Control Techniques M700 series. 18.5/22kW. Converts 380/480 Vac +/- 10% to 400V 3ph.
Onboard Ethernet, 1 x STO Input, C3, No keypad.
V/Hz, Open Loop Rotor Flux Control for enhanced performance of induction motors, Closed Loop Rotor Flux Control of induction motors, supporting a wide range of feedback devices. Open Loop Permanent Magnet Motors Control and Closed Loop Control of Permanent Magnet AC motors. AFE for high quality power regeneration.
Frame Size 6: 391mm high x 210mm wide x 227mm deep.
Weight: 14kg
Overload: 150% x 60 seconds (Heavy Duty) or 110% x 60 seconds (Normal Duty)
Speed Control Range: 0-550Hz
Dynamic Braking (DBr): Internal Brake Switch fitted. (Does not have to be used; available if required), minimum resistance 20 ohms, continuous power rating, 25kW.
Keypad NOT fitted as standard. Keypad options available below.
3 x Analogue input, 2 x Analogue output, 4 x Digital input, 1 x Digital output, 3 x Bi directional digital input or output, 1 x relay, 1 x STO terminal. RS485 Modbus communications supports Modbus RTU Master and Follower and Modbus ASCII Master and Follower applications (with SI-Applications Plus module).
2 channel encoder input + 1 simulated encoder output. Supports EnDat 2.2, Hiperface and SSI.
Communications options include ProfiNet, EtherCAT, Profibus, DeviceNet, CANOpen plus connectivity to legacy CTNet system.
Max Continuous Input Current: 46 amps.
Max output Current: 48A (Normal Duty), 42A (Heavy Duty).
Input Voltage: 380-480V Three Phase ±10% at 50Hz ±5%
EMC Compliance: IEC EN 61800-3 Category C3 (Industrial). Optional external EMC filter available.
Earth Leakage = 28mA at 400V, 50Hz. With filter removed, <1mA.
Cubicle mount.
Surface mount brackets: 4 x 7mm holes. 378mm x 196mm.
Through panel mount using bracket kit (CT part number 3470-00556).
Ambient operating temperature to 40°C.
Ventilation: space in front: [not specified], 100mm above and below, 0mm at sides (between drives).
Part No: M700-06400420A10100AB100 (M700-06400420A10)
Documentation can be downloaded from the Link below:-