Electric Motor Design for Electric Vehicles Advanced

Advanced Level – Case studies on electric powertrain technology of automotive OEM’s
Electric Motor Design for Electric Vehicles Advanced
File Size :
1.07 GB
Total length :
2h 10m

Instructor

Er. Prasanthkumar Palani

Language

Last update

1/2021

Ratings

4.2/5

Electric Motor Design for Electric Vehicles Advanced

What you’ll learn

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

Electric Motor Design for Electric Vehicles Advanced

Requirements

Should have basic knowledge on electric vehicle as only case studies from different car manufacturers are covered in this training
Or Should have attended our basic to intermediate training

Description

The participant will be able to understand the power train level targets to be met by automotive manufacturers in the upcoming years and its effect on development of E motors.Electric Drive system TargetsCO2 footprint and driving forces for electrification.This section will discuss on various measures taken by the research team of Nissan motors for improved electric powertrain performance and efficiency.Evolution of Nissan Leaf – 2011 to 2013 to 2018Interior PM Magnet Motors and Induction MotorsMagnet Arrangements & Impacts on Motor PerformanceReduction of rare earth elements for motor magnetsPhysical Design Changes for Efficiency ImprovementLight Weight design and manufacturing Techniques for EV propulsion motorsSystem Integration & Impacts on NVHSensitivity Analysis & NVH OptimizationNVH Optimization and its Effects on motor torque & acceleration performanceHarmonic Content of Radial Force DensityOptimization of Slot, slot liner, Poles & WindingThe General Motors Cadillac Hybrid uses Two motors for the powertrain. Induction and PMSM Motors. Here the participants will be able to understand the background of this motor selection strategyImpacts on Efficiency of motor and inverter systemUnderstanding the usage profile of the Induction and PMSM Machines for Hybrid Vehicle applicationsStrategies for torque ripple reduction of the induction and PMSM drivesThis section focuses on the key sensor technology applied by the automotive manufacturers in their electric and hybrid vehicle powertrains.Advanced Sensor applications for Better Control of EV’s and HEV’sSelection Criteria for Position sensorsSensor mounting methodologies and its significance on accuracySensor Angle Calculation and Error DefinitionComparison of Peak to Peak mechanical angle errorExemplary illustration of a resolver rotor position signal processing system.

Overview

Section 1: Introduction

Lecture 1 Electric Drive Targets for Electric and Hybrid Vehicles

Section 2: Nissan Leaf – Motor Design & Development Case Study

Lecture 2 Nissan Leaf EV- Motor Design & Development Case Study

Section 3: GM Cadillac Hybrid Vehicle – Motor Development Case Study

Lecture 3 GM Cadillac Hybrid Vehicle – Motor Development Case Study

Section 4: Case Study on Position Sensors for E Motors of EV’s and HEV’s

Lecture 4 Case Study on Position Sensors for E Motors of EV’s and HEV’s

Section 5: Summary of the Various Motor Technolgies

Lecture 5 Summary of the Various Motor Technologies

Students, faculty and professionals from Electrical , mechanical or electronics Engineering background.

Course Information:

Udemy | English | 2h 10m | 1.07 GB
Created by: Er. Prasanthkumar Palani

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