Table of Content

1 Overview of Automotive Modular Platform
1.1 Evolution of Automobile Production Modes
1.2 Automotive Modular Platform
1.3 Advantages and Disadvantages of Automotive Modular Platform
1.4 Automotive Modular Platforms of Foreign Automakers
1.5 Automotive Modular Platforms of Domestic Automakers
1.6 Development Trends of Automotive Modular Platform
1.6.1 Modular Platform for Electric Vehicles
1.6.2 Fewer Platforms and Core Platforms
1.6.3 The Gap between Domestic Automakers and International Automakers Is Gradually Narrowing
1.6.4 Upgrade of Electrical and Electronic Architecture
1.6.5 New Business Model
1.6.6 Upgrade to Modular Architecture
1.7 Automakers’ Model Planning Based on Modular Platforms



2 Modular Platforms of International Automakers
2.1 Volkswagen
2.1.1 MQB Platform
2.1.1.1 MQB Platform Helps Improve Product Quality and Profit
2.1.1.2 Fuel Vehicle Models Launched by MQB Platform
2.1.1.3 Application of MQB Platform??Golf VII
2.1.2 Volkswagen Battery Electric Module Platform
2.1.2.1 MEB Platform
2.1.2.2 Electrical and Electronic Architecture of MEB Platform
2.1.2.3 Application of MEB Platform
2.1.2.4 Development History of MEB Platform & PPE-PLATFORM
2.1.2.5 SSP Platform
2.1.2.6 Volkswagen Will Manufacture New Energy Vehicles Based on Various Platforms in China
2.1.3 Other Modular Platforms

2.2 Toyota
2.2.1 TNGA Architecture
2.2.1 Main Features of TNGA Architecture
2.2.1 Main Models of TNGA Architecture
2.2.2 e-TNGA Platform
2.2.3 Application of e-TNGA Platform

2.3 Renault–Nissan–Mitsubishi Alliance
2.3.1 CMF Platform
2.3.2 CMF-EV Platform

2.4 BMW
2.4.1 UKL Platform
2.4.2 CLAR Platform
2.4.2 Application of CLAR Platform

2.5 Mercedes-Benz
2.5.1 Battery Electric Module Platform
2.5.2 Other Modular Platforms

2.6 Hyundai
2.6.1 E-GMP Platform
2.6.1 Application of E-GMP Platform
2.6.2 i-GMP Platform
2.7 GM
2.7.1 BEV3 Platform
2.7.2 Ultium Platform
2.7.3 Application of Ultium Platform
2.7.4 GM Modular Platform Planning
2.8 PSA
2.8.1 Electric Modular Platform
2.8.2 Other Modular Platforms


3. Modular Platforms of Independent Automakers
3.1 Geely
3.1.1 PMA Platform
3.1.2 SEA Architecture
3.1.2 Application of SEA Architecture
3.1.3 CMA Architecture
3.1.3 Application of CMA Super Matrix
3.1.4 Other Modular Platforms
3.2 GAC
3.2.1 GPMA Architecture
3.2.1.1 Features of GPMA Architecture
3.2.1.2 First Model with GPMA Architecture --- EMPOW55
3.2.2 GEP Platform

3.3 Great Wall
3.3.1 Lemon Platform
3.3.2 Tank Platform

3.4 Chery
3.4.1 @LIFE-PLATFORM
3.4.2 T1X Platform
3.4.3 M1X Platform
3.4.4 Platform Planning

3.5 Changan
3.5.1 Ark Architecture
3.5.1 Application of Ark Architecture
3.5.2 Other Modular Platforms
3.5.3 Blue Whale NE Power Platform

3.6 BYD
3.6.1 e-Platform
3.6.2 e-Platform 3.0
3.6.2 e-Platform 3.0 Application

3.7 BAIC
3.7.1 BMFA
3.7.2 BE22 Platform
3.7.3 IMC Intelligent Module Architecture
3.7.3 Application of IMC Architecture: ARCFOX
3.8 FAW Car Besturn ??FMA Architecture
3.8 FAW Car Besturn ??Application of FMA Architecture
3.9 Dongfeng Venucia?? VSA Architecture
3.10 Brilliance Auto??M8X Platform


4. Modular Body Design

4.1 Overview of Modular Body Design
4.1.1 Status Quo of Modular Body Design
4.1.2 Modular Car Mass Production Plan

4.2 Fiat’s Customizable Modular Concept Electric Car

4.3 Multi-purpose Electric Light Vehicle of Electric Brands

4.4 Mercedes-Benz’s Modular Concept Car

4.5 Rinspeed
4.5.1 Snap Concept Car with Replaceable Body
4.5.2 microSNAP
4.5.3 MetroSNAP

4.6 Rivian’s Modular pickup truck compartment patent

4.7 Schaeffler’s Schaeffler Mover Matches Different Bodies

4.8 Scania’s NXT Concept Car

4.9 PIX
4.9.1 Mobile Space
4.9.2 Chassis for Autonomous Driving

4.10 Canoo
4.10.1 Skateboard Chassis
4.10.2 Main Models

4.11 Neolix
4.11.1 Partners
4.11.2 Application Scenarios
4.11.3 Autonomous Vehicle
4.11.4 Modular Intelligent Cargo Compartment of Autonomous Vehicle

4.12 Modular Vehicle System of AEV Robotics