JNTUK EEE 4th Year 1st Semester - Hybrid Electric Vehicles
Complete Unit-wise Study Materials and Important Topics for R20 Regulation
Master the Future of Automotive Technology
All materials regarding B.Tech R-20 in Electrical and Electronics Engineering 4th Year 1st Semester with unit-wise resources for Hybrid Electric Vehicles are available. This cutting-edge subject explores the integration of electrical systems in modern automotive technology, focusing on sustainable transportation solutions.
This comprehensive collection includes detailed study materials, important questions, and complete syllabus coverage to prepare you for the evolving automotive industry.
EEE 4-1 Hybrid Electric Vehicles Study Materials
Download unit-wise study materials for comprehensive preparation of Hybrid Electric Vehicles subject.
| EEE 4-1 Hybrid Electric Vehicles | ||
|---|---|---|
| S.No | Chapters / Units | Download Link |
| 1 | Unit 1 - Introduction | Download |
| 2 | Unit 2 - Hybridization of Automobile | Download |
| 3 | Unit 3 - Special Machines for EV and HEVs | Download |
| 4 | Unit 4 - Power Electronics in HEVs | Download |
| 5 | Unit 5 - Energy Sources for HEVs | Download |
Course Objectives
The Hybrid Electric Vehicles course is designed to help students:
Understand EV/HEV Advantages
Learn the need and advantages of electric and hybrid electric vehicles
Architecture Knowledge
Study various architectures of hybrid electric vehicles
Power Management
Understand power management of plug-in electric vehicles
Power Converters
Study different power converters used in electrical vehicles
Energy Storage
Learn about different batteries and storage systems for EVs
Key Technologies in Hybrid Electric Vehicles
Explore the core technologies that power modern electric and hybrid vehicles:
Battery Systems
Lithium-ion, fuel cells, and advanced energy storage
Power Electronics
Converters, inverters, and motor controllers
Electric Motors
Induction, PMSM, BLDC, and switch reluctance motors
Charging Systems
EV and PHEV battery chargers and infrastructure
EEE 4-1 Hybrid Electric Vehicles Important Topics
UNIT - I: Introduction to Electric Vehicles
Fundamentals of vehicle - components of conventional vehicle and propulsion load
Drive cycles and drive terrain analysis for vehicle performance
Concept of electric vehicle and hybrid electric vehicle - historical development
Advantages and applications of Electric and Hybrid Electric Vehicles in modern transportation
UNIT - II: Hybridization of Automobile
Architectures of HEVs - series, parallel, and complex hybrid configurations
Plug-in hybrid vehicle (PHEV) - constituents and operational principles
Comparison of HEV and PHEV systems and their applications
Extended range hybrid electric vehicles (EREVs) and Fuel Cell vehicle technology
UNIT - III: Special Machines for EV and HEVs
Characteristics of traction drive and requirements for electric motors in EV/HEVs
Induction Motor drives - control techniques and automotive applications
Permanent Magnet Synchronous Motors - configuration and control systems
Brushless DC Motors and Switch Reluctance Motors - advantages and control methods
UNIT - IV: Power Electronics in HEVs
Boost and Buck-Boost converters for voltage regulation in EVs
Multi Quadrant DC-DC converters and their applications
DC-AC Inverters for EV and HEV motor drives
Three Phase DC-AC inverters with PWM voltage control techniques
UNIT - V: Energy Sources for HEVs
Battery-based energy storage systems and simplified battery models
Fuel cells - characteristics, operation, and modeling for automotive use
Super capacitor technology for high-power energy storage
Flywheel energy storage and hybridization of multiple energy storage devices
Career Opportunities in EV Technology
Hybrid Electric Vehicles expertise opens doors to exciting career paths:
EV Design Engineer
Design and development of electric vehicle systems and components
Battery Systems Engineer
Specialization in energy storage systems and battery managemen