Main range of productAltivar 61 Plus product or component typeVariable speed drive device short nameATV61 product destinationSynchronous motorsAsynchronous motors product specific applicationPumping and ventilation machine assembly styleReady to useIn floor-standing enclosure with separate air flows product compositionATV61HC25N4 drive on heatsinkAn IP65 remote mounting kit for graphic display terminalA DC chokeCircuit breakerMotor terminalsA wired ready-assembled Sarel Spacial 6000 enclosureA plinth EMC filterIntegrated network number of phases3 phases rated supply voltage380...415 V +/- 10 % supply frequency50...60 Hz motor power kW250 kW, 3 phases at 380...415 V line current418 A at 400 V3 phases / 250 kW IP degree of protectionIP54 Complementary apparent power292 kVA for 400 V3 phases / 250 kW prospective line Isc50 kA with external fuses continuous output current481 A at 2.5 kHz, 400 V3 phases maximum transient current577 A for 60 s 3 phases speed drive output frequency0.1…500 Hz nominal switching frequency2.5 kHz switching frequency2...8 kHz adjustable2.5...8 kHz with derating factor speed range1…100 in open-loop mode, without speed feedback speed accuracy+/- 10 % of nominal slip 0.2 Tn to Tn without speed feedback torque accuracy+/- 15 % in open-loop mode, without speed feedback transient overtorque120 % of nominal motor torque for 60 s135 % of nominal motor torque for 2 s braking torque30 % without braking resistor<= 125 % with braking resistor asynchronous motor control profileVoltage/frequency ratio, 2 pointsVoltage/frequency ratio, 5 pointsVoltage/frequency ratio - Energy Saving, quadratic U/fFlux vector control without sensor, standard synchronous motor control profileVector control without sensor, standard regulation loopAdjustable PI regulator motor slip compensationAutomatic whatever the loadAdjustableNot available in voltage/frequency ratio (2 or 5 points)Suppressable supply voltage limits342…457 V network frequency limits47.5…63 Hz overvoltage categoryClass 3 conforming to EN 50178 local signallingLCD display unitoperation function, status and configuration: output voltage<= supply voltage isolationElectrical between power and control type of cable for external connectionIEC cable at 40 °C, copper 70 °C / PVC electrical connectionTerminal - 2.5 mm² / AWG 14 (AI1-/AI1+, AI2, AO1, R1A, R1B, R1C, R2A, R2B, LI1...LI6, PWR) Terminal M10 - 2 x 300 mm² (L1/R, L2/S, L3/T) Terminal M12 - 4 x 240 mm² (U/T1, V/T2, W/T3) motor recommanded cable cross section2 (3 x 150) mm² short-circuit protection630 A fuse protection type gI - power supply upstream supplyExternal supply: 24 V (19…30 V)DC, <1 AInternal supply for reference potentiometer: 10 V (10…11 V)DC, <10 AInternal supply: 24 V (21…27 V)DC, <100 A analogue input number2 analogue input typeAI2 software-configurable voltage: 0...10 V DC, 24 V max, impedance: 30 kOhm, sampling time: 1.5…2.5 ms, resolution: 11 bitsAI1-/Al1+ bipolar differential voltage: +/- 10 V DC, 24 V max, sampling time: 1.5…2.5 ms, resolution: 11 bits + signAI2 software-configurable current: 0...20 mA/4...20 mA, impedance: 250 Ohm, sampling time: 1.5…2.5 ms, resolution: 11 bits analogue output number1 analogue output typeSoftware-configurable voltage: (AO1) 0...10 V DC - 470 Ohm - sampling time: 1.5…2.5 ms - resolution: 10 bitsSoftware-configurable current: (AO1) 0...20 mA/4...20 mA - 500 Ohm - sampling time: 1.5…2.5 ms - resolution: 10 bits discrete output number2 discrete output typeConfigurable relay logic: (R1A, R1B, R1C)NO/NC - 6.5...7.5 ms - 100000 cyclesConfigurable relay logic: (R2A, R2B)NO - 6.5...7.5 ms - 100000 cycles minimum switching current3 mA at 24 V DC (configurable relay logic) maximum switching current5 A at 250 V AC on resistive load - cos phi = 1 for configurable relay logic2 A at 30 V DC on inductive load - L/R = 7 ms for configurable relay logic5 A at 30 V DC on resistive load - L/R = 0 ms for configurable relay logic2 A at 250 V AC on inductive load - cos phi = 0.4 for configurable relay logic discrete input number7 discrete input typeProgrammable (LI1...LI5) at 24 V DC <= 30 V level 1 PLC 3.5 kOhm (duration=1.5…2.5 ms)Switch-configurable (LI6) at 24 V DC <= 30 V level 1 PLC 1.5 kOhm (duration=1.5…2.5 ms)Safety input (PWR) at 24 V DC <= 30 V 1.5 kOhm discrete input logicPositive (PWR), 0...2 V (state 0), 17...30 V (state 1)Positive (LI1...LI6), 0...5 V (state 0), 11...30 V (state 1)Negative (LI1...LI6), 16...30 V (state 0), 0...10 V (state 1) acceleration and deceleration rampsS, U or customizedLinear adjustable separately from 0.01 to 9000 s braking to standstillBy DC injection, <60 s protection typeOverheating protection: driveThermal protection: driveShort-circuit between motor phases: driveInput phase breaks: driveOvercurrent between output phases and earth: driveOvervoltages on the DC bus: driveBreak on the control circuit: driveAgainst exceeding limit speed: driveLine supply undervoltage: driveLine supply overvoltage: driveAgainst input phase loss: driveThermal protection: motorMotor phase break: motorPower removal: drivePower removal: motor dielectric strength3535 V DC between earth and power terminals5092 V DC between control and power terminals insulation resistance> 1 mOhm 500 V DC for 1 minute frequency resolutionDisplay unit: 0.1 HzAnalog input: 0.024/50 Hz communication port protocolCANopenModbus connector type1 RJ45 (on front face) for Modbus1 RJ45 (on terminal) for ModbusMale SUB-D 9 on RJ45 for CANopen physical interface2-wire RS 485 for Modbus transmission frameRTU for Modbus transmission rate9600 bps, 19200 bps for Modbus on front face4800 bps, 9600 bps, 19200 bps, 38.4 Kbps for Modbus on terminal20 kbps, 50 kbps, 125 kbps, 250 kbps, 500 kbps, 1 Mbps for CANopen data format8 bits, 1 stop, even parity for Modbus on front face8 bits, odd even or no configurable parity for Modbus on terminal type of polarizationNo impedance for Modbus number of addresses1…247 for Modbus1…127 for CANopen method of accessSlave CANopen operating positionVertical +/- 10 degree colour of enclosureLight grey (RAL 7035) colour of base of enclosureDark grey (RAL 7022) width800 mm height2362 mm depth642 mm net weight440 kg Environment electromagnetic compatibilityElectrostatic discharge immunity test level 3 conforming to IEC 61000-4-2Radiated radio-frequency electromagnetic field immunity test level 3 conforming to IEC 61000-4-3Electrical fast transient/burst immunity test level 4 conforming to IEC 61000-4-4Conducted radio-frequency immunity test level 3 conforming to IEC 61000-4-61.2/50 µs - 8/20 µs surge immunity test level 3 conforming to IEC 61000-4-5Voltage dips and interruptions immunity test conforming to IEC 61000-4-11 standardsEN 61800-3 environments 1 category C3EN 55011 class A group 2EN/IEC 61800-5-1EN 61800-3 environments 2 category C3EN/IEC 61800-3 product certificationsATEXGOST markingCE noise level72 dB pollution degree3 conforming to EN/IEC 61800-5-1 vibration resistance1.5 mm (f= 3…10 Hz) conforming to EN/IEC 60068-2-60.6 gn (f= 10…200 Hz) conforming to EN/IEC 60068-2-63M3 conforming to EN/IEC 60721-3-3 shock resistance4 gn for 11 ms conforming to EN/IEC 60068-2-273M2 conforming to EN/IEC 60721-3-3 environmental characteristic3C2 without condensation conforming to IEC 60721-3-33S2 without condensation conforming to IEC 60721-3-33K3 without condensation conforming to IEC 60721-3-3 relative humidity0…95 % ambient air temperature for operation0…40 °C (without)40…50 °C (with current derating of 2 % per °C) ambient air temperature for storage-25…70 °C volume of cooling air1400 m3/h operating altitude<= 1000 m without1000...3000 m with current derating 1 % per 100 m Contractual warranty Warranty18 months
User guideSizeAdd to My DocumentsATV61 Quick Start annex: SCCR and branch circuit protection (Version 03)
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Dimensions DrawingsReady to Use IP 54 EnclosureDimensions
NOTE: For each floor-standing enclosure added, allow a 4 mm/0.15 in. space for the seal.
Connections and SchemaReady to Use IP 54 EnclosureWiring DiagramA1DriveA2EnclosureL1DC chokeMMotorQ1Circuit breaker(1)Filter(2)Control(3)Relay control(4)Reference potentiometer(5)PLC
Performance CurvesReady to Use IP 54 EnclosureDerating Curves
The derating curves for the drive nominal current (In) are dependent on the temperature and switching frequency. For intermediate temperatures, interpolate between 2 curves.
NOTE: The drive will reduce the switching frequency automatically in the event of excessive temperature rise.XSwitching frequency (kHz)
NOTE: The temperatures shown correspond to the temperature of the air entering the enclosure.