市場調查報告書
商品編碼
1476352
2030 年微機電系統感測器市場預測:按產品類型、應用和地區分類的全球分析Micro Electro Mechanical Systems Sensors Market Forecasts to 2030 - Global Analysis By Product Type, Application and By Geography |
根據 Stratistics MRC 的數據,2023 年全球微機電系統感測器市場規模為 161 億美元,預計到 2030 年將達到 370 億美元,預測期內複合年成長率為 12.6%。
微機電系統(MEMS)感測器市場是指專注於開發、生產和分銷與電子電路整合的極小型機械和電子機械設備的行業,微米。這些感測器旨在準確可靠地檢測和測量各種物理現象,例如加速度、壓力、溫度、運動和環境條件。
根據印度品牌股權基金會統計,印度是全球第二大智慧型手機製造國,截至 2018 年 7 月擁有 120 家工廠,2017 年至 2018 年間生產了約 2.25 億支手機。
穿戴式裝置的需求不斷成長
微機電系統 (MEMS) 感測器是穿戴式技術的重要組成部分,可實現運動追蹤、心率監測和環境感測等功能。隨著消費者擴大將穿戴式裝置融入日常生活中以實現健身追蹤、健康監測和智慧連接,對 MEMS 感測器的需求持續飆升。 MEMS 感測器尺寸小、功耗低、精度高,非常適合整合到穿戴式裝置中,從而提高其性能和用戶體驗。
製造成本
MEMS 感測器是設計複雜的設備,在微型尺度上整合了機械和電氣元件,因此需要複雜的製造流程。這些工藝涉及精密加工和精密組裝,並且通常使用昂貴的材料和無塵室設備。因此,MEMS感測器的製造成本仍然相對較高。製造成本的增加直接影響MEMS感測器的最終價格,使其無法進入某些細分市場並阻礙普及。
MEMS 技術的進步
MEMS 技術允許精細地整合機械和電氣元件,從而生產出能夠測量壓力、加速度、溫度和流量等各種物理參數的高靈敏度感測器。這些感測器廣泛應用於各種行業,包括汽車、消費性電子、醫療保健和航太。 MEMS 製造技術的持續創新,例如微影術和蝕刻,使製造商能夠生產具有改進性能特徵的感測器,例如更高的靈敏度、更低的功耗和更高的可靠性。
缺乏標準化的測試程序
由於缺乏普遍認可的測試通訊協定,製造商在確保 MEMS 感測器產品的可靠性和一致性方面面臨障礙。缺乏標準化程序不僅使品質保證過程複雜化,而且還阻礙了不同感測器技術和設備之間的互通性。因此,消費者很難比較不同製造商的產品,這可能導致不確定的購買決定。缺乏標準化測試可能會阻礙創新並阻礙 MEMS 感測器技術的整體進步,因為開發人員可能難以滿足全行業的性能基準。
最初,全球供應鏈和製造流程的中斷導致生產放緩和關鍵零件短缺,影響了 MEMS 感測器的可用性。疫情造成的景氣衰退導致汽車、家電、醫療保健等產業的消費者支出和投資下降,這些產業是MEMS感測器的主要消費者。然而,隨著疫情的發展,對醫療設備、個人防護設備、遠端醫療監控系統等中使用的某些類型的 MEMS 感測器的需求增加。
預計致動器產業在預測期內將是最大的
預計致動器領域在預測期內將是最大的。致動器將電訊號轉換為機械運動,透過提供一種對感測器收集的資料採取行動的方法來補充 MEMS 感測器。這種協同效應可實現廣泛的應用,從汽車和消費性電子產品到醫療保健和工業自動化。 MEMS 感測器可偵測環境中的變化,例如運動、壓力或溫度,致動器透過啟動特定操作(例如調節閥門或啟動顯示器)對這些變化做出反應。
預計國防部門在預測期間內複合年成長率最高
在微機電系統感測器市場中,預計國防領域在預測期內的複合年成長率最高。這一成長主要歸因於全球國防技術投資的增加。這一趨勢是由導航、目標檢測和監視等國防應用中對微機電系統感測器的需求所推動的。此外,微機電系統感測器技術的進步正在提高國防系統的性能和可靠性,進一步促進該領域的預期成長軌跡。
北美地區在預測期內佔據最大的市場佔有率。隨著家用電子電器不斷發展並日益融入日常生活,對更小、更有效率、更準確的感測器的需求正在迅速增加。 MEMS 感測器體積小,可偵測和測量運動、壓力、溫度和環境條件等各種參數,使其成為智慧型手機、穿戴式裝置、遊戲機和其他電子設備的重要組件。對家用電子電器增強功能、改進性能和無縫連接的需求推動了對 MEMS 感測器不斷成長的需求。
預計亞太地區在預測期內將實現盈利成長。要求車輛採用先進感測器技術以確保安全並符合排放標準的法規正在推動汽車領域 MEMS 感測器的成長。同樣,政府推動智慧基礎設施和物聯網技術採用的舉措正在推動建築自動化和工業應用中對 MEMS 感測器的需求。
According to Stratistics MRC, the Global Micro Electro Mechanical Systems Sensors Market is accounted for $16.1 billion in 2023 and is expected to reach $37.0 billion by 2030 growing at a CAGR of 12.6% during the forecast period. The Micro Electro Mechanical Systems (MEMS) Sensors Market refers to the industry focused on the development, production, and distribution of tiny mechanical and electromechanical devices integrated with electronic circuits, typically ranging from a few micrometers to a few millimeters in size. These sensors are designed to detect and measure various physical phenomena such as acceleration, pressure, temperature, motion, and environmental conditions with high precision and reliability.
According to Indian Brand Equity Foundation, India is world's second largest manufacturer of smart phones, with 120 factories as of July 2018, with around 225 million mobile units produced during 2017-2018.
Growing demand for wearable devices
Micro Electro Mechanical Systems (MEMS) Sensors are integral components in wearable technology, enabling functionalities such as motion tracking, heart rate monitoring, and environmental sensing. As consumers increasingly integrate wearables into their daily lives for fitness tracking, health monitoring, and smart connectivity, the demand for MEMS sensors continues to surge. Their miniature size, low power consumption, and high precision make MEMS sensors ideal for integration into wearable devices, enhancing their performance and user experience.
Cost of production
MEMS sensors are intricately designed devices that integrate mechanical and electrical components on a microscale, requiring sophisticated manufacturing processes. These processes involve precision machining, delicate assembly, and often the use of expensive materials and cleanroom facilities. As a result, the production costs for MEMS sensors remain relatively high. This elevated cost of production directly impacts the final price of MEMS sensors, making them less accessible to certain market segments, hindering widespread adoption across various industries.
Advancements in MEMS technology
MEMS technology allows for the integration of mechanical and electrical components on a microscopic scale, leading to the production of highly sensitive sensors capable of measuring various physical parameters such as pressure, acceleration, temperature, and flow. These sensors find applications across diverse industries including automotive, consumer electronics, healthcare, and aerospace. With continuous innovations in MEMS fabrication techniques, such as photolithography and etching, manufacturers can produce sensors with improved performance characteristics like higher sensitivity, lower power consumption, and enhanced reliability.
Lack of standardized testing procedures
Without universally agreed-upon testing protocols, manufacturers face hurdles in ensuring the reliability and consistency of their MEMS sensor products. This absence of standardized procedures not only complicates the quality assurance process but also inhibits interoperability between different sensor technologies and devices. As a result, consumers may encounter difficulties in comparing products from various manufacturers, leading to uncertainty in purchasing decisions. The absence of standardized testing can hinder innovation and hinder the advancement of MEMS sensor technology as a whole, as developers may struggle to meet industry-wide performance benchmarks.
Initially, disruptions in global supply chains and manufacturing processes led to production slowdowns and shortages of key components, affecting the availability of MEMS sensors. The economic downturn caused by the pandemic resulted in decreased consumer spending and reduced investments in industries such as automotive, consumer electronics, and healthcare, which are major consumers of MEMS sensors. However, as the pandemic progressed, there emerged a heightened demand for certain types of MEMS sensors, such as those used in medical devices, personal protective equipment, and monitoring systems for remote healthcare.
The actuators segment is expected to be the largest during the forecast period
Actuators segment is expected to be the largest during the forecast period. Actuators, which convert electrical signals into mechanical motion, complement MEMS sensors by providing the means to act upon the data collected. This synergy enables a wide array of applications, from automotive and consumer electronics to healthcare and industrial automation. MEMS sensors detect changes in their environment, such as motion, pressure, or temperature, while actuators respond to these changes by initiating specific actions, such as adjusting a valve or activating a display.
The defense segment is expected to have the highest CAGR during the forecast period
In the Micro Electro Mechanical Systems Sensors Market, the defense segment is projected to experience the highest CAGR during the forecast period. This growth is primarily attributed to increasing investments in defense technologies worldwide. The demand for Micro Electro Mechanical Systems sensors in defense applications such as navigation, target detection, and surveillance is driving this trend. Additionally, advancements in Micro Electro Mechanical Systems sensor technology, enhancing their performance and reliability in defense systems, further contribute to the segment's anticipated growth trajectory.
North America region commanded the largest market share over the projected period. As consumer electronics continue to evolve and become increasingly integrated into daily life, the need for smaller, more efficient, and precise sensors has surged. MEMS sensors, with their compact size and ability to detect and measure various parameters such as motion, pressure, temperature, and environmental conditions, have become indispensable components in smartphones, wearables, gaming consoles, and other electronic devices. This escalating demand for MEMS sensors is being driven by the desire for enhanced functionalities, improved performance, and seamless connectivity in consumer electronics.
Asia Pacific region is poised to witness profitable growth over the extrapolated period. Regulations mandating the incorporation of advanced sensor technologies in vehicles to ensure safety and compliance with emission standards are fostering the growth of MEMS sensors in the automotive sector. Similarly, government initiatives promoting the adoption of smart infrastructure and IoT technologies are fueling the demand for MEMS sensors in building automation and industrial applications.
Key players in the market
Some of the key players in Micro Electro Mechanical Systems Sensors market include Alps Electric Co. Ltd, AMS AG, Analog Devices Inc, Avago Technologies, Freescale Semiconductor Inc, Infineon Technologies, InvenSense Inc, MegaChips Corporation, Memsic Inc, Panasonic, Robert Bosch GmbH, Seiko Epson Corporation, STMicroelectronics N. V. and Texas Instruments Inc.
In February 2024, Analog Devices Inc has revealed a strategic partnership with TSMC, the global leader in semiconductor foundry services. This collaboration aims to enhance Analog Devices' future wafer capacity by leveraging Japan Advanced Semiconductor Manufacturing, Inc.
In April 2023, Robert Bosch GmbH announced plans to buy TSI Semiconductors, a major maker of silicon carbide chips. Bosch did divulge that it plans to spend $1.5 billion on upgrading TSI's production lines. The company said that the investment will depend on federal funding opportunities and state-level economic development initiatives.