FOUNDATION AUTOMOBILE & ELECTRIC VEHICLE
Understanding the basic components & functioning of two & three wheeler
Created by Angappa, Suresh Kumar, Anand
Last Updated 09/2022 English
This course includes:
- 240 hours of training
- Course Duration : 4 Weeks
- Study materials for students
- Practical Sessions
- 1 Practice test
- Certificate of completion
What you'll learn
India today is witnessing major paradigm shift from fuel powered vehicle to electric mobility. The demand for qualified and skilled engineers would be huge who can drive this shift towards E-vehicle.
The program aims at providing add-on to existing conventional engineering program so that an up-skilling to existing engineers could be provided. Thereby helping them to remain relevant, command higher remuneration for their work and bridge the gap between conventional engineering knowledge and Industry demand in E-mobility.
Different aspects such as storage of power, standardization of charging stations and specification for seamless driving skill are incorporated in the program and thus may provide avenues of independent livelihood in the above technologies domain as well.
This is a certification training program for the undergraduate, innovators, Automation & Electric vehicle aspirants who are bound to learn and upgrade their skills to make more lucrative understanding of design and development of e-vehicle, working principals focusing to design by their own hands.
It has positive impact on the economy and is expected to continue having this effect for the foreseeable future.
Who this course is for
Eligibility for Admission
PG certification in E-Vehicle design and analysis will let the students be placed in the
following positions like
Industrial and Production Engineer,
Electrical Engineer and Mechanical Engineer
Types of Motor, 3 Phase Induction Motor, PMDC, BLDC (Hub & Axle Motor), PMSM, SRM
Power Train System Drives ,Motor & Battery System
Types of Battery – Lead Acid, Lithium Ion, Lithium Ferro Phosphate Battery
Battery Charging, Battery Management System (BMS)
Cell Assembly & Testing procedure
Design of Wireless Charger for EV charging
Power Electronics training system for EV Drives simulation & fabrication
Retrofit process and procedure for Two & Three Wheeler
Solar Panel Characteristics, Solar Panel Design & Testing
Solar ON Grid Inverter (Zero Export Model)
Solar OFF Grid Inverter & Hybrid Inverter
Wind Energy based micro wind generator (OFF Grid)
Faculty Name : Angappa, Suresh Kumar, Anand
Students : 63