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ATV71H075M3S337

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$4,308.92
Special Order-Generally ships in 14 to 21 Business Days
SKU
ATV71H075M3S337

variable speed drive ATV71 - 0.75kW-1HP - 240V - EMC filter-graphic terminal

Product datasheet image
Product datasheet
User guide image
User guide
Catalogue image
Catalogue
Main
Range of product
Altivar 71
Product or component type
Variable speed drive
Product specific application
Complex, high-power machines
Component name
ATV71
Motor power kW
0.37 kW at 200...240 V single phase

0.75 kW at 200...240 V 3 phases
Motor power hp
1 hp at 200...240 V 3 phases

0.5 hp at 200...240 V single phase
Motor cable length
<= 50 m Shielded cable

<= 100 m Unshielded cable
[Us] rated supply voltage
200...240 V (- 15...10 %)
Network number of phases
3 phases

Single phase
Line current
5.3 A for 240 V 3 phases 0.75 kW / 1 hp

5.8 A for 240 V single phase 0.37 kW / 0.5 hp

6.1 A for 200 V 3 phases 0.75 kW / 1 hp

6.9 A for 200 V single phase 0.37 kW / 0.5 hp
EMC filter
Integrated
Assembly style
With heat sink
Variant
Reinforced version
Apparent power
1.4 kVA at 240 V single phase 0.37 kW / 0.5 hp

2.2 kVA at 240 V 3 phases 0.75 kW / 1 hp
Prospective line Isc
<= 5 kA, 3 phases

<= 5 kA, single phase
Nominal output current
3 A at 4 kHz 230 V single phase 0.37 kW / 0.5 hp

4.8 A at 4 kHz 230 V 3 phases 0.75 kW / 1 hp
Maximum transient current
4.5 A for 60 s single phase 0.37 kW / 0.5 hp

4.9 A for 2 s single phase 0.37 kW / 0.5 hp

7.2 A for 60 s 3 phases 0.75 kW / 1 hp

7.9 A for 2 s 3 phases 0.75 kW / 1 hp
Output frequency
0.1...599 Hz
Nominal switching frequency
4 kHz
Switching frequency
1...16 kHz adjustable

4...16 kHz with derating factor
Asynchronous motor control profile
ENA (Energy adaptation) system for unbalanced loads

Flux vector control (FVC) with sensor (current vector)

Sensorless flux vector control (SFVC) (voltage or current vector)

Voltage/frequency ratio (2 or 5 points)
Type of polarization
No impedance for Modbus
Complementary
Product destination
Asynchronous motors

Synchronous motors
Supply voltage limits
170...264 V
Supply frequency
50...60 Hz (- 5...5 %)
Network frequency
47.5...63 Hz
Speed range
1...100 for asynchronous motor in open-loop mode, without speed feedback

1...50 for synchronous motor in open-loop mode, without speed feedback

1...1000 for asynchronous motor in closed-loop mode with encoder feedback
Speed accuracy
+/- 0.01 % of nominal speed for 0.2 Tn to Tn torque variation in closed-loop mode with encoder feedback

+/- 10 % of nominal slip for 0.2 Tn to Tn torque variation without speed feedback
Torque accuracy
+/- 15 % in open-loop mode, without speed feedback

+/- 5 % in closed-loop mode with encoder feedback
Transient overtorque
220 % of nominal motor torque +/- 10 % for 2 s

170 % of nominal motor torque +/- 10 % for 60 s every 10 minutes
Braking torque
<= 150 % with braking or hoist resistor

30 % without braking resistor
Synchronous motor control profile
Vector control without speed feedback
Regulation loop
Adjustable PI regulator
Motor slip compensation
Adjustable

Automatic whatever the load

Not available in voltage/frequency ratio (2 or 5 points)

Suppressable
Local signalling
1 LED red presence of drive voltage
Output voltage
<= power supply voltage
Insulation
Electrical between power and control
Type of cable
With a NEMA Type1 kit : 3-strand UL 508 cable at 40 °C, copper 75 °C PVC

With an IP21 or an IP31 kit : 3-strand IEC cable at 40 °C, copper 70 °C PVC

Without mounting kit : 1-strand IEC cable at 45 °C, copper 70 °C PVC

Without mounting kit : 1-strand IEC cable at 45 °C, copper 90 °C XLPE/EPR
Electrical connection
AI1-/AI1+, AI2, AO1, R1A, R1B, R1C, R2A, R2B, LI1...LI6, PWR terminal 2.5 mm² / AWG 14

L1/R, L2/S, L3/T, U/T1, V/T2, W/T3, PC/-, PO, PA/+, PA, PB terminal 4 mm² / AWG 10
Tightening torque
AI1-/AI1+, AI2, AO1, R1A, R1B, R1C, R2A, R2B, LI1...LI6, PWR 0.6 N.m

L1/R, L2/S, L3/T, U/T1, V/T2, W/T3, PC/-, PO, PA/+, PA, PB 1.4 N.m / 12.3 lb.in
Supply
Internal supply for reference potentiometer (1 to 10 kOhm), 10.5 V DC +/- 5 %, <= 10 mA for overload and short-circuit protection

Internal supply, 24 V DC, voltage limits 21...27 V, <= 200 mA for overload and short-circuit protection
Analogue input number
2
Analogue input type
AI1-/Al1+ bipolar differential voltage +/- 10 V DC, input voltage 24 V max, resolution 11 bits + sign

AI2 software-configurable current 0...20 mA, impedance 242 Ohm, resolution 11 bits

AI2 software-configurable voltage 0...10 V DC, input voltage 24 V max, impedance 30000 Ohm, resolution 11 bits
Sampling duration
AI1-/Al1+ 2 ms, +/- 0.5 ms for analog input(s)

Al2 2 ms, +/- 0.5 ms for analog input(s)

LI1...LI5 2 ms, +/- 0.5 ms for discrete input(s)

LI6 (if configured as logic input) 2 ms, +/- 0.5 ms for discrete input(s)
Response time
<= 100 ms in STO (Safe Torque Off)

AO1 2 ms, tolerance +/- 0.5 ms for analog output(s)

R1A, R1B, R1C 7 ms, tolerance +/- 0.5 ms for discrete output(s)

R2A, R2B 7 ms, tolerance +/- 0.5 ms for discrete output(s)
Accuracy
AI1-/Al1+ +/- 0.6 % for a temperature variation 60 °C

AI2 +/- 0.6 % for a temperature variation 60 °C

AO1 +/- 1 % for a temperature variation 60 °C
Linearity error
AI1-/Al1+, AI2 +/- 0.15 % of maximum value

AO1 +/- 0.2 %
Analogue output number
1
Analogue output type
AO1 software-configurable current 0...20 mA, impedance 500 Ohm, resolution 10 bits

AO1 software-configurable logic output 10 V <= 20 mA

AO1 software-configurable voltage 0...10 V DC, impedance 470 Ohm, resolution 10 bits
Discrete output number
2
Discrete output type
R1A, R1B, R1C configurable relay logic NO/NC, electrical durability 100000 cycles

R2A, R2B configurable relay logic NO, electrical durability 100000 cycles
Minimum switching current
Configurable relay logic 3 mA at 24 V DC
Maximum switching current
R1, R2 on resistive load, 5 A at 250 V AC, cos phi = 1,

R1, R2 on resistive load, 5 A at 30 V DC, cos phi = 1,

R1, R2 on inductive load, 2 A at 250 V AC, cos phi = 0.4,

R1, R2 on inductive load, 2 A at 30 V DC, cos phi = 0.4,
Discrete input number
7
Discrete input type
LI6 : switch-configurable 24 V DC with level 1 PLC, impedance: 3500 Ohm

PWR : safety input 24 V DC, impedance: 1500 Ohm conforming to ISO 13849-1 level d

LI1...LI5 : programmable 24 V DC with level 1 PLC, impedance: 3500 Ohm

LI6 : switch-configurable PTC probe 0...6, impedance: 1500 Ohm
Discrete input logic
LI1...LI5 positive logic (source), < 5 V (state 0), > 11 V (state 0)

LI1...LI5 negative logic (sink), > 16 V (state 0), < 10 V (state 0)

LI6 (if configured as logic input) positive logic (source), < 5 V (state 0), > 11 V (state 0)

LI6 (if configured as logic input) negative logic (sink), > 16 V (state 0), < 10 V (state 0)
Acceleration and deceleration ramps
Automatic adaptation of ramp if braking capacity exceeded, by using resistor

Linear adjustable separately from 0.01 to 9000 s

S, U or customized
Braking to standstill
By DC injection
Protection type
Drive against exceeding limit speed

Drive against input phase loss

Drive break on the control circuit

Drive input phase breaks

Drive line supply overvoltage

Drive line supply undervoltage

Drive overcurrent between output phases and earth

Drive overheating protection

Drive overvoltages on the DC bus

Drive short-circuit between motor phases

Drive thermal protection

Motor motor phase break

Motor power removal

Motor thermal protection
Insulation resistance
> 1 mOhm at 500 V DC for 1 minute to earth
Frequency resolution
Analog input 0.024/50 Hz

Display unit 0.1 Hz
Communication port protocol
CANopen

Modbus
Connector type
1 RJ45 for Modbus on front face

1 RJ45 for Modbus on terminal

Male SUB-D 9 on RJ45 for CANopen
Physical interface
2-wire RS 485 for Modbus
Transmission frame
RTU for Modbus
Transmission rate
20 kbps, 50 kbps, 125 kbps, 250 kbps, 500 kbps, 1 Mbps for CANopen

4800 bps, 9600 bps, 19200 bps, 38.4 Kbps for Modbus on terminal

9600 bps, 19200 bps for Modbus on front face
Data format
8 bits, 1 stop, even parity for Modbus on front face

8 bits, odd even or no configurable parity for Modbus on terminal
Number of addresses
1...247 for Modbus

1...127 for CANopen
Method of access
Slave for CANopen
Marking
CE
Operating position
Vertical +/- 10 degree
Height
230 mm
Depth
175 mm
Width
130 mm
Product weight
3 kg
Option card
CC-Link communication card

Controller inside programmable card

DeviceNet communication card

Ethernet/IP communication card

Fipio communication card

I/O extension card

Interbus-S communication card

Interface card for encoder

Modbus Plus communication card

Modbus TCP communication card

Modbus/Uni-Telway communication card

Overhead crane card

Profibus DP communication card

Profibus DP V1 communication card
Environment
Vibration resistance
1.5 mm peak to peak (f = 3...13 Hz) conforming to EN/IEC 60068-2-6

1 gn (f = 13...200 Hz) conforming to EN/IEC 60068-2-6
Shock resistance
15 gn for 11 ms conforming to EN/IEC 60068-2-27
Relative humidity
5...95 % without condensation conforming to IEC 60068-2-3

5...95 % without dripping water conforming to IEC 60068-2-3
Ambient air temperature for operation
-10...50 °C without derating
Ambient air temperature for storage
-25...70 °C
Operating altitude
<= 1000 m without derating

1000...3000 m with current derating 1 % per 100 m
Noise level
43 dB conforming to 86/188/EEC
Dielectric strength
2830 V DC between earth and power terminals

4230 V DC between control and power terminals
Electromagnetic compatibility
Conducted radio-frequency immunity test conforming to IEC 61000-4-6 level 3

Electrical fast transient/burst immunity test conforming to IEC 61000-4-4 level 4

Electrostatic discharge immunity test conforming to IEC 61000-4-2 level 3

Radiated radio-frequency electromagnetic field immunity test conforming to IEC 61000-4-3 level 3

Voltage dips and interruptions immunity test conforming to IEC 61000-4-11

1.2/50 µs - 8/20 µs surge immunity test conforming to IEC 61000-4-5 level 3
Standards
EN 55011 class A group 1

EN 61800-3 environments 1 category C2

EN 61800-3 environments 2 category C2

EN/IEC 61800-3

EN/IEC 61800-5-1

IEC 60721-3-3 class 3C2

UL Type 1
Product certifications
CSA

C-Tick

GOST

NOM 117

UL
Pollution degree
2 conforming to EN/IEC 61800-5-1
IP degree of protection
IP20 on upper part without blanking plate on cover conforming to EN/IEC 60529

IP20 on upper part without blanking plate on cover conforming to EN/IEC 61800-5-1

IP21 conforming to EN/IEC 60529

IP21 conforming to EN/IEC 61800-5-1

IP41 on upper part conforming to EN/IEC 60529

IP41 on upper part conforming to EN/IEC 61800-5-1

IP54 on lower part conforming to EN/IEC 60529

IP54 on lower part conforming to EN/IEC 61800-5-1
Contractual warranty
Warranty period
18 months
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   Frequently Asked Questions and Answers

  • What supplies the power to vw3a3401 encoder interface card fitted on Altivar 71?

    The encoder interface card VW3A3401 uses an internal 5VDC supply from the drive control block. The interface card supplies 5VDC to the encoder RS422 with maximum current available up to 200mA.
    Read more

  • When does the Drive Overheat Fault (OHF) occur in Altivar 71 Drives.

    The Drive Overheat Fault (OHF) indicates that the heat sink temperature has crossed the temperature threshold. This is the information from the temperature sensor located on the heat sink, near the transistor module. When the Thermal Heat Dissipation (THD) is greater than 118% it trips in OHF. 118% is approximately 100 Deg Centigrade temperature on the heat sink. The main causes for the occurrence of this fault are: 1. Excessive ambient temperature. (Provide proper air cooling of the control roo...
    Read more

  • Altivar 61/71 what is the recommended corrective action when the motor runs in reverse with a run forward command?

    Issue: The motor is running backwards with a forward run command on the drive. Product line: Altivar ATV61 and ATV71 Environment: All models, all serial numbers Cause: The phase rotation is inverted coming out of the drive going to the motor.      Resolution: Option 1: To correct the motor rotation swap two motor leads on the drive output terminals. Option 2: Go in the simple start menu 1.1 find output phase rotation change it from ABC to ACB. Refer to the ATV61 and ATV71 programm...
    Read more

  • What does ramp increment mean for the Altivar 61/71?

    Issue:  What does ramp increment mean for the Altivar 61/71?   Product Line: Altivar 61, Altivar 71   Environment: All serial numbers   Cause: N/A   Resolution: Ramp increment is a parameter that will change the resolution of the listed parameters:  see below Inr M [Ramp increment] 0.01 - 0.1 - 1 0.1 0.01   [0.01]: Ramp up to 99.99 seconds 0.1     [0.1]: Ramp up to 999.9 seconds 1        [1]: Ramp up to 9,000 s...
    Read more

  • Will the relay output, assigned to No Drive Fault, change states on a fault if Auto restart is set to yes on VFD?

    Issue:  Will the relay output, assigned to No Drive Fault, change states on a fault if Auto restart is set to yes? Product Line:   Altivar 61 Altivar 71 ATV61  ATV71 Environment: All Cause: Define the No Drive Fault relay relationship with Auto restart function.  Resolution: The relay assigned to No Drive Fault will not change states on a fault, if Auto restart is set to YES, until the max restart time is depleted and the fault still exists.
    Read more

    • View all
Software - Released
  • file image SoMove V2.6.5 (FDT Standalone) (exe) download image`
  • file image SoMove V2.6.5 (FDT Standalone) (pdf) download image`
DTM files
  • file image Altivar DTM Library V12.8: ATV12, ATV31/312, ATV32, ATV61, ATV71, ATV LIFT, ATV212 (exe) download image`
  • file image Altivar DTM Library V12.8: ATV12, ATV31/312, ATV32, ATV61, ATV71, ATV LIFT, ATV212 (pdf) download image`
User guide
  • file image ATV71 Installation Manual 0,37 - 90 kW (pdf) download image`
  • file image ATV71 Quick Start annex: SCCR and branch circuit protection (pdf) download image`
Catalogue
  • file image Catalog: Altivar 71/71 Plus variable speed drives - English version 2014/04 (web pdf format) (pdf) download image`
Certificate
  • file image ATV71 EU DECLARATION (pdf) download image`
Product environmental
  • file image PEP Altivar 71 (0.37 to 18 kW) (pdf) download image`

Dimensions Drawings

UL Type 1/IP 20 Drives
Dimensions without Option Card



Dimensions in mm

a

b

c

G

H

K

Ø

130

230

175

113.5

220

5

5

Dimensions in in.

a

b

c

G

H

K

Ø

5.11

9.05

6.89

4.46

8.66

0.19

0.19

Dimensions with 1 Option Card (1)



Dimensions in mm

a

c1

G

H

K

Ø

130

198

113.5

220

5

5

Dimensions in in.

a

c1

G

H

K

Ø

5.11

7.79

4.46

8.66

0.19

0.19

(1) Option cards: I/O extension cards, communication cards or "Controller Inside” programmable card.

Dimensions with 2 Option Cards (1)



Dimensions in mm

a

c2

G

H

K

Ø

130

221

113.5

220

5

5

Dimensions in in.

a

c2

G

H

K

Ø

5.11

8.70

4.46

8.66

0.19

0.19

(1) Option cards: I/O extension cards, communication cards or "Controller Inside” programmable card.



Mounting and Clearance

Mounting Recommendations

Depending on the conditions in which the drive is to be used, its installation will require certain precautions and the use of appropriate accessories.

Install the unit vertically:

  • Avoid placing it close to heating elements

  • Leave sufficient free space to ensure that the air required for cooling purposes can circulate from the bottom to the top of the unit.

Clearance



Mounting Types

Type A Mounting



Type B Mounting



Type C Mounting



By removing the protective blanking cover from the top of the drive, the degree of protection for the drive becomes IP 20.

The protective blanking cover may vary according to the drive model (refer to the user guide).

The protective blanking cover must be removed from ATV 71P•••N4Z drives when they are mounted in a dust and damp proof enclosure.



Specific Recommendations for Mounting the Drive in an Enclosure
Ventilation

To ensure proper air circulation in the drive:

  • Fit ventilation grilles.

  • Ensure that there is sufficient ventilation. If there is not, install a forced ventilation unit with a filter. The openings and/or fans must provide a flow rate at least equal to that of the drive fans (refer to the product characteristics).



  • Use special filters with IP 54 protection.

  • Remove the blanking cover from the top of the drive.

Dust and Damp Proof Metal Enclosure (IP 54)

The drive must be mounted in a dust and damp proof enclosure in certain environmental conditions: dust, corrosive gases, high humidity with risk of condensation and dripping water, splashing liquid, etc.

This enables the drive to be used in an enclosure where the maximum internal temperature reaches 50°C.



Connections and Schema

Wiring Diagram Conforming to Standards EN 954-1 Category 1, IEC/EN 61508 Capacity SIL1, in Stopping Category 0 According to IEC/EN 60204-1
Three-Phase Power Supply with Upstream Breaking via Contactor



A1
ATV71 drive
KM1
Contactor
L1
DC choke
Q1
Circuit-breaker
Q2
GV2 L rated at twice the nominal primary current of T1
Q3
GB2CB05
S1, S2
XB4 B or XB5 A pushbuttons
T1
100 VA transformer 220 V secondary
(1)
Line choke (three-phase); mandatory for ATV71HC11Y…HC63Y drives (except when a special transformer is used (12-pulse)).
(2)
For ATV71HC40N4 drives combined with a 400 kW motor, ATV71HC50N4 and ATV71HC40Y…HC63Y, refer to the power terminal connections diagram.
(3)
Fault relay contacts. Used for remote signalling of the drive status.
(4)
Connection of the common for the logic inputs depends on the positioning of the SW1 switch. The above diagram shows the internal power supply switched to the “source” position (for other connection types, refer to the user guide).
(5)
There is no PO terminal on ATV71HC11Y…HC63Y drives.
(6)
Optional DC choke for ATV71H•••M3, ATV71HD11M3X…HD45M3X, ATV71•075N4…•D75N4 and ATV71P•••N4Z drives. Connected in place of the strap between the PO and PA/+ terminals. For ATV71HD55M3X, HD75M3X, ATV71HD90N4…HC50N4 drives, the choke is supplied with the drive; the customer is responsible for connecting it.
(7)
Software-configurable current (0…20 mA) or voltage (0…10 V) analog input.
(8)
Reference potentiometer.

All terminals are located at the bottom of the drive. Fit interference suppressors on all inductive circuits near the drive or connected on the same circuit, such as relays, contactors, solenoid valves, fluorescent lighting, etc.



Wiring Diagram Conforming to Standards EN 954-1 Category 1, IEC/EN 61508 Capacity SIL1, in Stopping Category 0 According to IEC/EN 60204-1
Power Section for Single-Phase Power Supply



A1
ATV71 drive
KM1
Contactor
Q1
Circuit-breaker
Q2
GV2 L rated at twice the nominal primary current of T1
(1)
Line Choke (single-phase); mandatory for ATV71HU40M3…HU75M3 drives with a 200…240 V 50/60 Hz single-phase power supply.

All terminals are located at the bottom of the drive. Fit interference suppressors on all inductive circuits near the drive or connected on the same circuit, such as relays, contactors, solenoid valves, fluorescent lighting, etc.



Wiring Diagram Conforming to Standards EN 954-1 Category 1, IEC/EN 61508 Capacity SIL1, in Stopping Category 0 According to IEC/EN 60204-1
Three-Phase Power Supply with Downstream Breaking via Switch Disconnector



A1
ATV71 drive
L1
DC choke
Q1
Circuit-breaker
Q2
Switch disconnector (Vario)
(1)
Line choke (three-phase), mandatory for ATV71HC11Y…HC63Y drives (except when a special transformer is used (12-pulse)).
(2)
For ATV71HC40N4 drives combined with a 400 kW motor, ATV71HC50N4 and ATV71HC40Y…HC63Y, refer to the power terminal connections diagram.
(3)
Fault relay contacts. Used for remote signalling of the drive status.
(4)
Connection of the common for the logic inputs depends on the positioning of the SW1 switch. The above diagram shows the internal power supply switched to the “source” position (for other connection types, refer to the user guide).
(5)
There is no PO terminal on ATV71HC11Y…HC63Y drives.
(6)
Optional DC choke for ATV71H•••M3, ATV71HD11M3X…HD45M3X, ATV71•075N4…•D75N4 and ATV71P•••N4Z drives. Connected in place of the strap between the PO and PA/+ terminals. For ATV71HD55M3X, HD75M3X, ATV71HD90N4…HC50N4 drives, the choke is supplied with the drive; the customer is responsible for connecting it.
(7)
Software-configurable current (0…20 mA) or voltage (0…10 V) analog input.
(8)
Reference potentiometer.

All terminals are located at the bottom of the drive. Fit interference suppressors on all inductive circuits near the drive or connected on the same circuit, such as relays, contactors, solenoid valves, fluorescent lighting, etc.



Wiring Diagram Conforming to Standards EN 954-1 Category 1, IEC/EN 61508 Capacity SIL1, in Stopping Category 0 According to IEC/EN 60204-1
Power Section for Single-Phase Power Supply



A1
ATV71 drive
Q1
Circuit-breaker
Q2
Switch disconnector (Vario)
(1)
Line Choke (single-phase); mandatory for ATV71HU40M3…HU75M3 drives with a 200…240 V 50/60 Hz single-phase power supply.

All terminals are located at the bottom of the drive. Fit interference suppressors on all inductive circuits near the drive or connected on the same circuit, such as relays, contactors, solenoid valves, fluorescent lighting, etc.



Wiring Diagram Conforming to Standards EN 954-1 Category 3, IEC/EN 61508 Capacity SIL2, in Stopping Category 0 According to IEC/EN 60204-1
Three-Phase Power Supply, Low Inertia Machine, Vertical Movement



A1
ATV71 drive
A2
Preventa XPS AC safety module for monitoring emergency stops and switches. One safety module can manage the “Power Removal” function for several drives on the same machine. In this case, each drive must connect its PWR terminal to its + 24 V via the safety contacts on the XPS AC module. These contacts are independent for each drive.
F1
Fuse
L1
DC choke
Q1
Circuit-breaker
S1
Emergency stop button with 2 contacts
S2
XB4 B or XB5 A pushbutton
(1)
Power supply: 24 Vdc or Vac, 48 Vac, 115 Vac, 230 Vac.
(2)
S2: resets XPS AC module on power-up or after an emergency stop. ESC can be used to set external starting conditions.
(3)
Requests freewheel stopping of the movement and activates the “Power Removal” safety function.
(4)
Line choke (three-phase), mandatory for and ATV71HC11Y…HC63Y drives (except when a special transformer is used (12-pulse)).
(5)
The logic output can be used to signal that the machine is in a safe stop state.
(6)
For ATV71HC40N4 drives combined with a 400 kW motor, ATV71HC50N4 and ATV71HC40Y…HC63Y, refer to the power terminal connections diagram.
(7)
Fault relay contacts. Used for remote signalling of the drive status.
(8)
Connection of the common for the logic inputs depends on the positioning of the SW1 switch. The above diagram shows the internal power supply switched to the “source” position (for other connection types, refer to the user guide).
(9)
Standardized coaxial cable, type RG174/U according to MIL-C17 or KX3B according to NF C 93-550, external diameter 2.54 mm /0.09 in., maximum length 15 m / 49.21 ft. The cable shielding must be earthed.
(10)
There is no PO terminal on ATV71HC11Y…HC63Y drives.
(11)
Optional DC choke for ATV71H•••M3, ATV71HD11M3X…HD45M3X, ATV71•075N4…•D75N4 and ATV71P•••N4Z drives. Connected in place of the strap between the PO and PA/+ terminals. For ATV71HD55M3X, HD75M3X, ATV71HD90N4…HC50N4 drives, the choke is supplied with the drive; the customer is responsible for connecting it.
(12)
Software-configurable current (0…20 mA) or voltage (0…10 V) analog input.
(13)
Reference potentiometer.

All terminals are located at the bottom of the drive. Fit interference suppressors on all inductive circuits near the drive or connected on the same circuit, such as relays, contactors, solenoid valves, fluorescent lighting, etc.



Wiring Diagram Conforming to Standards EN 954-1 Category 3, IEC/EN 61508 Capacity SIL2, in Stopping Category 0 According to IEC/EN 60204-1
Power Section for Single-Phase Power Supply



A1
ATV71 drive
Q1
Circuit-breaker
(4)
Line Choke (single-phase); mandatory for ATV71HU40M3…HU75M3 drives with a 200…240 V 50/60 Hz single-phase power supply.

All terminals are located at the bottom of the drive. Fit interference suppressors on all inductive circuits near the drive or connected on the same circuit, such as relays, contactors, solenoid valves, fluorescent lighting, etc.



Wiring Diagram Conforming to Standards EN 954-1 Category 3, IEC/EN 61508 Capacity SIL2, in Stopping Category 1 According to IEC/EN 60204-1
Three-Phase Power Supply, High Inertia Machine



A1
ATV71 drive
A2 (5)
Preventa XPS ATE safety module for monitoring emergency stops and switches. One safety module can manage the "Power Removal” safety function for several drives on the same machine. In this case the time delay must be adjusted on the drive controlling the motor that requires the longest stopping time. In addition, each drive must connect its PWR terminal to its + 24 V via the safety contacts on the XPS ATE module. These contacts are independent for each drive.
F1
Fuse
L1
DC choke
Q1
Circuit-breaker
S1
Emergency stop button with 2 N/C contacts
S2
Run button
(1)
Power supply: 24 Vdc or Vac, 115 Vac, 230 Vac.
(2)
Requests controlled stopping of the movement and activates the “Power Removal” safety function.
(3)
Line choke (three-phase), mandatory for ATV71HC11Y…HC63Y drives (except when a special transformer is used (12-pulse)).
(4)
S2: resets XPS ATE module on power-up or after an emergency stop. ESC can be used to set external starting conditions.
(5)
For stopping times requiring more than 30 seconds in category 1, use a Preventa XPS AV safety module which can provide a maximum time delay of 300 seconds.
(6)
The logic output can be used to signal that the machine is in a safe state.
(7)
For ATV71HC40N4 drives combined with a 400 kW motor, ATV71HC50N4 and ATV71HC40Y…HC63Y, refer to the power terminal connections diagram.
(8)
Fault relay contacts. Used for remote signalling of the drive status.
(9)
Connection of the common for the logic inputs depends on the positioning of the SW1 switch. The above diagram shows the internal power supply switched to the “source” position (for other connection types, refer to the user guide).
(10)
Standardized coaxial cable, type RG174/U according to MIL-C17 or KX3B according to NF C 93-550, external diameter 2.54 mm/0.09 in., maximum length 15 m/49.21 ft. The cable shielding must be earthed.
(11)
Logic inputs LI1 and LI2 must be assigned to the direction of rotation: LI1 in the forward direction and LI2 in the reverse direction.
(12)
There is no PO terminal on ATV71HC11Y…HC63Y drives.
(13)
Optional DC choke for ATV71H•••M3, ATV71HD11M3X…HD45M3X, ATV71•075N4…•D75N4 and ATV71P•••N4Z drives. Connected in place of the strap between the PO and PA/+ terminals. For ATV71HD55M3X, HD75M3X, ATV71HD90N4…HC50N4 drives, the choke is supplied with the drive; the customer is responsible for connecting it.
(14)
Software-configurable current (0…20 mA) or voltage (0…10 V) analog input.
(15)
Reference potentiometer.

All terminals are located at the bottom of the drive. Fit interference suppressors on all inductive circuits near the drive or connected on the same circuit, such as relays, contactors, solenoid valves, fluorescent lighting, etc.



Wiring Diagram Conforming to Standards EN 954-1 Category 3, IEC/EN 61508 Capacity SIL2, in Stopping Category 1 According to IEC/EN 60204-1
Power Section for Single-Phase Power Supply



A1
ATV71 drive
Q1
Circuit-breaker
(3)
Line Choke (single-phase); mandatory for ATV71HU40M3…HU75M3 drives with a 200…240 V 50/60 Hz single-phase power supply.

All terminals are located at the bottom of the drive. Fit interference suppressors on all inductive circuits near the drive or connected on the same circuit, such as relays, contactors, solenoid valves, fluorescent lighting, etc.



Performance Curves

Derating Curves

The derating curves for the drive nominal current (In) depend on the temperature, the switching frequency and the mounting type. For intermediate temperatures (e.g. 55°C), interpolate between 2 curves.



X
Switching frequency
(1)
Mounting type


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