Product data sheet ATV32HU40N4 Characteristics variable speed drive ATV32 - 4 kw - 400 V - 3 phase - with heat sink Main Range of Product Altivar 32 Product or Component Variable speed drive Type Product destination Asynchronous motors Synchronous motors Product Specific Complex machines Application Function Available - Assembly style With heat sink Component name ATV32 EMC filter Class C2 EMC filter integrated Phase 3 phase Us rated supply 380...500 V - 15...10 % voltage Supply voltage limits 323550V Supply frequency 50...60 Hz - 5...5 % Network Frequency 47.5...63 Hz Motor power kW 4kW 380...480 V Maximum Horse Power 5hp 380...480 V Rating Complementary Line current 10.5A 500 V 3 phase 4kW / 5hp 13.7A 380 V 3 phase 4kW / 5hp Apparent power 9.1kVA 500 V 3 phase 4kW / 5hp Prospective line Isc 5kA 3 phase Nominal output current 9.5A 4 kHz 500 V 4kW / 5hp Maximum transient current 14.3A 60 s 4kW / 5hp Output frequency 0.00050.599kHz Nominal switching frequency 4 kHz Switching frequency 2...16 kHz adjustable Speed range 1100 asynchronous motor in open-loop mode Speed accuracy +/- 10 % of nominal slip 0.2 Tn to Tn Torque accuracy +/- 15 % Transient overtorque 170200% Braking torque <= 170 % with braking resistor Asynchronous motor control profile Voltage/Frequency ratio - Energy Saving, quadratic U/f Flux vector control without sensor, standard Voltage/Frequency ratio, 5 points Flux vector control without sensor - Energy Saving, NoLoad law Voltage/frequency ratio, 2 points Synchronous motor control profile Vector control without sensor Regulation loop Adjustable PID regulator Motor slip compensation Adjustable 0...300 % Automatic whatever the load Not available in voltage/frequency ratio (2 or 5 points) Local signalling 1 LED red drive voltage 1 LED green CANopen run 1 LED red CANopen error 1 LED red drive fault Output voltage <= power supply voltage Noise level 45dB 86/188/EEC Jan 18, 2022 1 The information provided in this documentation contains general descriptions and/or technical characteristics of the performance of the products contained herein. This documentation is not intended as a substitute for and is not to be used for determining suitability or reliability of these products for specific user applications. It is the duty of any such user or integrator to perform the appropriate and complete risk analysis, evaluation and testing of the products with respect to the relevant specific application or use thereof. Neither Schneider Electric Industries SAS nor any of its affiliates or subsidiaries shall be responsible or liable for misuse of the information contained herein.Insulation Electrical between power and control Electrical connection Screw terminal 0.5...1.5 mm, AWG 18...AWG 14 control) Removable screw terminals 1.5...2.5 mm, AWG 14...AWG 12 motor/braking resistor) Screw terminal 2.5...4 mm, AWG 12...AWG 10 power supply) Tightening torque 4.43Lbf.In (0.5N.m), 4.4 lb/ft control) 6.20Lbf.In (0.7N.m), 7.1 lb/ft motor/braking resistor) 5.31lbf.in (0.6N.m), 5.3 lb/ft power supply) Supply Internal supply for reference potentiometer (1 to 10 kOhm) 10.5 V DC +/- 5 %, <10mA overload and short-circuit protection Analogue input number 3 Analogue input type AI1 voltage 0...10 V DC 30000 Ohm 10 bits AI2 bipolar differential voltage +/- 10 V DC 30000 Ohm 10 bits AI3 current 0...20 mA (or 4-20 mA, x-20 mA, 20-x mA or other patterns by configuration) 250 Ohm 10 bits Sampling duration 2Ms AI1, AI2, AI3) - analog 2ms AO1) - analog Response time LI1...LI6 8 ms +/- 0.7 ms logic R1A, R1B, R1C 2 ms relay R2A, R2C 2 ms relay Accuracy +/- 0.2 % AI1, AI2, AI3) for a temperature of -10...60 C +/- 0.5 % AI1, AI2, AI3) for a temperature of 25 C +/- 1 % AO1) for a temperature of 25 C +/- 2 % AO1) for a temperature of -10...60 C Linearity error +/- 0.2...0.5 % of maximum value AI1, AI2, AI3) +/- 0.3 % AO1) Analogue output number 1 Analogue output type AO1 software-configurable current 0...20 mA 800Ohm 10 bits AO1 software-configurable voltage 0...10 V 470Ohm 10 bits Discrete output number 3 Discrete output type Configurable relay logic R1A, R1B, R1C) NO/NC - 100000cycles Configurable relay logic R2A, R2B) NO - 100000cycles Logic LO) Minimum switching current 5mA 24 V DC configurable relay logic Maximum switching current R1 3A 250 V AC resistive, cos phi = 1 R1 4A 30 V DC resistive, cos phi = 1 R1, R2 2A 250 V AC inductive, cos phi = 0.4 R1, R2 2A 30 V DC inductive, cos phi = 0.4 R2 5A 250 V AC resistive, cos phi = 1 R2 5A 30 V DC resistive, cos phi = 1 Discrete input number 7 Discrete input type Programmable (sink/source) LI1...LI4)24...30 V DC level 1 PLC Programmable as pulse input 20 kpps LI5)24...30 V DC level 1 PLC Switch-configurable PTC probe LI6)24...30 V DC Safe torque off STO)24...30 V DC - 1500 Ohm Discrete input logic Negative logic (sink) LI1...LI6), > 19 V, < 13 V Positive logic (source) LI1...LI6), < 5 V, > 11 V Acceleration and deceleration ramps U CUS Deceleration ramp adaptation Linear S Ramp switching Deceleration ramp automatic stop DC injection Braking to standstill By DC injection Protection type Input phase breaks drive Overcurrent between output phases and earth drive Overheating protection drive Short-circuit between motor phases drive Thermal protection drive Communication Port Protocol Modbus CANopen Connector type 1 RJ45 on front face)Modbus/CANopen Physical interface 2-wire RS 485 Modbus Transmission frame RTU Modbus Type of polarization No impedance Modbus Number of addresses 1127 CANopen 1247 Modbus 2