Schneider ATV320U07M2C Inverter 0.75kW 1P 200-240 VAC
Rp5.603.300 Rp3.025.800 46% off!
Schneider ATV320U07M2C Inverter 0.75kW 1P 200-240 VAC
Schneider ATV320U07M2C Inverter 0.75kW Main Specification
- Altivar Machine ATV320
- Variable speed drive
- Complex machines application
- Standard version variant
- Compact format of the drive
- Wall mount mounting mode
- Communication port protocol:
- Option card communication module:
- CANopen
- EtherCAT
- Profibus DP V1
- PROFINET
- Ethernet Powerlink
- EtherNet/IP
- DeviceNet
- 15 – 10 % rated supply voltage at 200-240 V
- 4.8Â A nominal output current
- 0.75kW motor power for heavy duty
- Class C2 EMC filter integrated
- IP20 conforming to IPÂ degree of protection
- 7 discrete input
- Discrete input type:
- STO safe torque off, 24 V DC, impedance: 1.5 kOhm
- DI1-DI6 logic inputs, 24 V DC (30 V)
- DI5 programmable as pulse input: 0-30 kHz, 24 V DC (30 V)
Complementary
- Discrete input logic:
- Positive logic (source)
- Negative logic (sink)
- 3 discrete output number
- Discrete output type:
- Open collector DQ+ 0 – 1 kHz 30 V DC 100 mA
- Open collector DQ- 0 – 1 kHz 30 V DC 100 mA
- 3 analogue input number
- Analogue input type:
- AI1 voltage: 0-10 V DC, impedance: 30 kOhm, resolution 10 bits
- AI2 bipolar differential voltage: +/- 10 V DC, impedance: 30 kOhm, resolution 10 bits
- AI3 current: 0…20 mA (or 4-20 mA, x-20 mA, 20-x mA or other patterns by configuration), impedance: 250 Ohm, resolution 10 bits
- 1 analogue output number
- Analogue output type:
- Software-configurable current AQ1: 0 – 20 mA impedance 800 Ohm, resolution 10 bits
- Software-configurable voltage AQ1: 0 – 10 V DC impedance 470 Ohm, resolution 10 bits
- Configurable relay logic output type:
- R1A 1 NO electrical durability 100000 cycles
- R1B 1 NC electrical durability 100000 cycles
- R1C
- R2A 1 NO electrical durability 100000 cycles
- R2C
- Relay output maximum switching current:
- R1A, R1B, R1C on resistive load, cos phi = 1: 3 A at 250 V AC
- Relay output R1A, R1B, R1C on resistive load, cos phi = 1: 3 A at 30 V DC
- R1A, R1B, R1C, R2A, R2C on inductive load, cos phi = 0.4 and L/R = 7 ms: 2 A at 250 V AC
- Relay output R1A, R1B, R1C, R2A, R2C on inductive load, cos phi = 0.4 and L/R = 7 ms: 2 A at 30 V DC
- R2A, R2C on resistive load, cos phi = 1: 5 A at 250 V AC
- Relay output R2A, R2C on resistive load, cos phi = 1: 5 A at 30 V DC
- Relay output minimum switching current R1A, R1B, R1C, R2A, R2C: 5 mA at 24 V DC
- Slave CANopen method access
- 4 quadrant operation possible
Environment
- Asynchronous motor control profile:
- Voltage/frequency ratio, 5 points
- Flux vector control without sensor, standard
- Voltage/frequency ratio – Energy Saving, quadratic U/f
- Flux vector control without sensor – Energy Saving
- Voltage/frequency ratio, 2 points
- Vector control without sensor synchronous motor control profile
- 0.599 kHz maximum output frequency
- 170…200 % transient of nominal motor torque
- Switching frequency:
- 2 – 16 kHz adjustable
- 4 – 16 kHz with derating factor
- 4 kHz nominal switching frequency
- DC injection braking to standstill
- Brake chopper integrated
- Line current:
- 4 A at 200 V (heavy duty)
- 8.4 A at 240 V (heavy duty)
- 0.4166666666666667Â A maximum input current
- 240Â V maximum output voltage
- 2.0 kVA apparent power at 240 V (heavy duty)
- 50 – 60 Hz network frequency
- 5 % relative symmetric network frequency tolerance
- 1 kA prospective line Isc
- 33.0Â A base load current at high overload
- Safety function Safe torque off (STO)
- Self-cooled: 45.0Â W at 200 V, switching frequency 4 kHz power dissipation
- Safety function Safely Limited Speed
- Safety function Safe Stop 1 (SS1)
- 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
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