Powering the Drive: Unveiling EV Electronics from Coursera

In the rapidly advancing world of electric vehicles (EVs), understanding the application of power electronics is essential for both professionals and enthusiasts. Welcome to our comprehensive video course on the "Electric Vehicle Power Electronics " This course explores the pivotal role and significance of power electronics in the EV ecosystem. As EVs become a prominent part of the transportation landscape, understanding the intricacies of power electronics is crucial. This course equips you with the knowledge and skills to comprehend, utilize, and optimize power electronics for efficient and sustainable electric vehicle operation.

This comprehensive course is divided into four essential lessons. First, we begin with understanding the Fundamentals of power electronics by introducing key components and their functions. Then, the lesson on Power Electronics Topologies explores various power electronics topologies used in EVs, emphasizing pulse-width modulation (PWM), H-bridge, and multilevel converters. In addition to this, the next lesson focuses on Control Strategies and Algorithms. We’ll also discuss the control techniques employed in electric vehicle power electronics for efficient power conversion. Finally, the motor drive systems, energy management techniques, and their synergy with power electronics to enhance the energy efficiency and range of an electric vehicle are discussed.

This program is designed for individuals with a basic understanding of electrical engineering or power electronics and an interest in electric vehicles and sustainable transportation.

The learners should have a fundamental understanding of electrical circuits and basic electronics principles. Familiarity with electric vehicle concepts is beneficial but not mandatory.

By the end of this course, you'll possess a holistic understanding of power electronics in electric vehicles, enabling you to apply this knowledge effectively.

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Syllabus

Powering the Drive: Unveiling EV Electronics

Discover the essential principles and applications of power electronics in electric vehicles (EVs) with our comprehensive course. Gain insights into the role and significance of power electronics, understand key components, explore various power electronics topologies, and master control strategies. Equip yourself with the knowledge and skills needed to optimize EV performance and energy efficiency, contributing to the future of sustainable transportation. Ideal for beginners with a basic understanding of electrical engineering or power electronics and an interest in EVs.

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Primarily beneficial for beginners interested in expanding their knowledge and expertise in the field of electric vehicles and power electronics

Teaches the fundamental principles and applications of power electronics, which is a core component of electric vehicles

Provides insights into the role and significance of power electronics in the electric vehicle ecosystem

Explores various power electronics topologies used in electric vehicles, emphasizing pulse-width modulation (PWM), H-bridge, and multilevel converters

Discusses the control strategies and algorithms employed in electric vehicle power electronics for efficient power conversion

Examines the motor drive systems, energy management techniques, and their synergy with power electronics to enhance the energy efficiency and range of an electric vehicle

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Powering the Drive: Unveiling EV Electronics with these activities:

Review basic concepts of power electronics

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Reviewing these fundamentals will strengthen your foundation for understanding the concepts explored in this course.

Browse courses on Power Electronics

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Revisit the principles of power conversion and energy transfer.
Review the characteristics and functions of power electronic components like diodes, transistors, and thyristors.
Understand the basic topologies used in power electronics.

Explore online resources and video tutorials

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Exploring additional resources and tutorials will complement the course materials, providing diverse perspectives and enhancing your comprehension.

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Identify reputable websites or online platforms offering tutorials on power electronics.
Select specific topics or areas you want to reinforce.
Dedicate time to following the tutorials and taking notes.

Assist fellow students or learners in understanding power electronics concepts

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Explaining concepts to others will reinforce your understanding, identify areas where you need further clarification, and contribute to the learning community.

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Identify opportunities to help fellow students, such as in online forums or study groups.
Prepare to explain concepts clearly and concisely.
Provide guidance and support to learners facing difficulties.

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Attend workshops or seminars on EV power electronics

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Attending workshops will expose you to industry experts, cutting-edge research, and practical applications, broadening your knowledge and network.

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Identify relevant workshops or seminars in your area or online.
Register and attend the event.
Actively participate in discussions and ask questions.

Career center

Learners who complete Powering the Drive: Unveiling EV Electronics will develop knowledge and skills that may be useful to these careers:

Electronics Engineer

Electronics Engineers design, develop, test, and oversee the production of electrical and electronic systems and components. Power electronics knowledge is critical in this role, as it is used in various applications, such as power conversion, motor control, and energy storage. This course provides a comprehensive understanding of power electronics principles, topologies, control strategies, and their application in electric vehicles, making it highly relevant for Electronics Engineers.

See salaries and explore the career path for Electronics Engineer

Power Electronics Design Engineer

Power Electronics Design Engineers design and develop power electronic circuits and systems for various applications, including electric vehicles. This course provides a comprehensive foundation in power electronics principles, topologies, and control techniques, enabling Power Electronics Design Engineers to optimize the performance and efficiency of their designs.

See salaries and explore the career path for Power Electronics Design Engineer

Electric Vehicle Powertrain Engineer

Electric Vehicle Powertrain Engineers design, develop, test, and evaluate electric vehicle powertrains, which include motors, batteries, power electronics, and control systems. A thorough understanding of power electronics is essential for this role, as it enables engineers to optimize powertrain performance and efficiency. This course provides a deep dive into power electronics concepts and their application in electric vehicles, making it a valuable resource for Electric Vehicle Powertrain Engineers.

See salaries and explore the career path for Electric Vehicle Powertrain Engineer

Automotive Engineer

Automotive Engineers design, develop, test, and evaluate automobiles and their systems. Electric vehicles are becoming increasingly common, so Automotive Engineers need to understand power electronics to design and integrate electric powertrains into vehicles effectively. This course provides a solid foundation in power electronics for Automotive Engineers, helping them stay up-to-date with the latest technologies.

See salaries and explore the career path for Automotive Engineer

Control Systems Engineer

Control Systems Engineers design and implement control systems for various applications, including electric vehicles. Power electronics plays a vital role in controlling electric vehicle motors and energy management systems. This course provides a comprehensive understanding of power electronics control techniques, making it beneficial for Control Systems Engineers working on electric vehicle projects.

See salaries and explore the career path for Control Systems Engineer

Energy Storage Engineer

Energy Storage Engineers design and develop energy storage systems for various applications, including electric vehicles. Power electronics is essential for interfacing energy storage devices with electric vehicle powertrains. This course provides insights into the role of power electronics in energy storage systems, enabling Energy Storage Engineers to optimize system performance and efficiency.

See salaries and explore the career path for Energy Storage Engineer

Power Systems Analyst

Power Systems Analysts analyze and design electrical power systems, including those used in electric vehicles. Power electronics knowledge is valuable in this role, as it helps analysts understand the behavior and performance of power electronic components and systems. This course provides a foundation in power electronics principles, topologies, and control, making it helpful for Power Systems Analysts working on electric vehicle-related projects.

See salaries and explore the career path for Power Systems Analyst

Renewable Energy Engineer

Renewable Energy Engineers design and develop systems to harness and utilize renewable energy sources, such as solar and wind energy. Power electronics is essential for interfacing renewable energy sources with the electrical grid. This course provides an overview of power electronics principles and their application in renewable energy systems, making it beneficial for Renewable Energy Engineers.

See salaries and explore the career path for Renewable Energy Engineer

Electrical Design Engineer

Electrical Design Engineers design and develop electrical systems for various applications, including electric vehicles. Power electronics is used extensively in electric vehicles for power conversion, motor control, and energy management. This course provides a foundation in power electronics principles and their application in electric vehicles, making it beneficial for Electrical Design Engineers.

See salaries and explore the career path for Electrical Design Engineer

Mechatronics Engineer

Mechatronics Engineers design and develop systems that integrate mechanical, electrical, and computer engineering principles. Power electronics is becoming increasingly important in mechatronics systems, as it enables efficient control of motors and other actuators. This course provides a foundation in power electronics principles and their application in mechatronics systems, making it beneficial for Mechatronics Engineers.

See salaries and explore the career path for Mechatronics Engineer

Test Engineer

Test Engineers design and execute tests to ensure the quality and performance of products and systems, including electric vehicles. Power electronics knowledge is valuable in this role, as it helps Test Engineers understand the behavior and performance of power electronic components and systems. This course provides a foundation in power electronics principles and their application in electric vehicles, making it helpful for Test Engineers working on electric vehicle-related projects.

See salaries and explore the career path for Test Engineer

Product Design Engineer

Product Design Engineers design and develop new products, including electric vehicles. Power electronics knowledge is becoming increasingly important in product design, as it enables engineers to integrate efficient and reliable power electronic systems into their products. This course provides a foundation in power electronics principles and their application in electric vehicles, making it beneficial for Product Design Engineers.

See salaries and explore the career path for Product Design Engineer

Electrical Project Manager

Electrical Project Managers oversee the planning, execution, and delivery of electrical engineering projects, including those related to electric vehicles. Power electronics knowledge is beneficial in this role, as it helps Project Managers understand the technical aspects of electric vehicle power systems and make informed decisions. This course provides an overview of power electronics principles and their application in electric vehicles, making it beneficial for Electrical Project Managers.

See salaries and explore the career path for Electrical Project Manager

Technical Sales Engineer

Technical Sales Engineers provide technical expertise to customers and help them select and implement the right products and solutions. Power electronics knowledge is valuable in this role, as it helps Sales Engineers understand the technical aspects of power electronic systems and effectively communicate their benefits to customers. This course provides a foundation in power electronics principles and their application in electric vehicles, making it beneficial for Technical Sales Engineers working in the electric vehicle industry.

See salaries and explore the career path for Technical Sales Engineer

Quality Assurance Engineer

Quality Assurance Engineers ensure the quality and reliability of products and systems, including electric vehicles. Power electronics knowledge is valuable in this role, as it helps Quality Assurance Engineers understand the behavior and performance of power electronic components and systems. This course provides a foundation in power electronics principles and their application in electric vehicles, making it beneficial for Quality Assurance Engineers working on electric vehicle-related projects.

See salaries and explore the career path for Quality Assurance Engineer

Powering the Drive

Unveiling EV Electronics

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