Overview
Grasp fundamental concepts of power electronics, including the role of converters, inverters, and power management in electric vehicle systems., Learn about different power semiconductor devices (e.g., IGBTs, MOSFETs) used in electric vehicles, their characteristics, and their impact on efficiency and pe, omprehend how DC-DC converters, DC-AC inverters, and other power electronic circuits operate and their importance in energy conversion for electric vehicles., Understand how power electronics drive electric vehicle motors (AC and DC motors), control their speed, torque, and efficiency.
This course is designed for a wide range of learners who want to deepen their understanding of power electronics and its application in the rapidly growing field of electric vehicles (EVs). The following types of learners will find the course content valuable: Electrical and Electronics Engineering Students: Undergraduate or graduate students looking to expand their knowledge of power electronics and how it plays a critical role in electric vehicle systems. EV Enthusiasts and Technologists: Individuals with a passion for electric vehicles who want to understand how EV power systems work, including converters, inverters, and motor drive technology. Automotive Engineers: Professionals in the automotive industry seeking to upskill and learn the power electronic systems used in electric and hybrid vehicles to enhance their career opportunities. Electrical and Electronics Technicians: Technicians who work on or aspire to work on electric vehicle systems and need practical knowledge of power electronics, charging systems, and motor drives. Renewable Energy Enthusiasts: Individuals interested in green technology and renewable energy applications who want to explore how power electronics are used to optimize electric vehicle performance and energy efficiency. Power Electronics Engineers: Engineers with experience in power electronics who want to specialize in electric vehicles, learning advanced topics such as battery management systems, regenerative braking, and charging infrastructure. Entrepreneurs and Innovators in the EV Industry: Entrepreneurs who want to dive into the technical aspects of EV systems, equipping themselves with the knowledge needed to innovate and create solutions for the electric vehicle market. Anyone Interested in Sustainable Transportation: Individuals curious about the future of transportation and energy systems who want to gain insight into the technology driving electric vehicle adoption and its environmental impact. Whether you're a student looking to build foundational knowledge or a professional aiming to specialize in electric vehicle technologies, this course provides practical, industry-relevant insights into power electronics that are crucial for the future of mobility.
Basic Knowledge of Electrical Engineering Understanding of fundamental concepts in electricity and magnetism, such as voltage, current, resistance, and power. Familiarity with basic electrical components (resistors, capacitors, inductors) and circuits. 2. Familiarity with Semiconductor Devices Basic knowledge of semiconductor materials and devices, such as diodes and transistors (BJT, MOSFET), will help in understanding power electronic components. 3. Introductory Understanding of Power Electronics Some exposure to power electronics concepts, such as converters, inverters, and rectifiers, can be helpful but is not always mandatory. Courses typically start from a fundamental level. 4. Basic Circuit Theory Understanding of DC and AC circuit analysis, including Ohm’s Law, Kirchhoff’s Laws, and simple circuit calculations (RLC circuits). 5. Interest in Electric Vehicle Technology General knowledge of electric vehicles, their components (motors, batteries), and their operation will give context to how power electronics are applied. 6. Familiarity with Basic Mathematics Knowledge of algebra and basic calculus is often necessary for analyzing circuits and understanding waveform control, though some courses may keep the math light. 7. Computer Skills Comfort using simulation software like MATLAB/Simulink, LTspice, or any other circuit design and analysis tools may be beneficial, as some courses may include practical modeling and simulations. 8. Willingness to Learn Motivation to explore new concepts, especially in power electronics, renewable energy, and electric vehicle technology, as this is a rapidly evolving field. While these prerequisites are not always mandatory, having a background in these areas will help learners grasp more complex topics and move through the course more easily. Courses may also provide introductory sections for those without a strong technical background.
Unlock the world of Power Electronics for Electric Vehicles in this expertly designed Udemy course! Power electronics are at the heart of electric vehicles, playing a crucial role in energy conversion, motor control, and battery management. In this course, you will explore:
Fundamentals of power electronics and their importance in EVs.
DC-DC converters, inverters, and chargers used in EV systems.
Motor control techniques for smooth and efficient EV operation.
Battery management systems (BMS) for optimal performance and longevity.
Real-world applications of power electronics in modern electric vehicles.
A key focus is on motor drive systems, where power electronics control key functions like motor speed, torque, and overall efficiency. The course also dives into the role of power electronics in EV charging, explaining how AC and DC fast-charging technologies operate, manage energy, and ensure safety.
Designed for engineers, students, and EV enthusiasts, this course offers a blend of theory and practical examples to help you understand and apply the latest technologies in EV power systems. By the end of this course, you will have the knowledge and skills to design, analyze, and optimize power electronics for electric vehicles, enhancing your career in this fast-growing industry.
Join now and drive the future of electric mobility!
Tanzeel Ur Rehman .
Tanzeel Ur Rehman
Udemy Instructor
Youtuber
PhD Scholar Electrical Engineering (Electric Vehicles)
Power Electronics Converters
Renewable Energy
Energy Storage System
Batteries
Control Systems
As Founder/CEO Indus Electric Electric Two Wheeler (Electric Motorcycle Company) with vision to introduce indigenous and Retrofit/Converted Motorcycle and also new Models in Market by research, design, development,innovation, technology and commercialization growth and scalability.
As PhD Scholar major in EV research and development and knowledge of electric vehicle technology and industry as leadership role.
As founding HoD Department of Engineering Technology at renowned and prestigious university where my prime role to provide strong academic leadership to lead, manage and develop the department to ensure it achieve the highest possible standard of excellence in all activities supported by faculty and administration (VC & Registrar) office with leadership and management, responsibility for teaching and students, research, technology innovation,incubation, acceleration, commercialization, knowledge transfer, people management, financial management and quality assurance.
As GM Utilities (Power Generation, Boiler, Compressor) at one of the leading multinational garment industry oversee the activities of utilities division.