Passenger Car ABS Motor Circuit Market – Global Industry Size, Share, Trends Opportunity, and Forecast, Segmented By Vehicle Type (SUV, Sedan, Hatchback, MUV), By Component (Sensors, Electronic Control Unit, Hydraulic Unit), By Channel (Single, Dual, Three, Four), By Region and By Competition, 2021-2031F

Forecast Period	2027-2031
Market Size (2025)	USD 23.12 Billion
CAGR (2026-2031)	6.96%
Fastest Growing Segment	SUV
Largest Market	Europe
Market Size (2031)	USD 34.62 Billion

Market Overview

The Global Passenger Car ABS Motor Circuit Market will grow from USD 23.12 Billion in 2025 to USD 34.62 Billion by 2031 at a 6.96% CAGR. The Global Passenger Car ABS Motor Circuit Market involves the provision of specialized electronic circuits designed to regulate hydraulic pump motors within Anti-lock Braking Systems. These components are essential for modulating brake fluid pressure to prevent wheel lockup, thereby ensuring steering stability during emergency deceleration. The market is primarily supported by stringent international safety regulations that mandate the installation of active safety systems in passenger vehicles. Additionally, the consistent increase in global vehicle production and rising consumer prioritization of vehicle safety features serve as fundamental drivers for market expansion, distinct from transient technological trends.

However, a significant challenge impeding market scalability is the volatility of the global semiconductor supply chain, which can cause component shortages and production delays. This instability creates bottlenecks for manufacturers attempting to meet the volume requirements of the automotive sector. According to the European Automobile Manufacturers’ Association, in 2024, new car registrations in the European Union reached 10.6 million units, highlighting the substantial and continuous demand for reliable safety components such as ABS motor circuits despite these logistical hurdles.

Key Market Drivers

The escalating global production and sales of passenger vehicles serve as the primary catalyst for the ABS motor circuit market, as higher assembly volumes directly necessitate increased procurement of braking control components. As automotive manufacturers in major hubs ramp up output to meet post-pandemic mobility needs, the demand for electronic stability and anti-lock braking units scales proportionally. This volume-driven growth ensures a steady baseline of orders for motor circuit suppliers, independent of technological upgrades. According to the China Association of Automobile Manufacturers, January 2024, in the '2023 Automotive Statistics' report, production of passenger vehicles in China reached a record 26.12 million units in 2023. This regional surge reinforces the critical link between vehicle assembly rates and component market expansion. Furthermore, according to the Society of Motor Manufacturers and Traders, in 2024, UK car manufacturing output rose by 16.8 percent in 2023 to hit 905,117 units, illustrating the widespread recovery supporting this sector.

The rapid expansion of the electric and hybrid vehicle market further propels the demand for specialized ABS motor circuits designed to handle distinct powertrain requirements. Electric vehicles utilize complex architectures that must blend regenerative braking with conventional hydraulic systems, requiring advanced circuit designs for precise modulation of the ABS motor during mode transitions. This electrification shift compels component suppliers to innovate robust circuits capable of managing the higher electrical loads and unique operational profiles of modern electric drivetrains. According to the International Energy Agency, April 2024, in the 'Global EV Outlook 2024', sales of electric cars globally reached nearly 14 million in 2023. This significant market penetration confirms that the transition to electrification is a sustained driver that will continue to dictate technical specifications and volume requirements for future braking control circuits.

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Key Market Challenges

The volatility of the global semiconductor supply chain stands as a primary obstacle to the expansion of the Passenger Car ABS Motor Circuit market. These circuits rely heavily on specific microchips to regulate hydraulic pressure within braking systems, making them highly vulnerable to upstream disruptions. When semiconductor availability fluctuates, circuit manufacturers experience immediate shortages that force the suspension of assembly lines. This inability to secure essential electronic components prevents suppliers from fulfilling volume orders on schedule, regardless of the underlying consumer demand for vehicles. Consequently, the market cannot scale effectively because the production of these safety-critical units is physically restricted by the inconsistent flow of raw materials.

This instability creates a ripple effect that constrains the broader automotive manufacturing sector, thereby limiting the total addressable market for ABS components. The unpredictability of supply schedules forces original equipment manufacturers to reduce their overall output, directly dampening the procurement rates for motor circuits. This contraction in manufacturing activity is evident in recent industrial performance figures. According to the European Automobile Manufacturers’ Association, in 2024, passenger car production in the European Union decreased by 6.2%. This decline in vehicle output demonstrates how supply chain fragilities and production bottlenecks directly hamper the growth trajectory of the ABS motor circuit market by reducing the number of vehicles requiring these installations.

Key Market Trends

The development of Brake-by-Wire interface circuitry is fundamentally reshaping the market by replacing traditional hydraulic connections with pure electronic signal transmission. This architectural shift necessitates advanced motor control circuits capable of driving electro-mechanical actuators directly at each wheel, eliminating the need for central hydraulic pumps and fluid lines. The transition allows for precise, software-calibrated braking profiles that can be dynamically adjusted for varying road conditions, a critical requirement for modern chassis design. This technological leap is evidenced by significant commercial milestones; according to Nexteer Automotive, April 2025, in the 'Nexteer Launches Brake-by-Wire System' press release, the company introduced its modular Electro-Mechanical Brake architecture, which utilizes these specialized interface circuits to completely remove hydraulic fluid and support software-defined vehicle platforms.

Concurrently, the adoption of redundant circuit topologies has become a critical requirement to ensure fail-operational capabilities for autonomous driving systems. Unlike standard braking circuits that rely on driver intervention during failure, these advanced topologies incorporate duplicated power supplies, communication paths, and microcontroller units to guarantee braking functionality even if a primary sub-system malfunctions. This trend is driven by the safety imperatives of Level 3 and Level 4 automation, where the electronic control unit must autonomously manage deceleration without human input. The scale of this implementation is substantial; according to ZF Friedrichshafen AG, January 2025, in a corporate press release, the supplier secured a contract to equip nearly 5 million vehicles with its Electro-Mechanical Braking technology, a system explicitly selected for its integrated redundant fallback options required for automated driving safety certification.

Segmental Insights

The Sport Utility Vehicle segment is positioning itself as the fastest-growing category within the Global Passenger Car ABS Motor Circuit Market, primarily driven by the increasing global consumer demand for larger vehicles. This growth is reinforced by stringent safety protocols from regulatory entities such as the National Highway Traffic Safety Administration, which prioritize stability control to address the higher center of gravity found in SUVs. Manufacturers are consequently prioritizing advanced braking assemblies to ensure compliance and safety, directly increasing the requirement for reliable ABS motor circuits in this sector.

Regional Insights

Europe maintains a leading position in the passenger car ABS motor circuit market, driven primarily by stringent regulatory frameworks regarding vehicle safety. The European Commission mandates the inclusion of anti-lock braking systems in new passenger vehicles to mitigate accident risks, directly sustaining demand for associated motor circuits. Furthermore, the European New Car Assessment Programme incentivizes automakers to adopt reliable active safety components to secure favorable safety ratings. This regulatory environment, combined with a strong manufacturing base for automotive components, ensures steady market expansion across the region.

Recent Developments

• In April 2025, HL Mando was recognized as a Supplier of the Year by a leading American automaker for its outstanding performance in the Brake Apply & Controls category. The company received this distinction specifically for its Motor on Caliper (MoC) product, a critical innovation in the market that integrates the electric parking brake motor directly into the brake caliper assembly. Manufactured at the supplier's facility in Alabama, this component exemplifies the shift toward electrified braking architectures. The award marked the fifth consecutive year the company was honored, underscoring the growing importance of advanced motor-driven braking components in the North American passenger car market.
• In January 2025, ZF Friedrichshafen announced that it had secured a substantial contract to supply its brake-by-wire technology to a major global light vehicle manufacturer. The agreement, which covers the equipment for nearly five million vehicles, involves the production of electro-mechanical braking systems that incorporate the company's Integrated Brake Control solutions. This technology utilizes an electric motor and control circuit to build brake pressure, replacing traditional vacuum boosters and enabling a "hybrid" braking configuration. The deal highlights the automotive industry's accelerating transition toward software-defined vehicles, where electronic signal transmission replaces mechanical linkages to enhance safety and energy recuperation.
• In September 2024, Bosch unveiled its innovative Brake Control Pad at a mobility industry event, introducing a new interface for brake-by-wire systems. This technology replaces the conventional mechanical brake pedal with a force-sensitive pad that detects the driver's braking intent and transmits it electronically to the brake control unit. By decoupling the driver's input from the hydraulic or mechanical actuation, the system allows for more precise and customizable braking characteristics. This development is directly linked to the evolution of the ABS and motor control circuits, as it relies entirely on electronic signals to manage the electric motors that generate braking force at the wheels.
• In September 2024, Continental AG addressed a significant technical issue involving its integrated braking system, which is supplied to a major luxury vehicle manufacturer. The company identified a defect in a specific electronic component within the brake control unit that could potentially impair the power braking assistance function. This development resulted in a recall of approximately 1.5 million vehicles globally to replace the affected integrated braking modules. The event highlighted the critical role of the electronic motor circuits within modern "one-box" braking systems, which combine the brake booster, master cylinder, and ABS control electronics into a single, compact, and motor-driven unit.

Key Market Players

• Robert Bosch GmbH
• Continental AG
• DENSO Corporation
• ZF Friedrichshafen AG
• Hitachi Astemo
• Hyundai Mobis Co., Ltd.
• Autoliv Inc.
• Mando Corporation
• Aisin Seiki Co., Ltd.
• Nidec Corporation

By Vehicle Type	By Component	By Channel	By Region
SUV Sedan Hatchback MUV	Sensors Electronic Control Unit Hydraulic Unit	Single Dual Three Four	North America Europe Asia Pacific South America Middle East & Africa

Report Scope:

In this report, the Global Passenger Car ABS Motor Circuit Market has been segmented into the following categories, in addition to the industry trends which have also been detailed below:

• Passenger Car ABS Motor Circuit Market, By Vehicle Type:

• SUV
• Sedan
• Hatchback
• MUV

• Passenger Car ABS Motor Circuit Market, By Component:

• Sensors
• Electronic Control Unit
• Hydraulic Unit

• Passenger Car ABS Motor Circuit Market, By Channel:

• Single
• Dual
• Three
• Four

• Passenger Car ABS Motor Circuit Market, By Region:

• North America
• United States
• Canada
• Mexico
• Europe
• France
• United Kingdom
• Italy
• Germany
• Spain
• Asia Pacific
• China
• India
• Japan
• Australia
• South Korea
• South America
• Brazil
• Argentina
• Colombia
• Middle East & Africa
• South Africa
• Saudi Arabia
• UAE