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YCL series double capacitor 10 horsepower single phase motor is optimized from YC single phase capacitor start motor. The mounting dimension is fully conformed with IEC standard. YCL motor is superior motors delivering excellent torque enabling the toughest jobs to be handled with dependable ease and perform well in high voltage fluctuating regions. YCL motor has the features of quiet operation, corrosion resistant, low vibration, low power consumption, long lifespan, low start current and good operation in hot environment. YCL motor is used in the pumping, compressor, agriculture, farming, building service and manufacturing industry.
Product Detail
Motor Type: 10 horsepower single phase motor
Output Power: 0.75 kW - 5.5 kW
Frame Size: IEC 90 - 132
Number of Poles: 2 / 4
Voltage: can be customized based on users
Frequency: 50 & 60 Hz
Protection Level: IP54 / IP55
Insulation Class: B / F
Cooling Method: IC411
Duty: S1 (continuous)
Product Parameter (specification)
10 horsepower single phase motor
Production Features
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About motor knowledge
How to determine the forward and reverse rotation of the motor
The forward and reverse rotation of the motor means that the motor rotates clockwise and counterclockwise. When the motor rotates clockwise, the motor rotates forward, and when the motor rotates counterclockwise, the motor rotates reversely. To realize the forward and reverse rotation of the motor, the forward and reverse rotation of the motor can be achieved only by connecting to any two phase-adjusted wires in the three-phase power supply line of the motor. .
The characteristic of the motor's forward and reverse rotation is to add a protection circuit to the circuit, which lays the foundation for the development of industrial robots.
How to judge whether the motor is forward or reverse?
Taking a three-phase AC motor as an example, when the three-phase AC motor cannot be reversed and the direction of rotation needs to be determined, three pointer multimeters can be found, set to a small DC voltage range, and the positive test leads of the three multimeters are respectively connected to the input of the motor. Rotate the motor forward with your finger, observe the multimeter, record the sequence in which the pointer swings to the maximum value, position the input terminals of the motor in sequence A/B/C, and then use the phase sequence table to measure the phase sequence of the power supply. When the phase sequence of the power supply is consistent with the phase sequence of the input terminal of the motor, the motor must rotate in the forward direction.
