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市场调查报告书
商品编码
1626501
汽车温度感测器市场(按类型、应用、车辆类型和地区划分),2024 年至 2031 年Automotive Temperature Sensor Market By Type, Application, Vehicle Type, & Region for 2024-2031 |
2023 年汽车温度感测器市场价值为 82.5 亿美元,预计到 2031 年将达到 132 亿美元,2024 年至 2031 年的复合年增长率为 6.01%。这种增长是由对自主性的不断增长的需求、严格的排放法规和不断提高的车辆安全要求所推动的。随着汽车技术的进步,温度感测器在确保高效的引擎管理、气候控制和整体车辆安全方面发挥着至关重要的作用。随着消费者意识的增强以及政府对排放和车辆安全的要求的提高,汽车温度感测器的需求预计在预测期内将继续呈上升趋势。
汽车温度感测器市场定义/概述
汽车温度感测器是必不可少的电子元件,整合到车辆的各个部件中,以持续监测和测量温度水平。引擎、变速箱、暖通空调和其他系统依靠这些感测器作为关键元件,以确保您的车辆有效率且安全地运作。温度波动转换成引擎控制单元(ECU)可以理解的电讯号。温度感知器测量引擎、排气装置、暖通空调和变速箱等关键零件的温度。汽车中使用的感测器主要有两种类型:接触式和非接触式。接触式感测器用于与被测量物体直接物理接触,而非接触式感测器则无需与被测量物体物理接触,也不依赖于辐射或接近度等测量方法。这些感测器进行精确的温度监控,可使液体和空气温度保持最佳状态,从而延长车辆的使用寿命和健康。
对 ADAS(高级驾驶辅助系统)和自动驾驶汽车的需求不断增长,凸显了对准确温度数据的需求,以实现最佳性能。自动紧急煞车和车道偏离警告等功能依赖这些数据。自动驾驶汽车的安全导航需要包括温度感测器在内的复杂感测器网路。现代汽车对高阶功能的需求不断增加,促使对温度感测器的需求也随之增加。为了应对气候变化,世界各国政府正在实施严格的排放法规和燃油效率政策。为了应对这一情况,汽车製造商正在开发更清洁、更有效率的引擎。温度感测器对于实现这一点至关重要,它可以提供引擎性能的即时数据。这些数据可以调整燃油喷射、点火正时和排放控制系统,确保符合法规要求并推动对温度感测器的需求。
由于环境问题和政府激励措施,电动和混合动力电动车越来越受欢迎。这些车辆需要自己的温度感测器来监测电池健康状况、热管理系统和充电状态。随着电动车和混合动力车市场的扩大,对专为这些应用设计的温度感测器的需求也将随之扩大。对于现代购车者来说,乘客的舒适度和便利性变得越来越重要,凸显了温度感测器的重要性。自动气候控制和加热座椅等舒适功能依赖这些感测器提供的精确温度调节。汽车领域对此类功能的需求不断增长,推动了温度感测器市场的成长。感测器技术,尤其是微机电系统的技术进步正在促进更小、更有效率、更具成本效益的温度感测器的开发。这些进步使汽车製造商能够将更多的感测器整合到车辆中,进一步推动市场成长。对先进汽车功能的需求不断增长、法规越来越严格、电动车和混合动力汽车的兴起、对乘客舒适度的关注以及持续的技术进步,都促使汽车温度感测器的市场规模和价值稳步上升。正在为此做出贡献。
汽车产业的整合可能透过併购实现不同车型零件的标准化。因此,所需的独特温度感测器类型的数量可能会减少,这可能会影响某些感测器型号的销售。感测器技术的进步使得能够测量温度和压力等多种参数的多功能感测器的诞生成为可能。这可能会减少对单一温度感测器的需求,因为一个多功能感测器可以充当两个独立感测器的作用。
转向电动车需要温度感测器,但电动车产生的热量通常比传统内燃机少。这可能会减少每辆车所需的感测器数量,从而影响内燃机温度感测器的整体市场规模。光纤感测器等替代技术的进步有可能颠覆传统电子温度感测器的市场占有率。如果这些技术变得具有成本效益并且被广泛采用,它们可能会对传统的汽车温度感测器构成威胁。在北美、欧洲等成熟市场,汽车温度感测器的渗透率已经很高。在这些市场寻找新客户可能会变得更加困难,这可能会导致销售成长放缓甚至停滞。重要的是,这些都是潜在的课题,但目前的整体成长因素可能会抵消这些课题。然而,瞭解这些趋势可以让製造商适应和创新,帮助温度感测器在不断发展的汽车领域保持竞争力。
The automotive temperature sensor market, valued at USD 8.25 Billion in 2023, is expected to reach USD 13.2 Billion by 2031, with a CAGR of 6.01% from 2024 to 2031. This growth is driven by rising autonomy demands, stringent emission regulations, and heightened safety requirements in vehicles. As automotive technologies advance, a crucial role is played by temperature sensors in ensuring efficient engine management, climate control, and overall vehicle safety. With increasing consumer awareness and government mandates regarding emissions and vehicle safety, the demand for automotive temperature sensors is anticipated to continue its upward trajectory over the forecast period.
Automotive Temperature Sensor Market: Definition/Overview
An automotive temperature sensor is an essential electronic component that is integrated into various parts of a vehicle to continuously monitor and gauge temperature levels. Systems such as the engine, transmission, and HVAC rely on these sensors as critical elements for maintaining efficient and safe operation. Temperature fluctuations are translated into electrical signals comprehensible by the Engine Control Unit (ECU). Key components including the engine, exhaust, HVAC, and transmission have their temperatures measured using temperature sensors. There are two primary sensor types utilized within automobiles: contact and non-contact sensors. Contact sensors, are employed for direct physical contact with the measured object, and non-contact sensors, operate without physical contact with the object, relying on methods such as radiation or proximity for measurement. Accurate temperature monitoring by these sensors ensures optimal fluid & air temperatures, promoting the longevity and health of the vehicle.
The increasing demand for advanced driver-assistance systems and autonomous vehicles underscores the necessity for accurate temperature data in facilitating optimal performance. Features like automatic emergency braking and lane departure warning rely on such data. The safe navigation of autonomous vehicles necessitates a complex sensor network, including temperature sensors. The growing need for advanced functionalities in modern cars leads to a heightened requirement for temperature sensors. Stringent emission regulations and a focus on fuel efficiency are being enacted by governments worldwide to combat climate change. In response, automakers are developing cleaner and more efficient engines. Critical to achieving this are temperature sensors, which provide real-time data on engine performance. Such data enables adjustments to fuel injection, ignition timing, and emission control systems, ensuring compliance with regulations and driving the demand for temperature sensors.
The rising popularity of electric vehicles and hybrid electric vehicles is attributable to environmental concerns and government incentives. These vehicles necessitate a unique set of temperature sensors to monitor battery health, thermal management systems, and charging status. As the EV and HEV market expands, the demand for specialized temperature sensors specifically designed for these applications will correspondingly increase. The growing focus on passenger comfort and convenience among modern car buyers underscores the importance of temperature sensors. Comfort features like automatic climate control and heated seats rely on precise temperature regulation facilitated by these sensors. The increasing demand for such features across vehicle segments is propelling the growth of the temperature sensor market. Technological advancements in sensor technology, particularly in micro-electro-mechanical systems, are driving the development of smaller, more efficient, and cost-effective temperature sensors. These advancements empower car manufacturers to integrate more sensors into vehicles, further propelling the market growth. The increasing demand for advanced automotive features, stricter regulations, the rise of EVs & HEVs, the focus on passenger comfort, and continuous technological advancements are all contributing to a steady rise in the market size and value of automotive temperature sensors.
Consolidation in the automotive industry can lead to the standardization of parts across different car models due to mergers and acquisitions. This might result in a reduction in the overall number of unique temperature sensor types needed, potentially impacting sales of specific sensor models. Advancements in sensor technology are enabling the creation of multi-functional sensors capable of measuring multiple parameters like temperature and pressure. This could potentially decrease demand for individual temperature sensors as a single multi-functional sensor might fulfill the role of two separate ones.
The shift towards electric vehicles necessitates temperature sensors, although EVs generally generate less heat compared to traditional combustion engines. This could lead to a decrease in the number of sensors needed per vehicle, impacting the overall market size for temperature sensors designed for combustion engines. Advancements in alternative technologies like optical fiber sensors could potentially disrupt the market share of traditional electronic temperature sensors. If these technologies become more cost-effective and widely adopted, they could pose a threat to traditional automotive temperature sensors. In mature markets such as North America and Europe, there's already a high penetration of temperature sensors in vehicles. Reaching new customers in these markets might become more challenging, potentially resulting in slower growth or even stagnation in sales. It's important to note that these are potential challenges, and the overall growth factors likely outweigh them at present. However, staying aware of these trends allows manufacturers to adapt and innovate, ensuring their temperature sensor offerings remain competitive in the evolving automotive landscape.
In the automotive temperature sensor market, the dominant market share is typically held by the category of passenger cars compared to other vehicle types. A wide range of vehicles, including sedans, hatchbacks, SUVs, and crossovers, is encompassed by passenger cars, collectively representing a significant portion of the automotive market. One of the primary reasons for the dominant market share held by passenger cars in the automotive temperature sensor market is their sheer volume and widespread adoption. Passenger cars are commonly owned and utilized worldwide, accounting for a substantial portion of vehicle sales and production. Consequently, the demand for temperature sensors in passenger cars exceeds that of other vehicle types. Passenger cars are often equipped with advanced engine management systems and climate control features that heavily rely on temperature sensors for optimal operation. Monitoring engine coolant temperature, intake air temperature, exhaust gas temperature, and cabin temperature, among other parameters, is a crucial role played by these sensors. By providing real-time temperature data to the vehicle's onboard computer systems, temperature sensors enable precise control over engine performance, emissions, and passenger comfort. Passenger cars are subject to stringent regulatory standards related to emissions, safety, and performance, further driving the demand for temperature sensors. Compliance with these regulations necessitates the integration of sophisticated temperature-sensing technology to ensure efficient engine operation, emission control, and adherence to safety standards.
The increasing consumer demand for comfort, convenience, and advanced features in passenger cars has led to the integration of more sophisticated temperature sensing systems. Features such as automatic climate control, heated seats, and tire pressure monitoring systems rely on temperature sensors to deliver optimal performance and user experience. While temperature sensors are also utilized in other vehicle types such as commercial vehicles, electric vehicles (EVs), and hybrid electric vehicles (HEVs), they generally have a smaller market share compared to passenger cars. Commercial vehicles, for example, may have specific temperature sensing requirements for engine management and cargo monitoring, but their overall sales volume is typically lower than that of passenger cars. The dominant market share held by the category of passenger cars in the automotive temperature sensor market is due to their high sales volume, extensive use of temperature-sensitive systems, and compliance with regulatory standards. The widespread adoption of advanced temperature sensing technology in passenger cars underscores their significance in driving the demand for temperature sensors within the automotive industry.
Growing focus on engine efficiency due to stricter emissions regulations and a greater emphasis on fuel economy. Temperature sensors play a vital role in ensuring engines operate within the right temperature range for optimal performance. As carmakers aim to develop more efficient and eco-friendly engines, the demand for advanced temperature sensors for engine management will rise. The ongoing advancements in automotive technologies. Modern engine management systems are becoming more sophisticated, integrating various sensors, including temperature sensors, to monitor and control engine parameters in real time. As automotive technologies progress, there will be an increased need for high-performance temperature sensors that can meet the requirements of these modern engine management systems.
The growth of electric and hybrid vehicles is also contributing to the demand for temperature sensors. While these vehicles have different propulsion systems compared to traditional internal combustion engines, they still require temperature sensors for managing batteries and thermal systems. With the rising adoption of electric and hybrid vehicles worldwide, the demand for temperature sensors for battery management and thermal applications is expected to grow, further driving growth in the engine management segment. Modern vehicles are integrating connectivity features and data analytics capabilities for real-time monitoring and analysis of engine performance data. Temperature sensors are crucial in providing the necessary data for predictive maintenance, performance optimization, and vehicle health monitoring. As vehicle connectivity and data analytics become more widespread, the demand for temperature sensors for engine management applications is anticipated to increase significantly. The engine management segment is set to become a major focal point of growth in the automotive temperature sensor market, driven by factors such as the emphasis on engine efficiency, advancements in automotive technologies, the growth of electric & hybrid vehicles, and the rise of vehicle connectivity and data analytics.
Country/Region Wise Acumens
Could Asia Pacific Drive an Increase in Sales within the Automotive Temperature Sensor Market?
Rapid growth in the automotive sector is being experienced in Asia Pacific, propelled by rising disposable incomes, urbanization, and infrastructure development. This growth is expected to lead to a corresponding increase in demand for automotive components, including temperature sensors. The expansion of the electric and hybrid vehicle market is witnessed in the Asia Pacific region, where incentives and subsidies offered by governments, such as those in China and Japan, are promoting the adoption of electric vehicles. This trend is resulting in a growing market for electric vehicles, consequently driving the demand for temperature sensors, crucial components for monitoring battery temperature, and managing thermal systems in electric and hybrid vehicles. Asia Pacific hosts some of the world's leading automotive manufacturers and technology companies, which are heavily investing in research and development to innovate and enhance vehicle technology.
As automotive technologies progress, there is an anticipated growth in demand for advanced temperature sensing solutions like MEMS-based sensors and infrared sensors. An increasing focus on environmental regulations in many countries across Asia Pacific to combat air pollution and reduce greenhouse gas emissions. This focus is compelling automotive manufacturers to develop cleaner and more fuel-efficient vehicles, where temperature sensors play a crucial role in ensuring engine efficiency and emissions control. As the living standards rise in Asia Pacific, there is a growing demand for vehicles equipped with advanced comfort and convenience features. Temperature sensors are integral to features such as automatic climate control, heated seats, and tire pressure monitoring systems, enhancing the overall driving experience and consequently driving up the sales of temperature sensors in the region.
North America is recognized for its innovation and technological advancements in the automotive industry. As advanced engine management systems and safety features are developed and implemented by automotive manufacturers in the region, there is an expectation of increased demand for temperature sensors to support these technologies. Stringent emissions regulations in North America are aimed at reducing pollution and enhancing air quality. Compliance with these regulations necessitates the integration of sophisticated engine management systems, which rely on temperature sensors for precise monitoring and control of engine performance and emissions. As regulations become stricter, a rise in demand for temperature sensors is anticipated. The adoption of electric and hybrid vehicles is on the rise in North America due to environmental concerns, government incentives, and advancements in battery technology. Temperature sensors are indispensable components in electric and hybrid vehicles for monitoring battery temperature and managing thermal systems. As the market for electric and hybrid vehicles expands, so too will the demand for temperature sensors.
North American consumers exhibit a strong preference for vehicles equipped with advanced comfort, convenience, and safety features. Temperature sensors play a critical role in supporting features such as automatic climate control, heated seats, and tire pressure monitoring systems. With the growing consumer demand for these features, there is an expectation of increased demand for temperature sensors. North America boasts a robust automotive industry with a significant presence of leading automakers, suppliers, and technology companies. This fosters innovation and collaboration, driving the development and adoption of advanced automotive technologies, including temperature sensors. Overall, considering these factors, it is expected that the sales of the automotive temperature sensor market will fare well in North America.
Analyzing the competitive landscape of the automotive temperature sensor market is essential for gaining comprehensive insights into the industry's dynamics. This research aims to examine the competitive landscape by focusing on key players, market trends, innovations, and strategies. Through this analysis, valuable insights will be offered to industry stakeholders, aiding them in navigating the competitive environment adeptly and capitalizing on emerging opportunities. Understanding the competitive landscape will empower stakeholders to make well-informed decisions, adapt to market trends, and formulate strategies to bolster their market position and competitiveness in the automotive temperature sensor market.
Some of the prominent players operating in the automotive temperature sensor market include:
Continental
Sensata Technologies
NXP Semiconductors
Robert Bosch
Panasonic Corporation
Amphenol Advanced Sensors
TDK Corporation
Analog Devices
Delphi
Microchip
In November 2022, the release of the InvenSense IAM-20380HT high-temperature automotive sensor platform solution for non-safety automotive applications was announced by TDK Corporation, along with the expansion of the Smart Automotive line of ASIL and non-ASIL sensors. AM-20380HT is a standalone gyroscope sensor that can function in a wide temperature range and deliver precise measurement data for various automotive applications.