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Medical Equipment Motor 0.9-1.2A 1.6-70kg.cm Used For Home Appliance

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Medical Equipment Motor 0.9-1.2A 1.6-70kg.cm Used For Home Appliance

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Brand Name :GO-GOLD
Model Number :KG-2427DC6
Certification :ISO
Place of Origin :China
MOQ :1000PCS
Price :Negotiation
Payment Terms :L/C, T/T, Paypal
Supply Ability :10000pcs-30days
Delivery Time :7days for samples
Packaging Details :Packing in boxes
Continuous Current :0.9-1.2A
Efficiency :IE 2
Type :DC Motor
Rated Torque :1.6-70kg.cm
Application :Medical Equipment, Home Appliance
Rated Speed :7-470RPM
Rated Voltage :1.5-6V
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Medical Equipment Motor 0.9-1.2A 1.6-70kg.cm Used For Home Appliance

Lead Time

Quantity 1-1000 1001-10000 ≥10000
Lead days 15 30 To be negotation

Product Description

Continuous Current 0.9-1.2A Rated Voltage 1.5-6V
Rated Speed 7-470RPM Rated Torque

1.6-70kg.cm

Essential Details

Type: DC Motor


Application: Medical Equipment, Home Appliance

Size: 42.2*59.5MM

Continuous Current: 0.9-1.2A

Place of Origin: Guangdong, China


Rated Torque: 1.6-70kg.cm

Efficiency: IE 2

Rated Voltage: 1.5-6V


Rated Speed: 7-470RPM

Warranty: 3 Years

Model Number: KG-2427DC6

Drawing

Medical Equipment Motor 0.9-1.2A 1.6-70kg.cm Used For Home Appliance

Sample

Medical Equipment Motor 0.9-1.2A 1.6-70kg.cm Used For Home Appliance

Application

Medical Equipment Motor 0.9-1.2A 1.6-70kg.cm Used For Home Appliance

A coil of wire with a current running through it generates an electromagnetic field aligned with the center of the coil. The direction and magnitude of the magnetic field produced by the coil can be changed with the direction and magnitude of the current flowing through it.

A simple DC motor has a stationary set of magnets in the stator and an armature with one or more windings of insulated wire wrapped around a soft iron core that concentrates the magnetic field. The windings usually have multiple turns around the core, and in large motors there can be several parallel current paths.

The ends of the wire winding are connected to a commutator. The commutator allows each armature coil to be energized in turn and connects the rotating coils with the external power supply through brushes. (Brushless DC motors have electronics that switch the DC current to each coil on and off and have no brushes.)

The total amount of current sent to the coil, the coil's size, and what it is wrapped around decide the strength of the electromagnetic field created.

The sequence of turning a particular coil on or off dictates what direction the effective electromagnetic fields are pointed. By turning on and off coils in sequence, a rotating magnetic field can be created.

These rotating magnetic fields interact with the magnetic fields of the magnets (permanent or electromagnets) in the stationary part of the motor (stator) to create a torque on the armature which causes it to rotate. In some DC motor designs, the stator fields use electromagnets to create their magnetic fields which allows greater control over the motor.

At high power levels, DC motors are almost always cooled using forced air.

Different number of stator and armature fields as well as how they are connected provide different inherent speed and torque regulation characteristics. The speed of a DC motor can be controlled by changing the voltage applied to the armature. Variable resistance in the armature circuit or field circuit allows speed control. Modern DC motors are often controlled by power electronics systems which adjust the voltage by "chopping" the DC current into on and off cycles which have an effective lower voltage.

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