Electrical Switch Board Wiring diagram:
This diagram shows how to connect an electrical switchboard wiring diagram. In this circuit, we use a 3-pin power socket, some switches, 2 light holders, a ceiling fan, a fan regulator, an indicator light, etc. If you want to see clear animation for how to connect this circuit very easily please check our video in the below link.
Diagram of Electrical Switch Board Wiring:
Components Need for this Project:
You can get the components from any of the sites below:
- 3-Pin Socket [See Buy Click Amazon]
- Switch [See Buy Click Amazon]
- Fan Regulator [See Buy Click Amazon]
- Indicator light [See Buy Click Amazon]
- Light Holder [See Buy Click Amazon]
- Ceiling Fan [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 Electrical Switch Board Wiring:
01. 3-Pin Socket
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| Fig 2: 3-Pin Socket |
A socket is a type of equipment used in electrical wiring lines that always has an electrical connection. According to the need, it can be supplied to the electrical equipment. In case of electric iron, electric hand drill machine and electric hand grinder etc. two-pin socket with earth terminal is used. Also, three-pin sockets are used for electrical appliances that have a metal body and are likely to be electrified. Eg – Refrigerator, room heater, table heater, hot-plate, electric oven etc.
02. Switch
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| Fig 3: Switch |
A Single-Pole, Single-Throw (SPST) Switch. It's Got one Output and One Input. The Switch will Either be Closed or Completely Disconnected. SPSTs are Perfect for on-off Switching. They're also a Very Common Form of Momentary Switches. SPST Switches are Commonly Used in a Variety of Electrical Circuits and Applications, Such as Turning on And off Lights, Fans, and Other Appliances. They can Also be Used to Control the Flow of Electricity to Different Parts of a Circuit or to Switch Between Different Circuits Altogether.
03. Fan Regulator
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| Fig 4: Fan Regulator |
Reduces fan speed by switching on and off. Reducing the speed of the fan, the power Consumption is also Reduced. It is basically a wire wood resistor-based regulator. The large regulators that were used in the past took up more than half of the switchboard space and were very hot. It looks very small in size. Almost equal to a switch. Electrical regulators are basically made by winding copper wire on an iron core. As Electricity Travels Long Distances Through These Wires, Some of The Electrical Energy is Converted Into Heat Energy.
04. Indicator light
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| Fig 5: Indicator light |
An electric current Flow Indicator Senses The electrical Current Through an electrical device And produces visible feedback to Indicate Proper Operation. The Current Flow Indicator Has Voltage And Current Regulation Craving First And Second Inputs Connected To The First And Second Conductors, Respectively. This Publication Provides updated Statistics on a Comprehensive Set of social, Economic, Financial, and Environmental Measures as Well as Select Indicators for Sustainable Development Goals.
05. Light Holder
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| Fig 6: Light Holder |
A Light holder, commonly referred to as a stockholder, is any person, company, or institution that owns at least one share of a company's stock. Light Holders own the company, they enjoy the benefits of the company's success in the form of increased stock appreciation. Unlike owners of sole proprietorships or partnerships, corporate Light holders are not personally liable for the company's debts and other financial obligations. If the company goes bankrupt, its creditors cannot demand payment from the Light holders.
06. Ceiling Fan
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| Fig 7: Ceiling Fan |
The main driving force behind all ceiling fan systems is the motor used inside the fan. We can also compare it with the soul of a fan. This motor converts the supplied electrical energy into mechanical energy which turns the ceiling fan and gives us air. When current is supplied, the magnetic field formed on the positive half-cycle becomes the reverse magnetic field on the next negative half-cycle. The magnitude part does not rotate and the capacitor is converted to a phase when it is connected to a phase motor or ceiling fan with a helical coil or stationing coil. When power is supplied there is a magnetic difference between the phase currents and the coils (acting as two phases) so that the motor or fan rotates.
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