Automotive Electronic Parking Brake Market Size, Share, Growth, and Industry Analysis, By Types (FMVSS 105, FMVSS 135, ECE 13H), By Applications Covered (Passenger Cars, Commercial Vehicles), Regional Insights and Forecast to 2033

Automotive Electronic Parking Brake Market Size

The Automotive Electronic Parking Brake Market was valued at USD 0.015 billion in 2024 and is projected to reach USD 0.017 billion in 2025, rising to USD 0.061 billion by 2033, registering a compound annual growth rate (CAGR) of 17.6% during the forecast period from 2025 to 2033.

Key Findings

• Market Size Valued at 0.017B in 2025, expected to reach 0.061B by 2033, growing steadily throughout the forecast period.
• Growth Drivers EPB usage in EVs increased by 38%, regulatory upgrades by 34%, and EPB-equipped safety packages grew by 41% in new vehicles.
• Trends Brake-by-wire usage expanded by 31%, sensor integration rose by 29%, and modular EPB units adopted in 34% of vehicle platforms.
• Key Players Continental, Bosch, Aisin Seiki, ZF TRW, ADVICS
• Regional Insights Europe leads with 36%, Asia-Pacific follows at 28%, North America holds 21%, while Middle East & Africa accounts for 10%.
• Challenges 29% OEMs report high cost barriers, 33% retrofitting issues, 18% aftermarket diagnostics limitations, and 21% software calibration errors.
• Industry Impact EPB systems used in 62% of premium cars, 44% in EVs, and supported by 68% of new EU electric vehicle models.
• Recent Developments Bosch’s predictive EPB adopted in 26%, Akebono's long-life pads in 31%, Continental’s redundancy upgrades in 24% of ADAS vehicles.

The automotive electronic parking brake market is rapidly gaining traction as automakers prioritize safety, automation, and convenience. The integration of electronic parking brakes (EPB) in passenger and commercial vehicles is transforming traditional braking systems into smart, software-controlled modules. With over 62% of premium and mid-range vehicles adopting EPB systems globally, manufacturers are increasingly focusing on replacing manual and cable-based braking systems. Electronic parking brakes offer benefits like automatic hold, improved driver safety, reduced weight, and enhanced vehicle architecture flexibility. Advancements in drive-by-wire technology, rising adoption of electric vehicles, and regulatory push for safety compliance are propelling the growth of the automotive electronic parking brake market.

Automotive Electronic Parking Brake Market Trends

The automotive electronic parking brake market is being shaped by key trends that reflect growing automation and consumer demand for enhanced safety and comfort. Over 62% of new vehicles in the premium segment now feature electronic parking brake systems, while their integration in mid-range vehicles has increased by 43% in the last two years. EPB adoption in electric vehicles has surged by 38% due to compact design and regenerative braking compatibility. Among regional markets, Europe leads with a 36% market share, followed by Asia-Pacific at 28% and North America at 21%. Brake-by-wire system implementation, which includes EPB as a core component, has grown by 31% year-on-year. Additionally, 54% of original equipment manufacturers (OEMs) have started transitioning from mechanical handbrakes to electronic systems. Safety regulations such as automatic hill-hold assist have driven a 29% rise in EPB installations in utility vehicles and SUVs. Furthermore, consumer preference for center-console free interiors has led to a 25% rise in demand for push-button electronic brakes. These trends indicate a strong shift towards digitized braking solutions in the automotive industry.

Automotive Electronic Parking Brake Market Dynamics

The automotive electronic parking brake market is influenced by advancements in vehicle safety systems, lightweight component demand, and EV adoption. The shift from manual to automated parking brake systems enhances both safety and design flexibility. Increasing R&D in mechatronics and electronic control units (ECUs) also accelerates EPB system innovation.

OPPORTUNITY

Expansion of EV production and next-gen braking systems

Electric vehicles offer a strong opportunity, with over 44% of new EV platforms integrating EPB systems as standard equipment. Brake-by-wire systems have been adopted by 31% of next-gen vehicle architectures, supporting EPB's seamless integration. The Asia-Pacific region has seen a 39% increase in EPB adoption due to the surge in smart city vehicle development. OEM partnerships with Tier 1 suppliers for modular EPB platforms have risen by 27%, targeting flexible EV chassis. This growing ecosystem opens doors for scalable, intelligent braking solutions.

DRIVERS

Growing demand for vehicle automation and safety compliance

Over 62% of premium vehicles are now equipped with EPB systems, offering features like automatic hold and integrated hill-start assist. Regulatory mandates in Europe and North America have pushed 34% of automakers to upgrade braking systems. EPB deployment in electric vehicles rose by 38% due to its compatibility with battery architectures and regenerative braking. Driver assistance packages including EPB have increased by 41% across passenger car models in the last two years.

Restraints

"High cost and complexity in retrofitting conventional models"

Despite growing adoption, 29% of OEMs report high integration costs as a barrier, especially in budget vehicle segments. Retrofitting EPB systems into existing platforms leads to a 33% increase in component and software calibration expenses. Around 22% of global automakers cite ECU synchronization and sensor accuracy challenges. Additionally, 18% of aftermarket repair service providers face diagnostic limitations for EPB systems, slowing down adoption in older vehicle models.

Challenge

"Reliability and software failure risks in electronic systems"

Software complexity in EPB systems poses challenges, with 21% of manufacturers reporting calibration errors during field testing. Control unit malfunctions account for 19% of all warranty claims related to EPB systems. Compatibility issues with older vehicle communication protocols affect 23% of integration projects. Regional climate variations have resulted in sensor responsiveness failures in 17% of vehicles operating in extreme temperatures. As EPB systems become more interconnected with ADAS modules, failure risks become more critical to system-wide safety.

Segmentation Analysis

The automotive electronic parking brake market is segmented based on type and application, each influencing market demand, product development, and integration scope. By type, the market includes FMVSS 105, FMVSS 135, and ECE 13H standards, which define the performance and design regulations for automotive braking systems. Each standard plays a key role in aligning EPB systems with regional and safety-specific requirements. On the other hand, segmentation by application includes passenger cars and commercial vehicles. With over 62% of new passenger vehicles now equipped with EPB systems, the passenger car segment remains the highest adopter. Commercial vehicles, driven by growing logistics and fleet automation needs, are catching up fast with a 29% adoption rate. These segments highlight how safety regulations and automation trends are driving the uptake of electronic parking brakes across the global vehicle landscape.

By Type

• FMVSS 105: FMVSS 105 is primarily implemented in older vehicle platforms and covers hydraulic service brake systems. Around 21% of low-cost vehicles still adhere to this standard. EPB systems compatible with FMVSS 105 are limited but remain in demand for specific U.S. fleet retrofits and entry-level cars.
• FMVSS 135: FMVSS 135 is widely applied in newer passenger vehicles in the U.S., accounting for 39% of EPB-compliant installations. This standard supports lighter vehicle categories, making it ideal for compact cars and mid-size sedans. Over 45% of U.S. OEMs now develop EPB systems aligned with FMVSS 135.
• ECE 13H: ECE 13H is the dominant standard in Europe and parts of Asia, governing braking requirements in passenger vehicles. Nearly 52% of EPB systems globally comply with ECE 13H. This standard supports seamless integration of advanced electronic controls and has been adopted in over 68% of new electric vehicles in the EU.

By Application

• Passenger Cars: Passenger cars represent the largest segment, contributing to 62% of the global EPB system demand. Integration of EPB is prominent in sedans, SUVs, and electric vehicles due to demand for automated driving features. Over 48% of new car models launched in 2024 included EPB systems as a standard safety feature.
• Commercial Vehicles: Commercial vehicles account for 29% of EPB adoption, led by demand for automated logistics and smart fleet management. EPB systems are now installed in 33% of heavy-duty trucks and 27% of city buses across North America and Europe. Enhanced parking stability and remote activation features are key drivers in this segment.

Regional Outlook

The automotive electronic parking brake market exhibits region-specific dynamics based on infrastructure, safety regulations, and adoption of vehicle automation. Europe remains the largest region, accounting for 36% of the global EPB system deployment, followed by Asia-Pacific with 28% and North America with 21%. Each region emphasizes electronic parking brake implementation to align with evolving safety mandates and consumer expectations. In Europe, ECE 13H compliance and premium vehicle demand drive market growth. Asia-Pacific shows robust expansion due to electric vehicle production and smart city initiatives. North America benefits from technological innovation and regulatory shifts in brake system safety. Meanwhile, Middle East & Africa is emerging with increased automotive investment and urban mobility expansion, contributing 10% to the market. EPB adoption is growing as manufacturers focus on building smarter, safer, and more connected vehicle platforms worldwide.

North America

North America holds 21% of the global automotive electronic parking brake market, driven by rising demand for driver-assist features and advanced braking systems. Over 54% of newly manufactured SUVs and crossovers in the region now feature electronic parking brakes. The adoption rate among electric vehicles has risen to 38%, reflecting consumer interest in next-gen driving technology. Regulatory standards like FMVSS 135 have prompted 45% of automakers to upgrade to EPB-compatible designs. Additionally, 33% of commercial fleet operators are shifting to EPB-enabled models to improve safety and reduce mechanical maintenance costs.

Europe

Europe leads the global EPB market with a 36% share, due to strong compliance with ECE 13H and high penetration of luxury and mid-segment cars. Over 68% of new vehicle models launched in the EU in 2024 included EPB systems. EPB adoption in electric vehicles across Europe stands at 49%, fueled by sustainability goals and emission regulations. Premium brands account for 42% of the EPB-equipped vehicle market in the region. Public transportation vehicles equipped with EPB have increased by 31%, improving urban safety and parking automation.

Asia-Pacific

Asia-Pacific commands 28% of the market, led by rapid expansion of electric vehicle manufacturing and advanced automotive components. In China, 46% of electric SUVs produced in 2024 were equipped with EPB systems. Japan and South Korea contribute significantly with EPB integration in 53% of smart city-compatible vehicles. OEM partnerships with local suppliers have grown by 29%, ensuring affordable EPB technology for mid-range cars. Government programs encouraging intelligent transport systems have led to a 37% growth in EPB installations in public and private fleets.

Middle East & Africa

The Middle East & Africa region accounts for 10% of global EPB adoption, with urbanization and automotive sector development fueling growth. In the UAE and Saudi Arabia, 41% of new vehicles sold in 2024 featured electronic parking brakes. Public transit modernization has resulted in a 35% increase in EPB-equipped buses. Fleet owners report a 28% reduction in maintenance costs due to fewer mechanical failures. Electric vehicle adoption is rising in urban centers, with 24% of EVs featuring integrated EPB systems. Regulatory reforms and OEM investments are strengthening the region’s footprint in the EPB landscape.

LIST OF KEY Automotive Electronic Parking Brake Market COMPANIES PROFILED

Investment Analysis and Opportunities

The automotive electronic parking brake market is witnessing strong investment momentum, supported by global electrification trends and demand for automated vehicle functions. Over 62% of new premium segment cars are equipped with EPB systems, pushing suppliers to invest in modular and compact EPB architectures. Bosch and Continental have increased their R&D budgets by 26% and 21% respectively to enhance EPB software integration and control unit efficiency. Tier 1 suppliers are allocating more than 34% of their budget to develop electronic braking systems aligned with ADAS and autonomous driving modules. EV manufacturers are actively investing in EPB-enabled chassis platforms, with 44% of new electric models in 2024 integrating EPB. Investment in brake-by-wire systems compatible with EPB rose by 31%, especially in Europe and Asia-Pacific. Government-funded smart mobility programs are also fueling R&D partnerships, particularly in South Korea and Germany. With rising vehicle safety norms, OEMs and parts manufacturers are identifying EPB systems as a key investment priority for the next wave of automotive innovation.

NEW PRODUCTS Development

Product development in the automotive electronic parking brake market is accelerating with a focus on integration, size reduction, and smart automation. Over 35% of manufacturers have introduced next-gen EPB modules that are 20% smaller and 18% lighter than previous versions. Bosch released its new plug-and-play EPB system targeting mid-size EVs, now adopted by 28% of European automakers. Continental has developed a fail-operational EPB unit compatible with Level 3 autonomous vehicles, now undergoing pilot production in 19% of German OEM platforms. Akebono introduced a low-noise EPB variant that reduced braking sound by 27%, aimed at luxury vehicle segments. In 2025, over 33% of new product launches in this segment focused on integrating EPB with central vehicle domain controllers. HYUNDAI MOBIS added smart self-diagnosing EPB modules to its sedan lineup, improving diagnostics by 31%. The use of advanced sensors for temperature, torque, and real-time wear prediction has grown by 29% in newly launched systems. These innovations aim to enhance safety, comfort, and system compatibility across vehicle segments.

Recent Developments

• Bosch: In 2025, Bosch unveiled a cloud-connected EPB module integrated with predictive maintenance capabilities, already tested in 26% of premium vehicles in Europe. The system allows real-time data transfer to onboard diagnostics, reducing mechanical failure rates by 32%.
• Continental: Continental launched a fully redundant EPB system in 2025, now adopted by 24% of ADAS-enabled vehicles globally. The unit includes dual actuators and dual-signal verification architecture, ensuring parking safety even during ECU failure scenarios.
• ZF TRW: In 2025, ZF TRW developed an intelligent EPB system compatible with hydrogen fuel cell vehicles. Early testing in Japan and Germany showed a 21% improvement in energy efficiency and 17% lower integration time compared to legacy systems.
• Akebono: Akebono announced in 2025 its new ceramic-based EPB brake pads with a 38% longer lifecycle, targeting low-maintenance electric vehicles. The pads have been deployed in 31% of EV models across Asia-Pacific.
• HYUNDAI MOBIS: In 2025, HYUNDAI MOBIS integrated EPB systems into their eSUV range with a self-calibration feature, which boosted factory alignment accuracy by 33% and cut installation time by 28%.

REPORT COVERAGE

The report on the automotive electronic parking brake market offers an extensive analysis of key growth segments, product types, regional demand, and innovation trends. It highlights FMVSS 105, FMVSS 135, and ECE 13H as the core standards shaping EPB adoption, with ECE 13H governing 52% of EPB systems globally. Application-wise, passenger cars dominate with 62% share, while commercial vehicles are steadily expanding with 29%. The report outlines Europe’s leadership with 36% market share, followed by Asia-Pacific at 28% and North America at 21%. Product innovation trends such as brake-by-wire adoption (31% growth), sensor integration (29% increase), and modular architecture design (used in 34% of new EPB units) are thoroughly analyzed. The report profiles top market players including Bosch, Continental, Aisin Seiki, and ADVICS, and offers insights into their recent technological advancements. It also covers smart city vehicle integration, where EPB adoption increased by 39%, and the role of government support in promoting next-gen safety components.