Electric Vehicle Powertrain Modeling (Quasi Static Approach)
4.0 /5- Offered byDecibelslab
Electric Vehicle Powertrain Modeling (Quasi Static Approach) at Decibelslab Overview
Electric Vehicle Powertrain Modeling (Quasi Static Approach)
at Decibelslab
Gain a comprehensive overview of Electric Vehicle Powertrain Modeling (Quasi Static Approach)
Duration | 26 hours |
Total fee | ₹9,999 |
Mode of learning | Online |
Credential | Certificate |
Electric Vehicle Powertrain Modeling (Quasi Static Approach) at Decibelslab Highlights
Electric Vehicle Powertrain Modeling (Quasi Static Approach)
at Decibelslab
- Earn a Certification after Completion
Electric Vehicle Powertrain Modeling (Quasi Static Approach) at Decibelslab Course details
Electric Vehicle Powertrain Modeling (Quasi Static Approach)
at Decibelslab
Skills you will learn
What are the course deliverables?
- Matlab & Simulink or Scilab & Xcos
- Physics behind powertrain modelling
- How to build an EV powertrain model for sizing & energy analysis
- How to size the components wrt to various drive cycles & performance targets
- Energy consumption (Wh/km) wrt to different test scenarios
- Analytical insights & decision making skills with the simulation models
More about this course
- Objective of powertrain modeling is to analyse the powertrain for various drive cycles & vehicle target performances to decide, Traction Motor sizing (Motor nominal & peak torque and current, RPM, Operating Points at various loads & speeds, motor Power, motor efficiency & motor regeneration energy possibilities etc.) & Traction battery sizing (Pack & Cell nominal and peak current, Cell C-rating for selection, battery SOC wrt to different drive scenarios, energy consumption (Wh/Km) & Vehicle range estimation, number of cells in series & parallel & battery pack size
Electric Vehicle Powertrain Modeling (Quasi Static Approach) at Decibelslab Curriculum
Electric Vehicle Powertrain Modeling (Quasi Static Approach)
at Decibelslab
Introduction to Model Based Design(MBD)
MBD in MATLAB
Simulink with practical case studies
NI_MH Battery Modeling
Thermal modeling of a house
Analysis of Aerodynamic force on car
Understanding the EV system Complexity, dynamic behavior, parameters influencing the powertrain sizing & Setting Project goals
Drive Cycle and their Importance
Modeling the vehicle Resistive Force
Other courses offered by Decibelslab
Electric Vehicle Powertrain Modeling (Quasi Static Approach)
at Decibelslab
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Electric Vehicle Powertrain Modeling (Quasi Static Approach)