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EMP2 platform

The EMP2 (Efficient Modular Platform 2) is a modular automobile architecture developed by the —now part of —for mid- and upper-mid-size passenger vehicles, including sedans, hatchbacks, SUVs, MPVs, and crossovers in the C- and D-segments. Introduced in 2013 as part of PSA's Push to Pass strategy, EMP2 emphasizes modularity to support diverse powertrains, such as internal combustion engines (petrol and diesel), plug-in hybrids, and fully electric variants, while optimizing production efficiency and reducing development costs across brands like Peugeot, Citroën, DS Automobiles, Opel, and Vauxhall. Key features include flexible wheelbases (up to five lengths), track widths (four options), and rear suspension configurations (two types), enabling a 70 kg average weight reduction through the use of high-strength steel, aluminum, and composites, which in turn lowers CO2 emissions by approximately 13 g/km compared to prior platforms. Over its evolution, EMP2 has seen iterative updates, including EMP2 V2 for enhanced in 2017, V3 for improved rigidity and efficiency introduced in 2021, and the multi-energy e-EMP2 variant introduced in 2019 to accommodate battery-electric and systems, with eight models launched by 2021 and continued use in 2024 vehicles like the Peugeot e-408. EMP2 continues in use but is being succeeded by the STLA Medium platform for enhanced as of 2025. Production occurs at global facilities such as and in , in , and in , underpinning a significant portion of ' volume by facilitating shared components and local adaptation.

Overview and Development

History and Origins

The EMP2 (Efficient Modular Platform 2) was developed by PSA Peugeot Citroën as a successor to the company's earlier PF2 and PF3 platforms, merging their functionalities into a unified modular system designed primarily for mid-size (C-segment) and large (D-segment) vehicles. In a strategic push to enhance competitiveness amid industry shifts toward modular architectures, PSA allocated €630 million for the research and development of EMP2. The platform's details were publicly revealed on January 24, 2013, marking a key step in PSA's platform strategy to reduce costs and improve flexibility across model lines. Production of EMP2-based vehicles commenced in 2013, with the Vigo plant in initiating assembly for the second-generation and the Sochaux plant in starting output for the second-generation Peugeot 308. These launches represented the platform's entry into the market, enabling to deploy it across a range of passenger cars, SUVs, and multi-purpose vehicles. The formation of through the merger of and in January 2021 integrated EMP2 into a broader corporate portfolio, ensuring its ongoing evolution and application beyond PSA's traditional brands. Under , the platform saw further advancements, including the introduction of its third generation in the redesigned 308. Notable milestones in EMP2's history include its initial market debut in 2013, a significant update in 2016 that expanded support for new powertrains and models like the Peugeot 3008, and its seamless incorporation into Stellantis operations in 2021.

Design Goals and Innovations

The EMP2 platform was developed by PSA Peugeot Citroën with key goals centered on enhancing vehicle efficiency, reducing mass, and supporting diverse powertrain configurations to improve fuel economy and competitiveness in the C and D segments. A primary objective was to achieve an average weight reduction of 70 kg compared to the predecessor PF2 platform, primarily through optimized technical aspects like materials and assembly processes. This contributed to an overall 22% improvement in fuel consumption and a 13 g/km decrease in CO2 emissions per vehicle. Additionally, the platform incorporated an advanced "design to cost" approach to streamline production and lower expenses by optimizing functions and leveraging mass purchasing strategies. To enable multi-energy compatibility, EMP2 was engineered to accommodate gasoline, diesel, and hybrid powertrains from the outset, allowing flexibility across internal combustion and electrified options without compromising performance. Addressing limitations of prior platforms was integral to these goals; the PF2, used for models like the and , suffered from lower structural rigidity, absorbing only 50% of crash forces in impact tests, which constrained design flexibility and safety enhancements. In contrast, EMP2 improved this to 80% absorption, providing greater structural integrity while enabling lighter construction. The 2017 divestment of from to further highlighted the need for a unified architecture, as the GM Delta II platform—previously used for compact cars like the —proved incompatible with PSA's engineering and emission strategies post-acquisition, prompting a full transition to EMP2 for alignment and cost efficiencies. The platform entered production in 2013 with the as its inaugural application. Key innovations in EMP2 focused on material advancements and layout versatility to realize these objectives. Up to 76% of the platform utilizes very high and ultra-high strength steels for enhanced rigidity and weight savings, complemented by aluminum in components such as and doors, magnesium alloys for select structural elements, and composite materials for the underbody to further reduce and improve resistance. These choices not only supported the 70-80 weight savings but also promoted better recyclability and manufacturing , reducing above-head assembly movements by 80%. For operational flexibility, EMP2 employs a transverse front-engine configuration tailored to C/ vehicles, with as standard and optional all-wheel drive for models requiring enhanced traction, such as SUVs.

Technical Specifications

Modular Architecture

The EMP2 platform employs a modular architecture centered on front suspension, providing a balance of handling precision and cost efficiency for C- and vehicles. At the rear, it offers flexibility with two suspension configurations: a multi-link independent setup for enhanced ride comfort and dynamics in premium models, or a twisted-beam for simpler, cost-effective applications in entry-level variants. This core structure supports broad adaptability without requiring version-specific redesigns, enabling efficient scaling across vehicle types while maintaining consistent manufacturing processes. Key to its modularity are four selectable track widths and five wheelbase lengths, which allow precise tailoring to different vehicle dimensions and proportions. Additionally, two cockpit architectures accommodate low- or high-riding heights, facilitating integration with diverse body styles such as hatchbacks, sedans, SUVs, MPVs, station wagons, and vans, including short- and long-wheelbase variants. These options enable the platform to cover a wide range of passenger car applications, from compact urban models to larger family-oriented designs, all producible on shared assembly lines. The architecture incorporates high-strength steel, aluminum, and composite materials to achieve an average weight reduction of 70 kg compared to prior platforms, contributing to improved and performance without compromising structural integrity. This material strategy also bolsters crash safety through optimized energy absorption in frontal and side impacts, though specific implementations vary by model.

Powertrain and Suspension Options

The EMP2 platform accommodates a diverse array of powertrains, spanning 1.2-liter to 2.0-liter gasoline and diesel engines with outputs ranging from 95 horsepower in entry-level configurations to up to 300 horsepower in plug-in hybrid variants. Gasoline options feature the efficient 1.2-liter PureTech three-cylinder turbo engine, typically delivering 110 horsepower, while diesel engines incorporate BlueHDi technology with displacements up to 2.0 liters and power from 95 to 180 horsepower. All internal combustion engines comply with Euro 6 emissions standards through measures like Selective Catalytic Reduction for diesels. Electrified powertrains further expand the platform's capabilities, including 48-volt systems paired with 1.2-liter or 1.6-liter engines for improved efficiency and outputs around 136 to 180 horsepower. hybrids combine a 1.6-liter PureTech engine with an , achieving up to 300 horsepower in all-wheel-drive configurations. Drivetrain configurations prioritize for the majority of applications, optimizing weight and efficiency on the modular . Enhanced traction is provided by Grip Control, an electronic system that simulates off-road modes by managing wheel slip and torque distribution on models. Select later implementations, particularly hybrids, incorporate full all-wheel drive via an on the rear for improved handling and grip. Suspension setups on the EMP2 platform vary by model positioning, with a torsion beam rear axle employed in cost-effective variants for simplicity and space efficiency, paired with MacPherson struts at the front. models utilize an multi-link rear to enhance ride comfort and . Adaptive dampers are optionally available, allowing real-time adjustments for varying road conditions and driver preferences. Efficiency enhancements are integral to the platform, with Stop&Start technology standard across powertrains to reduce idle fuel consumption by automatically shutting off the during stops. Aerodynamic optimizations, including refined body shaping and low tires, contribute to overall fuel economy improvements of up to 22% compared to prior platforms.

Platform Evolutions

First Generation (EMP2 V1)

The first generation of the EMP2 platform, known as EMP2 V1, was launched in 2013 by Peugeot Citroën as a flexible modular designed primarily for C- and vehicles, replacing the earlier PF2 and PF3 platforms. It delivered a weight reduction of 70 kg compared to the PF2 through optimized use of lightweight materials, including high-strength steels, aluminum components, and composites in key structural areas such as the front crossmember and floorpan. This lighter design enhanced fuel efficiency and reduced CO₂ emissions by up to 18% in initial applications. EMP2 V1 emphasized basic modularity to accommodate diverse body styles within the , offering variable wheelbases—such as around 2,700 mm—to support compact hatchbacks and MPVs while maintaining interior spaciousness. Powertrain options were diesel-centric, featuring efficient four-cylinder engines like the 1.6L BlueHDi with (SCR) technology for Euro 6 emissions compliance, prioritizing low-end torque and economy for European markets. The platform's incorporated five wheelbase variants and four widths overall, enabling shared components across models to streamline development. At launch, EMP2 V1 was restricted to front-wheel-drive configurations and lacked native support for or electric powertrains, focusing instead on conventional internal combustion engines to meet immediate efficiency targets. Its debut occurred implicitly through the and the second-generation , both introduced in 2013 as the platform's inaugural production vehicles. These models showcased EMP2 V1's capabilities in balancing rigidity, crash safety, and reduced mass without advanced .

Second Generation (EMP2 V2)

The second generation of the EMP2 platform, designated EMP2 , debuted in 2016 as an evolution of the original architecture, focusing on expanded capabilities and greater modularity to accommodate diverse vehicle types. This update was first showcased in models like the second-generation SUV, which leveraged the platform's enhanced dynamics for improved comfort and handling. Sub-variants included V2.1 for compact passenger cars and V2.3 for applications requiring longer s, such as premium sedans and larger SUVs, enabling a record 2.90-meter wheelbase in vehicles like the DS 9. Key upgrades in EMP2 V2 centered on hybrid integration, with support for both mild and systems announced by in May 2016 to meet evolving emission standards. These configurations typically combined a 1.6-liter PureTech with an , delivering up to 60 km of all-electric range in variants while maintaining compatibility with the platform's multi-energy design. Structural enhancements improved overall rigidity and (NVH) characteristics, contributing to a more refined driving experience across body styles. Modularity expansions in EMP2 V2 allowed for high-roof configurations tailored to multi-purpose vehicles (MPVs), exemplified by the SpaceTourer introduced that year, which utilized a variant of the platform for spacious, family-oriented interiors. The V2.3 sub-variant, in particular, featured a reinforced to support heavier loads and larger dimensions in vans and SUVs, such as the Peugeot Expert and second-generation , broadening the platform's application beyond sedans to commercial and utility segments. These developments maintained the EMP2's core efficiency goals, including weight reductions of up to 100 kg compared to predecessors, without altering base options like the multi-link rear setup.

Third Generation (EMP2 V3)

The third generation of the EMP2 platform, known as EMP2 V3, debuted in 2021 with the second-generation compact hatchback. This iteration represents a significant of the modular architecture, incorporating approximately 70% new or exclusive components compared to prior versions to enhance versatility and efficiency. Developed under the newly formed group following the 2021 merger of and , EMP2 V3 was engineered to support a broader array of powertrains while maintaining the platform's core principles of modularity and weight optimization. Key enhancements in EMP2 V3 focus on compatibility, including support for 48V mild-hybrid systems and advanced (PHEV) configurations. The platform accommodates PHEV setups delivering up to 225 horsepower, with an electric-only range of up to 65 km under WLTP testing, enabling seamless integration of a 12.4 kWh without reducing interior or space. Aerodynamic improvements contribute to better , achieving a (Cd) of 0.28 in vehicles like the built on this version, through refined body proportions and airflow management. These updates prioritize reduced emissions and fuel consumption across global markets, aligning with stricter regulatory standards in and beyond. Structurally, EMP2 V3 features optimized battery integration space, allowing for underfloor placement that preserves passenger compartment volume and improves weight distribution for enhanced handling. Post-merger Stellantis optimizations emphasize scalability for international production and shared components across brands such as , , , and , facilitating cost efficiencies and broader market adaptation without compromising vehicle-specific tuning. This generation underscores a shift toward multi-energy flexibility, positioning EMP2 as a bridge to future electrified architectures within the Stellantis lineup.

Electric and Hybrid Adaptations

eVMP Variant

The eVMP (Electric Vehicle Modular Platform) was announced by the PSA Group in July 2020 as an electric-focused adaptation of the EMP2 platform, intended for battery-electric vehicles in the C and D segments. It was designed to build on EMP2's modular architecture with EV-specific optimizations, such as integrated battery pack mounting for efficient space utilization and a lower center of gravity. Planned features included support for battery capacities from 60 to 100 kWh, enabling WLTP ranges of 400 to 650 km, front-wheel drive as standard with optional all-wheel drive, and up to 250 kW system power. The platform aimed for production starting in 2023, with compatibility to existing lines via carry-over from EMP2. However, following the formation of , the eVMP did not enter production and appears to have evolved into the STLA Medium platform. Earlier electric vehicles like the e-308 and Electric, launched in 2022–2023, instead utilized the multi-energy e-EMP2 adaptation of the base EMP2 platform.

Integration with STLA Medium

The e-EMP2 variant, introduced in 2019, serves as the primary adaptation of EMP2 for hybrids and battery-electric systems, supporting models across , Citroën, DS, , and with shared components for efficiency. Stellantis announced the STLA Medium platform in July 2023 as the dedicated BEV successor to EMP2, targeting C- and passenger cars, crossovers, and SUVs. It features a BEV-by-design architecture with front- and all-wheel drive options, wheelbases from 2,700 to 2,900 mm, and vehicle lengths between 4.3 and 4.9 meters, enabling up to 2 million units annually across global sites. Leveraging elements from EMP2 V3, such as modular structures, STLA Medium incorporates a 400-volt system for below 14 kWh/100 km, using advanced packaging and materials. It supports batteries up to 98 kWh, with WLTP ranges exceeding 700 km (up to 701 km as of 2025) on the pack or over 500 km on the pack, and DC fast charging from 20% to 80% in 27 minutes. The software-defined setup includes STLA Brain for over-the-air updates, STLA SmartCockpit, and STLA AutoDrive for advanced assistance. Production began in Europe in 2023, debuting with the third-generation (including E-3008 BEV) available from 2024, followed by the Peugeot E-5008 and in 2025. This supports ' electrification goals with scalable BEV adoption.

Production and Applications

Manufacturing Sites and Timeline

The EMP2 platform's production began in 2013 at the plant in , where assembly of the first vehicles, including the , commenced that year. Concurrently, the plant in France initiated EMP2-based production with models like the , marking the platform's rollout across PSA Group's European facilities. Additional manufacturing sites expanded the platform's footprint in subsequent years. The Mulhouse plant in France underwent a comprehensive upgrade starting in 2014 to become the first facility dedicated to EMP2 assembly, enabling production of multiple body styles. In Germany, the Eisenach plant integrated the EMP2 platform through modernization efforts completed by 2019, supporting output of SUVs like the Opel Grandland X. The Gliwice plant in Poland contributed to passenger car production until 2021, when assembly ceased amid strategic shifts toward light commercial vehicles and global supply disruptions. Following the 2021 formation of through the merger of and , production expanded to the plant in , adapting EMP2-derived architectures for models, with production starting in 2024 on the STLA Medium platform, the successor to EMP2. This extension aligned with broader goals, including the addition of EV lines in 2023 to support the eVMP variant, an EV-optimized evolution of EMP2. Across these sites, the platform's enables efficient scaling for internal combustion, , and electric powertrains. As of 2025, EMP2 continues to underpin models such as the N°4 . Production milestones advanced steadily post-launch. However, the global semiconductor chip shortage in 2021 severely disrupted operations, leading to plant idlings and reduced volumes at sites like and , with reporting a 14% revenue decline partly attributable to these constraints. Supply chain recovery progressed through 2023, with shortages largely resolved by 2024, allowing full resumption of EMP2 production schedules.

Passenger Vehicles

The EMP2 platform has underpinned a wide array of passenger vehicles across brands, primarily in the compact and mid-size segments, enabling adaptations for hatchbacks, sedans, fastbacks, and SUVs with options for internal combustion, , and powertrains. Introduced in 2013, it supports modular designs that prioritize weight reduction, improved , and compatibility, with variants available from 2016 onward. These models leverage the platform's versatility to deliver enhanced efficiency and driving dynamics in personal mobility applications. In the compact segment, the has been a application since its second generation in , spanning all subsequent iterations to the present day, where it utilizes the EMP2 for its lightweight construction and multi-energy options, including mild hybrids and hybrids. The platform's allows the 308 to maintain a curb weight reduction of up to 70 kg compared to predecessors through optimized materials and assembly processes. Similarly, the , debuting in 2021 on the EMP2 V3 variant, positions itself as a compact crossover with advanced E-Tense technology, offering up to 38 miles of electric range while emphasizing refined handling and interior luxury. Mid-size offerings on the EMP2 include the , launched in 2018 and continuing to the present, which employs a stretched version of the platform to blend and styling with efficient powertrains like the 1.6-liter turbocharged delivering 225 hp and CO2 emissions as low as 29 g/km. The , introduced in 2017, utilizes the EMP2 to create a compact luxury with advanced features such as and hybrid options, sharing underpinnings with siblings for shared development efficiencies. Complementing this is the , available since 2017, which adapts the platform for family-oriented use with variants providing up to 34 miles of electric-only driving, focusing on practicality and all-wheel-drive capability in select configurations. The , a targeted at markets like and since 2022, builds on the EMP2 to offer a crossover-like profile with 2025 updates introducing the fully electric E-408 model, featuring a 210 hp motor and up to 281 miles of range on the multi-energy EMP2 architecture. In the SUV category, the has utilized the platform since 2017, emphasizing comfort through its Progressive Hydraulic Cushions suspension and hybrid powertrains that achieve over 50 mpg in combined cycles, while accommodating seven-seat configurations in some variants. Overall, the EMP2 has supported over 20 passenger vehicle models across , , and brands within , with key adaptations including integration from 2016 that enhances fuel economy and reduces emissions across diverse body styles. These vehicles typically reference earlier platform versions like and for initial launches, as detailed in platform evolution histories.

Commercial Vehicles

The EMP2 platform has been extensively adapted for light commercial vehicles (LCVs) and multi-purpose vehicles (MPVs), leveraging its to support diverse configurations for cargo, passenger transport, and utility applications. This adaptability allows for reinforced structures, flexible wheelbases, and integration of , electric, and powertrains, making it suitable for and family-oriented commercial use. Key adaptations include modified for higher load capacities and partnerships that extend the platform's reach across brands. In the MPV segment, the , launched in 2018, utilizes the EMP2 platform to provide a spacious five- or seven-seater layout with modular seating that folds flat for cargo versatility, emphasizing comfort and advanced driver-assistance systems. Similarly, the , introduced in 2017 as a seven-seater MPV, employs the EMP2's architecture for its configurable interior, supporting up to 780 liters of boot space with seats in place and enabling easy transitions between passenger and utility modes. These models highlight the platform's emphasis on family-friendly commercial functionality without compromising on ride quality. For LCVs, the third-generation , produced since 2018, features a modified EMP2 platform that balances passenger amenities in its Multispace variant with up to 4.4 cubic meters of volume in the van version, achieved through optimized short overhangs and a low load floor. The , also from 2018, shares this modified EMP2 setup, offering comparable capacities of around 1,000 kg and modular high-roof options for enhanced utility. The Toyota ProAce, debuting in 2016 as a rebadged counterpart to the , is built on the standard EMP2 platform, providing identical load lengths up to 4 meters and benefiting from the PSA-Toyota collaboration initiated in for shared development and production efficiencies. Larger van applications are supported by the K0 variant of EMP2, introduced in 2016 for the third-generation and , which incorporates reinforced floors and sidewalls to handle payloads exceeding 1,400 kg while maintaining car-like handling through the platform's multi-link rear suspension. This variant enables three body lengths and configurations for both panel vans and passenger shuttles, with gross vehicle weights up to 3.5 tonnes. Electric adaptations of EMP2-derived LCVs include the ë-Berlingo, available since 2020, which pairs the modified platform with a and 100 kW for a WLTP range of up to 280 km, suitable for zero-emission urban deliveries in five- or seven-seater formats. The Combo-e Life, launched concurrently as a rebadged equivalent, mirrors this setup with the same and , offering up to 4.4 cubic meters of load space in its cargo-oriented version. The PSA-Toyota partnership, formalized in 2012, has co-developed larger EMP2-based models like the ProAce series for enhanced , while smaller vans such as the ProAce City rely on the CMP platform; this collaboration ensures shared components for cost efficiency and broader electric rollout across brands.