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b.

 

Three phase inverters 

 

 

 
 

Reference 

Input 

tension 

Nominal 

power 

Input current 

Output 

current 

Size 

Option 

(V) 

(KW) 

(A) 

(A) 

H/L/P (mm) 

 

VFR-091T4-0K75 

400 

0.75 

3,4 

2,1 

185/120/178,5 

 

VFR-091T4B-0K75 

Braking 

VFR-091T4-1K5 

400 

1.5 

3.8 

 

VFR-091T4B-1K5 

Braking 

VFR-091T4-2K2 

400 

2.2 

5,8 

5,1 

 

VFR-091T4B-2K2 

Braking 

VFR-091T4-4K0 

400 

10,5 

220/150/185,5 

 

VFR-091T4B-4K0 

Braking 

VFR-091T4-5K5 

400 

5.5 

14,6 

13 

 

VFR-091T4B-5K5 

Braking 

VFR-091T4-7K5 

400 

7.5 

20,5 

17 

285/180/200 

 

VFR-091T4B-7K5 

Braking 

VFR-092T4-11K0 

400 

11 

26 

25 

360/220/210 

 

VFR-092T4B-11K0 

Braking 

VFR-091T4-15K0 

400 

15 

35 

32 

 

VFR-092T4B-15K0 

Braking 

VFR-092T4-18K0 

400 

18,5 

38,5 

37 

432/225/242 

 

VFR-092T4B-18K0 

Braking 

VFR-092T4-22K0 

400 

22 

46,5 

45 

 

VFR-092T4B-22K0 

Braking 

VFR-092T4-30K0 

400 

30 

62 

60 

480/296/246 

 

VFR-092T4B-30K0 

Braking 

VFR-092T4-37K0 

400 

37 

76 

75 

 

VFR-092T4B-37K0 

Braking 

VFR-092T4-45K0 

400 

45 

91 

93 

660/364/280 

 

VFR-092T4B-45K0 

Braking 

VFR-092T4-55K0 

400 

55 

112 

110 

 

VFR-092T4B-55KO 

Braking 

VFR-092T4-75K0 

400 

75 

157 

150 

 

VFR-092T4B-75K0 

Braking 

VFR-092T4-90K0 

400 

90 

180 

176 

710/453/280 

 

VFR-092T4B-90K0 

Braking 

VFR-092T4-110K0 

400 

110 

214 

210 

 

VFR-092T4B-110K0 

Braking 

VFR-092T4-132K0 

400 

132 

256 

253 

910/480/323 

 

VFR-092T4B-132K0 

Braking 

VFR-092T4-160K0 

400 

160 

307 

304 

 

VFR-092T4B-160K0 

Braking 

Summary of Contents for VFR-091

Page 1: ...FREQUENCY INVERTER VFR 091 QUICK START GUIDE Inoréa Automation Industry 9 rue du Lugan 33130 BEGLES contact inorea com www inorea com ...

Page 2: ...CTRIC BOX 7 5 TECHNICAL FEATURES 7 6 ELECTRICAL DIAGRAM 8 7 PARAMETER INDICATOR LIGHT AND BUTTONS 10 8 INVERTER PARAMETERS 12 a Paramters system y0 13 b Parameters motor b0 13 c Standard parameters 14 d Input settings 15 e Table 1 Multi speed 18 f Table 2 Piloted acceleration and deceleration 18 g Control modes 18 h Output settings 21 i Error messages 22 ...

Page 3: ...OF THESE RULES MAY BE FATAL DEATH SERIOUS INJURIES AND MATERIAL DAMAGES 2 MATERIAL SAFETY Verify that the inverter VFR 013 is not damaged Verify that the inverter corresponds to your order and to the delivery note Verify that the tension of the electric network corresponds to the supply power of the inverter 220V single phase or 400V three phase Never turn off the supply power if the inverter befo...

Page 4: ...ower Input tension Electrica l current input Protectio n caliber Cable section input Electrical current output Cable section output Size KW V A A mm A H L P mm VFR 091M2 0K75 0 75 220 10 5 5 10 1 5 4 1 5 185 120 178 5 VFR 091M2 1K5 1 5 220 10 11 16 2 5 7 1 5 VFR 091M2 2K2 2 2 220 10 16 20 2 5 10 2 5 220 150 185 5 VFR 091M2 4K0 4 220 10 29 32 4 16 2 5 285 180 200 VFR 092M2 5K5 5 5 220 10 40 40 6 25...

Page 5: ...T4B 11K0 Braking VFR 091T4 15K0 400 15 35 32 VFR 092T4B 15K0 Braking VFR 092T4 18K0 400 18 5 38 5 37 432 225 242 VFR 092T4B 18K0 Braking VFR 092T4 22K0 400 22 46 5 45 VFR 092T4B 22K0 Braking VFR 092T4 30K0 400 30 62 60 480 296 246 VFR 092T4B 30K0 Braking VFR 092T4 37K0 400 37 76 75 VFR 092T4B 37K0 Braking VFR 092T4 45K0 400 45 91 93 660 364 280 VFR 092T4B 45K0 Braking VFR 092T4 55K0 400 55 112 110...

Page 6: ...6 From 11KW to 160KW ...

Page 7: ... Outputs 2 analogs 2 transistors 1 ou 2 shift depending on the model Communication RS485 RS232 additional card in option Protection IP20 WORKING ENVIRONMENT Temperature 10 à 40 Avoid the electromagnetic interferences and take away sources of interferences Avoid the penetration of droplets water vapor dust dirt and metallic dust Avoid the penetration of oils salt and corrosive gas Avoid the vibrati...

Page 8: ...ter Control circuit Terminal block inputs Output signal 1 Output signal 2 Output signal 3 2 3 utilisation of the COM on DI inputs terminal blocks 2 1 utilisation of the 24V on DI inputs terminal blocks Connector for communication card RS 485 The PLC can be connected to the 24V or to the COM or to an external power supply 9 30V Analog output DA1 Analog output DA2 ...

Page 9: ...ional elements Inverter Output signal 3 Output signal 2 Output signal 1 Analog output DA2 Analog output DA1 Connector for communication card RS 485 2 3 utilisation of the COM on DI inputs terminal blocks 2 1 utilisation of the 24V on DI inputs terminal blocks ...

Page 10: ...r switched off LOCAL REMOT Pilotage mode indicator ON pilotage by terminal blocks OFF pilotage by keyboard Blinker pilotage by remote control FWD REV Forward Reverse ON forward TUNE TC Indicator setting Defect ON torque control mode Slow blink dans l état de mise au point Fast blink dans l état de défaut Indicateur unités de combinaison Hz A V Unit indicator ...

Page 11: ...se to stop the motor Use to reset a defect of the alarm Button in relation with the F6 00 parameter ENTER Use to enter in a parameter Allows to confirm a parameter modification Keyboard potentiometer If F0 02 is set on 3 the keyboard potentiometer is used to manage the frequency currently being implemented Last display at the extinction Different groups Display of the subparameters Modif Of the pa...

Page 12: ...xiliary functions To define the auxiliary functions parameters F8 Failure and protection To define the failure and protection parameters F9 Communication parameters To adjust the communication parameters Modbus FA Torque control parameters To define the parameters in mode torque control FB Optimization control parameters To define the parameters of the optimization of the performances of control E...

Page 13: ... the actual users parameters 4 b Parameters motor b0 Code Designation Range Factory value Modification when the motor is ON b0 01 Nominal power 0 1Kw to 1000 0kW Depending on the model No b0 02 Nominal voltage 1V to 2000V Depending on the model No b0 03 Nominal current electric 0 01A to 655 35A for inverter 55kW Depending on the model No b0 04 Nominal frequency 0 01Hz to F0 19 max frequency Depend...

Page 14: ...he frequency Analog input AI1 2 0 Yes Analogue input AI2 3 Screen potentiometer 4 Multi speed 6 F0 11 Start up mode RUN STOP keyboard LED Local Remot Off 0 0 Yes Control terminal block LED Local Remote On 1 Modbus communication LED Local remote 2 F0 13 0 00s to 6500s Yes F0 14 Acceleration time 0 00s to 6500s F0 19 Deceleration time 50 00Hz 320 00Hz 50 00Hz No F0 21 Maximum limit output frequency ...

Page 15: ...de JOG Forward Control in JOG mode 5 Mode JOG Reverse 6 Frequency increase Change the frequency of the increment decrement control when the digital setting is selected as the frequency control F0 03 0 or 1 7 Frequency decrease 8 Stop Freewheel The motor stops on his own 9 Reset of a defect To restore an inverter defect 10 Break is functionning The inverter stops but all the parameters are stored a...

Page 16: ...gnals This function maintain the current output frequency 22 Break of the PID regulation The PID regulation is temporally desactivated the inverter maintain the actual output frequency 23 Reset of the controller When the controller stops and starts again this terminal is used to reset the inverter 24 Rebalancing break When the inverter will give in output the half of the frequency the rebalancing ...

Page 17: ...If the terminal is not valid the PID uses the the parameters E2 13 to E2 15 and if the terminal is valid the PID uses the parameters E2 16 to E2 18 44 Preset defect 1 When the preset defect 1 or 2 is assets the inverter performs the alarm defect Err 27 and Err 28 And depending on the selected mode by the protection action F8 19 45 Preset defect 2 46 Communication of the speed control torque Commut...

Page 18: ... 10 Setting 10X E1 10 ON OFF ON ON Speed 11 Setting 11X E1 11 ON ON OFF OFF Speed 12 Setting 12X E1 12 ON ON OFF ON Speed 13 Setting 13X E1 13 ON ON ON OFF Speed 14 Setting 14X E1 14 ON ON ON ON Speed 15 Setting 15X E1 15 f Table 2 Piloted acceleration and deceleration Input 2 Input 1 Acceleration and deceleration time Parameters OFF OFF Time 1 F0 13 and F0 14 OFF ON Time 2 F7 08 and F7 09 ON OFF ...

Page 19: ... terminal block keyboard F1 10 0 Two electric wires type 1 F1 00 1 DI1 FWR F1 01 2 DI2 REV 1 Two electric wires type 2 In this case DI1 allows the rotation and the forward direction while DI2 is used to activate the reverse direction The terminal function is set like that Terminal block input Value to be chosen Description DI1 1 FWD DI2 2 REV DI1 and DI2 are the multifunction input from DI1 to DI6...

Page 20: ...tage by impulsion F1 02 2 DI3 REV 3 Three electric wires type 2 In this mode DI2 is used to allow the pilotage by impulsion with DI1 or DI2 The terminal function is set like that Terminal input Value to be chosen Description DI1 1 Forward rotation FWD DI2 3 Authorization of the pilotage by impulsion 3 wires type 2 DI3 2 Reverse rotation REV To start DI2 must be closed The starting up of the motor ...

Page 21: ...NC Bit 1 Input DI6 High signal 0 00000 No Low signal 1 Bit 10 Input DI7 High signal 0 Low signal 1 Bit 100 Input DI8 High signal 0 Low signal 1 Bit 1 000 Input DI9 High signal 0 Low signal 1 Bit 10 000 Input DI10 High signal 0 Low signal 1 h Output settings Code Parameter Setting range Factory value F2 02 Shift output signal 3 TA1 TB1 TC1 0 à 40 2 F2 04 Static output signal 1 SPA 0 à 40 1 Setting ...

Page 22: ...speed tracking start or restart after stopping the motor 7 Cancel the sudden load Err 03 Overintensity during the deceleration 1 Short circuit or output grounding 2 Deceleration time is too short 3 The voltage is weak 4 Sudden increase of the load during the deceleration 5 No presence of braking unit and braking resistors 1 Check and verify the wiring 2 Increase deceleration time 3 Set output volt...

Page 23: ...motor blocking happened 1 Chose an inverter model more powerful 2 Reduce the load to run and check if there is no mechanicals blocking Err 11 Motor overload 1 The inverter model is too weak 2 The protection parameter setting of the motor F8 03 is not appropriate 3 The load is too significant 1 Chose an inverter model more powerful 2 Correct parameters 3 Reduce the load to run and check if there is...

Page 24: ... coder 1 Replace the coder 2 Replace PG card 3 Define correctly the coder model according to the real conditions 4 Eliminate the connection defect Err 21 Defect of reading and writing of the EEPROM memory EEPROM chip is damaged Replace the main control panel screen Err 22 Material defect 1 Overvoltage 2 Overcurrent 1 Eliminate the overvoltage 2 Eliminate the ivercurrent Err 23 Grounding short circ...

Page 25: ...rameters F8 15 F8 16 is unreasonable 2 The setting of the coder parameters is incorrect 3 Parameters were not identified Set the detection parameters of the coder on correct values Err 43 Overspeed of the motor 1 The setting is not done 2 The setting of the coder parameters is incorrect 3 Parameter to detect the motor speed F8 13 F8 14 is extreme 1 Configure the motor 2 Configure correctly the cod...

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