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Electric Vehicle Syllabus for Engineering

4 years ago

Electric Vehicle Syllabus for Engineering


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  1. Understanding Mobility And Its Evolution
    • Mobility Urban Forms And Ways Of Life
    • Electric Mobility: Specifications And Evolution
    • Electric Mobility And Environmental Impact Reduction
    • Life Cycle Assessment
    • Economic Analysis: Tools And Concepts
    • Electric Mobility And Infrastructure: Technical And Economical Dimensions
    • Electric Mobility Today
    • Prospective: The Road To Electrification
    • Electric Mobility, Connected Mobility And Autonomous Mobility
  1. Systems Integration And Analytical Tools
    • Vehicle Development Process Overview
    • Requirements Development
    • Hybrid Components And Architectures
    • Major Components In Hybrid Powertrain
    • Controls Integration
    • Component Sizing And Integration Tradeoffs
    • Hybrid Architecture Overview
    • System Design And Development Considerations
    • Vehicle Integration (Ex. Performance, Drivability, NVH)
    • Powertrain Integration (Ex. Energy, Power, Efficiency, Torque, Thermal Management)
    • HV/LV Electrical Systems (Ex. Safety, DC/AC Voltage, Charging System, Efficiency, Cables, Connectors, Fuses,
    • Chassis (Ex. Braking, Vehicle Dynamics, Powertrain To Chassis Dynamics, Ride And Handling, Steering, Fuel System)
    • Displays/Information (Ex. Messages, Information Aids, Usage Efficiency Aids)
    • HVAC (Ex. HV Compressor, HV Heater, Cabin Comfort, Efficiency Considerations)
    • Verification And Validation Considerations
    • Verification And Validation Test Requirements And Planning
    • Component Test Considerations
    • System Test Considerations
    • Fleet Testing
  1. Safety, Testing, Regulations, And Standards
    • Standards Roadmap For Electric Vehicles
    • SAE Standards
    • Arai Standards
    • Performance & Safety
    • Applicable Battery Standards
    • Battery Safety
    • Battery Transportations
    • Charging Standards
    • FMVSS
    • Governing Bodies For Regulation
    • Certification Requirement & Options
    • Battery Characterization & Cycle Testing
    • SAE J1772 Charge Protocol
  1. Assumptions
  2. Battery Technology
    • Introduction To Battery Technology
    • Battery Chemistry
    • Cells & Strings
    • Nomenclature
    • Introduction Of Lithium-Ion Batteries
    • Various Chemistry Of Lithium Polymer Batteries
    • Cathode & Anode Aging
    • Fault Detection Of Li-Ion Batteries
  1. BMS
    • Introduction Of BMS
    • Characteristics Of BMS
    • State Of Art BMS For EV
    • BMS Design
    • Requirement Of BMS
    • Topologies Of BMS
    • Algorithm Of BMS
    • Requirement Of Cell Balancing
    • Type Of Cell Balancing Techniques
    • Estimation Of Battery System Cell Module
    • System Level Performance Monitoring
    • Techniques To Improve Maximum Battery Life
    • Calculation Of Battery Packs
    • Governing Equation And Calculation Of Battery Capacity
    • Thermal Management Analysis Of Battery
    • Battery Casing Design
    • Design, Modeling And Simulation Of Li-Batteries
    • Connections And Wiring Harness Of Battery
    • Charging And Discharging Test
    • Manufacturing Procedures And Construction Of Li-Ion Batteries
  1. Energy Management Strategies And Its General Architecture
    • Rule And Optimization Based Energy Management Strategies
    • Energy Management Strategies Based On Deterministic Rules
    • Energy Management Strategies Based On Fuzzy Rule Base
    • Energy Management Strategies Based On Global Optimization
    • Energy Management Strategies Base On Real Time Optimization
  1. Charging AC/DC
    • Introduction Of Chargers
    • Introduction Of EVSE Technologies
    • Charger Topologies
    • Charging Frequency
    • Charging Duration
    • Charging Networks
    • Charging Expenses
    • Wireless Charging
    • AC-DC Charging Stations
    • Equipment For Charging Stations
    • DC Fast Charging
    • V2G Power Transfer
    • Protocol And Algorithm For Power Transfer
    • Design Of Charging System
    • Analysis Of Charging System
  1. Motors
      1. DC
    • Introduction
    • Topologies
    • Comparison Between Brushed And Brushless
    • Calculation For EV Machines
    • BLDC
      • Torque Calculation
      • Torque Dependencies
    • Electrical And Magnetic Loading
    • Dimensional Analysis
    • Output Calculation
    • Modeling Of BLDC Motor
    • Coils And Windings
    • Control Strategy Of Motor
    • Controller Topologies
    • State Of Art Controller Technology
    • Thermal Management
    • Cogging
    • Manufacturing
      1. AC
    • Introduction
    • Skewing
    • Design And Analysis
    • Modeling
    • Manufacturing
    • Thermal Management
  1. LABVIEW Basics
    • Debugging in LABVIEW
    • Creating Arrays in LABVIEW Software
  1. Controller
      1. Convertors
    • Introduction
    • Power V/S Linear Electronics
    • Convertors
    • IGBT
    • Power MOSFET
    • Design Of DC-DC Convertor
    • Modeling Of DC-DC Convertor
    • Performance Analysis
    • Thermal Analysis(FEA/LP)
    • Close Loop Control Signal Approach
    • Small Signal Analysis
    • Linearization Techniques
    • Concepts Of Power Convertor
    • Controller Design Techniques For Voltage And Current Loop
      1. Invertors
    • Introduction
    • Voltage Source Invertors
    • Switching Mechanism And Constraints
    • Governing Equations
    • Controller Strategies
    • Open Loop Invertor Circuit Design
    • Concept Of DC Link
    • Topologies For Switch Selection
    • Need Of Filters
    • Closed Loop Design And Development
    • Concept Of Various Linearization Techniques
    • Various Transformer Techniques
    • Need Of Controller Tuning
    • Introduction To MPPT Integration
    • Current Mitigation Techniques
    • Fault Handling Capabilities (LVRT/HVRT)
    • Galvanic Isolation Concepts
      1. EMI/EMC
    • Introduction Of Computational Electromagnetism
    • Serious EMC Issues
    • Overview Of Industry EMC Standards
    • Governing Equation
    • Sources Of Emi
    • System Compatibility
    • Requirement Of EMC
    • Convertor And Invertor Modeling For Emi/EMC Analysis
    • Application Of CEM In Power Convertor Design And Emi/EMC
    • Extraction Of Stray Parameters Using Q3D And HFSS
    • Modeling And Simulation Workflow Inn Q3D
    • EMI/EMC Simulation Workflow
    • Overview Of EMI Aware Design Process
    • Challenges And The Role Of Simulation In EMI/EMC Aware Design
    • LISN Modeling And Circuit Simulation
    • Noise Spectrum Analysis And Post Processing
      1. CAN
    • Introduction To CAN Communication
    • Data Logging
    • CAN Bus
    • Nodes
    • Overview Of J1939
    • Overview Of CAN H & CAN L
  1. Power Transmission
    • Overview Of Drive Train
    • Component Of EV Drive Train
    • Advantages Of EV Power Train Over Ice
    • Traction Motors And Drives
    • Performance Of Traction Motor
    • Losses Of Traction Motor
    • Force Calculation
    • Vehicle Kinematics
    • Governing Equation
    • Traction Drive Control Algorithms
    • Maximum Torque Per Ampere
    • Maximum Torque Per Voltage
    • Field Weakening Control
    • Design Analysis Of Control Mechanism
    • Introduction Of Drive Cycles
    • Modeling Simulation And Analysis Of Drive Train
  1. Vehicle Dynamics
    • Fundamentals Of Vehicle Dynamics
    • Fundamentals Of Aerodynamics
    • CG Calculation
    • Acceleration
    • Braking
    • Suspension
    • Steering
    • Wheels And Tires
  1. Vehicle Ergonomics
    • Seat Design
    • Body Design
    • Night Visibility
    • Human Factors
  1. Case Study Of Design Of BEV
  2. Recommended Software To Be Used
    • CREO 5.0
    • FLOW MASTER
    • NASTRAN
    • LOTUS
    • Q3D
    • HFSS
    • PROTEUS
    • MAPLE SIM
    • GREEN BOX
    • SCILAB
    • MAGNET
    • ARDINO
    • ADAMS
    • SOLID WORKS
    • CATIA
    • ANSYS WORKBENCH
    • ANSYS FLUENT
    • ANSA
    • HYPERMESH
    • LS DYNA
    • RADIOSS
    • OPEN FOAM
    • GT SUITE
    • MATLAB
    • SIMULINK
    • PYTHON              

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