Electric Vehicle Powertrain Design Engineering (Advanced) by Diyguru Education and Research Private Limited: Fee, Duration, How to Apply

Quick Facts

particular	details
Medium of instructions English	Mode of learning Self study, Virtual Classroom	Mode of Delivery Video and Text Based

Course overview

The Electric Vehicle Powertrain Design Engineering (Advanced) certificate course by DIYguru is being offered to provide students/professionals with a detailed understanding of the working of the EV powertrain components and the internal combustion engine. Electrification of personal transportation can create more jobs in the market. Automobiles will require more technology, which will be built and designed by workers in the auto industry. Job prospects will increase in the industrial sectors closely tied to advanced batteries, auto manufacturing, research and development. Electrical vehicles will reduce the cost of the users compared to conventional vehicles. Electrification of vehicles is likely to be the future of transportation.

Through this course, the participants will learn various theories, concepts and methods of electrical vehicles. They will be trained to critically assess, model and test the working of electrical systems and elements for automotive applications. They will be equipped with multidisciplinary expertise with the tools and working of the electrical vehicles. This course will offer a practical approach to learning (PLA model) to educate and train participants for the future industry workforce demand.

Course and certificate fees

Fees information

₹ 8,500 ₹10,000

The total fee amount payable for this programme is Rs. 10,000.

Fee details for Electric Vehicle Powertrain Design Engineering (Advanced) course

Particulars	Amount in INR	Discounted Price for Limited Time
Course fees	Rs.10,000/-	Rs.5,000

certificate availability

Yes

certificate providing authority

Diyguru

Who it is for

Electrical engineer Electrical power engineer Mechanical engineer Electronics engineer

This course is beneficial for candidates who are interested in learning and developing their career in domains such as:

Automotive sector
Electricals sector
Electronics sector
Mechanics sector

Eligibility criteria

Work experience

Candidates who wish to pursue this course should be working in industries and areas such as automotive, auto component, manufacturing, r&d, analysis, design, maintenance, projects and component design.

Education

Candidates who can especially get benefitted from the course may have a diploma, BE / B.Tech or equivalent education in domains such as instrumentation, automotive, mechanical, mechatronics, ECE and EEE. They are expected to have basic knowledge of physics and chemistry.

Certification Qualifying Details

An online course certification for the Electric Vehicle Powertrain Design Engineering (Advanced) course will be provided to those participants who complete the online module 100 percent.

What you will learn

Knowledge of engineering

As the Electric Vehicle Powertrain Design Engineering (Advanced) course nears completion, participants will have knowledge about the following:

They will have a thorough understanding of electrical power conversion and power flow.
They will learn how to evaluate the degradation mechanisms of the automotive electrical systems.
They will learn how to analyze the aging process of electronics systems.
They will grasp the standards and specifications of the networking system and on-board electronics.
They will acknowledge how to assess risks while conducting design and tests.
They will understand the concepts of electrical vehicles
They will acknowledge the modelling and analysis of tripod housing.
They will grasp the management of a Simulink model.
They will learn about the components of thermal management.

The syllabus

Introduction to electric vehicle powertrain

Introduction to electric vehicle powertrain part: 1
Introduction to electric vehicle powertrain part: 2

Nomenclature & understanding calculation for ev components

Motor power and torque calculation
Thermal management in EV: heating
Thermal management in EV: active & passive air cooling
Thermal management in EV: liquid cooling
Typical power ratings of EV chargers
Weight distribution

Power conditioning and filtering

Noise characterization
How filtering is done?
Diode filtering
Capacitive filtering
Inductive filtering
Power conditioning and filtering

Power, voltage conversion

Voltage conversion
Voltage regulator topologies

Motor controls

Motor control circuitry
Control sequence of bldc part: 1
Hall sensor feedback v/s bemf feedback
Control sequence of bldc part: 2
Introduction to motor controls

Modelling of powertrain components in in solidworks and analysis in ansys

Modelling of the driving sprocket
Analysis of driven sprocket
Optimization of driven sprocket
Modelling of differential mounting
Modelling of bearing adaptor
Differential selection
Modelling of axle
Analysis of differential mounting
Analysis of right eccentric
Analysis of motor mounting
Modelling of differential assembly
Analysis of driving sprocket
Modelling of tripod housing
Modelling of right motor mounting
Motor selection
Analysis of motor shaft
Modelling of right eccentric
Analysis of bearing adaptor
Analysis of tripod housing
Analysis of axle
Analysis of left eccentric
Modelling of motor shaft
Modelling of left eccentric
Modelling of left motor mounting

Battery management system

Battery monitoring unit
Introduction to BMS
Battery control unit
Data acquisition
Battery management device
Explanations

Getting started with simulink

How to tune a PID controller
How to add a controller and plant to the Simulink model
How to add components to your Simulink model
How to use templates and examples
How to build and simulate a simple Simulink model
How to model continuous and discrete systems in one model
How to compare and save simulation data
How to view simulation results
How to manage your Simulink model

Thermal management

Cooling system maintenance and repair
Busbars simulation
Radiator calculations
Celltabs modelling
Celltabs simulation
Testing
Motor heat load simulation
Busbars modelling
Errors and failures in cooling systems
Understand heat load
Case study
Controller heat load simulation
Battery pack modelling
Importance of cooling system
Components of cooling system
Radiator specification
Design flow
Introduction to thermal management
Twin radiators
Battery pack simulation

Modelling and simulation

Cell modelling and simulation
Electric vehicle modelling and simulation
Bms modelling and simulation
Powertrain modelling and simulation

Admission details

Filling the form

Interested candidates can follow the given steps to register for the Electric Vehicle Powertrain Design Engineering (Advanced) course:

Step1: Click on the URL to register for the course https://diyguru.org/course/electric-vehicle-advanced-powertrain/

Step2: Candidates have to sign up with DIYguru in order to register for the course.

Step3: After registration click on the apply option given on the right side of the website.

Step4: Select “Advance Course in Electric Vehicle Engineering" and thereafter check the tab ‘Confirm’

Step5: This will lead to the cart details page. Candidates can then proceed to checkout.

Step6: Fill in the requisite details and select the preferred payment method.

Step7: Then make the payment for the programme to start accessing it.

Scholarship Details

Scholarships are available for this course. Candidates have to appear for a simple online Scholarship Test. The link of which has been given on the website. Their score will determine the percentage of scholarships that they shall be eligible for. Candidates have to share their scores with the DIYguru officials via email to proceed further.

How it helps

The Electric Vehicle Powertrain Design Engineering (Advanced) certificate course will provide the learner's exposure to the tools and concepts of electrical vehicles. It has been designed by experienced faculty to give a comprehensive introduction to the automotive electrical and electronics systems. They will be provided with the requisite experiential learning as well.

This course will upgrade the skill set as the knowledge of the participants. They will be able to start a new career or explore more career prospects. It is being offered as a self-paced course to ensure a flexible learning process for the participants.

The course material can be accessed 24/7 by the participants according to their time feasibility. Discussion boxes have also been provided to make the learning more interactive and the study material such as e-books, research papers, and government reports can be downloaded by the participants for easier learning. Doubts can be solved via email communication by the instructors.

The course certificate given by DIYguru is highly recognized by industry giants like Robert Bosch, Maruti Suzuki, Hyundai Motors and various other companies. Including the course certificate by DIYguru on the resume will not only make it more valuable but also invite more job opportunities for the participants. Certified participants can apply for higher profile jobs in companies looking to hire professionals in this domain of the industry.

FAQs

Is there a language requirement for the course?

All courses will be delivered in English. English language subtitles will be given in the video lectures with the option to pause, slow down or replay lectures for better understanding.

Can the participants take more than one course at a time?

It is recommended that the participants should begin with one course. The courses are available throughout the year so the participants can come back and take more courses.

How can I start a course late?

Participants should begin the courses promptly. However, if they wish to start the course late, they can enrol and save a seat for the course and start later.

When can I register?

The courses are usually offered at least 2 times during a month that is every 1st and 15th. As the courses can fill up quickly, candidates should register early

Are EMI plans available?

DIYguru currently does not offer any EMI payment plans to the candidates. Candidates can contact support@diyguru.org for further information regarding payment alternatives.

What is the refund policy?

To receive a full tuition refund, participants have to cancel their registration by dropping an email to support@diyguru.in by 5:00 pm within 5 full business days before the course starts.

When is the course access given?

A confirmation email will be sent to the participants. It will provide information on when and how they can access the course. Access to the DIY Online Community will be given 24 hours before the course begins.

How is the course divided?

The course has been divided into 5 weeks with 3-4 hours of weekly learning. It is valid for 90 days from the date of joining.

How many students are there in a course?

Classes consist of not more than 30 students. It facilitates better learning and enables personalized interaction between the instructor and the fellow participants.

What are the technical requirements for this course?

Participants are expected to have a laptop/computer/ any smart device to access the course and high-speed internet for a fast and clear learning experience.