5 Position Rotary Switch Wiring Diagram

A rotary switch is an electrical component that is used to select different settings or functions by rotating a knob or dial. The switch is usually constructed with a set of contacts that are arranged in a circular pattern. The knob or dial on the switch is rotated to select one of the contact positions. In this article, we will discuss the 5 position rotary switch wiring diagram.

What is a 5 Position Rotary Switch?

A 5 position rotary switch is a type of switch that is commonly used in electronic circuits. It has 5 contact positions that can be selected by rotating the switch. The switch is usually used to select different modes or settings of a device.

How does a 5 Position Rotary Switch Work?

A 5 position rotary switch works by moving the contacts inside the switch to the desired position. When the switch is rotated, it causes the contacts to move along the circular path until they make contact with the appropriate contact point. The switch can be used to select different modes or settings of a device.

What are the Types of 5 Position Rotary Switches?

There are several types of 5 position rotary switches that are available in the market. Some of the common types are:

Type Description
Single Pole This type of switch has only one circuit that can be switched on or off.
Double Pole This type of switch has two circuits that can be switched on or off independently of each other.
Double Throw This type of switch has a common terminal and two other terminals that can be connected to either of the other terminals depending on the position of the switch.

5 Position Rotary Switch Wiring Diagram

The 5 position rotary switch wiring diagram is shown below:

5 Position Rotary Switch Wiring DiagramSource: bing.com

The wiring diagram shows how the switch can be wired to control different devices. The switch has 5 contact positions and you can wire it to control up to 5 different devices.

Wiring Instructions

To wire a 5 position rotary switch, follow these steps:

  1. Identify the terminals on the switch. The switch will have 6 terminals, including a common terminal and 5 other terminals that correspond to the 5 contact positions.
  2. Connect the common terminal to the power source. This can be done by connecting one of the wires from the power source to the common terminal.
  3. Connect the other terminals to the devices that you want to control. Each of the other terminals should be connected to a different device.
  4. Test the switch by rotating it and checking that the devices turn on and off as expected.

Example Wiring

One example of how you can wire a 5 position rotary switch is shown below:

5 Position Rotary Switch Wiring Diagram ExampleSource: bing.com

In this example, the switch is wired to control 5 different lights. Each of the lights is connected to a different terminal on the switch. When the switch is rotated, it turns on and off the corresponding light.

FAQ

What is the Purpose of a 5 Position Rotary Switch?

The purpose of a 5 position rotary switch is to provide a way of selecting different modes or settings of a device. It is commonly used in electronic circuits to control different devices or to provide different modes of operation.

How do I Choose the Right 5 Position Rotary Switch?

To choose the right 5 position rotary switch, you need to consider the voltage and current rating of the devices that you want to control. Make sure that the switch can handle the voltage and current of the devices. You also need to consider the type of switch that you need. For example, if you need to switch two circuits independently, you need a double pole switch.

Where can I Buy a 5 Position Rotary Switch?

You can buy a 5 position rotary switch from electronics stores or online retailers. Make sure that you buy a switch that meets your requirements in terms of voltage, current and type.

Can a 5 Position Rotary Switch be Used to Control Motors?

Yes, a 5 position rotary switch can be used to control motors, but you need to make sure that the switch can handle the voltage and current of the motor. You also need to use a motor driver circuit to drive the motor.