Feature:
1. With 8?segment programmable, multi?stage speed control, has torsion or speed control mode optional.
2. Comes with standard RS485 RTU mode, 0?5v0?10v4?20ma0?20ma multiple analog input and output.
3. With PID control, constant pressure water supply, wind pressure and constant pressure control, low noise, low electromagnetic interference and other functions.
4. The built?in filter can suppress high?frequency harmonics, reduce the impact of harmonics on the power grid, and reduce interference.
5. Provide protections against overcurrent, overvoltage and undervoltage, module failure, overheating, short circuit, phase loss, abnormal parameter adjustment, etc.
Specification:
Item Type: Frequency Converter
Model: AT44000X(AT9044KW)Input Voltage: Singlephase 220VAC 5060Hz
Output Voltage: 3phase 0380VAC 0400Hz
Maximum Output Current: 20A
Adapted Motor Power: 4KW(6HP)
Filter: Builtin filter
Application: General
DC Power Supply Nature: Voltage type
Control Method: VF open loop
Output Voltage Adjustment Method: PWM control
Material: ABS plastic shell
Purpose: Control the start, stop, speed adjustment and CW and CCW of the motor to meet the conditions required for production or equipment use, widely used in fans, water pumps, air compressors, etc.
Size: Approx. 241 x 151 x 171mm 9.5 x 5.9 x 6.7in.
Package List:
1 x Frequency Converter1 x User Manual
Note:
This product is suitable for 3?phase motors with a voltage of 380V. Please confirm whether your equipment is compatible with the product before purchasing.With 8?segment programmable, multi?stage speed control, has torsion or speed control mode optional.
Comes with standard RS485 RTU mode, 0?5v0?10v4?20ma0?20ma multiple analog input and output.
With PID control, constant pressure water supply, wind pressure and constant pressure control, low noise, low electromagnetic interference and other functions.
The built?in filter can suppress high?frequency harmonics, reduce the impact of harmonics on the power grid, and reduce interference.
Provide protections against overcurrent, overvoltage and undervoltage, module failure, overheating, short circuit, phase loss, abnormal parameter adjustment, etc.
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