Forward & Reverse 3-Phase AC Motor Control:
This diagram shows how to connect Forward & Reverse 3-Phase AC Motor Control. In this circuit diagram, we just try to describe simply how to connect a Forward & Reverse 3-Phase AC Motor Control to house loads. This diagram is for single-phase house wiring. So you can wire your house or office like this diagram very easily. If you want to learn how to connect this circuit clearly you can follow our youtube video link in below.
Diagram of Forward & Reverse 3-Phase AC Motor Control:
Components Need for this Project:
You can get the components from any of the sites below:
- TP MCB [See Buy Click Amazon]
- Forward Contactor [See Buy Click Amazon]
- Overload [See Buy Click Amazon]
- 3-Phase Motor [See Buy Click Amazon]
*Please note: These are affiliate links. I may make a commission if you buy the components through these links. I would appreciate your support in this way!
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Components used to make the Forward & Reverse 3-Phase AC Motor:
01. TP MCB
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| Fig 2:Â TP MCB |
Three wires can be controlled by a triple pole MCB. Triple pole MCB circuit breakers are generally used in three-phase lines. A triple-pole MCB circuit breaker has three wires at its input and three wires at its output. But one can use this circuit breaker in a single-phase line. TP MCB widely used in industries. The reason is that it has three poles. And this TP circuit breaker is used to provide three-phase and three-phase connections. A neutral is not normally used in three-phase lines. But a 4-pole MCB circuit breaker is used if needed.
02. Forward Contactor
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| Fig 3:Â Forward Contactor |
A Forward contactor is an electrical device used for load control, automation, and protection. It is much like a Forward reel. However, relays are generally used for low power and voltage, on the other hand, when we think of high power, these heavy-duty contractors only come to mind. It basically works by switching the load on and off. It has 3 terminals whose inputs are denoted as L1, L2, L3, and outputs as T1, T2, and T3. The circuit of the load is made in automation mode or protection using auxiliary contacts. It has two types of terminals. 1) Normally Open (NO). 2) Normally Closed (NC)
03. Overload
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| Fig 4:Â Overload |
Overload relays are often used to protect the motor from excessive current flow. Overload relays are used to protect the motor from overheating. Besides some specific faults such as phase to phase, phase to ground, etc. overload relay provides protection to the motor. A thermal overload relay works on the principle of bimetallic strip electro-thermal characteristics. When the bimetallic heats up, the trip function in the overload relay turns on and disconnects the power supply to the contactor coil, thus tripping the overload relay and breaking the motor current and saving the motor.
04. 3-Phase Motor
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| Fig 5:Â 3-Phase Motor |
A Three-Phase Motor is an Electric Motor That Typically Receives its Power From a Three-Phase System (three-phase current) This can be realized via a Three-Phase Mains Supply or a Frequency Inverter. Three-Phase Motors are Available as Synchronous and Asynchronous Motors. Three Phase Alternating Current Power Motor is Economical to Supply Power to the data Center Since it Requires Less Conductor Material to Supply Electricity. This Explains Why 3 Phase Alternating Current Motor is Used in Electric Transmission, Generation, and Distribution in Most Countries Worldwide.
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