Electric vehicles aren’t just an efficient way to move people and products—they are literally powering the transition
to a clean energy economy by taking on one of the largest contributors to greenhouse gas emissions—transportation.
In this online course, you will get a comprehensive overview of hybrid and electric vehicle systems,
battery technologies, the charging infrastructure,
and grid integration and be able to apply what you’ve learned toward a career in this exciting new field.
Coursework includes short videos, online exercises and a quick knowledge check at the end.
Explain the role of electric vehicles in the clean-energy transition
Evaluate the challenges of integrating electrified vehicles into the electric grid
Ascertain the advantages and disadvantages between hybrid electric vehicle (HEV), plug-in hybrid electric vehicle (PHEV),
and battery electric vehicle (BEV) systems
Comprehend role and design of battery management systems (BMS) and applications
Understand battery technologies including lithium-ion batteries, cell balancing, battery capacity, and aging factors
Evaluate the basics of charging technologies, and future solutions such as fast charging strategies, wireless charging, and battery swapping
Provide students with knowledge of theory and physical description of hybrid vehicles. The student will
have the opportunity to acquire practical experience in the area of diagnosing and repairing hybrid
vehicles.
Student Learning Outcomes:
Upon successful completion of this course, students will be able to:
1. demonstrate how to service all hybrid systems,
2. explain how AC-DC and DC-DC converters work,
3. demonstrate how to test high voltage battery and related components,
4. demonstrate how to remove and replace high voltage battery packs.
Hybridization levels and types (micro, mild, full, plug-in, and extended range hybrid vehicles, and battery electric vehicle)
Driving cycles and fuel economy test methods
Traction motor and generator choices and pro’s and con’s
Critical concepts such as field weakening and fault tolerance
Traction drive power electronics and dc/dc converters
Batteries and supercapacitors for traction applications
Battery management and battery-charging systems including wireless charging
Vehicle dynamics, driving cycles, and torque and power performance requirements
Subjects such as new wide bandgap switching devices (SiC and GaN) for traction applications
Turbo and super charging using electric motors
The world is going green, and the automotive industry is no different, making hybrid and electric vehicles more popular than ever before. Since this trend is expected to continue growing,
it’s important that those interested in automotive careers have an in-depth understanding of these environmentally-friendly vehicles. ATC’s online introductory
course shows students how hybrid and electric vehicles work, as well as how to service and maintain them.
1:Introduction to hybrid and electric vehicle technology
2:Hybrid vehicle types, operating principles
3:Electric vehicle types, operating principles
4:Components of hybrid and electric vehicles
5:Performance analysis of hybrid vehicles
6:Braking basics
7:Midterm
8:Battery technology
9:Modeling of hybrid vehicles
10:Modeling of hybrid vehicles
11:Modeling of electric vehicles
12:Modeling of electric vehicles
13:Alternative fuel hybrid vehicles
14:Emission control in hybrid vehicles
15:Controller design for hybrid and electric vehicles
16:General (Final) Exam
International College of Technical Education.
https://www.icollegete.com/
Head Office :
Office # 27, Second Floor, Maryam Shadi Hall Plaza
(Airies Plaza), Shamsabad, Murree Road,
Rawalpindi, Pakistan 46000.
Email : info@icollegete.com
Contact : 051-8736681, 0311-5193625, 0092-335-4176949