top 20 Projects On power Electronics

Top 20 Projects On Power Electronics, Power Electronics Projects

Hello guys, welcome back to my blog. In this article, I will discuss the top 20 projects on power electronics, or power electronics projects for electrical and electronics engineering students, etc.

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Top 20 Projects On Power Electronics

Power electronics is a branch of electrical engineering that studies the design, control, computation, and integration of nonlinear, time-varying energy processing electronic systems with fast dynamics.

It is the use of solid-state electronics to control and convert electrical energy. Many solid-state devices exist, including diodes, silicon-controlled rectifiers, thyristors, TRIACs, and power MOSFETs.

Power electronics projects for electrical and electronics engineering students are listed below. Each of the projects listed below can be utilized for a variety of purposes.

01. A Loss-Adaptive Self-Oscillating Buck Converter for LED Driving

A loss-adaptive bipolar junction transistors driving system and an occasional-loss high current sensing approach are used in this project’s function theory. For experiment verification, a model The LED driver was used in conjunction with various low-cost parts and devices to power a 24-volt lighting scheme with up to six LEDs.

02. IUPQC (Interline Unified Power Quality Conditioner) Project

The major goal of this IUPQC project is to regulate the voltage across a sensitive load in other feeds while controlling the voltage on one feeder. As a result, the acronym IUPQC is used. By adjusting the voltage across various loads in other feeders, it will be possible to provide a high-quality power supply with few problems.

03. SMS Based Electric Billing System Projects

The major concept of this SMS-based project is to put into reality an effective method of distributing power bills to consumers by using a remote system with the assistance of GSM technology in the form of an SMS (text messages). As far as we can tell, the automatic meter reading is one of the upcoming technologies for studying various forms of bills via remote application without the need for human intervention.

04. Power Electronics Converters for Wind Turbine Systems

Power converter technology is assessed in this study with a focus on current ones, particularly those that offer the potential for amplified power but have not yet been used due to the large risk associated with the high-power exchange.

05. Inter-Integrated Circuit

The main purpose of the Inter-Integrated Circuit Mini Project is to interface with hosts like EEPROM and monitor parameters like humidity and temperature. It’s used in embedded systems to interface with real-time clocks, and it has the unique advantage of allowing us to add or remove peripherals while the system is running, thus rendering the system dormant for hot substitution.

06. Air Flow Detector

The airflow detector circuit displays the airflow rate visually. This detector is used to check the airflow in a certain area. The filament of the incandescent bulb serves as the sensing component in this project.

07. Dual Converter using Thyristors

This project outlines a method for achieving bidirectional DC motor rotation by applying dc power to both polarities. A dual converter based on thyristors is developed here. The firing angel delay approach is also used to control the motor speed by controlling the voltage provided to the thyristors.

08. Cyclo Converters using Thyristors

This project outlines a method for controlling the speed of an induction motor by supplying AC the voltage at three different frequencies: F, F/2, and F/3, with F being the fundamental frequency.

09. Space Vector Pulse Width Modulation

A three-phase supply can be made from a single-phase supply by first converting the single-phase AC signal to DC and then utilizing MOSFET switches and a bridge inverter to convert the DC signal to a three-phase AC signal.

10. FACTS by SVC

Using thyristor switched capacitors, this project proposes a method for achieving flexible AC transmission. To compensate for the trailing power factor caused by the presence of an inductive load, the capacitors are connected in shunt across the load.

11. FACTS by TSR

To send the maximum amount of source power to the load, flexible AC transmission is required. This is accomplished by ensuring that the power factor is equal. Shunt capacitors or inductors across the transmission line, on the other hand, produce a change in the power factor. The presence of shunt capacitors, for example, amplifies the voltage, resulting in a voltage at the load that is greater than the source voltage.

12. UPFC Related Display of LAG and LEAD Power Factor

A choke is usually used in series with any electrical load, such as a lamp. However, this causes a lag in the current compared to the voltage, resulting in higher electrical unit consumption. The power factor can be improved to compensate for this.

13. Thyristor Power Control by IR Remote

This suggested device uses an IR remote to control the speed of induction motors, similar to fans. This project is used to regulate the fan speed using the TV remote in home automation applications. A microcontroller can be attached to an infrared receiver to read the code from the remote and activate the associated output via a digital display.

14. DC-DC Converter using Switched-Capacitor

A DC-DC converter with an inductor can be utilized in a variety of applications. The capacitor DC-DC converter is required for this project. This project is utilized in high-voltage dc-based power system applications.

15. Imbalance of Supply & Demand in Microgrid

Within the microgrid, this project includes a system to control demand as well as a supply imbalance. In a microgrid, the energy storage system is typically utilized to balance load and demand. Maintenance and installation of energy storage systems, on the other hand, are costly.

16. Hybrid Energy Storage System Design

This research is being used to construct a hybrid energy storage system. This technique is used to lower the cost of electric vehicles while simultaneously ensuring long-distance reliability. An optimal control method for a hybrid energy storage system with a Li-ion battery based on the super capacitor’s SOC can be devised in this project.

17. Inductor Circuit Breaker

The goal of this project is to build an inductor circuit for usage in DC applications. This project aims to eliminate power conversion steps in future microgrids that employ renewable energy sources and are modeled after dc power systems.

18. Solid State Transformer with Soft-Switching

This project implements a new topology for usage in a completely bidirectional solid-state transformer. An HF transformer, 12 primary devices, and sinusoidal input and output voltages are provided without the use of an intermediate DC voltage link are among the features of this system.

19. ACPWM Control of Induction Motor

This project outlines a method for implementing a new speed-control methodology for a single-phase AC induction motor, which entails the development of a low-cost, high-efficiency drive capable of providing single-phase AC to an induction motor using a PWM sinusoidal voltage.

20. Home Automation System using Thyristors

The goal of this project is to create a home automation system utilizing Thyristors. As technology advances, homes become smarter as well. Home appliances are controlled utilizing modern wireless RF technology in this suggested system.

To sum up, This article discusses the most recent power electronics projects that can be utilized in a variety of applications such as transportation, medical equipment, and so on.

I hope this article may help you all a lot. Thank you for reading.

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