What is a DC Shunt Motor?
At its core, a DC shunt motor is a direct-current electric motor intended to convert electrical energy into mechanical movement or we can say that it is a self-excited motor where field winding is connected in parallel to armature winding in order to supply voltage. Its name, “shunt,” alludes to how the field winding is associated in parallel with the armature winding. This setup permits the motor to keep an almost steady speed, independent of burden changes, making it an ideal decision for applications requiring consistent speed control.
Definition of DC Shunt Motor
A DC shunt motor is an Electric Motor which is abbreviated as Direct Current Motor intended to convert electrical energy into mechanical movement.
DC Shunt Motor
In the world of electric motors, the DC shunt engine remains a demonstration of dependability, flexibility, and perseverance. Whether you are in a modern setting, driving a conveyor belt, controlling the speed of a rolling mill, or changing the volume on an old stereo system, odds are good that you’ve experienced a DC shunt motor at work. In electrical motors, series circuits, and equal circuits are ordinarily known as series and shunt. Hence, in DC motors, the associations of the field windings, as well as the armature, should be possibly equal, which is known as DC shunt motors. The principal contrast between DC series motors as well as DC shunt motors primarily incorporates the construction, operation, and speed characteristics. This motor gives highlights like simple turning around control and speed guidelines, and it is low to begin force. Hence, this motor can be utilized for belt-driven applications inside autos as well as modern applications.
Table of Content
- DC Shunt Motor
- Construction and Working Principles
- Back EMF
- Speed Control
- Brake Test
- Characteristics
- Advantages
- Disadvantages
- Applications
- Example Problem