Omron Varispeed F7 CIMR-F7Z Datasheet

CIMR-F7Z

Varispeed F7

The industrial workhorse

• Flux vector control with or without PG

• Silent operation. No current de-rating in silent mode.

• Torque control

• PID control

• Powerful application oriented functionality

• Stand still autotuning

• High slip braking

• Energy saving function.

• Standard LCD operator

• Standard RS485 communications - Modbus

• Fieldbus options: DeviceNet, PROFIBUS,
CANOpen

• Embedded OMRON PLC functionality with
PLC option card.

• PC configuration tool: CX-Drive.

• CE, UL, and cUL marking

Customized software

• The inverter software can be customized to meet
specific application. Examples:

• Electronic line shaft (S-8169)

• Crane software (S-7071)

* For detailed information please see CASE software section.

Ratings

• 200 V Class three-phase 0.4 to 110 kW

• 400 V Class three-phase 0.4 to 300 kW

*

System configuration

3G3IV-PCN329-E
Inverter to PC cable

Line filter

Feedback speed option card PLC option card

CX-Drive

JVOP-160 OY
Digital operator
(LCD display)

Communication option cards Reference option card

JP3

T1

C3

U6

JP1

C

C33

1

+

+

U9

U10

R

U7

5
1
2

R

R

6

R

R

C21

5

11

R3

3

3

R

C26

R

R6

U8

R70

U10

R
28

R113

C28

R8

R

1

2

0

11

U

R11

1

R110

R107

Y1

R

+

55

TR2

R75

R

R52

114

C2

U11

C
24

PE

C
22

C16

R54

C17

R56

TR1

R7

R14

R57

+

R6

R40

R

2

2
1

+

R39

D6

R78

R

5

R25

C
5

R15

C39

R20

R15

R30

C

35

R15

U14

R
1
3
1

U

12
R
99

R95

U15

C
11

R105

R10

R94

R10

R1

R97

02

C12

C

C

20

13

JP

5

R

JP

96

6

R
95

R

T4

U
13

U17

CODE No.

SI-N

C10

73600-C0210

Varispeed
F7

JVOP-161-OY
Digital operator
(LED display)

Braking accessories

3G3IV-PCN126/326
Digital operator
extension cable

269Varispeed F7

Specifications

Type designation

CIMR – F7 Z 4 0P4 0

Inverter Protective enclosure

F7 series

Specifications
Z: European standard

specifications

Voltage
2: 200 V class
4: 400 V class

200 V class

Model CIMR-F7Zo 20P4 20P7 21P5 22P2 23P7 25P5 27P5 2011 2015 2018 2022 2030 2037 2045 2055 2075 2090 2110

Max. applicable motor

Output

characteristics

Power

supply

Harmonic

wave

prevention

1. Our standard 4-pole motors are used for max. applicable motor output. Choose the inverter model whose rated current is allowable within the motor rated

2. 322 A in case of heavy duty mode

3. When using the inverter of 200 V class 37 kW or more with a cooling fan of three-phase 230 V 50 Hz or 240 V 50/60 Hz power supply, a transformer for

4. A 3-wired transformer is required at 12-pulse input.

1

output

Inverter capacity kVA

Rated current A

Max. voltage

Max. output frequency

Rated input voltage and

frequency

Allowable voltage

fluctuation

Allowable frequency

fluctuation

DC reactor

12-pulse input

current range.

the cooling fan is required.

0.55 0.75 1.5 2.2 3.7 5.5 7.5 11 15 18.5 22 30 37 45 55 75 90 110

kW

1.2 1.6 2.7 3.7 5.7 8.8 12 17 22 27 32 44 55 69 82 110 130 160

3.2 4.1 7.0 9.6 15 23 31 45 58 71 85 115 145 180 215 283 346 415

3-phase, 200/208/220/230/240 V (proportional to input voltage)

Heavy duty (low carrier, constant torque applications): 150 Hz max

Normal duty 1 or 2 (high/reduced carrier, variable torque applications): 400 Hz max

Option Provided

Not available Available

3-phase 200/208/220/230/240 V, 50/60 Hz

0: Open chassis type (IP00)
1: Enclosed type (IP20 / NEMA1)

Max. applicable motor output
0P4: 0.4 kW

~

022: 22 kW

~

300: 300 kW

"P" indicates a decimal

[ ]

point

3

+10%, -15%

±5%

4

2

400 V class

Model CIMR-F7Zo 40P4 40P7 41P542P2 43P744P0 45P5 47P54011 40154018 4022 4030 4037 4045 4055 40754090 41104132 41604185 4220 4300

Max. applicable motor

Output

characteristics

Power

supply

Harmonic

wave

prevention

1. Our standard 4-pole motors are used for max. applicable motor output. Choose the inverter model whose rated current is allowable within the motor rated

2. 405 A in case of heavy duty mode

3. 540 A in case of heavy duty mode

4. A 3-wired transformer is required at 12-pulse input.

1

output

Inverter capacity kVA

Rated current A

Max. voltage

Max. output frequency

Rated input voltage and

frequency

Allowable voltage

fluctuation

Allowable frequency

fluctuation

DC reactor

12-Pulse input

current range.

0.55 0.75 1.5 2.2 3.7 4.0 5.5 7.5 11 15 18.5 22 30 37 45 55 75 90 110 132 160 185 220 300

kW

1.4 1.6 2.8 4.0 5.8 6.6 9.5 13 18 24 30 34 46 57 69 85 110 140 160 200 230 280 390 510

1.8 2.1 3.7 5.3 7.6 8.7 12.5 17 24 31 39 45 60 75 91 112 150 180 216 260 304 370 506

3-phase, 380/400/415/440/460/480 V (proportional to input voltage)

Heavy duty (low carrier, constant torque applications): 150 Hz max

Normal duty 1 or 2 (high/reduced carrier, variable torque applications): 400 Hz max

Option Provided

Not available Available

3-phase 380/400/415/440/460/480 V, 50/60 Hz

+10%, -15%

±5%

4

2

3

675

270 Frequency inverters

Common specifications
Enclosures

Model CIMR-F7Z 20P4 20P721P5 22P223P7 25P5 27P5 2011 2015 2018 2022 2030 2037 2045 2055 2075 2090 2110

Enclosed type - IP20) Available as standard Available for option N/A

Open chassis type -IP00 Available by removing the upper and lower cover of

200 V

class

Model CIMR-F7Z 40P4 40P741P5 42P243P7 45P5 47P5 4011 4015 4018 4022 4030 4037 4045 4055 4075 4090 4110 4132 4160 4185 4220 4300

Enclosed type - IP20 Available as standard Available for option N/A

class

Open chassis type - IP00 Available by removing the upper and lower cover of

400 V

enclosed type

enclosed type

Common specifications

Model number CIMR-F7Z Specification

Control method
Torque characteristics

Speed control range

Speed control accuracy

Speed control response

Torque limits
Torque accuracy
Frequency range
Frequency accuracy

(temperature characteristics)

Frequency setting resolution

Control characteristics

Output frequency resolution
Overload capacity and

maximum current
Frequency setting signal
Accel/decel time
Braking torque
Main control functions

Motor protection
Instantaneous overcurrent

protection
Fuse blown protection
Overload protection

Overvoltage protection

Undervoltage protection

Momentary power loss ride

Protective functions

through
Cooling fin overheating
Stall prevention
Grounding protection
Charge indicator
Ambient operating temperature

Ambient operating humidity
Storage temperature
Application site

Environment

Altitude
Vibration

Approximately 20% (approximately 125% with braking resistor option, braking transistor built into inverters of 18.5 kW or less)

auto-restart after fault, jump frequencies, upper and lower limits for frequency references, DC braking for starting and stopping,

high-slip braking, advanced PID control, energy-saving control, MEMOBUS communications (RS-485/422, 19.2 kbps maximum),

Sine wave PWM Closed loop vector control, open loop vector control, V/f control, V/f with PG control

Heavy duty (low carrier, constant torque applications): 2 kHz carrier frequency, 150% overload for 1 minute,

Normal duty 1 (high carrier, variable torque applications): maximum carrier frequency, depending on inverter capacity,

Normal duty 2 (variable torque applications): carrier frequency reduced, continuous overload capability increased

Provided (4 quadrant steps can be changed by constant settings.) (Vector control)

Heavy duty (low carrier, constant torque applications): 150% of rated output current for 1 minute

Normal duty 1 or 2 (high/reduced carrier, variable torque applications): 120% of rated output current for 1 minute

0.01 to 6000.0 s (4 selectable combinations of independent acceleration and deceleration time settings)

Restarting after momentary power loss, speed search, overtorque/undertorque detection, torque limits, 17-speed control

(maximum), 4 acceleration and deceleration times, S-curve acceleration/deceleration, 3-wire control, auto-tuning

(rotational or stationary), dwell function, cooling fan ON/OFF control, slip compensation, torque compensation,

Heavy duty (low carrier, constant torque applications): 150% of rated output current for 1 minute

Normal duty 1 (high carrier, variable torque applications): 120% of rated output current for 1 minute

Normal duty 2 (high carrier, variable torque applications): 120% of rated output current for 1 minute,

By selecting the momentary power loss method, operation can be continued if power is restored within 2 s.

Stall prevention during acceleration, deceleration and running independently.

higher carrier frequency possible with current derating.

120% overload for 1 minute.

1:100 (open loop vector control)

1:1000 (closed loop vector control)

± 3% (V/f control)

± 0.03% (V/f control with PG)

± 0.2% (open loop vector control)

± 0.02% (closed loop vector control)

5 Hz (control without PG)

30 Hz (control with PG)

0.01 to 150 Hz (Heavy Duty), 0.01 to 400 Hz (Normal Duty 1 or 2)

Digital references: ± 0.01% (-10 °C to +40 °C)

Analog references: ± 0.1% (25°C ±10°C)

Analog references: 0.025/50 Hz (11 bits plus sign)

2 motor parameter sets, fault reset and parameter copy function.

200 class inverter: stops when main-circuit DC voltage is above 410 V.
400 class inverter: stops when main-circuit DC voltage is above 820 V.

200 class inverter: stops when main-circuit DC voltage is below 190 V.
400 class inverter: stops when main-circuit DC voltage is below 380 V.

Illuminates when the main circuit DC voltage is approx. 10 VDC or more.

- 20 °C to + 60 °C (short-term temperature during transportation)

10 to 20 Hz, 9.8 m/s

Digital references: 0.01 Hz

0 to +10V, -10 to +10 V, 4 to 20 mA, pulse train

Protection by electronic thermal overload relay.

Stops at approx. 200% of rated output current.

Stops for fuse blown.

increased continuous output current.

Protection by thermistor.

Protection by electronic circuits.

-10 °C to 40 °C (enclosed wall-mounted type)

-10 °C to 45 °C (open chassis type)

95% max. (with no condensation)

Indoor (no corrosive gas, dust, etc.)

Available as standard

Available as standard

1:40 (V/f control)

(25 °C ± 10 °C)

± 5%

0.01 Hz

1000 m max.

2

max.; 20 to 50 Hz, 2 m/s2 max

Varispeed F7 271

Dimensions

Open chassis type (IEC IP00)

Voltage

200 V class (3-phase)

400 V class (3-phase)

W1

W

(5)(5)

4-d

H1

H2

H

T1

(5)

D1

D

Fig 1

258

298

Dimensions in mm

195 385

250 575

7.5 100 2.3

100

12.5

15 4.5 M12

7.5

15

15 125.5

3.2 M10

130

100

2.3 M6

3.2 M10

130

4.5 M12

Max. applicable motor

output kW

0.4 ------

0.75 ------

1.5 ------

2.2 ------

3.7 ------

5.5 ------

7.5 -----­11 -----­15 ------

18.5 -----­22 2022 0
30 2030 0 275 450 220 435 24
37 2037 0
45 2045 0 328
55 2055 0
75 2075 0 87
90 2090 0 500 850 358 370 820

110 2110 0 575 885 378 445 855 140 150

0.4 ------

0.75 ------

1.5 ------

2.2 ------

4.0 ------

5.5 ------

7.5 -----­11 -----­15 ------

18.5 -----­22 4022 0
30 4030 0
37 4037 0

55 4055 0
75 4075 0
90 4090 0 89

110 4110 0
132 4132 0 120
160 4160 0 575 916 378 445 855 45.8 140 160
185 4185 0
220 4220 0 280
300 4300 0 916 1475 413 730 1440 405

Inverter

CIMR-F7Z

Fig

W H D W1 H1 H2 D1 T1 d

Not available, please use the IP20 type removing the upper and lower cover

250 400

375 600

1

450 725 348 325 700

Not available, please use the IP20 type removing the upper and lower cover

275 450 258 220 435

325 550 283 260 535 105 3645 4045 0

450 725 348 325 700 12.5

1

500 850 358 370 820

710 1305 413 540 1270

Approx.

weight kg

M6 21

108

102

260

Cooling
method

57
63
86

21

88

Fan

cooled

Fan

cooled

272 Frequency inverters

Enclosed type (IEC IP20)

F7Z 20P41 to F7Z25P51

F7Z40P41 to F7Z45P51

W1

W

4-d

H1

H2

Fig 1 Fig 2

Voltage

Max. applicable motor

200 V class (3-phase)

400 V class (3-phase)

H

H0

4

3

output kW

D1

D

T1

Inverter

CIMR-F7Z

F7Z 27P51 to F7Z20181

F7Z47P51 to F7Z40181

4-d

H

H1

H0

T1

W1

W

Fig

W H D W1 H0 H1 H2 H3 D1 T1 d

4

H2

H3

3

D1

D

Dimensions in mm

F7Z 20221 to F7Z20751

F7Z40221 to F7Z41601

W1

(5)

W

0.4 20P4 1

0.75 20P7 1

1.5 21P5 1

2.2 22P2 1

1 140 280

3.7 23P7 1

5.5 25P5 1

7.5 27P5 1
11 2011 1 310 10 7
15 2015 1

18.5 2018 1 380 30
22 2022 1

200

2

240

254 535

30 2030 1 279 615 220 450 435 165 27
37 2037 1
45 2045 1 328
55 2055 1
75 2075 1 95

3

380 809

453 1027 348 325 725 700 302

157

126 280 266 7 ---

39

5M5

177 59 4

300

197 186 300 285 8

350

207 216 350 335

195 400 385 135

258

298

250 600 575

7.5

12.5

0

65.5

0

2.3 M6

78 11

100

209

3.2 M10

130

0.4 40P4 1

0.75 40P7 1

157

39

1.5 41P5 1

2.2 42P2 1

3.7 43P7 1

4.0 44P0 1

1 140 280

126 280 266 7 ---

5M5

177 59 4

5.5 45P5 1

7.5 47P5 1
11 4011 1
15 4015 1

18.5 4018 1
22 4022 1
30 4030 1

200 300 197 186 300 285 8

2

240 350 207 216 350 335

275 535 258 220 450 435

7.5

65.5

--­78 10

2.3 M6

100 24

85

37 4037 1

55 4055 1
75 4075 1

90 4090 1 97
110 4110 1
132 4132 1 130

3

453 1027 348 325 725 700 12.5 302

504 1243 358 370 850 820 15 393

325 715 283 260 550 535 105 4045 4045 1

105

3.2 M10

130

4.5 M12

160 4160 1 579 1324 378 445 918 855 45.8 408 140 170

4-d

H1

H0

H2

H3

(5)

Fig 3

Approx.

weight kg

122

H

T1

(5)

H10

3

D1

D

Cooling
method

Self

cooled

6

Fan

cooled

24

62
68
94

3

Self

Cooled

6

Fan

cooled

96

Varispeed F7 273

Filters

Footprint / Flat filters

I

C

A
E

200 V

400 V

BF H

G

Model

3G3RV-PFI2035-SE 330 141 46 281 313 115 5.5 M5 23 126 266 M5
3G3RV-PFI2060-SE 355 206 60 302 336 175 6.5 M6 30 186 285 M6

3G3RV-PFI2100-SE 408 236 80 355 390 205 6.5 M6 40 216 335 M6

3G3RV-PFI3010-SE 330 141 46 281 313 115 5.5 M5 23 126 266 M5
3G3RV-PFI3018-SE 330 141 46 281 313 115 5.5 M5 23 126 266 M5
3G3RV-PFI3021-SE 355 206 50 302 336 175 6.5 M4 25 186 285 M5
3G3RV-PFI3035-SE 355 206 50 302 336 175 6.5 M5 25 186 285 M6

3G3RV-PFI3060-SE 408 236 65 355 390 205 6.5 M6 32.5 216 335 M6
3G3RV-PFI3410-SE
3G3RV-PFI3600-SE
3G3RV-PFI3800-SE

1

1

1

A B C D E F G H I J K L

386 115 260 306 240 235 12.0 M12 - - - ­386 135 260 306 240 235 12.0 M12 - - - ­564 160 300 516 420 275 9.0 M12 - - - -

J

L

1. Flat filters are not possible to be mounted as footprint filters.

Bookform filters

D

K

D

Dimensions

C

200 V

400 V

H

B

A
E

G

F

Model

3G3RV-PFI2130-SE 366 180 90 280 310 65 6.5 M10
3G3RV-PFI2160-SE 451 170 120 350 380 102 6.5 M10
3G3RV-PFI2200-SE 610 240 130 480 518 90 8.2 M10
3G3RV-PFI3070-SE 331 185 80 300 329 55 6.5 M6
3G3RV-PFI3100-SE 326 150 90 240 270 65 6.5 M10
3G3RV-PFI3130-SE 370 180 90 280 310 65 6.5 M10
3G3RV-PFI3170-SE 451 170 120 350 380 102 6.5 M10
3G3RV-PFI3200-SE 610 240 130 480 518 90 8.3 M10

A B C D E F G H

Dimensions

274 Frequency inverters

Braking unit

Model CDBR-2015 B, -2022 B, -4030B, -4045 B Model CDBR-2110 B

4-M4 MTG holes

30 or
more

3-lead wire inlet
(20 dia. rubber bush)

3838
128
140

Weight 1.8 K

72

66.5
100 or more

150

138

138.5

114.5

100 or more

30 or
more

Braking resistor unit (inverter-mounted type)

Weight: 0.2 kg

Model ERF-150WJ_

Model CDBR-4220 B

36.5

9

Main circuit

370

terminal

355

317

M6

156.5

70

118.5

30
or

more

210

50

30

210

or

more

250

Weight 12 Kg

4-M6
MTG holes

12

Main circuit

370

350

terminal

317

M6

100

73

50

59
30
or

more

30

140

or

more

180

100 or less

Lead wire inlet

104

(28 dia. rubber bush)

2-lead wire inlet
(35 dia. rubber bush)

111

156

200

100 or less

4-M6
MTG holes

140

36.5

Weight 8.5 Kg

100 or more

Lead wire inlet

104

(28 dia. rubber bush)

2-lead wire inlet
(35 dia. rubber bush)

111

156

200

100 or more

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)

MTG screw

D

B

C

Voltage

220 V
class

400 V
class

30 or more 30 or more

Model

LKEB-_

20P7 105 275 50 260 M5 x 3 3.0
21P5 130 350 75 335 M5 x 4 4.5
22P2 130 350 75 335 M5 x 4 4.5
23P7 130 350 75 335 M5 x 4 5.0
25P5 250 350 200 335 M6 x 4 7.5
25P5 250 350 200 335 M6 x 4 8.5
40P7 105 275 50 260 M5 x 3 3.0
41P5 130 350 75 335 M5 x 4 4.5
42P2 130 350 75 335 M5 x 4 4.5
43P7 130 350 75 335 M5 x 4 5.0
45P5 250 350 200 332 M6 x 4 7.5
47P5 250 350 200 332 M6 x 4 8.5

A

150

Dimensions in mm

A B C D MTG screw

150 or more

150 or more

Weight

kg

Voltage

220 V

class

400 V

class

MTG screw

50 or more 50 or more

Model

LKEB-_

C

A

Dimensions in mm

A B C D MTG screw

D

B

260

200 or more

200 or more

2011 266 543 246 340 M8 x 4 10
2015 356 543 336 340 M8 x 4 15
2018 446 543 426 340 M8 x 4 19
2022 446 543 426 340 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
4022 446 543 426 340 M8 x 4 19
4030 356 956 336 740 M8 x 4 25
4037 446 956 426 740 M8 x 4 33
4045 446 956 426 740 M8 x 4 33

Weight

kg

Varispeed F7 275

Attachments

Heatsink external mounting attachment

The Varispeed G7 inverters under the 200/400 V class 15 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 18.5 kW or more.)

WallMounting panel

H

H1

W1

WD1D2

D3 or more

Panel cut for external mounting of cooling fin (heatsink)

b

A

b

W1

W

Fig 1

A (W3)(W3)

W1

W

Fig 2

2-5 dia. holes

(H2)

B

(W3)(W3)
(W2)(W2)

B

(W2)(W2)

(H2)

(H2)(H3) (H2) (H3)

H1

(H3) (H3)

4-d Tap

aa

H

aa

B

A (W3)(W3)

(W2)(W2)

W1

W

Fig 3

H

H1

4-d Tap

aa

aa

4-d Tap

aa

aa

(59)(H3) (19) (H3)

CIMR­G7C

Attachment

order code

W H W1 H1 D1 D2 D3

Dimensions in mm

20P4

21P5

EZZ08676A 155 302 126 290 122.6

22P2
23P7
25P5
27P5
2011
2015

EZZ08676B 210 330 180 316 136.1 63.4 70

EZZ08676C 250 392 216 372 133.6 76.4 85

40P4
40P7
41P5

EZZ08676A 155 302 126 290 122.6

43P7
45P5
47P5
4011
4015

CIMR-

F7Z

EZZ08676B 210 330 180 316 136.1 63.4 70

EZZ08676C 250 392 216 372 133.6 76.4 85

Fig

W H W1

Dimensions in mm

(W2) (W3)

H1 (H2) (H3) A B d
20P4
20P7
21P5
22P2
23P7
25P5

H1

2011

27P5

H

2015
2018
2022
2030
2037
2045
2055
2075
2090
2110

155 302 126 6 8.5 290 9.5 6 138 271 M5

1

210 330 180

6.5 316 9 7 197 298

8.5

250 392 216 8.5 372 9.5 10 233 353

250 400 195
275 450 220 435 269 419

24.5 3

375 600 250

2

54.5 8

385

575 15

450 725 325 700 13.5 434 673

500 850 370 57 8 820
575 885 445 55 10 855 555 817

40P4
40P7
41P5
42P2

155 302 126 6 8.5 290 9.5 6 138 271 M5

43P7
44P0

1

45P5
47P5

4011
4015
4018
4022
4030
4037
4045
4055
4075
4090
4110
4132
4160

210 330 180

6.5 316 9 7 197 298

8.5

250 392 216 8.5 372 9.5 10 233 353

275 450 220

3435

24.5

325 550 260 8 535 309 519

2

450 725 325 54.5 8 700 13.5 12.5 434 673 M10

500 850 370 57 8 820 19 15 484 782

3 575 925 445 55 10 895

1.The sizes are different between the top and the bottom. Refer Fig 3

87.5

12.5

19 15

87.5

1

15 555 817

37.4 4020P7

57.4 60

37.4 40

57.4 6042P2

244 369

359 545

484 782

269 419

M6

M10

M12

M6

M12

276 Frequency inverters

Installation

Standard connections

Fuses

3-phase power

380 to 480 V

50/60 Hz

L1
L2
L3

PE

Main contactor

T

Short-circuit bar

Line
filter

DC reactor to improve input
power factor (optional)

UX

1

2

R/L1
S/L2
T/L3

Varispeed F7

CIMR-F7Z47P5

Braking resistor unit (optional)

B1 B2

U/T1
V/T2

W/T3

M

Multi-function
digital inputs

[Factory setting]

Forward run/stop S1

Reverse run/stop S2

External fault

Fault reset

Multi-step speed setting 1

Multi-step speed setting 2

Jog frequency selection

Analog input setting
adjustment

Ω

2k

3

0 to 10 V

Ω

2k

2

1

4 to 20 mA

PP

MEMOBUS
communication

RS-485/422

P

P

S3

S4

S5

S6

S7

SN

SC

SP

24V

E(G)

Shield
terminal

RP

Pulse train input [Default:
Frequency reference input]
0 to 32 kHz

+V

Analog input power supply
+15V, 20 mA

Analog input 1: Master

A1

frequency reference
0 to +10V (20 kΩ )

Multi-function analog input 2

A2

[Default: Frequency bias
4 to 20mA (250 Ω )]

AC

0V

-V

Analog input power supply

-15V, 20mA

Terminating

R+

R-

S+

S-

IG

resistance

Shield
terminal

MA

MB

MC

M1

M2

M3

M4

M5

M6

E(G)

MP

AC

FM

AM

AC

Fault contact output
250 VAC, 1A max.
30 VDC, 1A max.

Contact output 1
[Default : Running]

Contact output 2
[Default : Zero speed]

Contact output 3
[Default :

Frequency agree 1]

Pulse train output
0 to 32kHz (2.2 k )
[Default: Output frequency]

Adjustment,

Ω

20 k

+

FM

Adjustment,

Ω

20 k

+

AM

Multi-function digital output
250 VAC, 1A max.

30 VDC, 1A max.

Ω

-

Multi-function analog output 1
(-10 to +10 V 2 mA / 4 to 20 mA)
[Default: Output frequency 0 to +10 V]

-

Multi-function analog output 2
(-10 to +10 V 2 mA / 4 to 20 mA)
[Default: Output current 0 to +10 V]

Varispeed F7 277

Shielded wires

Twisted-pair

P

Shielded wires

Main circuit

CIMR-F7Z20P4 to 2018

CIMR-F7Z40P4 to 4018

Voltage 200 V 400 V

Model CIMR-F7Z 20P4 to 2018 2022, 2030 2037 to 2110 40P4 to 4018 4022 to 4055 4075 to 4300

Max. applicable motor output 0.4 to 18.5 kW 22 to 30 kW 37 to 110 kW 0.4 to 18.5 kW 22 to 55 kW 75 to 300 kW

1.

2. Cooling fan power supply r/l

3. Cooling fan power supply r/l

R/L1
S/L2

T/L3
R1/L11
S1/L21

Main circuit input

power supply

--- ---

R-R1, S-S1 and T-T1 have been wired

before shipment (See P59).

T1/L31

U/T1

V/T2

Inverter output Inverter output

W/T3

B1
B2

1
2
3

/l

2

l

r/

1

200 / l2 200
400 / l2 400

Braking resistor unit ------ Braking resistor unit ------

•DC reactor
(1- 2)

•DC power supply
(1 - )

1

--- ---

------

------

Ground terminal (100 Ω or less) Ground terminal (10 Ω or less)

1 - DC power input does not conform to UL/c-UL listed standard.

(A transformer is required for 230 V 50 Hz or 240 V 50/60 Hz power supply.)

- /l2: 200 to 220 VAC 50 Hz, 200 to 230 VAC 60 Hz

1

- 200 / l2 200: 200 to 220 VAC 50 Hz, 200 to 230 VAC 60 Hz, r/l1 - 400 / l2 400: 380 to 480 VAC 50/60 Hz

1

Main circuit input

power supply

•DC power supply

•Braking unit

1

(1- 2)

(3 - )

Cooling fan power

supply

2

Main circuit input

power supply

•DC reactor
(1- 2)

•DC power supply
(1 - )

Main circuit input power supply

R-R1, S-S1 and T-T1 have been wired

1

before shipment

•DC power supply

•Braking unit

(1- 2)

(3 - )

1

---

---

Cooling fan power

supply

3

Main circuit configuration

CIMR-F7Z2022, 2030

CIMR-F7Z2037 to 2110

200 V class400 V class

CIMR-F7Z4022 to 4055

CIMR-F7Z4075 to 4300

278 Frequency inverters

Control circuite

Type No. Signal name Function Signal level

Digital input signals

Analog input signals

Sequence output signals

signals

Analog output

Pulse I/O

RS-485/422

1. The default settings are given for terminals S3 to S7. For a 3-wire sequence, the default settings are a 3-wire sequence for S5, multi-step speed setting
1 for S6 and multi-step speed setting 2 for S7.

2. Do not use this power supply for supplying any external equipment.

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

4. Pulse input specifications are given in the following table.

Forward run/stop command Forward run when ON; stopped when OFF. 24 VDC, 8 mA

S1

Reverse run/stop command Reverse run when ON; stopped when OFF.

S2

External fault input

S3

Fault reset

S4

Multi-step speed reference 1 1

S5

(master/auxiliary switch)
Multi-step speed reference 2

S6

Jog frequency reference

S7

Digital input common – –

SC

Digital input neutral – –

SN

Digital input power supply +24 VDC power supply for digital inputs 24 VDC, 250 mA max.

SP

15 V power output 15 V power supply for analog references 15 V

+V

-15 V power output -15 V power supply for analog references -15 V

-

V

Frequency reference -10 to +10 V/100% -10 to +10 V(20 kΩ)

A1

Multi-function analog input 4 to 20 mA/100%

A2

Analog reference common – –

AC

Shield wire, optional ground line

E(G)

connection point
Running signal

M1

(1NO contact)

1

1

1

1

Fault when ON. Functions are selected by
Reset when ON
Auxiliary frequency reference

when ON.
Multi-step setting 2 when ON.
Jog frequency when ON.

-10 V to +10 V/100%

––

Operating when ON. Multi-function contact

setting H1-01 to H1-05.

Function is selected by
setting H3-09.

outputs

M2

Zero speed Zero level (b2-01) or below when ON

M3

photocoupler

(max. current: 20 mA)

(max. current: 20 mA)

4 to 20 mA(250 Ω)

-10 V to +10 V(20 kΩ)

Relay contacts
Contact capacity:
1 A max. at 250 VAC
1 A max. at 30 VDC

M4

Speed agreement detection Within ±2 Hz of set frequency when

M5
M6

Fault output signal Fault when CLOSED across MA and MC

MA
MB
MC

Multi-function analog output

FM

(frequency output)

Analog common –

AC

Multi-function analog output

AM

(current monitor)
Pulse input

RP

Pulse monitor H6-06 (output frequency) 0 to 32 kHz

MP

MEMOBUS communications input For 2-wire RS-485, short R+ and S+ as well as R- and S-. Differential input,

R+

4

R-

MEMOBUS communications output Differential input,

S+

S-

Signal common – –

IG

ON.

Fault when OPEN across MB and MC

0 to 10 V, 10V=100% output
frequency

0 to 10 V, 10V=200% inverter's rated
current

H6-01 (frequency reference input) 0 to 32 kHz (3 kΩ)

Low level voltage 0.0 to 0.8 V
High level voltage 3.5 to 13.2 V
H duty 30% to 70%

Multi-function
analog output 1

Multi-function
analog output 2

Relay contacts
Contact capacity:
1 A max. at 250 VAC
1 A max. at 30 VDC

-10 to +10 V max. ±5%
2 mA max.

4 to 20 mA current output

High level voltage 3.5 to 13.2 V

+15 V output (2.2 kΩ)

photocoupler isolation

photocoupler isolation

2

3

3

Varispeed F7 279

Remove the upper and lower covers for
the models of 15 kW or less in 200 V
and 400 V classes.

When using open chassis type inverters of 200 V/400 V
22 kW or more, secure spaces for eyebolts and wiring
of the main circuit.

Upper cover

Lower cover

Cover MTG screw

Heatsink

50 mm or more

30 mm or more 30 mm

50 mm or more

Side spaces Top and bottom spaces

or more

120 mm or more

120 mm or more

55 ˚C

45 ˚C

Internal heatsink

Upper cover

Upper part air
temperature

-10 to 55 ˚C

Heatsink

Open chassis
type inverter

Lower cover

Inverter inlet
temperature

-10 to 45 ˚C

Peripheral
temperature 40 ˚C

Inverter heat loss

200 V class

Model CIMR-F7Z 20P4 20P7 21P5 22P2 23P7 25P5 27P5 2011 2015 2018 2022 2030 2037 2045 2055 2075 2090 2110

Inverter capacity kVA 1.2 1.6 2.7 3.7 5.7 8.8 12 17 22 27 32 44 55 69 82 110 130 160

Rated current A 3.2 4.1 7.0 9.6 15 23 31 45 58 71 85 115 145 180 215 283 346 415

Fin

Inside unit

Total heat loss

Heat loss W

W 20 27 50 70 112 164 219 374 429 501 586 865 1015 1266 1588 2019 2437 2733

W 39 42 50 59 74 84 113 170 183 211 274 352 411 505 619 838 997 1242

W 59 69 100 129 186 248 332 544 612 712 860 1217 1426 1771 2207 2857 3434 3975

Fin coding Self cooled Fan cooled

400 V class

Model CIMR-F7Z

Inverter capacity

Rated current

Fin

Inside unit

Total heat loss

Heat loss W

Fin coding Self cooled Fan cooled

40P4 40P7 41P5 42P2 43P7 44P0 45P5 47P5

kVA

1.4 1.6 2.8 4.0 5.8 6.0 9.5 13 18 24 30 34 46 57 69 85 110 140 160 200 230 280 390 510

A

1.8 2.1 3.7 5.3 7.6 8.0 12.5 17 24 31 39 45 60 75 91 112 150 180 216 260 304 370 506 675
14 17 36 59 80 91 127 193 252 326 426 466 678 784 901 1203 1399 1614 2097 2388 2791 3237 3740 5838

W

39 41 48 56 68 70 82 114 158 172 208 259 317 360 415 495 575 671 853 1002 1147 1372 1537 2320

W

53 58 84 115 148 161 209 307 410 498 634 725 995 1144 1316 1698 1974 2285 2950 3390 3938 4609 5277 8158

W

4011 4015 4018 4022 4030 4037 4045 4055 4075 4090 4110 4132 4160 4185 4220 4300

Air

Air

Connections for braking units Connections for braking resistors

MCCB

3-phase
Power
Supply

Varispeed F7

· Set constant L8-01 to 1
(mounting type braking
resistor protection
enabled).

· Set sequence to shutt off
the power side at inverter
fault contact output.

280 Frequency inverters

Braking
resistor

Motor

Varispeed F7

Braking unit 1

Braking resistor overload
relay trip contact
(thermal relay trip contact)

Braking
resistor
unit

Level Detector

Cooling fin overheat contact
(thermoswitch contact)

Braking resistor overload
relay trip contact
(thermal relay trip contact)

Braking unit 2*

Cooling fin overheat contact
(thermoswitch contact)

2

Braking
resistor
unit *

3

AC reactor

Connection example

AC reactor

MCCB

Motor

Application example

Power supply
capacity (kVA)

AC Reactor required for
power supply harmonics

Varispeed F7

AC reactor not
required

Inverter capacity (kVA)

200 V class 400 V class

Max. applicable

motor output kW

Current value AInductancemHMax. applicable

motor output kW

Current value AInductance

0.4 2.5 4.2 0.4 1.3 18.0

0.75 5 2.1 0.75 2.5 8.4

1.5 10 1.1 1.5 5 4.2

2.2 15 0.71 2.2 7.5 3.6

3.7 20 0.53 3.7 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
75 360 0.026 75 200 0.11
90 500 0.02 90/110 250 0.09

110 500 0.02 132/160 330 0.06

185 490 0.04
220
300 660 0.03

mH

DC reactor

DC reactor

MCCB

Take off the
common bar
between G1
and G2, and
wire as shown
in the diagram.

⊕

⊕

Varispeed F7

Motor

Power
supply

capacity

(kVA)

With reactor for
power supply
coordination

Without reactor

Inverter capacity (kVA)

200 V class 400 V class

Max. applicable

motor output kW

0.4

0.75 0.75

1.5

2.2 2.2

Current value AInductance

mH

5.4 8

18 3

Max. applicable

motor output kW

0.4

1.5

Current value AInductance

3.2 28

5.7 11

3.7 3.7 12 6.3

5.5

7.5 7.5
11
15 15

36 1

72 0.5

5.5

11

23 3.6

33 1.9

18.5 90 0.4 18.5 47 1.3

22 to 110 Built-in 22 to 300 Built-in

mH

Varispeed F7 281

Fuse installation

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

Inverter type

Voltage (V) Current (A) I2t (A2s)

FUSE

20P4 240 10 12~25
20P7 240 10 12~25
21P5 240 15 23~55
22P2 240 20 34~98
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
2075 240 450 7100~64000
2090 240 550 11000~64000
2110 240 600 13000~83000

Inverter type

Voltage (V) Current (A) I2t (A2s)

FUSE

40P4 480 5 6~55
40P7 480 5 6~55
41P5 480 10 10~55
42P2 480 10 18~55
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
4075 480 250 3000~55000
4090 480 300 3800~55000
4110 480 350 5400~23000
4132 480 400 7900~64000
4160 480 450 14000~250000
4185 480 600 20000~250000
4220 480 700 34000~400000
4300 480 900 52000~920000

282 Frequency inverters

Ordering information

3G3IV-PCN329-E
Inverter to PC cable

F

Line filter

A

Feedback speed option card PLC option card

CX-Drive

JVOP-160 OY
Digital operator
(LCD display)

JVOP-161-OY
Digital operator
(LED display)

FFFF

Braking accessories

Varispeed
F7

G

Communication option cards Reference option card

JP3

T1

C3

U6

JP1

C1

C33

+

+

U9

U10

R

U7

5
1
2

R

R

6

R

R

C21

5

11

R3

3

3

R

C26

R

R6

U8

R70

U10

R
2

8

R113

C28

R8

R

1

2

0

11

U

R11

1

R110

R107

Y1

R

+

5

TR2

5

R75

R

R52

1

C2

14

U1

C

1

24

PE

C
22

C1
6

R54

C17

R56

TR1

R7

R14

R

+

57

R6

R40

R

2

2
1

+

R39

D6

R78

R

5

R25

C
5

R15

C39

R20

R15

R30

C

35

R15

U
14

R
1
3
1

U
1

R

2
9
9

R95

U15

C
11

R105

R10

R
94

R10

R
102

R97

C12

C

C

2

13

0

J
P5J

R

P6

96
R
95

RT4

U
13

U17

CODE No.

SI-N

C10

73600-C0210

D C B

3G3IV-PCN126/326
Digital operator
extension cable

E

Varispeed F7

200 V 400 V

Specifications Model

0.55 Kw 3.2 A CIMR-F7Z20P41

0.75 Kw 4.1 A CIMR-F7Z20P71

1.5 Kw 7.0 A CIMR-F7Z21P51

2.2 Kw 9.6 A CIMR-F7Z22P21

IP20

3.7 Kw 15 A CIMR-F7Z23P71

5.5 Kw 23 A CIMR-F7Z25P51

7.5 Kw 31 A CIMR-F7Z27P51
11 Kw 45 A CIMR-F7Z20111
15 Kw 58 A CIMR-F7Z20151

18.5 Kw 71 A CIMR-F7Z20181
22 Kw 85 A CIMR-F7Z20220
30 Kw 115 A CIMR-F7Z20300
37 Kw 145 A CIMR-F7Z20370

IP00

45 Kw 180 A CIMR-F7Z20450
55 Kw 215 A CIMR-F7Z20550
75 Kw 283 A CIMR-F7Z20750
90 Kw 346 A CIMR-F7Z20900

110 Kw 415 A CIMR-F7Z21100

Varispeed F7 283

IP20

IP00

Specifications Model

0.55 Kw 1.8 A CIMR-F7Z40P41

0.75 Kw 2.1 A CIMR-F7Z40P71

1.5 Kw 3.7 A CIMR-F7Z41P51

2.2 Kw 5.3 A CIMR-F7Z42P21

3.7 Kw 7.6 A CIMR-F7Z43P71

4.0 Kw 8.7 A CIMR-F7Z44P01

5.5 Kw 12.5 A CIMR-F7Z45P51

7.5 Kw 17 A CIMR-F7Z47P51
11 Kw 24 A CIMR-F7Z40111
15 Kw 31 A CIMR-F7Z40151

18.5 Kw 39 A CIMR-F7Z40181
22 Kw 45 A CIMR-F7Z40220
30 Kw 60 A CIMR-F7Z40300
37 Kw 75 A CIMR-F7Z40370
45 Kw 91 A CIMR-F7Z40450
55 Kw 112 A CIMR-F7Z40550
75 Kw 150 A CIMR-F7Z40750
90 Kw 180 A CIMR-F7Z40900

110 Kw 216 A CIMR-F7Z41100
132 Kw 260 A CIMR-F7Z41320
160 Kw 304 A CIMR-F7Z41600
185 Kw 370 A CIMR-F7Z41850
220 Kw 506 A CIMR-F7Z42200
300 Kw 675 A CIMR-F7Z43000

A Line filters

200 V 400 V

Inverter model Line filters

Varispeed F7 Type

CIMR-F7Z20P4 3G3RV-PFI3010-SE B, 25 m
CIMR-F7Z20P7
CIMR-F7Z21P5
CIMR-F7Z22P2 3G3RV-PFI3018-SE B, 25 m

CIMR-F7Z23P7 3G3RV-PFI2035-SE B, 25 m
CIMR-F7Z25P5
CIMR-F7Z27P5 3G3RV-PFI2060-SE B, 25 m

CIMR-F7Z2011
CIMR-F7Z2015 3G3RV-PFI2100-SE B, 25 m
CIMR-F7Z2018
CIMR-F7Z2022 3G3RV-PFI2130-SE A, 100 m 130 4.3
CIMR-F7Z2030
CIMR-F7Z2037 3G3RV-PFI2160-SE A, 100 m 160 6.0
CIMR-F7Z2045 3G3RV-PFI2200-SE A, 100 m 200 11.0
CIMR-F7Z2055
CIMR-F7Z2075 3G3RV-PFI3400-SE A, 100 m 400 8.6
CIMR-F7Z2090
CIMR-F7Z2110 3G3RV-PFI3600-SE A, 100 m 600 11.0

EN55011

class

A, 100 m

A, 100 m

A, 100 m

A, 100 m

A, 100 m

Current

(A)

10 1.2

18 1.3

35 1.4

60 3

100 4.9

Weight

(kg)

Inverter model Line filter

Varispeed F7 Model

CIMR-F7Z40P4
CIMR-F7Z40P7
CIMR-F7Z41P5
CIMR-F7Z42P2
CIMR-F7Z43P7

CIMR-F7Z45P5

CIMR-F7Z47P5 3G3RV-PFI3021-SE

CIMR-F7Z4011 3G3RV-PFI3035-SE

CIMR-F7Z4015
CIMR-F7Z4018
CIMR-F7Z4022
CIMR-F7Z4030
CIMR-F7Z4037
CIMR-F7Z4045
CIMR-F7Z4055 3G3RV-PFI3130-SE A, 100 m 130 4.7
CIMR-F7Z4075 3G3RV-PFI3170-SE A, 100 m 170 6.0
CIMR-F7Z4090
CIMR-F7Z4110
CIMR-F7Z4132
CIMR-F7Z4160
CIMR-F7Z4185
CIMR-F7Z4220
CIMR-F7Z4300 3G3RV-PFI3800-SE A, 100 m 800 31.0

EN 55011

class*

3G3RV-PFI3010-SE

3G3RV-PFI3018-SE

3G3RV-PFI3060-SE

3G3RV-PFI3070-SE

3G3RV-PFI3100-SE A, 100 m 100 4.5

3G3RV-PFI3200-SE A, 100 m 250 11

3G3RV-PFI3400-SE A, 100 m 400 8.5

3G3RV-PFI3600-SE A, 100 m 600 11.0

B, 25 m

A, 100 m

B, 25 m

A, 100 m

B, 25 m

A, 100 m

B, 25 m

A, 100 m

B, 25 m

A, 100 m

B, 25 m

A, 100 m

Current

(A)

10 1.2

18 1.3CIMR-F7Z44P0

21 1.8

35 2.2

60 4.0

70 3.4

Weight

(kg)

B Feedback speed control cards

Type Model Description Function

PG-A2 / 3G3FV-PPGA2

PG-B2 / 3G3FV-PPGB2 • Phase A and B pulse inputs (exclusively for complementary input)

PG-D2 / 3G3FV-PPGD2 • Phase A pulse (differential pulse) input for V/f control (RS-422 input)

PG speed controller card

(used for V/f control with PG or

flux vector)

PG-X2 / 3G3FV-PPGX2 • Phase A, B and Z pulse (differential pulse) inputs (RS-422 input)

Feedback speed control card

PG-Z2 • Phase A, B and Z pulse (differential pulse) inputs (RS-422 input)

• Phase A pulse (single pulse) inputs (voltage, complementary, open collector input)

• PG frequency range: Approx. 30 kHz max.
[Power supply output for PG: +12 V, max. current 200 mA]

• Pulse monitor output: +12 V, 20 mA

• PG frequency range: Approx. 30 kHz max.
[Power supply output for PG: +12 V, max. current 200 mA]

• Pulse monitor output: Open collector, +24 V, Max. current 30 mA

• PG frequency range: Approx. 300 kHz max.
[Power supply output for PG: +5 V or +12 V, max. current 200 mA]

• Pulse monitor output: RS-422

• PG frequency range: Approx. 300 kHz max.
[Power supply output for PG: +5 V or +12 V, max. current 200 mA]

• Pulse monitor output: RS-422

• PG frequency range: Approx. 300 kHz max.
[Power supply output for PG: +5 V or +12 V, max. current 200 mA]

• Pulse monitor output: RS-422

• Dual channel encoder: 1st channel A, B, Z / 2nd channel A, B, Z or open collector.

284 Frequency inverters

C Communication option cards

Type Model Description Function

3G3RV-PDRT2 DeviceNet option card

SI-P1 PROFIBUS-DP option card

SI-S1 CANopen option card

SI-J LONWORKS option card

Communication option card

1. Please refer to TrajeXia, MCH or MP series section for host controllers detailed information.t

CM090 Ethernet option card • MODBUS TCP/IP ethernet interface unit.

SI-T

MECHATROLINK - II

option board

• Used for running or stopping the inverter, setting or referencing parameters, and monitoring
output frequency, output current, or similar items through DeviceNet communication with the
host controller.

• Used for running or stopping the inverter, setting or referencing parameters, and monitoring
output frequency, output current, or similar items through PROFIBUS-DP communication
with the host controller.

• Used for running or stopping the inverter, setting or referencing parameters, and monitoring
output frequency, output current, or similar items through CANopen communication with the
host controller.

• Used for HVAC control, running or stopping the inverter, setting or referencing parameters,
and monitoring output current, watt-hours, or similar items through LONWORKS communi­cations with peripheral devices.

• High speed motion bus.

• Used for running or stopping the inverter, setting or referencing parameters, and monitoring
output frequency, output current, or similar items through MECHATROLINK-II communica­tion with the host controller.

• Host controller: TrajeXia, MCH or MP series

D Reference option cards

Type Model Description Function

AI-14U / 3G3IV-PAI14U

Analog input card

AI-14B / 3G3IV-PAI14B

DI-08 / 3G3IV-PDI08

Reference option card

DI-16H2 / 3G3IV-PDI16H2 • 16 bit digital speed reference input card

Digital reference card

• 2 channel high resolution analog input card

• Channel 1: 0 to 10 V (20 KΩ)

• Channel 2: 4 to 20 mA (250 Ω)

• Resolution 14 bit

• 3 Channel high resolution analog input card

• Signal level: -10 to +10V (20 KΩ)

•Resolution: 13 bit + sign

• 8 bit digital speed reference input card

s4 to 20 mA (250 Ω)

1

E PLC option cards

Type Model Description Function

3G3RV-P10ST8-E

PLC option

3G3RV-P10ST8-DRT-E

PLC option

PLC option with DeviceNet

• Full PLC features, wireless installation and seamless access to the inverter parameters and
analogue/digital inputs and outputs.

• Embedded Compubus/S fieldbus

• Standard OMRON tools can be used for programming

• Same features as standard model with DeviceNet support.

Varispeed F7 285

F Accessories

Type Model Description Function

JVOP-160-OY

5 lines LCD digital operator

7 language support

JVOP-161-OY

Digital operator

7 segment LED digital operator

Accessories

3G3IV-PCN126
3G3IV-PCN326

3G3IV-PCN329-E

Digital operator extension cable

1 meter

3 meters

PC configuration cable Cable to connect the inverter to PC.

F Computer software

Type Model Description Function

CX-drive Computer software Configuration and monitoring software tool for drives.

Software

CX-One Computer software Complete OMRON automation software including CX-drive

Panel cutout

57

120

120

70 70

111

14.5

2.5

Panel cutout installation

Extension cable to connect inverter and digital operator.

44

Through

Hole

2-M3 MTG Holes

Panel

20

15.8 6.4

(60)

286 Frequency inverters

G Braking unit, braking resistor unit

Braking unit

Inverter

Inverter-mounted type

(3 %ED, 10 sec max)

Braking resistor unit

Separately-installed type (10 %ED, 10 sec. max.)

2

1

3

Max. applicable

Voltage

motor output

kW

0.4 20P4

0.75 20P7 201 200 Ω 1 125 20P7 70 W 200 Ω 1 125 48

1.5 21P5 101 100 Ω 1 125 21P5 260 W 100 Ω 1 125 48

2.2 22P2 700 70 Ω 1 120 22P2 260 W 70 Ω 1 120 16

3.7 23P7 620 62 Ω 1 100 23P7 390 W 40 Ω 1 125 16

5.5 25P5

7.5 27P5 27P5 780 W 20 Ω 1 125 9.6
11 2011 2011 2400 W 13.6 Ω 1 125 9.6

200 V
class

400 V
class

1. When connecting a mounting type resistor or braking resistor unit, set system constant L3-04 to 0 (stall prevention disabled during deceleration). If op-

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

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

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

15 2015 2015 3000 W 10 Ω 1 125 9.6

18.5 2018 2015 3000 W 10 Ω 1 125 9.6
22 2022 2022B 1 2022 4800 W 6.8 Ω 1 125 6.4
30 2030 2015B 2 2015 3000 W 10 Ω 2 125 9.6
37 2037 2015B 2 2015 3000 W 10 Ω 2 100 9.6
45 2045 2022B 2 2022 4800 W 6.8 Ω 2 120 6.4
55 2055 2022B 2 2022 4800 W 6.8 Ω 2 100 6.4
75 2075 2110B 1 2022 4800 W 6.8 Ω 3 110 1.6
90 2090 2110B 1 2022 4800 W 6.8 Ω 4 120 1.6

110 2110 2110B 1 2018 4800 W 8 Ω 5 100 1.6

0.4 40P4

0.75 40P7 751 750 Ω 1 130 40P7 70 W 750 Ω 1 130 96

1.5 41P5 401 400 Ω 1 125 41P5 260 W 400 Ω 1 125 64

2.2 42P2 301 300 Ω 1 115 42P2 260 W 250 Ω 1 135 64

3.7 43P7

4.0 44P0

5.5 45P5

7.5 47P5 47P5 780 W 75 Ω 1 130 32
11 4011 4011 1040 W 50 Ω 1 135 20
15 4015 4015 1560 W 40 Ω 1 125 20

18.5 4018 4018 4800 W 32 Ω 1 125 19.2
22 4022 4030B 1 4022 4800 W 27.2 Ω 1 125 19.2
30 4030 4030B 1 4030 6000 W 20 Ω 1 125 19.2
37 4037 4045B 1 4037 9600 W 16 Ω 1 125 12.8
45 4045 4045B 1 4045 9600 W 13.6 Ω 1 125 12.8
55 4055 4030B 2 4030 6000 W 20 Ω 2 135 19.2
75 4075 4045B 2 4045 9600 W 13.6 Ω 2 145 12.8
90 4090 4220B 1 4030 6000 W 20 Ω 3 100 3.2

110 4110 4220B 1 4030 6000 W 20 Ω 3 100 3.2
132 4132 4220B 1 4045 9600 W 13.6 Ω 4 140 3.2
160 4160 4220B 1 4045 9600 W 13.6 Ω 4 140 3.2
185 4185 4220B 1 4045 9600 W 13.6 Ω 4 120 3.2
220 4220 4220B 1 4037 9600 W 16 Ω 5 110 3.2
300 4300 4220B 2 4045 9600 W 13.6 Ω 6 110 3.2

erating without changing the constant, motor does not stop at set deceleration time.

than the specified value.

torque.

braking resistor in a standard combination (an result in capacity overload). Contact your OMRON representatives when the braking torque or any other
item exceeds the values in the table.

Model
CIMR-

F7Z_

Model

CDBR_

Built-in

Built in

No. of

used

Model

ERF-150WJ_

201 200 Ω 1 220 20P7 70 W 200 Ω 1 220 48

751 750 Ω 1 230 40P7 70 W 750 Ω 1 230 96

201 200 Ω 1 110 43P7 390 W 150 Ω 1 135 32

Resis-

No. of

tance

used

--- ---

--- ---

Braking

torque %

Model

Specifications

LKEB_

25P5 520 W 30 Ω 1 115 16

45P5 520 W 100 Ω 1 135 32

of resistor

No. of

used

Braking

torque %

min resistance

Connectable

value Ω

Varispeed F7 287

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

Cat. No. I23E-EN-02

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

288 Frequency inverters