U.S. Automotive Powertrain Sensors Market Report, 2030

Market Size & Trends

The U.S. automotive powertrain sensors market size was estimated at USD 4,060.1 million in 2024 and is projected to grow at a CAGR of 7.6% from 2025 to 2030. The rapid shift toward electric vehicles (EVs) in the U.S. has significantly boosted the market growth of advanced powertrain sensors.

According to the Department of Energy’s (DOE) 2022 Electrification Annual Progress Report, substantial investments are being made to enhance sensor technologies that improve lithium-ion battery efficiency and thermal management. Real-time voltage and current sensors now provide accurate data to battery management systems (BMS), extending battery life and optimizing charge cycles. Temperature sensors embedded within battery packs help prevent overheating, particularly in extreme climates a critical factor in enhancing EV reliability. Torque sensors in electric motors are enabling seamless and energy-efficient power delivery. These innovations are part of DOE-funded programs targeting a 15% reduction in powertrain energy consumption by 2025, which has propelled the market toward high-performance EV components.

Federal regulations aimed at reducing vehicle emissions have driven the demand for highly accurate aftertreatment sensors in internal combustion engine (ICE) vehicles. The EPA’s 2023 Clean Trucks Plan, which mandates a 90% reduction in NOx emissions from heavy-duty vehicles by 2027, has boosted the market growth of technologies like wide-band lambda sensors and particulate matter (PM) sensors. These sensors play a vital role in maintaining air-fuel ratios and monitoring diesel exhaust filters, ensuring compliance with strict emission thresholds. In addition, the DOE’s High-Efficiency Engine Technologies program is fostering the development of sulfur-resistant NOx sensors for hybrid engines, particularly useful in low-temperature exhaust scenarios. These regulatory pressures have propelled the market toward sensor solutions that improve environmental performance and vehicle longevity.

The increasing integration of Advanced Driver Assistance Systems (ADAS) with powertrain controls is creating new opportunities for sensor deployment, thereby boosting the market growth in this segment. Radar and lidar inputs from ADAS are now leveraged for predictive powertrain actions, such as anticipatory gear shifting and regenerative braking control in ICE and hybrid vehicles. The Federal Highway Administration’s 2023 V2X Deployment Guidelines emphasize the importance of Vehicle-to-Infrastructure (V2I) communications, which adjust throttle and transmission behavior based on real-time traffic data using sensors like crankshaft and throttle position monitors. Field trials conducted by NREL have shown that such integrations can lead to 6–8% fuel efficiency gains in heavy-duty trucks, propelling the market for sensor-based energy optimization systems.

Growing concerns about the embedded energy consumption of automotive electronics have boosted the market demand for low-power sensor solutions. The DOE’s 2024 Sustainable Transportation Strategy and a 2023 Oak Ridge National Laboratory (ORNL) study revealed that sensor manufacturing contributes significantly to an EV’s overall energy footprint, up to 12%. As a result, sensor developers are focusing on innovations like silicon carbide (SiC)-based sensors, which reduce power consumption by 40% compared to conventional silicon components. Similarly, Hall-effect sensors in traction motors now operate on lower voltages, and CAN FD protocols minimize sensor wake-up cycles, improving energy efficiency. These trends are directly aligned with the EPA’s 2025 CAFE standards, which call for a 32% boost in fleet-wide fuel efficiency compared to 2022, propelling the market toward energy-conscious sensor technology.

Sensor Type Insights

The pressure sensors segment led the market with the largest revenue share of 26.30% in 2024. Pressure Sensors in the U.S. are gaining strategic importance as automakers move toward engine downsizing and turbocharging to meet national fuel economy targets. These sensors play a vital role in optimizing combustion processes, managing exhaust gas recirculation, and protecting engine components under high-pressure conditions. The demand is being further propelled by increasing applications in transmission systems and fuel delivery regulation, especially within hybrid vehicle platforms.

The others (Oxygen Sensors, Knock Sensors, Air Flow Sensors (MAF), NOx Sensors, Fuel Level Sensors, and Torque Sensors) segment is expected to experience at the fastest CAGR over the forecast period. Other Sensors, including oxygen, knock, MAF, NOx, fuel level, and torque sensors, are seeing rapid deployment across new-generation vehicles. Oxygen and NOx sensors, in particular, are indispensable for real-time exhaust monitoring and emission control compliance under EPA standards. Torque sensors are finding new roles in electric drivetrains, while fuel level and MAF sensors remain critical to improving combustion stability and fuel metering in ICE-powered vehicles. These technologies collectively contribute to a more responsive and cleaner powertrain ecosystem in the U.S.

Vehicle Type Insights

The passenger cars segment accounted for the largest market revenue share in 2024. Passenger Cars remain the dominant force behind sensor innovation in the U.S., with OEMs embedding complex sensor arrays to enhance performance, safety, and regulatory compliance. As modern vehicles evolve into software-defined platforms, powertrain sensors are being interconnected with AI and ADAS systems for real-time torque vectoring, adaptive cruise, and dynamic transmission shifts. This transformation is heavily supported by consumer demand for cleaner, smarter, and connected vehicles.

The two-wheelers segment is expected to experience at the fastest CAGR over the forecast period. Two-wheelers, though a niche market in the U.S., are gradually adopting powertrain sensors as electric bikes and scooters grow in urban regions. These compact vehicles now incorporate position, temperature, and motor torque sensors to optimize battery use and ensure safer, smoother acceleration. Regulatory shifts and urban mobility trends are encouraging manufacturers to refine powertrain monitoring even for the lightest of vehicle categories.

Propulsion Type Insights

The internal combustion engine (ICE) vehicles segment accounted for the largest market revenue share in 2024. Internal Combustion Engine (ICE) Vehicles still represent the largest installed base in the U.S., and therefore, the bulk of demand for traditional powertrain sensors. These include advanced knock sensors for engine protection, oxygen and NOx sensors for emission control, and pressure sensors for direct fuel injection systems. Innovations continue to emerge in ICE platforms to align with Tier 3 and CAFE standards, pushing the use of smarter, more durable sensor solutions.

The electric vehicles (EVs) segment is expected to experience at the fastest CAGR over the forecast period. Electric Vehicles (EVs) are emerging as a key growth engine for powertrain sensors in the U.S., as battery thermal management, inverter efficiency, and regenerative braking optimization require high-precision sensing. EV platforms now integrate a variety of temperature, pressure, and position sensors not just for safety, but also for maximizing range and reducing energy losses. With federal incentives and charging infrastructure expansion, this segment is set to reshape the sensor demand profile significantly.

Key U.S. Automotive Powertrain Sensors Company Insights

Some of the key companies in the U.S. automotive powertrain sensors industry include Continental AG, DENSO CORPORATION, Infineon Technologies AG, Innovative Sensor Technology (IST), and others. In the U.S. automotive powertrain sensors industry, leading manufacturers are driving technological innovation by advancing sensor miniaturization, seamless integration with powertrain control units, and high-precision sensing technologies that align with strict federal emission and fuel efficiency standards. Their robust domestic manufacturing presence, adherence to evolving EPA and DOE regulations, and versatility in supporting both internal combustion engine and electric vehicle platforms bolster their stronghold in the

• Continental AG continues to be a key player in the U.S. automotive powertrain sensors industry by leveraging its advanced capabilities in automotive electronics and systems integration. The company’s portfolio of precision sensors, including pressure, temperature, and speed types, caters to the complex needs of modern U.S. powertrain architectures. By embedding sensor outputs into intelligent vehicle control systems, Continental enables real-time optimization of emissions, fuel efficiency, and drivetrain performance. Its strategic alliances with major U.S.-based OEMs, combined with a strong push into electric and autonomous vehicle technologies, have significantly boosted its market relevance. This proactive alignment with national regulations and mobility trends has propelled the company’s growth and solidified its presence across ICE and EV platforms in the U.S. market.

• Texas Instruments Incorporated holds a vital position in the U.S. automotive powertrain sensors industry, driven by its cutting-edge semiconductor innovations. Specializing in analog and embedded processing, the company delivers sensor interface and signal conditioning technologies essential for high-performance powertrain applications. Its scalable solutions are instrumental in improving the accuracy of battery management, thermal systems, and inverter operations, critical functions in electric and hybrid vehicles. Texas Instruments’ U.S.-based manufacturing and design expertise aligns with domestic energy efficiency goals, helping OEMs meet evolving emissions standards and reduce system complexity. Their continued emphasis on miniaturization and system-level integration has propelled their adoption across American automotive platforms seeking resilient and future-ready sensor solutions.

Recent Developments

• In November 2024, Continental announced a strategic partnership with NOVOSENSE Microelectronics to jointly develop automotive-grade sensor ICs targeting safety systems, including powertrain applications. This collaboration aims to boost the U.S. automotive powertrain sensors industry by enhancing the precision and reliability of sensors involved in battery pack monitoring and airbag deployment systems. These upgrades improve vehicle efficiency and safety, supporting the industry’s transition toward smarter, electrified powertrains. The initiative reflects a growing demand for high-performance sensor solutions as automakers intensify their focus on real-time data accuracy and integrated safety.

• In January 2025, Texas Instruments launched its new AWRL6844 60GHz mmWave radar sensor at CES, designed for in-cabin safety applications powered by edge AI. While primarily aimed at occupant detection, delivering 98% accuracy, the innovation indirectly supports powertrain systems by enabling enhanced sensor fusion. By reducing costs by approximately USD 20 per vehicle, this radar technology supports broader vehicle system efficiency, indirectly boosting the growth of the powertrain sensor market in the U.S. The product exemplifies how advancements in AI-enabled sensor technologies are reshaping automotive architecture, including powertrain dynamics.

U.S. Automotive Powertrain Sensors Market Report Scope

U.S. Automotive Powertrain Sensors Market Report Segmentation

This report forecasts revenue growth and provides an analysis of the latest industry trends in each of the sub-segments from 2018 to 2030. For this study, Grand View Research has segmented the U.S. automotive powertrain sensors market report based on sensor type, vehicle type, and propulsion type.

• Sensor Type Outlook (Revenue, USD Million, 2018 – 2030)

  • Pressure Sensors

  • Temperature Sensors

  • Position Sensors

  • Speed Sensors

  • Others (Oxygen Sensors, Knock Sensors, Air Flow Sensors (MAF), NOx Sensors, Fuel Level Sensors, and Torque Sensors)

• Vehicle Type Outlook (Revenue, USD Million, 2018 – 2030)

  
  

• Propulsion Type Outlook (Revenue, USD Million, 2018 – 2030)