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市場調查報告書
商品編碼
1683229
MEMS能源採集設備:市場佔有率分析、產業趨勢與統計、成長預測(2025-2030 年)MEMS Energy Harvesting Devices - Market Share Analysis, Industry Trends & Statistics, Growth Forecasts (2025 - 2030) |
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簡介目錄
預計預測期內 MEMS能源採集設備市場複合年成長率為 6.37%。
主要亮點
- 能源採集已經存在了幾十年,主要用於自行車發電機和太陽能電池板。然而,這項技術是一場革命,具有令人難以置信的應用,包括建築和工業自動化、汽車、智慧城市和安全系統。能源採集是滿足日益成長的能源需求和節省能源的重要工具。此外,巨量資料和物聯網技術催生了自主能源採集設備的出現,與電池相比,這些設備的維護需求更少,安裝也更簡單。
- 此外,商業建築自動化市場也正在蓬勃發展,預計隨著智慧城市計畫的興起將大幅成長。由於具有節省安裝和維護成本的潛力,能源採集無線解決方案在建築和家庭自動化領域正在迅速發展。與銅線和電池相比,能源採集無線技術是連接數千台建築設備並尋找新的監控和控制應用的理想通訊標準。
- 電子機械系統(MEMS)被認為是實現物聯網感測節點的首選技術。 MEMS 有助於將感測器/致動器、用於資訊處理和射頻通訊的電子電路、天線和能源採集整合在單一晶片或封裝上。這些設備可能與生物、化學和熱現象相互作用,包括與流體的相互作用。同時,這些設備通常與非電磁場和力相互作用,例如機械力、壓電力和熱力。 MEMS 技術是實現能源採集小型化的絕佳工具。
- 最近的趨勢是,從機械振動、熱梯度、電磁輻射和太陽輻射中能源採集方面取得了許多進展。這項進步旨在為攜帶式和個人設備提供替代傳統電池的電源。因此,製造超低功率電子設備已成為限制基於 MEMS 的收集設備採用率的主要挑戰之一。
- COVID-19 加速了以患者為中心的醫療方法的步伐,增加了對遠端患者監護的需求,包括遠端醫療、照護現場設備和穿戴式設備。追蹤人體的體溫和血壓的能力正在推動對能源採集穿戴式裝置的需求。這一趨勢為穿戴式裝置市場以及壓力、慣性、麥克風和熱電堆等整合式 MEMS 感測器創造了新的機會。
MEMS能源採集設備市場趨勢
建築和家居自動化占主要佔有率
- MEMS能源採集設備市場中的建築和家庭自動化終端應用是指使用基於 MEMS 的能源採集設備。該設備為住宅和商業建築內的各種自動化系統和設備提供動力並增強其功能。
- MEMS能源採集設備市場在建築和家庭自動化領域的最終用戶應用涵蓋許多應用。這包括無線感測器網路,用於監測溫度、濕度、空氣品質、居住和照明水平等參數。 MEMS能源採集設備還為節能 LED 照明系統、智慧恆溫器、基於區域的 HVAC 控制以及安全和監控系統供電。還包括無線保全攝影機和門禁系統。此外,它還允許您控制智慧家庭設備,例如智慧鎖、家用電器、語音助理和娛樂系統。
- 此外,正如美國Hippo Holdings 最近的一項研究強調的那樣,人們越來越注重便利性,從而推動了建築和家庭自動化的發展趨勢。根據同一項研究,便利性佔智慧家庭設備使用率的46%。 MEMS能源採集設備可以成為建築和智慧家居系統中滿足此需求的潛在解決方案。透過為照明控制、暖通空調系統、安全系統和智慧家庭設備等自動化系統供電,MEMS能源採集設備可提供無縫、個人化的體驗,提升居住者的舒適度和便利性。
- 此外,在北美,智慧家庭技術預計將在美國和加拿大等國家迅速普及。精通技術的消費者、對能源效率的重視以及積極的政府舉措等因素可能是市場成長的潛在驅動力。
- 由於越來越重視智慧型設備的能源效率、永續性和最佳化,建築和家庭自動化市場正呈現出整合 MEMS能源採集設備的趨勢。總體而言,隨著 MEMS能源採集技術的進步,建築和家庭自動化的成長軌跡預計將進一步擴大。
亞太地區發展迅速
- 亞洲國家,尤其是中國、日本、韓國和台灣,在 MEMS 技術的開發和製造方面取得了長足的進步。這些國家擁有先進的研發設施,正在推動創新並突破MEMS收集設備功能的界限。
- 亞洲是大型消費性電子市場的製造地,對智慧型手機、穿戴式裝置和物聯網設備等行動裝置的需求很高。 MEMS 收集設備提供了一個有吸引力的解決方案,可以利用環境能量為這些設備供電,減少對傳統電池的依賴。
- 由於MEMS感測器能夠減少排放氣體和燃料消耗、提高穩定性和安全性、改善乘客的舒適度和便利性,因此已成為汽車中最關鍵的部件之一。 MEMS 感測器的成本效益促進了多種用於汽車應用的感測器的開發。這些包括加速計、陀螺儀、輻射和溫度感測器、壓力和振動感測器等。
- 這些設備對於提高汽車安全性發揮關鍵作用。這一因素正成為市場成長的催化劑。 2022 年 9 月,SiTime 公司宣布推出基於先進 MEMS 技術的全新汽車振盪器系列。這款全新差分振盪器具有10倍的容錯能力,即使在極端路況和溫度下也能確保ADAS可靠運作。
- 此外,亞洲各國政府也推出了政策和舉措,推廣清潔能源技術,減少對石化燃料的依賴。例如,首屆印度-日本環境週於2023年1月舉行。印度製定了到 2070 年實現淨零排放的雄心勃勃的目標。日本已訂定了2050年實現淨零排放的目標。這些措施通常包括財政激勵、研究津貼以及與產業相關人員的合作以創造有利環境。這些政府針對清潔能源的舉措預計將推動 MEMS能源採集設備市場的成長。
MEMS能源採集設備產業概況
MEMS能源採集設備市場由許多大型供應商組成,它們擁有後向和向前整合能力,從而產生收入。市場相對集中,供應商不斷增加研發支出,以獲得技術力和相對於其他公司的競爭優勢。市場上的供應商競爭的是技術和質量,而不是價格。該市場的特點是產品差異化程度中等至高度、產品滲透率不斷提高、競爭激烈。一般來說,提供的產品包括客戶客製化。主要市場參與者包括 EnOcean Gmbh、STMicroelectronics NV、Coventor Inc.(Lam Research Corporation)、Analog Devices Inc. 和 ABB Ltd.
- 2023 年 5 月-義法半導體針對工業市場推出首款 MEMS 防水/防液體絕對壓力感測器,並宣布具有 10 年長壽命計畫。
- 2023 年 4 月-EnOcean 的創新能源採集無線技術顯著減少二氧化碳排放。截至2023年4月底,設備銷售量將超過1,900萬台,使公司減少二氧化碳排放量1,403,302噸。這主要歸功於自供電解決方案,它不再需要電池和電纜,從而使建築物更加節能。
其他福利:
- Excel 格式的市場預測 (ME) 表
- 3 個月的分析師支持
目錄
第 1 章 簡介
- 研究假設和市場定義
- 研究範圍
第2章調查方法
第3章執行摘要
第4章 市場洞察
- 市場概況
- 產業吸引力-波特五力分析
- 供應商的議價能力
- 買家的議價能力
- 新進入者的威脅
- 替代品的威脅
- 競爭對手之間的競爭強度
- 產業價值鏈分析
- COVID-19 市場影響
第5章 市場動態
- 市場促進因素
- 智慧城市的發展
- 商業應用緩慢進入工業和家庭自動化設備市場
- 市場限制
- 超低功耗電子產品
- 無線資料傳輸速度和標準
第6章 市場細分
- 依技術分類
- 振動能源採集
- 能源採集
- 射頻能源採集
- 其他能源採集
- 按最終用戶應用
- 車
- 產業
- 軍事和航太
- 建築和家居自動化
- 消費性電子產品
- 其他最終用戶應用程式
- 按地區
- 北美洲
- 歐洲
- 亞太地區
- 世界其他地區
第7章 競爭格局
- 公司簡介
- EnOcean Gmbh
- STMicroelectronics NV
- Coventor Inc.(Lam Research Corporation)
- Analog Devices Inc
- ABB Ltd
- Cymbet Corp
- Micropelt(EH4 GmbH)
第8章投資分析
第9章 市場機會與未來趨勢
簡介目錄
Product Code: 66883
The MEMS Energy Harvesting Devices Market is expected to register a CAGR of 6.37% during the forecast period.
Key Highlights
- Energy harvesting is used for decades for bicycle dynamos or solar panels. However, this technology is a revolution with staggering applications in building and industry automation, automotive vehicles, smart cities, and security systems. Notably, governments and favorable public initiatives are the major drivers for energy harvesting demand growth as public actors consider energy harvesting a crucial tool for meeting the increasing energy demand and saving energy. In addition, Big Data and IoT technologies led to autonomous energy-harvesting devices that require less maintenance and are easier to install than batteries.
- Moreover, the market for commercial building automation is also booming and is expected to experience significant growth with rising smart city initiatives. Energy harvesting wireless solutions find surging applications in building and home automation owing to their high cost-saving potential in installation and maintenance. Compared to copper wiring or batteries, energy-harvesting wireless technology is the ideal communication standard to interconnect thousands of building devices and find new monitoring and control applications.
- Microelectromechanical systems (MEMS) are considered the most suitable technology to realize IoT-sensing nodes. It facilitates the integrated fabrication of sensors/actuators, electronic circuits for information processing and radio frequency communication, antennas, and energy harvesters on a single chip or package. They may interact with biological, chemical, and thermal phenomena, including fluid interaction. At the same time, these devices usually interact with non-electromagnetic fields and forces, such as mechanical forces, piezoelectric and thermoelectric forces, among others. It promoted MEMS technology as an excellent tool for miniaturizing energy harvesters.
- In recent years, much development is made in energy harvesting from mechanical vibrations, thermal gradients, electromagnetic radiations, and solar radiations. This progress is made to provide alternative power sources to operate portable and personal gadgets instead of traditional batteries. As a result, the creation of ultra-low-power electronic devices became one of the main challenges likely to limit the adoption rate of MEMS-based harvesting devices.
- COVID-19 accelerated the pace towards a more patient-centric approach and increased the need for remote patient monitoring, including telehealth, point-of-care devices, and wearables. There is a growing demand for energy harvesters' wearables owing to their ability to track peoples' temperature and blood pressure. This trend created new opportunities in the wearables market, as well as for integrated MEMS sensors, such as pressure, inertial, microphones, thermopiles, etc.
MEMS Energy Harvesting Devices Market Trends
Building and Home Automation to Hold Major Share
- Building and home automation end-user application in the MEMS energy harvesting devices market refers to using MEMS-based energy harvesting devices. The devices power and enhance various automated systems and devices within residential and commercial buildings.
- The building and home automation end-user application in the MEMS energy harvesting devices market encompasses many applications. These include wireless sensor networks for monitoring parameters such as temperature, humidity, air quality, occupancy, and lighting levels. MEMS energy harvesting devices also power energy-efficient LED lighting systems, smart thermostats, zone-based HVAC controls, and security and surveillance systems. It also includes wireless security cameras and access control systems. Additionally, they enable the operation of smart home devices such as smart locks, appliances, voice-activated assistants, and entertainment systems.
- Further, the trend of building and home automation is driven by the increasing emphasis on convenience, as highlighted by Hippo Holdings' recent survey in the United States. It stated that convenience accounts for 46% of the utilization of smart home devices across all demographics. MEMS energy harvesting devices could be a potential solution to be adopted in building and home automation systems to meet this demand. By powering automated systems such as lighting controls, HVAC systems, security systems, and smart home devices, MEMS energy harvesting devices provide seamless and personalized experiences, enhancing occupants' comfort and convenience.
- Moreover, in North America, countries such as the United States and Canada are expected to witness rapid adoption growth of smart home technologies. Factors such as the presence of tech-savvy consumers, a strong emphasis on energy efficiency, and favorable government initiatives might be potential factors responsible for the market's growth.
- The building and home automation market is witnessing a growing trend towards integrating MEMS energy harvesting devices, owing to the rising emphasis on energy efficiency, sustainability, and the optimization of smart devices. Overall, the growth trajectory of building and home automation, coupled with advancements in MEMS energy harvesting technology, is expected to witness further expansion.
Asia-Pacific to Witness Fastest Growth
- Asian countries, particularly China, Japan, South Korea, and Taiwan, made significant strides in developing and manufacturing MEMS technologies. These countries include advanced research and development facilities, fostering innovation and pushing the boundaries of MEMS harvesting device capabilities.
- Asia is a manufacturing hub for a large consumer electronics market, with a high demand for portable devices such as smartphones, wearables, and IoT devices. MEMS harvesting devices provide an attractive solution for powering these devices by harnessing ambient energy, reducing the dependence on traditional batteries.
- Also, MEMS sensors became one of the most important components in automobiles due to their ability to reduce emissions and fuel consumption, increase stability and safety, and improve the comfort and convenience of passengers. The cost-effective capability of MEMS sensors led to the development of several sensors for automotive applications. It includes accelerometers, gyroscopes, radiation and temperature sensors, and pressure and vibration sensors.
- These devices play a critical role in improving the safety of vehicles. This factor acts as the catalyst for the growth of the market. In September 2022, SiTime Corporation introduced a new automotive oscillator family based on its advanced MEMS technology. The new differential oscillators are 10x more resilient and ensure reliable operation of ADAS across extreme road conditions and temperatures.
- Moreover, governments across Asia implemented policies and initiatives to promote clean energy technologies and reduce reliance on fossil fuels. For instance, in January 2023, the first India-Japan environment week took place during the event. India set an ambitious target of achieving net zero by 2070. Japan initiated a goal of becoming net zero by 2050. These measures often include financial incentives, research grants, and collaborations with industry players, creating a conducive environment. These initiatives by the government for clean energy will increase the growth of the MEMS harvesting device market.
MEMS Energy Harvesting Devices Industry Overview
The MEMS energy harvesting device market comprises many large-scale vendors capable of backward and forward integration and commands significant revenue generation capabilities. The market is relatively consolidated, and vendors increasingly spend on R&D to gain technological capabilities and a competitive edge over other enterprises. The vendors in the market are competing on technology and quality rather than on price. This market is characterized by moderate-to-high product differentiation, growing levels of product penetration, and high levels of competition. Generally, the products offered include customer customizations. Some of the major market players are EnOcean Gmbh, STMicroelectronics NV, Coventor Inc. (Lam Research Corporation), Analog Devices Inc., and ABB Ltd.
- May 2023- STMicroelectronics introduced the first MEMS water/liquid-proof absolute pressure sensor with a declared 10-year longevity program for the industrial market.
- April 2023- EnOcean's innovative energy-harvesting wireless technology significantly reduces carbon emissions. As of the end of April 2023, with over 19,000,000 devices sold, the company could save a remarkable 1,403,302 tons of CO2. It is primarily because of its self-powered solutions that eliminate the need for batteries or cables and helps make buildings more energy efficient.
Additional Benefits:
- The market estimate (ME) sheet in Excel format
- 3 months of analyst support
TABLE OF CONTENTS
1 INTRODUCTION
- 1.1 Study Assumptions and Market Definition
- 1.2 Scope of the Study
2 RESEARCH METHODOLOGY
3 EXECUTIVE SUMMARY
4 MARKET INSIGHTS
- 4.1 Market Overview
- 4.2 Industry Attractiveness - Porter's Five Forces Analysis
- 4.2.1 Bargaining Power of Suppliers
- 4.2.2 Bargaining Power of Buyers
- 4.2.3 Threat of New Entrants
- 4.2.4 Threat of Substitute Products
- 4.2.5 Intensity of Competitive Rivalry
- 4.3 Industry Value Chain Analysis
- 4.4 Impact of COVID-19 on the Market
5 MARKET DYNAMICS
- 5.1 Market Drivers
- 5.1.1 Growth of Smart Cities
- 5.1.2 Commercial Applications are Slowly Getting into the Market for Industrial Applications and Home Automation Appliances
- 5.2 Market Restraints
- 5.2.1 Ultra Low Power Electronics
- 5.2.2 Wireless Data Transmissions Rates and Standards
6 MARKET SEGMENTATION
- 6.1 By Technology
- 6.1.1 Vibration Energy Harvesting
- 6.1.2 Thermal Energy Harvesting
- 6.1.3 RF Energy Harvesting
- 6.1.4 Other Types of Energy Harvesting
- 6.2 By End-user Applications
- 6.2.1 Automotive
- 6.2.2 Industrial
- 6.2.3 Military and Aerospace
- 6.2.4 Building and Home Automation
- 6.2.5 Consumer Electronics
- 6.2.6 Other End-user Applications
- 6.3 By Geography
- 6.3.1 North America
- 6.3.2 Europe
- 6.3.3 Asia-Pacific
- 6.3.4 Rest of the World
7 COMPETITIVE LANDSCAPE
- 7.1 Company Profiles
- 7.1.1 EnOcean Gmbh
- 7.1.2 STMicroelectronics NV
- 7.1.3 Coventor Inc. (Lam Research Corporation)
- 7.1.4 Analog Devices Inc
- 7.1.5 ABB Ltd
- 7.1.6 Cymbet Corp
- 7.1.7 Micropelt (EH4 GmbH)
