3G3RV-PFI3100-SE

## **CIMR-L7Z** 

## **Varispeed L7** 

## **Made to drive lifts** 

- One model to control AC and PM motors. 

- Silent operation with no current de-rating. 

- Safety Cat.3 Stop. Cat.0 ( EN 954-1 & EN81-1 ) 

- Motor auto-tuning at standstill and at run. 

- Three control methods: close loop current vector control, sensorless current vector control, V/F control. 

- Direct control of motor brake and contactors 

- Dedicated lift sequence built-in 

- Lift units. 

- Emergency operation by UPS or battery 

- 2nd motor setting 

- Short floor operation 

- Door opening signal 

- Electrical motor information and  encoder information saved on inverter and encoder 

- Embedded OMRON PLC functionality with PLC option card 

- Fieldbus options: DeviceNet, CANOpen, PROFIBUS 

- PC configuration tool: CX-drive. 

- CE, UL, and cUL marking 

## **Ratings** 

- 200 V Class three-phase 3.7 to 55 kW 

- 400 V Class three-phase 4.0 to 55 kW 

## **System configuration example** 

**==> picture [480 x 262] intentionally omitted <==**

**----- Start of picture text -----**<br>
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**Varispeed L7** 

289 

## **Specifications** 

## **Type designation** 

## CIMR – L7 Z 4 0P4 0 

Inverter Protective enclosure 0: Open chassis type (IP00) L7 series 1: Enclosed type (NEMA1 / IP20) 7: Enclosed type (IP20) Specifications Max. applicable motor output Z: European standard 3P7:  3.7 kW specifications 055: 55 kW Voltage 2: 200 V class "P" indicates a decimal **[                               ]** point 4: 400 V class 

## **200 V class** 

|**Model CIMR-L7ZZ**�|**Model CIMR-L7ZZ**�|**Model CIMR-L7ZZ**�|**23P7**|**25P5**|**27P5**|**2011**|**2015**|**2018**|**2022**|**2030**|**2037**|**2045**|**2055**|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|**Max. applicable motor**<br>**output1**<br>**kW**|||3.7|5.5|7.5|11|15|18.5|22|30|37|45|55|
|**Output**<br>**characteristics**|**Inverter capacity**<br>**kVA**||7|10|14|20|27|33|40|54|67|76|93|
||**Rated current**<br>**A**||17.5|25|33|49|64|80|96|130|160|183|224|
||**Max. voltage**||3-phase; 200, 208, 220, 230, or 240 VAC (proportional to input voltage)|||||||||||
||**Max. output frequency**||Up to 120 Hz available by programing|||||||||||
|**Power**<br>**supply**|**Rated input voltage and**<br>**frequency**||3-phase, 200/208/220/230/240 VAC, 50/60 Hz|||||||||||
||**Rated input current A**||21|25|40|52|68|96|115|156|176|220|269|
||**Allowable voltage**<br>**fluctuation**||+ 10%, - 15%|||||||||||
||**Allowable frequency**<br>**fluctuation**||±5%|||||||||||
|**Harmonic**<br>**wave**<br>**prevention**||**DC reactor**|Optional||||||Built In|||||
|||**12-pulse input**|Not possible||||||Possible|||||



1. The maximum applicable motor output is given for a standard 4-pole Yaskawa motor. When selecting the actual motor and  inverter, be sure that the inverter’s rated current is applicable for the motor’s rated current. 

2.     A transformer with dual star-delta secondary is required on the power supply for 12-pulse rectification. 

## **400 V class** 

|**Model CIMR-L7ZZ**�|**Model CIMR-L7ZZ**�|**Model CIMR-L7ZZ**�|**44P0**|**45P5**|**47P5**|**4011**|**4015**|**4018**|**4022**|**4030**|**4037**|**4045**|**4055**|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|**Max. applicable motor**<br>**output1**<br>**kW**|||4.0|5.5|7.5|11|15|18.5|22|30|37|45|55|
|**Output**<br>**characteristics**|**Inverter capacity**<br>**kVA**||9|12|15|22|28|34|40|54|67|80|106|
||**Rated current**<br>**A**||11|14|18|27|34|41|48|65|80|96|128|
||**Max. voltage**||3-phase; 380, 400, 415, 440, 460, or 480 VAC (proportional to input voltage.)|||||||||||
||**Max. output frequency**||120 Hz max.|||||||||||
|**Power**<br>**supply**|**Rated input voltage and**<br>**frequency**||3-phase, 380, 400, 415, 440, 460 or  480 VAC, 50/60 Hz|||||||||||
||**Rated input current A**||13.2|17|22|32|41|49|58|78|96|115|154|
||**Allowable voltage**<br>**fluctuation**||+ 10%, -15%|||||||||||
||**Allowable frequency**<br>**fluctuation**||±5%|||||||||||
|**Harmonic**<br>**wave**<br>**prevention**||**DC reactor**|Optional||||||Built In|||||
|||**12-pulse input**|Not possible||||||Possible|||||



1. The maximum applicable motor output is given for a standard 4-pole Yaskawa motor. When selecting the actual motor and  inverter, be sure that the inverter’s rated current is applicable for the motor’s rated current. 

2.     A transformer with dual star-delta secondary is required on the power supply for 12-pulse rectification. 

## **Enclosures** 

|**200 V**<br>**class**|**Model CIMR-L7Z**�|**20P4**|**20P7**|**21P5**|**22P2**|**23P7**|**25P5**|**27P5**|**2011**|**2015**|**2018**|**2022**|**2030**|**2037**|**2045**|**2055**|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
||Enclosed type<br>(IEC IP20)|Available as standard|||||||||||||||
||Open Chassis type<br>(IEC IP00)|Available by removing the upper and lower cover of enclosed type|||||||||||||||
|**400 V**<br>**class**|**Model CIMR-F7Z**�|**40P4**|**40P7**|**41P5**|**42P2**|**43P7**|**45P5**|**47P5**|**4011**|**4015**|**4018**|**4022**|**4030**|**4037**|**4045**|**4055**|
||Enclosed type<br>(IEC IP20)|Available as standard|||||||||||||||
||Open Chassis type<br>(IEC IP00)|Available by removing the upper and lower cover of enclosed type|||||||||||||||



Frequency Inverters 

290 

## **Common specifications** 

||**Model number**<br>**CIMR-L7Z**�|**Specification**|
|---|---|---|
|**Control characteristics**|Control method<br>asynchronous|Sine wave PWM<br>closed loopvector control, open loopvector control, V/f control|
||Control method<br>synchronous|Sine wave PWM<br>closed loopvector control usingendat and hiperface|
||Carrier frequency|8 kHz<br>higher carrier frequency possible with current derating.|
||Speed control range|1:40 (V/f control)<br>1:100 (open loop vector control)<br>1:1000(closed loopvector control)|
||Speed control accuracy|± 3% (V/f control)<br>± 0.2% (open loop vector control)<br>± 0.02% (closed loop vector control)<br> (25°C ± 10°C)|
||Speed control response|5 Hz (control without PG)<br>30 Hz(control with PG)|
||Torque limits|Provided(4quadrant steps can be changed byconstant settings.) (Vector control)|
||Torque accuracy|± 5%|
||Frequencyrange|0.01 to 120 Hz|
||Frequency accuracy<br>(temperature<br>characteristics)|Digital references: ± 0.01%(-10°C to +40°C)|
|||Analog references: ± 0.1% (25°C ±10°C)|
||Frequency setting<br>resolution|Digital references: 0.01 Hz|
|||Analogreferences: 0.025/50 Hz(11 bitsplus sign)|
||Output frequency<br>resolution|0.01 Hz|
||Overload capacity and<br>maximum current|150% of rated output current  for 30 sec.|
||Frequencysettingsignal|0 to +10V|
||Accel/decel time|0.01 to 600.00 s(4 selectable combinations of independent acceleration and deceleration time settings)|
||Main control functions|Overtorque/undertorque detection, torque limits, 8-speed control (maximum), 4 acceleration and deceleration times, S-curve acceler-<br>ation/deceleration, auto-tuning (rotational or stationary), dwell function, cooling fan ON/OFF control, slip compensation, torque com-<br>pensation, auto-restart after fault,  DC braking for starting and stopping, a fault reset and parameter copy function, special lift functions<br>and sequences, short floor, hardware baseblock|
|**Protective functions**|Motorprotection|Protection byelectronic thermal overload relay.|
||Instantaneous<br>overcurrentprotection|Stops at approx. 200% of rated output current.|
||Fuse blownprotection|Stops for fuse blown.|
||Overloadprotection|OL2 fault at 150% of rated output current for 30 sec|
||Overvoltage protection|200 class inverter: stops when main-circuit DC voltage is above 410 V.<br>400 class inverter: stops when main-circuit DC voltage is above 820 V.|
||Undervoltage protection|200 class inverter: stops when main-circuit DC voltage is below 190 V.<br>400 class inverter: stops when main-circuit DC voltage is below 380 V.|
||Coolingfin overheating|Protection bythermistor.|
||Stallprevention|Stallprevention duringacceleration, deceleration and runningindependently.|
||Grounding protection|Protection byelectronic circuits.|
||Charge indicator|Illuminates when the main circuit DC voltage is approx. 10 VDC or more.|
||**Protective structure**|Enclosed wall-mounted type (IP20): all models<br>Enclosed wall-mounted type (NEMA 1): 18.5 kW or less (same for 200 V and 400 V class inverters)<br>Open chassis type(IP00): 22 kW or more(same for 200 V and 400 V class inverters)|
|**Environment**|Ambient operating<br>temperature|- 10°C  to 45°C|
||Ambient operating<br>humidity|95% max. (with no condensation)|
||Storage temperature|- 20°C to + 60°C(short-term temperature duringtransportation)|
||Application site|Indoor(no corrosivegas, dust, etc.)|
||Altitude|1000 m max.|
||Vibration|10 to 20 Hz, 9.8 m/s2max.; 20 to 50 Hz, 2 m/s2max|



**Varispeed L7** 

291 

## **Dimensions** 

## **Enclosed type (IEC IP20)** 

**==> picture [506 x 121] intentionally omitted <==**

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W1 4-d 4-d W1 4-d<br>T1 T1 T1<br>W D1 W1 D1 D1<br>3 D W 3 D (5) W (5) (5) D<br>Fig 1 Fig 2<br>Fig 3<br>H1 H0 H H1 H0 H H1 H0 H<br>H2<br>H2 4 H2 H3 4 H3 H10<br>**----- End of picture text -----**<br>


|**Voltage**|**Max. applicable**<br>**motor output kW**<br>|**Inverter**<br>**CIMR-L7Z**�|**Fig**||||**Dimensions in mm**|**Dimensions in mm**|**Dimensions in mm**||||**Approx.**<br>**weight kg**<br> <br><br>**d**|**Cooling**<br>**method**|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|||||**W**|**H**|**D**|**W1**<br>**H0**|**H1**|**H2**|**H3**|**D1**|**T1**|||
|**200 V class  (3-phase)**|**3.7**|**23P7 7**|1|140|280|177|126<br>280|266|7|---|59|5|M5<br>4<br><br>M6<br>6<br>7<br>11<br>24<br>27<br>M10<br>62<br>68<br>94<br>M5<br>4<br>M6<br>6<br>10<br>24<br>40|Fan<br>cooled|
||**5.5**|**25P5 7**|||||||||||||
||**7.5**|**27P5 7**|2|200|300|197|186<br>300|285|8|0|65.5|2.3|||
||**11**|**2011 7**|||310|||||10|||||
||**15**|**2015 7**||240|350|207|216<br>350|335|7.5|0|78||||
||**18.5**|**2018 7**|||380|||||30|||||
||**22**|**2022 7**<br>||254|464|258|195<br>400|385||64|100||||
||**30**|**2030 11**<br>|3|279|615||220<br>450|435||165|||||
||**37**|**2037 11**<br>||380|809|298|250<br>600|575|12.5|209||3.2<br>|||
||**45**|**2045 11**<br>||||328|||||130||||
||**55**|**2055 11**||453|1027|348|325<br>725|700||302|||||
|**400 V class (3-phase)**|**4.0**|**44P0 7**|1|140|280|177|126<br>280|266|7|---|59|5|||
||**5.5**|**45P5 7**|||||||||||||
||**7.5**|**47P5 7**|2|200|300|197|186<br>300|285|8|---|65.5|2.3|||
||**11**|**4011 7**|||||||||||||
||**15**|**4015 7**||240|350|207|216<br>350|335|7.5||78||||
||**18.5**|**4018 7**|||||||||||||
||**22**|**4022 7**|3|275|535|258|220<br>450|435||64|100||||
||**30**|**4030 7**|||||||||||||
||**37**|**4037 7**||325|715|283|260<br>550|535|||105||||
||**45**|**4045 7**||||||||79|||||
||**55**|**4055 7**|||||||||||||



1. F7Z2030 to 2055 meets IP20 / NEMA1 

Frequency Inverters 

292 

## **Filters** 

## **Footprint filters** 

**==> picture [78 x 99] intentionally omitted <==**

**----- Start of picture text -----**<br>
C I<br>A<br>E<br>B F H J<br>L<br>G K<br>D<br>**----- End of picture text -----**<br>


**Dimensions Model A B C D E F G H I J K L** ~~eeDo a~~ 3G3RV-PFI2035-SE 330 ~~eeCO ee~~ 141 ~~ee~~ 46 ~~ee ee~~ 281 313 ~~ee~~ 115 ~~GO ee~~ 5.5 ~~eee~~ M5 23 ~~pee~~ 126 266 M5 **200 V** ~~pL~~ 3G3RV-PFI2060-SE 355 206 ~~LLL~~ 60 302 336 175 ~~LL~~ 6.5 M6 30 186 ~~LT~~ 285 M6 ~~GO~~ 3G3RV-PFI2100-SE 408 236 80 355 390 ~~GO~~ 205 6.5 M6 40 216 335 M6 ~~GO~~ 3G3RV-PFI3010SE 330 141 46 281 313 ~~OO~~ 115 5.5 M5 23 126 266 M5 ~~pL~~ 3G3RV-PFI3018-SE 330 ~~LL~~ 141 46 281 ~~|~~ 313 115 ~~LLL~~ 5.5 M5 23 ~~LL~~ 126 266 M5 **400 V** ~~pL~~ 3G3RV-PFI3021-SE 355 206 ~~LLL~~ 50 302 336 175 ~~LL~~ 6.5 M4 25 186 ~~LT~~ 285 M5 ~~GO~~ 3G3RV-PFI3035-SE 355 206 50 302 336 ~~GO~~ 175 6.5 M5 25 186 285 M6 ~~GO~~ 3G3RV-PFI3060-SE 408 236 65 355 ~~A~~ 390 205 ~~OO~~ 6.5 M6 32.5 216 335 M6 **Bookform filters D C H B A E G F Model** ~~Do~~ **Dimensions A B C D E F G H** ~~yee ooo GO~~ 3G3RV-PFI2130-SE 366 180 90 280 310 65 6.5 M10 **200 V** 3G3RV-PFI2160-SE 541 170 120 350 380 102 6.5 M10 ~~po Pn PL LL LL GO~~ 3G3RV-PFI2200-SE 610 240 130 480 518 90 8.2 M10 ~~OO~~ 3G3RV-PFI3070-SE 331 185 80 300 329 55 6.5 M6 **400 V** 3G3RV-PFI3100-SE 326 150 90 240 270 65 6.5 M10 ~~po PP LL LT a~~ 3G3RV-PFI3130-SE 370 180 ~~O~~ 90 280 310 65 6.5 M10 **Bottom filters F I** | Ga Of **C D** Ee) ao W **H G** -ap—l_ rom || **B E** an **A** 

|**Model**|**Model**|**Dimensions**|**Dimensions**|**Dimensions**|**Dimensions**|**Dimensions**|**Dimensions**|**Dimensions**|**Dimensions**|**Dimensions**|
|---|---|---|---|---|---|---|---|---|---|---|
|||**A**|**B**|**C**|**D**|**E**|**F**|**G**|**H**|**I**|
|**400 V**|3G3RV-PFI3018B-SE|116|84.4|107.4|-|86|-|4.5|M4|M4|
||3G3RV-PFI3035B-SE|170|152.5|109|79|112|144|4.5|M4|M4|
||3G3RV-PFI3060B-SE|200|145|109|79|152|178|4.5|M4|M4|



**Varispeed L7** 

293 

## **Braking resistor unit** 

**==> picture [153 x 103] intentionally omitted <==**

**----- Start of picture text -----**<br>
Model CDBR-2015 B, -2022 B, -4030B, -4045 B<br>4-M4 MTG Holes 72 66.5<br>(i<br>30 ormore C 3812814038 R 30 ormore a 138.5114.5<br>3-lead Wire Inlet(20 Dia. Rubber Bush)<br>Weight 1.8 Kg<br>100 or more<br>138 150<br>100 or more<br>**----- End of picture text -----**<br>


## **Braking resistor unit (Inveter-mounted type)** 

Weight: 0.2 kg Model ERF-150WJ_ 

Note: Prepare mounting screws (2-M4x8 tapped screws). Screws 8mm or more and general metric screws cannot be used. 

## **Braking resistor unit (separately-installed type)** 

**==> picture [4 x 15] intentionally omitted <==**

**----- Start of picture text -----**<br>
200 or more<br>**----- End of picture text -----**<br>


**==> picture [410 x 98] intentionally omitted <==**

**----- Start of picture text -----**<br>
MTG Screw MTG Screw<br>a<br>a<br>C C<br>30 or more jaa A 30 or more mett 150 50 or more ion A 4 50 or more |= 260 i<br>150 or more<br>D B D B<br>150 or more<br>200 or more<br>**----- End of picture text -----**<br>


> **Model** ~~Pe~~ **Dimensions in mm Weight Voltage LKEB-_ A B C D MTG screw kg** 23P7 130 350 75 335 M5 x 4 5.0 **220 V** ~~es~~ 25P5 250 350 200 335 M6 x 4 7.5 **class** ~~eeA~~ 27P5 250 350 200 335 M6 x 4 8.5 **400 V** ~~a~~ 44P0 130 350 75 335 M5 x 4 5.0 45P5 250 350 200 332 M6 x 4 7.5 **class** ~~===a~~ 47P5 250 ~~A~~ 350 200 332 M6 x 4 8.5 2011 266 543 246 340 M8 x 4 10 

> **220 V** ~~A~~ 2015 356 543 336 340 M8 x 4 15 

> **class** ~~a~~ 2018 446 543 426 340 M8 x 4 19 ~~eees~~ 2022 446 ~~eee~~ 543 426 340 M8 x 4 19 4011 350 412 330 325 M6 x 4 16 4015 350 412 330 325 M6 x 4 18 4018 446 543 426 340 M8 x 4 19 **400 V class** ~~a~~ 4022 446 543 426 340 M8 x 4 19 ~~A~~ 4030 356 956 336 740 M8 x 4 25 ~~OS~~ 4037 446 956 426 740 M8 x 4 33 - ~~A[A] es~~ 4045 446 956 426 740 M8 x 4 33 

Frequency Inverters 

294 

## **Attachments** 

## **Heatsink external mounting attachment** 

The Varispeed L7 inverters under the 200/400 V class 18.5 kW or less need this attachment for mounting the heatsink externally. This attachment expands the outer dimensions of the width and height of the inverter. (Attachment is not required for inverters of 22 kW or more.) 

|1<br><br>D<br>Mounting<br>H1<br>H|1<br>D2<br>D3 or more<br>Wall<br>panel|**Model**<br>**CIMR-L7Z_**<br>|**Attachment**<br>**order code**|**Dimensions in mm**|**Dimensions in mm**|**Dimensions in mm**|**Dimensions in mm**|**Dimensions in mm**|**Dimensions in mm**|**Dimensions in mm**|
|---|---|---|---|---|---|---|---|---|---|---|
|||||**W**|**H**|**W1**|**H1**|**D1**|**D2**|**D3**|
|||**23P7**<br>**25P5**<br>**27P5**|EZZ08676A|155|302|126|290|122.6|57.4|60|
|||**2011**<br>|EZZ08676B|210|330|180|316|136.1|63.4|70|
|||**2015**<br>**2018**|EZZ08676C|250|392|216|372|133.6|76.4|85|
|||**40P4**<br>|EZZ08676A|155|302|126|290|122.6|57.4|60|
|||**45P5**|||||||||
|||**47P5**|EZZ08676B|210|330|180|316|136.1|63.4|70|
||1<br>D2|**4011**|||||||||
|||**4015**|EZZ08676C|250|392|216|372|133.6|76.4|85|
||D3 or mor|**4018**|||||||||



## **Panel cut for external mounting of cooling fin (heatsink)** 

**==> picture [246 x 187] intentionally omitted <==**

**----- Start of picture text -----**<br>
4-d Tap<br>a a<br>4-d Tap 2-5 Dia. Holes<br>a b a<br>(W3) A (W3)<br>(W3) A (W3)<br>(W2) (W2)<br>(W2) (W2)<br>a b a<br>W1<br>W a a<br>W1<br>W<br>Drawing 1 Drawing 2<br>(H3)<br>(H3) (H2)<br>(H2)<br>B<br>B<br>H1 H H1 H<br>(H2)<br>(H2)<br>(H3)<br>(H3)<br>**----- End of picture text -----**<br>


|**Model**<br>**CIMR-L7Z_**|**Draw-**<br>**ing**|**Dimensions in mm**|**Dimensions in mm**|**Dimensions in mm**|**Dimensions in mm**|**Dimensions in mm**|**Dimensions in mm**|**Dimensions in mm**|**Dimensions in mm**|**Dimensions in mm**|**Dimensions in mm**|**Dimensions in mm**|
|---|---|---|---|---|---|---|---|---|---|---|---|---|
|||**W**|**H**|**W1**|**(W2)**|**(W3)**|**H1**|**(H2)**|**(H3)**|**A**|**B**|**d**|
|**23P7**<br>**25P5**|1|155|302|126|6|8.5|290|9.5|6|138|271|M5|
|**27P5**<br>**2011**||210|330|180|8.5|6.5|316|9|7|197|298|M6|
|**2015**||250|392|216||8.5|372|9.5|10|233|353||
|**2018**|||||||||||||
|**2022**|2|250|400|195|24.<br>5|3|385|8|7.5|244|369||
|**2030**<br>||275|450|220|||435|||<br>269|419||
|**2037**||375|600|250|54.<br>5<br>|8<br>|575|15|12.<br>5<br>|359|545|M1<br>0<br>|
|**2045**|||||||||||||
|**2055**<br>**44P0**||450 <br>|725 <br>|325<br>|||700 <br>|13.<br>5<br>||434 <br>|673<br>||
|**45P5**<br>**47P5**|1|155|302|126|6|8.5|290|9.5|6|138|271|M5|
|**4011**||210|330|180|8.5|6.5|316|9|7|197|298|M6|
|**4015**||250|392|216||8.5|372|9.5|10|233|353||
|**4018**|||||||||||||
|**4022**|2|275|450|220|24.<br>5|3|435|8|7.5|269|419||
|**4030**|||||||||||||
|**4037**||325|550|260||8|535|||309|519||
|**4045**|||||||||||||
|**4055**|||||||||||||



**Varispeed L7** 

295 

## **Installation** 

## **Standard connections** 

**==> picture [440 x 590] intentionally omitted <==**

**----- Start of picture text -----**<br>
DC reator to improve input Braking resistor<br>power factor (optional) unit (optional)<br>Magnetic<br>contactor Link<br>(+1) (+2) (-) B1 B2 Motor<br>L1 L1(R) U/T1<br>3-phase power<br>380 o 480 V L2 Line L2(S) V/T2 IM/PM<br>50/60 Hz Filter<br>L3 L3(T) W/T3<br>PE<br>S1<br>TA1<br>Forward run/stop<br>S2<br>Reverse run/stop<br>S3 PG<br>Nominal speed P<br>S4<br>PG-X2<br>Multi function Inspection run (Optional) P<br>inputs S5<br>(factory setting) Int e rmediate speed<br>S6<br>Leveling speed<br>S7<br>Not used TA3<br>BB<br>Hardware baseblock (note 3)<br>BB1 TA2<br>Ha rdware baseblock 1 (note 3) +24V, 8mA A Pulse<br>Pulse monitor output<br>B Pulse RS-422<br>SC (100 m or less)<br>IP24V (24 V) Z Pulse<br>CN5(NPN setting)<br>E(G)<br>MA<br>MB Fault contact output<br>Voltage adjust- 250 VAC, max. 1A<br>ment +V Analog input power MC 30 VDC, max. 1A<br>Analog input  2 kOhm supply +15 V, 20 mA<br>(speed reference)  M1<br>2 kOhm 0 to 10V A1 Master speedreference 0 to 10 V M2 Brake command(Factory setting)<br>P<br>AC<br>M3 Multi-function<br>0 V M4 Contactor control(factory setting) contact output250 VAC, max. 1A<br>30 VDC, max. 1A<br>Input option cards 2CN M5<br>Inverter ready<br>M6 (factory setting)<br>Optional control power to terminal B1 P0<br>supply input for rescue Control power 3CN Output option<br>operation to terminal - N0 Supply input cards<br>Note:<br>1. Main circuit terminals are indicated with double circles and<br>control circuit terminals are indicated with a single circle.<br>2. The CN5 factory setting is NPN.<br>3. To enable the inverter, both inputs BB and BB1 must be closed.  Shielded Twisted-pair<br>If only one of the inputs is closed, “BB” will be displayed in the  wires wires<br>operator panel and the inverter will not start.<br>**----- End of picture text -----**<br>


Frequency Inverters 

296 

## **Main circuit** 

**==> picture [512 x 574] intentionally omitted <==**

**----- Start of picture text -----**<br>
a Voltage 200 V 400 V<br>= Model CIMR-L7Z 20P4 to 2018 2022 and 2030 2037 to 2055 40P4 to 4018 4022 to 4055<br>a Max. applicable motor out Se put GO 0.4 to 18.5 kW 22 and 30 kW 37 to 55 kW 0.4 to 18.5 kW 22 to 55 kW<br>R/L1<br>S/L2 Main circuit input power supply Main circuit input  Main circuit input power supply Main circuit input power supply<br>T/L3 power supply<br>R-R1, S-S1 and<br>R1/L11 R-R1, S-S1 and T-T1 have been wired before  T-T1 have been<br>S1/L21 --- shipment. --- wired before<br>shipment<br>T1/L31<br>U/T1<br>V/T2 Inverter output Inverter output<br>W/T3<br>B1 Braking ------ Braking ------<br>B2 resistor unit resistor unit<br>DC reactor  DC reactor<br>1 ( 1-  2) Braking unit  ( 1-  2) Braking unit<br>2 ( 3 -  ) ( 3 -  )<br>ee 3 --- e 8 --- e e<br>ee ee ee ee ee<br>r / l/ l12 --- --- Cooling fan power supply ---<br>PO<br>NO Battery power input Battery power input<br>Ground terminal (100 Ω or less)<br>Ground terminal (10 Ω or less)<br>ee<br>Main circuit configuration<br>CIMR-L7Z23P7 to 2018 CIMR-L7Z2022,2030 CIMR-L7Z2037 to 2055<br>B2 ⊕3 ⊕3<br>B1<br>⊕1 ⊕1 ⊕1<br>R/L1⊕2 U/T1 R/L1S/L2 U/T1 R/L1S/L2 U/T1<br>S/L2 V/T2 T/L3 V/T2 T/L3 V/T2<br>T/L3- — co W/T3 R1/L11S1/L21 —tt a W/T3 R1/L11S1/L21 2h i W/T3<br>HT a T1/L31 (4 et T1/L31 om! ty<br>Power = Control - — _ | - — = |<br>supply circuit<br>NO PO supplyPower Controlcircuit supplyPower Controlcircuit<br>L aie | | CH: ee<br>NO PO NO PO<br>CIMR-L7Z43P7 to 4018 CIMR-L7Z4022 to 4055<br>B2 ⊕3<br>B1<br>⊕1<br>⊕1<br>⊕2 R/L1<br>R/L1 U/T1 S/L2 U/T1<br>S/L2 V/T2 T/L3 V/T2<br>T/L3- —li Power = Control i'i W/T3 R1/L11S1/L21T1/L31 (e) - (Th@e 1] E= be :1 W/T3<br>supply circuit<br>Power Control<br>supply circuit<br>NO PO<br>NO PO<br>200 V class<br>400 V class<br>**----- End of picture text -----**<br>


**Varispeed L7** 

297 

## **Control circuit** 

|**Type**|**No.**|**Signal Name**|**Function**|**Function**|**Signal Level**|
|---|---|---|---|---|---|
|**Digital input**<br>**signals**|S1|Forward run/stop command|Forward run when ON; stopped when OFF.||24 VDC, 8 mA<br>photo-coupler<br>–<br>by<br> <br>|
||S2|Reverse run/stop command|Reverse run when ON; stopped when OFF.|||
||S3|Nominal speed|Nominal speed when ON.|Functions are selected<br>setting H1-01 to H1-05.||
||S4|Inspection run|Inspection RUN when ON.|||
||S5|Intermediate speed|Internediate speed when ON.|||
||S6|Leveling speed|Leveling speed when ON.|||
||S7|Not used|–|||
||BB|Hardware baseblock|Safety inputs. To enable the inverter, both inputs BB and BB1<br>must be closed. If only one of them is closed, “BB” will be dis-<br>played in the operatorpanel and the inverter will not start.|||
||BB1|Hardware baseblock 1||||
||SC|Digital input common|–||–|
|**Analog input**<br>**signals**|+V|15 V power output|15 V power supply for analog references||15 V<br>(max. current: 20 mA)|
||A1|Frequency reference|0 to +10 V/100%||0 to +10 V(20 kΩ)|
||AC|Analog reference neutral|–||–|
||E(G)|Shield wire, optional ground line<br>connectionpoint|–||–|
|**Sequence output**<br>**signals**|M1|Brake command<br>(1NO contact)|Brake command when ON|Multi-function contact<br>outputs|Relay contacts<br>Contact capacity:<br>1 A max. at 250 VAC<br>1 A max. at 30 VDC|
||M2|||||
||M3|Contactor control<br>(1NO contact)|Contactor control when ON|||
||M4|||||
||M5|Inverter ready<br>(1NO contact)|Inverter ready when ON|||
||M6|||||
||MA|Fault output signal (SPDT)<br>(1 change over contact)|Fault when CLOSED across MA and MC<br>Fault when OPEN across MB and MC|||
||MB|||||
||MC|||||



When driving a reactive load, such as relay coil with DC power supply, always insert a flywheel diode 

**==> picture [344 x 152] intentionally omitted <==**

**----- Start of picture text -----**<br>
Remove the upper and lower covers for  When using open chassis type inverters of 200 V/400 V<br>the models of 15 kW or less in 200 V  22 kW or more, secure spaces for eyebolts and wiring<br>and 400 V classes. of the main circuit.<br>Internal heatsink Upper cover<br>55 ˚C Upper coverUpper part air 50 mm or more 120 mm or more Air<br>temperature<br>-10 to 55 ˚C Heatsink<br>Heatsink<br>Open chassis<br>type inverter<br>Lower cover<br>Inverter inlet<br>temperature<br>-10 to 45 ˚C<br>45 ˚C Peripheral 50 mm or more30 mm or more or more30 mm 120 mm or more Air<br>temperature 40 ˚C Lower cover Side spaces Top and bottom spaces<br>Cover MTG screw<br>**----- End of picture text -----**<br>


## **Inverter heat loss** 

## **200 V class** 

|**Model CIMR-L7Z**�|**Model CIMR-L7Z**�|**Model CIMR-L7Z**�|**23P7**|**25P5**|**27P5**<br>|**2011**|**2015**|**2018**|**2022**|**2030**|**2037**|**2045**|**2055**|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|**Inverter capacity**||kVA|5.7|8.8|12|17|22|27|32|44|55|69|82|
||**Rated current**|A|15|23|31|45|58|71|85|115|145|180|215|
|**Heat loss W**|**Fin**|W|112|164|219|374|429|501|586|865|1015|1266|1588|
||**Inside unit**|W|74|84|113|170|183|211|274|352|411|505|619|
||**Total heat loss**|W|186|248|332|544|612|712|860|1217|1426|1771|2207|
||**Fin coding**||Fan cooled|||||||||||
|**400 V class**||||||||||||||
|**Model CIMR-L7Z**�|||**44P0**|**45P5**|**47P5**<br>|**4011**|**4015**|**4018**|**4022**|**4030**|**4037**|**4045**|**4055**|
|**Inverter capacity**||kVA|5.8|9.5|13|18|24|30|34|46|57|69|85|
||**Rated current**|A|7.6|12.5|17|24|31|39|45|60|75|91|112|
|**Heat loss W**|**Fin**|W|91|127|193|252|326|426|466|678|784|901|1203|
||**Inside unit**|W|70|82|114|158|172|208|259|317|360|415|495|
||**Total heat loss**|W|161|209|307|410|498|634|725|995|1144|1316|1698|
||**Fin coding**||Fan cooled|||||||||||



Frequency Inverters 

298 

## **Connections for braking resistors** 

## **Connections for braking units** 

**==> picture [239 x 147] intentionally omitted <==**

**----- Start of picture text -----**<br>
#<br>Braking<br>resistor<br>MCCB<br>3-phasePower Motor<br>Supply Varispeed L7<br>· Set constant L8-01 to 1<br> (mounting type braking<br> resistor protection<br> enabled).<br>·  Set sequence to shutt off<br> the power side at inverter<br> fault contact output.<br>**----- End of picture text -----**<br>


**==> picture [228 x 177] intentionally omitted <==**

**----- Start of picture text -----**<br>
Braking resistor overload Braking resistor overload<br>relay trip contact relay trip contact<br>(thermal relay trip contact) (thermal relay trip contact)<br>Braking Braking<br>resistor resistor<br>unit unit * [3]<br>Varispeed L7<br>Braking unit 2* [2]<br>Braking unit 1<br>Cooling fin overheat contact Cooling fin overheat contact<br>(thermoswitch contact) (thermoswitch contact)<br>Level Detector<br>**----- End of picture text -----**<br>


## **AC reactor** 

**==> picture [165 x 106] intentionally omitted <==**

**----- Start of picture text -----**<br>
AC reactor<br>MCCB<br>Motor<br> Varispeed L7<br>When using low noise type<br>inverters (high-carrier fre-<br>quency of 2.5 kHz or more),<br>do not connect an AC<br>reactor to the output side<br>(U, V, W) of the inverter.<br>**----- End of picture text -----**<br>


|**200 V class**|**200 V class**|**200 V class**|**400 V class**|**400 V class**|**400 V class**|
|---|---|---|---|---|---|
|**Max. applicable**<br>**motor output kW**|**Current  value**<br>**A**|**Inductance**<br>**mH**|**Max. applicable**<br>**motor output kW**|**Current  value**<br>**A**|**Inductance**<br>**mH**|
|4.0|20|0.53|4.0|10|2.2|
|5.5|30|0.35|5.5|15|1.42|
|7.5|40|0.265|7.5|20|1.06|
|11|60|0.18|11|30|0.7|
|15|80|0.13|15|40|0.53|
|18.5|90|0.12|18.5|50|0.42|
|22|120|0.09|22|60|0.36|
|30|160|0.07|30|80|0.26|
|37|200|0.05|37|90|0.24|
|45|240|0.044|45|120|0.18|
|55|280|0.038|55|150|0.15|



**DC reactor** 

||Varispeed L7<br>Take off the<br>common bar<br>between G1<br>and G2, and<br>wire as shown<br>in the diagram.<br>⊕<br>⊕<br>DC reactor<br>Mot<br>MCCB|Varispeed L7<br>Take off the<br>common bar<br>between G1<br>and G2, and<br>wire as shown<br>in the diagram.<br>⊕<br>⊕<br>DC reactor<br>Mot<br>MCCB|or<br>Power<br>supply<br>capacity<br>(kVA)<br>Inverter capacity (kVA)<br>Without reactor<br>With reactor for<br>power supply<br>coordination|or<br>Power<br>supply<br>capacity<br>(kVA)<br>Inverter capacity (kVA)<br>Without reactor<br>With reactor for<br>power supply<br>coordination|or<br>Power<br>supply<br>capacity<br>(kVA)<br>Inverter capacity (kVA)<br>Without reactor<br>With reactor for<br>power supply<br>coordination|
|---|---|---|---|---|---|
||**200 V class**||**400 V class**|||
|**Max. applicable**<br>**motor output kW**|**Current  value**<br>**A**|**Inductance**<br>**mH**|**Max. applicable**<br>**motor output kW**|**Current  value**<br>**A**|**Inductance**<br>**mH**|
|4.0|18|3|4.0|12|6.3|
|5.5|36|1|5.5|23|3.6|
|7.5|||7.5|||
|11|72|0.5|11|33|1.9|
|15|||15|||
|18.5|90|0.4|18.5|47|1.3|
|22 to 55|Built-in||22 to 55|Built-in||



**Varispeed L7** 

299 

## **Fuse installation** 

To protect the inverter, it is recommended to use semiconductor fuses as shown in the table below 

|**Inverter**<br>**type**|**FUSE**|**FUSE**|**FUSE**|
|---|---|---|---|
||**Voltage (V)**|**Current (A)**|**I2t (A2s)**|
|23P7|240|30|82~220|
|25P5|240|40|220~610|
|27P5|240|60|290~1300|
|2011|240|80|450~5000|
|2015|240|100|1200~7200|
|2018|240|130|1800~7200|
|2022|240|150|870~16200|
|2030|240|180|1500~23000|
|2037|240|240|2100~19000|
|2045|240|300|2700~55000|
|2055|240|350|4000~55000|
|||||
|43P7|480|15|34~72|
|44P0|480|20|50~570|
|45P5|480|25|100~570|
|47P5|480|30|100~640|
|4011|480|50|150~1300|
|4015|480|60|400~1800|
|4018|480|70|700~4100|
|4022|480|80|240~5800|
|4030|480|100|500~5800|
|4037|480|125|750~5800|
|4045|480|150|920~13000|
|4055|480|150|1500~13000|



Frequency Inverters 

300 

## **Rescue system** 

## **Example 1: 1phase, 230V UPS power supply.** 

|**Wiring**|**Wiring**|||**Contactor sequence**|**Contactor sequence**|
|---|---|---|---|---|---|
|Inverter<br>Elevator<br>control<br>system<br>ry<br>®<br>grvrcrccccc<br>1<br>N<br>UPS<br>fl<br>fei!<br>i<br>| =<br>u1<br>(<br>°<br>Le<br>fie<br>Uf<br>!<br>L2<br>|<br>=<br>She<br>A)<br>rms<br>eseece<br>|||||Contactor B<br>Contactor A<br>!<br>um<br>ViT2<br>wit3|a<br>!|
||||Power supply<br>Control<br>circuit<br>i=<br>1<br>—<br>!<br>||||
||||i|||
||||!|||
||||i sx<br>!|||
|||Rescue operation<br>enable input|sc<br>!<br>Linen eee ee ee eee eee eee!|||
|**Example 2: two batteries.**||||||
|**Wiring**|||Inverter|**Contactor sequence**||
|||®|favo<br>ist<br>!|Contactor B<br>Contactor A<br>Contactor C<br>|<br>ee<br>_| eae—~----—el_L_||
|Main<br>battery<br>any voltage<br>Typ>48||Main power<br>|<br>i<br>!<br>j<br>iG<br>i<br>|<br>4 ur<br>|<br>“<br>®<br>! Rit<br>;<br>i<br>—<br>:<br>vir2<br>i sn2<br>:<br>!<br>|<br>L2—I<br>_<br>ao<br>l<br>; wits||||
||||i<br>;<br>i||||
|||[|Power supply<br>Control<br>circuit<br>i<br>!|||
||Controller|||||
|supply battery||||||
||300-600 V|300-600 V||||
||Rescue operation|||||
||enable input|||||



## **Example 2: two batteries.** 

**Varispeed L7** 

301 

## **Safety system** 

**Example: EN81-1:1998 compliant installation of L7 with** 

## **one motor contactor** 

**==> picture [328 x 422] intentionally omitted <==**

**----- Start of picture text -----**<br>
Safety chain<br>circuit<br>Elevator controller<br>Contactor close Contactor check<br>command (restart permission)<br>K01<br>24 VDC  [*1]<br>K1<br>BB BB1 Up/down; Speed<br>selection;...<br>Fault BB Monitor<br>Yaskawa (NC)<br>CIMR-L7xxxx<br>K2<br>M<br>**----- End of picture text -----**<br>


1. The polarity of this 24 VDC signal depends on the polarity selection for the drives digital inputs. The internal as well as any external 24 VDC power supply can be used. 

Frequency Inverters 

302 

**==> picture [481 x 300] intentionally omitted <==**

**----- Start of picture text -----**<br>
Ordering information<br>3G3IV-PCN329-E CX-Drive JVOP-160 OY JVOP-161-OY 3G3IV-PCN126/326<br>Inverter to PC cable Digital operator Digital operator Digital operator<br>(LCD display) (LED display) extension cable<br>G G G G G<br>Line filter Braking accessories<br>= h saat" |<br>3 == S38 |) tM A |<br>Varispeed<br>7 L7<br>® : 7<br>A<br>Monitor option card Feedback speed  Communication   Reference   PLC option card<br>control card option cards option cards<br>L T Esme kgf ir, a Pes<br>“L e, iy<br>B C D E F<br>°A N e ™ 2<br>H<br>R8<br>R15R15R15R25 R14 D6<br>C17 R120<br>R94<br>R6<br>SI-N<br>U15<br>C24 U1<br>R5<br>73600-C0210<br>C20R97<br>R131<br>+<br>CODE No.<br>+ R40R57<br>R39<br>U9<br>C22 C5 C352 R99 U12<br>JP5 JP6 RT4 C13 U13 R95 R96<br>C10<br>R56<br>C26R6 U8 C28 R28 R70<br>+<br>R R11<br>U17<br>R75R78<br>R102 C12<br>R52 R7 R30R20 R54<br>R114 R55<br>C1<br>C16 C11<br>R21<br>C3<br>U14<br>PE U11 Y1<br>+<br>+<br>U7 C33U6 JP1<br>R10R10 R105<br>U10 U10 R3 TR1TR2<br>C2<br>T1<br>R107<br>C39<br>R1R2 R5C21R36R35 R113<br>11R11R110<br>R95<br>JP3<br>**----- End of picture text -----**<br>


**Varispeed L7** 

**200 V** 

## **400 V** 

|||**Specifications**|**Specifications**|**Specifications**|**Model**|||**Specifications**|**Specifications**|**Specifications**|**Model**|
|---|---|---|---|---|---|---|---|---|---|---|---|
|3x200 V|3x200 V||3.7 Kw|17.5 A|CIMR-L7Z23P7||3x400 V||4.0 Kw|11 A|CIMR-L7Z44P0|
||||5.5 Kw|25 A|CIMR-L7Z25P5||||5.5 Kw|14 A|CIMR-L7Z45P5|
||||7.5 Kw|33 A|CIMR-L7Z27P5||||7.5 Kw|18 A|CIMR-L7Z47P5|
||||11 Kw|49 A|CIMR-L7Z2011||||11 Kw|27 A|CIMR-L7Z4011|
||||15 Kw|64 A|CIMR-L7Z2015||||15 Kw|34 A|CIMR-L7Z4015|
||||18.5 Kw|80 A|CIMR-L7Z2018||||18.5 Kw|41 A|CIMR-L7Z4018|
||||22 Kw|96 A|CIMR-L7Z2022||||22 Kw|48 A|CIMR-L7Z4022|
||||30 Kw|130 A|CIMR-L7Z2030||||30 Kw|65 A|CIMR-L7Z4030|
||||37 Kw|160 A|CIMR-L7Z2037||||37 Kw|80 A|CIMR-L7Z4037|
||||45 Kw|183 A|CIMR-L7Z2045||||45 Kw|96 A|CIMR-L7Z4045|
||||55 Kw|224 A|CIMR-L7Z2055||||55 Kw|128 A|CIMR-L7Z4055|



**Varispeed L7** 

303 

## A **Input filters** 

## **Footprint / bookform filters** 

## **200 V** 

**400 V** 

|**Inverter model**<br>**Varispeed L7**<br>CIMR-L7Z23P7<br>CIMR-L7Z25P5<br>CIMR-L7Z27P5<br>CIMR-L7Z2011<br>CIMR-L7Z2015<br>CIMR-L7Z2018<br>CIMR-L7Z2022<br>CIMR-L7Z2030<br>CIMR-L7Z2037|**Type**<br>3G3RV-PFI2035-SE<br>3G3RV-PFI2060-SE<br>3G3RV-PFI2100-SE<br>3G3RV-PFI2130-SE<br>3G3RV-PFI2160-SE|**Line filters**<br>**EN55011**<br>**class**<br>B, 25 m<br>A 100 m<br>B, 25 m<br>A 100 m<br>B, 25 m<br>A 100 m<br>A, 100 m<br>A, 100 m|**Current**<br>**(A)**<br>35<br>60<br>100<br>130<br>160|**Weight**<br>**(kg)**<br>1.4<br>3<br>4.9<br>4.3<br>6.0||**Inverter model**<br>**Line filters**<br>**Varispeed L7**<br>**Type**<br>**EN55011**<br>**class**<br>**Current**<br>**(A)**<br>**Weight**<br>**(kg)**<br>CIMR-L7Z44P0<br>3G3RV-PFI3018-SE<br>B, 25 m<br>A 100 m<br>18<br>1.3<br>CIMR-L7Z45P5<br>CIMR-L7Z47P5<br>3G3RV-PFI3021-SE<br>B, 25 m<br>A 100 m<br>21<br>1.8<br>CIMR-L7Z4011<br>3G3RV-PFI3035-SE<br>B, 25 m<br>A 100 m<br>35<br>2.2<br>CIMR-L7Z4015<br>3G3RV-PFI3060-SE<br>B, 25 m<br>A 100 m<br>60<br>4.0<br>CIMR-L7Z4018<br>CIMR-L7Z4022<br>3G3RV-PFI3070-SE<br>B, 25 m<br>A 100 m<br>70<br>3.4<br>CIMR-L7Z4030<br>~~a~~<br>~~es~~<br>~~——f~~<br>~~es~~<br>~~es~~<br>~~——~~<br>~~—~~|
|---|---|---|---|---|---|---|
|CIMR-L7Z2045<br>CIMR-L7Z2055|3G3RV-PFI2200-SE|A, 100 m|200|11.0||CIMR-L7Z4037<br>3G3RV-PFI3100-SE<br>A, 100 m<br>100<br>4.5<br>CIMR-L7Z4045<br>CIMR-L7Z4055<br>3G3RV-PFI3130-SE<br>A, 100 m<br>130<br>4.7<br>~~—~~<br>~~a ee~~|



## A **Input filters Botton filters** 

|**Inverter model**|**Line filters**|**Line filters**|**Line filters**|**Line filters**|
|---|---|---|---|---|
|**Varispeed L7**|**Type**|**EN55011**<br>**class**|**Current**<br>**(A)**|**Weight**<br>**(kg)**|
|CIMR-L7Z44P0|3G3RV-PFI3018B-SE|B, 25 m<br>A 100 m|18|1,0|
|CIMR-L7Z45P5|||||
|CIMR-L7Z47P5|3G3RV-PFI3035B-SE|B, 25 m<br>A 100 m|35|1,5|
|CIMR-L7Z4011|||||
|CIMR-L7Z4015|3G3RV-PFI3060B-SE|B, 25 m<br>A 100 m|60|2,2|
|CIMR-L7Z4018|||||



Frequency Inverters 

304 

## B **Monitor option cards** 

|**Type**|**Model**|**Description**|**Function**|
|---|---|---|---|
|Monitor option<br>card|DO-08 / 3G3IV-PDO08|Digital output card|Outputs isolated type digital signal for monitoring inverter run state<br>(alarm signal, zero speed detection etc.).<br>Output channel: Photo coupler 6 channels (48 V, 50 mA or less)<br>Relay contact output 2 channels<br>(250 VAC, 1 A or less<br>30 VDC, 1 A or less)|
||DO-02C / 3G3IV-PDO02C|2C-relay output card|• Two multi-function contact outputs (2C-relay) can be used other than those of the inverter<br>proper unit.|



## C **Feedback speed control cards** 

|**Type**|**Model**|**Model**|**Description**|**Function**|
|---|---|---|---|---|
|Feedback speed control card|PG-A2 / 3G3FV-PPGA2||PG speed controller card<br>(used for V/f control with PG or<br>flux vector)|• Phase A pulse (single pulse) inputs (voltage, complementary, open collector input)<br>• PG frequency range: Approx. 30 kHz max.<br>[Power supply output for PG: +12 V, max. current 200 mA]<br>• Pulse monitor output: +12 V, 20 mA|
||PG-B2 / 3G3FV-PPGB2|||• Phase A and B pulse inputs (exclusively for complementary input)<br>• PG frequency range: Approx. 30 kHz max.<br>[Power supply output for PG: +12 V, max. current 200 mA]<br>• Pulse monitor output: Open collector, +24 V, Max. current 30 mA|
||PG-D2 / 3G3FV-PPGD2|||<br>• Phase A pulse (differential pulse) input for V/f control (RS-422 input)<br>• PG frequency range: Approx. 300 kHz max.<br>[Power supply output for PG: +5 V or +12 V, max. current 200 mA]<br>• Pulse monitor output: RS-422|
||PG-X2 / 3G3FV-PPGX2|||• Phase A, B and Z pulse (differential pulse) inputs (RS-422 input)<br>• PG frequency range: Approx. 300 kHz max.<br>[Power supply output for PG: +5 V or +12 V, max. current 200 mA]<br>• Pulse monitor output: RS-422|
|||PG-F2||• Hiperface and endat encoder option.|
|D**Communication option cards**|||||
|**Type**|**Model**||**Description**|**Function**|
|Communication option card|SI-N1||DeviceNet option card|• Used for running or stopping the inverter, setting or referencing parameters, and monitoring<br>output frequency, output current, or similar items through DeviceNet communication with the<br>host controller.|
||SI-P1||PROFIBUS-DP option card|• Used for running or stopping the inverter, setting or referencing parameters, and monitoring<br>output frequency, output current, or similar items through PROFIBUS-DP communication<br>with the host controller.|
||SI-S1||CANopen option card|• Used for running or stopping the inverter, setting or referencing parameters, and monitoring<br>output frequency, output current, or similar items through CANopen communication with the<br>host controller.<br>• It supports DSP402 CANOpen standardprotocol for drives control in speed control.|
||SI-J||LONWORKS option card|• Used for HVAC control, running or stopping the inverter, setting or referencing parameters,<br>and monitoring output current, watt-hours, or similar items through LONWORKS communi-<br>cations withperipheral devices.|
|E**Reference option cards**|||||
|**Type**|**Model**||**Description**|**Function**|
|Reference option card|AI-14U / 3G3IV-PAI14U||Analog input card|• 2 channel high resolution analog input card<br>• Channel 1: 0 to 10 V (20 KΩ)<br>• Channel 2: 4 to 20 mA (250Ω)<br>• Resolution 14 bit|
||AI-14B / 3G3IV-PAI14B|||• 3 channel high resolution analog input card<br>• Signal level: -10 to +10V (20 KΩ)<br>4 to 20 mA (250Ω)<br>•Resolution: 13 bit + sign|
||DI-08 / 3G3IV-PDI08||Digital reference card|• 8 bit digital speed reference input card|
||DI-16H2 / 3G3IV-PDI16H2|||• 16 bit digital speed reference input card|



**Varispeed L7** 

305 

## F **PLC option boards** 

|**Type**<br>~~a~~|**Model**<br>~~es~~|**Description**<br>~~QO~~|**Installation / Function**<br>~~QO~~|
|---|---|---|---|
|Digital operator<br>~~a~~|JVOP-160-OY<br>~~es~~<br>=|5 lines LCD digital operator<br>7 language support<br>~~QO~~|Panel cutout installation<br>70<br>70<br>14.5<br>2.5<br>20<br>44<br>15.8<br>6.4<br>(60)<br>57<br>Through<br>Hole<br>120<br>111<br>120<br>2-M3 MTG holes<br>Panel<br>Panel cutout<br>~~QO~~<br>oo<br>90 0 0<br>|<br>|<br>CLT]<br>LL|
||JVOP-161-OY<br>A<br>|<br>AB<br>Bue<br>=|7 segment LED digital operator||
|Accessories|3G3IV-PCN126<br>3G3IV-PCN326|Digital operator extension cable<br>1 meter<br>3 meters|Extension cable to connect inverter and digital operator|
||3G3IV-PCN329-E|PC configuration cable|Cable to connect inverter to PC|



G **Accessories** 

## G **Accessories** 

|**Symbol**|**Model**|**Description**|**Function**|
|---|---|---|---|
|Software|CX-drive|Computer software|Configuration and monitoring software tool for drives.|
||CX-One|Computer software|Complete OMRON automation software including CX-drive.|



Frequency Inverters 

306 

## H **Braking Unit, braking resistor unit** 

||||||**1**|**1**|**1**|**1**|**1**|**1**|**1**|**1**|**1**|**1**|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|**Inverter**|||**Braking unit**||**Braking resistor unit1**<br>**3**<br>~~OO~~||||||||||
||||||**Inverter-mounted type**<br>**(3 %ED, 10 sec max)2**||||**Separately-installed type (10 %ED, 10 sec. max.)3**||||||
|**Voltage**|**Max. applicable**<br>**motor output**<br>**kW**<br>~~es~~|**Model**<br>**CIMR-**<br>**L7Z_**|**Model**<br>**CDBR_**|**No. of**<br>**used**|**Model**<br>**ERF-150WJ_**<br>~~a~~|**Resis-**<br>**tance**|**No. of**<br>**used**|**Braking**<br>**Torque %**|**Model**<br>**LKEB_**|**Specifications**<br>**of resistor**||**No. of**<br>**used**|**Braking**<br>**torque %**|**Connectable**<br>**min resistance**<br>**value**Ω|
|200 V<br>class|3.7<br>~~es~~<br>~~ee~~|23P7|Built-in||620<br>~~a~~|62Ω|1|100|23P7<br>~~a~~|390 W<br>~~a~~|40Ω|1|125|16|
||5.5<br>~~es~~<br>~~ee~~<br>~~es~~|25P5|||---<br>~~a~~<br>~~a~~|---|||25P5<br>~~a~~<br>~~a~~|520 W<br>~~a~~|30Ω|1|115|16|
||7.5<br>~~ee~~<br>~~es~~<br>~~es~~|27P5|||||||27P5<br>~~a~~<br>~~a~~<br>~~a~~|780 W<br>~~a~~|20Ω|1|125|9.6|
||11<br>~~es~~<br>~~es~~<br>~~ee~~|2011|||||||2011<br>~~a~~<br>~~a~~<br>~~a~~|2400 W|13.6Ω|1|125|9.6|
||15<br>~~es~~<br>~~ee~~<br>~~es~~|2015|||||||2015<br>~~a~~<br>~~a~~<br>~~a~~|3000 W|10Ω|1|125|9.6|
||18.5<br>~~ee~~<br>~~es~~<br>~~ee~~|2018|||||||2015<br>~~a~~<br>~~a~~<br>~~a~~|3000 W|10Ω|1|125|9.6|
||22<br>~~es~~<br>~~ee~~<br>~~es~~|2022|2022B|1|||||2022<br>~~a~~<br>~~a~~<br>~~a~~|4800 W|6.8Ω|1|125|6.4|
||30<br>~~ee~~<br>~~es~~|2030|2015B|2|||||2015<br>~~a~~<br>~~a~~|3000 W|10Ω|2|125|9.6|
||37<br>~~es~~<br>~~a~~<br>~~es~~|2037<br>~~a~~|2015B<br>~~a~~|2|||||2015<br>~~a~~<br>~~a~~<br>~~a~~|3000 W|10Ω|2|100|9.6|
||45<br>~~es~~|2045|2022B|2|||||2022<br>~~a~~|4800 W|6.8Ω|2|120|6.4|
||55<br>~~es~~<br>~~a ~~<br>~~ee~~|2055<br> ~~a~~|2022B|2|||||2022<br>~~a~~<br>~~a~~|4800 W|6.8Ω|2|100|6.4|
|400 V<br>class|4.0<br>~~ee~~<br>~~es~~|44P0|Built in||201<br>~~a~~|200Ω|1|110|44P0<br>~~a~~|390 W|150Ω|1|135|32|
||5.5<br>~~ee~~<br>~~es~~<br>~~ee~~|45P5|||---<br>~~a~~<br>~~a~~<br>~~a~~<br>~~a~~|---<br>~~a~~<br>~~a~~<br>~~a~~|||45P5<br>~~a~~<br>~~a~~|520 W|100Ω|1|135|32|
||7.5<br>~~es~~<br>~~ee~~<br>~~es~~|47P5|||||||47P5<br>~~a~~<br>~~a~~<br>~~a~~|780 W|75Ω|1|130|32|
||11<br>~~ee~~<br>~~es~~<br>~~es~~|4011|||||||4011<br>~~a~~<br>~~a~~<br>~~a~~|1040 W|50Ω|1|135|20|
||15<br>~~es~~<br>~~es~~<br>~~ee~~|4015|||||||4015<br>~~a~~<br>~~a~~<br>~~a~~|1560 W|40Ω|1|125|20|
||18.5<br>~~es~~<br>~~ee~~<br>~~ee~~|4018|||||||4018<br>~~a~~<br>~~a~~<br>~~a~~|4800 W|32Ω|1|125|19.2|
||22<br>~~ee~~<br>~~ee~~<br>~~ee~~|4022|4030B|1|||||4022<br>~~a~~<br>~~a~~<br>~~a~~|4800 W|27.2Ω|1|125|19.2|
||30<br>~~ee~~<br>~~ee~~<br>~~es~~|4030|4030B|1|||||4030<br>~~a~~<br>~~a~~<br>~~**a**~~|6000 W|20Ω|1|125|19.2|
||37<br>~~ee~~<br>~~es~~|4037|4045B|1|||||4037<br>~~a~~<br>~~**a**~~|9600 W|16Ω|1|125|12.8|
||45<br>~~es~~<br>~~a~~|4045<br>~~a~~<br>~~a~~|4045B<br>~~a~~<br>~~a~~|1<br>~~a~~<br>~~a~~|||||4045<br>~~**a**~~<br>~~a~~<br>~~a~~|9600 W<br>~~a~~|13.6Ω<br>~~a~~|1|125|12.8|
||55<br>~~a~~|4055<br>~~a~~|4030B<br>~~a~~|2<br>~~a~~|||||4030<br>~~aa~~|6000 W<br>~~a~~|20Ω<br>~~a~~|2<br>~~a~~|135<br>~~a~~|19.2<br>~~a~~|



2. When connecting mounting type braking resistor, set system constant L8-01 to 1 (braking resistor protection enabled). 

3. Load factor during deceleration to stop a load with constant torque. With constant output or continuous regenerative braking, the load factor is smaller than the specified value. 

4. Resistance value per one braking unit. Select a resistance value that is larger than connectable minimum resistance value to obtain enough braking torque. 

5. For an application with large regenerative power such as hoisting, the braking torque or other items may exceed the capacity of a braking unit with a braking resistor in a standard combination (can result in capacity overload). Contact your OMRON representatives when the braking torque or any other item exceeds the values in the table. 

**Varispeed L7** 

307 

ALL DIMENSIONS SHOWN ARE IN MILLIMETERS. To convert millimeters into inches, multiply by 0.03937. To convert grams into ounces, multiply by 0.03527. 

In the interest of product improvement, specifications are subject to change without notice. 

Cat. No. I22E-EN-02 

Frequency Inverters 

308