Global and China Range Extended Electric Vehicle (REEV) and Plug-in Hybrid Electric Vehicle (PHEV) Research Report, 2024-2025

Search by Type

Report DataBase News

Abstract

Selected Charts

Related Reports

Related Companies

Research on REEV and PHEV: Head in the direction of high thermal efficiency and large batteries, and there is huge potential for REEVs to go overseas

In 2024, hybrid vehicles grew faster than battery electric vehicles (BEV) globally, and the sales of PHEVs & REEVs surpassed hybrid electric vehicles (HEV) for the first time.

In 2023, 9 million hybrid vehicles (PHEVs+REEVs+HEVs) were sold worldwide, accounting for 10.1% of the total vehicle sales. It is expected that over 12 million hybrid vehicles will be sold in 2024, making up of more than 13.5% of the total sales.

In 2023, 4 million PHEVs & REEVs were sold worldwide, a year-on-year spike of 49.8%. It is estimated that the sales will reach 6 million units in 2024. From 2020 to 2024, the global sales of PHEVs & REEVs sustained a high annual growth rate, up to 65%, thanks to the boom in the Chinese market.
In 2023, 5 million HEVs were sold worldwide, jumping by 34.4% year on year. The sales are expected to hit 5.2 million units in 2024. From 2021 to 2024, the global HEV market maintained an average annual growth rate of over 30%.

From January to September 2024, the global sales of plug-in hybrid vehicles including extended range vehicles (PHEVs & REEVs) exceeded general hybrid vehicles (HEVs) for the first time. Compared with HEVs, PHEVs & REEVs save more energy and are greener, and their prices have been much lower than before. It is expected that PHEVs & REEVs will become mainstream among hybrid vehicles to be sold in 2025.

混合增城 1.png

As per the sales of global hybrid vehicles (PHEVs & REEVs & HEVs) by region, China has become the main hybrid vehicle market since 2022 mainly thanks to the surging sales of PHEVs & REEVs.

混合增城 2.png

Hybrid vehicles are developing towards high thermal efficiency, large batteries, and long range.

1.The thermal efficiency of engines for PHEVs & REEVs has reached 46% in China.

Most traditional fuel vehicles use the Otto cycle, that is, a cycle in which the compression ratio is equal to the expansion ratio. The most obvious way to further improve the thermal efficiency is to make the compression ratio lower than the expansion ratio, that is, the working stroke is higher than the compression stroke. Hybrid-specific engines that leverage the Miller/Atkinson cycle which can achieve higher thermal efficiency with much less low-end torque thus come into being. Electronic structures replace conventional mechanical accessories: for other power output sources are added to a plug-in hybrid system, the plug-in hybrid engine is relieved of a lot of burden. The control logic of most hybrid systems will allow engines to run directly in a relatively efficient range, avoiding such operating conditions as idling and low speed.

OEMs like BYD, Geely, Dongfeng, GAC, Great Wall Motor and Chery are vigorously investing in research and development. It is expected that a large number of hybrid engines with 45% thermal efficiency will be ready for industrial application from 2025. In 2024, BYD DM5.0 used a more efficient 1.5L/1.5T hybrid engine, with a maximum thermal efficiency of 46.05%/45.3%.

混合增城 3.png

2.The power battery capacity of China's hot-selling PHEVs & REEVs has exceeded 43kWh.

From 2023 to 2024, the battery capacity of China's PHEVs & REEVs increased a lot, from about 15kWh to 30kWh. In the future, large batteries will become an inevitable trend in the development of PHEVs & REEVs. The battery capacity of REEVs is higher than that of PHEVs, but they are all involved with power batteries.

The battery capacity of the long-range editions of REEVs like BAIC ROX 01, BYD U8, AITO M9, Voyah FREE, Li L7/L8/L9, Leapmotor C01/C11, Neta S, and M-Hero 917 has exceeded 43kWh. The EV mode range of REEVs is generally longer than PHEVs;
The battery capacity of the long-range editions of PHEVs like BYD Denza N8/N9, JAC Refine RF8, Voyah Dreamer/Passion, Chery Jetour Shanhai T2, Great Wall WEY Gaoshan/Blue Mountain has hit more than 43kWh;

混合增城 4.png

Compared with small batteries, large batteries offer greater benefits in application in vehicles:
A large battery is healthier than a small battery in service life: Battery lifespan mainly refers to cycle life, namely the number of charge and discharge cycles the battery can complete before its capacity drops (0%~100%~0%). Because of its low capacity, a small battery will definitely charge and discharge more frequently, while a large battery can dilute the charge and discharge frequency to a certain extent, and its cycle life will be relatively longer.
Higher battery performance: Compared with small batteries, under the same power requirements, the discharge rate of large batteries is lower, which can avoid damage to the materials and structural stability of the batteries during high current discharge.

It is not the better for hybrid vehicle batteries to have larger capacity. Because the weight and cost are also rising, so OEMs have been researching what capacity batteries should be used and what size of engine and motor they should match.

3.The comprehensive range of Chinese PHEVs & REEVs is planned to be 2,000km.

Domestic hybrid models, including BYD, Geely, Chery, Dongfeng, Roewe and many other plug-in hybrids with large fuel tanks, have a range of 2,000 kilometers. BYD DM 5.0 has achieved a comprehensive cruising range of 2,100km+, but it is only priced at RMB100,000, with lower price but longer range. The 2,000-kilometer range has become a new arena for OEMs to complete fiercely.

1. Large fuel tanks: The increase in range is related to larger fuel tanks. For example, Chery EXEED STERRA ET, a medium-to-large SUV, can run 2,141.4 kilometers with a full tank and a full charge. It has a 67L fuel tank and is equipped with a 32kWh battery pack. Chery Fulwin T10, a medium-sized plug-in hybrid SUV, has a 70L fuel tank and a comprehensive range of 1,400km.

2. Higher engine thermal efficiency: The engine thermal efficiency of BYD, GAC, Geely, Dongfeng, Chery and other Chinese OEMs has reached 46% in the past two years. With such hybrid engines and fuel tanks, everyone has secured a range of up to 2,000 kilometers. Compared with the 46% thermal efficiency of domestic OEMs, the thermal efficiency of A25B-FXS 2.5, Toyota’s gasoline engine for passenger cars, is about 41%, and the highest thermal efficiency of Volkswagen is 39%.

3. Large batteries: The extended-range edition of 2024 Leapmotor C11 packs a 43.74kWh battery with NEDC range of 300km;

The overseas REEV market is in its infancy, leaving huge scope for Chinese OEMs to go overseas.

The extended-range type is a series type, and the technology route is much simpler the hybrid type. It is quick to get started, and does not require too much technical accumulation, with a relatively low threshold. In 2024, there were 36 REEV models on sale in China, more than doubling in 2023 with 17 models. In 2025, seven REEV models will be launched on market, including Deepal's 6-seat REEV, IM's first REEV, Changan Nevo C798, Xpeng's first REEV, STERRA's second SUV/MPV REEV, Voyah's 6-seat SUV REEV, and Leapmotor A12.

Chinese REEV OEMs’ hybrid system - architecture - model

There are currently a total of 25 passenger car REEV models on sale. Brands such as Li Auto, AITO and Leapmotor prevail in the number of models and sales volume. Li Auto sells each REEV at a price of higher than RMB300,000; Changan performs well in REEV models, and its brand Deepal features cost-effective models in a price range of RMB110,000-190,000.

From the perspective of parameters, passenger car REEVs are mainly medium-sized and medium-to-large sized passenger cars, with battery capacity of around 40kWh and EV mode range longer than 200km.

Foreign OEMs are competing to launch their own extended-range vehicles to seize the hybrid market.

Compared with PHEVs, REEVs have a simple structure and high plasticity, and are more popular in the high-end market. In the international market, foreign OEMs have planned to launch their own extended-range vehicles. Foreign brands have planned REEVs and intended to develop and improve extended-range systems and launch them on market.

For example, Hyundai, Mazda, Stellantis, Nissan, BMW, Volkswagen Scout, etc. have all planned or launched extended-range vehicles. It is reported that over 80% of consumers chose the extended-range edition of Volkswagen Scout which was just launched in North America in October 2024. From 2025 to 2030, REEVs will not only gain popularity in the domestic market, but will be very hot in foreign markets.

1 Hybrid Vehicle Structure, Definition and Policies
1.1 Hybrid Vehicle Structure and Definition
1.1.1 Hybrid Vehicle - Definition and Structure
Hybrid Power System - by Motor Location
Hybrid Power System - by Power Structure
Hybrid Power System - by Drive Motor Power
Hybrid Power System - by Hybrid Level / Fuel Economy
Hybrid Vehicle Industry Chain

1.2 Structure and Definition of Extended-range Hybrid Power System
REEV Supply Chain - Official Definition
REEV Supply Chain - System Structure
REEV VS PHEV
REEV Supply Chain - System Composition
REEV Supply Chain - Electrical Architecture
“Extended Range + Large Battery” is the Development Direction of REEVs
REEV Supply Chain - Difficulties in System Development

1.3 China’s Hybrid Vehicle Policies and Regulations - Carbon Emissions and CAFC & NEV Credits
Carbon Neutrality Progress in Major Countries Worldwide
Electrification Goals of Major Countries/Regions Worldwide
Electrification Policies of Major Countries/Regions Worldwide
China's Vehicle Emission Regulations
Calculation of China's Automobile Carbon Emissions
Chinese Passenger Cars - CAFC & NEV Credits Policy (1)
Chinese Passenger Cars - CAFC & NEV Credits Policy (2)

1.4 China’s Hybrid Vehicle Policies and Regulations - Development Planning
Development Trends of Hybrid Vehicles
Energy Saving and New Energy Vehicle Technology Roadmap 2.0 - Hybrid Passenger Car Development Planning
Development Plan of New Energy Vehicle Industry (2021-2035)

1.5 Impacts of Policies on the Development of Hybrid Vehicles
New Energy Vehicle Credits Drive the Development of Hybrid Vehicles
Hybrid Vehicles Help Traditional OEMs in Average Fuel Consumption Credits
Hybrid Vehicles Are Rapidly Replacing Fuel Vehicles

2 Status Quo and Trends of Global and Chinese Hybrid Vehicle Markets

2.1 Global Hybrid Vehicle Market
Hybrid Vehicles (PHEVs & REEVs & HEVs) Account for More Than 12% of Global Sales Volume
Global Sales Volume of Hybrid Vehicles (PHEVs & REEVs & HEVs)
Global Sales Proportion of Hybrid Vehicles Exceeded That of Battery-electric Vehicles in 2024
Global Sales Volume of PHEVs & REEVs - by Region
Global Sales Volume of PHEVs & REEVs - by Brand
Global Sales Volume of HEVs - by Region
Global Sales Volume of HEVs - by Brand

2.2 Chinese Hybrid Vehicle Market
Hybrid Vehicles (PHEVs & REEVs & HEVs) Account for 18.5% of China's Sales Volume
Sales Volume of Hybrid Vehicles (PHEVs & REEVs & HEVs) in China
Sales Proportion of REEVs Exceeded That of HEVs in China in 2024

2.3 European Hybrid Vehicle Market
Hybrid Vehicles (PHEVs & REEVs & HEVs) Account for 13% of Europe's Sales Volume
Sales Volume of Hybrid Vehicles (PHEVs & REEVs & HEVs) in Europe
Sales Proportion of HEVs Exceeded That of PHEVs & REEVs in Europe in 2024
Sales Volume of Hybrid Vehicles (PHEVs & REEVs & HEVs) in Europe - by Country
Proportion of New Energy Vehicles in Major European Countries by Type - Hybrid VS Battery-electric

2.4 Hybrid Vehicle Market in Japan, South Korea and Southeast Asia
Hybrid Vehicles (PHEVs & REEVs & HEVs) Account for 11% of Asia's Sales Volume (excluding China)
Sales Volume of Hybrid Vehicles (PHEVs & REEVs & HEVs) in Asia (excluding China)
Sales Proportion of HEVs Exceeded That of PHEVs & REEVs in Asia (excluding China) in 2024
Sales Volume of Hybrid Vehicles (PHEVs & REEVs & HEVs) in Asia (excluding China) - by Country

2.5 North American Hybrid Vehicle Market
Hybrid Vehicles (PHEVs & REEVs & HEVs) Account for 13% of North America's Sales Volume
Sales Volume of Hybrid Vehicles (PHEVs & REEVs & HEVs) in North America
Sales Proportion of HEVs Exceeded That of EVs in North America in 2024
Sales Volume of Hybrid Vehicles (PHEVs & REEVs & HEVs) in North America - by Country
Planning for Hybrid Models in North America, 2025E-2030E

2.6 Hybrid Vehicle Market in the Southern Hemisphere
Hybrid Vehicles (PHEVs & REEVs & HEVs) Account for Less Than 1% of Sales Volume in the Southern Hemisphere
Sales Volume of Hybrid Vehicles (PHEVs & REEVs & HEVs) in the Southern Hemisphere
Sales Proportion of PHEVs & REEVs Exceeded That of HEVs in the Southern Hemisphere in 2024

2.7 Chinese Micro Hybrid Market (12V Automotive Start/Stop System)
Chinese Micro Hybrid Market (12V Automotive Start/Stop System) - Installation Rate of Start/Stop System
Energy-saving Effect and Usage Cost of Automotive Start/Stop System

2.8 Global Mild/Medium Hybrid Market (48V+BSG/ISG System)
Global Mild/Medium Hybrid Market (48V+BSG/ISG System) - Sales Volume by Model
Vehicles Equipped with 48V Mild Hybrid System on Sale in China (including imports), 2024
Gasoline + 48V Mild Hybrid System Based on Mercedes-Benz Modular Architecture (MMA)
Mazda’s Gasoline + 24V Mild Hybrid System
Obstacles to the Development of 48V Mild Hybrid System
2.9 Development Forecast for Hybrid Vehicles in China
Sales Forecast for Hybrid Vehicles in China
Cost Comparison among Hybrid Vehicles/Electric Vehicles/Fuel Vehicles in China
The Comprehensive Range of Chinese PHEVs & REEVs Is Planned to Be 2,000km
Hybrid Vehicle Parts Localization Trend in China

3 Plug-in Hybrid Electric Vehicle (PHEV) Technology and Components

3.1 Global PHEV Market
Global PHEV & REEV Market - by Group
Global PHEV & REEV Market - by Brand
Global PHEV & REEV Market - by Brand/Country
Global PHEV & REEV Market - Ranking of Models

3.2 Chinese PHEV Market
Chinese PHEVs - Monthly Sales Volume
Chinese PHEVs - Competitive Landscape
Chinese PHEVs - Sales Volume by Model
Chinese PHEVs - Hybrid Architecture

3.3 PHEV Supply Chain - Electric Drive System
Hybrid System - Key Components
Hybrid System - Electric Drive System Classification
Hybrid System - Electric Drive System: Planetary Structure
Hybrid System - Electric Drive System: Single-axis Parallel Structure (PII)
Hybrid System - Electric Drive System: Power Shunt Structure (PIII and PIV)
Hybrid System - Electric Drive System: Inter-axle Coupling Structure
Hybrid System - Motor Controller Structure
3.5.10 Hybrid System - Control Strategy Classification
PHEV System - PHEV System Summary of Major OEMs
PHEV System - Geely Leishen EM-i VS BYD DM 5.0
PHEV System - DHT Hybrid System
PHEV System - P1+P3 Configuration Accounts for the Highest Proportion
PHEV System - P2 Configuration Is Suitable for Hard-core SUVs and Sports Vehicles

3.4 PHEV Supply Chain - Drive Motor
PHEV Drive Motor - Structure
PHEV Drive Motor - Permanent Magnet Synchronous Motors Becomes the Mainstream for Hybrid Vehicles
PHEV Drive Motor - Industry Chain
PHEV Drive Motor - Installed Capacity
PHEV Drive Motor - Business and Product Progress of Core Suppliers
Dual-drive-motor Installation of PHEVs
PHEV Drive Motor - Three-in-one Drive System of FinDreams Powertrain
PHEV Drive Motor - Eight-in-one Electric Drive System of FinDreams Powertrain

3.5 PHEV Supply Chain - Generator
PHEV Generator - Classification
PHEV Generator - Working Mode

3.6 PHEV Supply Chain - Hybrid Engine
PHEV Engine - Development Trends of Thermal Efficiency of Dedicated Hybrid Engine (DHE)
PHEV Engine - Hybrid Engine
PHEV Engine - Hybrid Engine VS Fuel Engine
PHEV Engine - Unique Technology and Thermal Efficiency of PHEVs on Sale
PHEV Engine - Business and Product Progress of Core Suppliers
PHEV Engine - BYD Snapdragon Hybrid Engine
PHEV Engine - New Changan Blue Whale Hybrid Engine
PHEV Engine - Status Quo of Dedicated High-efficiency Engine Technology

3.7 PHEV Supply Chain - Hybrid Transmission
PHEV Transmission - Introduction/How it works
PHEV Transmission - Installation
PHEV Transmission - Dedicated Hybrid Transmission (DHT) Electromechanical Coupling
PHEV Transmission - Hybrid Transmission Products for OEMs

3.8 PHEV Supply Chain - Electronic Control System
PHEV Electronic Control System - New Energy Electronic Control System Structure
PHEV Electronic Control System - Hybrid Electronic Control System VS Electric Vehicle Electronic Control System
PHEV Electronic Control System - Installations in Vehicles
PHEV Electronic Control System - Dual-electronic-control Design Architecture
PHEV Electronic Control System - Business and Product Progress of Core Suppliers
PHEV Electronic Control System - BYD’s Dual Electronic Control System
PHEV Electronic Control System - Inovance’s Power Dual Electronic Control
PHEV Electronic Control System - Sungrow’s Dual Electronic Control
PHEV Electronic Control System - VMAX’s DSC Half-bridge Plastic Module

3.9 PHEV Supply Chain - Power Battery
PHEV Power Battery - Installations
PHEV Power Battery - Installations by Vehicle Model
PHEV Power Battery - Electric Charge per Vehicle
PHEV Power Battery - Energy Type or Power Type
PHEV Power Battery - Battery Overcharge Configuration for Hybrid Vehicles
PHEV Power Battery - Business and Product Progress of Core Suppliers
PHEV Power Battery - BYD’s Battery for Hybrid Vehicles (1)
PHEV Power Battery - BYD’s Battery for Hybrid Vehicles (2)
PHEV Power Battery - SVOLT Energy’s Battery for REEVs
PHEV Power Battery - CATL’s Freevoy Super Hybrid Battery
PHEV Power Battery - Power Battery Installation of Vehicle Models on Sale

3.10 PHEV Supply Chain - Low Voltage Battery
Automotive Low Voltage Battery
High Entry Barriers for Lead-acid Battery
12V Lead-acid Start-stop Battery
12V Lead-acid Battery: Performance
12V Lead-acid Battery: Naming Convention
12V Lead-acid Battery: Operating Mode
12V Lead-acid Battery: Application Scenarios
Lead-acid Battery Competitive Landscape
Low-voltage Lithium Battery Replaces Lead-acid Battery
Low-voltage Lithium Battery for New Energy Vehicles
12V Lithium Battery Structure (1)
12V Lithium Battery Structure (2)
12V Power Supply Market Demand
48V Lithium Battery
Low-voltage Lithium Battery: Business and Product Progress of Core Suppliers
Low-voltage Lithium Battery: Tesla’s 12V Lithium Battery
Low-voltage Lithium Battery: 12V Lithium Battery for BYD’s Hybrid Vehicles

3.11 PHEV Supply Chain - Engine Exhaust Gas Recirculation System
Exhaust Gas Recirculation (EGR) Can Reduce Vibration/Emissions/Energy
Structure of Exhaust Gas Recirculation (EGR)
Hybrid EGR: Business and Product Progress of Core Suppliers
BYD’s Low-temperature Exhaust Gas Recirculation (EGR)
BorgWarner’s EGR for Hybrid Vehicles

4 Range Extended Electric Vehicle (REEV) Technology and Components

4.1 REEV Market
Chinese REEVs - Sales Volume and Market Share
Chinese REEVs - Sales Volume by Model
Chinese REEVs - Sales Volume by Model
Chinese REEVs - Sales Volume by Model
Key Component Suppliers of Major REEV Models in China
REEV Supply Chain -  REEV Planning of Foreign Brands
4.2 REEV Supply Chain - Range Extender
REEV Range Extender - Extended Range System
REEV Range Extender - Control Strategy
REEV Range Extender - Range Extender Solution
REEV Range Extender - Range Extender Development
REEV Range Extender - Range Extender Technology Iteration
REEV Range Extender - Parameters of Range Extenders of REEVs on Sale of Major OEMs in China
REEV Range Extender - Three-in-one Range Extender Assembly
REEV Range Extender - AITO’s Range Extender
REEV Supply Chain - Range Extender Development Trend: Integration and Lightweighting
REEV Supply Chain - Range Extender Development Trend: High Vibration Resistance
REEV Supply Chain - Range Extender Development Trend: High Reliability
REEV Supply Chain - Range Extender Development Trend: High NVH Quality
REEV Supply Chain - Range Extender Development Trend: High Electromagnetic Compatibility
4.3 REEV Supply Chain - Engine
REEV Engine - Fuel-to-electricity Conversion Rate
REEV Engine - Engine for REEVs
REEV Engine - Technology Iteration
REEV Supply Chain - Engine Selection
REEV Engine - Four-cylinder Gasoline Engine
REEV Engine - Engine Parameters of Models on Sale
REEV Engine - Business and Product Progress of Core Suppliers
REEV Engine - Engine for REEVs
4.4 REEV Supply Chain - Generator
REEV Generator - Generator for REEVs
REEV Generator - Generator for REEVs
4.5 REEV Supply Chain - Drive Motor
REEV Drive Motor - Extended Range Drive Motor System
REEV Drive Motor - Drive Motor Installation of Models on Sale
4.6 REEV Supply Chain - Electronic Control System
REEV Electronic Control System - Vehicle Electronic Control System
REEV Electronic Control System - Functional Requirements
REEV Electronic Control System - Main Technical Indicators/Control Signals
REEV Electronic Control System - Energy Management Strategy Design
REEV Electronic Control System - Features of SERES’ Electronic Control System
4.7 REEV Supply Chain - Power Battery
REEV Power Battery - Battery Capacity Will Be Greatly Improved
REEV Power Battery - Battery Capacity by Model
REEV Power Battery - Power Battery Installation of Vehicle Models on Sale
4.8 REEV Supply Chain - Thermal Management System
REEV Supply Chain - Thermal Management System Case

5 Hybrid Electric Vehicle (HEV) Technology and Components

5.1 HEV Market
HEV System
Global HEV Market - by Group
Global HEV Market - by Brand
Global HEV Market - by Brand/Country
Global HEV Market - Ranking of Models
5.2 HEV Sales in China
Chinese HEVs - Sales Volume
Chinese HEVs - Sales Volume by Brand
Chinese HEVs - Sales Volume by Model
Development Trends of China’s HEV Policies
HEV SWOT

5.3 HEV System
HEV System - Power Transmission System
HEV System - Comparison between Domestic and Foreign HEV Systems
HEV System - HEV System Installation
HEV VS Fuel Vehicle
HEV System - Dual Electronic Control System Case
5.4 HEV Supply Chain -Transmission
HEV - Transmission
HEV Transmission - Toyota’s Hybrid Transmission Products
HEV Transmission - Honda’s iMMD Hybrid E-CVT Transmission
HEV Transmission - Toyota VS Honda
5.5 HEV Supply Chain - Power Battery
HEV Supply Chain - Battery
HEV Power Battery - Price
HEV Power Battery - Structure
Battery Installation of HEVs on Sale in 2024 (1)
Battery Installation of HEVs on Sale in 2024 (2)
HEV Power Battery - Business and Product Progress of Core Suppliers
CPAB PRIMEARTH - NiMH Battery Pack
Webasto’s Next-generation HEV Battery System
5.6 HEV Supply Chain - Energy Recovery System
HEV Energy Recovery System
HEV Energy Recovery System - Toyota’s Brake Energy Recovery and Hydraulic Braking
HEV Energy Recovery System - Toyota’s Energy Feedback Mode
HEV Energy Recovery System - Honda’s Brake Energy Recovery System Control

6 Summary of Hybrid Vehicle OEMs’ Routes

6.1 BYD
Hybrid Business Strategy
Hybrid Technology Iteration
Hybrid System Parameter Comparison
DM 5.0
DM 5.0 VS DM 4.0
DM-p VS DM-i
Main Features of DM-p Technology
DM-p Technology Positioning
DM-i Super Hybrid Technology Composition
DM-i Super Hybrid Technology Configuration
DM-i Super Hybrid Battery
DM-i Super Hybrid Working Mode
DM-i Super Hybrid Power Source
DM-i Super Hybrid Technology Advantages
Models Equipped with DM-i Super Hybrid Technology
Hybrid DMO Platform/Yisifang Hybrid Platform
DMO super hybrid off-road platform
Models Equipped with DMO Super Hybrid Off-road Platform
Yisifang Four-motor Drive Technology

6.2 Geely
Profile
Hybrid Technology Iteration
Leishen EM Super Electric Hybrid
Leishen EM-P Super Electric Hybrid: 3-gear DHT Configuration
Leishen EM-i Super Electric Hybrid
Leishen Hybrid
Next-generation Leishen Hybrid Platform
Leishen Intelligent Engine Hi·X
Lynk & Co - Intelligent Electric Hybrid LynkE-Motive Technology
GHS 2.0
GHS 1.0
Volvo’s Hybrid System
48V-BSG Mild Hybrid
7DCT/H Gearbox
P2.5 Architecture Efficient Intelligent Hybrid Powertrain / Range-extended Hybrid Technology

6.3 Great Wall Motor
New Energy Vehicle Planning in 2025
Hybrid Route Planning
Hybrid System Parameter Comparison
Hi4-Z Off-road Super Hybrid Architecture
Hi4-T Off-road Super Hybrid Architecture
Hi4 Intelligent FWD Electric Hybrid Technology
Hi4 Intelligent FWD Electric Hybrid Technology: Dual Motor Series-Parallel Electric FWD
Hi4 Intelligent FWD Electric Hybrid Technology: Typical models
L.E.M.O.N DHT System
L.E.M.O.N DHT System: Power Form
L.E.M.O.N DHT System: Engine Parameters
L.E.M.O.N DHT System: Battery Electric Drive Parameters
L.E.M.O.N DHT System: Working Mode
L.E.M.O.N DHT System: Control Logic
L.E.M.O.N DHT System: Application Scenarios
L.E.M.O.N DHT System: Models Supported
L.E.M.O.N DHT Suppliers
L.E.M.O.N DHT Gearbox
P2 Hybrid System
Global R&D and Production System

6.4 GAC
Hybrid technology
Hybrid Route Planning
Super Extended Range
Julang Power Hybrid System
Julang Power Hybrid System: Platform Composition
GAC Julang Power Hybrid System: Engine
Julang Power Hybrid System: Technical Advantages of the Fourth-generation 2.0ATK Engine
Julang Power Hybrid System: Engine Thermal Efficiency
Julang Power Hybrid System: Transmission
Julang Power Hybrid System: Hybrid Transmission
Julang Power Hybrid System: Models Supported

6.5 Chery
Hybrid Technology Planning
Kunpeng Fuel and Hybrid Development Strategy
Hybrid Route Planning
Kunpeng Power
Kunpeng Super Hybrid C-DM Technology
Kunpeng Super Hybrid C-DM Technology: Models
Star Core Power ET-i Full Engine Super Hybrid
Kunpeng DHT
Kunpeng DHT: Key System
Kunpeng DHT: Hybrid Engine
Kunpeng DHT: DHT Gearbox
48V BSG Micro Hybrid System
Automatic Start/Stop Models
Plug-in Hybrid Models
Hybrid System Development Plan

6.6 Changan
Hybrid Route Planning
Force Super Extended Range Technology
Deepal Super Range Extender 2.0: Super Electric Drive 2.0
Deepal Super Range Extender 2.0: Intelligent Range Extender 2.0
Deepal Super Range Extender 2.0: Golden Bell Battery 2.0
Digital Intelligent Electric Drive Hybrid System
Digital Intelligent Electric Drive Hybrid System: 1.5L Blue Whale Hybrid Engine/Battery
Digital Intelligent Electric Drive Hybrid System: Working Mode
iDD Hybrid System
iDD Hybrid System: Blue Whale Engine
iDD Hybrid System: Electric Drive Transmission
iDD Hybrid System: Battery System
iDD Hybrid System: Thermal Management System
iDD Hybrid System: Working Mode

6.7 SAIC
Hybrid Business Strategy
Hybrid Route Planning
DMH Hybrid System
DMH Hybrid System: Engine
DMH Hybrid System: Controller/Battery
DMH Hybrid System: Operating Mode
Second-generation EDU Hybrid System
Second-generation EDU Hybrid System: Transmission Upgrade
Second-generation EDU Hybrid System: Intelligent Energy Management System
Second-generation EDU Hybrid System: 10-speed Intelligent Electric Drive Transmission
Second-generation EDU Hybrid System: Working Mode
Second-generation EDU Hybrid System: Model Comparison
Second-generation EDU Hybrid System VS First-generation EDU Hybrid System
Introduction to the First-generation EDU Hybrid System
Principle of the First-generation EDU Hybrid System
Global R&D Center/Manufacturing Base

6.8 BAIC
BLUE Plan
Hybrid Route Planning
Magic Box Electric Drive DHEV
PHEVs & REEVs
1.5T Engine and ISG Starter and Generator All-in-one for REEVs

6.9 Li Auto
Hybrid Route Planning
Intelligent REV 3.0
Extended Range System 2.0
Extended Range System 2.0: Li L9
L6/L7/L8/L9 Suppliers
ONE Extended Range System

6.10 SERES (AITO)
Hybrid Route Planning
Hybrid Range Extender
DriveONE Next-generation Hyper-converged Gold Power Platform
DE-i 3.0 Super Electric Drive Intelligent Technology Platform
Huawei DriveONE Battery-electric Drive Range Extender: AITO M5
Huawei DriveONE Battery-electric Drive Range Extender: Oil Cooling Technology 2.0

6.11 Voyah
Hybrid Route Planning
ESSA
ESSA: Drive Motor/Battery
Extended Range System
Lanhai Power Intelligent Multi-mode Hybrid Technology

6.12 Neta Auto
Haozhi Extended Range System
Haozhi Extended Range System: Range Extender

6.13 Leapmotor
REEV Models
REEV Models Drive Sales Growth

6.14 Avatr
Kunlun Extended Range System

6.15 Xpeng
Kunpeng Super Electric System
REEV Production Base

6.16 Xiaomi Auto
REEV Model Planning

6.17 NIO
Hybrid Models

6.18 Toyota
Profile
Hybrid Route Planning
THS Development History
Fifth-generation THS II
THS: Technical Features
THS: PHEV VS HEV
Toyota RAV4 THS II
Layout in the New Energy Vehicle Field
Global Automotive Business Layout
Hybrid Development in China
Sales Volume of HEV Models in China
Sales Volume of PHEV Models in China

6.19 Honda
Profile
Hybrid System Layout
Hybrid Route Planning
Structure of i-MMD Hybrid System
Parameters of i-MMD Hybrid System
Parameters of i-MMD Hybrid System
i-MMD Configuration: Working Mode
i-MMD Configuration: Fuel-saving Mode
i-MMD Configuration: Actual Fuel Consumption Measurement
i-MMD Configuration: Fourth-generation Dual-motor Hybrid System
Fourth-generation i-MMD VS Third-generation i-MMD
Fourth-generation i-MMD VS Third-generation i-MMD: Motor Unit Structure
Fourth-generation i-MMD VS Third-generation i-MMD: Engine
i-DCD Configuration
SH-AWD Configuration
Hybrid Battery
Global layout
Sales Volume of HEV Models in China
Sales Volume of PHEV Models in China

6.20 Nissan
Profile
Carbon Neutrality Goal in 2050
Hybrid Route Planning
DD-i Super Hybrid System
e-4ORCE Electric FWD System
Efficiency Comparison between the First-generation and the Second-generation e-POWER System
Parameter Comparison between the First-generation and the Second-generation e-POWER System
Structure of the Second-generation e-POWER System
Components of the Second-generation e-POWER System
Operation process of the Second-generation e-POWER System under all working conditions
Energy Utilization Rate of the Second-generation e-POWER System
Comparison between the Second-generation e-POWER System and Its Competing Products
Layout of e-POWER System in China
Sales Volume of Hybrid Models in China

6.21 Volkswagen
Profile
Hybrid Route Planning
DHT Hybrid System Structure
Core Components of DHT Hybrid System
DHT Hybrid System Adapts to HEVs/PHEVs
Plug-in Hybrid Technology Structure
Drive Mode of Plug-in Hybrid Technology
Working Mode of Plug-in Hybrid Technology
Models with Plug-in Hybrid Technology

6.22 GM
Profile
Hybrid Route Planning
Second-generation Voltec Electric Drive System
Second-generation Voltec Electric Drive System: Hybrid Model Parameters
HEVs with the Second-generation Voltec System: LaCrosse/Malibu XL - Hybrid System
HEVs with the Second-generation Voltec System: LaCrosse/Malibu XL - Engine
HEVs with the Second-generation Voltec System: LaCrosse/Malibu XL - Motor
HEVs with the Second-generation Voltec System: LaCrosse/Malibu XL - Electronic Control
HEVs with the Second-generation Voltec System: LaCrosse/Malibu XL - Battery
HEVs with the Second-generation Voltec System: LaCrosse/Malibu XL - Working Mode
PHEV with the Second-generation Voltec System: GM Cadillac CT6
REEV with the Second-generation Voltec System: GM Chevrolet Volt
Buick's eMotion Drive Technology: Buick VELITE 6 PHEV

6.23 Volvo
Profile
Hybrid Route Planning
T8 plug-in hybrid system
T5 plug-in hybrid system
Plug-in Hybrid Models
48V Mild Hybrid System

6.24 BMW
Profile
Hybrid Route Planning
Plug-in Hybrid Technology
Plug-in Hybrid Models
48V Mild Hybrid System
48V Mild Hybrid Models
BMW M High-performance Hybrid
eDrive System Development Planning
Electrification Platform - Sixth-generation eDrive System
Electrification Platform - Fifth-generation eDrive System

6.25 Hyundai Kia
TMED Hybrid Technology
TMED Hybrid Technology: System Composition
TMED Hybrid Technology: TMED Working Principle
TMED Hybrid Technology: Model Configuration
REEVs

6.26 Summary of Hybrid Technology Routes of OEMs
Revenue and Net Income of Major Hybrid Vehicle OEMs
Summary of PHEV Technology Routes of OEMs (1)
Summary of PHEV Technology Routes of OEMs (2)
Summary of PHEV Technology Routes of OEMs (3)
Summary of PHEV Technology Routes of OEMs (4)
Summary of REEV Technology Routes of OEMs (1)
Summary of REEV Technology Routes of OEMs (2)
Summary of HEV Technology Routes of OEMs (1)
Summary of HEV Technology Routes of OEMs (2)

Automotive TSP and Application Service Research Report, 2024-2025

TSP Research: In-vehicle connectivity services expand in the direction of cross-domain integration, all-scenario integration and cockpit-driving integration TSP (Telematics Service Provider) is mainl...

Autonomous Driving Domain Controller and Central Control Unit (CCU) Industry Report, 2024-2025

Autonomous Driving Domain Controller Research: One Board/One Chip Solution Will Have Profound Impacts on the Automotive Supply Chain Three development stages of autonomous driving domain controller:...

Global and China Range Extended Electric Vehicle (REEV) and Plug-in Hybrid Electric Vehicle (PHEV) Research Report, 2024-2025

Research on REEV and PHEV: Head in the direction of high thermal efficiency and large batteries, and there is huge potential for REEVs to go overseas In 2024, hybrid vehicles grew faster than batter...

Automotive AI Agent Product Development and Commercialization Research Report, 2024

Automotive AI Agent product development: How to enable “cockpit endorser” via foundation models? According to OPEN AI’s taxonomy of AI (a total of 5 levels), AI Agent is at L3 in the AI development ...

China ADAS Redundant System Strategy Research Report, 2024

Redundant system strategy research: develop towards integrated redundant designADAS redundant system definition framework For autonomous vehicles, safety is the primary premise. Only when ADAS is ful...

Smart Car OTA Industry Report, 2024-2025

Automotive OTA research: With the arrival of the national mandatory OTA standards, OEMs are accelerating their pace in compliance and full life cycle operations The rising OTA installations facilitat...

End-to-end Autonomous Driving Industry Report, 2024-2025

End-to-end intelligent driving research: How Li Auto becomes a leader from an intelligent driving follower There are two types of end-to-end autonomous driving: global (one-stage) and segmented (two-...

China Smart Door and Electric Tailgate Market Research Report, 2024

Smart door research: The market is worth nearly RMB50 billion in 2024, with diverse door opening technologies This report analyzes and studies the installation, market size, competitive landsc...

Commercial Vehicle Intelligent Chassis Industry Report, 2024

Commercial vehicle intelligent chassis research: 20+ OEMs deploy chassis-by-wire, and electromechanical brake (EMB) policies are expected to be implemented in 2025-2026 The Commercial Vehicle Intell...

Automotive Smart Surface Industry Report, 2024

Research on automotive smart surface: "Plastic material + touch solution" has become mainstream, and sales of smart surface models soared by 105.1% year on year In this report, smart surface refers t...

China Automotive Multimodal Interaction Development Research Report, 2024

Multimodal interaction research: AI foundation models deeply integrate into the cockpit, helping perceptual intelligence evolve into cognitive intelligence China Automotive Multimodal Interaction Dev...

Automotive Vision Industry Report, 2024

Automotive Vision Research: 90 million cameras are installed annually, and vision-only solutions lower the threshold for intelligent driving. The cameras installed in new vehicles in China will hit 90...

Automotive Millimeter-wave (MMW) Radar Industry Report, 2024

Radar research: the pace of mass-producing 4D imaging radars quickens, and the rise of domestic suppliers speeds up. At present, high-level intelligent driving systems represented by urban NOA are fa...

Chinese Independent OEMs’ ADAS and Autonomous Driving Report, 2024

OEM ADAS research: adjust structure, integrate teams, and compete in D2D, all for a leadership in intelligent driving In recent years, China's intelligent driving market has experienced escala...

Research Report on Overseas Layout of Chinese Passenger Car OEMs and Supply Chain Companies, 2024

Research on overseas layout of OEMs: There are sharp differences among regions. The average unit price of exports to Europe is 3.7 times that to Southeast Asia. The Research Report on Overseas Layou...

In-vehicle Payment and ETC Market Research Report, 2024

Research on in-vehicle payment and ETC: analysis on three major application scenarios of in-vehicle payment In-vehicle payment refers to users selecting and purchasing goods or services in the car an...

Automotive Audio System Industry Report, 2024

Automotive audio systems in 2024: intensified stacking, and involution on number of hardware and software tuning Sales of vehicle models equipped with more than 8 speakers have made stea...

China Passenger Car Highway & Urban NOA (Navigate on Autopilot) Research Report, 2024

NOA industry research: seven trends in the development of passenger car NOA In recent years, the development path of autonomous driving technology has gradually become clear, and the industry is acce...

Abstract

Table of Contents

Selected Charts

Related Reports

Related Companies