What is a transformer? Definition A transformer is a static electrical device that transfers alternating electrical energy (AC) from one circuit to another, without changing the frequency, through mutual magnetic flux. The working principle of transformer is electromagnetic induction, according to which a time-varying magnetic flux in the primary winding induces EMF in the secondary … Read more
introduction Electric pole transformers are an extremely important part of the power distribution system. It is also called Electricity Pole Transformer, Electrical Pole Transformer or Electric Transformer on Pole in common language. This transformer transmits high voltage electricity to homes, shops, and small industries by safely converting it to low voltage. How does Electric Transformer … Read more
Introduction In today’s modern electronic and power-electronic systems, signals are often in the form of pulses. The special transformer that is used to transfer such pulse signals safely, provide isolation and forward without distorting the shape is called pulse transformer. This transformer is different from a normal power transformer because its job is not to … Read more
Tap Changing Transformer is an electro-mechanical device. All the electrical equipment we use today is designed to function properly at a specific voltage level. However, the power supplied to electrical equipment can sometimes exceed or exceed its rated voltage. This can be due to a variety of factors, such as voltage drops in distribution lines … Read more
What is a Nickel–Cadmium Battery? Nickel cadmium batteries are a relatively new addition in the United States to the storage-battery family. These batteries consist of an interleaved assembly of positive and negative plates. Construction of Nickel–Cadmium Battery Cell containers are made of nickel-plated steel. Active materials, nickel hydroxide (positive) and cadmium oxide (negative), are encased … Read more
Introduction of the Edison Storage Battery. The Nickel–Iron–Alkaline battery is the result of an effort to avoid many of the disadvantages of the lead-sulfuric acid combination and is a radical departure from it in every detail of construction. The positive plate consists of hollow, perforated, sheet-steel tubes filled with alternate layers of nickel hydrate and … Read more
Introduction Cells in which electrical energy is stored in the form of chemical reactions and, through chemical reactions again, electromotive force is produced are called secondary cells. Lead-acid cells, nickel–iron cells, and nickel–cadmium cells fall under the category of secondary cells. Here, a description of secondary cells is given. Now let’s understand the lead acid … Read more
What Is a Battery? A battery is a device that converts chemical energy into electrical energy and supplies current for use.A chemical reaction occurs between the two electrodes and the electrolyte inside, producing EMF (Electromotive Force).When the battery is connected to a closed circuit, electrons begin to flow, and electric current is produced.From small watches … Read more
What is the Cooling of Transformers? Cooling of transformers is the process by which the heat generated in the transformer windings and core is safely removed to prevent overheating, insulation damage, and failure.This heat is mainly produced due to I²R losses, hysteresis losses, and eddy-current losses. Transformer Cooling Methods The main methods used to cool … Read more
Lightning Earthing vs Normal Earthing – Deep Practical Guide. Lightning Earthing and Normal Earthing differ mainly in the type of current they handle. Normal Earthing is used to discharge low-voltage fault currents using G.I./copper rods with charcoal–salt filling, while Lightning Earthing is specially designed to handle high-energy lightning surges using thick copper rods, bentonite compounds, … Read more
How to construct an earthing pit correctly, and which materials and techniques are most effective? Answer:The most important factors in earthing pit construction are: Introduction With correct construction and regular maintenance, you can ensure a low-resistance, long-lasting, and safe earthing system. Earthing systems play an extremely important role in electrical safety.A properly constructed earthing pit … Read more
Types of Energy and Forms of Energy are the different ways in which energy exists in nature and is used to perform work. Energy exists in various forms, including mechanical, Thermal, Chemical, Electrical, Nuclear, Light, Sound, and Magnetic Energy. Simple Meaning: Introduction Energy is the “hidden power” behind every civilization — the force that runs … Read more
What is the correct Earthing Installation Cost, and which method is the best? Answer:The cost of earthing depends directly on the type, material, soil condition, and depth. With proper installation, correct material selection, and periodic maintenance, you can build a low-resistance and long-lasting earthing system that protects against electric shocks and keeps your equipment safe. … Read more
How to Reduce Earthing Resistance The most effective way to reduce earthing resistance is to increase soil conductivity, use high-quality backfill compounds (such as Bentonite/GEM), install larger and deeper electrodes, and connect multiple rods in parallel. Increasing moisture, using charcoal–salt layering, chemical earthing rods, selecting the right location, and ensuring corrosion-free, tight connections also help … Read more
What Is Earthing Resistance? Earthing resistance is the opposition offered by an electrode while dissipating current into the ground. Its main formula is: R = ρ / 2πL (ln(4L/d) – 1). The ideal value for homes is 1–5 Ω, and for industries, it is less than 1 Ω̣. Introduction Earthing resistance is one of the … Read more
GI Earthing vs Copper Earthing: The main difference is that GI earthing (Galvanized Iron) is a low-cost option but prone to corrosion with medium conductivity, while constant Copper earthing provides very high conductivity, long lifespan, and stable low resistance. GI earthing is ideal for homes and small loads, whereas Copper earthing is recommended for industries, … Read more
Pipe Earthing vs Plate Earthing: The main difference is that Pipe Earthing uses a vertical G.I. pipe and is low-cost, suitable for homes and small loads, while Plate Earthing uses a Copper or G.I. plate at a deeper depth, offering very low resistance and long life for heavy loads. Pipe earthing is ideal for domestic … Read more
The main difference between Chemical Earthing vs Conventional Earthing lies in soil treatment and resistance performance. In Conventional Earthing, a G.I. pipe or copper plate is installed at a depth of 2–3 meters with a charcoal–salt mixture, and it requires regular watering. Because of this, its resistance generally remains around 5–10 Ω. In Chemical Earthing, … Read more
What is earthing? Earthing connects metal parts of electrical equipment or neutral points to the earth, ensuring human safety, equipment protection, and voltage stabilization during faults or surges. 2. What is grounding? Grounding connects the system neutral to earth, stabilizing system voltage and providing a safe return path for excess or fault current. 3. Difference … Read more
How to Measure Earth Resistance? To measure earth resistance at home, use the 3-point fall-of-potential method with main, current, and potential electrodes. Ensure rods are 3–4 meters deep, properly spaced, and the soil is moist or treated with bentonite. Accurate readings help maintain low-resistance earthing for safety and equipment protection. Why measure earth resistance at … Read more
What are the types of earthing electrodes, and which one is best? Earthing electrodes include GI pipe, Copper pipe, GI plate, Copper plate, Chemical (copper-bonded) rod, and GI/Copper strips.The best electrode depends on soil type and load: For long-lasting and low-resistance earthing, use chemical or copper electrodes, maintain 10–12 ft depth, apply bentonite compound, test … Read more
Why Earthing Fails? Earthing failures mainly occur due to high soil resistance, poor-quality materials, dry pits, corrosion, loose joints, incorrect pit depth, and a lack of testing. To prevent earthing failure, use high-grade electrodes, maintain moisture, apply a bentonite compound, ensure a proper pit distance, perform seasonal testing, and utilize parallel multiple earthing pits to … Read more
1️⃣ What is Pipe Earthing? Answer:Pipe Earthing is an earthing system in which a galvanized iron (G.I.) pipe is installed vertically in the ground to discharge electrical current into the earth safely.It is used in both domestic and industrial installations. 2️⃣ Construction of Pipe Earthing Answer:In Pipe Earthing, a G.I. pipe of 30mm–65mm diameter and … Read more
What is Plate Earthing and why is it used? Plate Earthing is a grounding method in which a metal plate made of copper or G.I. is buried deep in the earth. It provides a low-resistance path for fault current to flow safely into the ground, protecting electrical systems and people from electric shock or damage. … Read more
