市場調查報告書
商品編碼
1351060
2030 年生物醫學溫度感測器市場預測:依部門市場和地區分類的全球分析Biomedical Temperature Sensors Market Forecasts to 2030 - Global Analysis By Type (Fibre Optic Sensors, Infrared Sensors, Liquid Crystal Temperature Sensors, Resistance Temperature Detectors, Thermistors, Thermocouples & Other Types), & By Geography |
根據Stratistics MRC的數據,2023年全球生物醫學溫度感測器市場規模為75.9億美元,預計到2030年將達到123.4億美元,預測期內年複合成長率為7.18%。
隨著感測器技術的引入,外部溫度檢測在技術上不斷發展,以提高患者舒適度、提高準確性並創造更好的監測工具。這些資訊對於患有各種疾病(包括感染疾病和體溫過低)的患者至關重要。體溫感測器或皮膚溫度感測器可用於監測體表溫度。 NTC 熱敏電阻、熱電堆和數位溫度感測器由 TE Connectivity (TE) 製造,可滿足許多應用中廣泛的精度、封裝和性能要求。
據世界經濟論壇稱,全球醫療保健產業正在見證巨大的投資和創新。因此,在預測期內對生物醫學溫度感測器的需求正在增加。
溫度感測器市場受到對尖端攜帶式醫療設備不斷成長的需求的推動。由於先進的病患監測系統和攜帶式健康監測系統等新技術的出現,對溫度感測器的需求不斷增加。高齡化、生活方式的下降以及病毒性疾病的增加預計將促使攜帶式醫療設備的需求增加。穿戴式醫療保健設備採用溫度感測器來持續監測患者健康狀況。由於攜帶式和穿戴式醫療設備的需求不斷成長,溫度感測器市場正在顯著成長。
鈷、鎳、錳、鐵合金和銅是生物醫學溫度感測器市場製造商使用的原料。為了獲得這些資源,許多公司依賴外部供應商。溫度感測器製造商的盈利很大程度上受到價格波動較大和原料供應間歇性的影響。不斷變化的全球經濟、原料可得性、貿易壁壘、戰爭和其他政治事件、全球需求增加、自然災害以及外匯波動都會導致原料成本的波動。馬蘇。此外,在全球競爭激烈的市場中,品質檢驗成本高昂,阻礙了市場成長。
使用穿戴式技術追蹤心率和體溫等許多生物特徵指標。使用穿戴式科技來改善身體素質和健康的最終用戶數量正在迅速增加。六分之一的人已經擁有並使用穿戴式設備,而這種採用趨勢預計在未來年度將會增加。溫度感測器市場的公司預計將受益於消費者日益成長的需求和日益增強的健康意識。
生物溫度感測器製造商正在利用低廉的價格在中國和印度等新興國家站穩腳跟。原因之一可能是越來越多的感測器製造商之間的激烈競爭正在加速新型溫度感測器的開發。已經分散的溫度感測器市場因現成的技術而變得更加緊張,這也加劇了製造商之間的激烈競爭。
COVID-19 嚴重影響了工業和電子部門。由於製造和加工設施關閉以及原料供應商的全球供應鏈中斷,北美、中東和亞洲國家正遭受重大損失。停產後的需求帶動了市場收入的增加。由於 COVID-19,對溫度感測器和攜帶式健康監測設備的需求增加。例如,這些感測器與物聯網連接相結合,可加快 COVID-19 篩檢速度。
光纖感測器(FoS)領域預計將出現良好的成長。未來涉及同時收集和分析樣本以進行藥物安全評估的生物醫學應用可能會受益於全內反射光纖探頭的使用。此外,它還可用於藥物分子檢測、廢水監測和最終產品的一般藥品品管。物理型、影像型、化學型和生物型是生物醫學FOS的四個基本亞型。雖然成像感測器包括光學相干斷層掃描 (OCT) 和光聲成像最尖端科技,但物理感測器可監測體溫、血壓和肌肉位移等許多生理要素,使其成為市場領導者。 。
預計電阻溫度檢測器(RTD) 領域在預測期內將呈現最高的年複合成長率。因為 RTD 感測器具有多種優勢,包括高重複性、一致性和準確性,即使在惡劣環境下也能提供準確的檢測。隨著感測器溫度的升高,電阻值也會增加。被動元件是 RTD。稱為電阻溫度檢測器(RTD) 的鉑薄膜元件用於檢測溫度。它具有高度可重複性、精確性和穩定性,推動市場成長。
由於美國對醫療服務的需求不斷增加,預計北美在預測期內將佔據最大的市場佔有率。醫療感測器供應商正專注於製造高價值設備,以滿足不斷成長的需求。另一方面,嚴格的政府法規和全部區域不斷擴大的醫療保健產業預計將推動該地區的市場擴張。此外,溫度感測器經常用於該地區的醫療保健領域,例如熱稀釋導管和連續體內心摶出量監測。隨著該地區醫療保健領域的發展以及越來越多的產品配備不同類型的溫度感測器,溫度感測器市場預計將以健康的速度擴張。
由於歐洲在暖通空調系統、穿戴式技術和帶有獨立感測器的小型系統開發方面的技術領先地位,預計在預測期內年複合成長率最高。此外,由於人們越來越意識到這些感測器在醫療保健、石油、天然氣以及汽車等各個行業中的優勢,因此從長遠來看,市場預計將溫和成長。此外,溫度感測器經常用於該地區的醫療保健領域,例如熱稀釋導管和連續體內心摶出量監測,這正在推動市場發展。
According to Stratistics MRC, the Global Biomedical Temperature Sensors Market is accounted for $7.59 billion in 2023 and is expected to reach $12.34 billion by 2030 growing at a CAGR of 7.18% during the forecast period. With the inclusion of sensor technologies, external temperature measuring has evolved technologically, boosting patient comfort, enhancing accuracy, and producing better monitoring tools. Its information may be essential to patients with a range of illnesses, including infections and hypothermia. Body or skin temperature sensors can be used to monitor the temperature of the body's surface. NTC thermistors, thermopiles, and digital temperature sensors are produced by TE Connectivity (TE) to satisfy the wide variety of accuracy, packaging, and performance requirements among the many applications.
According to World Economic Forum, the healthcare industry globally has witnessed huge investment and innovation. Thus, the demand for biomedical temperature sensors is increasing over the forecast period.
The Temperature Sensor Market is being driven by the rising demand for cutting-edge, portable medical equipment. The need for temperature sensors is growing as a result of new technologies such sophisticated patient monitoring systems and portable health monitoring systems. The aging population, declining lifestyle, and increased viral illnesses are all predicted to contribute to an increase in demand for portable medical equipment. In order to provide continuous patient health monitoring, wearable healthcare gadgets employ temperature sensors. The market for temperature sensors is growing significantly due to the rising demand for portable and wearable healthcare devices.
Cobalt, nickel, manganese, iron alloy, and copper are among the raw materials used by manufacturers in the biomedical temperature sensor market. To get these resources, many firms rely on outside vendors. The profitability of manufacturers of temperature sensors is significantly impacted by the high price volatility of these raw materials and the intermittent supply. The fluctuating global economy, the availability of raw materials, trade barriers, wars, other political events, the rise in global demand, natural catastrophes, and the erratic nature of currency exchange rates are all blamed for fluctuations in raw material costs. Additionally, a globally competitive market shows the high cost of quality inspection thus hampering the growth of the market.
Numerous biometric indicators, such as heartbeat and body temperature, are tracked using wearable technology. A rising number of end users are adopting wearable technology at a quick rate because they want to utilize it to increase their physical fitness and general health. One in six individuals already own and use a wearable gadget, and this adoption trend is anticipated to increase over the next few years. The companies in the temperature sensor market may anticipate benefiting from the increased demand and rising health consciousness among consumers.
Manufacturers of biomedical temperature sensors are taking advantage of cheap prices in order to gain a foothold in rising countries like China and India. Part of this might be attributed to the fierce rivalry between the increasing number of sensor manufacturers, which has sped up the development of new temperature sensors. The already-fragmented Temperature Sensor Market is put under even more strain due to the readily available technology, which also fuels fierce rivalry among producers.
The industrial and electronics sectors were severely impacted by COVID-19. Due to the closure of manufacturing and processing facilities and the disruption of the worldwide supply chains of raw material suppliers, nations in North America, the Middle East, and Asia suffered significant losses. The post-shutdown demand led to a rise in market income. Temperature sensors and portable health monitoring equipment are now in more demand thanks to COVID-19. For instance, to expedite COVID-19 screening, these sensors were combined with IOT connection.
The fiber optic sensors (FoS) segment is estimated to have a lucrative growth, due to Future biomedical applications that include the simultaneous collection and analysis of samples for drug safety assessment may benefit from the use of fiber optic probes that undergo total internal reflection. Additionally, it aids in the detection of drug molecules, monitoring of effluent, and general pharmaceutical quality control of the final product. Physical, imaging, chemical, and biological kinds are the four basic subtypes of biomedical FOS. Imaging sensors include cutting-edge procedures like optical coherence tomography (OCT) and photoacoustic imaging, while physical sensors monitor a number of physiological factors including body temperature, blood pressure, and muscle displacement thus enhancing the growth of the market.
The resistance temperature detectors (RTDs) segment is anticipated to witness the highest CAGR growth during the forecast period as RTD sensors provide several benefits such as high reproducibility, consistency, and accuracy that provides accurate measurement even in harsh settings Most reliable throughout time and steady over the long term A sensor called an RTD (Resistance Temperature Detector) varies in resistance as a function of temperature. As the sensor's temperature rises, the resistance rises as well. A passive device is an RTD. A platinum thin film device called the resistance temperature detector (RTD) is used to measure temperature. It is extremely repeatable, accurate, and stable thus propelling the growth of the market.
North America is projected to hold the largest market share during the forecast period owing to the increased demand for medical services in the United States. Medical sensor providers are concentrating on producing high-value equipment to meet the expanding demands. On the other hand, strict government regulations across the region and the expanding healthcare industry are anticipated to promote market expansion in this area. Additionally, the region's healthcare sector uses temperature sensors often for thermal dilution catheters, continuous biological cardiac output monitoring, etc. The market for temperature sensors is anticipated to expand at a healthy rate as a result of such developments in the region's healthcare sector and the inclusion of different types of temperature sensors in more goods.
Europe is projected to have the highest CAGR over the forecast period, owing to its technological leadership in the development of HVAC systems, wearable technology, and small systems with standalone sensors. Furthermore, the market is expected to rise moderately over the long term because to increasing awareness of the benefits of these sensors across a variety of industries, such as healthcare, oil & gas, and automotive. Additionally, the region's healthcare sector uses temperature sensors often for thermal dilution catheters, continuous biological cardiac output monitoring, etc. are driving the market.
Some of the key players profiled in the Biomedical Temperature Sensors Market include: Amphenol Advanced Sensors, TE Connectivity Ltd, Smiths Medical Inc., Minco Products Inc., Weed Instrument Co., Analog Devices Inc., Dwyer Instruments Inc., LumaSense Technologies Inc., Pyromation Inc., Texas Instruments Incorporated, NXP Semiconductors N.V., Medtronic, GE Healthcare, Analog Devices, Inc., Pinnacle Technology Inc., STMicroelectronics and Honeywell International
In August 2023, TSMC, Bosch, Infineon, and NXP Establish Joint Venture to Bring Advanced Semiconductor Manufacturing to Europe. The planned joint venture will be 70% owned by TSMC, with Bosch, Infineon, and NXP each holding 10% equity stake, subject to regulatory approvals and other conditions.
In May 2023, NIO and NXP Collaborate on 4D Imaging Radar Deployment, The cars will be able to detect and classify objects such as other vehicles and vulnerable road users in high-way and complex urban scenarios and at distances of up to 300m, bringing more safety to the roads and driving comfort for end users.
In May 2023, Medtronic to acquire wearable insulin patch maker EOFlow, The addition of EOFlow, together with Medtronic's Meal Detection Technology™ algorithm and next-generation continuous glucose monitor (CGM), is expected to expand the company's ability to address the needs of more individuals with diabetes.