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ZYT series brush permanent magnet 350w dc motor has excellent motor performance: simple to operate, easy to maintain, low noise, low vibration. 350 watt dc motor has the characteristics of good starting torque, good fixed speed characteristics, easy speed control, self-adjustment, and small speed changes. The motor is generally used for acceleration, deceleration or constant speed driving of industrial machinery with constant output,constant torque and square torque loads. The motor can be used as fiber machinery, packing machinery, conveying machinery, feeder, grinder, flour milling machine etc.
Product Feature
Motor Type: 350w dc motor
Output Power: 150/200/370/500/750W
Rated Voltage(V.DC): 220
Torque(KG*CM): 9 / 11 / 20 / 27 / 40
Rated Current(A): 1.3 / 1.5 / 3 / 3.7 / 4.5
Duty: S1
Cooling Method: IC411
Adjustable Speed Range: 30-1800RPM
Insulation Class: B/F
Temperature: -5℃-70℃
Product Parameter (specification)
Production Details
Motor 12v 350w and motor 24v 350w and dc motor 24v 350w and 24v 350w dc motor and 24v 350w motor and 36v 350 watt motor and 36 volt 350 watt motor and 24v 350w 400 rpm high torque reducer dc motor and 120 rpm motor and 120 rpm dc motor and 150 rpm motor.
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FAQ
Is the DC motor brushed or brushless?
The main difference between the two is that permanent magnets are used instead of the field windings of the brushed DC motor. More specifically, let us look at their respective introductions.
Permanent magnet brushless motor (PMBLDCM): A motor device in which a magnetic field is formed by one or more permanent magnets. Its performance is the same as other excitation DC devices, and the excitation current is constant. The armature voltage is easy to adjust. Compared with other excitation DC motors, brushless motors have the advantages of small size, high efficiency, simple structure, and less copper consumption. It is the main type of low-power motors.
Permanent magnet brush motor: The stator of the brush motor is equipped with fixed main poles and brushes, and the rotor is equipped with armature windings and commutators. The DC power source enters the armature winding through the brushes and commutator to generate armature current. The interaction between the magnetic field generated by the armature current and the main magnetic field generates electromagnetic torque, which causes the motor to rotate with a load. Due to the existence of brushes and commutators, the structure of brush motors is more complicated. However, due to its complex structure and superior performance, many consumers still like to brush motors.
