Electric Vehicles have seen a significant growth in popularity and demand over the past decade due to environmental concerns and technological advancements. As a result, there is a need for trained individuals who possess the necessary knowledge and skills to work on electric vehicles. Online courses are becoming an increasingly popular option for individuals looking to gain the necessary knowledge and skills in this field. In this article, we will discuss some of the best electric vehicles courses available online.
Here’s a look at the Best Electric Vehicles Courses and Certifications Online and what they have to offer for you!
Open Course Online For Electric Vehicles
- Open Course Online For Electric Vehicles
- 1. Electric Vehicle Technology – A Beginner’s Course by Er. Prasanthkumar Palani (Udemy) (Our Best Pick)
- 2. Electric Vehicles Comprehensive Course by Dr. Muhammad Naeem (Udemy)
- 3. Electric Vehicle basics by Hanna Hnatova (Udemy)
- 4. Electric Vehicle Battery Management System – Advanced Course by Ritul Shah (Udemy)
- 5. Electric Vehicle Battery Charging Motor Components – Basics by Ritul Shah, Parakh, EC_Mithila Valivade (Udemy)
- 6. Electric Vehicle Education by John Rooney (Udemy)
- 7. Electric Vehicle Crash Course by Dr. Jignesh Makwana (Udemy)
- 8. Electric Vehicle Charging Station by Ion Oboroc (Udemy)
- 9. Hydrogen Powered Fuel Cell Electric Vehicle by Ezenith Education (Udemy)
- 10. Electric Vehicle Certificate Course by Prashant Kumar Dey, Md Istekhar Alam (Udemy)
1. Electric Vehicle Technology – A Beginner’s Course by Er. Prasanthkumar Palani (Udemy) (Our Best Pick)
This beginner’s course in Electric Vehicle Technology covers various aspects of electric and hybrid vehicles. The course offers a comprehensive overview of all high voltage components involved in electric or hybrid vehicles. Participants will also learn about the carbon footprint of electric vehicles and the main considerations and performance requirements for various vehicle systems. The course delves into the operation of brushless DC and induction motors, torque speed curves for motors, and battery operation and performance requirements. The course also covers Battery Management System (BMS) and different thermal management methodologies applied for battery pack systems and their challenges. Participants will learn about estimating state of charge, state of health, power, and energy, and will compare and contrast various industry and regulatory standards for hybrid vehicle components, batteries, and charging systems. The course also covers selecting and sizing system components based on key vehicle system requirements and testing and regulatory requirements for electric vehicle and components at both system and subsystem levels. Participants will learn about the challenges in meeting the safety regulations at an international level and the drawbacks of current testing procedures applied by international testing agencies for electric and hybrid vehicles. The course content is divided into five sections: EV components and architecture, electric motor and inverter for EV and HEV application, battery technology for electric vehicle applications, charging system technology for electric vehicle applications, and testing of electric vehicles and components. The course also includes practice problems and solutions related to electric powertrain sizing.
The Electric Vehicles Comprehensive Course is an educational program designed to provide learners with a comprehensive understanding of electric vehicles. Taught by Dr. Muhammad Naeem, this course covers topics such as battery cars, hybrid, plug-in, battery management system and EV certificate course. The course is aimed at anyone who wants to develop a thorough knowledge of electric vehicles and their fundamental systems, progress history, categorization, and potential guidelines for future developers.
The course covers the current and future of the electric vehicle industry, including hybrid, plug-in hybrid, extended range, and fuel cell automotive vehicles. Additionally, it provides a detailed analysis of the types of electric vehicles available and their batteries, including the materials and assembly used. The course also offers a simple yet comprehensive overview of how batteries and battery thermal management systems work in electric cars.
The Electric Vehicles Comprehensive Course is designed to be suitable for students who are new to the electric vehicle industry. However, those who are already advanced in this field can skip some of the early lectures and go straight into more advanced sections of the course. The course comprises video lectures, where Dr. Naeem explains interesting facts about the electric vehicle and battery technologies.
The course is subject to further growth and expansion, with several additional lectures and resources being continuously added with the latest information to provide learners with a superior understanding of the subject. The course is divided into several sections, including course introduction, how an electric vehicle works, types of vehicles, ICE vs EV torque output, types of batteries used in electric vehicles, charging of electric vehicles, battery management system (BMS), reasons for EV batteries catching fire and their safety improvements, battery configurations, electric vehicle manufacturing process overview, cost of EV ownership, impacts of electric vehicles on society, electric vehicle business opportunities, future of electric vehicles, and assignment.
Course Title: Electric Vehicle Basics
The Electric Vehicle Basics course is designed to provide students with a comprehensive understanding of electric cars. Taught by instructor Hanna Hnatova, this course covers the basic systems of electric vehicles, their history and classification, and their influence on the transportation industry. Students will also learn about possible directions for future developers.
The course is structured to make the theoretical material more engaging; all lessons are supplemented with videos, diagrams, and pictures. This approach ensures that students gain a better understanding of the basic concepts and techniques associated with electric transportation.
The course is subject to ongoing development and improvement, with additional lectures and resources planned to help students understand the topic. The course content is divided into three main sections: Introduction, Basics of Electric Vehicles, and Basics of Hybrid Vehicles.
Overall, this course is ideal for anyone who wants to gain a foundational understanding of electric cars and their role in the modern transportation industry.
The Electric Vehicle Battery Management System – Advanced Course is designed to teach participants the complete process of designing a battery management system (BMS) for electric vehicles. The course provides detailed instruction on topics such as BMS component selection strategies, state of charge (SoC) estimation algorithms, passive cell balancing algorithms, and hardware design circuits for each module. Communication protocols like CAN, UART, I2C, and SPI are also explained in detail. The course includes multiple assignments and quizzes to assess understanding, and aims to prepare graduates for careers in the electric vehicle industry.
The course’s emphasis is on developing a BMS from scratch, with a focus on minimizing operating costs and ensuring long battery life, good efficiency, and thermal stability. The course covers hardware design circuits and code implementation on STM32 microcontrollers, which can be incorporated directly into product designs with minimal modifications.
The Electric Vehicle Battery Management System – Advanced Course is valuable for anyone interested in the growing field of electric vehicles, which offers a wide range of job opportunities. The course provides knowledge and understanding of the latest technologies in the field, with a focus on lithium ion battery cells, which comprise approximately 40% of the overall cost of electric vehicles.
The course is divided into sections covering topics such as passive cell balancing, voltage, current, and temperature measurement, coulomb counting, BMS IC selection, MCU for BMS, lithium ion battery cell modeling, and communication protocols. The course also covers power management and BMS design for 12V applications.
Overall, the Electric Vehicle Battery Management System – Advanced Course is an excellent resource for individuals seeking to develop their own BMS or pursue careers in the electric vehicle industry.
5. Electric Vehicle Battery Charging Motor Components – Basics by Ritul Shah, Parakh, EC_Mithila Valivade (Udemy)
The Electric Vehicle Battery Charging Motor Components – Basics course is designed to provide an introduction to the operation and components of electric vehicles. The course is suitable for a range of individuals, including EV enthusiasts, owners, managers, students, professionals, and hobbyists. The course covers the principles of all the components used in an electric vehicle, including EVSE, BLDC motors, motor controllers, DC-DC converters, chargers, and power train concepts.
The course also provides in-depth coverage of lithium-ion batteries, which account for approximately 40% of the cost of an electric vehicle. The course covers various types of lithium-ion batteries, including NMC, NCA, LFP, LTO, and solid-state batteries. Battery pack connections and assembly are discussed in detail, and various cell configurations are covered to enable participants to develop their own battery pack.
Battery management systems are also covered in the course, with a focus on features such as cell balancing, state of charge estimation, coulomb counting, and Kalman filters. Participants will also learn how to select an appropriate IC for designing a battery management system.
Thermal management systems are critical for EV batteries, and the course covers various cooling techniques used in the industry. The course is a combination of theory, quizzes, practical examples, and mathematical calculation assignments. An industrial perspective has been added to the course to connect universities to industries. The course is designed to be accessible to beginners while providing valuable information to more experienced individuals.
The Electric Vehicle Education Course, led by instructor John Rooney, is a comprehensive educational program that explores the various types of electric vehicles, how they operate, and the associated charging processes. The course covers a range of topics, from vehicle nomenclature to cost of ownership, and is designed to be accessible and informative for those interested in the future of the automotive industry.
The course is organized into several sections, including an Introduction, Vehicle Types, Nomenclature, How an EV Works, The Battery, Charging, Cost of Ownership, Incentives and Funding, EV Performance, EV Features, Safety, Benefits, Customer Concerns, and a Final Test. Each section delves into a different aspect of electric vehicles, with a focus on providing a broad understanding of the topic.
The course content covers everything from the basics of EV operation to more advanced topics such as incentives and funding. Topics such as charging, performance, and safety are also covered in depth. The course is designed to be accessible to anyone who wants to learn about electric vehicles, regardless of their level of expertise.
The Electric Vehicle Education Course provides a comprehensive overview of the electric vehicle industry, including the associated terminology, charging processes, and cost of ownership. It is an ideal program for anyone who wants to learn about the future of the automotive industry and the growing popularity of electric vehicles.
The Electric Vehicle Crash Course is a course designed by Dr. Jignesh Makwana to help individuals start Electric Vehicle (EV) Projects and Prototype Development. The course is aimed at EV enthusiasts of all ages, those interested in starting an EV project, and engineering students working on EV projects. Dr. Makwana is an expert in the field of EV motor and drive, with a specialization in the SR Motor, which has recently been used in Tesla’s new Model S3 in replacement of the Induction Motor.
The course includes an EV Calculation Section, where the student can solve specially designed assignments to find the EV motor rating, torque, range of the vehicle, and complete data sheet of the EV project. The course also includes a section on Basic System Parameters, PMDC Motor Kit, BLDC Hub Motor Kit, Types of Electric Bicycle, and Other Important Things need to Know.
Dr. Makwana is available to answer queries from students as soon as possible, including on Sundays. He also personally checks all assignments in detail and makes important notes whenever necessary. Students can learn about many fundamental concepts and gain knowledge and practice in the field of EV.
The course has received excellent reviews from students who found the concepts to be clearly explained and suitable for both beginners and those with some experience in the industry. The course is recognized by RhyMak Electronics and other EV industries.
Dr. Makwana is the founder and owner of RhyMak Electronics, which manufactures electric bicycles and accessories in India. He has completed many EV projects, including EV conversions and purpose-built EVs. He is often invited to conduct hands-on workshops on EVs and other topics and has designed and started the very first Post Graduate program in Electric Vehicle in India at Marwadi University.
The Electric Vehicle Charging Station Course is designed for individuals who aim to gain knowledge about electric vehicle conductive charging systems, plugs, socket-outlets, vehicle connectors, and vehicle inlets to effectively choose the right EV and charging station. The course covers both A.C. and D.C. charging, and introduces the main international and European standards and laws such as the IEC 61851, IEC 62196, and EU/94/2014, Mandate M/468.
Participants will learn about the general system requirement and interface of electrical vehicle charging stations, types of electric vehicle connections using cables and plugs, electric vehicle charging modes, and active power. The course also covers topics such as control pilot function, PWM modulation, typical charging cycle under normal operating conditions, RCD (residual current device), fault protection, vehicle to grid (V2G), electric vehicle battery swap system, and an overview of electromobility standards.
The course is divided into several sections, including an introduction and definitions, A.C. charging (Type 1, 2, 3), D.C. charging, the concept of Vehicle to Grid (V2G), battery swap system (IEC TS 62840), electromobility standards, and fault protection (RCD Type A, B, AC). The course concludes with practice tests to help reinforce the knowledge gained throughout the program.
This course, titled Hydrogen Powered Fuel Cell Electric Vehicle, provided by Ezenith Education, aims to educate learners on the inner workings of fuel cells, the components involved, and the different types of fuels used. The course is designed to cover a wide range of topics, including the components of fuel cells, auxiliaries, and manufacturing technologies. Additionally, learners will gain an understanding of hydrogen fuel cells and their advantages. The course will be broken down into several sections, including an introduction to fuel cells, types of fuel cells, fuel cell stack and application, hydrogen fuel cell, and fuel cell vehicles. The latter topic will be explored in-depth through a theoretical understanding of fuel cell vehicles and validated through case studies of popular models, such as Toyota Mirai, Hyundai Nexo, Honda Clarity, Audi A7 h-tron, and Mercedes-Benz GLC F-Cell. The course uses high-quality videos prepared by various OEM’s and industry experts to explain the innate workings of a fuel stack and manufacturing technologies. Through these videos, learners will gain a practical understanding of the theoretical concepts covered throughout the course. The course is suitable for individuals interested in alternative fuel sources and those looking to pursue a career in the automotive industry.
The Electric Vehicle Certificate Course, taught by Prashant Kumar Dey and Md Istekhar Alam, offers an in-depth exploration of the electric vehicle (EV) field. EVs, which utilize one or more electric motors for propulsion, include a variety of vehicles such as cars, trains, trucks, airplanes, boats, motorcycles, and spacecraft.
This beginner-level course provides a comprehensive understanding of battery-driven electric vehicles, covering topics such as vehicle dynamics, motors, power electronics, batteries, charging, and more. The course uses Matlab Simulink to demonstrate each topic, ensuring a strong grasp of the subject matter and practical real-time application. Supporting documents in the form of PDFs and videos are also provided.
The course consists of approximately 3 hours of video lectures and 11-12 hours of textual documents, totaling about 14-15 hours. It is designed to provide detailed knowledge of EV technology and industry, which can be applied to personal projects and research. The course content is regularly updated to reflect industry advancements.
Course content includes an introduction to EVs, classification architecture, operation modes, sizing of elements, concept of hybridness, types and working principle of motors, characteristics of motors, batteries, battery management system, controllers, CAN bus, converters/inverters, e-differentials, regen braking, transmission, charger and charging infrastructure, and prototype EV powertrain design.