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市场调查报告书
商品编码
1756023
汽车用温度感测器的全球市场:车辆类别,各元件类型,应用类别,各地区,机会,预测,2018年~2032年Global Automotive Temperature Sensor Market Assessment, By Vehicle Type, By Component Type, By Application Type, By Region, Opportunities and Forecast, 2018-2032F |
全球汽车温度感测器市场规模预计将从2024年的120.3亿美元成长到2032年的179.7亿美元,预测期内(2025-2032年)的复合年增长率为5.14%。这些感测器在引擎、暖通空调、电池、废气管理等领域发挥至关重要的作用,有助于优化性能、控制排放和提高安全性。 MEMS和红外线感测器等技术的进步进一步支撑了内燃机汽车和电动车的需求。
製造商目前正在整合无线和非接触式感测器,以满足智慧网联出行等不断发展的汽车需求。各公司正纷纷推出具有先进技术和检测能力的新型感测器系列。
例如,Microchip Technology Inc. 于 2025 年 3 月推出了 10 款多通道远端温度感测器。 MCP998x 系列是市面上最全面的汽车级多通道温度感测器系列之一,旨在在较宽的工作温度范围内实现 1 摄氏度的精度。此系列包含五个感测器,每个感测器都设有关断温度设定点,旨在防止软体被恶意修改或停用。
本报告提供全球汽车用温度感测器市场相关调查,市场概要,以及车辆类别,各元件类型,应用类别,各地区趋势,及加入此市场的主要企业简介等资讯。
Global automotive temperature sensor market is projected to witness a CAGR of 5.14% during the forecast period 2025-2032, growing from USD 12.03 billion in 2024 to USD 17.97 billion in 2032F, owing to the increasing integration of precise, energy-efficient systems in modern vehicles. These sensors play a critical role across engine, HVAC, battery, and exhaust management, enabling optimized performance, emissions control, and safety. Technological progress, comprising MEMS and infrared sensors, further supports demand across both internal combustion and electric vehicles.
Manufacturers now incorporate wireless, non-contact sensors to meet evolving automotive needs such as smart and connected mobility. Companies tend to launch a new series of sensors with advanced technologies and detection capabilities.
For instance, in March 2025, Microchip Technology Inc. launched 10 multi-channel remote temperature sensors. The MCP998x series represents one of the most extensive collections of automotive-grade multi-channel temperature sensors available in the market, engineered to achieve an accuracy of 1 degree Celsius across a broad operational temperature spectrum. This family of devices comprises five sensors, each featuring shutdown temperature setpoints that are designed to prevent being altered by software or disabled through malicious means.
Electrification and Enhanced Safety to Fuel the Automotive Temperature Sensor Market Demand
The growing trend towards electric and hybrid vehicles is driving a significant increase in the need for high-precision temperature sensors. These sensors play a crucial role in monitoring battery cells, HVAC systems, and motors, ensuring everything stays at the right temperature for safety and efficiency. As more people around the world, especially in key markets such as China and Europe, embrace electric vehicles, the demand for sensors that manage batteries and motor control is skyrocketing. This trend fosters innovation in specific sensor technologies, such as MEMS and infrared, to meet strict performance, longevity, and regulatory requirements.
For instance, in March 2025, TDK Corporation introduced a new line of immersion temperature sensors specifically designed for cooling applications in EV powertrains. This NTC thermistor is fully sealed and incredibly responsive, providing quick and precise temperature control, particularly in oil-cooled systems. Experts predict that oil cooling will become the go-to method for managing temperatures in the electric drivetrains of EVs. With a lightweight construction of less than 11 grams, this temperature sensor boasts a response time of under 4 seconds (t63%) and ensures an accuracy of within +-1 K across a temperature spectrum ranging from -40 degrees Celsius to + 150 degrees Celsius.
The strict global regulations on safety, emissions, and fuel efficiency are pushing car manufacturers to adopt innovative sensor technologies. Temperature sensors play a crucial role in keeping an eye on the engine, exhaust, and thermal systems, which helps ensure that combustion is efficient and emissions are kept to a minimum. These sensors are vital for managing catalytic converters, cooling the engine, and providing thermal protection, all of which are necessary to meet standards such as Euro 7 and the latest EPA targets. This regulatory environment encourages the ongoing integration of sensors across various vehicle platforms.
Advanced Sensor Technologies to Shape Automotive Temperature Sensor Market Dynamics
Innovations such as MEMS-based and infrared sensors are changing the game with enhanced precision, durability, and compact designs. Wireless and non-contact sensors make installation a breeze and simplify the overall design process. This advancement paves the way for integrating sensors into intricate systems found in electric vehicles and autonomous platforms, significantly improving temperature monitoring in batteries, motors, and cabins. The rising demand for high-performance sensors in today's vehicles is driving research and development, which in turn fuels market growth and intensifies competition.
For instance, in April 2024, NOVOSENSE introduced NSHT30-Q1, a new automotive-grade relative humidity (RH) and temperature sensor built using CMOS-MEMS technology. It integrates a capacitive RH sensor, a CMOS temperature sensor, a signal processor, and an I2C digital communication interface on a single chip, housed in a small DFN package. The sensor packs all the essential components into one compact chip, which includes a capacitive RH sensor, a CMOS temperature sensor, signal processing capabilities, and an I2C interface.
Increasing vehicle lifespan and growing fleets of connected vehicles boost aftermarket demand for replacement sensors. Integration with IoT systems allows for real-time remote diagnostics via telematics and connected services. This trend creates recurring sensor demand and incentivizes suppliers to deliver smart, interoperable solutions, expanding opportunities beyond OEM applications.
Passenger Vehicles Lead in the Global Automotive Temperature Sensor Market
Based on vehicle type, passenger vehicles dominate the automotive temperature sensor market due to sheer volume and diverse feature requirements. This segment includes sub-segments such as compact, midsize, luxury, and SUVs, all demanding multiple sensors for engine cooling, HVAC, battery management, turbo systems, and thermal seats. EV proliferation in passenger cars further drives the usage of high-accuracy thermal monitoring in batteries and electric motors to ensure safety, performance, and range optimization. OEMs continuously incorporate advanced ADAS and comfort features, requiring precise cabin and surface temperature sensing. Additionally, passenger vehicles are replaced or updated more frequently, generating aftermarket demand. Together, volume scale, feature richness, electrification trends, and replacement cycles enable the passenger vehicle segment to lead in deployment and revenue within the temperature sensor market.
Asia-Pacific Dominates the Global Automotive Temperature Sensor Market Size
Asia-Pacific leads the largest share and fastest growth in the automotive temperature sensor market, driven by rapid automotive manufacturing expansion in China, Japan, India, and South Korea. High EV adoption, especially in China, creates strong demand for battery and motor thermal management sensors. Governments encourage EV production via tax breaks and emissions targets, boosting sensor integration in powertrain and HVAC systems. Major Tier 1 manufacturers and local OEMs promote innovation and regional capacity building. Increased production of passenger and commercial vehicles supports engine and HVAC sensor volume. Meanwhile, India and Southeast Asia attract investments due to growing consumption and favorable local policies. China's tech-intensive approach accelerates noncontact sensor deployment. This constructive collaboration of policy, EV growth, manufacturing scale, and innovation cements Asia-Pacific as the market's core growth engine.
Impact of the U.S. Tariff on the Global Automotive Temperature Sensor Market
The U.S.'s potential 25% tariffs on imported auto parts and sensors would elevate production costs, complicate global supply chains, and threaten profitability. The auto industry warned that these tariffs, originally slated by May 2025, could increase vehicle prices, reduce sales, and disrupt maintenance predictability. For sensor manufacturers, the import duties imposed by the U.S. could drive up material costs and hinder their ability to compete, which might lead to production delays or a change in where they source their materials. While domestic OEMs might take on some of these costs, consumers will likely end up paying more and seeing fewer innovations, as investment margins become tighter.
Key Players Landscape and Outlook
Market leaders focus on top-notch sensor portfolios that include MEMS, infrared, and non-contact technologies. They pour a lot of resources into research and development to make devices smaller, tougher, and better suited for the ever-changing needs of electric vehicles (EVs) and advanced driver-assistance systems (ADAS). By forming strategic partnerships and joint development agreements with automakers and semiconductor companies, they enhance their integration capabilities. Expanding their global manufacturing presence, especially in Asia-Pacific and North America, helps them minimize tariff risks and streamline their supply chains. Alongside, companies are stepping up their aftermarket services by providing IoT-enabled sensor solutions for remote diagnostics and predictive maintenance. With competitive pricing and a focus on quality certification, they secure wins with original equipment manufacturers (OEMs) while also ensuring that their sourcing practices meet global emission and safety standards.
For instance, in June 2025, Continental AG launched the e-Motor Rotor Temperature Sensor (eRTS), the first sensor to directly measure temperature inside the rotor of electric vehicle motors. This innovation provides highly precise readings, reducing tolerance from 15 degrees Celsius to just 3 degrees Celsius, enabling manufacturers to use fewer rare earth elements, lower costs, and improve motor performance, contributing to more sustainable and efficient EV designs.
All segments will be provided for all regions and countries covered
Companies mentioned above DO NOT hold any order as per market share and can be changed as per information available during research work.