Electric vehicle Design and Analysis
3.0 /5- Offered byCloudKampus
Electric vehicle Design and Analysis at CloudKampus Overview
Duration | 268 hours |
Mode of learning | Online |
Credential | Certificate |
Electric vehicle Design and Analysis at CloudKampus Highlights
- Certification
- Projects
- Workshop
Electric vehicle Design and Analysis at CloudKampus Course details
- Vehicle dynamics calculation
- Understanding the cell chemistry and types
- Concept of motor controllers
- EV auxiliary systems
- Battery pack modeling & range calculation
- Simulation of EV cell/pack models
- Learning various testing requirements
- Designing battery charging architecture
- Modeling and simulation of power electronics & motor devices
- MATLAB simulation & script
- Simulink application for EV
- Communication Skills
- Resume Building/Presentation skills review
- Problem Solving & Analytical skills
- This course will help to develop successful systems that elevate human-machine interaction to a new level and better understand the intricate EV architecture
Electric vehicle Design and Analysis at CloudKampus Curriculum
Fundamentals of EV/HEV Technology
Introduction to Electric Vehicle Systems
Understanding the Vehicle Dynamics
A peek into the design of Electric Vehicles propulsions systems
EV - Energy Source system
A comprehensive study of Electric Vehicle Data Acquisition, Sensors, and Control Systems
Fundamentals of MATLAB
Adopting technologies for the future of EVs
Electric Vehicle Battery Design With Matlab
Basic chemistry and physics of energy
Battery types
Principle and operations of rechargeable batteries
Battery performance
Battery materials
Battery cell modeling
Battery pack
Battery range calculation
BMS Design Considerations
Functions of BMS
Matlab models of cell and pack
Matlab models of algorithm
Electric Vehicle PowerTrain Design With Matlab
Vehicle dynamics modelling
Power electronics Supercapacitor
Electric motor
Motor Control methods
EV Transmission
Construction details of Induction motor
Induction Motor
Mastering MATLAB for Mechanical Engineering
MATLAB programming
M-Script
2D, 3D Plot
Simulink modeling
1D modeling
Model based design concept
Simscape introduction
Projects
Advanced Program in EV Modeling with Vehicle dynamics
Introduction to Vehicle Dynamics Modeling
A comprehensive take on the IDNLGREY Vehicle Model
Identification of System using simulated High Tire stiffness Data
Identification of System using simulated Low Tire stiffness Data
Identification of System using Measured Volvo V70 Data
EV Motor Designing and Development with CAD/CAE
Electric Vehicle Drive System Targets
Interior PM Magnet Motors and Induction Motors
Magnet Arrangements & Impacts on Motor Performance
Physical Design Changes for Efficiency Improvement
Light Weight design and manufacturing Techniques for EV propulsion motors
System Integration & Impacts on NVH
Advanced Motor Sensor applications for EV's and HEV's
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Electric vehicle Design and Analysis