能源採集系統：市場佔有率分析、產業趨勢與統計、成長預測（2025-2030 年）

Energy Harvesting Systems - Market Share Analysis, Industry Trends & Statistics, Growth Forecasts (2025 - 2030)

出版日期: 2025年01月05日 | 出版商:

Mordor Intelligence | 英文 120 Pages | 商品交期: 2-3個工作天內

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簡介目錄

預計預測期內能源採集系統市場複合年成長率將達到 9.8%。

主要亮點

物聯網設備在自動化領域的普及、都市區的擴張、對可靠、安全和持久系統的需求不斷成長、綠色能源日益普及、能源採集技術在建築和家庭自動化領域的廣泛使用、政府的支持性政策等，都是預計將在預測期內促進市場擴張。
能源採集系統主要用於感測器、手錶和家用電器等低功率電力公共事業。這些系統為電池等傳統電源提供了有效的替代方案。
此外，政府的支持性政策、日益增強的環保意識以及溫室氣體排放的減少也有助於推動對此類技術的需求。
使用能源採集系統具有優勢，因為它允許連接的設備長時間運行而不會對環境造成任何負面影響。此外，在包括光能、熱能、射頻能源、動能、化學/生物能等各種環境能源來源中，最常用的能源採集系統是太陽能、熱能和它是一種能量，振動能量。
能源採集系統也部署在需要備用電池的應用中，主要是在難以到達電池的偏遠地區。能源採集系統中使用的發射器和接收器需要彼此靠近安裝，以實現更好的訊號傳輸。當這些感測器安裝在遠端位置時，很難在中央接收器上收集資料。
新冠肺炎疫情的爆發對中國的太陽能產業和經濟產生了重大影響。出口情況仍未完全了解。這種延遲可能會限制能源採集系統的發展。

能源採集系統市場趨勢

消費性電子產品佔據很大市場佔有率

能源採集系統擴大應用於穿戴式裝置、智慧型手機、遙控器、無線裝置、身體植入等消費性電子產品。
此外，能源採集系統使消費性電子產品能夠在沒有傳統電源的地方運作。這些特性擴展了應用範圍並消除了設備必須始終靠近電源的地理限制。這些特點推動了能源採集系統在家用電子電器中的應用。
例如，能源採集系統用於遠端控制裝置，從使用者按下按鈕的力量中獲取電能。最近，ARM 開發了這樣一款設備，利用了 ARM Cortex-M0+ 處理器的低功耗特性。
收集的能量可用於大多數無線應用、身體植入、穿戴式裝置和其他低功耗應用。即使捕獲的能量不足以為整個設備供電，它仍然可以用來延長傳統電池的壽命。
例如，香港中文大學的研發部門開發出一種裝置，可在行走時從人體膝蓋獲取能量，且無需顯著增加佩戴者的體力。演示的設備可產生高達 1.6mW 的功率，而不會顯著改變呼吸模式。
連網型設備的激增以及對更便宜、更可靠能源來源的需求正在推動消費性電子產業能源採集系統的成長。

北美佔有最大市場佔有率

隨著該地區技術持續快速進步，北美正在成為投資建築和家庭自動化、採用可再生能源和推動能源採集系統需求的最重要市場。
該地區的大部分收益來自美國。由於政府希望實現國家能源獨立以及工業和運輸業的蓬勃發展，該行業預計將大幅擴張。
與其他市場相比，北美市場對工業IoT的採用程度更高，推動了對能源採集系統的需求。
政府減少老舊建築和公共設施能源排放的計劃也促進了這一成長。例如，美國總務管理局已與 IBM 簽署契約，在聯邦政府能源最密集型的 50 座建築中安裝先進的智慧建築技術。
此外，智慧城市計劃的推出也改變了當地的市場環境。除了舉辦活動促進全國參與智慧城市建設的城市、企業和大學之間的合作和知識共用外，該計劃還包括各種津貼資助計劃。

能源採集系統產業概況

能源採集系統市場競爭激烈。其中，ABB Limited 和 STMicroelectronics NV 是該市場兩大競爭對手。然而，一些新參與企業正透過其產品線的重大進步吸引大量投資進入該行業。

2022 年 9 月，E-Peas SA 和 Energous Corporation 宣布推出一款新型無線儲能能源採集智慧建築/智慧家庭、工業IoT醫療以及零售和倉庫中的資產追蹤器中的能量收集套件而開發。該套件包括兩塊來自 E-Peace 的評估板（AEM30940 RF 評估板和 EP112能源採集最佳化天線評估板），可協助設備製造商將無線電源和能源採集實現到各種連網型設備。 PowerBridge 發射器提供無線解決方案

其他福利：

Excel 格式的市場預測 (ME) 表
3 個月的分析師支持

Key Highlights

The widespread use of IoT devices in automation, the expansion of urban areas, the rising demand for reliable, safe, and long-lasting systems, the increasing popularity of green energy, the widespread adoption of energy harvesting technology in building and home automation, and supportive government policies are all anticipated to contribute to the market's expansion during the forecast period.
Energy harvesting systems are primarily used in low-power electrical utilities, such as sensors, watches, and home appliances. These systems provide an efficient alternative to conventional power sources, like batteries.
Moreover, supportive government policies and increased awareness about the environment, along with the reduction in the emission of greenhouse gases, have helped raise the demand for such technologies.
Using energy harvesting systems is advantageous since the connected devices can run for a very long time without causing adverse environmental effects. Additionally, the solar, thermal, and vibrational energy forms of energy are those that energy harvesting systems use the most frequently among the various sources of ambient energy, including light energy, thermal energy, radiofrequency energy, kinetic energy, chemical/biological energy, and others.
The energy harvesting systems are also deployed in applications that require a backup battery, and primarily battery is located remotely at a difficult place to reach. The transmitters and receivers used in the energy harvesting systems should be installed close to each other for better signal transmission. Collecting data at the central receiver is difficult when these sensors are deployed in remote locations.
Owing to the outbreak of the COVID-19 pandemic, the Chinese solar industry and its economy are reeling under the impact. The exports are yet to be gauged fully. Such delay would restrict the growth of the energy harvesting systems.

Energy Harvesting Systems Market Trends

Consumer Electronics to Hold Significant Market Share

Energy harvesting systems are increasingly used in consumer electronics, such as wearables, smartphones, remote control units, wireless appliances, body implants, etc.
Moreover, Energy harvesting systems allow consumer electronic products to operate where conventional power sources are unavailable. Such features extend the use and eliminate the geographical constraint for devices to always be near a power source. Such features are driving the use of energy harvesting systems in consumer electro.
For instance, energy harvesting systems are used in remote control units, where power is harvested from the force applied by the user in pressing the button. Recently, ARM has built such a device with the low power of the ARM Cortex-M0+ processor.
The energy captured may be used in most wireless applications, body implants, wearables, and other low-power consumption applications. Even if the harvested energy is not enough to power the entire device, it may still be used to extend the life of conventional batteries.
For example, researchers from the Chinese University of Hong Kong have developed a device that may harvest energy from the human knee during walking without a substantial increase in effort for wearers. The demonstrated device generates up to 1.6 mW of power without significantly changing breathing patterns.
The proliferation of connected devices and the need for less expensive and reliable energy sources drive the growth of energy harvesting systems in the consumer electronics industry.

North America to Hold the Largest Market Share

Due to the region's ongoing and rapid technical advancements, North America has emerged as the most critical market for investments in building and home automation, which employ renewable energy and propel the demand for energy harvesting systems.
The majority of the region's revenue came from the United States. Due to the administration's intention to make the nation an energy-independent state and the thriving industrial and transportation sectors, the industry is anticipated to experience significant expansion.
Comparatively to other markets, the North American market is seeing a high level of industrial IoT adoption, boosting the need for energy harvesting systems.
Government programs to reduce energy emissions from outdated and public buildings have also contributed to this growth. For instance, 50 of the federal government's most energy-intensive buildings will have installed sophisticated and smart building technology due to a deal the U.S. General Services Administration signed with IBM.
Additionally, the smart cities project launch has altered the local market environment. In addition to holding events to promote collaboration and knowledge sharing amongst cities, businesses, and colleges involved in creating smart cities around the nation, this effort also includes various grants and funding packages.

Energy Harvesting Systems Industry Overview

Energy Harvesting Systems Market is very competitive. Among others, ABB Limited and STMicroelectronics NV are the market's two biggest competitors. However, a few new entrants are drawing considerable investments into the industry due to significant advances in product lines.

In September 2022, E-Peas SA and Energous Corporation announced the launch of a new Wireless Energy Harvesting Evaluation Kit, developed for energy harvesting applications for smart buildings/smart homes, industrial IoT medical, and asset trackers for retail and warehouses. The kit includes the company's 1W WattUp PowerBridge transmitter, delivering an over-the-air solution that enables device manufacturers to implement wireless power and energy harvesting across a range of connected devices along with two evaluation boards from e-peas: the AEM30940 RF Evaluation Board and the EP112 Energy Harvesting Optimized Antenna Evaluation Board.

Additional Benefits:

The market estimate (ME) sheet in Excel format
3 months of analyst support

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 Five Forces
- 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 Substitutes
- 4.2.5 Intensity of Competitive Rivalry
4.3 Industry Value Chain Analysis

5 MARKET DYNAMICS

5.1 Market Drivers
- 5.1.1 Growth of Smart Cities
- 5.1.2 Technology Developments in Manufacturing Industries
5.2 Market Challenges
- 5.2.1 High Initial Costs

6 MARKET SEGMENTATION

6.1 By Technology
- 6.1.1 Light Energy Harvesting
- 6.1.2 Vibration Energy Harvesting
- 6.1.3 Thermal Energy Harvesting
- 6.1.4 RF Energy Harvesting
6.2 By Application
- 6.2.1 Consumer Electronics
- 6.2.2 Building and Home Automation
- 6.2.3 Industrial
- 6.2.4 Transportation
- 6.2.5 Other 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 Microchip Technology Inc.
- 7.1.2 E-Peas SA
- 7.1.3 EnoCean GmbH
- 7.1.4 ABB Limited
- 7.1.5 Powercast Corporation
- 7.1.6 Advanced Linear Devices Inc
- 7.1.7 Analog Devices Inc
- 7.1.8 STMicroelectronics NV
- 7.1.9 Texas Instruments Incorporated
- 7.1.10 Cypress Semiconductor Corporation
- 7.1.11 Piezo.com