 0 450 0Vdc 380 0 O O O 460V 700 0 900 0Vdc 760 0 w07 01 DC Brake Current Level 0 100 0 O O X 07 02 DC Brake Time during 0 0 60 0 sec 0 0 O O Start up 2 07 03 DC Brake Time during 0 0 60 0 sec 0 0 6 O Stopping x 07 04 Start point for DC 0 00 600 00Hz 0 00 OIO Brake 07 05 DC Brake Voltage Gain 1 500 50 O O w07 06 Momentary Power Loss 0 Operation stop after momentary power loss 0 O O O O O Operation Selection 1 Operation continues after momentary power loss speed search starts with the Master Frequency reference value 2 Operation continues after momentary power loss speed search starts with the minimum frequency English 21 Pr Explanation Settings Si VF FOCPG TQRPG w07 07 Maximum Allowable Power 0 1 5 0 sec 2 0
27. IGBT temperature exceeds protection level 1to15HP 90 C 20 to 100HP 100 C Heatsink overheating Heat sink temperature exceeds 90 C 1 Ensure that the ambient temperature falls within the specified temperature range 2 Make sure that the ventilation holes are not obstructed 3 Remove any foreign objects from the heatsinks and check for possible dirty heat sink fins 4 Check the fan and clean it 5 Provide enough spacing for adequate ventilation t Ensure that the ambient temperature falls within the specified temperature range 2 Make sure that the ventilation holes are not obstructed 3 Remove any foreign objects from the heatsinks and check for possible dirty heat sink fins 4 Check the fan and clean it 5 Provide enough spacing for adequate ventilation EH io OH1 hardware failure Return to the factory tHo OH2 hardware failure Return to the factory Fin Fan failure Overload The AC motor drive detects excessive drive output current NOTE The AC motor drive can withstand up to 150 of the rated current for a maximum of 60 seconds 1 Make sure that the fan is not obstructed 2 Return to the factory 1 Check whether the motor is overloaded 2 In SVC mode reduce torque compensation setting in Pr 05 24 3 Take the next higher power AC motor drive model English 29 Fault Name oH3 FuSE ote cf cfe cou cdi cde cdj Hdu Hd Hoe Hd3 RUE AFE POE i
28. NC Main circuit power terminals Control circuit terminals Shielded leads 8 Cable i gt Mela The brake resistor is built in to modelVFD110V43B English 6 Figure 1 for models of VF D VE Series 15 HP and below VFD007V23A 43A 2 VFD015V23A 43A 2 VFD022V23A 43A 2 VFD037V23A 43A 2 VFD055V23A 43A 2 VFD075V23A 43A 2 VFD110V43B 2 VFD110V23A 43A 2 DC choke optional Brake resistor optional Jumper E aa 2 B1 Ba 1 Figure 2 for models of VFD VE Series 20HP and above VFD150V23A 43A 2 VFD185V23A 43A 2 VFD220V23A 43A 2 VFD300V43A 2 VFD370V43A 2 VFD450V43A 2 VFD300V23A 2 VFD370V23A 2 VFD550V43C 2 VFD750V43C 2 DC choke optional Brake Unit optional i VFDB Ma Brake resistor optional anus Figure 3 Wiring for SINK NPN mode and SOURCE PNP mode SINK NPN Mode FWD STOP gt Source REV STOP___ O Multi step1 l Multi step2 5s Factory setting Multi step3 o Multi step4 0 No Function No Function 55 Digital Signal Common Don t apply the mains voltage directly Ka OEO to above terminals Terminal Explanations SOURCE PNP Mode 24V Sink 24V FWD STOP __ FWD yla sw1 YD 0 FWD REV STOP BE REV Source To A O REV Multi step1 __ i MI1 BM Multi step2 __ ak MI2 ma f MIE Multi step3 __ MI3 Factory 8 MI3 setting Multi step4 5 5 Mia MI4 No F
29. O Treatment Keypad 1 Warn and ramp to stop 2 Warn and coast to stop 3 No warning and keep operation English 25 Pr Explanation Settings SSR VF VFPG SVC FOCPG COM2 Time out Detection 0 0 100 0 sec 0 0 O O O 09 07 Keypad w09 08 COM2 Communication 0 7N1 ASCII 13 O O O Protocol Keypad 1 7N2 ASCII 2 7E1 ASCII 3 701 ASCII 4 7E2 ASCII 5 702 ASCII 6 8N1 ASCII 7 8N2 ASCII 8 8E1 ASCII 9 801 ASCII 10 8E2 ASCII 11 802 ASCII 12 8N1 RTU 13 8N2 RTU 14 8E1 RTU 15 801 RTU 16 8E2 RTU 17 802 RTU w 09 09 Response Delay Time 0 0 200 0ms 20 JOJ O O w00 10 Transmission Master 0 00 600 00Hz 60 00 O O O Frequency w09 11 Block Transfer 1 0 65535 0 O O O w09 12 Block Transfer 2 0 65535 0 O O W 09 13 Block Transfer 3 0 65535 0 O O w09 14 Block Transfer 4 0 65535 0 o O O w09 15 Block Transfer 5 0 65535 0 o O O w09 16 Block Transfer 6 0 65535 0 o O O w09 17 Block Transfer 7 0 65535 0 o O O w09 18 Block Transfer 8 0 65535 0 o O O w09 19 Block Transfer 9 0 65535 0 o O O w09 20 Block Transfer 10 0 65535 0 O O O w09 21 Multi function Output 0 65535 Read O O O Status only 00 22 AFM2 Status 0 4095 Read 5161616 09 23 AFM3 Status 0 4095 Read 5161616 Group 10 Speed Feedback Control Parameters 10 00 Encoder Pulse 120000 600 O 10 01 Encoder Input Type Sett
30. PGE PGES PGFU Pur i Pure ALE EF Fault Descriptions 1 Motor 1 overload 2 3 1 2 Motor 2 overload 3 Motor overheating 1 The AC motor drive detects thatthe 2 internal temperature exceeds Pr 06 30 PTC level 3 Broken fuse 8 The transistor module of the main 2 circuit is broken Electronic Thermal Relay 1 2 Protection These two fault codes will be gt displayed when output current exceeds the level of over torque 3 detection Pr 06 08 or Pr 06 11 4 and it is set 2 or 4 in Pr 06 06 or Pr 06 09 programmed 2 2 read 2 Pisum error Auto tuning error PID loss ACI PG feedback error PG feedback loss PG feedback stall 1 2 PG slip error 3 Pulse input error 4 Pulse input loss 2 d 2 ACI loss Njn Check External Fault English 30 Corrective Actions Check whether Check whether 01 is suitable Take the next higher power AC motor drive model Check whether the motor 2 is overloaded Check whether the rated current of motor 2 Pr 05 13 is suitable Take the next higher power AC motor drive model Make sure that the motor is not obstructed Ensure that the ambient temperature falls within the specified temperature range Take the next higher power AC motor drive model Check whether the fuse of the transistor module is functioning well Check whether grounded he motor 1 is overloaded he rated current of motor 1 Pr 05 he loading
31. Preface Thank you for choosing DELTA s high performance VFD VE Series The VFD VE Series is manufactured with high quality components and materials and incorporate the latest microprocessor technology available 2 Getting Started This quick start will be helpful in the installation and parameter setting of the AC motor drives To guarantee safe operation of the equipment read the following safety guidelines before connecting power to the AC motor drives For detail information refer to the VFD VE User Manual on the CD supplied with the drive AE 2 AC input power must be disconnected before any wiring to the AC motor drive is made A charge may still remain in the DC link capacitors with hazardous voltages even if the power has been turned off To prevent personal injury please ensure that power has turned off before opening the AC motor drive and wait ten minutes for the capacitors to discharge to safe voltage levels Never reassemble internal components or wiring The AC motor drive may be destroyed beyond repair if incorrect cables are connected to the input output terminals Never connect the AC motor drive output terminals U T1 V T2 and W T3 directly to the AC mains circuit power supply Ground the VFD VE using the ground terminal The grounding method must comply with the laws of the country where the AC motor drive is to be installed Refer to the Basic Wiring Diagram VFD VE series is used only to control variable sp
32. VFD750V43C 2 E E2 40 100hp 30 75kW Control Terminals Frame Torque Wire B C D E E1 8 kgf cm 6 9 in Ibf 22 14 AWG 0 3 2 1mm Frame B Main circuit terminals R L1 S L2 T L3 U T1 V T2 W T3 1 2 B1 B2 Models Wire Torque Wire Type VFD007V23A 2 VFD015V43A 2 14 10AWG 18kgfcm _ Stranded VFD022V23A 2 2 1 5 3mm 15 6in lbf R Oniy VFD022V43A 2 VFD037V23A 2 VFD037V43A 2 Frame C Main circuit terminals E el R L1 S L2 T L3 U T1 V T2 W T3 1 2 B1 B2 ih i Models Wire Type 5 VFD055V23A 2 o VFD075V23A 2 A 12 8 AWG 30kgf cm RE VFD110V43B 2 3 3 8 4mm 26in Ibf COPPET Oniyi VFD055V43A 2 VFD075V43A 2 English 10 Frame D Main circuit terminals VFD110V23A 2 VFD110V43A 2 VFD150V43A 2 VFD150V23A 2 8 2 AWG VFD185V23A 2 8 4 33 6mm BR ja ole VFD185V43A 2 e e VFD220V43A 2 j VFD220V23A 2 RILAS L2 T L3 1 2 ZAS ponen za le Sal 6 T 6 LES Frame E Main circuit terminals 30kgf cm 26in lbf RIL1 S L2 TIL3 UTA VIT2 WIT3 1 2 Models Wire Torque Wire Type Stranded copper only 75 C R L1 S L2 T L3 U T1 V T2 W T3 1 2 VFD300V43A 2 VFD370V43A 2 VFD450V43A 2 VFD300V23A 2 VFD370V23A 2 VFD550V43C 2 VFD750V43C 2 Summary of Parameter Settings XA The
33. ation Control 0 Disable 0 Ol O Selection after Reset 1 Drive runs if run command exists after reset w02 43 Zero speed Level of Motor 0 65535 rpm 0 olo O O O Group 3 Analog Input Output Parameters w03 00 Analog Input 1 AVI 0 No function 1 O w03 01 Analog Input 2 ACI 1 Frequency command torque limit under TQR control 0 O s mode w03 02 Analog Input 3 AUI 2 torque command torque limit under speed mode 0 O 3 Torque compensation command O 4 PID target value refer to group 8 5 PID feedback signal refer to group 8 6 P T C thermistor input value O 7 Positive torque limit 8 Negative torque limit 9 Regenerative torque limit 10 Positive negative torque limit O 11 PID feedback signal of tension O O 12 Line speed O O O O English 16 Factory Setting FOCPG TQRPG Pr Explanation Settings O O 13 Reel diameter 14 PID target value of tension tension closed loop O Orolo 15 Tension setting tension open loop 16 Zero speed tension 17 Tension taper Analog Input Bias 1 AVI x 03 03 100 0 100 0 w03 04 Analog Input Bias 2 ACI _100 0 100 0 w03 05 Analog Input Bias 3 AUI 100 0 100 0 O O Positive negative Bias 0 Zero bias O O 028 Mode AVI ower than bias bias 03 07 Pos
34. earning function valid at stop 37 Enable pulse position input command 38 Disable write EEPROM function 39 Torque command direction 40 Force stop Oye O O O 41 Serial position clock 3 42 Serial position input 43 Analog input resolution selection 44 Reset initial reel diameter O O O O 45 Reset initial reel diameter 0 Oo OO O O 46 Reset initial reel diameter 1 O OlO O O 47 Reset PID control integration of tension O fojo O O 48 Mechanical gear ratio switch O O O 49 Reserved 50 Reserved 0 up down by the accel decel time 0 OO 5 02 07 UP DOWN Key Mode 1 up down constant speed Pr 02 08 The 0 01 1 00Hz ms 001 Ol olol o Acceleration Deceleration x 02 08 Speed of the UP DOWN Key with Constant Speed Digital Input Response 0 001 30 000 sec 0 005 O O O O O 02 09 Time Digital Input Operation 0 65535 0 O 02 10 Direction Multi function Output 1 RA 0 No function 11 O 02 11 RB RC Relay1 1 Operation indication O Multi function Output 2 2 Operation speed attained 1 O w 02 12 MRA MRC Relay2 3 Desired frequency attained 1 Pr 02 19 Multi function Output 3 4 Desired frequency attained 2 Pr 02 21 0 w02 13 MO1 5 Zero speed frequency command 6 Zero speed with stop frequency command 7 Over torque OT1 Pr 06 06 06 08 O
35. eed of 3 phase induction motors NOT for 1 phase motors or other purpose VFD VE series is the specific drive for the elevator door and other automatic door control NOT for those devices that may cause personal injury such as life support equipment or any life safety situation To prevent drive damage the RFI jumper connected to ground shall be cut off if the AC motor drive is installed on an ungrounded power system or a high resistance grounded over 30 ohms power system or a corner grounded TN system Az DO NOT use Hi pot test for internal components The semi conductor used in AC motor drive easily damage by high pressure There are highly sensitive MOS components on the printed circuit boards These components are especially sensitive to static electricity To prevent damage to these components do not touch these components or the circuit boards with metal objects or your bare hands Only quality person is allowed to install wire and maintain AC motor drive Emma 1 2 Some parameters settings can cause the motor to run immediately after applying power DO NOT install the AC motor drive in a place subjected to high temperature direct sunlight high humidity excessive vibration corrosive gases or liquids or airborne dust or metallic particles Only use AC motor drives within specification Failure to comply may result in fire explosion or electric shock To prevent personal injury please keep children and unqual
36. ified people away from the equipment When the motor cable between AC motor drive and motor is too long the layer insulation of the motor may be damaged Please use a frequency inverter duty motor or add an AC output reactor to prevent damage to the motor Refer to user manual for details The rated voltage for AC motor drive must be lt 240V lt 480V for 460V models and the mains supply current capacity must be lt 5000A RMS lt 10000A RMS for the gt 40hp 30kW models English 1 Specifications Voltage Class 230V Class Model Number VFD XXXV 370 Max Applicable Motor Output KW 37 Max Applicable Motor Output hp 2 0 3 0 7 5 50 55 EDO n n a as m s o vo 3 Variable Torque A 5 3 Phase Proportional to Input Voltage 2 0 00 600 00 Hz Carrier Frequency kHz 1 9 6 ST Rated Input Current A 64 99 1 27 25 33 52 68 cs 79 106 126 3 3 phase 200 240V 50 60Hz Z Voltage Tolerance E 10 180 264 V El Frequency Tolerans E 5 47 68 Fa Cooling Method Fan Cooled Weight kg 27 32 45 68 8 10 13 ELLE 6 36 Voltage Class 460V Class Model Number VFD XXXV 220 300 450 550 750 Max Applicable Motor Output KW 22 30 45 55 75 Max Applicable Motor Output hp 30 40 60 75 100 Rated Output Capacity KVA 3 9 9 14 18 24 29 34 46 69 80 100 gt Rated Output Current for 3 0 42 6 0 85 45 60 91 1101150 Constant Torque
37. ing 0 Disable 0 O 1 Phase A leads in a forward run command and phase B leads in a reverse run command 2 Phase B leads in a forward run command and phase A leads in a reverse run command 3 Phase A is a pulse input and phase B is a direction input low input reverse direction high input forward direction 4 Phase A is a pulse input and phase B is a direction input low input forward direction high input reverse direction 5 Single phase input w10 02 PG Feedback Fault 0 Warn and keep operation O O O Treatment 1 Warn and ramp to stop 2 Warn and coast to stop Detection Time for PG 0 00 10 0 sec O O O 110 03 Feedback Fault ASR Auto Speed 0 40 10 O O 10 04 Regulation Control P 1 w10 05 ASR Auto Speed 0 000 10 000 sec 0 100 O O Regulation Control 1 1 ASR Auto Speed 0 40 10 O O W 40 06 Regulation Control P 2 mM 10 07 ASR Auto Speed 0 000 10 000 sec 0 100 O O Regulation Control 1 2 English 26 Factory Pr Explanation Settings Setting VF VFPG SVC FOCPG TQRPG w10 08 ASR 1 ASR2 Switch 5 00 600 00Hz 7 00 O O Frequency ASR Primary Low Pass 0 000 0 350 sec 0 008 10 09 Filter Gain w 10 10 PG Stall Level 0 120 0 disable 115 Q w10 11 PG Stall Detection Time 0 0 2 0 sec 0 1 O w10 12 PG Slip Range 0 50 0 disable 50 O O w10 13 PG Slip Detection Time 0 0
38. ion Overload Ability Over voltage Protection Over voltage Protection for the Input Power Over temperature Protection Compensation for the Momentory Power Loss Protection Level Operation Temperature Storage Temperature Ambient Humidity Vibration Environmental Conditions Installation Location Approvals General Specifications The current forces 220 of the over current protection and 300 of the rated current Higher than 50 X rated current Constant torque 150 for 60 seconds variable torque 200 for 3 seconds Over voltage level Vdc gt 400 800V low voltage level Vdc lt 200 400V Varistor MOV Built in temperature sensor Up to 5 seconds for parameter setting NEMA 1 IP21 10 C to 40 C 20 C to 60 C Below 90 RH non condensing 9 80665m s 1G less than 20Hz 5 88m s 0 6G at 20 to 50Hz Altitude 1 000 m or lower keep from corrosive gasses liquid and dust Description of the Digital keypad KPV CE01 Frequency Command Status indicator Output Frequency Status indicator User Defined Units Status indicator JOG Operation Key Press this key to execute the JOG frequency operation MODE Selection Key Press this key to view different operating values I Left Key moves cursor to the left KPV CE01 e RUN STOP JOG FWD REV EXTPU MODE Value Modification Key Used on the modification for settings and parameters EWD PROG
39. itive negative Bias 2 Greater than bias bias O O Mode ACI 3 The absolute value of the bias voltage while serving 03 08 Positive negative Bias as the center O 103 08 Mode AUI 4 Serve bias as the center w03 09 Analog Input Gain 1 AVI 500 0 500 0 O O w03 10 Analog Input Gain 2 ACI 500 0 500 0 w03 11 Analog Input Gain 3 AUI 500 0 500 0 O O ACI AVI2 Selection 0 ACI O O WSE 1 AVI 2 4 w03 13 Analog Input Delay Time 0 00 2 00 sec O O AVI Analog Input Delay Time z O O w 03 14 ACI 0 00 2 00 sec 03 15 NS Input Delay Time 16 09 2 00 sec O O w 03 16 Addition Function of the 0 Disable AVI ACI AUI O O Analog Input 1 Enable 03 17 Loss of the ACI Signal 0 Disable O O 1 Continue operation at the last frequency 2 Decelerate to stop 3 Stop immediately and display E F 03 18 Analog Output Selection 1 0 Output frequency Hz 1 Frequency command Hz O O w03 21 Analog Output Selection 2 2 Motor speed Hz O O 3 Output current rms O O w03 24 Analog Output Selection 3 4 Output voltage O 5 DC Bus Voltage O O 6 Power factor O O 7 Power O O 8 Output torque O O 9 AVI O O 10 ACI O O 11 AUI QO O 12 q axis current O O 13 q axis feedback value O O 14 d axis current O O 15 d axis feedback value O O 16 q axis voltage O O 17 d axis voltage O O 18 Torque command O O 19 Pulse frequency command O O w03 19 Analog Output Gain 1 0 200 0 O w03 20 Analog Output Value in 0 Absolute
40. l AVI Pr 03 00 2 Negative PID feedback from PG card Pr 10 15 skip direction 3 Negative PID feedback from PG card Pr 10 15 4 Positive PID feedback from external terminal AVI Pr 03 00 5 Positive PID feedback from PG card Pr 10 15 skip direction 6 Positive PID feedback from PG card Pr 10 15 w 08 01 Proportional Gain P 0 0 500 0 80 0 O O w 08 02 Integral Gain 1 0 00 100 00 sec O O 1 08 03 Derivative Control D 0 00 1 00 sec 0 00 O O w 08 04 Upper limit for Integral 0 0 100 0 100 0 e O Control w 08 05 LR Output Frequency 0 0 110 0 100 0 O O w 08 06 PID Offset 100 0 100 0 O O O w 08 07 PID Delay Time 0 0 2 5 sec O O O 08 08 reese Signal Detection 0 0 3600 0 sec O O O Feedback Fault Treatment 0 Warn and keep operating OJfol o O x 08 09 A 1 Warn and ramp to stop arn and coast to stop 3 Warn and keep at last frequency w 08 10 Sleep Frequency 0 00 600 00Hz 0 00 O w08 11 Wake up Frequency 0 00 600 00Hz 0 00 O w 08 12 Sleep Time 0 0 6000 0 sec O w08 13 PID Deviation Level 1 0 50 0 O w 08 14 PID Deviation Time 0 1 300 0 sec O Filter Time for PID 0 1 300 0 sec O 08 15 Feedback 08 16 Reserved 08 20 08 21 Tension Control Selection 0 Disable 1 Closed loop speed mode 2 Line speed speed mode 3 Reserved 4 Open loop torque mode O 08 22 Wind Mode 0 Rewind O 1 Unwind 08 23 Mechanical Gear Ratio A 1 65535 08 24 Mechanical Gear Ratio B 1 65535 O 08 25 Source of the Tension 0 Parameter setting Pr 0
41. n 08 57 Frequency for Smart Start 0 00 600 00Hz 2 00 O O w 08 58 Accel Time for Smart Start 0 01 600 00 seconds 3 00 O 08 59 Broken Belt Detection 0 Disable 0 1 Enable Min Line Speed of Broken 0 0 3000 0m min 0 0 O 08 60 Belt Detection 08 61 Allowance Error of Line 1 0 6000 0mm 100 0 O A Speed of Broken Belt Detection 08 62 Sel Time of Broken 0 00 100 00 sec 1 00 O 08 63 Allowance Error Level of 0 100 100 O i Tension Line Speed PID Feedback 08 64 Allowance Error Detection 0 0 10 0 sec 0 5 O Time of Tension PID Feedback 08 65 Error Treatment of Tension 0 Warn and keep operation 0 O PID Feedback 1 Warn and coast to stop Warn and ramp to stop English 24 Factory Pr Explanation Settings Setting VF VFPG SVC FOCPG TQRPG 08 66 Upper Limit of Tension PID 0 0 100 0 100 0 O O O O Feedback Lower Limit of Tension PID 0 0 100 0 0 0 OO O O O 08 67 Feedback 08 68 Reserved DFM Selection 0 Output frequency 0 OIO O O O 08 69 1 Frequency command Low pass Filter Time of 0 00 100 00 sec 000 JO O O O O 08 70 Line Speed 08 71 Reserved 08 75 08 76 Source of Tension Setting 0 Communication RS 485 Pr 08 78 0 O 1 Analog input Pr 03 00 03 02 is set to 15 tension setting Pr 08 78 08 77 Max Tension 0 30000 N 0 O 08 78 Tension Setting 0 30000 N
42. near accel auto decel 00 13 Acceleration Deceleration i Ide i Setting uto accel decel m 4 Stall prevention by auto accel decel limited by 01 12 to 01 21 Time Unit for 0 Unit 0 01 second 0 Ol oO O O 00 14 Acceleration Deceleration 1 Unit 0 1 second and S Curve 00 15 Reserved 00 16 Reserved 00 17 Carrier Frequency 1 15KHz 10 oyo O O a DTO 5 a Auto Voltage Regulation pE Enable AVR Q a Hd i X 00 18 AVR Function 1 Disable AVR 2 Disable AVR when deceleration stop Auto Energy saving 0 Disable 0 O O O O 00 19 Operation 1 Enable 0 Digital keypad KPV CE01 0 O O O O 1 RS 485 serial communication 2 External analog input Pr 03 00 Pood a Gonmand 3 External UP DOWN terminal 4 Pulse input without direction command Pr 10 15 without direction 5 Pulse input with direction command Pr 10 15 0 Digital keypad KPV CE01 0 O O O O O Source of the Operation 1 External terminals Keypad STOP disabled 00 21 Command 2 RS 485 serial communication RJ 11 Keypad STOP disabled English 12 Pr Explanation Settings FOCPG TQRPG 0 Ramp to stop O O 00 22 Stop Method 1 Coast to stop 0 Enable reverse O O 00 23 Reverse Operation 1 Disable reverse 2 Disable forward Group 1 Basic Parameters 01 00 Maximum Output 50 00 600 00Hz
43. on Output 12 33 Zero speed actual output frequency 02 42 MOA 34 Zero speed with Stop actual output frequency 35 Error output selection 1 Pr 06 23 O 36 Error output selection 2 Pr 06 24 37 Error output selection 3 Pr 06 25 O 38 Error output selection 4 Pr 06 26 O 39 Position attained Pr 10 19 40 Speed attained including zero speed 41 Multi position attained 42 Crane function 43 Motor zero speed output Pr 02 43 44 Max reel diameter attained O 45 Empty reel diameter attained O 46 Broken belt detection O 47 Break release at stop 48 Error PID feedback of tension OO O O O 49 Reserved 50 Reserved w02 15 Multi output Direction 0 65535 0 oOojol lo lo O w02 16 Terminal Count Value 0 65535 0 OTO w02 17 Preliminary Counter Value 0 65535 0 olo O O O w02 18 Digital Output Gain 1 40 1 OIO O O O Desired Frequency E 60 00 O O O O 02 19 Attained 1 0 00 600 00Hz 50 00 The Width of the Desired z 200 O O O O 02 20 Frequency Attained 1 0 00 600 00Hz Desired Frequency 60 00 O O O O 02 21 Attained 2 0 00 600 00Hz 50 00 The Width of the Desired A 200 O O O O w 02 22 Frequency Attained 2 0 00 600 00Hz 02 31 Brake Delay Time 0 000 65 000 Sec 0 000 O O O O Output Current Level 0 O O O M02 32 Setting for External 0 100 Terminals Output Boundary for MEJ A 0 00 O O O O 02 33 External Terminals 0 00 60 00Hz it is motor speed when using PG w02 34 External Oper
44. on time out COM1 exceeds Pr 09 03 setting COM2 exceeds Pr 09 07 setting Keypad KPV CE01 communication time out COM1 exceeds Pr 09 03 setting COM2 exceeds Pr 09 07 setting Brake resistor fault Y connection A connection switch error When Pr 07 13 is not set to 0 and momentary power off or power cut it will display dEb during accel decel stop cE 18 t will be displayed when slip exceeds Pr 05 26 setting and time exceeds Pr 05 27 setting t will be displayed when broken belt detection function is enabled Pr 08 59 allowance error is higher than Pr 08 61 and detection time exceeds Pr 08 62 t will be displayed when the allowance error of tension PID eedback exceeds Pr 08 63 setting and allowance error detection time exceeds Pr 08 64 setting Corrective Actions A When the multi function input terminals MI1 to MI6 are set to emergency stop the AC motor drive stops output U V W and the motor coasts to stop 2 Press RESET after fault has been cleared 1 When the external input terminal B B is active the AC motor drive output will be turned off 2 Deactivate the external input terminal B B to operate the AC motor drive again Keypad will be locked Turn the power ON after power OFF to re enter the correct password See Pr 00 07 and 00 08 Return to the factory Check if the function code is correct function code must be 03 06 10 63 Check if the communication address is correct
45. p Speed 0 00 600 00Hz 0 00 OTOTo Frequency 404 12 13th Step Speed 0 00 600 00Hz 0 00 olol oO Frequency 04 13 Mth Step Speed 0 00 600 00Hz 0 00 olol Frequency 04 14 15th Step Speed 0 00 600 00Hz 0 00 olol Frequency w04 15 Multi position 1 0 65535 0 O O 04 16 Multi position 2 0 65535 0 O 04 17 Multi position 3 0 65535 0 O O 04 18 Multi position 4 0 65535 0 O O x 04 19 Multi position 5 0 65535 0 O O x 04 20 Multi position 6 0 65535 0 O O 04 21 Multi position 7 0 65535 0 O O w04 22 Multi position 8 0 65535 0 O O w04 23 Multi position 9 0 65535 0 O O 2104 24 Multi position 10 0 65535 0 O O w04 25 Multi position 11 0 65535 0 O O w04 26 Multi position 12 0 65535 0 O O 2104 27 Multi position 13 0 65535 0 O O w04 28 Multi position 14 0 65535 0 O O w04 29 Multi position 15 0 65535 0 O O Group 5 Motor Parameters 05 00 Motor Auto Tuning 0 No function 0 O O O 1 Rolling test 2 Static Test 3 Reserved 05 01 Full load Current of Motor 1 40 100 HHE O O 05 02 Rated power of Motor 1 0 655 35 HHH O O w 05 03 Rated speed of Motor 1 0 65535 1710 O O O rpm 1710 60Hz 4 poles 1410 50Hz 4 poles 05 04 Number of Motor Poles 1 2 20 4 O O O 05 05 No load Current of Motor 1 0 factory setting of Pr 05 01 HHH O O 05 06 Rotor Resistance R1 of 0 65 535Q HAE O O Motor 1 05 07 Rrof Motor 1 0 65 5350 EHHH O O 05 08 Lm of Motor 1 0 6553 5mH O O 05 09 Lx of Motor 1 0 6553 5mH O O 05 10 Motor 1 Motor 2 Selection 1 Motor
46. put frequency DFM DCM Max 48V Duty cycle 50 Bik Ratio Pr 02 18 DFM 50 Min load 4 7kQ b r t Max current 50mA z Max voltage 48VDC zee 100 Jumper DFM jumper factory internal circul setting is OC 24V DC Voltage Source O oda aus DCM Digital Signal Common Common for digital inputs and used for SINK Multi function Relay Output 1 RA N O a Resistive Load Y F 5A N O 3A N C 240VAC RB e sia Relay Output 1 54 N 0 3A N C 24VDC ak Inductive Load RC Multi function Relay Common Nona AD A To output monitor signal including in operation MRA NO a Relay Output 2 frequency arrival overload and etc E Refer to Pr 02 11 02 12 for programming MRC Multi function Relay Common MO1 Multi function Output 1 me ix i Photocoupler Refer to P r 02 13 to Pr 02 14 for programming orm MO1 MO E MO2 Multi function Output 2 JE I a TA l English 8 Terminal Symbol MCM 10V AVI ACI AUI AFM ACM Control signal wiring size 18 AWG 0 75 mm with shielded wire Terminal Function Multi function Output Common Photocoupler Potentiometer Power Supply Analog voltage Input 10V AVI circuit NM AVI i internal circuit Analog current Input ai ACI circuit NA awe d i ACM internal circuit Auxiliary analog voltage input ACM AUI circuit AM internal circuit Analog output meter
47. r possible short circuits also to ground Check whether the IGBT power module is damaged 3 Check for possible poor insulation at the output line English 28 Fault Name occ oc5 ouf oud oun oHe Fault Descriptions Corrective Actions Over current in the output side 1 Check if motor power corresponds with the AC motor drive output power 2 Check the wiring connections to U V W for possible short circuits 3 Check the wiring connections between the AC motor drive and motor for possible short circuits also to ground 4 Check for loose contacts between AC motor drive and motor 5 Increase the Acceleration Time 6 Check for possible excessive loading conditions at the motor Hardware failure in current Return to the factory detection DC BUS over voltage during deceleration DC BUS over voltage in constant speed DC BUS over voltage during 1 Check if the input voltage falls within the rated AC acceleration motor drive input voltage range 2 Check for possible voltage transients 3 If DC BUS over voltage due to regenerative voltage please increase the Deceleration Time or add an optional brake resistor at stop 00 during acceleration 00 during deceleration 4 Check if the input voltage is normal 2 Check for possible sudden load 00 in constant speed 00 at stop Check Power Source Input if all 3 input phases are Phase Loss 4 connected without loose contacts IGBT overheating
48. side is short circuit or Check whether the motor is overloaded Check whether motor rated current setting Pr 05 01 is suitable Check electronic thermal relay function Take the next higher power AC motor drive model Press RESET key to the factory setting Return to the factory Press RESET key to the factory setting Return to the factory Re power on to try it If fault code is still displayed on the keypad please return to the factory Re power on to try it If fault code is still displayed on the keypad please return to the factory Check cabling between drive and motor Retry again Check the wiring of the PID feedback Check the PID parameters settings if Pr 10 01 is set to 0 when it is PG feedback control Check the wiring of the PG feedback Check the wiring of the PG feedback Check if the setting of PI gain and deceleration is suitable Return Check Return Check Check i o the factory he pulse wiring o the factory he ACI wiring the ACI signal is less than 4mA Input EF N O on external terminal is closed to GND Output U V W will be turned off Give RESET command after fault has been cleared Fault Name Fault Descriptions Emergency stop External Base Block Pcod Password is locked LcodE Software protection failure cE Illegal function code cEd Illegal data address 00H to 254H cE3 Illegal data value Data is written to read only ces address Communicati
49. tion Parameters 06 00 Low Voltage Level 160 0 220 0Vdc O 320 0 440 0Vdc O O Over voltage Stall 0 0 Disable X 06 01 prevention 350 0 450 0Vde 700 0 900 0Vdc Phase loss Protection 0 Warn and keep operation O x 06 02 arn and ramp to stop 2 Warn and coast to stop Over current Stall 00 250 O 406 03 prevention during Acceleration Over current Stall 00 250 O X 06 04 prevention during Operation w 06 05 Accel Decel Time 0 by current accel decel time O Selection of Stall by the 1st accel decel time Prevention at constant 2 by the 2nd accel decel time speed 3 by the 3rd accel decel time 4 by the 4th accel decel time 5 by auto accel decel time x 06 06 Over torque Detection 0 disable O O Selection OT1 1 over torque detection during constant speed operation continue to operate after detection 2 over torque detection during constant speed operation stop operation after detection 3 over torque detection during operation continue to operate after detection 4 over torque detection during operation stop operation after detection Over torque Detection 10 250 O O O 06 07 Level OT1 Over torque Detection 0 0 60 0 sec O O O 06 08 Time 071 English 19 Pr Explanation Settings s VF VFPG SVC FOCPG TQRPG w06
50. unction __ NEA A Dr MI5 MIS No Function _ o MI6 MI6 O DCM DCM Don t apply the mains voltage directly to above terminals Lo E Terminal Symbol Explanation of Terminal Function R S T R L1 S L2 T L3 AC line input terminals 1 phase 3 phase UV WwW U T1 V T2 W T3 AC drive output terminals for connecting 3 phase induction motor P1 P2 1 2 Connections for DC Choke optional P B P2 B1 B2 2 B1 B2 Connections for Brake Resistor optional P2 N P2 B1 N 2 2 B1 Connections for External Brake Unit VFDB series Earth connection please comply with local regulations English 7 Control Terminals Explanations Photocoupler Terminal 2 A Factory Settings SINK Symbol UCD mins unete ON Connect to DCM ON Run in FWD direction PWD PODROZE Command OFF Stop acc to Stop Method ON Run in REV direction REV Reverse Stop Command OFF Stop acc to Stop Method MI1 Multi function Input 1 MI2 Multi function Input 2 F Refer to Pr 02 01 to Pr 02 06 for programming MIS Multifunction Input 3 the Multi function Inputs MI4 Multi function Input 4 ON the activation current is 6 5mA OFF p leakage current tolerance is 10HA MI5 Multi function Input 5 MI6 Multi function Input 6 Digital Frequency Meter Pulse voltage output monitor signal proportional Open Collector Output to out
51. vn O O 10 Over voltage at stop ovS O O 11 Low voltage during acceleration LvA O O 06 21 Fifth Most Recent Fault 12 Low voltage during deceleration Lvd O O Record 13 Low voltage during constant speed Lvn O O 14 Low voltage at stop LvS 0 O O 15 Phase loss PHL O 16 IGBT heat sink over heat 0H1 2 O 06 22 Sixth Most Recent Fault 17 Heat sink over heat 0H2 for 40HP above 0 O O Record 18 TH1 open loop error tH10 O O 19 TH2 open loop error tH20 O O 20 Fan error signal output O O 21 over load oL 150 1Min O O 22 Motor 1 over load EoL1 23 Motor 2 over load EoL2 O O 24 Motor PTC overheat 0H3 O O 25 Fuse error FuSE O O 26 over torque 1 ot1 O O 27 over torque 1 ot2 O O 28 Reserved 29 Reserved 30 Memory write in error cF1 O O 31 Memory read out error cF2 O O 32 Isum current detection error cd0 O O 33 U phase current detection error cd1 O 34 V phase current detection error cd2 O O 35 W phase current detection error cd3 O O 36 Clamp current detection error HdO O O 37 Over current detection error Hd1 O O 38 Over voltage detection error Hd2 O O 39 Ground current detection error Hd3 O O 40 Auto tuning error AuE O O 41 PID feedback loss AFE O O O 42 PG feedback error PGF1 O O English 20 Factory
52. z O 401 23 Frequency S curve for Acceleration 0 00 25 00 sec 0 00 250 0 sec 0 2 0 0 O X 01 24 Departure Time 1 S curve for Acceleration 0 00 25 00 sec 0 00 250 0 sec 0 2 0 0 O 401 25 Arrival Time 2 S curve for Deceleration 0 00 25 00 sec 0 00 250 0 sec 0 2 0 0 O 01 26 Departure Time 1 S curve for Deceleration 0 00 25 00 sec 0 00 250 0 sec 0 2 0 0 O 01 27 Arrival Time 2 01 28 Skip Frequency 1 upper 0 00 600 00Hz 0 00 O limit 01 29 Skip Frequency 1 lower 0 00 600 00Hz 0 00 O 27 limit 01 30 Skip Frequency 2 upper 0 00 600 00Hz 0 00 O 99 limit 01 31 Skip Frequency 2 lower 0 00 600 00Hz 0 00 O limit 01 32 Skip Frequency 3 upper 0 00 600 00Hz 0 00 O 94 limit 01 33 Skip Frequency 3 lower 0 00 600 00Hz 0 00 O 93 limit English 13 Factory Pr Explanation Settings Setting VF VFPG SVC FOCPG TQRPG R 0 Output Waiting 0 OJfol o O 01 34 Pons cea 1 Zero speed operation 2 Fmin 4th output frequency setting 01 35 1st Output Frequency 0 00 600 00Hz 60 00 O O Setting 2 50 00 01 36 1st Output Voltage Setting 230V 0 1V 255 0V 220 0 O O O 2 460V 0 1V 510 0V 440 0 01 37 2nd Output Frequency 0 00 600 00Hz 050 O O i Setting 2 2nd Output Voltage Setting 230V 0 1V 255 0V 5 0 O O 01 38 2 4
Download Pdf Manuals
Related Search