Free Expert Guides on Power Systems, Circuit Design & Electrical Troubleshooting

Formulas For Electrical EngineeringElectrical engineering is a branch that deals with the study, design, and implementation of various electrical equipment used in day-to-day life.It covers a wide range of topics like; power systems, electrical machines, power electronics, computer science, signal processing, telecommunication, control system, artificial intelligence, and many more.This branch of engineering is full of formulas and concepts (laws) used in many aspects like solving circuits and i

Faraday’s law of electrolysis is a principle in chemistry and electrical engineering that describes the relationship between the amount of electric charge that passes through an electrolytic cell and the amount of material that is produced or consumed at the electrodes. It is named after the English scientist Michael Faraday, who first described it in the early 19th century.Faraday’s law of electrolysis Formula:According to Faraday’s law, the amount of material that is produced or consumed at th

Mesh current analysis is a method used in electrical engineering to analyze and solve circuits with multiple loops or “meshes.” It involves assigning currents to each loop in the circuit and using Kirchhoff’s laws and Ohm’s law to solve for the unknown currents.To perform mesh current analysis, the circuit is first divided into a number of non-intersecting loops, or “meshes.” The direction of the current in each loop is then chosen and a variable is assigned to represent the current in that loop

A sinusoidal wave signal is a type of continuous wave that has a smooth and repetitive oscillation. It is based on the sine or cosine trigonometric function, which describes the curve of the wave. Sinusoidal wave signals are common in mathematics, physics, engineering, signal processing, and many other fields. In this article, we will explain what a sinusoidal wave signal is, how it is characterized, and why it is important.What is a Signal?Before we define a sinusoidal wave signal, let us first

Aspace chargeis defined as a region of space where electric charges accumulate, either in free space or in a dielectric material. The electric charges can be either positive or negative, and they can be either mobile or immobile. The space charge can affect the electric field, the electric potential, and the current flow in the region.Examples of Space ChargeSpace charge can occur in various situations, such as: Semiconductor junctions: When a p-type semiconductor (which has excess holes) is bro

Automatic Voltage Regulator (AVR)An automatic voltage regulator controls the supply voltage. The voltage is stabilized after being converted. The variation in load on the supply system is the primary cause of the voltage fluctuation. The equipment in the power system is harmed by voltage variations.Installing voltage control instruments in various places, such as close to Transformers, Generators, Feeders, etc.,will help to regulate voltage variance.The voltage regulator is available at multiple

Power electronic converters will serve as the fundamental components of modern power systems. However, they may suffer from poorer reliability if not properly designed, consequently affecting the overall performance of power systems. Accordingly, the converter reliability should be taken into account in design and planning of Power Electronic-based Power Systems (PEPSs). Optimal decision-making in planning of PEPSs requires precise reliability modeling in converters from component up to syste

Phase, neutral, and earth are the three connections that make up an electrical system. For electrical energy to flow securely through the load, each wire connection is important.In simple terms, A phase wire is utilized to carry the primary load current for the load A neutral wire is used for carrying the extremely small or even negligible return current back to the source, and An earthing wire is utilized for carrying the leakage current to the ground.Specifically, a typical problem with the ne

This article aims to incorporate the reliability model of power electronic converters into power system reliability analysis. The converter reliability has widely been explored in device- and converter-levels according to physics of failure analysis. However, optimal decision-making for design, planning, operation, and maintenance of power electronic converters require system-level reliability modeling of power electronic-based power systems. Therefore, this article proposes a procedure to eva

This paper proposes and analyzes a two-stage dc-dc isolated converter for electric vehicle charging applications, where high efficiency over a wide range of battery voltages is required. The proposed conversion circuit comprises a first two-output isolation stage with CLLC resonant structure and a second two-input buck regulator. The transformer of the first stage is designed such that its two output voltages correspond, ideally, to the minimum and maximum expected voltage to be supplied to th