ASDC Certified Electric Vehicle Design & Development

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  • Asdc certified electric vehicle design development

Description

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Program outcomes
Requirements

Syllabus

  • 80 Lessons
  • 22:11:00 Hours
  • Introduction to EV00:10:00
  • Introduction to HEV00:40:00
  • Types of HEV- Plugin HYBRID00:12:00
  • Types of HEV- Series HYBRID00:13:00
  • Types of HEV- Parallel HYBRID00:11:00
  • Case Study(Green Credentials and Peugeot Hybrid Air)00:20:00
  • EV/HEV Setup00:13:00
  • Energy Sources00:14:00
  • Power/Energy Flow in HEV00:15:00
  • Case Study (Battery Setup in various vehicles)00:10:00
  • Simulation on MATLAB00:13:00
  • Simulink and blocksets00:17:00
  • Powertrain Blockset00:14:00
  • EV Modelling00:29:00
  • AC-DC Chargers based on ISO/IEC ratings00:16:30
  • Wireless Charging00:11:00
  • Equalizer and Power Conversion Techniques00:09:00
  • Future Development and Optimizing Techniques00:12:00
  • Case Study (Tesla Model S cooling technology)00:10:00
  • Existing Manufacturers of EV’s00:17:00
  • Infrastructure of EV00:15:00
  • Economic Factor00:12:00
  • City and Highway Concept BEV's00:11:00
  • Advancement in Autonomous Tech.00:15:30
  • Introduction to Chassis00:15:00
  • Factor affecting chassis and machining00:20:00
  • Calculation on chassis CG & reactive forces00:20:00
  • Structural Analysis of Frame00:14:00
  • Automotive Materials00:18:00
  • Ergonomics00:16:00
  • Prototyping00:30:00
  • Steering components & their functions00:12:00
  • Steering Geometries00:14:00
  • Steering Parameters00:30:00
  • Power Steering & latest technologies00:20:00
  • Steering Mechanism Calculation00:12:00
  • Steering Errors00:15:00
  • Case Study -Continuous Track Steering System00:10:00
  • Suspension & terminologies00:15:00
  • Factors affecting Vehicle Stability00:20:00
  • Dependent Suspension ( With Calculations )00:40:00
  • Quarter Car model00:11:00
  • Introduction to Braking Mechanism & components00:16:00
  • Anti-lock Braking system - ABS00:15:00
  • Materials & Factor affecting brakes00:25:00
  • Analysis of brake disc (Thermal and static)00:20:00
  • Case study (Calculations on brake dynamics)00:15:00
  • Wheel & load distribution with wheel dynamics00:20:00
  • SAE Tyre axis system00:15:00
  • History & Manufacturing of tire materials00:15:00
  • Tire Formula00:08:00
  • Tire Designation00:10:00
  • Rim material and manufacturing00:09:00
  • Case Study (CAD model for tyre)00:15:00
  • Inception of CAE00:12:00
  • Types of CAE- I00:19:00
  • Types of CAE- II00:27:00
  • Verification and Validation Process00:10:00
  • Mechanical Drawing Terminologies00:35:00
  • Benefits and Limitations of CAD00:15:00
  • Design Considerations00:10:00
  • Manufacturing Considerations00:10:00
  • Positive Mould and Negative Mould 00:15:00
  • Market Survey and Trends00:11:00
  • Prerequisite for chassis design00:15:00
  • Chassis Design and Dynamics00:21:00
  • Chassis Design - On Solid works00:28:00
  • Simulation on Chassis00:32:00
  • FE ANALYSIS OF AUTOMOTIVE CHASSIS -I00:45:00
  • FE ANALYSIS OF AUTOMOTIVE CHASSIS -II ( Structural Analysis)00:11:00
  • FE ANALYSIS OF AUTOMOTIVE CHASSIS -III (Explicit Dynamic Analysis)00:20:00
  • Standards and Regulation in India00:15:00
  • Validation of EV in India00:10:00
  • Challenges in EV00:15:00
  • Goals set for Electrification00:15:00
  • Requirements for Policy Making00:15:00
  • Design Goals and Frame00:10:00
  • Design of Steering Geometry00:15:00
  • Design Suspension System00:15:00
  • Electrical System00:10:00

About instructor

Instructor
Name : ISIEINDIA E-LEARNING
Reviews : 251 Reviews
Student : 4246 Students
Courses : 105 Courses
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