Solenoid switch for automobile
dhruvupadhaya
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9 slides
Feb 01, 2019
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About This Presentation
Solenoid switch for the proper operation of the starter motor
Slide Content
Solenoid Switch By Dhruv Upadhaya
Main Function It switches the high current flow required by the starter motor on and off, and It engages the starter drive with the ring gear.
Circuit Diagram
Pulling Winding
Holding Winding
Basic Function One end of the solenoid has a moving soft iron plunger, which is connected to a lever that moves the starter drive. The other end has an insulated cap with electrical connections to the solenoid windings along with a set of high current contacts and a movable copper disc that completes the cranking circuit when the solenoid plunger is drawn forward Once the cranking circuit is completed, current flows from the battery to the starter fields and armature .
Operating Principle When the starter is activated, current passes through both starter windings. The magnetic fields from both windings work together to attract the solenoid plunger toward the main starter terminals in the solenoid cap. Plunger movement also operates the shift fork lever, thus engaging the drive pinion with the flywheel ring gear. The plunger contacts a switching pin, which transfers the motion through a contact spring, closing the main solenoid terminals. This allows a large current to flow from the battery through the starter motor windings, causing armature and pinion rotation, and rotation of the engine crankshaft. However , closing the contacts does another very important task; it shorts to power the output wire of the pulling winding , resulting in two sequential actions. First , the short to power means that the pulling winding has battery voltage applied to both the input and the output of the winding, stopping the current flow through the pulling winding and stopping that magnetic field. But the holding winding still has power from the control circuit, so it continues to hold the plunger in place while the starter cranks.
Operating Principle Once the engine starts, the control circuit is deactivated, and now is when the second action comes into play. The current stops flowing through the control circuit to supply the input of the holding and pulling windings , but the output of the pulling winding is still activated due to back emf , so current flows backwards through the pulling winding and then forward through the holding winding. Since the current flows in the two windings are opposite to each other , the two magnetic fields oppose each other and tend to cancel each other out, thereby allowing the plunger return spring to retract the plunger. This disconnects the power from the pulling and holding windings as well as the starter motor, causing it to stop cranking the engine. As the return spring in the solenoid returns the plunger, it also retracts the pinion gear to its rest position.
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