Cogging in Induction Motor
Cogging in induction motors is a phenomenon that can cause undesirable effects in motor operation. It refers to the periodic jerking or stalling that happens when the motor shaft rotates….
How to Test Anti Islanding Protection
How to test anti islanding protection is a crucial process in ensuring grid safety and reliability. Islanding occurs when a distributed generator continues to power a location even though the…
HVDC Circuit Breakers: Types, Operation, and Applications
High Voltage Direct Current (HVDC) systems provide an efficient method for transmitting power over long distances. These systems are increasingly used in green energy production. Protecting the expensive equipment connected…
How does the star delta starter reduce starting current? Important Concepts
The star delta starter reduce starting current by initially connecting the motor windings in a star configuration, which reduces the voltage applied to each winding. This reduces the starting current and torque. After a set time, the starter switches the windings to a delta configuration, allowing the motor to run at full voltage and power.
Transformer Calculations for a Voltage-Fed Push-Pull Converter
In the world of power electronics, voltage-fed push-pull converters play a crucial role in efficiently transforming electrical energy. At the heart of these converters lies the transformer, a component that…
Flyback Converter Design in 10 Steps: Comprehensive Guide
A flyback converter, also known as a flyback transformer or buck-boost converter, is a type of switched-mode power supply (SMPS) used to convert one DC voltage to another. It is commonly used in low to medium-power applications and has unique features that make it suitable for a variety of electronic devices and power sources.
IGBT Rectifier: Working, Features and Important Applications
An IGBT rectifier, also known as an “Insulated Gate Bipolar Transistor rectifier,” is a kind of rectification circuit that uses IGBTs to change direct current (DC) from alternating current (AC). IGBT rectifiers are widely used in many different applications, especially in power systems and industries where accurate control of DC voltage and current is crucial.
IGBT Transistor: Important Guide
The MOSFET and BJT benefits are combined in the Insulated Gate Bipolar Transistor, also known as the IGBT transistor. Due to its high voltage and current carrying capacity, as well as its superior switching characteristics, it is widely employed in a variety of applications. We will go into the IGBT transistor, its less-discussed properties, and its uses in this thorough discussion.
Boost Converter Interview Questions: Best Guide
In this talk, we’ll look at a variety of boost converter interview questions and get into the specifics of their construction, functionality, and real-world uses. These boost converter interview questions will highlight less-discussed details and offer insightful information on this crucial technology, whether you’re a prospective engineer getting ready for a job interview or an industry professional looking to expand your knowledge.
Thyristor | Blog | Electronics
Thyristor Dimmer: A Quick Guide
A thyristor dimmer, also known as a silicon-controlled rectifier (SCR) dimmer, is an electronic device used to control the brightness or intensity of lighting or the speed of electric motors in various applications. It works by adjusting the voltage supplied to the load, such as an incandescent lamp or an AC motor, to control the output.
Thyristor | Blog | Electronics
Thyristor Rectifier Circuit: A Comprehensive Guide
A thyristor rectifier circuit, often known as a thyristor-based rectifier or just an SCR rectifier, is an essential electrical circuit used to convert alternating current (AC) into direct current (DC). Numerous industrial applications, such as power supplies, motor drives, battery charging systems, and others, frequently use this kind of rectification technology.
Electronics | Blog | Thyristor
Thyristor: Working and Important Comparison Tables
To turn the thyristor on, a gate voltage is applied, typically requiring a positive pulse greater than a threshold value. Once triggered, the thyristor becomes conductive and allows a significant current to flow from the anode to the cathode. Unlike transistors, thyristors latch in the “on” state even if the gate voltage is removed.
HVDC Converter Efficiency: 3 Important Formulas
HVDC Converter Efficiency HVDC Converter Efficiency is an important factor in determining the overall performance and economic viability of HVDC transmission systems. HVDC converter efficiency refers to how effectively electrical…
HVDC Converter: Best Guide to HVDC Transmission System
HVDC Converter technology plays a pivotal role in modern power transmission, enabling efficient and long-distance electricity transfer. In this comprehensive guide, we will delve into the world of HVDC conversion,…
Top 30 Buck Converter Interview Questions: Best Guide
It’s a pleasure to welcome you to this thorough discussion of “buck converter interview questions.” A buck converter is a key part of power electronics and is frequently used for…
Power Electronics Companies: Top 7
Over the past three decades, numerous power electronics companies have made tremendous efforts and advancements in the field of electronics. We have picked the top seven power electronics companies that introduced innovations in the field of transistors, MOSFETs and just changed the market landscape.