50-100W DC Brush Motor AC 300V/10mA/2Sec Blender Motor Replacement

Warranty:3years

Place of Origin:Guangdong, China

Brand Name:GO-GOLD

Model Number:KG-B005

Type:Brush Motor

Torque:0.7N.M

Construction:Series Wound

Commutation:Brush

Protect Feature:Drip-proof

Speed(RPM):5800RPM

Continuous Current(A):/

Efficiency:IE 2

Application:Blender

Power:50-100W

Color:White

Rated Voltage:12-48V

Material:Copper wire

Noise:Low nosie

Keywords:Blender motor

Product Name:Blender motor

Max Power:100w

Metriel:Copper, Iron, Plastic, Aluminum

Packaging & delivery

Port:SHENZHEN

Lead time:

Product Description

Outer dimensions

Samples

Brush DC motor performance trade-offs Brush DC motors are simple, rugged, lowcost options for many industrial applications. They are widely available in a variety of configurations (see figure 4). They do not require onboard electronics for commutation, making them a good choice for high-temperature, high-radiation, and high shock and vibration environments. They are well-suited for portable applications because they can be powered directly by battery, although typically they require intervening switches and/or a control mechanism, such as series resistors, for motor activation and control.

Choosing Between Brush and Brushless DC Motors

permanent-magnet segments mounted in a steel tube. Permanent-magnet brush DC motors are simple, robust, and easily controlled. They can operate on DC or rectified AC power sources. They have linear speed-torque curves.

When built with rare-earth magnets, permanent-magnet brush DC motors can be smaller and lighter than those built using other field magnet types or wound-field stators. The trade-off is increased cost and the risk of demagnetization at high temperatures. Alternatively, other magnet materials like samarium cobalt, nickel iron boron, or even ferrite can get the job done more economically but at the price of greater size and weight for the same performance level.

The wound-field brush DC motor, as the name suggests, generates the stator magnetic field using windings rather than permanent magnets. These motor types are more rugged than permanent-magnet designs, remain magnetically stable even at high temperatures, and can operate on DC or AC power sources.

Wound-field brush motors are available in several configurations: separately-excited (field winding powered by a separate power source than the rotor winding), shunt-wound (field winding connected in parallel with the rotor winding), series-wound (field winding connected in series with the rotor winding), and compound-wound (combination of series and shunt windings). Many of these configurations have nonlinear speed-torque curves, but that may be beneficial for the application, as in the case of using serieswound motors as traction motors.