Variable speed drive, Altivar Machine ATV320, 0.37 kW, 380…500 V, 3 phases,
compact
| Range of Product | Altivar Machine ATV320 |
|---|---|
| Product or Component Type | Variable speed drive |
| Product Specific Application | Complex machines |
| variant | Standard version |
| Format of the drive | Compact |
| Mounting Mode | Wall mount |
| Communication Port Protocol | Modbus serial CANopen |
| Option card | Communication module, CANopen communication module, EtherCAT communication module, Profibus DP V1 communication module, PROFINET communication module, Ethernet Powerlink communication module, EtherNet/IP communication module, DeviceNet |
| [Us] rated supply voltage | 380…500 V – 15…10 % |
| nominal output current | 1.5 A |
| Motor power kW | 0.37 kW heavy duty |
| EMC filter | Class C2 EMC filter integrated |
| IP degree of protection | IP20 |
| Discrete input number | 7 |
|---|---|
| Discrete input type | STO safe torque off, 24 V DC1.5 kOhm DI1…DI6 logic inputs, 24 V DC 30 V) DI5 programmable as pulse input 0…30 kHz, 24 V DC 30 V) |
| Discrete input logic | Positive logic (source) Negative logic (sink) |
| Discrete output number | 3 |
| 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 |
| Analogue input number | 3 |
| Analogue input type | AI1 voltage 0…10 V DC 30 kOhm 10 bits AI2 bipolar differential voltage +/- 10 V DC 30 kOhm 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 |
| Analogue output number | 1 |
| Analogue output type | Software-configurable current AQ1 0…20 mA 800 Ohm 10 bits Software-configurable voltage AQ1 0…10 V DC 470 Ohm 10 bits |
| Relay output type | Configurable relay logic R1A 1 NO 100000 cycles Configurable relay logic R1B 1 NC 100000 cycles Configurable relay logic R1C Configurable relay logic R2A 1 NO 100000 cycles Configurable relay logic R2C |
| Maximum switching current | Relay output R1A, R1B, R1C resistive, cos phi = 1 3 A 250 V AC Relay output R1A, R1B, R1C resistive, cos phi = 1 3 A 30 V DC Relay output R1A, R1B, R1C, R2A, R2C inductive, cos phi = 0.4 7 ms 2 A 250 V AC Relay output R1A, R1B, R1C, R2A, R2C inductive, cos phi = 0.4 7 ms 2 A 30 V DC Relay output R2A, R2C resistive, cos phi = 1 5 A 250 V AC Relay output R2A, R2C resistive, cos phi = 1 5 A 30 V DC |
| Minimum switching current | Relay output R1A, R1B, R1C, R2A, R2C 5 mA 24 V DC |
| Method of access | Slave CANopen |
| 4 quadrant operation possible | True |
| 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 |
| Synchronous motor control profile | Vector control without sensor |
| Maximum output frequency | 0.599 kHz |
| Transient overtorque | 170…200 % of nominal motor torque |
| Acceleration and deceleration ramps | Linear U S CUS Ramp switching Acceleration/deceleration ramp adaptation Acceleration/deceleration automatic stop with DC injection |
| Motor slip compensation | Automatic whatever the load Adjustable 0…300 % Not available in voltage/frequency ratio (2 or 5 points) |
| Switching frequency | 2…16 kHz adjustable 4…16 kHz with derating factor |
| Nominal switching frequency | 4 kHz |
| Braking to standstill | By DC injection |
| Brake chopper integrated | True |
| Line current | 2.1 A 380 V heavy duty) 1.6 A 500 V heavy duty) |
| Maximum Input Current per Phase | 2.1 A |
| Maximum output voltage | 500 V |
| Apparent power | 1.4 kVA 500 V heavy duty) |
| Network Frequency | 50-60 Hz |
| Relative symmetric network frequency tolerance | 5 % |
| Prospective line Isc | 5 kA |
| Base load current at high overload | 27.5 A |