As the world shifts toward sustainable mobility, hybrid electric vehicles (HEVs) are becoming the bridge between traditional internal combustion engines and fully electric vehicles. If you want to dive deep into how these vehicles work — from powertrains to energy management — there are several essential books that can help you grasp the fundamentals of HEV technology. Whether you’re an engineering student, an automotive enthusiast, or a professional looking to upskill, here’s a guide to the best books to understand hybrid electric vehicle technology.
1. “Hybrid Electric Vehicles: Principles and Applications with Practical Perspectives” by Chris Mi, M. Abul Masrur, and David Wenzhong Gao
This is one of the most popular and widely recommended textbooks on HEVs. It provides a detailed understanding of:
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Powertrain configurations and design
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Electric motor technologies
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Battery management systems
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Control strategies for hybrid powertrains
The book balances theory and practical applications, making it perfect for students and engineers alike. It also includes case studies and MATLAB/Simulink examples for hands-on learning.
2. “Modern Electric, Hybrid Electric, and Fuel Cell Vehicles: Fundamentals, Theory, and Design” by Mehrdad Ehsani, Yimin Gao, and Ali Emadi
Often considered the “bible” of hybrid and electric vehicle engineering, this book covers the fundamental theories and system-level design aspects of modern electric and hybrid vehicles.
Key highlights include:
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Comprehensive explanations of electric drive systems
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In-depth analysis of fuel cell systems
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Modeling, simulation, and optimization of hybrid powertrains
This book is ideal for graduate-level students and professionals involved in automotive R&D.
3. “Electric and Hybrid Vehicles: Technologies, Modeling and Control – A Mechatronic Approach” by Amir Khajepour, M. Saber Fallah, and Avesta Goodarzi
This book focuses on the mechatronic perspective of hybrid vehicles — integrating mechanical, electrical, and control systems. It covers:
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Vehicle dynamics
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Energy management systems
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Control algorithms for electric and hybrid systems
It’s an excellent choice for those who want to understand how mechanical and control systems interact within a hybrid vehicle.
4. “Fundamentals of Electric Drives” by G. K. Dubey
Although not exclusively focused on hybrid vehicles, this book is invaluable for understanding the core of electric propulsion — the electric drive.
Topics include:
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DC and AC motor drives
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Control of motor speed and torque
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Power electronics fundamentals
Anyone interested in the engineering mechanics of electric motors used in HEVs should start here before moving to advanced vehicle design books.
5. “Automotive Powertrain Science and Technology” by Fredrik Westin and Lars Eriksson
This book explains powertrain design, modeling, and optimization, including hybrid systems. It offers insights into:
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Internal combustion engine performance
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Hybridization strategies
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Energy flow management
It’s especially useful for understanding how traditional automotive engineering merges with modern hybrid technologies.
6. “Advanced Hybrid Powertrains for Automotive Applications” by John M. Miller
This book delves into advanced topics in hybrid powertrain systems, including:
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Electric traction system architecture
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Hybrid transmission design
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Energy storage integration
It’s perfect for engineers who already understand the basics and want to explore cutting-edge hybrid systems.
7. “Battery Management Systems for Large Lithium-Ion Battery Packs” by Davide Andrea
Since batteries are the heart of every HEV, this book focuses on battery management systems (BMS) — the critical component ensuring safety, efficiency, and longevity of lithium-ion batteries.
It covers:
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Battery chemistry basics
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Charging and discharging control
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Thermal management systems
For anyone focusing on energy storage in hybrid or electric vehicles, this is a must-read.
Conclusion
Understanding hybrid electric vehicle technology requires mastering multiple disciplines — mechanical, electrical, and control engineering. The books listed above provide a step-by-step roadmap from fundamentals to advanced concepts, helping you gain both theoretical knowledge and practical insights.
