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6 Critical Elements Of An Industrial Electrical Plan

6 Critical Elements Of An Industrial Electrical Plan

Suppose you are working on a new architecture for your office complex. In that case, you cannot overlook the importance of electrical plans that can keep your units functioning throughout the day. Every business has its own electrical requirements. Therefore, they must be customized to suit your specialized needs. Apart from the seamless functioning of the electrical components in an industrial building, it is also necessary to make it safe for your employees to prevent accidents related to electrocution or damage caused by electrical surges.

For this purpose, you will need to hire a professional service provider who is well versed with the components of an industrial electrical plan such as RCBO, meter, etc. These experts know how to include necessary elements between designs to make your unit operational and free from electrical shocks.

Let us now discuss the crucial elements that make up an electrical plan.

1. Transformer

A transformer is a system that is connected to your utility pole and regulates the current that enters your commercial complex. This component is chosen as per building size. For instance, if you have a small structure, then you may need only one transformer.

However, if your tasks include different types of current, then you will need a wide range of transformers suitable for fulfilling the electrical needs. Involving an electrical designer at the architectural stage will help determine these factors and help you choose the right transformer for your commercial structure.

2. Meter

This equipment is attached to your building, but it belongs to the utility company to know how much power you are using. A meter is used for billing purposes. All the current that originates in your transformer will pass through a meter before it reaches your building.

3. Main Circuit Breaker

The main circuit breaker is also known as a control panel or a disconnect. MCBs are installed for the purpose of short circuit protection. These access points are designed in such a way that they disconnect power to your entire structural unit or specific systems or areas.

Even though this safety feature is not as effective as an RCBO, it is still widely used in older installations. However, they cannot detect residual current leakage unless the current is large enough to be called an overload.

4. Sub Panels

In principle, a sub-panel works like the main circuit breaker. However, it has smaller control panels that are strewn all over your building. Each panel is designed to shut off power to a particular section of the building without impacting other units in the system.

5. Devices & Outlets

The power finally reaches the endpoints in your building’s architecture. These include communication systems, machinery, lighting, electrical outlets, and other devices powered by electricity in your unit.

6. RCBO

If you want to fortify your building’s defenses against electric shocks, then you must protect all your circuits from earth leakage. As explained above, this protection is provided by MCBs in smaller units, which defends the circuit banks simultaneously.

An RCBO, however, not only does the job of MCB but also prevents nuisance tripping. They are recommended for applications in large and critical circuits to prevent any electrical damage due to power surges.

High integrity structural units are becoming incredibly popular with electrical companies these days. You can hire a reliable service provider to design a flexible industrial electrical plan that provides excellent protection to your unit and keep it in good shape for years to come. It is crucial that you consult with leading electrical providers to explore options in RCBOs, meters, transformers, and control units to find the best of products meeting the highest industry standards.

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