Certification Course in Motor & Drive System for EVs: Design & Optimization
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Welcome to the Course!
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Module 1: Fundamentals of Electric MotorsTopic 1: Introduction to Electric Motor Technology14m 7sTopic 2: Magnetic Fields in Motors: Coils, MMF, Air-Gap & Saturation19m 30sTopic 3: Torque Production & Motor Design: Magnetic Circuits, Slotting, and Specific Output16m 35sTopic 4: Motional EMF & Motor Behaviour20m 17sTopic 5: Motor Efficiency and General Properties9m 11s
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Module 2: Power Electronics for Motor DrivesTopic 1: Introduction to Power Converters for Motor Drives25m 46sTopic 2: Controlled Rectification – AC to DC Conversion33m 7sTopic 3:Inverter Control: Single-Phase, Three-Phase & Matrix Converters29m 59sTopic 4: Switching Devices: Types, Operation & Power Characteristics22m 11sTopic 5: Converter Waveforms & Acoustic Noise: Distortion and Mitigation14m 57sTopic 6: Cooling of Power Switching Devices: Techniques, Design & Thermal Limits13m 47s
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Module 3: Conventional DC Motors and DrivesTopic 1: Construction and Fundamentals of DC Motors21mTopic 2: Torque Production in DC Motors: Equation, Ripple & Commutator Design13m 18sTopic 3: Motional EMF in DC Motors15m 55sTopic 4:Steady-State Characteristics15m 37sTopic 5: Transient Behaviour – Current Surges13m 8sTopic 6: Shunt, Series, and Compound Motors24m 45sTopic 7: Four Quadrant Operation and Regenerative Braking14m 24sTopic 8: Thyristor DC Drives18m 43sTopic 9: Chopper-Fed DC Motor Drives7m 32sTopic 10: DC Servo Drives9m 20sTopic 11: Digitally Controlled Drives8m 24s
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Module 4: Induction Motors and DrivesTopic 1: Rotating Magnetic Field37m 44sTopic 2: Torque Production in Induction Motor22m 13sTopic 3: Influence of Rotor Current on Flux9m 46sTopic 4: Methods of Starting Cage Motors21m 43sTopic 5: Run-Up and Stable Operating Regions16m 40sTopic 6: Torque–Speed Curves – Influence of Rotor Parameters17m 44sTopic 7: Generating and Braking11m 36sTopic 8: Speed Control9m 53sTopic 9: Power Factor Control and Energy Optimisation14m 46s
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Module 5: Induction Motor Equivalent Circuits
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Module 6: Inverter-Fed and Advanced Induction Motor Drives
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Module 7: Stepping Motors
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Module 8: Synchronous, Brushless DC, and Switched Reluctance Drives
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Module 9: Motor and Drive Selection
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Module 10: Advanced Motor Technology and Control for PowertrainTopic 1: Electric Motor Design Principles for EVs22m 45sTopic 2: High-Performance Electric Motor Materials14m 34sTopic 3: Electric Motor Testing and Characterization20m 3sTopic 4: Noise, Vibration, and Harshness (NVH) in Electric Motors17m 53sTopic 5: Reliability and Lifetime Analysis of Electric Motors14m 17sTopic 6: BLDC MOTOR Modelling Part 130m 57sTopic 7: BLDC Modelling Part 220m 5sTopic 8: PMSM Modelling – PART 117m 23sTopic 9: PMSM Modelling Part 218m 36sTopic 10: PMSM Modelling Part 329m 44sTopic 11: Induction Motor Modelling24m 13sTopic 12: SRM Motor Modelling Part 124m 15sTopic 13: SRM Motor Modelling Part 218m 25s
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DIY Projects:
“The Certification Course in Motor & Drive Systems for Electric Vehicles: Design & Optimization” offers a deep dive into the design, optimization, and control of electric motors and their drive systems for electric vehicles (EVs). This course covers fundamental motor principles, power electronics, DC and AC motor drives, inverter-fed drives, and advanced control techniques, focusing on real-world EV applications. Through hands-on simulations, participants will acquire the skills needed to design, optimize, and test electric motor systems for EV powertrains.
What's included
- 10 Modules
- 61 Lectures
- 18.80 Hours of video content.
- 1 Project Assignment
- Certification of Completion.