A1000-FIV3030-SE-V1

**VZ** 

## **V1000** 

## **More performance & Quality in less space** 

- Current vector control 

- High starting torque (200% / 0.5 Hz) 

- 1:100 speed control range 

- Double rating ND 120%/1min and HD 150%/1 min 

- IM&PM motor control 

- Online Tuning 

- Low-noise Low carrier technology 

- 10 years lifetime design 

- Built-in filter 

- Screw-less terminals 

- Control Terminals with memory backup 

- Fieldbus communications: Modbus, Profibus, CANopen, DeviceNet, LONworks, CompoNet, Ethernet, ML-II, PROFINET and EtherCAT 

- Safety embedded: EN954-1 safety cat. 3, EN6158 SIL II and EN60204-1 Stop category 0 

- CE, UL, cUL and TUV 

## **Ratings** 

- 200 V Class single-phase 0.1 to 4 kW 

- 200 V Class three-phase 0.1 to 15 kW 

• 400 V Class three-phase 0.2 to 15 kW 

## ~~Ld~~ **System configuration** 

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**V1000** 

1 

## **Specifications** 

## **Type designation** 

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V Z A B 0 P 1 B A A<br>Version<br>V1000 series Coating specs:A: Standard<br>Z:  European standard  Enclosure, Fin, Filter:<br>B: IP20 without top cover<br>specifications F:  Nema 1<br>A: Standard specs  E: IP20 without top cover and C3 filter<br>Voltage: [”P” indicates a decimal point]<br>B: Single-phase 200 VAC Max. applicable motor output<br>2:  Three-phase 200 VAC 0P1: 0.1 kW<br>4:  Three-phase 400 VAC<br>015: 15 kW<br>~<br>**----- End of picture text -----**<br>


## **200 V class** 

||**Single-phase: VZA@**|**B0P1**|**B0P2**|**B0P4**|**B0P7**|**B1P5**|**B2P2**|**B4P01**|**-**|**-**|**-**|**-**|
|---|---|---|---|---|---|---|---|---|---|---|---|---|
||**Three-phase: VZA@**|**20P1**|**20P2**|**20P4**|**20P7**|**21P5**|**22P2**|**24P0**|**25P5**|**27P5**|**2011**|**2015**|
|**Motor**<br>**kW2**|<br>**For HD setting**|0.12|0.25|0.4|1.1|1.5|2.2|4.0<br>|5.5|7.5|11|15|
||**For ND setting**|0.18|0.37|0.55|1.1|2.2|3.0|5.51|7.5|11|15|18.5|
|**Output**<br>**characteristics**|**Inverter capacity kVA**|0.3|0.6|1.1|1.9|3.0|4.2|6.7|9.5|13|18|23|
||**Rated output current(A) at HD**|0.8|1.6|3.0|5.0|8.0|11.0|17.5|25.0|33.0|47.0|60.0|
||**Rated output current(A) at ND**|1.2|1.9|3.5|6.0|9.6|12.0|19.6|30.0|40.0|56.0|69.0|
||**Max. output voltage**|Proportional to input voltage: 0..240 V|||||||||||
||**Max. output frequency**|400 Hz|||||||||||
|**Power**<br>**supply**|**Rated input voltage**<br>**and frequency**|Single-phase 200..240 V 50/60 Hz<br>3-phase 200..240 V 50/60 Hz|||||||||||
||**Allowable voltage**<br>**fluctuation**|-15%..+10%|||||||||||
||**Allowable frequency**<br>**fluctuation**|+5%|||||||||||



1. Only HD settings is available for this model 

2. Based on a standard 4-pole motor for maximum applicable motor output: Heavy Duty (HD) mode with a 150% overload capacity Normal Duty (ND) mode with a 120% overload capacity 

## **400 V class** 

||**Three-phase: VZA@**|**40P2**|**40P4**|**40P7**|**41P5**|**42P2**|**43P0**|**44P0**|**45P5**|**47P5**|**4011**|**4015**|
|---|---|---|---|---|---|---|---|---|---|---|---|---|
|**Motor**<br>**kW1**|<br>**For HD setting**|0.37|0.55|1.10|1.5|2.2|3.0|4.0|5.5|7.5|11|15|
||**For ND setting**|0.37|0.75|1.5|2.2|3.0|4.0|5.5|7.5|11|15|18.5|
|**Output**<br>**characteristics**|**Inverter capacity kVA**|0.9|1.4|2.6|3.7|4.2|5.5|7.2|9.2|14.8|18|24|
||**Rated output current(A) at HD**|1.2|1.8|3.4|4.8|5.5|7.2|9.2|14.8|18.0|24|31|
||**Rated output current(A) at ND**|1.2|2.1|4.1|5.4|6.9|8.8|11.1|17.5|23|31|38|
||**Max. output voltage**|0..480 V (proportional to input voltage)|||||||||||
||**Max. output frequency**|400 Hz|||||||||||
|**Power**<br>**supply**|**Rated input voltage**<br>**and frequency**|3-phase 380..480 VAC, 50/60 Hz|||||||||||
||**Allowable voltage**<br>**fluctuation**|-15%..+10%|||||||||||
||**Allowable frequency**<br>**fluctuation**|+5%|||||||||||



1. Based on a standard 4-pole motor for maximum applicable motor output: Heavy Duty (HD) mode with a 150% overload capacity Normal Duty (ND) mode with a 120% overload capacity 

Frequency inverters 

2 

## **Specifications** 

## **Common specifications** 

||**Model number**<br>**VZA@**|**Specifications**|
|---|---|---|
|**Control functions**|**Control methods**|Sine wave PWM (V/f control, sensorless current vector control)|
||**Output frequency range**|0.1..400 Hz|
||**Frequency tolerance**|Digital set value: ±0.01%(-10..+50 ºC)|
|||Analogue set value: ±0.1%(25 ±10 ºC)|
||**Resolution of frequency set value**|<br>Digital set value: 0.01 Hz(<100 Hz), 0.1 Hz(>100 Hz)|
|||<br>Analogue set value: 1/1000 of maximum frequency|
||**Resolution of output frequency**|0.01 Hz|
||**Overload capability**|Heavy duty use: 150% rated output current for one minute<br>Normal dutyuse: 120% rated output current for one minute|
||**Frequency set value**|0..10 V (20 k), 4..20 mA (250), 0..20 mA (250)<br>Pulse train input, frequencysettingvalue(selectable)|
||**Braking torque**<br>**(short termpeak torque)**|Short-term average deceleration torque: 150% (up 1.5 kW), 100% (for 1.5 kW), 50% (for 2.2 kW), 20% (for bigger size)<br>Continuous regenerative torque: Approx 20% (125% with optional braking resistor, 10%ED, 10 s, braking transistor built in)|
||**V/f Characteristics**|Possible to program any V/f pattern|
|**Functionality**|**Inputs signals**|Seven of the following input signals are selectable: Forward/reverse run (3-wire sequence), fault reset, external fault (NO/NC<br>contact input), multi-step speed operation, Jog command, accel/decel time select, external baseblock, speed search com-<br>mand, UP/DOWN command, accel/decel hold command, LOCAL/REMOTE selection, communication/control circuit terminal<br>selection, emergencystopfault, emergencystopalarm, self test|
||**Output signals**|Following output signals are selectable (NO/NC contact output, 2 photo-coupler outputs): Fault, running, zero speed, speed<br>agree, frequency detection (output frequency <= or => set value), during overtorque detection, minor error, during baseblock,<br>operation mode, inverter run ready, during fault retry, during undervoltage detection, reverse running, during speed search,<br>data output through communication.|
||**Standard functions**|Open-loop vector control, full-range automatic torque boost, slip compensation, 17-step speed operation (max.), restart after<br>momentary power loss, DC injection braking current at stop/start (50% of inverter rated current, 0.5 sec, or less), frequency<br>reference bias/gain, MEMOBUS communications (RS-485/422, max. 115K bps), fault retry, speed search, frequency upper/<br>lower limit setting, overtorque detection, frequency jump, accel/decel time switch, accel/decel prohibited, S-curve accel/decel,<br>PID control, energy-savingcontrol, constant copy.|
||**Analogue inputs**|2 analogue inputs, 0..10 V, 4..20 mA, 0..20 mA|
||**Braking/acceleration times**|0.01..6000 s|
||**Display**|Optionallyfrequency, current or set value|
|||Error and status LED|
|**Protection functions**|**Motor overloadprotection**|Electronic thermal overload relay|
||**Instantaneous overcurrent**|Motor coasts to a stopat approx. 250% of inverter rated current|
||**Overload**|Heavy Duty: Motor coasts to a stop after 1 minute at 150% of inverter rated output current<br>Normal Duty: Motor coasts to a stopafter 1 minute at 120% of inverter rated output current|
||**Overvoltage**|Motor coasts to a stopif DC bus voltage exceed 410 V(double for 400 V class)|
||**Undervoltage**|Stops when DC bus voltage is approx. 190 V or less (double for 400 V class)<br>(approx. 150 V or less for single-phase series)|
||**Momentary power loss**|Following items are selectable: not provided (stop if power loss is 15 ms or longer), continuous operation if power loss is<br>approx. 0.5 s or shorter, continuous operation|
||**Cooling fin overheat**|Protected bythermistor|
||**Stallprevention level**|Stallprevention duringacceleration/deceleration and constant speed operation|
||**Ground fault**|Protected byelectronic circuit(operation level is approx. 250% of rated output current)|
||**Power charge indication**|Indicates until the main circuit voltage reaches 50 V.|
|**Ambient conditions**|**Degree ofprotection**|IP20, NEMA1|
||**Cooling**|Cooling fan is provided for 200 V, 0.75 kW (1HP) (3/single-phase)<br>400 V, 1.5 kW(2HP) (3-phase), others are self-cooling|
||**Ambient humidity**|95% RH or less (without condensation)|
||**Storage temperature**|-20 ºC..+60 ºC (short-term temperature during transportation)|
||**Installation**|Indoor (no corrosive gas, dust, etc.)|
||**Installation height**|Max. 1000 m|
||**Vibration**|Up to 9.8 m/s2at 10 to less than 20 Hz, Up to 6.37 m/s2at 20 to 50 Hz|



**V1000** 

3 

## omrRON ~~PO~~ **Dimensions** 

## **IP20 type** 

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Figure 1 Figure 2<br>W1 2-M4 t1 W1 4-M4<br>ee<br>W D1 W D1 t1<br>D<br>D<br>H1 H H1 H<br>H2 H2<br>**----- End of picture text -----**<br>


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Ce Dimensions in mm<br>Voltage class motor output kWMax. applicable  Inverter model VZA@ Figure W1 H1 W H D t1 H2 D1 H3 H4 Weight<br>kg<br>ee 0.12 B0P1 76 3 6.5 0.6<br>0.25 B0P2 1 56 68 0.7<br>0.55 B0P4 108 38.5 1.0<br>ee | | | | ||<br>Single-phase  1.1 B0P7 118 128 137.5 5 - - 1.7<br>200 V 96 108  58<br>1.5 B1P5 154 5 1.8<br>2<br>2.2 B2P2 128 140 163 2.4<br>65<br>es——— 4.0 B4P0  ae| 158 | ||_ 170 |=i 180 | |rc] | | [|] 3.0<br>0.12 20P1 0.6<br>76 3 6.5<br>0.25 20P2 0.6<br>1 56 68<br>0.55 20P4 108 0.9<br>es | | 38.5 |<br>————— 1.1 20P7 118 ne 128 128 5 - - = 1.1<br>1.5 21P5 129 5 1.3<br>Three-phase  2.2 22P2 2 96 108 137.5 58 1.4<br>200 V<br>4.0 24P0 128 140 143 65 2.1<br>es || | | | | || ||<br>5.5 25P5 3.8<br>122 248 140 254 140 6 55 13<br>7.5 27P5 6.2 3.8<br>3 -<br>11 2011 160 284 180 290 163 8 75 5.5<br>15<br>e 15 e 2015 | 192 | 336 f e 220 358 le 187 |—+— 7 | 78 || 7.2 |_| 9.2<br>0.37 40P2 81 10 0.8<br>0.55 40P4 99 28 1.0<br>—— |<br>1.1 40P7 137.5 1.4<br>96 108<br>1.5 41P5 2 118 128 5 5 - - 1.5<br>—— = 58<br>2.2 42P2 154 1.5<br>Three-phase400 V ee 3.0 43P0 SITE 1.5<br>4.0 44P0 128 140 143 65 2.1<br>i 5.5 45P5 122 248 140 254 7 140 6 13 6 || 3.8<br>7.5 47P5 55 6.2 3.8<br>3 -<br>11 4011 143 5.2<br>160 284 180 290 8 15 6<br>15 4015 163 75 5.5<br>ee ee<br>**----- End of picture text -----**<br>


## **V1000 + Option board (Communication and 24 VDC power supply)** 

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34 34<br>128<br>8<br>11<br>**----- End of picture text -----**<br>


Communication option boards                                                                              PS-V10S                                                PS-V10M 24 VDC Power supply Options 

Frequency inverters 

4 

## **Built-in filter** 

|**VZA@**<br>~~pe~~|**Dimensions in mm**<br>~~pe~~|**Dimensions in mm**<br>~~pe~~|**Dimensions in mm**<br>~~pe~~|**Dimensions in mm**<br>~~pe~~|**Dimensions in mm**<br>~~pe~~|**Dimensions in mm**<br>~~pe~~|
|---|---|---|---|---|---|---|
||**W**<br>~~pe~~|**H**<br>~~pe~~|**H1**<br>~~pe~~|**D1**<br>~~pe~~|**D2**<br>~~pe~~|**D**<br>~~pe~~|
|B0P1<br>~~pe~~|68+<br>~~pe~~|178<br>~~pe~~|50<br>~~pe~~|69.5<br>~~pe~~<br>~~a~~|6.5<br>~~pe~~<br>~~a~~|76<br>~~pe~~|
|B0P2<br>~~|~~|||||||
|B0P4<br>~~|~~||||79.5<br>~~a~~|38.5<br>~~a~~|118|
|B0P7<br>~~|~~|108|||77.9<br>~~a ~~|59.6<br> ~~a~~|137.5|
|B1P5||||89.4|64.6|154|
|B2P2|140|183|55|96.4|66.6|163|
|40P2|108|178|50|69.4|11.6|81|
|40P4<br>~~—~~||||~~a~~|29.6<br>~~a~~|99|
|40P7<br>~~—~~||||77.9<br>~~a~~|59.6<br>~~a~~|137.5|
|41P5<br>~~—~~||||94.4<br>~~a~~||154|
|42P2<br>~~—~~|||||||
|43P0<br>~~—~~|||||||
|44P0|140|183|55|76.4|66.6|143|



## **Schaffner footprint filters** 

Fig 1 Fig 2 ~~fala ho~~ . ~~li]~~ C ~~a a~~ C ~~bet va —~~ I I ~~a. CoB 4[Oo]~~ , A E ~~——~~ M G L B F H ~~Tg~~ ° J ~~Fe *e~~ H L B F N J K D E ~~Co~~ K A G D **Dimensions in mm Weight Schaffner standard model Fig A B C D E F G H I J K L M N kg** ~~pO~~ A1000-FIV1010-SE 1 ~~OOOO~~ 169 71 45 135 156 51 5.3 M5 22 56 118 M4 – – 0.44 1×200 V ~~Po)~~ A1000-FIV1020-SE 169 ~~EPET~~ 111 50 135 156 91 5.3 M5 25 96 118 M4 – – 0.8 ~~POT~~ A1000-FIV1030-SE 174 144 50 135 161 120 5.3 M5 25 128 118 M4 – – 1.2 A1000-FIV1040-SE 174 174 50 135 161 150 5.3 M5 25 158 118 M4 – – 1.6 ~~Poo PE ET Po)~~ A1000-FIV2010-SE-V1 166 ~~EE~~ 70 ~~ET~~ 40 130 156 51 5.3 M5 20 56 118 M4 – – 0.4 ~~Po)~~ A1000-FIV2020-SE 169 ~~EPET~~ 111 45 135 156 91 5.3 M5 22 96 118 M4 – – 0.58 3×200 V ~~A~~ A1000-FIV2030-SE ~~OO~~ 174 144 50 135 161 120 5.3 M5 25 128 118 M4 – – 0.9 ~~Ppo_O“~~ A1000-FIV2060-SE-V1 2 305 144 56 264 290 122 6.5 M5 ~~ELE~~ 28 ~~OO~~ 122 248 M5 289 100 2.0 ~~Po)~~ A1000-FIV2080-SE-V1 ~~PP~~ 345 182 ~~OT~~ 65 300 330 160 6.5 M6 32.5 160 285 M5 325 130 2.6 A1000-FIV2100-SE-V1 394 214 65 353 380 192 6.5 M8 32.5 192 336 M6 378 167 3.1 ~~PP PF |EET~~ A1000-FIV3005-SE 1 169 111 45 135 156 91 5.3 M5 22 96 118 M4 – – 0.5 ~~Poo EE EEE L_o“E_“L_E“E_E“_“_EEET Po)~~ A1000-FIV3010-SE ~~PE~~ 169 111 ~~EET~~ 45 135 156 91 5.3 M5 22 96 118 M4 – – 0.7 3×400 V A1000-FIV3020-SE 174 144 50 135 161 120 5.3 M5 25 128 118 M4 – – 0.9 ~~Po) PP |PET~~ A1000-FIV3030-SE-V1 2 305 144 56 264 290 122 6.5 M5 28 122 248 M5 289 100 1.8 ~~**O**~~ A1000-FIV3050-SE-V1 ~~ES~~ 345 ~~O~~ 182 65 300 330 160 6.5 ~~EE~~ M6 ~~GO~~ 32.5 160 285 M5 325 130 2.7 

**V1000** 

5 

|**Schaffner low leakage model**<br>~~ooo~~|**Schaffner low leakage model**<br>~~ooo~~|**Fig**<br>**A**<br>~~CO~~<br>~~ooo~~|**Dimensions in mm**<br>~~ooo~~|**Dimensions in mm**<br>~~ooo~~|**Dimensions in mm**<br>~~ooo~~|**Dimensions in mm**<br>~~ooo~~|**Dimensions in mm**<br>~~ooo~~|**Dimensions in mm**<br>~~ooo~~|**Dimensions in mm**<br>~~ooo~~|**Dimensions in mm**<br>~~ooo~~|**Dimensions in mm**<br>~~ooo~~|**Dimensions in mm**<br>~~ooo~~|**Weight**<br>**kg**|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
||||**B**<br>**C**<br>~~ooo~~|**D**<br>~~ooo~~|**E**<br>~~ooo~~|**F**<br>~~ooo~~|**G**<br>~~ooo~~|**H**<br>~~ooo~~|**I**<br>~~ooo~~|**J**<br>~~ooo~~|**K**<br>~~ooo~~|**L**||
|1×200 V<br>~~=~~<br>~~|~~|A1000-FIV1010-SE-LL<br>~~Po~~<br>~~=~~|1<br>166<br>166<br>171<br>174<br>191<br>166<br>172<br>166<br>166<br>171<br>304<br>344<br> ~~RR ~~<br> re ~~rs~~<br>re ~~re~~<br>~~RR~~<br>re ~~rs~~<br>re ~~es~~<br> ~~es~~<br> re ~~rs~~|70<br>40<br>~~ss~~|130<br>~~ss~~|156<br>~~sses~~|51<br>~~rs~~|5.3<br>~~rs~~|M5<br>~~Ges~~|20<br>~~QO~~|56<br>~~QO~~|118<br>~~GO~~|M4|0.33|
||A1000-FIV1020-SE-LL<br>~~Po~~<br>~~=~~<br>~~Re~~||110<br>50<br>~~ss~~<br>~~rs~~<br>~~rs~~|130<br>~~ss~~<br>~~QO~~|156<br>~~sses~~<br>~~GU~~|91<br>~~rs~~<br>~~QO(COS~~|5.3<br>~~rs~~<br>~~(COS~~|M5<br>~~Ges~~<br>~~(COS~~|25<br>~~QO~~<br>~~QO~~|96<br>~~QO~~<br>~~(OU~~|118<br>~~GO~~<br>~~(OU~~|M4|0.72|
||A1000-FIV1030-SE-LL<br>~~=~~<br>~~Re~~||142<br>50<br>~~ss~~<br>~~rs~~<br>~~rs~~|130<br>~~ss~~<br>~~QO~~|161<br>~~sses~~<br>~~GU~~|120<br>~~rs~~<br>~~QO(COS~~|5.3<br>~~rs~~<br>~~(COS~~|M5<br>~~Ges~~<br>~~(COS~~|25<br>~~QO~~<br>~~QO~~|128<br>~~QO~~<br>~~(OU~~|118<br>~~GO~~<br>~~(OU~~|M4|0.92|
||A1000-FIV1040-SE-LL<br>~~= ~~<br>~~Re ~~<br>~~Po~~<br>~~**Re**~~||176<br>50<br> ~~ss~~<br>~~rs~~<br>~~rs~~<br>~~rers~~|135<br>~~ss~~<br>~~QO~~<br>~~QR~~|161<br>~~ss es ~~<br>~~GU~~<br>~~Qs~~|150<br> ~~rs ~~<br>~~QO (COS~~<br>~~QsQs~~|5.3<br> ~~rs~~<br>~~(COS~~<br>~~Qs~~|M5<br>~~Ges~~<br>~~(COS~~<br>~~Qs~~|25<br>~~QO ~~<br>~~QO~~<br>~~**Q**~~|158<br> ~~QO ~~<br>~~(OU~~<br>~~**Q**Q~~|118<br> ~~GO~~<br>~~(OU~~<br>~~Q~~|M4|1.4|
|3×200 V<br>~~|~~|A1000-FIV2010-SE-LL<br>~~**Re**~~||80<br>40<br>~~rers~~<br>~~ss~~|130<br>~~QR~~<br>~~ss~~|181<br>~~Qs~~<br>~~sses~~|62<br>~~QsQs~~<br>~~rs~~|5.3<br>~~Qs~~<br>~~rs~~|M5<br>~~Qs~~<br>~~Ges~~|20<br>~~**Q**~~<br>~~O~~|56<br>~~**Q**Q~~<br>~~QO~~|118<br>~~Q~~<br>~~GO~~|M4|0.35|
||A1000-FIV2020-SE-LL<br>~~**Re**~~<br>~~Re~~||110<br>50<br>~~rers~~<br>~~ss~~<br>~~rs~~<br>~~rs~~<br>|130<br>~~QR~~<br>~~ss~~<br>~~QO~~|156<br>~~Qs~~<br>~~sses~~<br>~~QO~~|91<br>~~QsQs~~<br>~~rs~~<br>~~QO(cn~~|5.3<br>~~Qs~~<br>~~rs~~<br>~~(cn~~|M5<br>~~Qs~~<br>~~Ges~~<br>~~(cn~~|25<br>~~**Q**~~<br>~~O~~<br>~~QO~~|96<br>~~**Q**Q~~<br>~~QO~~<br>~~QO~~|118<br>~~Q~~<br>~~GO~~<br>~~QO~~|M4|0.65|
||A1000-FIV2030-SE-LL<br>~~**Re**~~<br>~~Re~~<br>~~re~~||142<br>50<br>~~rers~~<br>~~ss~~<br>~~rs~~<br>~~rs~~<br>~~es~~<br>~~rs~~<br>|130<br>~~QR~~<br>~~ss~~<br>~~QO~~<br>~~Gs~~|161<br>~~Qs~~<br>~~ss es ~~<br>~~QO~~<br>~~GsGs~~|120<br>~~QsQs~~<br> ~~rs ~~<br>~~QO(cn~~<br>~~QRQs~~|5.3<br>~~Qs~~<br> ~~rs~~<br>~~(cn~~<br>~~Qs~~|M5<br>~~Qs~~<br>~~Ges ~~<br>~~(cn~~<br>~~Qs~~|25<br>~~**Q**~~<br> ~~O ~~<br>~~QO~~<br>~~(QO~~|128<br>~~**Q**Q~~<br> ~~QO ~~<br>~~QO~~<br>~~(QO~~|118<br>~~Q~~<br> ~~GO~~<br>~~QO~~<br>~~(QO~~|M4|0.92|
|3×400 V<br>~~|~~|A1000-FIV3005-SE-LL<br>~~**Re**~~<br>~~Re~~<br>~~re~~<br>~~Po~~||110<br>45<br>~~re rs~~<br>~~rs~~<br>~~rs~~<br>~~es~~<br>~~rs~~<br>~~es~~<br>~~rs~~|130<br>~~QR ~~<br>~~QO~~<br>~~Gs~~<br>~~Ge~~|156<br> ~~Qs~~<br>~~QO~~<br>~~GsGs~~<br>~~GeGes~~|91<br>~~QsQs~~<br>~~QO (cn~~<br>~~QRQs~~<br>~~GesQs~~|5.3<br>~~Qs~~<br>~~(cn~~<br>~~Qs~~<br>~~Qs~~|M5<br>~~Qs~~<br>~~(cn~~<br>~~Qs~~<br>~~Qs~~|22.5<br>~~**Q**~~<br>~~QO~~<br>~~(QO~~<br>~~QO~~|96<br>~~**Q**Q~~<br>~~QO~~<br>~~(QO~~|118<br>~~Q~~<br>~~QO~~<br>~~(QO~~<br>~~(~~|M4|0.5|
||A1000-FIV3010-SE-LL<br><br>~~re~~<br>~~Po~~||110<br>45<br>~~es~~<br>~~rs~~<br>~~es~~<br>~~rs~~|130<br>~~Gs~~<br>~~Ge~~|156<br>~~GsGs~~<br>~~GeGes~~|91<br>~~QRQs~~<br>~~GesQs~~|5.3<br>~~Qs~~<br>~~Qs~~|M5<br>~~Qs~~<br>~~Qs~~|22.5<br>~~(QO~~<br>~~QO~~|96<br>~~(QO~~|118<br>~~(QO~~<br>~~(~~|M4|0.66|
||A1000-FIV3020-SE-LL<br><br>~~re ~~<br>~~Po~~<br>~~Re~~||142<br>45<br>~~es~~<br>~~rs~~<br>~~es~~<br>~~rs~~<br>~~rs~~<br>~~rs~~|130<br>~~Gs~~<br>~~Ge~~<br>~~QO~~|161<br>~~GsGs~~<br>~~GeGes~~<br>~~GU~~|120<br>~~QR Qs~~<br>~~GesQs~~<br>~~QO(COS~~|5.3<br>~~Qs~~<br>~~Qs~~<br>~~(COS~~|M5<br>~~Qs~~<br>~~Qs~~<br>~~(COS~~|22.5<br>~~(QO~~<br>~~QO~~<br>~~QO~~|128<br>~~(QO~~<br>~~(OU~~|118<br>~~(QO~~<br>~~(~~<br>~~(OU~~|M4|0.85|
||A1000-FIV3030-SE-LL<br> <br>~~Po~~<br>~~Re~~||140<br>55<br>~~es~~<br>~~rs~~<br>~~rs~~<br>~~rs~~|263<br>~~Ge~~<br>~~QO~~|290<br>~~Ge Ges~~<br>~~GU~~|122<br>~~GesQs~~<br>~~QO(COS~~|6.5<br>~~Qs~~<br>~~(COS~~|M5<br>~~Qs~~<br>~~(COS~~|27.5<br>~~QO~~<br>~~QO~~|122<br>~~(OU~~|248<br>~~(~~<br>~~(OU~~|M5|1.85|
||A1000-FIV3050-SE-LL<br>~~Re ~~<br>~~Po~~||180<br>55<br>~~rs~~<br>~~rs~~|300<br>~~QO~~|330<br>~~GU~~|160<br>~~QO (COS~~|6.5<br>~~(COS~~|M6<br>~~(COS~~|27.5<br>~~QO~~|160<br>~~(OU~~|285<br>~~(OU~~|M5|2.65|



## **Rasmi footprint filters** 

**Rasmi standard and low leakage model** ~~CO~~ **Dimensions in mm Weight W H L X Y M kg** ~~eee~~ A1000-FIV1010-RE@ 71 45 169 156 51 M4 0.6 1x200 V ~~es~~ A1000-FIV1020-RE@ 111 50 169 156 91 M4 1.0 A1000-FIV1030-RE@ 144 50 174 161 120 M4 1.2 ~~Ce RD ED ODOO QO 0 rseee~~ A1000-FIV1040-RE@ 174 ~~**r** seers~~ 50 ~~ee~~ 174 ~~DDer~~ 161 150 M4 ~~ee~~ 1.5 ~~Rs~~ A1000-FIV2010-RE@ 82 ~~GO~~ 50 194 ~~GQ~~ 181 62 M4 1.0 ~~es~~ A1000-FIV2020-RE@ 111 50 169 156 91 M4 1.1 A1000-FIV2030-RE@ 144 50 174 161 120 M4 1.2 3x200 V ~~Ce RD ED ODOO QO rs~~ A1000-FIV2060-RE@ ~~rs~~ 150 52 ~~Ds~~ 320 290 122 M5 2.8 ~~Rs~~ A1000-FIV2080-RE@ 188 ~~DO~~ 62 362 ~~GQ~~ 330 160 M5 4.5 ~~rs~~ A1000-FIV2100-RE@ ~~nD~~ 220 ~~nD~~ 62 ~~OD~~ 415 ~~OO~~ 380 ~~QO~~ 192 M6 4.5 ~~rs~~ A1000-FIV3005-RE@ ~~nD~~ 111 45 ~~DD~~ 169 ~~QO~~ 156 91 M4 1.0 ~~rs~~ A1000-FIV3010-RE@ ~~rs~~ 111 45 ~~Ds~~ 169 156 91 M4 1.0 3x400 V ~~Rs~~ A1000-FIV3020-RE@ 144 ~~DO~~ 50 174 ~~GQ~~ 161 120 M4 1.7 ~~es~~ A1000-FIV3030-RE@ ~~RD~~ 150 ~~ED~~ 52 ~~OD~~ 306 ~~OO~~ 290 ~~QO~~ 122 M5 2.0 ~~rs~~ A1000-FIV3050-RE@ 182 ~~DD~~ 62 ~~RD~~ 357 ~~OO~~ 330 ~~fO~~ 160 M5 2.8 

## **Remote LCD operator** 

**==> picture [270 x 163] intentionally omitted <==**

**----- Start of picture text -----**<br>
Installation holes<br>12.2 1.6 (0.06) (2-M3 screws, depth 5 (0.19))<br>(0.48)<br>| | —<br>Gi | 7 2 :<br><1><br>60 (2.36) 7.9 44 (1.73)<br>(0.31)<br>minimum 50 (1.96) Unit : mm (in)<br>LY pL Le<br>)(3.5490  )(3.0778<br>15<br> (0.59)<br>**----- End of picture text -----**<br>


Frequency inverters 

6 

## **Input AC Reactor** 

## **Single-phase** 

|**Voltage**|**Reference**|**Dimensions**|**Dimensions**|**Dimensions**|**Dimensions**|**Dimensions**|**Dimensions**|**Dimensions**|**Dimensions**|**Weight**<br>**kg**|
|---|---|---|---|---|---|---|---|---|---|---|
|||**A**|**B**|**C**|**D**|**E**|**F**|**G**|**H**||
|200 V|AX-RAI02000070-DE|84|113|96|101|66|5|7.5|2|1.22|
||AX-RAI01700140-DE|84|113|116|101|66|5|7.5|2|1.95|
||AX-RAI01200200-DE|84|113|131|101|66|5|7.5|2|2.55|
||AX-RAI00630240-DE|84|113|116|101|66|5|7.5|2|1.95|



## **Three-phase** 

|**Voltage**|**Reference**<br>~~ee~~|**Dimensions**|**Dimensions**|**Dimensions**|**Dimensions**|**Dimensions**|**Dimensions**|**Weight**<br>**kg**|
|---|---|---|---|---|---|---|---|---|
|||**A**<br>~~es~~|**B2**<br>~~es~~|**C2**<br>~~es~~|**D**|**E**|**F**||
|200 V|AX-RAI02800080-DE <br>~~ee~~<br>~~ee~~|120<br>~~es~~<br>~~es~~|70<br>~~es~~<br>~~ee~~|120<br>~~es~~|80|52|5.5|1.78|
||AX-RAI00880200-DE <br>~~ee ~~<br>~~ee~~|120<br> ~~es ~~<br>~~es~~|80<br> ~~es~~<br>~~ee~~|120<br>~~es~~|80|62|5.5|2.35|
||AX-RAI00350335-DE <br>~~ee ~~|180<br> ~~es ~~<br>~~es~~|85<br> ~~ee~~<br>~~ee~~|190|140|55|6|5.5|
||AX-RAI00180670-DE <br>~~ee~~|180<br>~~ee~~<br>~~es~~|85<br>~~ee~~<br>~~ee~~|190<br>~~ee~~|140<br>~~ee~~|55<br>~~ee~~|6<br>~~ee~~|5.5<br>~~ee~~|
|400 V|AX-RAI07700050-DE <br>~~ee~~|120<br>~~es ~~<br>~~ee~~|70<br> ~~ee~~<br>~~es~~|120<br>~~ee~~|80|52|5.5|1.78|
||AX-RAI03500100-DE <br>~~ee~~|120<br>~~ee~~|80<br>~~es~~|120<br>~~ee~~|80|62|5.5|2.35|
||AX-RAI01300170-DE <br>~~ee ~~<br>~~ee~~|120<br> ~~ee ~~<br>~~es~~|80<br> ~~es ~~<br>~~es~~|120<br> ~~ee~~|80|62|5.5|2.50|
||AX-RAI00740335-DE <br>~~ee~~|180<br>~~es~~|85<br>~~es~~|190|140|55|6|5.5|



## **DC Reactor** 

|**Voltage**|**Reference**|**Dimensions**|**Dimensions**|**Dimensions**|**Dimensions**|**Dimensions**|**Dimensions**|**Dimensions**|**Dimensions**|**Weight**<br>**kg**|
|---|---|---|---|---|---|---|---|---|---|---|
|||**A**|**B**|**C**|**D**|**E**|**F**|**G**|**H**||
|200 V<br>~~fT~~<br>~~fo~~|AX-RC21400016-DE|84|113<br>~~7~~|96|101<br>~~7~~|66|5|7.5|2|1.22|
||AX-RC10700032-DE||||||||||
||AX-RC06750061-DE|||105<br>~~7~~||||||1.60<br>~~Py~~|
||AX-RC03510093-DE<br>~~fT~~||||||||||
||AX-RC02510138-DE<br>~~fT~~|||116<br>~~7~~||||||1.95<br>~~Py~~|
||AX-RC01600223-DE<br>~~fT~~|108|135<br>~~7~~|124<br>~~7~~|120<br>~~7~~|82|6.5|9.5|9.5|3.20<br>~~Py~~|
||AX-RC01110309-DE|120|152|136|135|94|7||-|5.20|
||AX-RC00840437-DE|||146||||||6.00|
||AX-RC00590614-DE<br>~~fo~~|150|177<br>~~7~~|160<br>~~7~~|160<br>~~7~~|115||2||11.4<br>~~fl~~|
||AX-RC00440859-DE<br>~~fo~~|||182.6<br>~~7~~||||||14.3<br>~~fl~~|
|400 V<br>~~fo~~<br>~~-~~<br>~~fT~~|AX-RC43000020-DE<br>~~fo~~<br>~~|~~<br>~~-~~|84<br>~~|~~<br>~~ee~~|113<br>~~7~~<br>~~_~~<br>~~a~~<br>~~7~~<br>~~Pe~~|96<br>~~7~~<br>~~_~~|101<br>~~7~~<br>~~_~~<br>~~a~~<br>~~7~~<br>~~eeee~~|66|5|7.5|2|1.22<br>~~fl~~|
||AX-RC27000030-DE<br>~~-~~|||105||||||1.60|
||AX-RC14000047-DE<br>~~-~~||||||||||
||AX-RC10100069-DE<br>~~|~~<br>~~fT~~|||116<br>~~a~~||||||1.95|
||AX-RC08250093-DE<br>~~fT~~|||131<br>~~a~~<br>~~7~~<br>~~ee~~||||||2.65<br>~~fT~~|
||AX-RC06400116-DE<br>~~fT~~<br>~~re~~|108<br>~~re~~<br>~~ee~~|135<br>~~a~~<br>~~re~~<br>~~Pe~~|133<br>~~a~~<br>~~re~~<br>~~ee~~|120<br>~~a~~<br>~~re~~<br>~~eeee~~|82<br>~~re~~|6.5<br>~~re~~|9.5|9.5|3.70|
||AX-RC04410167-DE<br>~~oO~~|120<br>~~ee ~~|152<br> ~~Pe ~~<br>~~a~~|136<br> ~~ee~~<br>~~a~~|135<br>~~ee ee~~<br>~~a~~|94|7||-|5.20<br>~~Tl~~|
||AX-RC03350219-DE<br>~~oO~~|||146<br>~~a~~||||||6.00<br>~~Tl~~|
||AX-RC02330307-DE<br>~~oO~~|150|177<br>~~a~~<br>~~7~~|160<br>~~a~~|160<br>~~a~~<br>~~7~~|115|7|2||11.4<br>~~Tl~~|
||AX-RC01750430-DE<br>~~[~~|||183<br>~~7~~||||||14.3|



**V1000** 

7 

## **Output AC Reactor** 

**==> picture [297 x 199] intentionally omitted <==**

**----- Start of picture text -----**<br>
Voltage Reference Dimensions Weight<br>A B2 C2 D E F kg<br>ee AX-RAO11500026-DE ee 120 70 120 80 52 5.5 1.78<br>es AX-RAO07600042-DE 120 sd 70 120 80 52 5.5 1.78<br>Re AX-RAO04100075-DE 120 80 120 80 62 5.5 2.35<br>se AX-RAO03000105-DE 120 80 120 80 62 5.5 2.35<br>200 V es AX-RAO01830180-DE 180 85 195 140 55 6 5.5<br>AX-RAO01150220-DE 180 85 195 140 55 6 5.5<br>es es se<br>AX-RAO00950320-DE 180 85 210 140 55 6 6.5<br>——— es se ee<br>AX-RAO00630430-DE 180 95 210 140 65 6 9.1<br>es [sd] TO<br>se AX-RAO00490640-DE 180 105 210 140 75 6 11.7<br>se AX-RAO16300038-DE 120 80 120 80 62 5.5 2.35<br>es AX-RAO11800053-DE 120 es 80 se 120 80 62 5.5 2.35<br>es AX-RAO07300080-DE 180 es 85 se 195 140 ee 55 6 5.5<br>400 V ee AX-RAO04600110-DE 180 ds 85 195 ed 140 55 6 5.5<br>es AX-RAO03600160-DE 180 sd 85 210 140 55 6 6.5<br>Re AX-RAO02500220-DE 180 95 210 140 65 6 9.1<br>ne AX-RAO02000320-DE 240 110 275 200 75 6 16.0<br>**----- End of picture text -----**<br>


## **Chokes** 

|**Chokes**|||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|
|**Chokes**||||||||||X|||
|**Description**<br>AX-FER2102-RE|**D**<br>**diameter**<br>21|**Motor**<br>**KW**<br>< 2.2|**L**<br>85|**Dimensions in mm**<br>**W**<br>**H**<br>**X**<br>**Y**<br>22<br>46<br>70<br>-||||**m**<br>5|**Weight**<br>**kg**<br>0.1|Y<br>W<br>(a)<br>_—<br>(e)<br>°||Øm|
|AX-FER2515-RE|25|< 15|105|25|62|90|-|5|0.2|L<br>~~a~~|||
|AX-FER5045-RE|50|< 45|150|50|110|125|30|5|0.7||||
|||||||||||H<br>Ød|||



## **Resistor Dimensions** 

**==> picture [369 x 10] intentionally omitted <==**

**----- Start of picture text -----**<br>
AX-REM00K15xxx Fig 1 Fig 2<br>**----- End of picture text -----**<br>


**==> picture [86 x 70] intentionally omitted <==**

**----- Start of picture text -----**<br>
168<br>13 tetae?'| 182<br>ay 4<br>45<br>20<br>**----- End of picture text -----**<br>


**==> picture [494 x 112] intentionally omitted <==**

**----- Start of picture text -----**<br>
Dimensions in mm Weight<br>Type Fig.<br>L H M I T G N kg<br>eepO AX-REM00K1400-IE ee es<br>PO AX-REM00K2070-IE 105 27 36 94 - - - 0.2<br>PO AX-REM00K2120-IE 1<br>AX-REM00K2200-IE<br>AX-REM00K4035-IE 200 27 36 189 - - - 0.425<br>AX-REM00K6035-IE 320 27 36 309 - - - 0.73<br>——PO LUPs ee<br>AX-REM00K9020-IE<br>2 200 61 100 74.5 216 40 230 1.41<br>AX-REM00K9017-IE<br>ee<br>**----- End of picture text -----**<br>


Frequency inverters 

8 

## **DIN rail mounting bracket** 

**==> picture [305 x 258] intentionally omitted <==**

**----- Start of picture text -----**<br>
EZZ08122A EZZ08122B<br>_ I~___ Mm « —-§ _<br>a ' itt<br>| :hee:<br>ae ‘ ir._ bi .=<br>lemresi (=So“4 ; ee | =| r —.<br>PegaiW pe)<br>1 | ay<br>_ ==)}— Four, M4 tap Side view  Four, M4 tap<br>(common to<br>all the units)<br>EZZ08122C EZZ08122D<br>- ns a __ se 7<br>vy \- —ae |7 ‘ :—_— [—] =>1D .<br>.<br>|<br>|<br>et=" 4 — m | le = 4 .<br>RE<br>17 _.<br>Four, M4 tap Four, M4 tap<br>35.1 DIN rail<br>**----- End of picture text -----**<br>


|**Inverter VZA@**|**Inverter VZA@**|**DIN rail mounting bracket**|
|---|---|---|
|1-phase 200 VAC|B0P1/ B0P2/ B0P4|EZZ08122A|
||B0P7/ B1P5|EZZ08122B|
||B2P2|EZZ08122C|
||B4P0|EZZ08122D|
|3-phase 200 VAC|20P1/ 20P2 / 20P4/ 20P7|EZZ08122A|
||21P5/ 22P2|EZZ08122B|
||24P0|EZZ08122C|
|3-phase 400 VAC|40P2/ 40P4/ 40P7/ 41P5/ 42P2|EZZ08122B|
||44P0|EZZ08122C|



**V1000** 

9 

## **Heatsink attachment and Panel cut dimensions** 

**==> picture [158 x 191] intentionally omitted <==**

**----- Start of picture text -----**<br>
Heatsink External Mounting Attachment<br>t<br>Mounting Panel<br>D3 for more<br>**----- End of picture text -----**<br>


**==> picture [372 x 138] intentionally omitted <==**

**----- Start of picture text -----**<br>
Fig 1<br>2 - 5 Dia. Holes  Fig 2  Fig 3  Fig 4<br>4-d Tap<br>**----- End of picture text -----**<br>


**==> picture [493 x 304] intentionally omitted <==**

**----- Start of picture text -----**<br>
VZA@ Reference | Frame Panel Cutting<br>W H W1 H1 D1 D2 D3 Fig (W2) (W3) (H2) (H3) A B<br>B0P1 69.2 12 30<br>B0P2 100-034-075 68 56 2 -<br>—— B0P4 100-034-076 Lp ee 79.2 42 50<br>ee B0P7 ee 100-035-418 108 128 96 118 pp 79.5 58 3 -<br>—— B1P5 100-034-079 96 70<br>B2P2 100-034-080 140 128 98 4 -<br>es B4P0 100-036-357 ee 170 ee || 158 — 115 65 | a ee -<br>20P1<br>100-034-075 12 30<br>20P2 68 56 69.2 2 -<br>a 20P4 ee 100-034-076 | [|] 42 50<br>aSS] 20P7 100-034-077 128 118 Lee || 62 70 |<br>21P5 100-034-079 108 96 71 58 70 3 -<br>22P2 79.5<br>= 24P0 100-034-080 140 128 86.5 53.5 oe 60 4 -<br>es ee || a<br>25P5<br>100-036-300 158 286 122 272 86.6 53.4 60 9 8.5 140 255<br>27P5 9 7<br>1<br>es 2011 es 100-036-301 198 322 GO 160 308 89.6 73.4 80 || 10 || 10.5 | 180 287<br>2015 100-036-302 241 380 192 362 110.6 76.4 85 14 10.5 10.5 9 220 341<br>Rs—— e s es GG ea eeeee|<br>40P2 100-034-078 71 13.2 30<br>40P4 28 40<br>100-036-418<br>40P7 108 96 79.5 3 -<br>41P5 128 118<br>58<br>| 42P2 100-034-079 96 70<br>43P0<br>—_ 44P0 100-034-080 140 128 aan 78 65 4 -<br>ee || | | a<br>45P5 158 286 122 272 9 8.5 140 255<br>100-036-300<br>47P5 53.4 60<br>86.6 1 9 7<br>4011 198 322 160 308 10 10.5 180 287<br>100-036-301<br>4015 73.4 80<br>—s TH tt<br>1X200 V<br>3x200 V<br>3X400 V<br>**----- End of picture text -----**<br>


Frequency inverters 

10 

## **Installation** 

## **Standard connections** 

**==> picture [485 x 613] intentionally omitted <==**

**----- Start of picture text -----**<br>
DC reactor  Thermal  Braking<br>For 1-phase  (option) relay resistor<br>power supply use  (opt)<br>Link<br>R/L1 and S/L2<br>+2 +1 � B1 B2<br>Fuses<br>U<br>L1 R/L1 U/T1<br>Power  L2 Filter S/L2 V1000 V/T2 V M<br>Supply W<br>L3 T/L3 W/T3<br>Main<br>Switch Forward/Stop S1<br>Shielded<br>Cable<br>Reverse/Stop S2<br>Ground<br>External Fault S3<br>Fault Reset S4<br>Multi-speed 1 S5<br>Multi-speed 2 S6<br>+24 V 8 mA<br>MA Multi-function relay output<br>Multi-function  24 V MB Fault 250 Vac / 30 VDC (10 mA to 1A)(default setting)<br>digital inputs MC<br>(default setting) SINK<br>DIP<br>switch S3 SOURCE<br>SC<br>P1<br>During run<br>0 V<br>Multi-function photo-<br>coupler output<br>Shielded ground  P2<br>terminal Frequency agree 48 VDC, max. 50 mA<br>(default setting)<br>PC Photocoupler<br>Pulse Input common<br>RP (max. 32kHz)<br>+V Analog input power supply MP Pulse train output<br>2 kW +10.5 VDC, max. 20 mA (max. 32 kHz)<br>A1 Multi-function analog input 1 (Output frequency)<br>0 to 10 V (20 kW) Monitor outputs<br>A2 Multi-function analog input 20 to 10 V (20 kW) or AM Analog output (default setting)<br>AC 0/4 to 20 mA (250 W) AC 0 to +10 VDC (2mA)(Output frequency)<br>Multi- function pulse / analog inputs<br>(default: frequency reference) Terminal resistance<br>(120 W, 1/2 W)<br>R+<br>Safe Disable   H2 R− Memobus comm.<br>inputs S+ RS-485/422<br>H1 S− max. 115 kBps<br>HC IG<br>Symbols:<br>Use twisted pair cables Indicates a main circuit terminal<br>Use shielded twisted pair cables Indicates a control circuit terminal.<br>**----- End of picture text -----**<br>


**V1000** 

11 

## **Main circuit** 

|**Terminal**|**Name**|**Function (signal level)**|
|---|---|---|
|**R/L1, S/L2, T/L3**|Main circuit power supply input|Used to connect line power to the drive.<br>Drives with single-phase 200 V input power use only terminals R/L1 and S/L2<br>(T/L3 is not connected to anything)|
|**U/T1, V/T2, W/T3**|Inverter output|Used to connect the motor|
|**B1, B2**|Braking resistor connection|Available for connecting a braking resistor or the braking resistor unit option.|
|**+2, +1**|DC reactor connection|Remove the short bar between +2 and +1 when connecting DC reactor (option)|
|**+1, –**|DC power supply input|For power supply input (+1: positive electrode; – : negative electrode)|
||Grounding|For grounding (grounding should conform to the local grounding code.)|



## **Control Circuit** 

|**Type**|**No.**|**Signal name**|**Function**|**Signal level**|
|---|---|---|---|---|
|**Digital input signals**|**S1**|Multi-function input selection 1|Factory setting: runs when CLOSED, stops when OPEN.|24 VDC, 8 mA<br>photocoupler<br>insulation|
||**S2**|Multi-function input selection 2|Factory setting: runs when CLOSED, stops when OPEN.||
||**S3**|Multi-function input selection 3|Factory setting: External Fault (N.O.)||
||**S4**|Multi-function input selection 4|Factory setting: Fault reset||
||**S5**|Multi-function input selection 5|Factory setting: Multi-step speed cmd 1||
||**S6**|Multi-function input selection 6|Factory setting: Multi-step speed cmd 2||
||**SC**|Multi-function input selection<br>Common|Common for control signal||
|**Analog input signals**|**RP**|Main Speed Cmd Pulse Train Input|32 kHz max.||
||**FS**|Power Supply for Frequency Setting|+10 V (allowable max current 20 mA)||
||**FR1**|Main Speed Freq Ref|Voltage input or current input<br>0 to +10 VDC (20 k) (resolution 1/1000)<br>4 to 20 mA (250) or 0 to 20 mA (250) Resolution: 1/500||
||**FR2**||||
||**FC**|Frequency reference common|0 V||
|**Fast**<br>**Stop**<br>**Cmd**|**HC**|Power Supply Fast Stop Cmd|+24 V (max allowable current 10 mA)||
||**H1**|Special Digital input|Open: Fast Stop    Closed: Normal Operation||
||**H2**|Special Digital input|||
|**Digital output signals**|**MA**|NO contact output|Factory setting: “fault”|Contact capacity<br>250 VAC,<br>1 A or less<br>30 VDC, 1 A<br>or less|
||**MB**|NC Output|||
||**MC**|Relay Output common|||
||**P1**|Photocoupler output 1|Factory setting: During run|Photocoupler output:<br>+48 VDC, 50 mA or<br>less|
||**P2**|Photocoupler output 2|Factory setting: Frequency Agree||
||**PC**|Photocoupler output common|0 V||
|**Analog**<br>**output**<br>**signals**|**PM**|Pulse train Output|max 33 kHz||
||<br><br>**AM**|Analog monitor output|Factory setting: "output frequency" 0 to +10 V output Resolution: 1/1000|0 to 10 V 2 mA<br>or less<br>Resolution: 8 bits|
||**AC**|Analog monitor common|0 V||
|**RS-485/422**|**R+**|Communication input (+)|For MEMOBUS communication<br>operation by RS-485 or RS-422 communication is available.|RS-485/422<br>MEMOBUS<br>protocol|
||**R–**|Communication input (–)|||
||**S+**|Communication output (+)|||
||**S–**|Communication output (–)|||



Frequency inverters 

12 

**==> picture [361 x 175] intentionally omitted <==**

**----- Start of picture text -----**<br>
a: Space required differs by model:<br>Up to 3.7 kW: minimum 30 mm<br>5.5 kW and above: minimum 50 mm<br>a a<br>At least<br>100 mm<br>Airflow<br>At least<br>100 mm<br>Side by Side mounting<br>**----- End of picture text -----**<br>


## **Inverter heat loss** 

## **Single-phase 200 V class** 

|**Model VZA**|**Model VZA**|**B0P1**<br>**B0P2**<br>|**B0P4**<br>**B0P7**|**B1P5**|**B2P2**<br>**B**|
|---|---|---|---|---|---|
|**Inverter capacity kVA**||0.3<br>0.6|1.1<br>1.9|3.0|4.2<br>6|
|**Rated current(A) at HD**||0.8<br>1.6|3<br>5|8|11<br>1|
|**Rated current(A) at ND**||1.2<br>1.9|3.5<br>6.0|9.6|12.0|
|**Heat**<br>**loss W**<br>**HD**|**Fin**|4.3<br>7.9|16.1<br>42.5|54.8|70.7<br>11|
||**Inside unit**|7.4<br>8.9|11.5<br>19.0|25.9|34.1<br>5|
||**Total heat loss**|11.7<br>16.7|27.7<br>61.5|80.7|104.8<br>16|
|**Heat**<br>**loss W**<br>**ND**|**Fin**|4.7<br>7.2|15.1<br>26.2|48.6|57.9<br>9|
||**Inside unit**|8.4<br>9.6|14.3<br>20.8|29.0|36.3<br>5|
||**Total heat loss**|13.1<br>16.8|28.3<br>56.5|77.6|94.2<br>15|
|**Cooling Method**||Self Cooled|Fan Cooled|||



## **Three-phase 200 V class** 

|**Model VZA**|**Model VZA**|**20P1**<br>**20P2**<br>|**20P4**<br>**20P7**|**21P5**|**22P2**<br>**2**|**4P0**<br>**25P5**<br>**27P5**|**2011**|**2015**|
|---|---|---|---|---|---|---|---|---|
|**Inverter capacity kVA**||0.3<br>0.6|1.1<br>1.9|3.0|4.2<br>6|.7<br>9.5<br>13|18|23|
|**Rated current(A) at HD**||0.8<br>1.6|3<br>5|8|11<br>1|7.5<br>25<br>33|47.0|60.0|
|**Rated current(A) at ND**||1.2<br>1.9|3.5<br>6.0|9.6|12.0<br>1|9.6<br>30.0<br>40.0|56.0|69.0|
|**Heat**<br>**loss W**<br>**HD**|**Fin**|4.3<br>7.9|16.1<br>27.4|54.8|70.7<br>11|0.5<br>231.5<br>239.5|347.6|437.7|
||**Inside unit**|7.3<br>8.8|11.5<br>15.9|23.8|30.0<br>4|3.3<br>72.2<br>81.8|117.6|151.4|
||**Total heat loss**|11.6<br>16.7|27.7<br>43.3|78.6|100.6<br>15|3.8<br>303.7<br>321.3|465.2|589.1|
|**Heat**<br>**loss W**<br>**ND**|**Fin**|4.7<br>7.2|14.0<br>35.6|48.6|57.9<br>9|3.3<br>236.8<br>258.8|342.8|448.5|
||**Inside unit**|7.9<br>9.4|13.4<br>16.9|25.0|29.6<br>4|5.0<br>87.2<br>11.4|149.1|182.2|
||**Total heat loss**|12.6<br>16.6|28.5<br>43.1|73.6|87.5<br>13|8.2<br>324.0<br>370.3|491.9|630.7|
|**Cooling Method**||Self Cooled|Fan Cooled||||||



## **Three-phase 400 V class** 

|**Model VZA**|**Model VZA**|**40P2**<br>**40P4**<br>|**40P7**<br>**41P5**|**42P2**|**43P0**<br>**4**|**4P0**<br>**45P5**<br>**47P5**|**4011**|**4015**|
|---|---|---|---|---|---|---|---|---|
|**Inverter capacity kVA**||0.9<br>1.4|2.6<br>3.7|4.2|5.5<br>7|.2<br>9.2<br>14.8|18|24|
|**Rated current(A) at HD**||1.2<br>1.8|3.4<br>4.8|5.5|7.2<br>9|.2<br>14.8<br>18.0|24|31|
|**Rated current(A) at ND**||1.2<br>2.1|4.1<br>5.4|6.9|8.8<br>1|1.1<br>17.5<br>23|31|38|
|**Heat**<br>**loss W**<br>**HD**|**Fin**|19.2<br>28.9|42.3<br>70.7|81.0|84.6<br>10|7.2<br>166.0<br>207.1|266.9|319.1|
||**Inside unit**|11.4<br>14.9|17.9<br>26.2|30.7|32.9<br>4|1.5<br>62.7<br>78.1|105.9|126.6|
||**Total heat loss**|30.6<br>43.7|60.2<br>96.9|111.7|117.5<br>14|8.7<br>228.7<br>285.2|372.7|445.8|
|**Heat**<br>**loss W**<br>**ND**|**Fin**|8.2<br>15.5|26.4<br>37.5|49.7|55.7<br>7|1.9<br>170.3<br>199.5|268.6|298.7|
||**Inside unit**|9.2<br>13.1|15.8<br>20.0|26.3|29.4<br>4|3.6<br>78.1<br>105.3|142.8|152.2|
||**Total heat loss**|17.4<br>28.6|42.2<br>57.5|76.0|85.1<br>11|5.5<br>248.4<br>304.8|411.4|450.9|
|**Cooling Method**||Self Cooled|Fan Cooled||||||



**V1000** 

13 

## **Connections for braking resistor** 

**==> picture [236 x 172] intentionally omitted <==**

**----- Start of picture text -----**<br>
Thermal<br>relay Braking resistor<br>Power<br>supply MCCB MC R/L1 [B1] B2<br>S/L2 U/T1<br>T/L3 V/T2 Motor<br>W/T3<br>THRX OFF ON MC<br>VZ<br>SA<br>MC<br>THRX<br>Thermal relay switch forSA<br>external braking resistor<br>MC TRX<br>SA<br>TRX<br>FLT-A FLT-B<br>Fault contact<br>**----- End of picture text -----**<br>


## **Input AC Reactor** 

|MCCB<br>Power supply<br>AC reactor<br>VZ<br>R/L1<br>U<br>V<br>W<br>X<br>Y<br>Z<br>S/L2<br>T/L3|MCCB<br>Power supply<br>AC reactor<br>VZ<br>R/L1<br>U<br>V<br>W<br>X<br>Y<br>Z<br>S/L2<br>T/L3|MCCB<br>Power supply<br>AC reactor<br>VZ<br>R/L1<br>U<br>V<br>W<br>X<br>Y<br>Z<br>S/L2<br>T/L3|MCCB<br>Power supply<br>AC reactor<br>VZ<br>R/L1<br>U<br>V<br>W<br>X<br>Y<br>Z<br>S/L2<br>T/L3|MCCB<br>Power supply<br>AC reactor<br>VZ<br>R/L1<br>U<br>V<br>W<br>X<br>Y<br>Z<br>S/L2<br>T/L3|MCCB<br>Power supply<br>AC reactor<br>VZ<br>R/L1<br>U<br>V<br>W<br>X<br>Y<br>Z<br>S/L2<br>T/L3|MCCB<br>Power supply<br>AC reactor<br>VZ<br>R/L1<br>U<br>V<br>W<br>X<br>Y<br>Z<br>S/L2<br>T/L3|MCCB<br>Power supply<br>AC reactor<br>VZ<br>R/L1<br>U<br>V<br>W<br>X<br>Y<br>Z<br>S/L2<br>T/L3|MCCB<br>Power supply<br>AC reactor<br>VZ<br>R/L1<br>U<br>V<br>W<br>X<br>Y<br>Z<br>S/L2<br>T/L3|MCCB<br>Power supply<br>AC reactor<br>VZ<br>R/L1<br>U<br>V<br>W<br>X<br>Y<br>Z<br>S/L2<br>T/L3|MCCB<br>Power supply<br>AC reactor<br>VZ<br>R/L1<br>U<br>V<br>W<br>X<br>Y<br>Z<br>S/L2<br>T/L3|MCCB<br>Power supply<br>AC reactor<br>VZ<br>R/L1<br>U<br>V<br>W<br>X<br>Y<br>Z<br>S/L2<br>T/L3|MCCB<br>Power supply<br>AC reactor<br>VZ<br>R/L1<br>U<br>V<br>W<br>X<br>Y<br>Z<br>S/L2<br>T/L3|
|---|---|---|---|---|---|---|---|---|---|---|---|---|
|**1phase 200 V class**|||||**3phase 200 V class**||||**400 V class**||||
|**Max. ap-**<br>**plicable**<br>**motor**<br>**output kW**|**Reference**|**Current**<br>**value**<br>**A**|**Induc-**<br>**tance**<br>**mH**|**Max. ap-**<br>**plicable**<br>**motor**<br>**output kW**||**Reference**|**Current**<br>**value**<br>**A**|**Induc-**<br>**tance**<br>**mH**|**Max. ap-**<br>**plicable**<br>**motor out-**<br>**put kW**|**Reference**|**Current**<br>**value**<br>**A**|**Induc-**<br>**tance**<br>**mH**|
|0.4|AX-RAI02000070-DE|7.0|2.0|1.5||AX-RAI02800080-DE|8.0|2.8|1.5|AX-RAI07700050-DE|5.0|7.7|
|0.75|AX-RAI01700140-DE|14.0|1.7|3.7||AX-RAI00880200-DE|20.0|0.88|4.0|AX-RAI03500100-DE|10.0|3.5|
|1.5|AX-RAI01200200-DE|20.0|1.2|7.5||AX-RAI00350335-DE|33.5|0.35|7.5|AX-RAI01300170-DE|17.0|1.3|
|2.2|AX-RAI00630240-DE|24.0|0.63|11||AX-RAI00180670-DE|67.0|0.18|11|AX-RAI00740335-DE|33.5|0.74|
|-||||15||AX-RAI00091000-DE|100.0|0.09|15|AX-RAI00360500-DE|50.0|0.36|



## **DC Reactor** 

|||VZ<br>DC reactor<br>R/L1<br>+1<br>+2<br>MCCB<br>S/L2<br>T/L3|VZ<br>DC reactor<br>R/L1<br>+1<br>+2<br>MCCB<br>S/L2<br>T/L3|VZ<br>DC reactor<br>R/L1<br>+1<br>+2<br>MCCB<br>S/L2<br>T/L3|VZ<br>DC reactor<br>R/L1<br>+1<br>+2<br>MCCB<br>S/L2<br>T/L3|VZ<br>DC reactor<br>R/L1<br>+1<br>+2<br>MCCB<br>S/L2<br>T/L3|
|---|---|---|---|---|---|---|
||||**400 V class**||||
|**Reference**|**Current value**<br>**A**|**Inductance**<br>**mH**|**Max. applicable**<br>**motor output kW**|**Reference**|**Current value**<br>**A**|**Inductance**<br>**mH**|
|AX-RC21400016-DE|1.6|21.4|0.4|AX-RC43000020-DE|2.0|43.0|
|AX-RC10700032-DE|3.2|10.7|0.7|AX-RC27000030-DE|3.0|27.0|
|AX-RC06750061-DE|6.1|6.75|1.5|AX-RC14000047-DE|4.7|14.0|
|AX-RC03510093-DE|9.3|3.51|2.2|AX-RC10100069-DE|6.9|10.1|
|AX-RC02510138-DE|13.8|2.51|3.0|AX-RC08250093-DE|9.3|8.25|
|AX-RC01600223-DE|22.3|1.60|4.0|AX-RC06400116-DE|11.6|6.40|
|AX-RC01110309-DE|30.9|1.11|5.5|AX-RC04410167-DE|16.7|4.41|
|AX-RC00840437-DE|43.7|0.84|7.5|AX-RC03350219-DE|21.9|3.35|
|AX-RC00590614-DE|61.4|0.59|11.0|AX-RC02330307-DE|30.7|2.33|
|AX-RC00440859-DE|85.9|0.44|15.0|AX-RC01750430-DE|43.0|1.75|



## **Output AC Reactor** 

|**200 V class**|**200 V class**|**200 V class**|**200 V class**|**400 V class**|**400 V class**|**400 V class**|**400 V class**|
|---|---|---|---|---|---|---|---|
|**Max. applicable**<br>**motor output kW**|**Reference**|**Current value**<br>**A**|**Inductance**<br>**mH**|**Max. applicable**<br>**motor output kW**|**Reference**|**Current value**<br>**A**|**Inductance**<br>**mH**|
|0.4|AX-RAO11500026-DE|2.6|11.50|1.5|AX-RAO16300038-DE|3.8|16.30|
|0.75|AX-RAO07600042-DE|4.2|7.60|||||
|1.5|AX-RAO04100075-DE|7.5|4.10|||||
|2.2|AX-RAO03000105-DE|10.5|3.00|2.2|AX-RAO11800053-DE|5.3|11.80|
|3.7|AX-RAO01830160-DE|16.0|1.83|4.0|AX-RAO07300080-DE|8.0|7.30|
|5.5|AX-RAO01150220-DE|22.0|1.15|5.5|AX-RAO04600110-DE|11.0|4.60|
|7.5|AX-RAO00950320-DE|32.0|0.95|7.5|AX-RAO03600160-DE|16.0|3.60|
|11|AX-RAO00630430-DE|43.0|0.63|11|AX-RAO02500220-DE|22.0|2.50|
|15|AX-RAO00490640-DE|64.0|0.49|15|AX-RAO02000320-DE|32.0|2.00|



Frequency inverters 

14 

## **Safety System** 

**==> picture [460 x 615] intentionally omitted <==**

**----- Start of picture text -----**<br>
B2 U/T1 V/T2 W/T3 Ground MF relay  output MA MB MC MF  outputP1 P2 PC MP output AM AC # R + R - S + S - IG<br>Pulse train<br>Braking  resistor photo-coupler<br>B1 RS-485/422<br>) Analog output 0 to +10 VDC (2mA)<br>- 24 V 0 V ) ) or W , 1/2 W)<br>+1 V1000 24 V 8 mA + SINK SOURCE W W Terminal resistance (120  W<br>DC reactor<br>+2 DIP  switch S3 Shielded ground terminal Pulse Input (max. 32kHz) Analog input PS+10.5 VDC, max. 20 mA MF Analog input 10 to 10 V (20 k MF Analog input 20 to 10 V (20 k0/4 to 20 mA (250<br>R/L1 S/L2 T/L3 S1 S2 S3 S4 S5 S6 SC RP +V A1 A2 AC Safe Disable  inputs H2 H1 HC<br>Power  Supply Multi-function  digital inputs<br>41 42<br>33 34<br>23 24<br>13 14<br>K1 K2<br>K1<br>T32<br>T31 Control Circuit<br>K2<br>K2 a<br>Start a K2 T22<br>K1<br>T12 K1 T21<br>T11<br>-<br>A2<br>+ TH SA<br>A1<br>V1000 safe stop application using OMRON G9SB safety relay unit complies to safety category 3 according EN 954-1 / Stop category 0 according EN60204 Ensure V1000 and safety relay are mounted in the same cabinet to exclude cross circuit between H1 and H2<br>**----- End of picture text -----**<br>


**V1000** 

15 

## **Ordering information** 

**==> picture [511 x 352] intentionally omitted <==**

**----- Start of picture text -----**<br>
Power<br>Supply<br>C<br>RS232 Communications cable with PC<br>MCCB<br>C C D<br>A RJ-45 / USB          USB Cable CX-Drive<br>Input AC  Adapter CX-One<br>Reactor C C<br>A Remote Operator Extansion Cable LCD Remote Operator<br>Filter<br>C<br>24VDC Control Board Power Supply<br>B<br>V1000 Communication Option Board<br>F<br>A<br>Mounting Accesories<br>Choke<br>E<br>Motor Braking Resistor<br>A<br>Ground DC reactor<br>A<br>Output AC Reactor<br>YASKAWA<br>USB Copy UnitCOM ERR<br>JVOP-181LOCK<br>Copy<br>Verify<br>Read<br>**----- End of picture text -----**<br>


## **V1000** 

||**Specifications**|**Specifications**|**Specifications**|**Specifications**|**Model**|**Model**|
|---|---|---|---|---|---|---|
||**Heavy Duty**||**Normal Duty**||**Standard**|**Built-in filter**|
|1x200 V|0.12 kW|0.8 A|0.18 kW|0.8 A|VZAB0P1BAA|VZAB0P1EAB|
||0.25 kW|1.6 A|0.37 kW|1.6 A|VZAB0P2BAA|VZAB0P2EAB|
||0.55 kW|3.0 A|0.75 kW|3.5 A|VZAB0P4BAA|VZAB0P4EAB|
||1.1 kW|5.0 A|1.1 kW|6.0 A|VZAB0P7BAA|VZAB0P7EAB|
||1.5 kW|8.0 A|2.2 kW|9.6 A|VZAB1P5BAA|VZAB1P5EAB|
||2.2 kW|11.0 A|3.0 kW|12.0 A|VZAB2P2BAA|VZAB2P2EAB|
||4.0 kW|17.5 A|5.5 kW|21.0 A|VZAB4P0BAA|-|
|3x200 V|0.12 kW|0.8 A|0.18 kW|0.8 A|VZA20P1BAA|-|
||0.25 kW|1.6 A|0.37 kW|1.6 A|VZA20P2BAA|-|
||0.55 kW|3.0 A|0.75 kW|3.5 A|VZA20P4BAA|-|
||1.1 kW|5.0 A|1.1 kW|6.0 A|VZA20P7BAA|-|
||1.5 kW|8.0 A|2.2 kW|9.6 A|VZA21P5BAA|-|
||2.2 kW|11.0 A|3.0 kW|12.0 A|VZA22P2BAA|-|
||4.0 kW|17.5 A|5.5 kW|21.0 A|VZA24P0BAA|-|
||5.5 kW|25.0 A|7.5 kW|30.0 A|VZA25P5FAA|-|
||7.5 kW|33.0 A|11.0 kW|40.0 A|VZA27P5FAA|-|
||11 kW|47.0 A|15.0 kW|56.0 A|VZA2011FAA|-|
||15 kW|60.0 A|18.5 kW|69.0 A|VZA2015FAA|-|
|3x400 V|0.37 kW|1.2 A|0.37 kW|1.2 A|VZA40P2BAA|VZA40P2EAB|
||0.55 kW|1.8 A|0.75 kW|2.1 A|VZA40P4BAA|VZA40P4EAB|
||1.1 kW|3.4 A|1.5 kW|4.1 A|VZA40P7BAA|VZA40P7EAB|
||1.5 kW|4.8 A|2.2 kW|5.4 A|VZA41P5BAA|VZA41P5EAB|
||2.2 kW|5.5 A|3.0 kW|6.9 A|VZA42P2BAA|VZA42P2EAB|
||3.0 kW|7.2 A|4.0 kW|8.8 A|VZA43P0BAA|VZA43P0EAB|
||4.0 kW|9.2 A|5.5 kW|11.1 A|VZA44P0BAA|VZA44P0EAB|
||5.5 kW|14.8 A|7.5 kW|17.5 A|VZA45P5FAA|-|
||7.5 kW|18.0 A|11.0 kW|23.0 A|VZA47P5FAA|-|
||11 kW|24.0 A|15.0 kW|31.0 A|VZA4011FAA|-|
||15 kW|31.0 A|18.5 kW|38.0 A|VZA4015FAA|-|



Frequency inverters 

16 

## A **Line filters** 

||**Inverter**|**Standard line filter**|**Standard line filter**|**Standard line filter**|**Standard line filter**|**Low leakage line filter**|**Low leakage line filter**|**Low leakage line filter**|**Low leakage line filter**|
|---|---|---|---|---|---|---|---|---|---|
|||**Schaffner**||**Rasmi**||**Schaffner**||**Rasmi**||
|**Voltage**|**Model VZA@**|**Reference**<br>**A1000-FIV**|**Current (A)**|**Reference**<br>**A1000-FIV**|**Current (A)**|**Reference**<br>**A1000-FIV**|**Current (A)**|**Reference**<br>**A1000-FIV**|**Current (A)**|
|1-Phase<br>200 VAC|B0P1 / B0P2 / B0P4|1010-SE|10|1010-RE|10|1010-SE-LL|10|1010-RE-LL|10|
||B0P7 / B1P5|1020-SE|20|1020-RE|20|1020-SE-LL|20|1020-RE-LL|20|
||B2P2|1030-SE|30|1030-RE|30|1030-SE-LL|24|1030-RE-LL|30|
||B4P0|1040-SE|40|1040-RE|40|1040-SE-LL|40|1040-RE-LL|40|
|3-Phase<br>200 VAC|20P1 / 20P2 / 20P4 / 20P7|2010-SE-V1|10|2010-RE|10|2010-SE-LL|10|2010-RE-LL|10|
||21P5 / 22P2|2020-SE|14|2020-RE|16|2020-SE-LL|20|2020-RE-LL|16|
||24P0|2030-SE|24|2030-RE|26|2030-SE-LL|30|2030-RE-LL|26|
||25P5 / 27P5|2060-SE-V1|52|2060-RE|60|-|-|2060-RE-LL|60|
||2011|2080-SE-V1|68|2080-RE|80|-|-|2080-RE-LL|80|
||2015|2100-SE-V1|80|2100-RE|100|-|-|2100-RE-LL|100|
|3-Phase<br>400 VAC|40P2 / 40P4|3005-SE|5|3005-RE|5|3005-SE-LL|5|3005-RE-LL|5|
||40P7 / 41P5 / 42P2 / 43P0|3010-SE|10|3010-RE|10|3010-SE-LL|10|3010-RE-LL|10|
||44P0|3020-SE|15|3020-RE|15|3020-SE-LL|15|3020-RE-LL|15|
||45P5 / 47P5|3030-SE-V1|30|3030-RE|30|3030-SE-LL|30|3030-RE-LL|30|
||4011 / 4015|3050-SE-V1|50|3050-RE|50|3050-SE-LL|50|3050-RE-LL|50|



## A **Input AC reactors** 

|**Inverter**|**Inverter**|**AC Reactor**|
|---|---|---|
|**Voltage**|**Model VZA@**|**Reference**|
|1-Phase 200 VAC|B0P1 / B0P2 / B0P4|AX-RAI02000070-DE|
||B0P7|AX-RAI01700140-DE|
||B1P5|AX-RAI01200200-DE|
||B2P2|AX-RAI00630240-DE|
||B4P0|-|
|3-Phase 200 VAC|20P1 / 20P2 / 20P4 / 20P7|AX-RAI02800080-DE|
||21P5 / 22P2 / 24P0|AX-RAI00880200-DE|
||25P5 / 27P5|AX-RAI00350335-DE|
||2011 / 2015|AX-RAI00180670-DE|
|3-Phase 400 VAC|40P2 / 40P4 / 40P7 / 41P5|AX-RAI07700050-DE|
||42P2 / 43P0 / 44P0|AX-RAI03500100-DE|
||45P5 / 47P5|AX-RAI01300170-DE|
||4011 / 4015|AX-RAI00740335-DE|



## A **DC reactors** 

|**200V 1-phase**|**200V 1-phase**|**200V 3-phase**|**200V 3-phase**|**400V 3-phase**|**400V 3-phase**|
|---|---|---|---|---|---|
|**Model VZA@**|**DC Reactor**|**Model VZA@**|**DC Reactor**|**Model VZA@**|**DC Reactor**|
|B0P1|AX-RC10700032-DE|20P1|AX-RC21400016-DE|40P2 / 40P4|AX-RC43000020-DE|
|B0P2||20P2||40P7|AX-RC27000030-DE|
|B0P4|AX-RC06750061-DE|20P4|AX-RC10700032-DE|41P5|AX-RC14000047-DE|
|B0P7|AX-RC03510093-DE|20P7|AX-RC06750061-DE|42P2|AX-RC10100069-DE|
|B1P5|AX-RC02510138-DE|21P5|AX-RC03510093-DE|43P0|AX-RC08250093-DE|
|B2P2|AX-RC01600223-DE|22P2|AX-RC02510138-DE|44P0|AX-RC06400116-DE|
|B4P0|-|24P0|AX-RC01600223-DE|45P5|AX-RC04410167-DE|
|**-**||25P5|AX-RC01110309-DE|47P5|AX-RC03350219-DE|
|||27P5|AX-RC00840437-DE|4011|AX-RC02330307-DE|
|||2011|AX-RC00590614-DE|4015|AX-RC01750430-DE|
|||2015|AX-RC00440859-DE|-||



**V1000** 

17 

## A **Chokes** 

|**Model**|**Diameter**|**Description**|
|---|---|---|
|AX-FER2102-RE|21|For 2.2 KW motors or below|
|AX-FER2515-RE|25|For 15 KW motors or below|
|AX-FER5045-RE|50|For 45 KW motors or below|



## A **Output AC reactor** 

||**Inverter**|**AC Reactor**|
|---|---|---|
|**Voltage**|**Model VZA@**|**Reference**|
|200 VAC|B0P1 / B0P2 / B0P4<br>20P1 / 20P2 / 20P4|AX-RAO11500026-DE|
||B0P7 / 20P7|AX-RAO07600042-DE|
||B1P5 / 21P5|AX-RAO04100075-DE|
||B2P2 / 22P2|AX-RAO03000105-DE|
||B4P0 / 24P0|AX-RAO01830160-DE|
||25P5|AX-RAO01150220-DE|
||27P5|AX-RAO00950320-DE|
||2011|AX-RAO00630430-DE|
||2015|AX-RAO00490640-DE|
|400 VAC|40P2 / 40P4 / 40P7 / 41P5|AX-RAO16300038-DE|
||42P2|AX-RAO11800053-DE|
||43P0 / 44P0|AX-RAO07300080-DE|
||45P5|AX-RAO04600110-DE|
||47P5|AX-RAO03600160-DE|
||4011|AX-RAO02500220-DE|
||4015|AX-RAO02000320-DE|



## B **Communication cards** 

|**Type**|**Model**|**Description**|**Function**|
|---|---|---|---|
|Communication<br>option board|SI-N3/V|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-P3/V|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-S3/V|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.|
||SI-T3/V|MECHATROLINK-II option card|• Used for running or stopping the inverter, setting or referencing parameters, and monitoring<br>output frequency, output current, or similar items through MECHATROLINK-II communica-<br>tion with the host controller.|
||EUOP-SI-ES3/V|EtherCAT option card|• Used for running or stopping the inverter, setting or referencing parameters, and monitoring<br>output frequency, output current, or similar items through EtherCAT communication with the<br>host controller.|
||SI-EP3/V|PROFINET option card|• Used for running or stopping the inverter, setting or referencing parameters, and monitoring<br>output frequency, output current, or similar items through PROFINET communication with<br>the host controller.|



## C **Accessories** 

|**Types**|**Model**|**Description**|**Functions**|
|---|---|---|---|
|Digital<br>operator|JVOP-180|LCD remote operator|LCD Displayoperator with language support|
||A1000-CAVOP300-EE|Remote operator cable|3 meters cable for connecting remote operator|
|Accessories|JVOP-181|USB converter / USB cable|USB converter unit with copy and backup function|
||PS-V10S|24 VDC option board|24VDC control board power supply VZA-B/2/4 from 0.1 to 4 KW|
||PS-V10M||24VDC control board power supply VZA-2/4 from 5.5 to 15 KW|
||A1000-CAVPC232-EE|PC connection cable|RS232 PC tool connection cable|



## D **Computer software** 

|**Types**|**Model**|**Description**|**Installation**|
|---|---|---|---|
|Software|CX-Drive|Computer software|Configuration and monitoring software tool|
||CX-One|Computer software|Configuration and monitoring software tool|



Frequency inverters 

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E **Braking unit, braking resistor unit** 

|||**Inverter**|**Inverter**||**Braking resistor unit**|**Braking resistor unit**||
|---|---|---|---|---|---|---|---|
|**Voltage**|**Max.**<br>**motor kW**|**Inverter model VZA@**||**Connectable min.**<br>|**Inverter mounted type**<br>**(3 %ED, 10 sec max)**||**Braking**<br>**torque %**|
|||**1-phase**|**3-phase**|**resistance**|**Type AX-**|**Resist**||
|**200 V**<br>**(single-/**<br>**three-phase)**|0.12|B0P1|20P1|300|REM00K1400-IE|400|135|
||0.25|B0P2|20P2||||120|
||0.55|B0P4|20P4|200|REM00K1200-IE|200|120|
||1.1|B0P7|20P7|120|||70|
||1.5|B1P5|21P5|60|REM00K2070-IE|70|190|
||2.2|B2P2|22P2||||120|
||4.0|B4P0|24P0|32|REM00K4035-IE|35|135|
||5.5|–|25P5|16|||75|
||7.5|–|27P5|9.6|||55|
||11|–|2011||REM00K6035-IE|35|40|
||15|–|2015||REM00K9017-IE|17|55|
|**400 V**<br>**(three-phase)**|0.37|–|40P2|750|2 x REM00K1400-IE|800|270|
||0.55|–|40P4||||270|
||1.1|–|40P7|510|||270|
||1.5|–|41P5|240|REM00K1400-IE|400|130|
||2.2|–|42P2|200|REM00K2200-IE|200|130|
||3.0|–|43P0|100|REM00K2120-IE|120|215|
||4.0|–|44P0||||160|
||5.5|–|45P5|32|REM00K4035-IE|35|140|
||7.5|–|47P5||||80|
||11|–|4011|20|REM00K6035-IE|35|50|
||15|–|4015||REM00K9020-IE|20|55|



sss F **Mounting accessories** 

|**Types**|**Model**|**Description**|**Applicable models VZA@**|
|---|---|---|---|
|DIN Rail|EZZ08122A|Necessary to mount the inverter on a DIN rail|B0P1/B0P2/B0P4<br>20P1/20P2/20P4/20P7|
||EZZ08122B||B0P7/B1P5<br>21P5/22P2<br>40P2/40P4/40P7/41P5/42P2|
||EZZ08122C||B2P2<br>24P0<br>44P0|
||EZZ08122D||B4P0|
|Heatsink external mounting attachment|100-034-075|Additional items to mount the inverter with<br>the heatshink out of the panel|B0P1/B0P2<br>20P1/20P2|
||100-034-076||B0P4<br>20P4|
||100-034-077||20P7|
||100-034-078||40P2|
||100-034-079||B1P5<br>21P5/22P2<br>41P5/42P2/43P0|
||100-034-080||B2P2<br>24P0<br>44P0|
||100-036-357||B4P0|
||100-036-418||B0P7<br>40P2/40P4|
||100-036-300||25P5/27P5<br>45P5/47P5|
||100-036-301||2011<br>4011/4015|
||100-036-302||2015|



**V1000** 

19 

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. I68E-EN-03E 

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

Frequency inverters 

20