Schneider Electric Altivar Process ATV630 Variable Speed Drive

Product Data Sheet

Main Specifications

Range of Product	Altivar Process ATV600
Product Specific Application	Process and utilities
Product or Component Type	Variable speed drive
Variant	Standard version
Device short name	ATV630
Mounting Mode	Wall mount
Communication Port Protocol	Ethernet, Modbus serial, Modbus TCP
[Us] rated supply voltage	500...690 V - 15...10%
Relative symmetric mains voltage tolerance	10%
Relative symmetric network frequency tolerance	5%
Nominal output current	66.0 A
IP degree of protection	IP21
Product destination	Asynchronous motors, Synchronous motors
EMC filter	Integrated 82.02 ft (25 m) IEC 61800-3 category C3
IP degree of protection (with kit)	IP00 IEC 61800-5-1, IP00 IEC 60529, IP20 with kit VW3A9706 IEC 61800-5-1, IP20 with kit VW3A9706 IEC 60529
Type of cooling	Forced convection
Supply frequency	50...60 Hz - 5...5%
Motor power kW	45 kW (500 V normal duty), 37 kW (500 V heavy duty), 55 kW (690 V normal duty), 45 kW (690 V heavy duty)
Maximum Horse Power Rating	60 hp (500 V normal duty), 50 hp (500 V heavy duty), 75 hp (690 V normal duty), 60 hp (690 V heavy duty)
Line current	65.5 A (500 V normal duty), 62.5 A (690 V normal duty), 55.6 A (500 V heavy duty), 54.4 A (690 V heavy duty)
Continuous output current	66 A (2.5 kHz normal duty), 55 A (2.5 kHz heavy duty)

Complementary Specifications

Speed drive output frequency	0.1...500 Hz
Safety function	STO (safe torque off) SIL 3
Option card	Slot A communication module: Profibus DP V1, PROFINET, DeviceNet, Modbus TCP/EtherNet/IP, CANopen daisy chain RJ45, CANopen SUB-D 9, CANopen screw terminals; Slot A/slot B digital and analog I/O extension module; Slot A/slot B output relay extension module; Slot A communication module: Ethernet IP/Modbus TCP/MD-Link, BACnet MS/TP, Ethernet Powerlink
Discrete input number	8
Discrete input type	D17, DI8 programmable as pulse input 0...30 kHz, 24 V DC (<= 30 V)
Discrete input logic	16 preset speeds; Positive logic (source) DI1...DI8 (< 5 V, > 11 V); Negative logic (sink) DI1...DI8 (> 16 V, < 10 V)
Discrete output number	0
Discrete output type	Relay outputs R1A, R1B, R1C (250 V AC 3000 mA, 30 V DC 3000 mA); Relay outputs R2A, R2C (250 V AC 5000 mA, 30 V DC 5000 mA); Relay outputs R3A, R3C (250 V AC 5000 mA, 30 V DC 5000 mA)
Analogue input number	3
Analogue input type	Al1, Al2, Al3 software-configurable voltage (0...10 V DC, 31.5 kOhm, 12 bits); Al1, Al2, Al3 software-configurable current (0...20 mA, 250 Ohm, 12 bits); Al2 voltage analog input (-10...10 V DC, 31.5 kOhm, 12 bits)
Analogue output number	2
Analogue output type	Software-configurable voltage AQ1, AQ2 (0...10 V DC, 470 Ohm, 10 bits); Software-configurable current AQ1, AQ2 (0...20 mA, 10 bits); Software-configurable current DQ-, DQ+ (30 V DC, 100 mA)
Relay output number	3
Relay output type	Configurable relay logic R1 fault relay (NO/NC, 100000 cycles); Configurable relay logic R2 sequence relay (NO, 100000 cycles); Configurable relay logic R3 sequence relay (NO, 100000 cycles)
Maximum switching current	Relay output R1, R2, R3 resistive (cos phi = 1) 3 A 250 V AC; Relay output R1, R2, R3 resistive (cos phi = 1) 3 A 30 V DC; Relay output R1, R2, R3 inductive (cos phi = 0.4, 7 ms) 2 A 250 V AC; Relay output R1, R2, R3 inductive (cos phi = 0.4, 7 ms) 2 A 30 V DC
Minimum switching current	Relay output R1, R2, R3 5 mA 24 V DC
Phase	3 phase
Physical interface	Ethernet, 2-wire RS 485
Method of access	Slave Modbus TCP
Transmission Rate	10, 100 Mbits
Transmission frame	RTU
Output voltage	<= power supply voltage
Permissible temporary current boost	1.1 x In (60 s normal duty), 1.5 x In (60 s heavy duty)
Data format	8 bits, configurable odd, even or no parity

Electrical Connection and Motor Control

Electrical Connection

Type of polarization	No impedance
Frequency resolution	Display unit 0.1 Hz, Analog input 0.012/50 Hz
Electrical connection	Control removable screw terminals 0.5...1.5 mm² AWG 20...AWG 16; Line side screw terminal 25...50 mm² AWG 4...AWG 1; Motor screw terminal 25...50 mm² AWG 4... AWG 1
Connector type	RJ45 on the remote graphic terminal (Ethernet/Modbus TCP, Modbus serial)
Exchange mode	Half duplex, full duplex, autonegotiation (Ethernet/Modbus TCP)
Number of addresses	1...247 (Modbus serial)
Supply	External supply for digital inputs 24 V DC (19...30 V), <1.25 mA (overload and short-circuit protection); Internal supply for reference potentiometer (1 to 10 kOhm) 10.5 V DC +/- 5%, <10 mA (overload and short-circuit protection); Internal supply for digital inputs and STO 24 V DC (21...27 V), <200 mA (overload and short-circuit protection)
Local signalling	3 LEDs for local diagnostic; 3 LEDs (dual colour) for embedded communication status; 4 LEDs (dual colour) for communication module status; 1 LED (red) for presence of voltage
Input compatibility	DI1...DI6 discrete input level 1 PLC IEC 61131-2; D15, D16 discrete input level 1 PLC IEC 65A-68; STOA, STOB discrete input level 1 PLC IEC 61131-2
Sampling duration	2 ms +/- 0.5 ms (DI1...DI4) - discrete input; 5 ms +/- 1 ms (DI5, DI6) - discrete input; 5 ms +/- 0.1 ms (Al1, Al2, Al3) - analog input; 10 ms +/- 1 ms (A01) - analog output
Accuracy	+/- 0.6% (Al1, Al2, Al3) for a temperature variation 60 °C analog input; +/-1% (AO1, AO2) for a temperature variation 60 °C analog output
Linearity error	Al1, Al2, Al3 +/- 0.15% of maximum value analog input; AO1, AO2 +/- 0.2% analog output
Refresh time	Relay output R1, R2, R3) 5 ms +/- 0.5 ms
Isolation	Between power and control terminals
Enclosure mounting	Wall mounted
4 quadrant operation possible	False

Motor Control

Asynchronous motor control profile	Variable torque standard, Optimized torque mode, Constant torque standard
Synchronous motor control profile	Permanent magnet motor, Synchronous reluctance motor
Maximum output frequency	500 kHz
Acceleration and deceleration ramps	Linear adjustable separately from 0.01...9999 s, S, U or customized
Motor slip compensation	Adjustable
Switching frequency	1...4.9 kHz adjustable, 2.5...4.9 kHz with derating factor
Nominal switching frequency	2.5 kHz
Braking to standstill	By DC injection
Brake chopper integrated	False

Dimensions

The following dimensions are provided for the drives:

Drives without Top Cover, With EMC Plate:

Front View: Width 320 mm (12.83 in.), Height 750 mm (29.53 in.)

Drives without Top Cover, Without EMC Plate:

Front View: Width 320 mm (12.83 in.), Height 630 mm (24.8 in.)
Side View: Depth 297 mm (11.69 in.)
Bottom View: Width 280 mm (11.02 in.), Height 605 mm (23.82 in.)

Mounting and Clearance

Proper mounting and clearance are essential for optimal performance and ventilation. The following clearances are recommended:

X1 (Top/Front Clearance): ≥ 100 mm (3.94 in.)
X2 (Bottom/Rear Clearance): ≥ 100 mm (3.94 in.)
X3 (Side Clearance): ≥ 10 mm (0.39 in.)

Diagram Description: A visual representation shows a side and front view of the drive with arrows indicating required airflow. X1 denotes clearance at the top/front, X2 at the bottom/rear, and X3 at the side.

Mounting Types

The drives can be mounted in different configurations:

Mounting Type A: Individual IP21

Diagram Description: Illustrates two drives mounted individually, with a specified clearance 'a' between them. The enclosure protection rating is IP21.

Mounting Type B: Side by Side IP20

Diagram Description: Depicts three drives installed adjacent to each other in a side-by-side arrangement. The enclosure protection rating is IP20.

Mounting Type C: Individual IP20

Diagram Description: Shows two drives mounted individually, with a specified clearance 'a' between them. The enclosure protection rating is IP20.

Clearance 'a' requirement: a ≥ 0

Connections and Schematics

Three-Phase Power Supply with Upstream Breaking via Line Contactor

Diagram Description: This schematic illustrates the three-phase power input connection. It includes a line contactor (KM1) and circuit breakers (Q2, Q3) upstream of the ATV6 drive. Notes indicate the optional use of a line choke (1) and the configuration of relay R1 for fault detection to ensure product shutdown (2).

Three-Phase Power Supply with Downstream Breaking via Contactor

Diagram Description: Similar to the upstream breaking schematic, this diagram shows the power connection with breaking components (contactor) positioned after the drive's output.

Control Block Wiring Diagram

Diagram Description: This diagram details the internal wiring of the drive's control terminals. It covers digital inputs (DI1-DI6), safe torque off (STO) terminals, analog inputs (AI1-AI3), analog outputs (AQ1-AQ2), and relay outputs (R1A, R1B, R1C for fault status; R2A, R2C and R3A, R3C for sequence control). It also shows connections for a reference potentiometer and analog signal inputs (0-10 Vdc, 0-20 mA).

Sensor Connection Note: It is possible to connect either 1 or 3 sensors on terminals Al2 or Al3.

Sink / Source Switch Configuration

The internal switch is used to adapt the operation of the logic inputs to the specific technology of the programmable controller outputs. This allows for configuration based on whether the PLC outputs use PNP transistors (requiring a 'Source' setting) or NPN transistors (requiring an 'Ext' setting).

Switch Set to SRC (Source) Position Using the Output Power Supply for the Digital Inputs

Diagram Description: Shows the digital inputs (DI1-DI6) configured for source operation, utilizing the drive's internal power supply.

Switch Set to SRC (Source) Position and Use of an External Power Supply for the DIs

Diagram Description: Illustrates the digital inputs (DI1-DI6) configured for source operation, powered by an external 24V source.

Switch Set to SK (Sink) Position Using the Output Power Supply for the Digital Inputs

Diagram Description: Shows the digital inputs (DI1-DI6) configured for sink operation, utilizing the drive's internal power supply.

Switch Set to EXT Position Using an External Power Supply for the DIs

Diagram Description: Depicts the digital inputs (DI1-DI6) configured for sink operation, powered by an external 24V source.

Performance Curves

Derating Curves

Diagram Description: This graph presents derating curves that illustrate how the drive's performance is affected by ambient temperature and switching frequency. The Y-axis represents the nominal drive current (In) as a percentage, ranging from 50% to 100%. The X-axis indicates the switching frequency (SF) in kilohertz (kHz), from 0 kHz to 5 kHz.

The curves show the derating factors for different conditions:

40 °C (104 °F) - Mounting type A, B, and C: Represented by a dashed blue line.
50 °C (122 °F) - Mounting type A, B, and C: Represented by a solid blue line.
60 °C (140 °F) - Mounting type B and C: Represented by a dotted blue line.

Key:

In: Nominal Drive Current
SF: Switching Frequency

Environmental and Safety Data

Schneider Electric is dedicated to sustainability and achieving Net Zero status by 2050 through supply chain collaborations, the use of lower-impact materials, and circularity initiatives.

Environmental Footprint

Carbon footprint (kg CO2 eq, Total Life cycle): 16484
Environmental Disclosure: Product Environmental Profile

Materials and Substances

Packaging made with recycled cardboard: Yes
Packaging without single use plastic: No
EU RoHS Directive: Pro-active compliance (Product out of EU RoHS legal scope)
SCIP Number: 94885478-b375-4334-93be-492cfc5a4813
REACH Regulation: REACH Declaration
California proposition 65: WARNING: This product can expose you to chemicals including: Lead and lead compounds, which is known to the State of California to cause cancer and birth defects or other reproductive harm. For more information go to www.P65Warnings.ca.gov

Energy Efficiency

Product contributes to saved and avoided emissions: Yes

Circularity Profile

Take-back: No
WEEE: The product must be disposed of in European Union markets following specific waste collection procedures and never placed in general rubbish bins.

Ordering and Shipping Details

Category	US1CP4E22276
Discount Schedule	CP4E
GTIN	3606481325211
Returnability	Yes

Technical Illustration - Dimensions