Motor Selection, Design and EV Industry Prospects

About the Program

Learn About EV Industry, Powertrain Calculation, Aero Calculation, Wheel and Motor Selection, Motors in EV & Control Methods, Theory of Motor Design, Motor Modelling and Design, Energy Consumption accompanied with various recent case studies to attain the challenges set by the EV industries with Personalized Industry Mentorship, Career Guidance, and Placement Assistance and much more.

Personalised Mentorship

Get mentored by an experienced EV Industry expert and receive personalised feedback calls for better career guidance.

Globally Valid Certificate

Get a Globally valid certificate and enter your workplace with confidence and assert yourself as a subject matter expert.

Student Support

Student support available 09 AM to 07 PM IST via email or call and get a response within 2 working hours.

Specialized Motor Selection, Design and EV Industry Prospects

Certified by ASDC

Complete all the courses successfully to obtain the certification from ASDC.

• Globally Recognized Certificate

• Recommended program by SMEV, MSME and 17 + Automotive Industries.


Case Studies

HEV Architecture 

Various hybrid vehicle architecture and their significance with respect to the market demands. Comparison study of BMW i8, BMW i3, Toyota Prius, and Hyundai Nexon to understand the suitable source of energy as well as a brief look into the F1 Hybrid Setup and how it has revolutionized the hybrid powertrain.

Why Single Speed Gearbox? 

The significance of having a single-speed gearbox in EV as compared to a multi-speed gearbox/ transmission in traditional gasoline engine vehicles. Moreover, understanding why some manufacturers opted for multi-speed gearbox in EV, the performance difference experienced.

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 Selection Calculation

Perform the calculation for selection of motor and gearbox for 2 wheeler and 4 wheeler EV for the products already existing in the market, defining the design criteria and references based on consumer requirements.

Importance of Design in EV

Comparative study of EV cars already existing in the market and how the design has played a significant role in performance and efficiency improvement.

Energy Consumption Calculation

The calculation for Energy consumption for a given selected powertrain. This calculation will help in calculating the battery pack size as per the range desired.

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About Motor Selection, Design and EV Industry Prospects Program

In the time of the 21st Century, when the demand for electric vehicles (EV) is continuously growing in the market, the need for jobs will also increase in the near future in the EV domain. Growing demands means growing production and the growing need for skilled engineers. As per the recent report by Reuters the upcoming time EV industry is supposed to generate more than 5.8 million new jobs. These will include various profiles like Motor Design, Power Electronics, Production, Services, etc.

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 – Motor Selection, Design, and Industry Prospects.

The course will start with the history of EV and take you through the journey of the rise of electric vehicles. Followed by the parameters affecting the sales and various policies and regulations laid out by the government in order to promote EV, accompanied by various recent case studies of challenges being met.

Aware of the challenges and criteria affecting the EV it will make it easier for you to understand the Powertrain requirement and selection methodologies, along with motor design criteria as per the given specifications. This will majorly benefit aspiring engineers, professionals looking for a job change, and entrepreneurs looking to make a change in this direction.

The course is a fully online mode, with live lectures and doubt clearing sessions and it includes 10 modules for the 60+ learning hours. 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.

Program Outcomes


EV market study and policies.


Electric Vehicle evolution with time.


Various EV Architecture based on application.


Motor types available and selection based on performance criteria.


Energy Consumption of Motor.


Motor Design Parameters and Simulation.


Calculation for powertrain component selection.

ISIEINDIA Instructors

Learn from leading Industry oriented trainer, faculty and leaders

Our Expert Work At

Top companies from all around the world


Where our Alumni Work

Payment Offers

Now, pay your course fees in installments at no cost EMI available at Credit cards following banks

About EV Industry

Powertrain Calculation

Vehicle Coordinate System
00:16:37 hr
Powertrain Equation
00:22:43 hr

Aero Calculation

Drag Equation
00:10:32 hr
Drag Coefficient
00:25:37 hr
Drag Calculation
00:11:41 hr

Wheel Selection

Tire Construction and Specification
00:34:57 hr
Wheel Rolling without Slipping
00:03:00 hr
Wheel Dynamics ROLL vs SLIP vs SKID
00:03:00 hr
Contact Patch
00:21:00 hr
Hysteressis Loss
00:22:00 hr
Tyre Parameters
00:21:00 hr

Motor Selection

Motor Modelling and Design

00:16:0 hr
Motor Geometry
00:19:12 hr
Add Winding and Material
00:20:26 hr
Simulating E Magnetics
00:13:12 hr
Torque Speed Curve
00:25:00 hr
Efficiency and Drive Cycle
00:20:00 hr
Thermal Solution
00:23:00 hr

Motors in EV & Control Methods

PE and Motor Control
00:46:07 hr
Basic Understanding of Motor
00:30:00 hr
SRM Motor
00:12:16 hr
Introduction of BLDC Motor
00:20:00 hr
Control Principles
00:06:00 hr
Motor for EV
00:29:00 hr
Regenerative Braking
00:24:00 hr
Motor Control
00:25:00 hr
Motor Control Quadrant
00:11:00 hr
Ac Motor Control
00:22:00 hr
Asynchronous vs Synchronous Motor
00:21:00 hr

Energy Consumption

Theory of Motor Design

Basic of Magnetics
00:18:36 hr
Maxwells Equation
00:21:37 hr
Magnetic Circuit
00:30:37 hr
Electro Motive Force
00:19:00 hr
Flux Linkage and Inductance
00:15:38 hr
Magnetic Energy
00:10:00 hr
Electromagnetic Force and Torque
00:20:26 hr
Sample Problem - Electromagnetic Flux and Excitation Current
01:09:18 hr
Winding Introduction
00:22:13 hr
Single Layer Winding
00:38:59 hr
Double Layer Winding
00:22:19 hr
Sample Problem 3 - Motor Winding
Rotating Magnetic Field
00:37:38 hr
PMSM Motor - Magnetic Properties
00:20:36 hr
Sample Problem 2 - Winding Design
00:15:58 hr
PMSM Motor – Magnetic Circuit
00:31:56 hr
Phase and Line EMF
00:18:53 hr
PMSM Motor - Torque Equation
00:19:16 hr

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Enrolled: 34 students
Duration: 1 Month
Lectures: 47
Video: 20+ Hours
Level: Intermediate