New Energy Vehicle Cross-Domain (Electric Drive System and Powertrain Domain) Integration Trend Report 2025-2026
Electric Drive and Powertrain Domain Research: New technologies such as three-motor four-wheel drive, drive-brake integration, and corner modules are being rapidly installed in vehicles.
Electric drive integration is developing towards powertrain domain and cross-domain integration. From a developmental perspective, electric drive systems have evolved from separate, independent mechanical components to three-in-one and X-in-1 physically and functionally integrated products. In the future, they will form powertrain domain solutions, achieving synergy of hardware and software in mechanical, electrical, thermal, and control systems to improve performance and intelligence. Ultimately, they will be integrated with other domain (such as chassis domain) control systems to achieve hardware standardization and software-defined functions, as well as support the implementation of higher-level autonomous driving technologies.
In the future, electric drive will develop around deep integration and modularization, high voltage and high efficiency and SiC devices, advanced materials and processes, scenario-based definition and intelligent decision-making.
In terms of technology, flat wire technology, oil cooling and multi-material hybrid heat dissipation, active NVH suppression of SiC solutions, functional safety improvement, as well as green manufacturing and material recycling technologies will become new arenas.
The product form continues to evolve towards deep integration. "X-in-1" systems integrate motors, electric control, thermal management and power modules, greatly reducing size and energy consumption. The trend of intelligence is prominent. AI algorithms are embedded in electric control systems to optimize dynamic efficiency and predict faults, and the software-defined electric drive capability is significantly enhanced. Powertrain domain systems are evolving from "a single function" to "system domain integration". Through scenario-customized power combination, they will eventually achieve the coordinated development of "safety + performance + intelligence".
The industrial competition has shifted the focus from hardware and software to "self-developed core components + ecosystem collaboration".
Trend 1: Distributed electric drive systems prompt the application of three-motor four-wheel drive, four-motor independent drive and corner module technologies in various scenarios.
The widespread adoption of distributed electric drive systems (which integrate drive motors directly into the wheels or wheel rims) has driven the rapid development of three-motor four-wheel drive, four-motor independent drive, and corner module technologies. Through precise control and flexible layout of power systems, distributed electric drive systems cater to different scenarios and become the core support for the intelligent and electric transformation of future new energy vehicles.
Three-motor four-wheel drive: A layout with a dual-motor front axle and a single-motor rear axle is typically used to balance power performance and cost control; the powertrain domain architecture usually adopts a layout of "1 control unit at the front and 2 at the rear, or 2 control units at the front and 1 at the rear".
Four-motor independent drive: Each wheel is equipped with an independent motor to achieve precise torque vector control; the powertrain domain architecture is based on equipping each wheel with an independent drive motor to achieve precise torque output to each wheel.
Corner module technology: Drive, steering, and suspension functions are integrated into the wheel module, which is highly integrated. The ultimate form of distributed electric drive integrates drive, braking, steering, and suspension into the "corner module" of the wheel, and realizes "omnidirectional control" of the four wheels through the X-by-wire system.
At the policy level, China is promoting the formulation of relevant testing standards. In recent years, China has made a number of technological innovations and breakthroughs in the field of hub motor corner modules, and the large-scale application of these technologies has promoted the establishment of test method standards. Domestically, standards such as the "Test Methods for Torque Vector Control of Vehicles with Distributed Drive" and the "Technical Conditions for Corner Modules of Low-Speed ??Electric Vehicles" have been issued to regulate the design, production, and testing of corner modules.
Under the guidance of the China Society of Automotive Engineers, dozens of OEMs, universities, and enterprises and institutions in the testing, inspection, and end-product manufacturing industries participated in the development of a series of standards for "Key Test Methods for Automotive Wheel Hub Motor Corner Modules".
T/CSAE 378—2024 "Test Methods for Torque Vector Control of Electric Vehicles with Distributed Drive"
T/CSAE 377—2024 "Impact Test Methods for Automotive Wheel Hub Motor Corner Modules"
T/CSAE 376—2024 "Road Reliability Test Methods for Electric Vehicles Equipped with Wheel Hub Motor Corner Modules"
T/CSAE 375—2024 "Durability Test Methods for Shaft Coupling Structure of Automotive Wheel Hub Motor Corner Modules".
Global markets (such as Europe and North America) are pushing for the implementation of corner module regulations (such as UN R79.06) to support the commercialization of steer-by-wire and four-wheel independent steering. The "Uniform Provisions Concerning the Approval of Vehicles with Regard to
Steering Equipment" in UN Regulation No. 79 (UN R79) specifies the technical performance and test methods for advanced steering systems to verify the compliance of functional technologies. Automated steering systems include: Automatically Commanded Steering Function (ACSF), Corrective Steering Function (CSF), Emergency Steering Function (ESF), and Risk Mitigation Function (RMF), etc.
The intelligent corner module is not a single device, but a highly integrated wheel-level subsystem. Usually it contains:
Steer-by-Wire
Brake-by-wire (EHB/EMB)
Drive-by-wire (independent motor) / Distributed drive
Vibration damping/air suspension module
Sensor cluster:
Steering angle sensor, brake feedback, wheel speed, temperature, NVH sensor
Edge computing ECU / small controller
Trend 2: New products such as 14-in-1 highly integrated electric drive systems, 1000V voltage platforms, and 30,000 RPM ultra-high-speed motors are entering mass production.
The core of an integrated electric drive system is to reduce system complexity, weight and volume, and improve energy utilization efficiency through deep integration of multiple components. BYD, Geely, CRRC and other companies have launched "3+3+X" (motor + motor controller + reducer + BMS + OBC + DC-DC converter + optional module) electric drive systems. Integration not only reduces the number of hardware components and the complexity of wiring harnesses, but also optimizes the collaboration of various components, improving system efficiency to over 92%. The powertrain domain is no longer limited to the traditional battery, motor and electric control systems, but extends to domains such as chassis and thermal management.
Chinese OEMs are developing their own X-in-1 electric drive systems, which have higher integration levels and are being installed in vehicles ahead of those from third-party electric drive suppliers: for higher system power density, there has been a significant increase in X-in-1 (up to 14-in-1) solutions that integrate electric drive systems, PDUs, OBCs, DC/DC converters, and thermal/other functional controllers. Compared with parts suppliers, OEMs' self-developed systems have taken the lead in achieving mass production on the vehicle models of their own brands.
In March 2025, Dongfeng Nissan released the e-POWER Architecture and its first battery-electric vehicle, the Dongfeng Nissan N7. This architecture supports battery-electric, range-extended, and plug-in hybrid powertrains and adopts the world's first 14-in-1 electric drive system to develop various models such as sedans and SUVs.
The motor, inverter, reducer, OBC, thermal management system and other 14 core components are integrated into a single module;
The power density has been increased to 4.5kW/kg, far exceeding the industry average.
The system weighs only 85kg, yet it can output a peak power of 200kW;
The 14-in-1 intelligent electric drive is only325mm high, smaller than Tesla's rear-wheel drive 3-in-1 electric drive.
With a motor speed of 25,100 RPM, it can accelerate from 0 to 100 km/h within 3 seconds.
Through the highly integrated design, the system reduces the number of connectors by 68.
High efficiency relies on flat wire motors and SiC technology. The electromagnetic efficiency tracking optimization technology and system efficiency optimization control algorithm are original creations. The overall efficiency exceeds 92.5%.
This system uses” Arrow Rain" self-spraying oil technology,which can reduce the motor's maximum temperature by 45°C and increase continuous power by 54%.
On March 17, 2025, BYD officially released the Super e-Platform (the world's first mass-produced passenger car full-domain 1000V high-voltage architecture), which fully upgraded core components such as batteries, motors, power supplies, and air conditioning to 1000V, marking the entry of passenger car powertrain domain into the "1000V stage". The core technologies of this platform include:
1000V full-domain high-voltage architecture: Battery (flash-charging battery, 1000V/1000A charging), motor (30,000 RPM high-speed motor), power supply (1500V automotive-grade silicon carbide chip) and thermal management system (seven-in-one multi-heat source coupling), with a system overall efficiency of over 95% (industry average of about 88%).
Megawatt-level flash charging technology: A maximum charging power of 1000kW (2 kilometers per second), and a range of 400 kilometers after 5 minutes of charging, "same for fuel and electric vehicles";
30,000 RPM motor: The world's first mass-produced 30,000 RPM motor (peak power: 580kW) breaks the 300km/h limit, with a 30% increase in power density.
BYD is increasing the speed of its electric motors from 7,500 RPM in the first generation to 30,000+ RPM in the fifth generation, achieving the world's first mass-produced 30,000 RPM electric drive assembly. As a core component of the Super e-Platform, the motor uses innovative materials such as 1,000MPa high-strength silicon steel sheets and aerospace aluminum end plates. Combined with an AI-optimized 6-pole 72-slot short-pitch winding design, it achieves a power density of 16.4kW/kg and a single-motor power of 580kW, surpassing the performance of traditional V12 engines.
In October 2025, Leapmotor officially unveiled its first vehicle model based on the LEAP 4.0 - the D19.
Battery-electric version:
Equipped with a 1000V platform, it can increase the range by more than 350 kilometers after 15 minutes of charging. It uses CATL's "super hybrid cells" with a battery pack capacity of 115kWh and a CLTC range of 720 kilometers.
The battery-electric version is also equipped with triple-motor technology, with a combined power of 540 kilowatts and acceleration from 0 to 100 km/h in 3 seconds;
In terms of chassis, the Leapmotor D19 features a double-wishbone and five-link suspension structure, a dual-chamber closed air suspension system, and CDC.
It is equipped with MKC2 brake-by-wire and Bosch R-EPS;
It is equipped with the LMC 2.0, which supports active pre-emption control, dual-wheel tire blowout control, and 3.6-meter compass turns.
Range-extended version:
The range-extended version is equipped with an 80.3kWh battery pack, providing a battery-electric range of over 500km. It uses a 1.5T range extender and a dual-motor system with a combined power of 400kW, accelerating from 0 to 100 km/h in 4 seconds.
It supports 800V fast charging. According to the official statement, it can charge from 30% to 80% in 15 minutes.
The Leapmotor D19 also pioneered the range-extending CTC technology and is equipped with an innovative door sill exhaust integrated system, making the most of the chassis space for the battery, and has a fuel tank capacity of 40L.
Trend 3: Range-extended passenger car solutions continue to iterate, with 1.5T range extenders becoming the industry's mainstream.
With the rapid development of electric vehicles, range-extended electric vehicles have gradually become a new favorite in the market due to their unique advantages. Range-extended electric vehicles add an extra power supply device to battery-electric vehicles to increase the range. This design typically uses a range extender consisting of an engine and a generator to power the powertrain system, while the engine itself does not participate in driving, thus simplifying the overall structure, improving reliability, and reducing manufacturing costs.
Shanghai Electric Drive's second-generation range extender has undergone a comprehensive upgrade based on the first generation, with a major breakthrough in core technologies.
Compared to the first-generation range extender with a 12-pole 72-slot stator and rotor, round wire water-cooled motor, controller stacked above the generator, and separate controller and generator design, the second-generation range extender adopts a 24-pole 72-slot stator and rotor, as well as flat wire oil-cooled motor technology.
The controller layout has also been optimized, changing from the original "layered arrangement above the generator" to "axial arrangement behind the generator", achieving deep integration between the controller and the generator.
These improvements in the second-generation range extender reduce the motor core stack length by 38% while increasing rated power by 83%, reducing volume by 15%, and lightening weight by 18%.
As the core component of a range-extended electric vehicle, a range extender usually refers to a combination system of an engine and a generator. It generates electricity when the battery is low, thereby extending the vehicle's range. In terms of technology, extended-range passenger cars are shifting from the traditional "small batteries + large range extenders" to "large batteries + small range extenders", enhancing battery-electric range by increasing battery capacity. Meanwhile, range extenders are also being continuously optimized, with significantly improved thermal efficiency, a more reasonable operating range, and greatly improved NVH performance. 800V high-voltage architectures enable range-extended vehicles to be charged as fast as battery-electric vehicles.
1 New Energy Vehicle Electric Drive and Powertrain Technologies and Market Trends
1.1 New Energy Vehicle Powertrain Domain - Research Direction
New Energy Vehicle Powertrain Domain - Research Direction
Powertrain Domain Controllers
New Energy Vehicle Powertrain Domain - Technological Development Direction
The Evolution of Automotive EEAs Drives the Development of Powertrain Domain Controllers
New Energy Vehicle Powertrain Domain - Development Towards Cross-Domain Integration
New Energy Vehicle Powertrain Domain - Modularization, Platformization, X-in-1 Electric Drive and XYZ Integration
Powertrain Domain: Three Stages of Powertrain Integration Technology Development
New Energy Vehicle Powertrain Domain - Evolution from X-in-1 Controllers to Chip Integration
1.2 New Energy Vehicle Electric Drive System - Research Direction
Electric Drive System - Power Unit Composition
Electric Drive System - Main Components of Electric Drive
Electric Drive System Types (1) - Single-Motor Centralized Drive
Electric Drive System Type (2) - Multi-Motor Distributed Drive
Electric Drive System - Requirements of Autonomous Driving for Electric Drive System
New Energy Vehicle Drive Motors - Development Trends
New Energy Vehicle Drive Motors - Comparison of Major Technology Routes
1.3 New Energy Vehicle Electric Drive and Powertrain Domain - Technology Roadmap Planning
New Energy Vehicle Electric Drive System - Related Technical Standards
Energy-Saving and New Energy Vehicle Technology Roadmap 3.0
Energy-Saving and New Energy Vehicle Technology Roadmap 3.0 - Energy-Saving/New Energy Technology Roadmap
Energy-Saving and New Energy Vehicle Technology Roadmap 3.0 - Intelligent Connectivity/Supporting Technology/Intelligent Manufacturing Technology Roadmap
Energy-Saving and New Energy Vehicle Technology Roadmap 3.0 - Battery Planning and Development Roadmap
Energy-Saving and New Energy Vehicle Technology Roadmap 3.0 - Electric Drive System Development Roadmap
Energy-Saving and New Energy Vehicle Technology Roadmap 3.0 - Intelligent Chassis/Powertrain Development Roadmap
1.4 Market Trends and Competitive Landscape of Electric Drive and Powertrain Domain for New Energy Vehicles in China
China's New Energy Passenger Car Sales Volume (domestic + export), 2024-2030E
China's New Energy Passenger Car Drive Motor Installations and Market, 2024-2030E
China's New Energy Passenger Car Drive Motor Competitive Landscape, 2024-2025
China's New Energy Passenger Car Electric Control System Installations and Market, 2024-2030E
China's New Energy Passenger Car Electric Control System Competitive Landscape, 2024-2025
China's New Energy Passenger Car Power Module/Silicon Carbide Module Installations and Market, 2024-2030E
China's New Energy Passenger Car Power Module Competitive Landscape, 2024-2025
China's Plug-in Hybrid/Range Extended Passenger Car DHT System Installations and Competitive Landscape, 2024-2025
China's Plug-in Hybrid/Range Extended Passenger Car Generator Installations and Competitive Landscape, 2024-2025
China's Plug-in Hybrid/Range Extended Passenger Car Dual ECU Installations and Competitive Landscape, 2024-2025
2 Electric Drive System Development Trends
2.1 Electric Drive System Trend 1: X-in-1 Integrated Electric Drive
Electric Drive Assembly Is Developing Towards "3+3+X" Integration
Key X-in-1 Electric Drive Technologies
Advantages and Technological Challenges
Mass Production of X-in-1 Electric Drive Products in China Accelerated in 2025.
Breakdown of X-in-1 Electric Drive Installations by Segment, 2025
Increased Demand of OEMs for Self-Developed X-in-1 Electric Drive
Tier 1 Suppliers' Core Competitiveness in X-in-1 Electric Drive
Tier 1 Suppliers' X-in-1 Solution Deployment
OEM Integration Solution Case (1): Nissan’s 14-in-1 Electric Drive System
OEM Integration Solution Case (2): BYD's e3.0 Evo 12-in-1 Electric Drive Assembly
OEM Integration Solution Case (3): Geely's 11-in-1 Intelligent Domain Control Electric Drive Assembly
OEM Integration Solution Case (4): Dongfeng’s Mach E 10-in-1 Electric Drive Assembly
2.2 Electric Drive System Trend 2: 800V Electric Drive System
Voltage Characteristics
High-Voltage Electric Drive System Has Become an Industry Consensus
Technical Features
List of X-in-1 Electric Drive System Integration
X-in-1 Electric Drive System Integration Case (1)
X-in-1 Electric Drive System Integration Case (2)
Products and Technologies of Core Suppliers (1)
Products and Technologies of Core Suppliers (2)
.......................
Products and Technologies of Core Suppliers (7)
800V Electric Drive Case (1): Chongqing Tsingshan Industrial
800V electric drive product case (2): BYD Super e-Platform Electric Drive System
2.3 Electric Drive System Trend 3: Distributed Electric Drive Architecture
Automotive Integration, Lightweighting and Modularization
Development History of Typical Distributed Drive Architecture-Based Vehicle Models
Different Drive Configurations
Promotion of More Flexible Sports Chassis
Mainstream Distributed Drive Technology solutions
Dual-motor Distributed Drive
Multi-Motor Drive Architecture Will Evolve towards "All-Wheel Independent Drive"
OEM Distributed Electric Drive Summary (1)
OEM Distributed Electric Drive Summary (2)
OEM Distributed Electric Drive Summary (3)
Product Case (1): Schaeffler Dual-Motor Distributed Drive System
Product Case (2): Chery Dual-Motor Distributed Electric Drive Platform
Product Case (3): Inovance Distributed Electric Drive
Product Case (4): Audi e-tron Distributed Electric Drive
Product Case (5): PanGood Distributed Electric Drive System
Dual-Motor Distributed Electric Drive Case (6): BYD e4 Dual-Motor Integrated Electric Drive
Development Trends and Technology Outlook (1)
2.3.1 Distributed Electric Drive Derivative Architecture - Three-Motor Four-Wheel Drive System
Core Technical Features
Extreme Scenarios
Technical Parameter Comparison of Main Vehicle Models
2.3.2 Distributed Electric Drive Derivative Architecture - Four-Motor Independentl Drive
Torque Distribution Ratio
OEM Layout
Technical Parameters of Vehicle Models on Sale
Key Technology Comparison of Redundant Design Solutions
Extreme Operating Conditions (1)
Extreme Operating Conditions (2)
2.3.3 Distributed Electric Drive Derivative Technology - Corner Module Drive Technology
Concept and Products
Composition Structure
X-by-Wire System Decoupling
Redundant Drive
Special Path Planning
Standards and Regulations
Mass Production Planning
Products and Technical Solutions of Core Suppliers (1)
Products and Technical Solutions of Core Suppliers (2)
Products and Technical Solutions of Core Suppliers (3)
Products and Technical Solutions of Core Suppliers (4)
2.4 Drive Motor Technology Trend 1: Flat Wire Motors
Flat Wire Motors Enable Lightweight And Miniaturized Electric Drive Systems
Advantage 1: Small Size and High Efficiency
Advantage 2: Higher Power Density
Stator Winding Technology Route (1): Production Process Comparison
Stator Winding Technology Route (2): Stator Winding Layer Comparison
New Stator Winding Process (1): X-Pin, Braided Wave Winding, Double-Layer U-Pin
New Stator Winding Process (2): N-Pin, Umini-Pin
New Stator Winding Process (3): Stator Continuous Wave Winding W-pin
Stator Winding X-pin: Main Suppliers’ Products and Technology Trends
Stator Continuous Wave Winding W-pin: Major Suppliers’ Products and Technology Trends
New Energy Vehicle Models with Stator Continuous Wave Winding W-pin Drive Motors (1)
OEM Flat Wire Motor Planning and Application
Solution Analysis: Tesla 3D6 Flat Wire Motor
2.5 Drive Motor Technology Trend 2: Oil-Cooled Motors
The Development of Electric Drive Systems Places Higher Requirements on the Cooling Capacity of Motor Systems
Motor Cooling Technology Trend: Oil Cooling Technology
Application Representatives of Motors with Different Cooling Forms
Motor Oil Cooling Forms: Direct Oil Cooling, Indirect Oil Cooling
Three Motor Oil Cooling Solutions
Innovative Motor Stator Oil Cooling Solutions
Oil-Cooled Motor Innovative Solution (1): BorgWarner Centripetal Oil Circuit Cooling Technology
Oil-Cooled Motor Innovative Solution (2): BYD’s Direct Injection Rotor Oil Throwing Technology (1)
Oil-Cooled Motor Innovative Solution (2): BYD’s Direct Injection Rotor Oil Throwing Technology (2)
Oil-Cooled Motor Application of Some OEMs
2.6 Drive Motor Technology Trend 3: High-Speed ??Motors
Reasons for the Development of High-Speed ??Motors
Key Technological Challenges for High-Speed ??Motors
Carbon Fiber Coated Rotors Are Expected to Become the Choice for High-Speed ??Motors
High-Speed (above 15000 RPM) Motor Layout: High-Speed Motors Are Concentrated in 18,000~22,000 RPM
Statistics on Mass Production of High-Speed Motors of 20,000 RPM and above
High-Speed Motor Solution (1): Huawei's Next-Generation Drive One Electric Drive (22,000 RPM)
High-Speed Motor Solution (2): Xiaomi's HyperEngine V8s Motor (27,200 RPM)
High-Speed Motor Solution (3): GAC’s Quark Electric Drive 2.0 (30,000 RPM)
High-Speed ??Motor Solution (4): BYD’s Super e-Platform (30,511 RPM)
2.7 Drive Motor Technology Trend 4: Rare Earth-Less/Rare Earth-Free Motors
Rare Earth Export Control Policies Promote the Development of Rare Earth-Free Motor Technology
Performance Comparison between Rare Earth Motors and Rare Earth-Free Motors
Rare Earth-Free Motor Solution: Electrically Excited Synchronous Motors (EESMs)
European and American Companies Are Accelerating Their Deployment in EESMs
Rare Earth-Less/Rare Earth-Free Motor Solution (1): Nissan's Rare Earth Removal Strategy
Rare Earth-Less/Rare Earth-Free Motor Solution (2): Mahle's Rare Earth-Free Super Motor
Rare Earth-Less/Rare Earth-Free Motor Solution (3): Vitesco’s External EESM
Rare Earth-Less/Rare Earth-Free Motor Solution (4): Valeo & BMW
2.8 Drive Motor Technology Trend 5: 800V Drive Motors
Core Technology Update
800V Flat Wire Winding Technology
800V Drive Motor Oil Cooling System
800V High Voltage Insulation System
NVH Diagnostic Technology
Core Technology Outlook (1)
Core Technology Outlook (2)
Products and Technologies of Core Suppliers (1)
Products and Technologies of Core Suppliers (2)
Products and Technologies of Core Suppliers (3)
Products and Technologies of Core Suppliers (4)
2.9 Drive Motor Technology Trend 6: Axial Flux Motors (AFMs)
From Laboratory to Mass Production
Axial Flux Motors vs. Radial Flux Motors: Working Principle Comparison
Axial Flux Motors vs. Radial Flux Motors: Structural Feature Comparison
Core Technology (1): Structural Design
Core Technology (2): Material/Process Innovation
Core Technology (3): Thermal Efficiency/Magnetic Field
Major Suppliers’ Products and Technology Trends (1)
Major Suppliers’ Products and Technology Trends (2)
Major Suppliers’ Products and Technology Trends (3)
Application Case (1): Mercedes-Benz’s YASA Axial Flux Motor
Application Case (1): Yikun Power’s Electric Drive
Future Technological Evolution Directions
Reshaping of New Energy Vehicle Powertrain Chain
2.10 Drive Motor Technology Trend 7: High Torque Motors
Vehicle Models Fitted with Multiple Motors and High Torque Are Already in Mass Production
Axial Flux Motors Are Driving High Torque Density Motor Technology to Become the Mainstream
2.11 Drive Motor Technology Trend 8: Carbon Fiber Rotors
Application of Carbon Fiber Materials in High-Speed Motor Rotors
New Materials Drive Performance Improvements in Next-Generation Electric Drive Motors
Carbon Fiber Coated Rotors Become the Choice for High-Speed Motors
Carbon Fiber Rotor Application and Technology Trends (1)
Carbon Fiber Rotor Application and Technology Trends (2)
Carbon Fiber Rotor Application and Technology Trends (3)
2.12 Electric Control Technology Trend: Hybrid Carbon Electric Control
Application
Flexible Use of Hybrid Modules on Discrete Component Modules
Hybrid Carbon Technology Solutions Meet Different Electric Drive Requirements
Power Module Configuration in Dual Electric Drive Mode
Integration Technology Meets Different Work Modes
Summary of Hybrid Carbon Electric Control Technology Solutions from Major Suppliers
Application Case (1): XPeng's Hybrid Silicon Carbide Coaxial Electric Drive Technology
Application Case (2): Geely's Silicon Carbide Hybrid Drive Integration Technology
Application Case (3): InfiMotion's X-in-1 Electric Drive
Application Case (4): ZF's Chip-Embedded Inverter
Application Case (5): Inovance's PD4H Hybrid Carbon Electric Control System
2.13 Reducer Technology Trend: Battery-Electric Dual-Speed Reducers
New Energy Vehicle Reducers - Core Components for High-Efficiency Power Transmission
New Energy Vehicle Reducers - Structural Composition
New Energy Vehicle Reducers - Industry Chain Analysis
New Energy Vehicle Reducers - Key Technical Indicators and Industry Standard Updates
New Energy Vehicle Reducers - Classification and Structural Characteristics
New Energy Vehicle Reducers - Performance Improvement of Single-Speed Reducers vs. Two-Speed Reducers for Battery-Electric Vehicles
New Energy Vehicle Reducers - Comparison of Single-Speed/Two-Speed/Multi-Speed Reducers for Battery-Electric Passenger Cars
New Energy Vehicle Reducers - Two-Speed Reducers For Battery-Electric Vehicles: Products and Mass Production (1)
New Energy Vehicle Reducers - Two-Speed Reducers For Battery-Electric Vehicles: Products and Mass Production (2)
New Energy Vehicle Reducers - Two-Speed ??Reducer Cases (1)
New Energy Vehicle Reducers - Two-Speed ??Reducer Cases (2)
New Energy Vehicle Reducers - Key Technology Analysis
New Energy Vehicle Reducers - Reducer Technology Development Trends
3 REEV/PHEV Powertrain and Drive System Solutions
3.1 REEV Powertrain Domain
Official Definition of REEV
Power System Structure
REEV vs PHEV
Power System Composition
Electrical Architecture
REEVs Equipped with Large-Capacity Battery Packs Have Become a Recent Development Trend
3.2 REEV Powertrain Domain - Range Extender
Range Extender System Composition
Control Strategy
Range Extender Assembly Structure
Range Extender Development Solutions
Range Extender Technology Iteration
Range Extender Parameters for Reev Models on Sale from Major Chinese OEMs
Development Trend 1: Integration and Lightweighting
Development Trend 2: High Vibration Resistance
Development Trend 3: High Reliability
Development Trend 4: High NVH Quality
Development Trend 5: High Electromagnetic Compatibility
3.3 REEV Powertrain Domain - Engine
Range Extender Engine
REEV Engine - Technology Iteration
REEV Supply Chain - Engine Selection
Four-Cylinder Gasoline Engines Are Preferred
Fuel-to-Electricity Conversion Rate
3.4 REEV Powertrain Domain - Typical Range Extender Solutions
Range Extender Drive System Operating Mode
Seres Range Extender System: Dedicated Engine for Range Extension
Seres Range Extender System: Dedicated Generator for Range Extension (1)
Seres Range Extender System: Dedicated Generator for Range Extension (2)
Seres Range Extender System: MCU
Voyah REEV Thermal Management System Solution (1)
Voyah REEV Thermal Management System Solution (2)
3.5 PHEV Powertrain Domain
Power Architecture Classification
Summary of PHEV Architectures of Major OEMs
PHEV Architecture Comparison: Geely Leishen Em-i vs BYD DM 5.0
DHT Hybrid System
P1+P3 Configuration Accounts for the Highest Proportion
P2 Configuration Is Suitable for Hard-core SUVs and Sports Vehicles
Dual-Drive-Motor Installation
3.6 PHEV Powertrain - Hybrid Engine
Thermal Efficiency Development Trend
Structure
Hybrid-Specific Engine Vs Gasoline Engine
Unique Technologies and Thermal Efficiency of PHEV Models Currently on Sale
Mass Production Case (1): BYD Xiaoyun Hybrid Engine
Mass Production Case (2): Changan New Blue Whale Hybrid Engine
Development of Dedicated High-Efficiency Engine Technology
3.7 PHEV Powertrain Domain - Hybrid Dual ECUs
PHEV ECU - Number
PHEV ECU - Dual ECU Design Architecture
PHEV ECU - Application Case (1): BYD’s Dual ECU System
PHEV ECU - Application Case (2): Inovance’s Dual ECU System
PHEV ECU - Application Case (3): Sungrow’s Dual ECU System (1)
PHEV ECU - Application Case (4): Sungrow’s Dual ECU System (2)
PHEV ECU - Application Case (5): VMAX’s DSC Half-Bridge Molded Module
3.8 PHEV Powertrain - Hybrid Dedicated Hybrid Transmission (DHT)
Introduction/Work Method
DHT Assembly
DHT Electromechanical Coupling
OEM DHT Products
4 Trends of Cross-Domain Integration in Powertrain Domain
4.1 Powertrain Domain Controllers and Market
Powertrain Domain Controllers Achieve Centralized Powertrain Control Decision-Making
Development Advantages of Powertrain Domain Controllers
Mainstream Integration Solution for Powertrain Domain Controllers: VCU + BMS + "XCU"
Collaborative Development Model of Powertrain Domain Controllers
China Passenger Car Power Powertrain Controller Market Size, 2022-2027E
4.2 Powertrain Domain Integration Direction: Intelligent Chassis XYZ Three-Way Collaborative Integration Control
Powertrain Domain + Chassis Domain - Powertrain Domain Integration Framework
Powertrain Domain + Chassis Domain - Accelerated Electrification Drives Automotive Chassis Technology System Transformation
Powertrain Domain + Chassis Domain - Application of Key Technologies
Powertrain Domain + Chassis Domain - Iteration of Intelligent Electric Chassis Technology
Powertrain Domain + Chassis Domain - Industry Alliance Intelligent Chassis Technology Roadmap Planning
Powertrain Domain + Chassis Domain - Development History of Active Suspension
Powertrain Domain + Chassis Domain - Intelligent Chassis Case: CIIC Integrated Intelligent Chassis
Powertrain Domain + Chassis Domain - Three-Axle Integrated Intelligent Chassis
Powertrain Domain + Chassis Domain - Three-Axle Integrated Intelligent Chassis Cases
Powertrain Domain + Chassis Domain - OEM Powertrain Domain Integration Technology Trends
Powertrain Domain + Chassis Domain - Vehicle Models with Intelligent Chassis
Powertrain Domain + Chassis Domain - Typical Intelligent Chassis Technology
Powertrain Domain + Chassis Domain - Chassis Domain Controller
Powertrain Domain + Chassis Domain - Summary of Tier 1 Suppliers' Power Chassis Domain Controllers (1)
Powertrain Domain + Chassis Domain - Summary of Tier 2 Suppliers' Power Chassis Domain Controllers (1)
Powertrain Domain + Chassis Domain - Integration Case (1): Global Technology’s iCDS Integrates VMC Algorithm
Powertrain Domain + Chassis Domain - Integration Case (2): UAES VCU 8.6
Powertrain Domain + Chassis Domain - Integration Case (3): SemiDrive V-HPC
Powertrain Domain + Chassis Domain - Integration Case (4): Huawei DriveONE
Powertrain Domain + Chassis Domain - Integration Case (5): ZEEKR’s “Powertrain Domain + Chassis Domain” Integration Solution - Motor Control Function Integration
4.3 Powertrain Domain Integration Direction - Multi-Motor Drive-Brake Integration
Drive Motor Intervention in Chassis Braking Control
Drive-Brake Integration Technology (1): Stability Control Technology Based on Electro-Hydraulic Combination
Drive-Brake Integration Technology (2): Drive-Brake Integration Composite Brake-by-Wire Technology
Control Strategy: Centralized Computing Integration and Distributed Control
Application Case (1): Technical Practice of Drive-Brake Longitudinal Control Integration in ZEEKR EE 3.0
Application Case (2): Technical Practice of Drive-Brake Longitudinal Control Integration in ZEEKR EE 3.0
Breakthrough of Distributed Drive-Brake Systems in Integrated Design and Control Technology
4.4 Selection of MCUs for Powertrain Domain Controller
Powertrain Powertrain Domain Controller System Evolution Places Higher Requirements on MCU Computing Power
Domestic Substitution Process
Product Summary (1)
Product Summary (2)
Product Summary (3)
Product Solution: SemiDrive E3620P
Product Solution: SemiDrive E3650
5 Electric Drive and Powertrain Domain Layout of OEMs
5.1 BYD
BYD - Powertrain System Architecture and Technology Trends (1)
Hyundai - Powertrain Domain System Architecture and Technology Trends (2)
Hyundai - Powertrain Domain System Architecture and Technology Trends (3)
BYD - Powertrain System Technology Development Trends
BYD - Powertrain Domain Fusion Architecture: Xuanji Architecture
BYD - Powertrain Domain Module: e-Platform 3.0 Evo
BYD - Powertrain Domain Module: Super e-Platform 3.0
BYD - Platform Architecture Powertrain Domain Module Development Trends
BYD - e-Platform 3.0 Evo: 12-in-1 Intelligent Electric Drive System
BYD - Super e-Platform 3.0: Super Electric Drive
BYD - Fifth-Generation Hybrid System: DM-i 5.0
BYD - Fifth-Generation Hybrid System: DMO Super Hybrid
BYD - Development Trends of Powertrain Domain + Chassis Domain Control System
BYD - Powertrain Domain + Chassis Domain Control System: iTAC System
BYD - Powertrain Domain + Chassis Domain Control System: e4
BYD - Powertrain Domain + Chassis Domain Control System: e3
BYD - SiC Power Module
5.2 Changan Automobile
Powertrain Domain System Architecture and Technology Trends (1)
Powertrain Domain System Architecture and Technology Trends (2)
Powertrain System: Electric Drive System Technology Trends
Plug-in Hybrid/Range Extender: Digital Intelligent AI Electric Drive 2.0 (1)
Plug-in Hybrid/Range Extender: Digital Intelligent AI Electric Drive 2.0 (2): Technical Parameters of Motors
Plug-in Hybrid/Range Extender: Digital Intelligent AI Electric Drive 2.0 (3): Technical Parameters of Motors
Plug-in Hybrid/Range Extender: Digital Intelligent AI Electric Drive 2.0 (4): A-ECMS Smart Energy Consumption Optimization Algorithm
Plug-in Hybrid/Range Extender: Digital Intelligent AI Electric Drive 2.0 (5): Thermal Management System
Range Extender: Force Super-Integrated Electric Drive (1)
Range Extender: Force Super-Integrated Electric Drive (2)
Powertrain Domain integration: iEM High-Level Intelligent Power Control System (1)
Powertrain Domain integration: iEM High-Level Intelligent Power Control System (2)
Tsingshan Industrial’s Electric Drive Assembly Technology Trends
Tsingshan Industrial: GI-Drive 2.0 Intelligent Electric Drive Platform
Tsingshan Industrial: EDS4 Distributed Motor Assembly
Tsingshan Industrial: Micro-core High-Frequency Pulse Heating Technology
Tsingshan Industrial: PEF20 Series 7-in-1 Electric Drive Assembly (1)
Tsingshan Industrial: PEF20 Series 7-in-1 Electric Drive Assembly (2)
5.3 Great Wall Motor
Powertrain Domain System Architecture and Technology Trends (1)
Powertrain Domain System Architecture and Technology Trends (2)
Technical Parameters of Hybrid Powertrain Domain
WEY All-Power Intelligent Super Platform
Tank Hi4-Z Hybrid Platform
Tank Hi4-Z Hybrid Platform: 800V Dual-Motor Hybrid
Powertrain Domain + Chassis Domain: iTVC Intelligent Torque Vector Control
5.4 Geely
Powertrain Domain System Architecture and Technology Trends (1)
Powertrain Domain System Architecture and Technology Trends (2)
Geely's Self-Developed 11-In-1 Intelligent Electric Drive (1)
Geely's Self-Developed 11-In-1 Intelligent Electric Drive (2)
InfiMotion’s Motor Layout
Wuxi InfiMotion's Distributed Dual-Motor Drive Assembly
Lotus Electric Drive System
Leishen AI Hybrid 2.0
Leishen AI Hybrid 2.0: Leishen EM-i AI Hybrid (1)
Leishen AI Hybrid 2.0: Leishen EM-i AI Hybrid (2)
Leishen AI Hybrid 2.0: Thor EM-P AI Hybrid
Powertrain Domain + Chassis Domain (1): GWRC Intelligent Anti-Slip Control Technology
Powertrain Domain + Chassis Domain (2): GVMC
5.5 ZEEKR
Powertrain Domain System Architecture and Technology Trends (1)
Powertrain Domain System Architecture and Technology Trends (2)
SEA Powertrain Domain System
800V High Voltage Electric Drive System
SEP Domain System
Powertrain Domain + Chassis Domain: ZEKR 001FR
Powertrain Domain + Chassis Domain: Vehicle Driving ZCU Integration Path
Powertrain Domain + Chassis Domain: Vehicle Driving ZCU Integration Strategy
Powertrain Domain + Chassis Domain Integration Solution Summary
Powertrain Domain + Chassis Domain Integration Solution: "Electric Drive, Battery, Electric Control" Function Integration Architecture
Multi-Motor Drive-Brake Integration Technology (1)
Multi-Motor Drive-Brake Integration Technology (2): Underlying Technology
Multi-Motor Drive-Brake Integration Technology (3): Four-Motor Drive
5.6 Xiaomi Auto
Powertrain Domain System Architecture and Technology Trends (1)
Powertrain Domain System Architecture and Technology Trends (2)
Powertrain Domain System: Super Motors
V8s Super Motor
V6S PLUS Super Motor
Powertrain Domain + Chassis Domain Integration
5.7 Leapmotor
Powertrain Domain System Architecture and Technology Trends (1)
Powertrain Domain System Architecture and Technology Trends (2)
Powertrain Domain: Electric Drive System Technology Trends
LEAP 4.0 (D Platform): Powertrain Domain
LEAP 4.0 (D Platform): Multi-Motor Four-Wheel Drive and Dual-Vector Electric Drive Technology
LEAP 3.5: Powertrain Domain
Powertrain Domain System: 7-in-1 Oil-Cooled Motor
Range Extended Version: Powertrain Domain System Parameters
LEAP 4.0 (D Platform) Range Extended Power System
CTC 2.0
Powertrain Domain + Chassis Domain Technology Trends
Powertrain Domain + Chassis Domain Application (1): LMC
Powertrain Domain + Chassis Domain Application (2): LMC 2.0
5.8 NIO
Powertrain Domain System Architecture and Technology Trends
Powertrain Domain of NT3.0
Electric Drive System Technology Development Process
EDS 4.0
Full-Stack Self-Developed and Self-Made Electric Drive System
Powertrain Domain + Chassis Domain
5.9 XPeng
Powertrain Domain System Architecture and Technology Trends (1)
Powertrain Domain System Architecture and Technology Trends (2)
SPEA 2.0
Powertrain Domain: Development of 800V Electric Drive Technology
Powertrain Domain: 800V XPower Electric Drive System (1)
Powertrain Domain: 800V XPower Electric Drive System (2)
Powertrain Domain: 800V XPower Electric Drive System (3)
Powertrain Domain: 800V XPower Electric Drive System (4): Silicon Carbide
Powertrain Domain: 800V XPower Electric Drive System (5): Electric Drive Control Technology
X-HP 3.0: Intelligent Thermal Management System
5.10 Li Auto
Powertrain Domain System Architecture and Technology Trends
High-Voltage Battery-Electric "M" Platform
Power Domain Electric Drive Technology (Cooperation + Independent R&D) Development Process
BEV Powertrain Configuration
Technical Parameters of Self-Developed Motors (1)
Technical Parameters of Self-Developed Motors (2)
REEV Powertrain Configuration
5.11 Harmony Intelligent Mobility Alliance (HIMA)
Powertrain Domain System Architecture and Technology Trends (1)
Powertrain Domain System Architecture and Technology Trends (2)
Huawei DriveONE High Voltage 7-in-1 Electric Drive System
AITO’s Extended-Range Powertrain Domain Solutions and Trends
Seres Super Range Extender System 5.0
Seres Super Range Extender System 5.0: C2E Range Extender Architecture
Seres Super Range Extender System 5.0: RoboREX Intelligent Range Extender Control Technology
Range-Extended Electric Power Generation + Drive Powertrain
Topology of LUXEED S7's Electric Drive System
Topology of AITO M9's Electric Drive & High Voltage System
3-in-1 Electric Drive Disassembly of Avatr 11
5.12 Voyah
Powertrain Domain System Architecture and Technology Trends (1)
Powertrain Domain System Architecture and Technology Trends (2)
ESSA
Lanhai Power’s Battery-Electric System (BEV)
Lanhai Power’s 800V High Voltage Silicon Carbide Electric Drive Assembly
Lanhai Intelligent Hybrid Technology
New Electric Drive Solution: Axial Flux Distributed Electric Drive System (1)
New Electric Drive Solution: Axial Flux Distributed Electric Drive System (2)
New Motor Solution: Breakthrough in Key Axial Flux Motor Technologies
Axial Flux Motors (1)
Axial Flux Motors (2)
Axial Flux Motors (3)
Powertrain Domain + Chassis Domain: Tianyuan Intelligent Architecture
5.13 Avatr
Powertrain Domain System Architecture and Technology Trends
Battery-Electric Platform + Huawei DriveONE
Range Extender Platform + Huawei DriveONE
Powertrain Domain Integration Solution: Central Zonal EEA of Avatr's Full-Stack Self-Developed Software (1)
Powertrain Domain Integration Solution: Taihang Intelligent Control Chassis (1)
Powertrain Domain Integration Solution: Taihang Intelligent Control Chassis (2)
5.14 FAW
FAW Group - Powertrain System Architecture and Technology Trends
FAW Hongqi - Tiangong Battery-Electric Platform Powertrain Domain System (1)
FAW Hongqi - Tiangong Battery-Electric Platform Powertrain Domain System (2)
FAW Hongqi - HMP (1)
FAW Hongqi - HMP (2)
FAW Hongqi - HMP (3)
FAW Hongqi - HMP (4)
FAW Hongqi - HMP: Transverse Platform
FAW Hongqi - Powertrain Domain + Chassis Domain: AI Intelligent Chassis System
5.15 BAIC (Including Arcfox)
Powertrain Domain System Architecture and Technology Trends
Powertrain Domain Electric Drive System: Technology R&D Planning
EMD 3.0
Powertrain Domain Integration: Next-Generation HDCU 3.0
Powertrain Domain Integration: Scenario-Based Model of HDCU 3.0
5.16 Dongfeng Motor
Powertrain Domain System Architecture and Technology Trends
Battery-Electric/Range-Extended Powertrain Domain Architecture: Dongfeng Quantum Intelligent Electric Modular Architecture
Battery-Electric/Range-Extended Powertrain Domain Technology: Mach Power
BEV Powertrain Domain: Mach E
Powertrain Domain Electric Drive System: Main Technical Parameters
PHEV Powertrain Domain: Fourth-Generation Mach Hybrid Technology
PHEV Powertrain Domain: Third-Generation Mach Hybrid Technology
PHEV Powertrain Domain: Dongfeng 800V Super Hybrid
REEV Powertrain Domain: Mach Power Range Extended Power System
5.17 GAC Group
Powertrain Domain System Architecture and Technology Trends (1)
Powertrain Domain System Architecture and Technology Trends (2)
Powertrain Domain System Architecture and Technology Trends (3)
Battery-Electric Powertrain Domain: AEP 3.0 (1)
Battery-Electric Powertrain Domain: AEP 3.0 (2)
Powertrain Domain Electric Drive System: Technological Development Progress
Quark Electric Drive: Independent Electric Drive Industrialization Project
Powertrain Domain Electric Drive System: Quark Electric Drive 2.0
Powertrain Domain Electric Drive System: Quark Electric Drive 2.0 - Amorphous Carbon Fiber Motor
Trumpchi's Plug-In Hybrid Powertrain Domain: Trumpchi i-GTEC 2.0
Trumpchi's Plug-In Hybrid Powertrain Domain: Trumpchi i-GTEC 3.0
Hyptec/Aion Extended-Range Powertrain Domain: ADiMOTION 2.0
Powertrain Domain + Chassis Domain: AICS
Powertrain Domain + Chassis Domain: ADiMOTION Chassis
Powertrain Domain + Chassis Domain: Hyptec Intelligent Digital Chassis
5.18 SAIC
Powertrain Domain System Architecture and Technology Trends (1)
Powertrain Domain System Architecture and Technology Trends (2)
IM iO
Battery-Electric Powertrain Domain Platform: "Nebula" Battery-Electric Technology Platform
Battery-Electric Powertrain Domain: VGA 6-in-1 Electric Drive System
Plug-in Hybrid Powertrain Domain System: DMH
Plug-in Hybrid Powertrain Domain System: DMH 6.0
Plug-in Hybrid Powertrain Domain System: DMH: Engine
Plug-in Hybrid Powertrain Domain System: DMH: Controller/Battery
Plug-in Hybrid Powertrain Domain System: DMH: Operating Mode
Extended-Range Powertrain Domain System: Stellar Super Range Extender
Powertrain Domain + Chassis Domain: Implementation Plan of Lizard Digital Chassis 1.0-4.0
Powertrain Domain + Chassis Domain: Lizard Digital Chassis 2.0
Powertrain Domain + Chassis Domain: Lizard Digital Chassis 3.0
Powertrain Domain + Chassis Domain: IM’s Digital Chassis-by-Wire Technology
5.19 SAIC-GM-Wuling
Powertrain Domain System Architecture and Technology Trends
Hybrid Powertrain Domain System: Lingxi Power 3.0
Hybrid Powertrain Domain System: Lingxi Power 4.0
X-in-1 Electric Drive Assembly in Powertrain Domain: 10-in-1 Highly Integrated Electric Drive
X-in-1 Electric Drive Assembly in Powertrain Domain: 12-in-1 Electric Drive
X-in-1 Electric Drive Assembly in Powertrain Domain: Dual-Motor Controller Module
X-in-1 Electric Drive Assembly in Powertrain Domain: 800V X-in-1 Silicon Carbide Electric Drive
Powertrain Domain Drive Assembly: New Technologies in 2025 (1)
Powertrain Domain Drive Assembly: New Technologies in 2025 (2)
5.20 Chery
Powertrain Domain System Architecture and Technology Trends (3)
Powertrain Domain System Architecture and Technology Trends (3)
X-in-1 BEV Powertrain
Kunpeng Hybrid Full-Domain Architecture
Kunpeng Super Hybrid C-DM5.0: Hybrid Dedicated Engine
Kunpeng Super Hybrid C-DM5.0: Typical Hybrid Dedicated Engine
Kunpeng Super Hybrid C-DM5.0: DHT
Kunpeng Super Hybrid C-DM5.0: Typical DHT
Kunpeng Super Hybrid CDM 6.0
Kunpeng Super Hybrid CDM 7.0
Kunpeng CEM
Powertrain Domain Integration: Integrated Intelligent Control Platform for Driving Domain
Powertrain Domain Integration: Fangzhou Amphibious System
Powertrain Domain Integration: Flying Fish Intelligent Chassis System 2.0
Powertrain Domain Integration: Gimbal Intelligent Chassis 2.0
5.21 Tesla
Powertrain Domain System Architecture and Technology Trends
EEA of Model 3: ZCU Integrated with VCU
Development History of Powertrain Domain Electric Drive System Technology
Model Y: Breakdown of Fourth-Generation Electric Drive Assembly (1)
Model Y: Breakdown of Fourth-Generation Electric Drive Assembly (2) - Motor Controller
Model Y: Breakdown of Fourth-Generation Electric Drive Assembly (3) - Current Sensor
Model Y: Breakdown of Fourth-Generation Electric Drive Assembly (4)
Model Y: Breakdown of Fourth-Generation Electric Drive Assembly (5)
Third-Generation Electric Drive System Analysis (1)
Third-Generation Electric Drive System Analysis (2): Flat Wire Motor
Third-Generation Electric Drive System Analysis (3): Motor Stator and Rotor
Third-Generation Electric Drive System Analysis (4): Reducer and Differential
Third-Generation Electric Drive System Analysis (5): Inverter
Third-Generation Electric Drive System Analysis (6): SiC Power Module
5.22 BMW
Powertrain Domain System Architecture and Technology Trends
800V High Voltage Architecture: Neue Klasse
Electric Drive System Development Process
Electric Drive System: Sixth-Generation eDrive (1)
Electric Drive System: Sixth-Generation eDrive (2)
Electric Drive System: Sixth-Generation eDrive - Motor
BMW eDrive Replaces Silicon Carbide Inverters
Cooperation in Extended-Range Drive System Technology
5.23 Daimler
Powertrain Domain System Architecture and Technology Trends
Powertrain Domain Platform: MMA
Powertrain Domain Platform: EA
Electric Drive System: EDU 2.0
Powertrain Domain Drive Motor: Axial Flux Motor
5.24 Hyundai
Powertrain Domain System Architecture and Technology Trends (1)
Powertrain Domain System Architecture and Technology Trends
E-GMP
Hybrid Powertrain Domain System (1)
Hybrid Powertrain Domain System (2)
Hybrid Powertrain Domain System (3)
6 Electric Drive and Powertrain Domain Layout of Tier 1 Suppliers
6.1 Huawei
Powertrain Domain Products & Solutions and Technology Trends (1)
Powertrain Domain Products & Solutions and Technology Trends (2)
Powertrain Domain Products & Solutions and Technology Trends (3)
Powertrain Domain Electric Drive Assembly - X-in-1 Huawei DriveONE
Powertrain Domain Platform: Huawei’s Class-A Battery-Electric Vehicle Power Solution
Powertrain Domain Platform: Huawei’s Class-B Battery-Electric Vehicle Power Solution
Powertrain Domain Electric Drive Assembly: X-in-1 DriveONE
Powertrain Domain Electric Drive Assembly: 3-in-1 DriveONE: Product Parameters
Powertrain Domain Electric Drive Assembly: 3-in-1 DriveONE: Motor Controller (1)
Powertrain Domain Electric Drive Assembly: 3-in-1 DriveONE: Motor Controller (2)
Powertrain Domain Integration: Touring Dragon Platform (1)
Powertrain Domain Integration: Touring Dragon Platform (2)
Powertrain Domain Integration: Touring Dragon Platform (3)
Powertrain Domain Integration: Huawei DriveONE Transfers from Powertrain Domain to Motion Domain
Powertrain Domain Integration: Three-Stage Development Path of Huawei DriveONE’s Motion Domain
Powertrain Domain Integration: Huawei DriveONE Motion Domain Integration Solution (1)
Powertrain Domain Integration: Huawei DriveONE Motion Domain Integration Solution (2)
Powertrain Domain Integration: Huawei iTRACK
6.2 Inovance
Powertrain Domain Products & Solutions and Technology Trends (1)
Powertrain Domain Products & Solutions and Technology Trends (2)
Powertrain Domain Products & Solutions and Technology Trends (3)
Powertrain Domain Electric Drive System Layout
New Energy Passenger Car Electric Drive/Power Supply System Business and Products
Leading Powertrain Domain System Technologies (1): In-Slot Direct Cooling Technology
Leading Powertrain Domain System Technologies (2): Gallium Nitride Technology
Leading Powertrain Domain System Technologies (3): Single-stage Topology Power Supply Technology
Leading Powertrain Domain System Technologies (4): Embedded Wafer Technology
Leading Powertrain Domain System Technologies (5): High-speed Planetary Gear Technology
Leading Powertrain Domain System Technologies (6): High-Speed Electric Drive Assembly
Leading Powertrain Domain System Technologies (7): PA5T Ultimate Efficiency Powertrain
Drive Assembly
Sixth-Generation X-in-1 Electric Drive: PA6X
Fifth-Generation X-in-1 Electric Drive: PA5X0 (1)
Fifth-Generation X-in-1 Electric Drive: PA5X0 (2)
Fifth-Generation X-in-1 Electric Drive: PA5X0 - Motor
Fifth-Generation X-in-1 Electric Drive: PA5X0 - Motor Controller
Fifth-Generation X-in-1 Electric Drive: PA5X0 - Power System
Fourth-Generation Electric Drive
Distributed Dual-Motor Electric Drive
Extended-Range Powertrain Domain: 5-in-1 Passenger Car Extended-Range Assembly
Motor Controller and Technology Development Trends
Fourth-Generation Motor Controller: PD4H
Fourth-Generation Motor Controller: PD4H (1)
Fourth-Generation Motor Controller: PD4H (2)
Fourth-Generation Motor Controller: PD4H (3)
High-Performance Magnesium Alloy Electric Drive Assembly
6.3 Enpower
Powertrain Domain Solutions and Technology Trends
Development of Powertrain Domain Electric Drive Assembly and electric control
Core Technologies of Powertrain Domain Electric Drive Assembly Platform
Powertrain Domain Electric Drive Assembly: Products and Functional Features
Powertrain Domain Electric Drive Assembly: “Integrated Core” 7-in-1 Electric Drive & 8-in-1 Electric Drive
Powertrain Domain Electric Drive Assembly: “Integrated Core” 6-in-1 Powertrain
Powertrain Domain Electric Drive Assembly: 6-in-1 Oil-cooled Drive System
Powertrain Domain Electric Drive Assembly: “Integrated Core” 3-in-1 Powertrain
Powertrain Domain Motor: Hybrid Dual-Motor Controller and E-BIKE Mid-Drive Motor
Powertrain Domain Electric Control: "Integrated Core" Electric Control Mechanism
Powertrain Domain Electric Control: "Empowering Brick" Next-Generation Motor Controller Platform Solution
Powertrain Domain: Products Derived from "Integrated Core" Technology
Customers and Production Bases of New Energy Vehicle Power Systems
6.4 JEE
Powertrain Domain Products & Solutions and Technology Trends (1)
Powertrain Domain Products & Solutions and Technology Trends (2)
Product Matrix of Electric Motor and Electric Control Components for New Energy Vehicles
Powertrain Domain Electric Drive Assembly: Products and Functional Features
Powertrain Domain Electric Drive Assembly: Gen.1 VS Gen.2 (1)
Powertrain Domain Electric Drive Assembly: Gen.1 VS Gen.2 (2)
Powertrain Domain System: 9-in-1 Electric Drive Assembly
Powertrain Domain System: Next-Generation 3-in-1 Oil-Cooled Flat Wire System
Powertrain Domain System: 800V Silicon Carbide Powertrain Domain Controller
Powertrain Domain System: Drive Motor and Motor Controller Technology Direction
Powertrain Domain Integration: Future Tendency is to Integrate Power System-Related Controllers and Chips
6.5 Intelligent Power System
Powertrain Domain Products and Layout
Powertrain Domain Solutions and Technology Trends
Development History of Powertrain Domain Electric Drive Assembly Technology
Powertrain Domain Electric Drive Assembly: 800V Electric Drive Product List
Powertrain Domain Electric Drive Assembly: iD5 Electric Drive System
Powertrain Domain Electric Drive Assembly: iD4 Electric Drive System
Powertrain Domain Electric Drive Assembly: iD3 Electric Drive System
Automotive Powertrain Domain Controllers
Powertrain Domain Controller: ECUs Upgrade from Distributed Domain to Physical Domain
Powertrain Domain Controller: Products and Functional Features
Powertrain Domain Controller: PCM
Powertrain Domain Controller: X-in-1 PDCU (1)
Powertrain Domain Controller: X-in-1 PDCU (2)
6.6 Shanghai Electric Drive
Powertrain Domain Products & Solutions and Technology Trends (1)
Powertrain Domain Products & Solutions and Technology Trends (2)
Powertrain Domain Electric Drive Assembly: X-in-1 Electric Drive
REEV Powertrain Domain: First-Generation Extended-Range Engine System
REEV Powertrain Domain: Second-Generation Extended-Range Engine System (1)
REEV Powertrain Domain: Second-Generation Extended-Range Engine System (2)
BEV Powertrain Domain: 6-in-1 EX100
BEV Powertrain Domain: 4-in-1 800V SiC Electric Drive System
PHEV Powertrain Domain: 5-in-1 Power System (P1+P3)
Leading Powertrain Domain Technology: Gallium Nitride Motor Controller
Leading Powertrain Domain Technology: 3-in-1 Gallium Nitride Drive Motor System
Leading Powertrain Domain Technology: Axial Flux Motor
6.7 UAES
Powertrain Domain Solutions and Technology Trends
Powertrain Domain Electric Drive Assembly: Evolution Roadmap of X-in-1 Electric Drive System
Powertrain Domain Electric Drive Assembly: Components of X-in-1 Electric Drive System
Powertrain Domain Electric Drive Assembly: Products and Functional Features
Powertrain Domain Electric Drive Assembly: X-in-1 High-Power-Density Electric Drive System (1)
Powertrain Domain Electric Drive Assembly: X-in-1 High-Power-Density Electric Drive System (2)
Powertrain Domain Electric Drive Assembly: X-in-1 High-Power-Density Electric Drive System (3)
REEV Powertrain Domain: Super Intelligent Range Extender Unit
Powertrain Electric Drive Assembly: Magnesium Alloy ASM Planetary Gear E-Axle
Powertrain Domain Electric Drive Assembly: Distributed Electric Drive System
Powertrain Domain Electric Drive Assembly: EAU
Powertrain Domain Electric Drive Components: X-PIN
Powertrain Domain Electric Drive Components: Dual-Motor Inverter - DINV5U
Electric Drive Components: DX-PIN
Powertrain Domain Integration: Products and Functional Features
Powertrain Domain Integration: PDCU & VCP
Powertrain Domain Integration: VCP
Powertrain Domain Integration: VCU 8.6
Powertrain Domain Integration: VCU 8.5 (1)
Powertrain Domain Integration: VCU 8.5 (2)
Powertrain Domain Integration: VCU 8.5 (3)
6.8 HYCET Transmission Technology
Powertrain Domain: Electric Drive Evolution Roadmap
Powertrain Domain Solutions and Technology Trends
X-in-1 Powertrain Domain Electric Drive System List
PHEV Powertrain Domain: L.E.M.O.N DHT (1)
PHEV Powertrain Domain: L.E.M.O.N DHT (2)
PHEV Powertrain: 7DCT
PHEV Powertrain Domain: 9DCT/9HDCT
Powertrain Domain: A00-Class 3-in-1 Electric Drive System
Powertrain Domain: Electric Drive Series (1)
Powertrain Domain: Electric Drive Series (2)
Powertrain Domain: Electric Drive Series (3)
Powertrain Domain: Electric Drive Series (4)
Powertrain Domain: 9HAT Hybrid Transmission
Powertrain Domain: 9HAT Hybrid Transmission
Powertrain Domain: Hi4-Z Technology System
PHEV Powertrain Domain: Hi4-Z Technology System (1)
PHEV Powertrain Domain: Hi4-Z Technology System (2)
6.9 Hefei J-Link Automotive Electronics Co., Ltd.
Powertrain Domain Solutions and Technology Trends
Powertrain Domain Electric Drive Assembly: Products and Functional Features
Powertrain Domain Electric Drive Assembly: 3-in-1 800V SiC Electric Drive Assembly
List of Powertrain Domain Electric Control Products (1)
List of Powertrain Domain Electric Control Products (2)
List of Powertrain Domain Electric Control Products (3)
Powertrain Domain Electric Control: 800V Multi-Integration Silicon Carbide Powertrain Domain Controller
Powertrain Domain Electric Control: 800V Silicon Carbide Motor Controller
Powertrain Domain Electric Control Products (1)
.............................
Powertrain Domain Electric Control Products (5)
Powertrain Domain Power Module Summary
Powertrain Domain Power Module (1)
Powertrain Domain Power Module (2)
Powertrain Domain: Cross-Domain Integrated Products (eVTOL)
6.10 Jingwei Hirain Technologies
Powertrain Domain Controller: Products and Functional Features
New Energy Power System Covers Powertrain Domain Actuation Module Downward and Integrates Zones and Powertrain Domain Upward
Powertrain Domain Integration Solution Based on Next-Generation EEA (1)
Powertrain Domain Integration Solution Based on Next-Generation EEA (2) – CCP
VCU/HCU Functions and Customers
PCU
X-in-1 Powertrain Domain Controller: XCU (1)
X-in-1 Powertrain Domain Controller: XCU (2)
SiC-Based Ultra-High-Speed Motor Controller: eBooster
Powertrain Domain: Physical ZCU
6.11 Horse Powertrain
Hybrid Powertrain Domain Solutions
Extended-Range Powertrain System: X-Range
Extended-Range Powertrain System
Extended-Range Powertrain System: Latest Horse C15
Extended-Range Powertrain System: Gallium Nitride Extended-Range Power Generation System
6.12 ZF
Powertrain Domain Products & Solutions and Technology Trends (1)
Powertrain Domain Products & Solutions and Technology Trends (2)
Powertrain Domain Platform: SELECT Electric Drive Platform (1)
Powertrain Domain Platform: SELECT Electric Drive Platform (2)
X-in-1 Powertrain Domain Electric Drive Assembly: Products and Functional Features
X-in-1 Powertrain Domain Electric Drive Assembly: EVSys800 (1)
X-in-1 Powertrain Domain Electric Drive Assembly: EVSys800 (2)
X-in-1 Powertrain Domain Electric Drive Assembly: EVSys800 (3)
X-in-1 Powertrain Domain Electric Drive Assembly: 300kW Power System Equipped with AI Enhanced Controller
Development History of Extended-Range Powertrain Domain System Technology
eRE
3-in-1 Basic eRE
4-in-1 eRE Plus
Powertrain Domain + Chassis Domain: Smart Chassis 2.0 (1)
Powertrain Domain + Chassis Domain: Smart Chassis 2.0 (2)
.......................
Powertrain Domain + Chassis Domain: Smart Chassis 2.0 (7)
SiC Application
Domestic Electric Drive Factory Distribution
6.13 BorgWarner
Powertrain Domain: Products/Solutions and Technology Trends (1)
Powertrain Domain: Products/Solutions and Technology Trends (2)
Powertrain Domain System
Powertrain Domain: X-in-1 Electric Drive System List
Powertrain Domain: Drive Motor
Powertrain Domain Electric Drive Module: 7-in-1 Integrated Electric Drive Module (iDM)
Powertrain Domain Electric Drive Module: iDM220
Powertrain Domain Electric Drive Module: 800V iDM220
Powertrain Domain Electric Drive Module: 48V Integrated Electric Drive System (1)
Powertrain Domain Electric Drive Module: 48V Integrated Electric Drive System (2)
Powertrain Domain Electric Drive Module: 48V Integrated Electric Drive System (3)
Powertrain Domain Electric Drive Module: 48V Integrated Electric Drive System (4)
Powertrain Domain Electric Drive Module: Brushless Excitation Motor
Range Extended Powertrain Domain: Range Extender Generator
Development History of Powertrain Domain Control System
PHEV Powertrain Domain: Motor Controller Technology Trends
PHEV Powertrain Domain: Dual-Motor Controller System
PHEV Powertrain Domain: Dual-Motor Controllers
Powertrain Domain: HVH250 Motor
Extended-Range Powertrain Domain: 2-in-1 Extended-Range System (1)
Extended-Range Powertrain Domain: 2-in-1 Extended-Range System (2)
Extended-Range Powertrain Domain: Crankshaft Direct-Connected Extended-Range Powertrain System
Hybrid Powertrain Domain: P2 Drive Module
Hybrid Powertrain Domain: P3 Hybrid Architecture
Powertrain Domain + Chassis Domain: Electronic Torque Vectoring and Disconnection System
6.14 Magna
Powertrain Domain: Products & Solutions and Technology Trends
Powertrain Domain: Products & Solutions and Technology Trends
Electric Drive Assembly: Products and Functional Features
Powertrain Domain: Dedicated Hybrid Drive (DHD) Systems
Powertrain Domain: eDS (Complementary Drive Unit)
Powertrain Domain: eDS (Auxiliary Drive System)
Powertrain Domain: DHD
Powertrain Domain: High Voltage Product Portfolio
Powertrain Domain: Drive Layout
Powertrain Domain: Next-Generation Electric Drive System
Powertrain Domain: Longitudinal Front-Wheel DHD Duo
Powertrain Domain: eDrive
Powertrain Domain: eDS Duo
Powertrain Domain: Single-Motor Hybrid System and Drive Methods
Powertrain Domain + Chassis Domain: Integrated Motor and All-Wheel Drive Functionality
6.15 Schaeffler
Powertrain Domain Products & Solutions and Technology Trends
Powertrain Domain Electric Drive Assembly: Products and Functional Features
Powertrain Domain Electric Drive Assembly: 800V Dual-Motor Coaxial Electric Drive
Powertrain Domain Electric Drive Assembly: 4-in-1 Electric Drive
Powertrain Domain Electric Drive Module: High Voltage PCB Embedded Power Module
Powertrain Domain Reducer: Next-Generation Coaxial Reducer
Powertrain Domain Drive Assembly: Fourth-Generation Fully Integrated Electric Axle Platform - EMR4
Hybrid Powertrain Domain: Hybrid Module + Electric Axle + Wheel Hub Drive
Powertrain Domain Technology: Distributed Drive Solution (1)
Powertrain Domain Technology: Distributed Drive Solution (2)
Powertrain Domain + Chassis Domain: Intelligent Corner Module
6.16 Vitesco
Product Layout in the Battery-Electric Field
Technological Trends of PCB Embedded Power Module
Powertrain Domain: Electric Drive Technology Development Roadmap
Powertrain Domain: Latest Electric Drive Axle System Technology Trends
Electric Drive Assembly: Products and Functional Features
Powertrain Domain: Fourth-Generation Electric Drive System: EMR4
Powertrain Domain: Third-Generation Electric Drive System: EMR3
Powertrain Domain Control System: Products and Functional Features
Powertrain Domain: Powertrain Domain Controller - PDCU200
Powertrain Domain: Powertrain Domain Controller - PDCU100
6.17 Valeo
Powertrain Domain Products & Solutions and Technology Trends
Electric Drive Product Layout
Powertrain Electric Drive Assembly: Products and Functional Features
Powertrain Electric Drive Assembly: 6-in-1 eAxle
Powertrain Electric Drive Assembly: High-Voltage 300kW Electric Drive (High-End Version)
Powertrain Domain Electric Drive Assembly: High-Voltage 3-in-1 Electric Drive
Powertrain Electric Drive Assembly: Medium and High-Voltage Smart eDrive
HEV Powertrain Electric Drive Assembly: 48V 15-25kW Electric Drive
HEV Powertrain Electric Drive Assembly: 48V Dual-Speed Electric Drive
6.18 Nidec
E-Axle Is 99% Made in China.
Powertrain Domain Electric Drive Assembly: Products and Functional Features
Powertrain Electric Drive Assembly: Technical Features of the Second-Generation Electric Drive Platform
Powertrain Electric Drive Assembly: The Second-Generation Electric Drive Products - Nidec 250kW & 180kW & 100kW
Powertrain Electric Drive Assembly: Next-Generation Electric Drive Plan: X-in-1 Electric Drive
New Energy Vehicle Cross-Domain (Electric Drive System and Powertrain Domain) Integration Trend Report 2025-2026
Electric Drive and Powertrain Domain Research: New technologies such as three-motor four-wheel drive, drive-brake integration, and corner modules are being rapidly installed in vehicles.
Electric dri...
Analysis on Desay SV and Joyson Electronic's Electrification, Connectivity, Intelligence and Sharing, 2025
Research on Desay SV and Joyson Electronic: Who is the No.1 Intelligent Supplier?
Both Desay SV and Joyson Electronic are leading domestic suppliers in automotive intelligence. "Analysis on Desay SV ...
OEMs and Tier 1 Suppliers' Cost Reduction and Efficiency Enhancement Strategy Analysis Report, 2025
ResearchInChina released the "OEMs and Tier 1 Suppliers' Cost Reduction and Efficiency Enhancement Strategy Analysis Report, 2025", summarizing hundreds of cost reduction strategies to provide referen...
Automotive Fixed Panoramic Sunroof and Smart Roof Research Report, 2025
With the intelligent application of car roofs as the core, this report systematically sorts out a series of new products such as fixed panoramic sunroof/openable sunroof, ceiling screen, roof ambient ...
Automotive-Grade Power Semiconductor and Module (SiC, GaN) Industry Research Report, 2025
SiC/GaN Research: Sales volume of 800V+ architecture-based vehicles will increase more than 10 times, and hybrid carbon (SiC+IGBT) power modules are rapidly being deployed in vehicles.
Sales volume o...
Cockpit Agent Engineering Research Report, 2025
Cockpit Agent Engineering Research: Breakthrough from Digital AI to Physical AI
Cockpit Agent Engineering Research Report, 2025 starts with the status quo of cockpit agents, summarizes the technical ...
Prospective Study on L3 Intelligent Driving Technology of OEMs and Tier 1 Suppliers, 2025
L3 Research: The Window of Opportunity Has Arrived - Eight Trends in L3 Layout of OEMs and Tier 1 Suppliers
Through in-depth research on 15 OEMs (including 8 Chinese and 7 foreign OEMs) and 9 Tier 1 ...
China Commercial Vehicle IoV and Intelligent Cockpit Industry Research Report 2025
Commercial Vehicle IoV and Cockpit Research: The Third Wave of Passenger Car/Commercial Vehicle Technology Integration Arrives, and T-Box Integrates e-Call and 15.6-inch for Vehicles
I. The third wav...
Intelligent Vehicle Electronic and Electrical Architecture (EEA) and Technology Supply Chain Construction Strategy Research Report, 2025
E/E Architecture Research: 24 OEMs Deploy Innovative Products from Platform Architectures to Technical Selling Points
According to statistics from ResearchInChina, 802,000 passenger cars with domain...
Research Report on Intelligent Vehicle Cross-Domain Integration Strategies and Innovative Function Scenarios, 2025
Cross-Domain Integration Strategy Research: Automakers' Competition Extends to Cross-Domain Innovative Function Scenarios such as Cockpit-Driving, Powertrain, and Chassis
Cross-domain integration of ...
China Autonomous Driving Data Closed Loop Research Report, 2025
Data Closed-Loop Research: Synthetic Data Accounts for Over 50%, Full-process Automated Toolchain Gradually Implemented
Key Points:From 2023 to 2025, the proportion of synthetic data increased from 2...
Automotive Glass and Smart Glass Research Report, 2025
Automotive Glass Report: Dimmable Glass Offers Active Mode, Penetration Rate Expected to Reach 10% by 2030
ResearchInChina releases the Automotive Glass and Smart Glass Research Report, 2025. This r...
Passenger Car Brake-by-Wire (BBW) Research Report, 2025
Brake-by-Wire: EHB to Be Installed in 12 Million Vehicles in 2025
1. EHB Have Been Installed in over 10 Million Vehicles, A Figure to Hit 12 Million in 2025.
In 2024, the brake-by-wire, Electro-Hydr...
Autonomous Driving Domain Controller and Central Computing Unit (CCU) Industry Report, 2025
Research on Autonomous Driving Domain Controllers: Monthly Penetration Rate Exceeded 30% for the First Time, and 700T+ Ultrahigh-compute Domain Controller Products Are Rapidly Installed in Vehicles
L...
China Automotive Lighting and Ambient Lighting System Research Report, 2025
Automotive Lighting System Research: In 2025H1, Autonomous Driving System (ADS) Marker Lamps Saw an 11-Fold Year-on-Year Growth and the Installation Rate of Automotive LED Lighting Approached 90...
Ecological Domain and Automotive Hardware Expansion Research Report, 2025
ResearchInChina has released the Ecological Domain and Automotive Hardware Expansion Research Report, 2025, which delves into the application of various automotive extended hardware, supplier ecologic...
Automotive Seating Innovation Technology Trend Research Report, 2025
Automotive Seating Research: With Popularization of Comfort Functions, How to Properly "Stack Functions" for Seating?
This report studies the status quo of seating technologies and functions in aspe...
Research Report on Chinese Suppliers’ Overseas Layout of Intelligent Driving, 2025
Research on Overseas Layout of Intelligent Driving: There Are Multiple Challenges in Overseas Layout, and Light-Asset Cooperation with Foreign Suppliers Emerges as the Optimal Solution at Present
20...