Description
This course on Electric/Hybrid Vehicles Power Train by a team of experts led by a ISIEINDIA technical committee (300+ Professional Member from Indian and Global OEM i.e. M&M, TATA Motors, Renault, TVS etc.)
Program brought to you by ISIEINDIA e-leaning platform a leading online learning platform i.e. most popular in India and south Asia for Electric Vehicle Engineering Program.
Electric Vehicles is a growing sector which offers great career opportunities. Our program Electric vehicle Engineering is endorsed by Niti Aayog, Government of India and our platform is recommend platform by Society of Electric vehicle manufacturers (SMEV). “The government target for 30 percent adoption of electric vehicles by 2030 will be majorly driven by the electrification of two-wheeler, three-wheeler, and commercial vehicles. Lower rate of adoption of electric vehicles in passenger vehicle segment is expected to have a limited impact in achieving the targets.”
The Indian electric vehicle ecosystem market provides detailed market information for segmentation such as batteries, propulsion type, charger type, separator and region. The purpose of this market analysis is to examine the electric vehicle ecosystem market outlook in terms of factors driving the market, trends, technological developments, and competitive benchmarking, among others.
Market Segmentation
The Indian Electric Vehicles, Electric Vehicle Batteries and Electric Vehicle Charging Infrastructure Market is further segmented on the basis of separator type, charger type, vehicle type, battery type, and region. The three-wheeler dominated the Indian electric vehicles, electric vehicle batteries and electric vehicle charging infrastructure market in 2018 and is anticipated to maintain its dominance throughout the forecast period (2019-2030).
While highlighting the key driving and restraining forces for this market, the report also provides a detailed study of the industry under analysis. The report also analyzes the prevalence of different types of batteries used in various vehicle types.
The Indian electric vehicles, electric vehicle batteries and electric vehicle charging infrastructure market has been segregated on the basis of region into four major regions, namely North India, South India, East India, and West India.
Program Overview
EV and HEV specialization (Electric Vehicle Engineering) will provide a dynamic academic program inclusive of live projects, major and minor projects along with hands on experience in Electric / Hybrid / Renewable Energy Domain. The programme imparts practical application of skills in the field of electric vehicle engineering. It provides for a hands-on experience through practical learning and Case Study.
The program is also giving you deep learning about Architecture of Powertrain, Battery Pack design, Drive train thermally & Mathematical modelling, Selection of right of Components, codes and standards , BMS –Battery Management system, Drivetrain integration etc.
ISIEINDIA well knows platform from 2013 to provide opportunity to learn and develop innovation, technologies especially in EV sector. Now, we present the specialization program on Electric / Hybrid Vehicle Power train (EV Powertrain). This program provides you with the most flexible learning environment possible. This program is offered as a self-paced program often referred to as an asynchronous online program which is time-independent, meaning that it can be accessed 24X7 life time access. This program can be accessed from multiple devices which make it easy to learn on the go. Lectures that are pre-recorded or slide presentation with voice-over commentary, interactive discussion boxes, real time modelling on various advanced software, GIF , Videos , graphs etc.
What you will learn?
- Types of Powertrain
- Construction of Powertrain and energy fellow
- Electrical Machines and Selection of Motor, Controller and Converter
- Battery Pack , Battery Management System
- Design of Battery Management System
- Mathematical and Thermal modelling and analysis for Battery Pack
- BMS Protection and safety standards
- Cell Balancing
- Energy Management
- Drive Train Design
- Modelling of Drive Train for EV
- Integration of Drive Train
- Case Study on TATA Electric Bus
- Case Study of Battery Technology of Nissan Leaf and Tesla
Program outcomes
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Lean Inside Hybrid and Electric Vehicles i.e. Construction, Power Fellow, Vehicle Architecture
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How NOT to, and how to build/select a right Battery pack for an EV/HEV
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Learn how power flows inside an Electric and Hybrid Vehicle and Vehicle Architecture
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How to choose different component , i.e. selection of right motor, Convertor , Charging System, Drive Train , Controllers etc.
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How does size and type of components effecting the performance of Vehicle.
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Mathematical Modelling, Thermal Analysis etc.
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How to design and optimize the Drivetrain, Integration of Drivetrain
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Improve Vehicle Performance and Fuel/Energy Consumption
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Battery Management System, Energy Management Control Strategies and Power Electronics.
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What safety considerations should be taken care of before launching an EV VEHICLE?
Requirements
- Mobile/Laptop/Tablet with good internet connectivity.
- Interest in electric vehicles, telecom, solar, aerospace or consumer electronics applications.
Syllabus
- 83 Lessons
- 17:40:00 Hours
- Construction of Electric Vehicles-EV00:13:00
- Construction of Hybrid Vehicle-HEV and types00:12:00
- Parallel Hybrid Powertrain00:13:00
- Series Hybrid Powertrain00:12:00
- Plugin Hybrid Powertrain00:13:00
- Mild & Micro Hybrid Powertrain00:13:00
- Power Split00:10:00
- Power Flow in EV & HEV00:20:00
- Complete Vehicle System Modelling & Drive Cycle Simulation- Using Ricardo Ignite 00:50:00
- Efficiencies Comparison EV Vs. HEV00:17:00
- Case study of Power Train of Toyota Hybrid Car 00:19:00
- Simulation on MATLAB00:13:00
- Simulink and Blockset00:17:00
- Powertrain Blockset00:14:00
- EV Modelling00:30:00
- Classification of Motors00:15:00
- Motor operating Characteristics00:19:00
- Reluctance Motors00:15:00
- Synchronous Motors00:10:00
- Controller topologies00:11:00
- Type of Controller (Sine Wave / Square Wave)00:11:00
- Flux Modulating Machines00:17:00
- DC Machines00:15:00
- Comparing Electrical Motors For EV's00:00:00
- NVH Characterization of Electric Motors00:20:00
- Case Study(Noise, Vibration & Harshness Challenges in Vehicle Light weighting )00:24:00
- How to Select type and size of Motor for EV with Calculation01:14:00
- Li-Ion Battery for EV (Parameter ) 00:30:00
- Calculation for Battery ( Motor Selection, Voltage , WLTP, Capacity & Configuration) 00:30:00
- Difference between a DIY pack and an industry-grade battery pack00:16:00
- Onboard charging00:12:00
- How to choose the right Charger Port for your vehicle00:16:00
- What safety considerations should be taken care of before launching an EV vehicle00:18:00
- Case Study on TATA Electric Bus Powertrain01:10:00
- Type of Drive Train00:21:00
- Selection of Drive Train 00:20:00
- Setting up model of Hybrid Drive Train00:29:00
- Simulating Model of Hybrid Drive Train (Ricardo-Ignite)00:28:00
- Improve Vehicle Performance and Fuel/Energy Consumption00:22:00
- Control Strategy of a Hybrid Electric Vehicle for Maximum Energy Economy00:16:00
- The requirement of Energy Management in EV00:10:00
- Control Strategies of HEV00:21:00
- Regenerative braking System00:16:00
- Kinetic Energy Recovery System00:17:00
- Power flow and exchange inside an EV (Software)00:19:00
- Why do we need to shift voltage levels inside different subcomponents of an EV?00:14:00
- how to filter noise to allow your circuit to work effectively in the field00:17:00
- Difference between high voltage design and low voltage design00:15:00
- Vehicle Harness System Modelling (Mathematical)00:21:00
- safety considerations do you need when dealing with high voltages00:15:00
- Challenges in EV00:15:00
- Goals set for Electrification00:15:00
- Requirements for Policy Making00:15:00
- Standards and regulation in India00:15:00
- Validation of EVs as per ARAI standards00:10:00
- Assessment 1
- Mini Project 1: Calculate the power of different types of motors.
- Mini Project 2: Simulate a Model of Hybrid Drive Train on Ricardo
Program outcomes
- Lean Inside Hybrid and Electric Vehicles i.e. Construction, Power Fellow, Vehicle Architecture
- How NOT to, and how to build/select a right Battery pack for an EV/HEV
- Learn how power flows inside an Electric and Hybrid Vehicle and Vehicle Architecture
- How to choose different component , i.e. selection of right motor, Convertor , Charging System, Drive Train , Controllers etc.
- How does size and type of components effecting the performance of Vehicle.
- Mathematical Modelling, Thermal Analysis etc.
- How to design and optimize the Drivetrain, Integration of Drivetrain
- Improve Vehicle Performance and Fuel/Energy Consumption
- Battery Management System, Energy Management Control Strategies and Power Electronics.
- What safety considerations should be taken care of before launching an EV VEHICLE?
About instructor
Name : ISIEINDIA E-LEARNING
Reviews : 226 Reviews
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Johnson Stella - Wed, 24-Jun-2020
The course helped me channelize my time and effort. Since a large number of contents were available online, this particular course substantially increased my productivity by providing a much needed reference.