EV Powertrain Architecture and Energy Storage System

Description

EV Powertrain Architecture and Energy Storage System | Certified by ASDC | Supported by SMEV

In the age of development when the demand for electric vehicles is growing rapidly in the market, the need for jobs will also increase in the near future in the EV domain. The growing demand means a continuous increase in production and a continuous increase in production means the demand for well-skilled engineers will also increase. As per the recent reports of a government organization, the Indian government is going to invest a much larger amount of money in the EV sector in the near future which will lead to an increasingly large number of jobs in the market. The EV Market is projected to generate about 5.8 million jobs in the upcoming time, as per the report by Reuters. 

In order to be able to fulfill that demand our engineers and graduates would have to be well equipped with knowledge and skill in compliance with Electric Vehicle, and with the Govt. pushing the idea of Make in India, we must have the ability to work on the EV components at R&D level and help achieve the goal. 

Keeping this in mind, our experts from the industry have come forward to help us design this upcoming course- Electric Vehicle Architecture Design and Selection.

EV Powertrain Architecture and Energy Storage System course will start with the EV industry perspective in the market through the rise and fall of the electric vehicle industry and followed by the futuristic growth of the EV industry in India. Followed by the motor design and selection parameters used in the electric vehicle industry, accompanied by various recent case studies of challenges being met.

EV Powertrain Architecture and Energy Storage System course will be helpful in understanding the battery pack design and EV charging technique used in the electric vehicle. This will majorly benefit aspiring engineers, professionals looking for a job change, and entrepreneurs looking to make a change in this direction. 

EV Powertrain Architecture and Energy Storage System course is a fully online mode, with live lectures and doubt clearing sessions and it includes 10 modules for the 60+ learning hour. The course includes 20 assignments in total and it also includes assessments after completion of each module, based on which you will be provided with a global certificate.

Who can attend? 

-Working Professionals / Engineers, who are looking to upskill themselves.

-Acadmission ( Professor / Assistant Professor / Associate Professor / Lecturer )

-Fresh Graduates, who is looking for jobs in EV / Automotive Sector

-Entrepreneurs who are looking to set up their industry or startup related to EV.

PROGRAM OVERVIEW - 

CASE STUDIES -

EV Operating Cost and Infra Challenges

Perform basic calculations pertaining to various challenges faced by the industry in terms of - cost, charging, battery pack size, etc. to understand the on-ground scenarios. These will be accompanied by market data and studies to give a wider perspective and view into the industry.

Motor Modelling and Design

Modelling of different kinds of the motor on the basis of various parameters such as battery voltage, back electromotive force coefficient, and winding resistance. Comparative study of BLDC motor vs IM motors vs PMSM motors on the basis of its design, performance, efficiency, energy consumption, etc.

EV charging station and road map challenges

Comparative study of the charging system i.e. onboard and off-board charging system. The case study focuses on the load requirement and infra challenges faced by the EV industry in all parts of the country.

Battery Pack Thermal Management 

Battery pack thermal management strategy and methods used in different vehicles as per the applications. The optimization on the basis of cooling efficiency, of the system, and power management.

PROJECTS -

Motor Design:

Perform the calculation for different types of motors on the basis of motor efficiency, motor power, electromotive force parameter for all three different types of motors. Perform the calculation for the selection of motor for the products already existing in the market, defining the design criteria and references based on consumer requirements. 

EV Battery Pack Design and Model:

Model a battery pack as per the desired range of the electric vehicle given. The model needs to be verified under the MIL test for range as per the cycle provided. 

EV Charging Setup:

Selection of suitable charging system based on the calculation parameter such as charging time taken by a battery with same input supply, Load calculation for the grid.

PROGRAM SCHEDULE:

PAYMENT OFFERS- 

CERTIFICATION-

JOB ROLES- 

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Program outcomes

• Electric Vehicle advancement with time.

• Government policies to encourage EV industry.

• Different kinds of Motors and its selection parameter for EV

• Introductory concept to battery, battery pack and battery pack design.

• Concept of battery testing technique and calculation.

• Concept of battery management system and its calculation.

• EV charging methods

• Homologation and testing.

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