An electrical relay is an electromechanical device used to control the flow of electric current in a circuit. It works by using an electromagnetic coil to open or close a set of contacts, thereby allowing or interrupting the flow of current in another part of the circuit. Here's how an electrical relay switches a circuit:
Components of a Relay:
Coil: This is the winding of wire around a core that becomes electromagnetically energized when a voltage is applied across it.
Contacts: Relays have one or more sets of contacts that can be in normally open (NO) or normally closed (NC) positions.
Spring Mechanism: The contacts are mechanically connected to a spring-loaded mechanism that moves them between open and closed positions.
Energizing the Coil:
When a voltage is applied across the coil terminals, current flows through the coil, creating an electromagnetic field around it. This field generates a magnetic force that attracts a movable armature or lever connected to the contacts.
Contact Movement - Normally Open (NO) Relay:
In a normally open relay, the contacts are in the open position when the coil is not energized.
When the coil is energized, the magnetic force pulls the armature or lever, causing the contacts to close. This completes the circuit between the relay's input and output terminals.
Contact Movement - Normally Closed (NC) Relay:
In a normally closed relay, the contacts are in the closed position when the coil is not energized.
When the coil is energized, the magnetic force overcomes the spring tension, causing the contacts to open. This interrupts the circuit between the relay's input and output terminals.
Applications:
Relays are commonly used for various purposes, such as:
Switching high-current or high-voltage circuits using a low-power signal (e.g., controlling large motors or lighting systems).
Isolating control circuits from the circuits they control, providing electrical separation.
Providing galvanic isolation to protect sensitive electronics from voltage spikes or noise.
Implementing time-delayed actions using relays with specific timing mechanisms.
De-energizing the Coil:
When the voltage across the coil is removed, the magnetic field collapses, and the spring mechanism returns the contacts to their original positions (either open or closed, depending on the relay type).
Overall, relays are versatile components that allow low-power control signals to switch higher-power circuits, making them essential in many electrical and electronic systems.