Skip to main content

Industrial VS Commercial VS Residential Electrical Installation

Hey, in this article we are going to see the comparison between Industrial, Commercial, and Residential Electrical installation. We will make compare with respect to types, procedure, cost, safety, equipment, and many other essential factors. First of all, let's know what is electrical installation. Electrical installation is a procedure to install electrical circuits, wirings, equipment, and machines. The electrical installation can be divided into three major parts - 1. Installing of electrical equipment or device or machine 2. Make electrical connection or wiring for them 3. Provide them proper voltage and power to operate them. These different types of electrical installation required different types of electricians and management. For example, commercial electrical installation requires commercial electricians, industrial electrical installation requires industrial electricians, and residential electrical installation requires residential electricians. We already published an ...
Post a Comment

What is Electricity : Electricity explains for beginners

Simply, Electricity and charge flow is present. It might be the flow of positive charges or the flow of negative charges. That's a really short explanation. To grasp the principles of electricity, one must first concentrate on atoms. There are two kinds of charged particles in an atom. Protons are positive particles. Electrons are negative particles. Electrons are essential for understanding how electricity works. 

What is Electricity : Electricity explains for beginners

The electrons in an atom are not all permanently attached to the atom. The electrons in the atoms' outer orbits are referred to as valence electrons. A valence electron can depart the atom's orbit and become free. We can transfer the charge using free electrons. That's what electricity is all about. In terms of charges,

The movement of electrical power or charge is referred to as Electricity. Electricity is both a fundamental component of nature and one of the most extensively used types of energy. We utilize electricity as a secondary energy source since it is created by converting primary energy sources such as coal, natural gas, nuclear energy, solar energy, and wind energy into electrical power. Electricity is also known as an energy carrier since it may be turned into other types of energy such as mechanical energy or heat. Although primary energy sources are either renewable or nonrenewable, the power we use is neither renewable nor nonrenewable.

The Use of Electricity has Transformed People's lives drastically.

Despite its critical relevance in daily living, few individuals presumably consider what life would be like without it. People, like air and water, take electricity for granted. People, on the other hand, utilize electricity for a variety of tasks on a daily basis, including lighting, heating, and cooling their houses, as well as powering televisions and computers. Candles, whale oil lamps, and kerosene lamps supplied light until electricity became generally accessible some 100 years ago; iceboxes kept food cold, and wood-burning or coal-burning stoves provided heat.

Since the 1600s, scientists and innovators have been attempting to unravel the fundamentals of electricity. Thomas Edison, Benjamin Franklin, and Nikola Tesla all made significant contributions to our knowledge and application of electricity. Lightning, as proved by Benjamin Franklin, is electricity. The first long-lasting incandescent light bulb was created by Thomas Edison.

Arc lamps for outdoor illumination were utilized before 1879 with direct current (DC) power. Nikola Tesla revolutionized the generation, transmission, and usage of alternating current (AC) energy in the late 1800s, lowering the cost of long-distance transmission. Tesla's ideas allowed electricity to be used in households to power indoor lights and factories to power industrial machinery.
Labels:
Location: India India

Comments

Post a Comment

if you have any doubt comment me I will try to resolve

Popular posts from this blog

What is the Joule Thief Circuit and how does it work

A joule thief is a compact, low-cost, and easy-to-build self-oscillating voltage booster that is often used to drive small loads(3.3v 5mm LED). Other names for this circuit include blocking oscillator , joule ringer , and vampire torch . The circuit is a blocking oscillator variation that functions as an unregulated voltage boost converter. The output voltage is increased at the price of a larger input current draw, but the output integrated (average) current is reduced and the luminescence brightness is reduced. This joule thief Circuit uses a 1.2 V or 1.5 V single-cell electric battery to power LEDs. However, as the supply voltage reaches 3V, the LED begins to light. The theory of operation of a Joule thief circuit Joule Thief Circuit The joule thief circuit operates on a fairly basic basis. It operates by quickly switching the transistor. When the transistor is first switched off, a tiny amount of current flows via the resistor, primary winding, and base-emitter junction, assistin...
Post a Comment
Read more

What is an electric fuse | Fuse resistance | Functions

To avoid a short circuit or device failure, an electrical fuse is a low melting point copper or other metal wire that breaks due to heat-induced by Overcurrent or excessive load. The flow of electric current warms up the items through which it passes. Electric water heaters, light bulbs, and irons are just a few examples of electric gadgets that make use of this phenomenon. It does, however, have certain downsides. For example, if this equipment becomes overheated, it may become damaged or even catch fire! In reality, the undesirable high electric currents harm not only these gadgets, but all of the appliances in our home. Any gadget can only withstand a certain quantity of electric current. If the current surpasses that limit, the device's components heat up, perhaps resulting in a fire! Is there a way to prevent this from happening? An "electric fuse" is a device that is used to prevent this from happening. It comes in a variety of forms and sizes. This is how it usuall...
Post a Comment
Read more

Using the IR2110 high-low side driver - explanation and circuit examples

In many situations, we need to use MOSFETs configured as high-side switches. Many a times we need to use MOSFETs configured as high-side and low-side switches. Such as in bridge circuits. In half-bridge circuits, we have 1 high-side MOSFET and 1 low-side MOSFET. In full-bridge circuits we have 2 high-side MOSFETs and 2 low-side MOSFETs. In such situations, there is a need to use high-side drive circuitry alongside low-side drive circuitry. The most common way of driving MOSFETs in such cases is to use high-low side MOSFET drivers. Undoubtedly, the most popular such driver chip is the IR2110. And in this article/tutorial, I will talk about the IR2110. Notice that the IR2110 comes in two packages – 14 pin through-hole PDIP package and the 16-pin surface mount SOIC package. Now let's talk about the different pins. VCC is the low-side supply and should be between 10V and 20V. VDD is the logic supply to the IR2110. It can be between +3V to +20V (with reference to VSS). The actual voltag...
Post a Comment
Read more