全球汽車 MEMS 壓力感測器市場規模（按產品、應用、地區、範圍和預測）

Global Auto MEMS Pressure Sensor Market Size By Product (Pressure Sensor, Temperature Sensor), By Application (Passenger Cars, Commercial Cars), By Geographic Scope And Forecast

出版日期: 2024年08月09日 | 出版商:

Verified Market Research | 英文 202 Pages | 商品交期: 2-3個工作天內

價格

簡介目錄

汽車MEMS壓力感知器市場規模及預測

2024 年汽車 MEMS 壓力感測器市場規模價值 28.9 億美元，預計到 2031 年將達到 44.4 億美元，2024 年至 2031 年的複合年增長率為 2.1%。由於政府法規和終端用戶對提高車輛安全性的看法轉變，全球汽車 MEMS 壓力感測器市場正在經歷強勁成長。此外，小型化、城市人口成長、對環境問題的日益關注以及中產階級可支配收入的增加等各種趨勢也在推動市場成長。本研究報告對全球汽車MEMS壓力感測器市場進行了全面的評估。它對關鍵細分市場、趨勢、市場推動因素、市場阻礙因素、競爭格局以及在市場中發揮關鍵作用的因素進行了全面的分析。

汽車 MEMS 壓力感測器的全球市場定義

微機電系統 (MEMS) 設備將微小的機械和電子元件組合在矽晶片上。彈簧、可變形膜、振動結構、閥門、齒輪和槓桿等機械部件的製造技術與製造電晶體、互連線和積體電路 (IC) 上的其他部件的製造技術相同。利用該技術可以製造幾種不同類型的壓力感測器。將精確感應、強大處理和無線通訊（如 Wi-Fi 和藍牙）結合到單一積體電路 (IC) 中成為可能。可以同時生產大量設備，提供與傳統積體電路相同的成本和規模優勢。

在微觀尺度上創造，卻產生宏觀尺度的影響。壓力感測器是一種測量壓力的儀器，尤其是測量液體或氣體的壓力。當施加壓力時，壓力感測器會充當換能器（將一種形式的能量轉換為另一種形式的能量）並產生電訊號。電子元件可以建構在同一晶片上，以測量感測器的輸出、實現訊號處理並提供無線通訊。汽車MEMS感測器具有性能高、體積小、成本低的優點。 MEMS壓力感測器用於各種行業的監控和控制系統，包括工業、汽車、醫療、家用電器和高端設備。

MEMS 壓力感測器也用於多種能量領域，包括電、機械、熱、磁、化學和輻射。壓力感測器長期以來一直用於醫學領域的非侵入性應用，例如控制呼吸器的氣壓和檢查血壓。最近，MEMS 裝置的小型化使其能夠用於侵入性應用，例如導管尖端感測器和監測血壓和心率等特徵的植入式裝置。典型的包裝由固體材料製成，且具有鋒利的邊緣，很難適合醫療用途的生物環境。這可以透過用電線或生物相容性塑膠覆蓋設備來實現。 MEMS 裝置的緊湊尺寸、低功耗和長期穩定性也使其非常適合航空航天等對長壽命和可靠性至關重要的應用。

自動化 MEMS 壓力感測器的全球市場概覽

全球汽車 MEMS 壓力感測器市場主要受到政府為提高車輛安全性而出台的法規以及最終用戶前景的範式轉移所推動。隨著穩定控制、ADAS 單元和碰撞檢測系統等應用的發展，汽車產業是高階 IMU 的新興市場。未來幾年，隨著高端汽車製造商擁抱 L5 自動駕駛，該市場將為與探索、雷射雷達和運動偵測系統相關的配備 IMU 的 MEMS 感測器開闢巨大的機會。

此外，小型化、城市人口成長、環境問題日益嚴重以及中產階級可支配收入增加等各種趨勢也在推動市場成長。此外，電動車（EV）在行業中的發展正在極大地影響壓力和磁性感測器的需求和分佈，並有望在長期內進一步推動需求。電動車銷量的增加推動了對感測器的需求，包括用於監測舊電池的感測器以及用於定位和檢測車輛內各種運動部件的感測器。

當今，汽車產業的兩個突出趨勢是電氣化和自動化。在汽車產業，RADAR、LIDAR、影像處理等高價值感測模組的綜合化正在加速。因此，預計預測期內 MEMS 感測器的銷售將大幅成長。然而，由於新冠疫情導致工廠關閉，北美，尤其是美國的汽車製造商正面臨越來越大的壓力。

聯邦、州和地方政府已開始建議人們盡可能待在家裡。這擾亂了多個產業的供應鏈。例如，福特和通用汽車在冠狀病毒爆發期間已停止了北美某些製造工廠的生產。因此，預計這些趨勢將在短期內影響市場成長。

Auto MEMS Pressure Sensor Market size was valued at USD 2.89 Billion in 2024 and is projected to reach USD 4.44 Billion by 2031, growing at a CAGR of 6.10% during the forecasted period 2024 to 2031. The Global Auto MEMS Pressure Sensor Market has witnessed strong growth owing to the shifting paradigms in government regulations and end-users perspectives toward improved safety in automobiles. Moreover, various driving trends such as miniaturization, increasing urban population, increasing environmental concerns, and rising disposable income of the middle-class population are also driving the market growth. The Global Auto MEMS Pressure Sensor Market report provides a holistic evaluation of the market. The report offers a comprehensive analysis of key segments, trends, drivers, restraints, competitive landscape, and factors that are playing a substantial role in the market.

Global Auto MEMS Pressure Sensor Market Definition

Microelectromechanical systems (MEMS) devices consolidate minute mechanical and electronic elements on a silicon chip. Mechanical parts including springs, deformable membranes, vibrating structures, valves, gears, and levers can be made using the same manufacturing techniques that are used to make transistors, interconnect, and other components on integrated circuits (ICs). Several different types of pressure sensors can be created using this technique. It makes it possible to integrate precise sensing, potent processing, and wireless communication (like Wi-Fi or Bluetooth) on a single integrated circuit (IC). Since many devices may be produced simultaneously, they enjoy the same cost and scale advantages as conventional ICs.

They are built on the micro-scale yet create effects on a macro scale. A pressure sensor is an instrument to measure pressure, especially of liquids or gases. A pressure sensor acts as a transducer (transform one form of energy into another) and produces electrical signals when pressure is utilized. Electronic components can be built on the same chip to measure the output of the sensors, implement signal processing, and provide wireless communication. Automotive MEMS sensors provide several advantages of high performance, small size, and low cost. The MEMS pressure sensors are used in monitoring and managing systems used in several industries such as industrial, automotive, medical, consumer electronics, and high-end devices, among others.

Also, MEMS Pressure Sensors are used in numerous energy domains, which involve electrical, mechanical, thermal, magnetic, chemical, and radiant. In non-invasive applications like managing the air pressure in breathing equipment and checking blood pressure, pressure sensors have been utilized in medicine for a long time. More recently, the miniaturization offered by MEMS devices has allowed usage in invasive applications like catheter tip sensors as well as for implanted devices monitoring characteristics like blood pressure and heart rate. Making the typical package, which is constructed of solid material and has sharp edges, suitable for the biological environment is difficult for medical purposes. This can be accomplished by covering the device in wire or biocompatible plastic. MEMS devices are also ideally suited for applications like aerospace where long life and dependability are important because of their compact size, low power consumption, and long-term stability.

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Global Auto MEMS Pressure Sensor Market Overview

The Global Auto MEMS Pressure Sensor Market is principally driven by shifting paradigms in government regulations and end-users perspectives toward improved safety in automobiles. The automotive industry is a developing market for high-end IMUs, following developments in utilization, such as stability control, ADAS units, and crash detection systems. As the premium automakers would address L5 autonomous driving in the next several years, the market studied would open a huge opportunity for IMU-powered MEMS sensors related to expedition, LiDAR, and motion detection systems.

In addition, various driving trends such as miniaturization, increasing urban population, increasing environmental concerns, and rising disposable income of the middle-class population is also driving the market growth. Furthermore, the evolution of electric vehicles (EV) in the industry has dramatically impacted the demand and distribution of pressure, and magnetic sensors within, and is anticipated to further boost the demand in the long term. Growing sales of electric cars, thereby raise the demand for sensors and a swell in sensors for used battery monitoring and different positioning and detection of moving parts of the automobiles.

Presently, the two notable trends in the automotive industry have been electrification and automation. There has been an accelerated synthesis of high-value sensing modules, like RADAR, LIDAR, and imaging in automotive operations. As a result, the extension in the MEMS sensor's sales volume is anticipated to be significant during the forecast period. However, automakers in North America, particularly in the United States have faced intensified pressure to shut down their factories due to the COVID-19 pandemic.

After the federal, state, and local governments started suggesting people stay in their homes as much as feasible. This has led to supply chain disruptions across multiple industries. For example, Ford and General Motors have discontinued production at their particular manufacturing facilities in North America amid the coronavirus outbreak. Hence, such trends are anticipated to affect the market's growth in the short run.

Global Auto MEMS Pressure Sensor Market: Segmentation Analysis

The Global Auto MEMS Pressure Sensor Market is Segmented on the basis of Product,

Application,

and Geography.

Auto MEMS Pressure Sensor Market, By Product

Pressure Sensor
Temperature Sensor
Position Sensor
Speed Sensor
Level Sensor
Inertial Sensor

Based on Product, the market is bifurcated into Pressure Sensor, Temperature Sensor, Position Sensor, Speed Sensor, Level Sensor, and Inertial Sensor. The Pressure Sensor segment is estimated to witness the highest CAGR for the forecast period. The factors that can be attributed to the growth of the segment are associated with increasing demand in the powertrain of the automobile for numerous controls and sensing applications like a turbocharger, fuel injection, and oil pressure sensor. Moreover, increasing demand for image sensors, cameras, and radar-based sensors in superior vehicles such as autonomous cars and electric cars is expected to drive the growth of the position sensor segment in the targeted market.

Auto MEMS Pressure Sensor Market, By

Application
Passenger Cars
Commercial Cars

Based on Application, the market is bifurcated into Passenger Cars and Commercial Cars. The passenger cars segment dominated the highest market share of the Global Auto MEMS Pressure Sensor Market. However, the commercial cars segment is estimated to witness the highest CAGR for the forecast period. The factors that can be attributed to the growth of the segment are associated with the increasing demand for MEMS pressure sensors for improved safety in cars.

Auto MEMS Pressure Sensor Market, By

Geography
North America
Europe
Asia Pacific
Latin America
Middle East and Africa

Based on regional analysis, the Auto MEMS Pressure Sensor Market is classified into North America, Europe, Asia Pacific, Latin America, the Middle East, and Africa. The market in North America is anticipated to grow the highest growth during the forecast period. The United States is one of the most comprehensive automotive manufacturing hubs in the world. The economic growth of the region posed an impact on the sale of passenger cars and commercial vehicles. With shifting dynamics in the industry, automotive manufacturers are shifting toward electric vehicles and autonomous vehicles, to meet the demands of next-generation consumers. Electric vehicle use in the United States has expanded rapidly, with an expected one percent of automotive sales in the US market coming from electric vehicles.

Key Players

The "Global Auto MEMS Pressure Sensor Market" study report will provide valuable insight with an emphasis on the global market. The major players in the market are
Analog Devices, Autoliv, Melexis, Allegro Microsystems, Bourns, Continental, Delphi Automotive, Denso, Elmos Semiconductor, General Electric, Infineon Technologies, NXP Semiconductors, and Bosch.
The competitive landscape section also includes key development strategies, market share, and market ranking analysis of the above-mentioned players globally.