市场调查报告书
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1370846
温度感测器市场 - 2018-2028 年全球产业规模、份额、趋势、机会和预测,按类型、产量、垂直领域、地区和竞争细分Temperature Sensor Market - Global Industry Size, Share, Trends, Opportunity, and Forecast, 2018-2028F Segmented By Type, By Output, By Vertical, By Region and Competition |
预计全球温度感测器市场在预测期内将以健康的复合年增长率成长。一种称为温度感测器的电子设备可测量周围环境的温度,然后将输入资料转换为电子资料以记录、监控或发出温度变化讯号。随着人们越来越意识到未经诊断或未经治疗的健康状况的负面影响,温度感测器变得越来越普遍。现代温度感测器现在比以往任何时候都更加必要,穿戴式装置和健身追踪器的日益普及可以更好地监测患者。由于消费者改变生活方式以保持健康并降低感染疾病的风险,对健身追踪器的需求不断增加。健身追踪器测量体温并密切注意患者的健康状况,因为温度感测器是必要的。因此,健身追踪器中经常使用温度感测器来追踪运动时和休息时的身体温度。
市场概况 | |
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预测期 | 2024-2028 |
2022 年市场规模 | 67.5亿美元 |
2028 年市场规模 | 83亿美元 |
2023-2028 年复合年增长率 | 3.57% |
成长最快的细分市场 | 航太与军事 |
最大的市场 | 亚太 |
尖端便携式医疗设备中温度感测器的使用不断增加,刺激了全球市场。在从医院到家庭护理的各种医疗保健环境中,温度感测器对于管理和监测患者健康至关重要。由于医疗技术的快速进步,便携式和穿戴式医疗设备越来越受欢迎。
这些小工具中经常使用温度感测器来持续监测体温等生命征象。它为医疗专业人员提供即时资料,以便及早识别异常或潜在的健康问题。特别是自 COVID-19 大流行以来,对远距患者监护解决方案的需求不断增加。早期介入成为可能,并且减少了去医院的频率。必须持续监测患有糖尿病、心血管问题和呼吸道疾病等慢性疾病的患者的生命体征,包括体温。
便携式医疗设备内建的温度感测器可提供快速、精确的温度读数,有助于管理疾病并改善患者的治疗效果。微型、高灵敏度温度感测器的发展使得温度感测器能够整合到更紧凑、更轻和便携式的医疗设备中。因此,开发出了复杂、用户友好且不引人注目的医疗设备,患者可以舒适地佩戴,从而提高患者的依从性和治疗方案的依从性。重点是早期发现和介入以阻止疾病的进展,全球正在转向预防性医疗保健。由于便携式设备内建温度感测器,个人可以定期检查自己的体温,这使得更容易发现发烧和其他异常温度模式。透过这种积极主动的方法,可以帮助个人寻求及时的医疗护理并避免潜在的健康併发症。在全球范围内,由于人口老化,对家庭医疗服务的需求不断增长。透过内建在便携式设备中的温度感测器,老年人可以轻鬆、独立地监测自己的体温,确保他们的健康并减少医疗干预的需要。
总体而言,温度感测器在先进便携式医疗设备中的日益普及,透过实现持续监测、早期发现健康问题和个人化医疗保健管理,正在彻底改变患者护理。预计这一趋势将继续推动全球市场的成长。
汽车产业对温度感测解决方案的需求不断增长可归因于多个因素。温度感测器在确保各种汽车系统的最佳性能、安全性和效率方面发挥着至关重要的作用。温度感知器用于监测引擎冷却液温度、机油温度和进气温度。准确的温度测量有助于引擎管理系统优化燃油喷射、点火正时和空燃比,从而提高引擎性能、燃油效率并减少排放。温度感测器是气候控制系统的重要组件,例如车辆的空调和暖气系统。它们监控机舱温度,使系统能够调节气流、温度和风扇速度,为乘员保持舒适的环境。随着电动车 (EV) 和混合动力车的日益普及,温度感测器对于电池管理系统至关重要。它们监控电池单元的温度,确保它们保持在最佳工作范围内,以实现高效充电、放电和整体电池性能。适当的温度管理有助于延长电池的使用寿命。
温度感测器用于监测配备柴油引擎或先进排放控制系统的车辆的废气温度。这些资讯有助于优化废气处理系统,例如柴油颗粒过滤器和选择性催化还原,以实现有效的排放控制和遵守环境法规。温度感知器用于监测变速箱油温度和传动系统中的温差。透过监控这些温度,车辆的控制系统可以确保适当的润滑,防止过热,并优化变速箱和传动系统零件的性能和寿命。一些轮胎压力监测系统利用温度感测器来监测轮胎温度。温度升高可能表示潜在的轮胎问题,例如充气不足或过载,有助于提高安全性并降低轮胎故障的风险。拥有更多财务资源和专业知识的老牌公司由于有能力投资于感测器设计和开发,可能会主导市场。这可能会对试图进入市场的较小或较新的参与者造成障碍,进一步巩固行业并减少整体竞争。
总体而言,汽车产业对温度感测解决方案的需求量很大,因为它们在优化引擎性能、气候控制系统、电池管理、排放控制、传动系统监控和轮胎安全方面发挥着至关重要的作用。随着汽车技术的不断进步,对准确可靠的温度感测器的需求预计将进一步增长。
与感测器设计和开发相关的高昂前期成本成为新公司或新创公司进入温度感测器市场的障碍。研究、原型设计、测试和製造所涉及的费用可能令人望而却步,限制了市场参与者的数量。此外,感测器设计和开发过程中产生的高成本往往会转嫁给最终消费者。这可能会影响温度感测器的整体市场需求和采用。
总体而言,感测器设计和开发过程的高成本可能会阻碍温度感测器市场的发展,因为它会造成进入障碍、影响定价、降低竞争力、限制客製化和创新、限制市场扩张以及有利于老牌厂商。
根据类型,市场分为热电偶、热敏电阻、电阻温度侦测器 (RTD)、半导体温度感测器、红外线温度感测器等。根据输出,市场进一步分为数位和类比。基于垂直领域,市场进一步细分化工与石化、石油与天然气、金属与采矿、发电、食品与饮料、汽车、医疗、航空航太与军事、消费性电子等。市场分析研究区域细分,以设计区域市场细分,分为北美、欧洲、亚太地区、南美以及中东和非洲。
西门子股份公司、松下公司、德州仪器公司、霍尼韦尔国际公司、ABB 有限公司、模拟设备公司、福禄克过程仪器公司、艾默生电气公司、意法半导体和微芯科技公司是推动全球成长的主要参与者。温度感测器市场。
(註:公司名单可依客户要求客製化。)
Global temperature sensor market is expected to grow at a healthy CAGR during the forecast period. An electronic device called a temperature sensor measures the temperature of its surroundings and then transforms the input data into electronic data to record, monitor, or signal temperature changes. As people become more conscious of the negative effects of undiagnosed or untreated health conditions, temperature sensors are becoming more and more common. Modern temperature sensors are now more necessary than ever and the rising popularity of wearables and fitness trackers for better patient monitoring. The need for fitness trackers is increasing due to consumers' changing lifestyles to maintain their health and lower their risk of contracting diseases. Fitness trackers measure body temperatures and keep tabs on patients' health as temperature sensors are' necessary. Due to this, temperature sensors are frequently utilized in fitness trackers to keep track of the body's temperature both while exercising and when at rest.
The factors that are driving the market of temperature sensor are increasing penetration of temperature sensors in advanced and portable healthcare equipment, rising demand for temperature sensing solution in the automobile industry, uses for temperature sensing in space, increasing use of temperature control devices in managing food safety, rising incorporation of temperature sensors in consumer smart devices. However, some of the factors that are hindering the market are the high cost of sensor design and development process, and availability of alternative products.
Market Overview | |
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Forecast Period | 2024-2028 |
Market Size 2022 | USD 6.75 Billion |
Market Size 2028 | USD 8.30 Billion |
CAGR 2023-2028 | 3.57% |
Fastest Growing Segment | Aerospace & Military |
Largest Market | Asia-Pacific |
The global market is being stimulated by the escalating use of temperature sensors in cutting-edge and portable medical equipment. In a variety of healthcare settings, from hospitals to home care, temperature sensors are essential for managing and monitoring patient health. Portable and wearable healthcare devices are growing in popularity because of the quick advancements in medical technology.
Temperature sensors are frequently used in these gadgets to continuously monitor vital signs like body temperature. It gives real-time data to medical professionals, allowing for the early identification of anomalies or potential health problems. Particularly since COVID-19 pandemic, there has been an increase in demand for remote patient monitoring solutions. Early intervention is made possible, and the frequency of hospital visits is decreased. Vital signs, including body temperature, must be continuously monitored in patients with chronic diseases like diabetes, cardiovascular problems, and respiratory illnesses.
Temperature sensors built into portable medical equipment offer quick and precise temperature readings, helping to manage diseases and enhance patient outcomes. The ability to incorporate temperature sensors into more compact, lightweight, and portable medical equipment is a result of the development of miniature, highly sensitive temperature sensor. As a result, sophisticated, user-friendly, and unobtrusive medical devices that patients can wear comfortably have been developed, improving patient compliance and treatment regimen adherence. The emphasis is on early detection and intervention to stop the progression of diseases, and there is a global shift towards preventive healthcare. Individuals can regularly check their own body temperatures as temperature sensors are built into portable devices, which makes it easier to spot fevers and other unusual temperature patterns. Individuals are assisted in seeking prompt medical care and avoiding potential health complications by this proactive approach. Globally, there is a growing demand for home healthcare services due to the ageing population. With temperature sensors built into portable devices, elderly people can easily and independently monitor their body temperatures, ensuring their wellbeing and reducing the need for medical intervention.
Overall, the increasing penetration of temperature sensors in advanced and portable healthcare equipment is revolutionizing patient care by enabling continuous monitoring, early detection of health issues, and personalized healthcare management. This trend is expected to continue driving market growth across the globe.
The rising demand for temperature sensing solutions in the automobile industry can be attributed to several factors. Temperature sensors play a crucial role in ensuring optimal performance, safety, and efficiency of various automotive systems. Temperature sensors are used to monitor engine coolant temperature, oil temperature, and intake air temperature. Accurate temperature measurements help the engine management system optimize fuel injection, ignition timing, and air-fuel ratio, resulting in improved engine performance, fuel efficiency, and reduced emissions. Temperature sensors are vital components in climate control systems, such as air conditioning and heating systems in vehicles. They monitor cabin temperature, allowing the system to adjust the airflow, temperature, and fan speed to maintain a comfortable environment for occupants. With the growing adoption of electric vehicles (EVs) and hybrid vehicles, temperature sensors are crucial for battery management systems. They monitor the temperature of the battery cells, ensuring they stay within the optimal operating range for efficient charging, discharging, and overall battery performance. Proper temperature management helps extend the battery's lifespan.
Temperature sensors are used to monitor exhaust gas temperatures in vehicles equipped with diesel engines or advanced emission control systems. This information helps optimize exhaust gas treatment systems, such as diesel particulate filters and selective catalytic reduction, for effective emission control and compliance with environmental regulations. Temperature sensors are employed to monitor transmission fluid temperature and differential temperatures in the drivetrain. By monitoring these temperatures, the vehicle's control systems can ensure proper lubrication, prevent overheating, and optimize performance and longevity of transmission and drivetrain components. Some tire pressure monitoring systems utilize temperature sensors to monitor tire temperatures. Elevated temperatures can indicate potential tire issues, such as underinflation or overloading, helping improve safety and reduce the risk of tire failure. Established companies with greater financial resources and expertise may dominate the market due to their ability to invest in sensor design and development. This can create a barrier for smaller or newer players trying to enter the market, further consolidating the industry and reducing overall competition.
Overall, temperature sensing solutions in the automobile industry are in high demand due to their crucial role in optimizing engine performance, climate control systems, battery management, emission control, drivetrain monitoring, and tire safety. As automotive technologies continue to advance, the demand for accurate and reliable temperature sensors is expected to grow further.
The high upfront costs associated with sensor design and development act as a barrier to entry for new companies or startups looking to enter the temperature sensor market. The expenses involved in research, prototyping, testing, and manufacturing can be prohibitive, limiting the number of players in the market. Moreover, the high costs incurred during sensor design and development are often passed on to the end consumers. This can impact the overall market demand and adoption of temperature sensors.
Overall, the high cost of sensor design and development processes can hinder the market for temperature sensors by creating barriers to entry, impacting pricing, reducing competitiveness, limiting customization and innovation, restricting market expansion, and favoring established players.
Based on type, the market is segmented into thermocouple, thermistor, resistance temperature detector (RTD), semiconductor temperature sensor, infrared temperature sensor, and others. Based on output, the market is further bifurcated into digital and analog. Based on vertical, the market is further split chemical & petrochemical, oil & gas, metal & mining, power generation, food & beverage, automotive, medical, aerospace & military, consumer electronics, and others. The market analysis studies the regional segmentation to devise regional market segmentation, divided among North America, Europe, Asia-Pacific, South America, and Middle East & Africa.
Siemens AG, Panasonic Corporation, Texas Instruments Incorporated, Honeywell International Inc., ABB Ltd, Analog Devices Inc., Fluke Process Instruments, Emerson Electric Company, STMicroelectronics, and Microchip Technology Incorporated are among the major players that are driving the growth of the global temperature sensor market.
(Note: The companies list can be customized based on the client requirements.)