The automobile industry is growing rapidly and shifting towards Electric Vehicle. There is an immense need for skilled engineers in order to speed up this transition and meet the goals set by the companies. As compared to the traditional vehicle, which is driven by the internal combustion engine, the EV has a completely different architecture.
The aim of this course is to take you through the basics to the industrial approach of the powertrain selection process. Where you gain a better understanding of both “mechanical” and “electric” aspects of powertrain design architecture, key components behaviour and functions and the various forces acting on the vehicle and their impact on powertrain selection for EV applications. By the end of the program, you will be able to perform initial calculations to select a suitable motor and power unit for the required Electric Vehicles.
This course has been designed for you to build the industrial knowledge development experience with most basic concepts for development and calculation of an Electric Vehicle while performing the calculations for one at the same time. This program will benefit building your fundamental base and will give a fine guideline that how to select the suitable powertrain for EV applications.
Why join EVDD course?
The key learning benefits from this course
Who Can Apply?
Under this module, we will start from the very basics of EV and HEV technology. We understand how these technologies are different from ICE technology. We will summarise about different EV and HEV technologies and the history behind this.
In this module, we will let you understand the major design considerations in EV and HEV from ICE. We will help you to make you understand and learn about how EV is different in design aspects. We will also discuss the scenario with a practical case study. You will also learn about the different chassis platforms being used for EV's. In this module, we will showcase our own prototype model EVE during the session to make you learn and visualise the concepts.
Under this module, we will take you through the major component of an EVs. You will learn about
We will also present a FORMULA-E case study on powertrain transmission system used for high-performance vehicles.
Under this module, you will be exposed to vehicle dynamics where you will learn and understand the different factors affecting speed, performance and durability of EV's. Thus, the selection of powertrain has to be rugged. We will present a case study with live products to help you understand the different scenarios. Also, you will get hands-on learning on different calculations to understand how to select the EV powertrain. You will learn
Under this module, you'll get introduced to electrical and electronics systems. We will help you to learn about controllers, Battery Management Systems, VCUs etc. We will train you on the following topics -
Under this module, we will help you to learn and understand about different Lithium battery technology, its shape and dimensions with different applications, its different chemistries and the logical approach in the selection of each chemistry. As ESS is one of a very important component of EV's, we will make you learn about the selection of cell to the module to the making of a battery pack, battery safety and thermal properties. You will also get exposed to how does BMS and battery work together with visuals and examples. You will also learn about
Autobot Academy certification is widely recognised in the EV industry for its assessment transparency, value, and accreditation.
All the participating candidates will be given “Certificate of Participation” issued by Autobot Academy.
Candidates will be also awarded by our industry recognised Grade Certificate i.e. "Certificate of Achievement" certified by Autmotive Skill Development Council (ASDC) and Autobot Academy, those who have scored minimum 60% during his/her online proctored assessment conducted by ASDC.
Autobot India holds the right to change the program date, venue, faculty and modules at any time without any prior information.
Learning and Development Team
Course Delivery Mode: Live Online
Course Start Date: July 5th to May 23rd, 2021
Last Date of Registration: First come basis. Limited 20 seats
Course Duration: 2 hours/day (7:00 pm to 9:00 pm)