star delta starter wiring diagram

Star delta starter wiring:

This diagram shows how to make a star delta starter wiring diagram. In this circuit, we use a DP MCB ( Double Pole Minature Circuit Breaker ), 3 magnetic contactors, an overload, a start switch, and a stop switch. First, we need to connect the DP MCB with the power source, then connect the contactors and overload and star stop switch with the DP MCB. Now this circuit is ready for use.

Diagram of star delta motor wiring:

star delta starter wiring diagram
Fig 1: star delta starter wiring diagram

Components Need for this Project:

You can get the components from any of the sites below:

  1. DP MCB [See Buy Click Amazon]
  2. Contactor [See Buy Click Amazon]
  3. Overload [See Buy Click Amazon]
  4. Start Switch [See Buy Click Amazon]
  5. Stop Switch [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!

Read Also:

Components used to make the 3 phase motor wiring:

01. DP MCB

DP MCB
Fig 2: DP MCB


Double pole MCB can control two wires. This circuit breaker is generally used in single-phase electric lines. Double pole MCB circuit breaker input has two wires supply two wires and an output. In a single-phase line, A double-pole MCB circuit breaker is used to give good production. This circuit breaker is provided through phase and neutral circuit breaker, it is very safe. This circuit breaker is preferred for home appliances. A DP MCB usually trips for 2 reasons 1. Overload 2. Short circuit.

02. Contactor 

Contactor
Fig 3: Contactor


A magnetic contactor is an electrical device used for load control, automation, and protection. It is much like a magnetic 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 

Overload
Fig 4: 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. Start Switch

Start Switch
Fig 5: Start Switch


The operator switch has its contact in Normally Open condition. To make Ladder Logic you need to understand NO contact. A Classic Switch has one Input And one Output. In "No Switch," YoungBoy Raps About Ammunition, Murder, Firearms, and Firearm Attachments Such as a Switch. The contact of the switch whose contact is already open is NO. That is enough to understand. no switch in a circuit, then the circuit will not function as intended. to write a program such that when the red light is on, This switch is now in normally open condition. When you push the switch it will close and the red light will turn on.

05. Stop Switch

Stop Switch
Fig 6:  Stop Switch


Indicates the contacts of switches or automatic actionable devices. Simply put, the push switches, magnetic contactors, and relays that we use in the factory Normally have Close Contact exists. At this moment the switch will be in normally closed condition. Because already he is sitting close. When turned off the contact will open. To make ladder logic you need to understand NC contact. As already explained. The switch contact is already closed in NC. That is enough to understand.Thank You for visiting the website. Keep visiting for more Updates.

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