Learning about electric cars through pictures
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Description
Book Introduction
Electric vehicles: the starting point for carbon neutrality and energy transition
Electric vehicle technology and trends at a glance
Electric vehicles, attracting attention as eco-friendly mobility, are positioned as the next-generation transportation method to replace internal combustion engines and as a key technology for achieving carbon neutrality and energy transition.
Electric vehicles, comprised of batteries, motors, and power converters, are changing the paradigm of the automotive industry based on new power structures and charging infrastructure, and are rapidly expanding through various policies and technological developments.
This book provides an easy-to-understand explanation of the operating principles, basic structure, and major components of electric vehicles, with illustrations. It also introduces the characteristics and differences between various electric vehicles, such as hybrid and hydrogen vehicles.
It covers a wide range of environmental and social trends surrounding electric vehicles, including charging methods, infrastructure construction, greenhouse gas reduction policies, and renewable energy integration, enabling a systematic understanding of the core concepts and technological foundations of electric vehicles.
From general readers interested in electric vehicles to practitioners seeking insight into the direction of technological change, this book will help anyone interested in understanding the technological trends and future of electric vehicles.
Electric vehicle technology and trends at a glance
Electric vehicles, attracting attention as eco-friendly mobility, are positioned as the next-generation transportation method to replace internal combustion engines and as a key technology for achieving carbon neutrality and energy transition.
Electric vehicles, comprised of batteries, motors, and power converters, are changing the paradigm of the automotive industry based on new power structures and charging infrastructure, and are rapidly expanding through various policies and technological developments.
This book provides an easy-to-understand explanation of the operating principles, basic structure, and major components of electric vehicles, with illustrations. It also introduces the characteristics and differences between various electric vehicles, such as hybrid and hydrogen vehicles.
It covers a wide range of environmental and social trends surrounding electric vehicles, including charging methods, infrastructure construction, greenhouse gas reduction policies, and renewable energy integration, enabling a systematic understanding of the core concepts and technological foundations of electric vehicles.
From general readers interested in electric vehicles to practitioners seeking insight into the direction of technological change, this book will help anyone interested in understanding the technological trends and future of electric vehicles.
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Preview
index
Chapter 1: Riding an Electric Car
1-1 Electric vehicles as eco-friendly vehicles
1-2 Compare to gasoline cars
1-3 Driving ① Driving an electric vehicle
1-4 Driving② Smooth acceleration
1-5 Driving ③ Excellent controllability and quietness
1-6 Driving④ Decelerate while generating electricity
1-7 Running⑤ How far can you run?
1-8 Charging ① Charge the electric vehicle
1-9 Charging② Slow charging at home
1-10 Charging ③ Find a charging station
1-11 Pros and Cons You Can Only Know After Using It
Chapter 2 Structure and Types of Electric Vehicles
2-1 Basic structure of an electric vehicle
2-2 Types of electric vehicles
2-3 Differences in structure according to type
2-4 Common features of electric vehicles
2-5 Hybrid Vehicle ① Power Transmission Method
2-6 Hybrid Vehicles② Series and Parallel
2-7 Hybrid Vehicle ③ Series-Parallel Method
2-8 Hybrid Vehicle④ Split Type
2-9 Electric Vehicles and the Changing Market Situation
2-10 rechargeable plug-in hybrid car
2-11 Fuel cell car running on hydrogen
Chapter 3: The History of Electric Vehicles
3-1 A history older than gasoline cars
3-2 The first boom in electric vehicles
3-3 The Oil Revolution and the Popularization of Automobiles
3-4 The second boom in electric vehicles
3-5 Fuel cell vehicle development
3-6 Mass production of hybrid vehicles
3-7 The Third Wave of Electric Vehicles
3-8 Growing interest in environmental issues
3-9 Electric vehicles continue to grow
Chapter 4 Battery and Power System
4-1 What is a battery?
4-2 Batteries required for electric vehicles
4-3 Drive battery and auxiliary battery
4-4 Types of vehicle batteries ① Lead-acid batteries, the original secondary batteries
4-5 Types of Vehicle Batteries ② High-energy-density nickel-metal hydride batteries
4-6 Types of vehicle batteries ③ Lithium-ion batteries that enable large capacity
4-7 Types of vehicle batteries ④ Fuel cells that generate electricity using fuel
4-8 Types of Vehicle Batteries ⑤ Solar Cells that Power Up with Light
4-9 Types of vehicle batteries⑥ Fast charging/discharging electric double layer capacitor
4-10 Battery Management System to Ensure Battery Safety
Motor used as power source for Ch 5
5-1 What is a motor?
5-2 Motors required for electric vehicles
5-3 Understanding Motors ① Types of Motors and Electricity
5-4 Understanding Motors ② Easy-to-Control DC Motors
5-5 Understanding Motors ③ Easy-to-Repair AC Motors
5-6 Drive motor ① Induction motor widely used in electric trains
5-7 Drive Motor② Induction motor widely used in automobiles
5-8 Drive motor ③ In-wheel motor that directly rotates the wheel
Ch 6 Driving Control
6-1 Control technology for controlling driving
6-2 Core power semiconductors for motor control
6-3 Power Conversion Principle ① Converts DC voltage
6-4 Power Conversion Principle ② Converting direct current into three-phase alternating current
6-5 High-speed on-off power semiconductor
6-6 Driving ① Smooth start and acceleration
6-7 Driving② Motor control by inverter
6-8 Braking ① Types of brakes
6-9 Braking② Coordinated brake
Infrastructure supporting Chapter 7 driving
7-1 Infrastructure supporting electric vehicles
7-2 Power Supply ① Slow Charging and Rapid Charging
7-3 Power Supply② Why can’t charging be done in a short time?
7-4 Power Supply ③ Plug Charging Specifications
7-5 Power supply④ Pantograph current collection
7-6 Power supply⑤ Non-contact charging
7-7 Power Supply⑥ V2H and V2G
7-8 Hydrogen Supply ① Hydrogen Charging Station
7-9 Hydrogen Supply② Linkage with the Hydrogen Economy and Society
Chapter 8 Electric Vehicles and the Environment
8-1 Are electric vehicles really environmentally friendly?
8-2 CO2 emissions from invisible sources
8-3 Comprehensive evaluation of environmental performance
8-4 Utilization of renewable energy
8-5 IT and Smart Grid
8-6 Hydrogen Economy Society Utilizing Hydrogen
8-7 Reuse and recycling of drive batteries
Chapter 9 The Future of Electric Vehicles
9-1 Evolution of Electric Vehicles ① Drive Battery
9-2 Evolution of Electric Vehicles ② Turning Motion
9-3 EV Transition and Challenges - Charging Infrastructure and Power Shortages
9-4 Response to the Mobility Revolution
CASE: The 9-5 Automotive Industry
9-6 Coexistence with Public Transportation and MaaS
1-1 Electric vehicles as eco-friendly vehicles
1-2 Compare to gasoline cars
1-3 Driving ① Driving an electric vehicle
1-4 Driving② Smooth acceleration
1-5 Driving ③ Excellent controllability and quietness
1-6 Driving④ Decelerate while generating electricity
1-7 Running⑤ How far can you run?
1-8 Charging ① Charge the electric vehicle
1-9 Charging② Slow charging at home
1-10 Charging ③ Find a charging station
1-11 Pros and Cons You Can Only Know After Using It
Chapter 2 Structure and Types of Electric Vehicles
2-1 Basic structure of an electric vehicle
2-2 Types of electric vehicles
2-3 Differences in structure according to type
2-4 Common features of electric vehicles
2-5 Hybrid Vehicle ① Power Transmission Method
2-6 Hybrid Vehicles② Series and Parallel
2-7 Hybrid Vehicle ③ Series-Parallel Method
2-8 Hybrid Vehicle④ Split Type
2-9 Electric Vehicles and the Changing Market Situation
2-10 rechargeable plug-in hybrid car
2-11 Fuel cell car running on hydrogen
Chapter 3: The History of Electric Vehicles
3-1 A history older than gasoline cars
3-2 The first boom in electric vehicles
3-3 The Oil Revolution and the Popularization of Automobiles
3-4 The second boom in electric vehicles
3-5 Fuel cell vehicle development
3-6 Mass production of hybrid vehicles
3-7 The Third Wave of Electric Vehicles
3-8 Growing interest in environmental issues
3-9 Electric vehicles continue to grow
Chapter 4 Battery and Power System
4-1 What is a battery?
4-2 Batteries required for electric vehicles
4-3 Drive battery and auxiliary battery
4-4 Types of vehicle batteries ① Lead-acid batteries, the original secondary batteries
4-5 Types of Vehicle Batteries ② High-energy-density nickel-metal hydride batteries
4-6 Types of vehicle batteries ③ Lithium-ion batteries that enable large capacity
4-7 Types of vehicle batteries ④ Fuel cells that generate electricity using fuel
4-8 Types of Vehicle Batteries ⑤ Solar Cells that Power Up with Light
4-9 Types of vehicle batteries⑥ Fast charging/discharging electric double layer capacitor
4-10 Battery Management System to Ensure Battery Safety
Motor used as power source for Ch 5
5-1 What is a motor?
5-2 Motors required for electric vehicles
5-3 Understanding Motors ① Types of Motors and Electricity
5-4 Understanding Motors ② Easy-to-Control DC Motors
5-5 Understanding Motors ③ Easy-to-Repair AC Motors
5-6 Drive motor ① Induction motor widely used in electric trains
5-7 Drive Motor② Induction motor widely used in automobiles
5-8 Drive motor ③ In-wheel motor that directly rotates the wheel
Ch 6 Driving Control
6-1 Control technology for controlling driving
6-2 Core power semiconductors for motor control
6-3 Power Conversion Principle ① Converts DC voltage
6-4 Power Conversion Principle ② Converting direct current into three-phase alternating current
6-5 High-speed on-off power semiconductor
6-6 Driving ① Smooth start and acceleration
6-7 Driving② Motor control by inverter
6-8 Braking ① Types of brakes
6-9 Braking② Coordinated brake
Infrastructure supporting Chapter 7 driving
7-1 Infrastructure supporting electric vehicles
7-2 Power Supply ① Slow Charging and Rapid Charging
7-3 Power Supply② Why can’t charging be done in a short time?
7-4 Power Supply ③ Plug Charging Specifications
7-5 Power supply④ Pantograph current collection
7-6 Power supply⑤ Non-contact charging
7-7 Power Supply⑥ V2H and V2G
7-8 Hydrogen Supply ① Hydrogen Charging Station
7-9 Hydrogen Supply② Linkage with the Hydrogen Economy and Society
Chapter 8 Electric Vehicles and the Environment
8-1 Are electric vehicles really environmentally friendly?
8-2 CO2 emissions from invisible sources
8-3 Comprehensive evaluation of environmental performance
8-4 Utilization of renewable energy
8-5 IT and Smart Grid
8-6 Hydrogen Economy Society Utilizing Hydrogen
8-7 Reuse and recycling of drive batteries
Chapter 9 The Future of Electric Vehicles
9-1 Evolution of Electric Vehicles ① Drive Battery
9-2 Evolution of Electric Vehicles ② Turning Motion
9-3 EV Transition and Challenges - Charging Infrastructure and Power Shortages
9-4 Response to the Mobility Revolution
CASE: The 9-5 Automotive Industry
9-6 Coexistence with Public Transportation and MaaS
Detailed image
GOODS SPECIFICS
- Date of issue: July 10, 2025
- Page count, weight, size: 200 pages | 152*215*15mm
- ISBN13: 9788931480412
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