Skip to main content

Power Electronics is the part of Electrical Engineering


 Power Electronics in Electrical Engineering

What Is Power Electronics?

Power Electronics mean converting electric energy from one form to another form, the output after the conversion is far better, efficient, error-free, clean, compact, and simple to use.

The study of power electronics and electric motors involved in the processing of electric power for a variety of uses. It will provide a wide range of electricity which can be a few watts to megawatts. Like various computers with disk drives, fans with different speeds, lamps with different lightning, an electric vehicle with different modes, electric drives, etc.

The field of power electronics is really huge and vast, every hour we use 12 billion KW of electricity which is more than 80% of generated current, some part of this converted, processed, or recycled. When we convert the current in different ways, at that time we are losing more of the part of this. Estimated power consumption in a desktop sold in one year, which is equal to the 17 power plants of 500 MW.

Why Do We Need To Improve the Power Efficiency Of The Power System

When we convert the current in different ways, at that time we are losing more of the part of this. Estimated power consumption in a desktop sold in one year, which is equal to the 17 power plants of 500 MW. that’s why we need to improve the efficiency of the power system.

According to calculation if we make power conversion more efficient then we can save 35% of energy in our daily uses.

That’s what Arya College the best engineering college in Jaipur offers to learn about power and energy systems, it is greatly significant to students.

Application of Power Systems

Residential

  • Refrigeration and freezers
  • Space heating
  • Air conditioning
  • Cooking
  • Lighting
  • Electronics (PCs, other entertainment equipment

Commercial

  • Heating, ventilating, and air conditioning
  • Central refrigeration
  • Lighting
  • Computers and office equipment
  • Uninterruptible power supplies (UPSs)
  • Elevators
  • Industrial
  • Pumps
  • Compressors
  • Blowers and fans
  • Machine tools (robots)
  • Arc furnaces and induction furnaces
  • Lighting
  • Industrial lasers
  • Induction heating
  • Welding

Transportation

  1. Traction control of electric vehicles
  2. Battery chargers for electric vehicles
  3. Electric locomotives
  4. Street cars, trolley buses
  5. Subways
  6. Automotive electronics, including engine controls
  7. Utility systems
  8. HVDC
  9. SVC
  10. Supplemental energy sources (wind, photo voltaic), fuel cells
  11. Energy storage systems
  12. Induced draft fans and boiler feedwater pumps
  13. Aerospace
  14. Space shuttle power supply systems
  15. Satellite power systems
  16. Aircraft power systems
  17. Telecommunications
  18. Battery chargers
  19. Power supplies (DC and UPS)

We can’t assemble the uses of electricity in a list. The electricity is used in approximately each and every sector. The electric devices are easily available in the market due to the easy manufacturing process, that's why these are easily available in the market for everyone to use. In the end, it can be summarized in the words that, the day is not far when all of the electrical energy in the world will pass through power electronic systems.

Source: Click Here

Labels:

Comments

Post a Comment

Popular posts from this blog

What are the MBA Specialization Courses?

Certainly, the number of applicants is increasing exponentially in the management field. The first year of MBA will disseminate the basic knowledge of the core course. It builds a foundation of the basic concepts of the different streams of management courses. However, in the second year, you have to choose the specialization area in a particular subject. Arya College Jaipur offers all the different stream of MBA courses under one roof. The college is one of the best MBA colleges in Jaipur. Many features influence your decision to choose the field of specialization. Some features are job availability, interest, package, etc. MBA Specializations Marketing :  The MBA in marketing is the demand of time. The competition is increasing in the market, and hence, the demand for excellent market skills is increasing simultaneously. The marketing area will develop the ability to differentiate your product from other products ion market. Moreover, it will create the efficiency to sustai...
Post a Comment
Read more

20 Innovative Final Year Project Ideas for Engineering Students (2025 Edition)

Here are 20 innovative final year project ideas for engineering students in 2025, reflecting cutting-edge technology trends and real-world relevance across several disciplines: Renewable Energy & Sustainability Solar-Powered Water Pump for Rural Irrigation : Develop a high-efficiency solar pump system for sustainable agriculture and water management. Wind Turbine Energy Conversion with IoT Monitoring: Create a wind energy system with remote performance monitoring using IoT sensors. Smart Plant Moisture Monitoring System: Automate irrigation by measuring soil moisture, optimizing water usage for crops. Solar-Powered Autonomous Lawn Mower: Combine green energy with robotic automation for smart landscaping. Automation, Robotics & Industry 4.0 Autonomous Delivery Robot for Urban Logistics: Build a self-navigating robot for last-mile delivery—integrate mapping, sensors, and AI. Smart Traffic Management System Using AI & Cameras: Design a system that uses real-time ...
Post a Comment
Read more

Mastering the Fundamentals: Key Concepts Every Electrical Engineering Student Should Understand

A solid grounding in the fundamentals is essential for every aspiring electrical engineer. Mastery of these core concepts not only enables effective problem-solving and innovation but also forms the basis for all advanced studies and professional success in the field. Core Principles and Laws Ohm’s Law: This fundamental law relates voltage, current, and resistance in a circuit. It states that the voltage across a conductor is directly proportional to the current flowing through it, provided the physical conditions remain constant (V = I × R). Kirchhoff’s Laws: Kirchhoff’s Current Law (KCL): The total current entering a junction equals the total current leaving it. Kirchhoff’s Voltage Law (KVL): The algebraic sum of all voltages around any closed loop in a circuit is zero. Network Theorems: Thevenin’s and Norton’s theorems are essential for simplifying complex circuits and analyzing their behavior.  Basic Electrical Quantities Current (I): The flow of electric charge, measured i...
Post a Comment
Read more