Single Pole Single Throw (SPST) Relay Wiring Diagram

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This is the diagram below to learn all the pin terminals of a Single Pole Single Throw (SPST) Relay:

SPST-relay.jpg



The 2 COIL terminals is where the voltage is placed in order to energize the coil. Place the relay's rated coil voltage on these terminals. The polarity of the voltage does not matter. A positive and negative voltage can be placed on either end. Polarity only matters if a diode is used.

The COM terminal is the common terminal. If the COIL terminals are energized with the rated voltage, the COM and the NO terminals have continuity. If the COIL terminals are not energized, then the COM and the NO terminals have no continuity.

The NO terminal is the terminal where you place the output. If there is no voltage to COIL terminals or insufficient voltage, the output is open and receives no voltage. When the COIL terminals receive the rated voltage or a little under, the NO terminal receives sufficient voltage and can turn on the device on the output.
 

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How to Connect a Single Pole Single Throw (SPST) Relay in a Circuit

In order to know how to connect a single pole single throw(SPST) relay, you must know what each pin terminal represents and how the relay works.

Terminal Pins
A Single Pole Single Throw Relay comes with four terminal points.

The terminals are COIL, COIL, COM, and N.O.

SPST-relay.jpg



This correlates to the following in the relay:

Single-pole-single-throw-relay-real-life-diagram.jpg


Terminal Descriptions


-COIL- This is one end of the coil.
COIL- This is the other end of the coil. These are the terminals where you apply voltage to in order to give power to the coils (which then will close the switch). Polarity does not matter. One side gets positive voltage and the other side gets negative voltage. Polarity only matters if a diode is used.
NO- This is Normally Open switch. This is the terminal where you connect the device that you want the relay to power when the relay is powered, meaning when the COIL receives sufficient voltage. The device connected to NO will be off when the relay has no power and will turn on when the relay receives power.
COM- This is the common of the relay. If the relay is powered and the switch is closed, COM and N.O. have continuity. This is the terminal of the relay where you connect the first part of your circuit to.

Now that we know what each terminal pin represents, we now wire it to a circuit for it to do a real-world function. We're going to connect a single pole single throw relay to a circuit to light up a LED.

This is the circuit below to connect a single pole single throw relay to light a LED:

SPST-relay-circuit.jpg



Since the relay is rated for 5V, it should receive 5 volts in order to power on. It may work with less voltage, but 5V is really what it should receive. This goes into either side of the COIL terminals. Even if you switched the positive and negative voltage of the power supply, it should work exactly the same.

The COM terminal of the relay gets connected to the first part of the circuit. If there is no first part of the circuit, this terminal can be left open.

The N.O. terminal of the relay gets connected to the output of the device that it powers on or off. In this case, we are using a LED as output. When the relay receives 5V of power in its coil, the LED will light up. If the 5v are cut off from it, the LED will no longer light.

To see how this circuit works in a real-life setting, see the following video below.
 

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