Design & Simulation Using MATLAB

Download Brochure

Embark on a cutting-edge journey into two-wheeled electric mobility with our Electric Motorcycle / E-Bike Design using SolidWorks course. This specialized program is tailored for enthusiasts and professionals looking to dive into the design and engineering of electric motorcycles and e-bikes. Using SolidWorks, a leading CAD software, participants will learn how to create detailed models and assemblies that encapsulate all aspects of modern electric two-wheelers, from aerodynamic frame design to the integration of electrical systems like batteries and motors.

Duration: 1 Months

Program Duration

SELF PACED

Learning Format

Apply Now

Learn from World's Top Ranked
Indian Institute of Technology

Recognized by the best

Industry-Approved Curriculum – Designed with feedback from 25+ leading companies, including John Deere, L&T, TCS, and Maruti

Career Opportunities

EV System Design Engineer
Power Electronics Engineer (Converters & Inverters)
Road Load Analyst
Battery Management System Engineer
MATLAB/Simulink Engineer (Vehicle Simulations)
R&D Engineer for EV Architecture
Motor Controller Design Engineer
Vehicle Dynamics and Performance Engineer
Simulation and Modeling Engineer (EV)
EV Powertrain Analyst

Career Opportunities

EV System Design Engineer
Power Electronics Engineer (Converters & Inverters)
Road Load Analyst
Battery Management System Engineer
MATLAB/Simulink Engineer (Vehicle Simulations)
R&D Engineer for EV Architecture
Motor Controller Design Engineer
Vehicle Dynamics and Performance Engineer
Simulation and Modeling Engineer (EV)
EV Powertrain Analyst

FOR ENTERPRISE

Looking to enroll your employees into this program ?

Inquire Now

Projects

DIY Projects Included

Project: Comprehensive Electric Vehicle (EV) Design and Performance Analysis Using MATLAB

Electric Vehicle (EV) design requires a deep understanding of road load analysis, energy storage systems, power electronics, and vehicle dynamics. MATLAB, with its robust simulation capabilities, serves as a powerful platform for modeling, analyzing, and optimizing EV systems.

This project focuses on integrating theoretical knowledge with practical modeling techniques to simulate and evaluate key aspects of EV design. Through this project, participants will use MATLAB and Simscape to model road load forces, battery systems, inverters, converters, and hybrid EV configurations. The aim is to enable learners to design efficient EV systems while considering real-world constraints and performance goals.

Course Prerequisites

Who can take this course?

This course is suitable for individuals with prior experience in electrical or mechanical engineering, especially those interested in electric vehicle systems. A basic understanding of MATLAB/Simulink is recommended.

Freshers
Professionals

Technical expertise you will gain

Technical expertise you will gain

Design and Model key EV components such as Converters, Inverters, and Motors.
Simulate EV systems using MATLAB/Simulink and advanced toolboxes like QSS and ADVISOR.
Conduct Road Load and Drive Cycle Analysis for EV Powertrain Optimization.
Develop BMS Models for Battery Protection, Thermal Management, and Energy Analysis.
Implement Simscape Modeling for various components, including batteries, ultracapacitors, and motors.
Analyze Energy Consumption in Battery Systems and Optimize Power Requirements.
Use advanced Inverter Designs (single-phase and three-phase) in EV Powertrain Applications.
Model EV architectures with fault detection and anomaly analysis in Simscape.
Perform vehicle performance analysis for electric and hybrid vehicle systems.
Optimize vehicle efficiency through simulation-based design and testing.