A global bestseller from Volkswagen is celebrating its tenth anniversary: the modular transverse matrix (MQB). Since 2012, it has been the common basis for a variety of models. More than 32 million vehicles were produced on this platform throughout the Group. The Volkswagen brand has more than 20 million vehicles manufactured so far – from the small Polo to SUVs such as the Atlas (USA) and the Teramont (China). At the same time, the modular matrix philosophy has also been transferred to the electric world, with today’s ID. models based on the MEB (modular electric drive matrix). The next generation will use the SSP – the Scalable Systems Platform – as the Group’s electric technology matrix. It enables the vehicle to be completely connected to its ecosystem and thereby lays the foundations for fully automated driving (Level 4).
“The introduction of the MQB ten years ago was a crucial step,” says Ralf Brandstätter, Chief Executive Officer of Volkswagen Passenger Cars. “The MQB not only serves as the technology matrix for our combustion-engine models with a transverse engine, it is also the backbone of our economic efficiency and resilience, as MQB-based vehicles make a significant contribution to financing future topics of the brand’s ACCELERATE strategy, which include electric mobility, digitalisation, new business models and autonomous driving.
Launched in autumn 2012. The MQB platform developed by Volkswagen made its debut with the Golf VII. The first production vehicle came off the assembly line in Wolfsburg in October 2012. This immediately demonstrated the potential offered by the new modular assembly matrix: sophisticated technology, low weight and dynamic design – thanks to the small body overhangs. The first-ever MQB model in the Volkswagen Group was the third-generation Audi A3 – launched on the market a few months before the Golf. The modular assembly matrix permitted standardisation of production processes in all areas, resulting in more flexibility and reduced development costs – not just for the Volkswagen brand, but for the entire Volkswagen Group. The motto: new diversity through intelligent creation of synergies.
The MQB also means significant economies of scale, thanks to the carry-over part concept and the large quantities. They allow Volkswagen to introduce innovative technologies to the market in the volume segment and thus further democratise progress. Sophisticated features, such as driver assist systems, can be offered in all vehicle classes and can therefore be made accessible to a wide range of customers. Ralf Brandstätter emphasises: “We will continue to enhance our MQB models over the coming years. The next generation will take another step forward in terms of innovation. The new Passat, Tiguan and Tayron will set new standards in terms of quality, value, functions and digital experience – the perfect MQB. These Volkswagen bestsellers form the basis for future investments.”
Facilitating independent brand identity. The MQB offers a high degree of flexibility. Parameters such as track, wheelbase, wheel size or seat and steering wheel position can be adapted individually – depending on positioning and vehicle class of the respective model –to fulfil the requirements and wishes of the market and customer. Many components of the body are made of high-strength and ultra-high-strength steels and sheets in variable thicknesses. This reduced the weight of the newly introduced MQB models by around 50 kilograms on average compared with their predecessors. The weight reduction was actually almost 100 kilograms for the Golf VII – depending on the specification.
New engines with standardised installation position. The installation position of the engines is also standardised in the modular transverse matrix. They are tilted to the rear by 12 degrees, with the intake side at the front and the exhaust side at the back. For this reason, in the TSI engines of the EA 211 series – which debuted alongside the MQB, the development engineers rotated the cylinder heads by 180 degrees compared with the previous EA 111 engine.
Petrol, diesel, gas and electricity. When it comes to the powertrains in particular, the MQB shows itself to be extremely versatile and future-oriented. The petrol (TSI), diesel (TDI) and natural gas (CNG) engine versions were planned into the design concept from the start, as were mild hybrid and plug-in hybrid drives. The Golf VII was even available as an all-electric e-Golf from 2013 to 2020. On the German market, the MQB power range of the Group models currently starts at 48 kW (66 PS),, with the most powerful motor delivering 294 kW (400 PS).
Number of variants reduced. The new petrol engines and the equally new diesel engines (EA 288) were provided with standard interfaces for power transmission. This allowed them to be combined with the same gearboxes and same drive shafts on the front axle. As a result, the number of engine and gearbox variants was almost halved. And in the case of the heater and air conditioning units – a large component in the vehicle front end – the number of different versions even fell from 102 to 28.
Efficient production. Volkswagen and the Group brands are able to develop their new models and variants quickly on the flexible basis of the MQB. Over the years, the matrix has been continuously extended and refined. It is divided into several model ranges and evolutionary stages – the current Golf being the latest one. All MQB-based vehicles can be standardised and produced efficiently in the factories of the global production network. There are also significant advantages for model changeovers. When the Volkswagen plant in Wolfsburg started production of the new Golf in 2019, it was possible to still use around 80 percent of the existing installations in the body shop. The MQB also makes it possible to build vehicles with different wheelbases and track widths, or models of different brands, on the same production line.
The MQB as a model for the MEB. Based on experiences with the MQB, Volkswagen has developed the modular electric drive matrix (MEB) for the all-electric models of the ID. product line. Like the MQB, the MEB provides a clearly defined and yet versatile matrix for the high-volume Group brands. The fundamental technology layout of the MEB is based on the principle of accommodating the electric drive components in minimum space. The high-voltage battery is located between the axles, while the passenger compartment offers a generous amount of room. The MEB also covers a large model bandwidth for the global markets – from the city car through to the spacious ID. Buzz.
“With the MEB, we have made electric mobility suitable for the masses worldwide, and will offer a model in every vehicle segment by 2025. With the SSP, the next generation of an all-electric, fully digital and highly scalable mechatronics platform will be introduced. This platform will continue the success story from 2026 onwards, and will set new standards – in terms of range, charging speed and connected driving experience,” Brandstätter adds.
New dimension of the modular assembly matrix – the SSP. The MEB also provides the basis for the next revolutionary modular toolkit for electric vehicles, which will also include sporty and luxurious cars. The future mechatronics platform SSP (Scalable Systems Platform) will feature state-of-the-art electronics and software. In 2026, Volkswagen is planning to present its first model on this ultra-scalable platform, with the Trinity project. Trinity is designed to be a guiding star for the brand in all future technological categories – from range, charging times and digitalisation, through to automated driving.
The Volkswagen Newsroom is an open platform and offers comprehensive search options to all users.
If you would like to be kept informed about our press releases and stories you can also subscribe to our media information and e-mail newsletters.
The specified fuel consumption and emission data are determined in accordance with the measurement procedures prescribed by law. 1 January 2022, the WLTP test cycle completely replaced the NEDC test cycle and therefore no NEDC values are available for new type approved vehicles after that date.
This information does not refer to a single vehicle and is not part of the offer but is only intended for comparison between different types of vehicles. Additional equipment and accessories (additional components, tyre formats, etc.) can alter relevant vehicle parameters such as weight, rolling resistance and aerodynamics, affecting the vehicle’s fuel consumption, power consumption, CO2 emissions and driving performance values in addition to weather and traffic conditions and individual driving behavior.
Due to more realistic testing conditions, fuel consumption and CO2 emissions measured according to WLTP will in many cases be higher than the values measured according to NEDC. As a result, the taxation of vehicles may change accordingly as of 1 September 2018. For further information on the differences between WLTP and NEDC, please visit www.volkswagen.de/wltp.
Further information on official fuel consumption data and official specific CO2 emissions for new passenger cars can be found in the “Guide to fuel economy, CO2 emissions and power consumption for new passenger car models”, which is available free of charge from all sales dealerships and from DAT Deutsche Automobil Treuhand GmbH, Hellmuth-Hirth-Str. 1, D-73760 Ostfildern, Germany and at www.dat.de/co2.