Mercedes-Benz Concept CLA Class: the electric future of desire

The Mercedes-Benz Concept CLA Class unveiled at IAA Mobility 2023 in Munich, Germany, offers a close-to-production insight into the upcoming family of vehicles that stands at the gateway to the brand. At the cusp of a new electric and digital age, this represents the company’s vision to elevate this important vehicle class, based on the long-term portfolio strategy. Designed on the forthcoming Mercedes-Benz Modular Architecture (MMA) platform, the exterior aesthetics of the Concept CLA Class stand for iconic design and dynamic performance. Meanwhile, its interior focuses on the customer experience with exceptional comfort and convenience for an electric and digital future.

“The Concept CLA Class is the forerunner for an entirely new all-electric segment of entry-level vehicles at Mercedes-Benz. The range will comprise a total of four new models – a four-door coupé, a shooting brake and two stunning SUVs – each with significantly elevated product substance. This new model family is inspired by a generation of car buyers who want that unmistakable Mercedes-Benz feel, with more features, even greater comfort and safety and the most advanced technology. They also seek a sustainable choice that is a cut above the rest. This hypermiler is the one-litre car of the electric age, with a range of more than 750 kilometres (466 miles) in the WLTP1 and energy consumption of just 12 kWh/100 km. Based on the MMA platform, it provides an insight into the first complete family of Mercedes-Benz electric cars developed from scratch to put our Ambition 2039 on the road, whereby we aim to achieve net carbon neutrality along the entire value chain in our fleet of new vehicles in 2039.”

Ola Källenius, Chief Executive Officer, Mercedes-Benz Group AG

Technology leadership is apparent in the MMA platform underpinnings such as the next-generation electric-drive system aiming for a range of more than 750 kilometres (466 miles) (WLTP) [1]. The Mercedes-Benz Modular Architecture (MMA) is an electric-first platform engineered for a family of four vehicles covering a range of body styles. It is set to play a major role in accelerating the ramp-up of the Mercedes-Benz electric fleet. As a fundamental part of the wider electric strategy, it will help the company attain its ambitious targets. All vehicles on the MMA platform are being developed in accordance with the Mercedes-Benz “real life safety” philosophy. Mercedes-Benz has set safety standards for decades, pursuing a vision of accident-free driving.

Meanwhile, the new operating system “MB.OS” is the basis for an unparalleled user interface and user experience (UI/UX) via the MBUX Superscreen derived from the innovative display in the VISION EQXX incorporating advanced real-time graphics. The Concept CLA Class showcases the use of sustainable materials throughout its structure and interior. This ranges from almost CO2-free steel and CO2-reduced aluminium to sustainably produced and processed leather upholstery as well as trim made from paper. Overall, the show car represents the approachable interpretation of desire for a youthful and dynamic global market segment.

“The technology that provides the foundation for the Concept CLA Class represents an entirely new approach for Mercedes-Benz and incorporates many learnings from our groundbreaking VISION EQXX technology programme. For instance, our engineers have maximised efficiency by driving down losses in its 800 V electric-drive system. It also features innovative battery cell chemistry as well as a high level of integration enabling excellent energy density. I am certain that our MMA platform will enable us to offer our customers in this market segment a class-defining combination of performance, sustainability, safety and comfort paired with an outstanding digital experience.”

Markus Schäfer, Member of the Board of Management of Mercedes-Benz Group AG, Chief Technology Officer


[1] In real driving conditions, deviations from the certified standard values may occur. The real values are influenced by a variety of individual factors, e.g. individual driving style, environmental and route conditions

Comments are closed.

Web Release