DRIVE VAR.SPEED 2.2KW 7A 3HP 200-240V ATV600 TYPE 1

SCH-ATV630U22M3 MFG #: ATV630U22M3
  • Best Seller: No
  • Country Origin: ID
  • Dangerous Goods: No
  • Device Type: Variable Frequency Drive
  • Discontinued: No
  • Featured Product: No
  • Green Product: No
  • Horsepower: 3
  • Limited Quantity: No
  • Made in Canada: No
  • Manufacturer: SCHNEIDER ELECTRIC
  • Manufacturer Category: LVD2-32102
  • Manufacturer Product Code: 96743
  • Mfr Vendor ID: 599
  • Oversize product: No
  • Restricted Delivery: No
  • Source Voltage: 200-240
  • SPF Product ID: 2045732
  • Unit of Measure: E
  • UPC: 785901967439
  • Web Group: 1021100000000
This Altivar Process ATV600 variable speed drive can feed 3-phase synchronous and asynchronous power motors. It features 3 built-in RJ45 communication ports as standard, 1 Ethernet port, 2 serial ports. It works at a rated supply voltage from 200V to 240V AC. This drive provides up to 30% energy saving when on standby due to the innovative ‘‘Stop and Go’’operation without additional costs. It is suitable for motors with power rating up to 2.2kW / 3hp for applications requiring slight overload (up to 120%). It is suitable for motors with power rating up to 1.5kW / 2hp for applications requiring significant overload (up to 150%). It weighs 4.5kg and its dimensions are, 144mm wide, 350mm high, 203mm deep. This drive is focused on fluids management processing and energy saving, it offers extensive flexibility in water and wastewater, mining, minerals and metals, oil and gas and food and beverage applications. Accessories (fan kit, graphic display terminal) and options (I/O expansion modules, communication modules, EMC input filters) are available with Altivar Process ATV600 drives, depending on the drive rating. It is designed to be mounted in vertical position (+/- 10 °) on a wall. This new concept of drives meets the major needs of process and utilities in terms of equipment efficiency and total cost of ownership by supporting the energy management, asset management and also the overall performance of the process.