Electrical Tips, News & DIY Guides
Machines are devices that convert energy from one form to another, especially between electrical and mechanical energy. In electrical engineering, machines play a vital role in power generation, transmission, industrial automation, and everyday applications.
This category covers electrical machines such as motors and generators, explaining their construction, working principles, types, characteristics, losses, efficiency, and applications. The content is designed to help students, technicians, and engineers understand both theoretical concepts and practical operation of electrical machines used in real-world systems.
Operation of Transformer in On-Load Condition To understand the operation of a transformer in load, let us first recall its on-load condition. In the on-load state, when an input voltage is applied across the primary winding, a small on-load current flows. This current establishes a magnetic flux in the transformer core. What is a Transformer? … Read more
Difference Between Ideal and Practical Transformer When it comes to learning about transformers, two terms often pop up: ideal transformer and practical transformer. They sound similar, but there’s a big difference between them. Let’s explore it in a way that’s easy to understand. What is a Transformer? A transformer is an electrical device that transfers … Read more
Understanding the brake test of dc motor: Imagine trying to find out how well a DC motor is working—how much of the electrical power it uses turns into useful mechanical work. One easy and direct way to check this in a lab is by do something called a Brake Test. Let’s break it down in … Read more
Three-Point Starter A three-point starter is commonly used to safely start DC shunt motors. Just like the two-point starter, it controls the high inrush of current when the motor is switched on. But this one comes with an added feature—overload and no-voltage protection, making it more reliable. What is a Three-Point Starter? The name “three-point” … Read more
DC Motor Starter: DC motors, especially those below 1 HP (0.746 kW), can often be directly connected to a power supply. This is possible because smaller motors have a relatively high armature resistance (Ra), which naturally limits the starting current. Some examples include: However, this direct online starting method cannot be used with larger motors … Read more
What Is Speed Regulation? Think about riding a bicycle. When you’re going downhill with no backpack, it’s super fast and smooth. But going uphill with a heavy bag? How to calculate the speed regulation of DC motors? DC motors act the same way. When there’s no load, they run fast. When there’s a heavy load, … Read more
Complete Guide to Swinburne Test DC Machine The Swinburne Test is a simple and useful method to check the performance of DC motors. It helps us know how much energy the motor uses and how efficient it is. This guide will explain everything in a very simple way. Let’s learn step by step! 1. Step-by-Step … Read more
How to Speed Control of DC Shunt Motors: While controlling the speed of a DC shunt motor may seem like a daunting task, with a little bit of guidance, it can be very simple. This tutorial will break this down step by step with simple language and relevant illustrations. 🔌 A DC Shunt Motor: A … Read more
What is DC Motor Speed Control? Every electric motor has a fixed speed written on its nameplate. This is called the rated speed. It tells us how fast the motor is supposed to run when it’s working normally. But in real life, things keep changing. When the load on the motor changes — like if … Read more
Compensating Winding When a motor or generator is working, the current inside the armature (the rotating part) keeps changing, especially when the load changes suddenly or becomes too heavy. These changes in current create something called a cross magnetizing effect, which means the magnetic field gets pushed to one side. Now imagine this — every … Read more