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ビルオートメーションエネルギーハーベスティングの世界市場

Building Automation Energy Harvesting

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英文 139 Pages
納期
即日から翌営業日
適宜更新あり
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価格表記: USDを日本円(税抜)に換算
本日の銀行送金レート: 1USD=148.66円
ビルオートメーションエネルギーハーベスティングの世界市場
出版日: 2025年08月15日
発行: Global Industry Analysts, Inc.
ページ情報: 英文 139 Pages
納期: 即日から翌営業日
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概要

ビルオートメーションエネルギーハーベスティングの世界市場は2030年までに4億8,030万米ドルに達する見込み

2024年に2億9,060万米ドルと推定されるビルオートメーションエネルギーハーベスティングの世界市場は、分析期間2024-2030年にCAGR 8.7%で成長し、2030年には4億8,030万米ドルに達すると予測されます。本レポートで分析したセグメントの1つである太陽エネルギー源は、CAGR 9.4%を記録し、分析期間終了時には3億760万米ドルに達すると予測されます。熱エネルギー源セグメントの成長率は、分析期間でCAGR 8.3%と推定されます。

米国市場は7,640万米ドルと推定、中国はCAGR 8.4%で成長予測

米国のビルオートメーションエネルギーハーベスティング市場は、2024年には7,640万米ドルと推定されます。世界第2位の経済大国である中国は、2030年までに7,650万米ドルの市場規模に達すると予測され、分析期間2024-2030年のCAGRは8.4%です。その他の注目すべき地域別市場としては、日本とカナダがあり、分析期間中のCAGRはそれぞれ8.1%と7.3%と予測されています。欧州では、ドイツがCAGR約6.9%で成長すると予測されています。

あなたのビルはよりスマートで環境に優しくなっていますか?ビルオートメーションにおけるエネルギーハーベスティングの役割を探る

世界のビルオートメーションエネルギーハーベスティング市場- 主要動向と促進要因のまとめ

ビルオートメーションエネルギーハーベスティング市場は、建設および施設管理部門が運用コストの削減、エネルギー効率の改善、持続可能性の導入に取り組む中で、大きな牽引力となっています。ビルオートメーションにおけるエネルギーハーベスティングとは、光、熱、振動、無線周波数などのソースから周囲のエネルギーを捕捉・蓄積し、センサー、スイッチ、制御ユニットなどの低エネルギーデバイスに電力を供給するプロセスを指します。これらのシステムは、ビルオートメーション・ソリューション(空調制御、照明システム、セキュリティ、環境モニタリング)に組み込まれることが増えており、自立型でバッテリーフリーのコンポーネントを作り出しています。スマートビルディング、グリーン認証(LEEDやBREEAMなど)、ネット・ゼロ・エネルギー目標の推進により、特に商業不動産、教育機関、産業施設、政府ビルにおいて、こうした技術の採用が加速しています。

従来の電池式センサーは、特に大規模な施設やアクセスしにくい場所に設置する場合、電池交換の必要性から、メンテナンスやライフサイクルコストの面で課題が生じることが多いです。エネルギーハーベスティングに基づくシステムは、このような負担をなくし、より長い動作寿命でメンテナンスフリーの代替手段を提供します。これは、特に老朽化したインフラや改修中の建物において、施設管理者にとって重要な意味を持っています。この動向は、持続可能な建設とエネルギー効率を促進する政府の規制や奨励策の増加によっても強化されています。欧州や北米などの地域では、建物のエネルギー性能に関する規制の枠組みが厳しくなっており、自立型インテリジェンスによってエネルギー消費を最小限に抑えるオートメーションシステムへのシフトを促しています。

ビルにおけるエネルギー・ハーベスティングを高める新技術は?

技術の進歩は、スマートビルにおけるエネルギーハーベスティングシステムの効率化と採用を促進しています。太陽光発電(PV)によるエネルギーハーベスティングは、特に室内光からのエネルギーハーベスティングは、より効果的かつ安価になりつつあり、より広範なセンサーやアクチュエーターへの統合を可能にしています。同様に、熱電発電機(TEG)や圧電システムも、建物内の温度差や構造振動(多くの場合、空調操作や人の往来による製品別)からエネルギーを取り出すために改良されつつあります。超低電力エレクトロニクスと電力管理IC(集積回路)の飛躍的進歩により、マイクロワットのエネルギーでデバイスを機能させることができるようになりました。

Zigbee、EnOcean、Bluetooth Low Energy(BLE)、LoRaWANなどの無線通信プロトコルは、ビルオートメーションにおけるエネルギーハーベスティングデバイスの成功の中心となっています。これらの標準規格は、有線インフラや外部電源から独立して動作する広範な無線センサーネットワークの構築を可能にします。特にEnOceanプロトコルは、超低消費電力とエネルギーハーベスティング・アプリケーションのために特別に設計されており、照明、空調、居住者センシングに広く使用されています。機械学習とAIも、使用パターンと環境条件に基づいてエネルギー消費を最適化することで、システム全体を自立させるだけでなく、インテリジェントに適応させる役割を果たし始めています。

どのような建築用途や使用事例が市場導入を後押ししているか?

エネルギーハーベスティングは、特に拡張性、メンテナンス、運用効率が最重要視される分野において、最新のビルオートメーション戦略の中核をなす要素になりつつあります。商業オフィスビル、ショッピングモール、教育機関などでは、照明制御、温度調節、居住者検知、室内空気品質監視のためにエネルギーハーベスティング・センサーを組み込んでいます。これらのアプリケーションは、センサーを広範囲に配置する必要があり、バッテリーのメンテナンスが邪魔になったり、コストが高くついたりするような、オープンプランの環境や人通りの多い場所では特に有益です。

産業環境では、エネルギーハーベスティング・デバイスは、有線電源接続を必要とせずに、機器の状態を監視したり、ガス漏れを検出したり、施設の状態を追跡したりするために使用されています。近代化が進められている歴史的建造物や遺産的建造物もまた、主要な採用対象です。さらに、大規模なキャンパスやマルチテナント物件では、エネルギー・コストを削減し、予知保全を可能にするために、これらのシステムを導入しています。配線を変更することなくセンサーを柔軟に配置・再配置できるため、これらのソリューションは、部屋のレイアウトや使用パターンが頻繁に変更されるダイナミックな空間にとって特に魅力的です。

ビルオートメーションエネルギーハーベスティング市場の成長の原動力は?

ビルオートメーションエネルギーハーベスティング市場の成長は、技術の進化、規制の圧力、ユーザー固有の運用上の要求に直接結びつくいくつかの要因によって牽引されています。主な原動力のひとつは、スマートビルディングへの取り組みが急増していることです。エナジーハーベスティングは、これらのシステムに電力を供給するためのスケーラブルでメンテナンスフリーのアプローチを提供し、バッテリー駆動のデバイスがもたらす制約を排除します。もう一つの重要な要因は、エネルギーハーベスティング効率の大幅な改善と超低電力エレクトロニクスの普及であり、これによって室内環境における環境エネルギーの利用可能性が拡大した。

米国、欧州、アジアの一部でエネルギー効率の高い建物に対する規制が強化されていることも、市場を後押ししています。これには、二酸化炭素排出量の削減、建物性能評価の向上、ネットゼロ目標の推進に焦点を当てた指令が含まれます。そのため、施設管理者は、構造的なオーバーホールを必要とせずにエネルギー管理を強化する、改修に適したソリューションに投資しています。さらに、EnOceanやZigbeeといったエネルギーハーベスティングに最適化された無線通信規格の採用により、相互運用可能でセルフパワー型のビルオートメーションシステムの迅速な展開が促進されています。最後に、スマートシティやインテリジェントキャンパスにおける柔軟で適応性のあるインフラストラクチャの需要は、将来対応可能な建物の基礎的な構成要素として、エネルギーハーベスティングセンサーの統合を促進しています。

セグメント

ソース(太陽エネルギーソース、熱エネルギーソース、振動・運動エネルギーソース、無線周波数(RF)ソース、その他のソース)、コンポーネント(エネルギーハーベスティング変換器、電力管理集積回路(PMIC)、その他のコンポーネント)

調査対象企業の例

  • Advanced Linear Devices, Inc.
  • Cedrat Technologies SAS
  • EnOcean GmbH
  • e-peas S.A.
  • Kinergizer BV
  • Mide Technology Corporation
  • Mouser Electronics, Inc.
  • Powercast Corporation
  • Renesas Electronics Corporation
  • Skylytics Data, LLC
  • STMicroelectronics NV
  • Texas Instruments Incorporated

AIインテグレーション

当社は、有効な専門家コンテンツとAIツールにより、市場情報と競合情報を変革しています。

Global Industry Analystsは、LLMや業界固有のSLMを照会する一般的な規範に従う代わりに、ビデオ記録、ブログ、検索エンジン調査、膨大な量の企業、製品/サービス、市場データなど、世界中の専門家から収集したコンテンツのリポジトリを構築しました。

関税影響係数

Global Industry Analystsは、本社の国、製造拠点、輸出入(完成品とOEM)に基づく企業の競争力の変化を予測しています。この複雑で多面的な市場力学は、売上原価(COGS)の増加、収益性の低下、サプライチェーンの再構築など、ミクロおよびマクロの市場力学の中でも特に競合他社に影響を与える見込みです。

目次

第1章 調査手法

第2章 エグゼクティブサマリー

  • 市場概要
  • 主要企業
  • 市場動向と促進要因
  • 世界市場の見通し

第3章 市場分析

  • 米国
  • カナダ
  • 日本
  • 中国
  • 欧州
  • フランス
  • ドイツ
  • イタリア
  • 英国
  • その他欧州
  • アジア太平洋
  • その他の地域

第4章 競合

目次
Product Code: MCP29727

Global Building Automation Energy Harvesting Market to Reach US$480.3 Million by 2030

The global market for Building Automation Energy Harvesting estimated at US$290.6 Million in the year 2024, is expected to reach US$480.3 Million by 2030, growing at a CAGR of 8.7% over the analysis period 2024-2030. Solar Energy Source, one of the segments analyzed in the report, is expected to record a 9.4% CAGR and reach US$307.6 Million by the end of the analysis period. Growth in the Thermal Energy Source segment is estimated at 8.3% CAGR over the analysis period.

The U.S. Market is Estimated at US$76.4 Million While China is Forecast to Grow at 8.4% CAGR

The Building Automation Energy Harvesting market in the U.S. is estimated at US$76.4 Million in the year 2024. China, the world's second largest economy, is forecast to reach a projected market size of US$76.5 Million by the year 2030 trailing a CAGR of 8.4% over the analysis period 2024-2030. Among the other noteworthy geographic markets are Japan and Canada, each forecast to grow at a CAGR of 8.1% and 7.3% respectively over the analysis period. Within Europe, Germany is forecast to grow at approximately 6.9% CAGR.

Is Your Building Getting Smarter and Greener? Exploring the Role of Energy Harvesting in Building Automation

Global Building Automation Energy Harvesting Market - Key Trends & Drivers Summarized

The building automation energy harvesting market is gaining significant traction as the construction and facilities management sectors strive to reduce operational costs, improve energy efficiency, and embrace sustainability. Energy harvesting in building automation refers to the process of capturing and storing ambient energy from sources like light, heat, vibration, or radio frequency to power low-energy devices such as sensors, switches, and control units. These systems are increasingly embedded into building automation solutions-HVAC controls, lighting systems, security, and environmental monitoring-to create self-sustaining, battery-free components. The push towards smart buildings, green certifications (such as LEED and BREEAM), and net-zero energy goals is accelerating the adoption of such technology, especially in commercial real estate, educational institutions, industrial facilities, and government buildings.

Traditional battery-powered sensors often present challenges in terms of maintenance and lifecycle costs due to battery replacement needs, especially in large-scale or inaccessible installations. Energy harvesting-based systems eliminate this burden, offering maintenance-free alternatives with longer operational lifespans. This has significant implications for facility managers, especially in aging infrastructures or buildings undergoing retrofits. The trend is also being reinforced by increasing government regulations and incentives that promote sustainable construction and energy efficiency. In regions like Europe and North America, regulatory frameworks are becoming more stringent regarding building energy performance, prompting a shift towards automation systems that minimize energy consumption through self-sustaining intelligence.

How Are Emerging Technologies Elevating Energy Harvesting in Buildings?

Technological advancements are driving the efficiency and adoption of energy harvesting systems in smart buildings. Photovoltaic (PV) energy harvesting, particularly from indoor light, is becoming more effective and affordable, enabling integration into a wider range of sensors and actuators. Similarly, thermoelectric generators (TEGs) and piezoelectric systems are being refined to draw energy from temperature differentials or structural vibrations within buildings-often byproducts of HVAC operations or foot traffic. These energy sources, once considered too weak or inconsistent, are now increasingly viable thanks to breakthroughs in ultra-low power electronics and power management ICs (integrated circuits), which allow devices to function on microwatts of energy.

Wireless communication protocols such as Zigbee, EnOcean, Bluetooth Low Energy (BLE), and LoRaWAN are central to the success of energy harvesting devices in building automation. These standards enable the creation of extensive wireless sensor networks that can operate independently of wired infrastructure or external power supplies. The EnOcean protocol, in particular, is designed specifically for ultra-low power and energy harvesting applications and is widely used in lighting, HVAC, and occupancy sensing. Machine learning and AI are also starting to play a role by optimizing energy consumption based on usage patterns and environmental conditions, making the whole system not just self-sustaining but also intelligently adaptive.

Which Building Applications and Use Cases Are Pushing Market Adoption?

Energy harvesting is becoming a core component of modern building automation strategies, particularly in sectors where scalability, maintenance, and operational efficiency are paramount. Commercial office buildings, shopping malls, and educational institutions are incorporating energy-harvesting sensors for lighting control, temperature regulation, occupancy sensing, and indoor air quality monitoring. These applications are especially beneficial in open-plan environments or high-traffic areas where sensors must be deployed extensively, and battery maintenance would be disruptive or cost-prohibitive.

In industrial settings, energy-harvesting devices are being used to monitor equipment status, detect gas leaks, or track facility conditions without the need for wired power connections. Historic or heritage buildings undergoing modernization are also key adopters, as retrofitting wired systems in such structures is often impractical. Moreover, large campuses and multi-tenant properties are installing these systems to reduce energy costs and enable predictive maintenance. The ability to deploy and redeploy sensors flexibly without rewiring makes these solutions particularly attractive for dynamic spaces where room layouts or occupancy patterns frequently change.

What’s Driving the Growth in the Building Automation Energy Harvesting Market?

The growth in the building automation energy harvesting market is driven by several factors directly tied to technology evolution, regulatory pressure, and user-specific operational demands. One of the primary drivers is the surge in smart building initiatives, which require large-scale deployment of interconnected sensors and control systems. Energy harvesting offers a scalable and maintenance-free approach to power these systems, eliminating the limitations posed by battery-powered devices. Another key factor is the significant improvement in energy harvesting efficiency and the proliferation of ultra-low power electronics, which has expanded the viability of using ambient energy in indoor environments.

Increasing regulatory mandates for energy-efficient buildings across the U.S., Europe, and parts of Asia are also propelling the market. These include directives focused on lowering carbon emissions, improving building performance ratings, and promoting net-zero targets. Facility managers are thus investing in retrofit-friendly solutions that enhance energy management without the need for structural overhauls. Additionally, the adoption of wireless communication standards optimized for energy harvesting-such as EnOcean and Zigbee-has facilitated the rapid deployment of interoperable and self-powered building automation systems. Lastly, the demand for flexible, adaptive infrastructure in smart cities and intelligent campuses is driving the integration of energy harvesting sensors as a foundational component of future-ready buildings.

SCOPE OF STUDY:

The report analyzes the Building Automation Energy Harvesting market in terms of units by the following Segments, and Geographic Regions/Countries:

Segments:

Source (Solar Energy Source, Thermal Energy Source, Vibration and Kinetic Energy Source, Radio Frequency (RF) Source, Other Sources); Component (Energy Harvesting Transducer, Power Management Integrated Circuits (PMIC), Other Components)

Geographic Regions/Countries:

World; United States; Canada; Japan; China; Europe (France; Germany; Italy; United Kingdom; and Rest of Europe); Asia-Pacific; Rest of World.

Select Competitors (Total 39 Featured) -

  • Advanced Linear Devices, Inc.
  • Cedrat Technologies SAS
  • EnOcean GmbH
  • e-peas S.A.
  • Kinergizer BV
  • Mide Technology Corporation
  • Mouser Electronics, Inc.
  • Powercast Corporation
  • Renesas Electronics Corporation
  • Skylytics Data, LLC
  • STMicroelectronics NV
  • Texas Instruments Incorporated

AI INTEGRATIONS

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Instead of following the general norm of querying LLMs and Industry-specific SLMs, we built repositories of content curated from domain experts worldwide including video transcripts, blogs, search engines research, and massive amounts of enterprise, product/service, and market data.

TARIFF IMPACT FACTOR

Our new release incorporates impact of tariffs on geographical markets as we predict a shift in competitiveness of companies based on HQ country, manufacturing base, exports and imports (finished goods and OEM). This intricate and multifaceted market reality will impact competitors by increasing the Cost of Goods Sold (COGS), reducing profitability, reconfiguring supply chains, amongst other micro and macro market dynamics.

TABLE OF CONTENTS

I. METHODOLOGY

II. EXECUTIVE SUMMARY

  • 1. MARKET OVERVIEW
    • Influencer Market Insights
    • Tariff Impact on Global Supply Chain Patterns
    • Building Automation Energy Harvesting - Global Key Competitors Percentage Market Share in 2025 (E)
    • Competitive Market Presence - Strong/Active/Niche/Trivial for Players Worldwide in 2025 (E)
  • 2. FOCUS ON SELECT PLAYERS
  • 3. MARKET TRENDS & DRIVERS
    • Rising Demand for Smart Buildings Drives Integration of Energy Harvesting in Building Automation Systems
    • Focus on Net-Zero and Energy-Efficient Buildings Strengthens Business Case for Self-Powered Sensors and Controls
    • Increasing Adoption of Wireless Building Automation Technologies Spurs Need for Battery-Free Power Solutions
    • Regulatory Push for Green Buildings and Energy Codes Accelerates Adoption of Energy Harvesting Technologies
    • Growth of IoT-Enabled Infrastructure Fuels Demand for Maintenance-Free, Self-Sustaining Sensor Networks
    • Advancements in Thermoelectric, Piezoelectric, and Photovoltaic Energy Harvesting Improve Efficiency and Scalability
    • Reduction in Battery Disposal and Maintenance Costs Drives Preference for Energy Harvesting in BMS Devices
    • Expansion of Retrofitting Projects in Aging Commercial Buildings Creates Opportunities for Wireless, Self-Powered Devices
    • Smart HVAC, Lighting, and Occupancy Control Systems Adopt Energy Harvesting to Enable Real-Time Automation
    • Integration of AI and Edge Computing with Energy Harvesting Devices Enhances Predictive Building Management
    • Growth of LEED and BREEAM-Certified Projects Supports Deployment of Sustainable Building Automation Solutions
    • Rising Electricity Prices Encourage Use of Energy Harvesting to Lower Operating Costs in Commercial Properties
    • Development of Ultra-Low Power Wireless Communication Protocols (e.g., EnOcean, Zigbee Green Power) Enables Efficient Data Transmission
  • 4. GLOBAL MARKET PERSPECTIVE
    • TABLE 1: World Building Automation Energy Harvesting Market Analysis of Annual Sales in US$ Thousand for Years 2015 through 2030
    • TABLE 2: World Recent Past, Current & Future Analysis for Building Automation Energy Harvesting by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2024 through 2030 and % CAGR
    • TABLE 3: World 6-Year Perspective for Building Automation Energy Harvesting by Geographic Region - Percentage Breakdown of Value Sales for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets for Years 2025 & 2030
    • TABLE 4: World Recent Past, Current & Future Analysis for Solar Energy Source by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2024 through 2030 and % CAGR
    • TABLE 5: World 6-Year Perspective for Solar Energy Source by Geographic Region - Percentage Breakdown of Value Sales for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2025 & 2030
    • TABLE 6: World Recent Past, Current & Future Analysis for Thermal Energy Source by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2024 through 2030 and % CAGR
    • TABLE 7: World 6-Year Perspective for Thermal Energy Source by Geographic Region - Percentage Breakdown of Value Sales for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2025 & 2030
    • TABLE 8: World Recent Past, Current & Future Analysis for Vibration & Kinetic Energy Source by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2024 through 2030 and % CAGR
    • TABLE 9: World 6-Year Perspective for Vibration & Kinetic Energy Source by Geographic Region - Percentage Breakdown of Value Sales for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2025 & 2030
    • TABLE 10: World Recent Past, Current & Future Analysis for Radio Frequency by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2024 through 2030 and % CAGR
    • TABLE 11: World 6-Year Perspective for Radio Frequency by Geographic Region - Percentage Breakdown of Value Sales for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2025 & 2030
    • TABLE 12: World Recent Past, Current & Future Analysis for Energy Harvesting Transducer by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2024 through 2030 and % CAGR
    • TABLE 13: World 6-Year Perspective for Energy Harvesting Transducer by Geographic Region - Percentage Breakdown of Value Sales for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2025 & 2030
    • TABLE 14: World Recent Past, Current & Future Analysis for Power Management Integrated Circuits by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2024 through 2030 and % CAGR
    • TABLE 15: World 6-Year Perspective for Power Management Integrated Circuits by Geographic Region - Percentage Breakdown of Value Sales for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2025 & 2030

III. MARKET ANALYSIS

  • UNITED STATES
    • Building Automation Energy Harvesting Market Presence - Strong/Active/Niche/Trivial - Key Competitors in the United States for 2025 (E)
    • TABLE 16: USA Recent Past, Current & Future Analysis for Building Automation Energy Harvesting by Source - Solar Energy Source, Thermal Energy Source, Vibration & Kinetic Energy Source and Radio Frequency - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
    • TABLE 17: USA 6-Year Perspective for Building Automation Energy Harvesting by Source - Percentage Breakdown of Value Sales for Solar Energy Source, Thermal Energy Source, Vibration & Kinetic Energy Source and Radio Frequency for the Years 2025 & 2030
    • TABLE 18: USA Recent Past, Current & Future Analysis for Building Automation Energy Harvesting by Component - Energy Harvesting Transducer and Power Management Integrated Circuits - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
    • TABLE 19: USA 6-Year Perspective for Building Automation Energy Harvesting by Component - Percentage Breakdown of Value Sales for Energy Harvesting Transducer and Power Management Integrated Circuits for the Years 2025 & 2030
  • CANADA
    • TABLE 20: Canada Recent Past, Current & Future Analysis for Building Automation Energy Harvesting by Source - Solar Energy Source, Thermal Energy Source, Vibration & Kinetic Energy Source and Radio Frequency - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
    • TABLE 21: Canada 6-Year Perspective for Building Automation Energy Harvesting by Source - Percentage Breakdown of Value Sales for Solar Energy Source, Thermal Energy Source, Vibration & Kinetic Energy Source and Radio Frequency for the Years 2025 & 2030
    • TABLE 22: Canada Recent Past, Current & Future Analysis for Building Automation Energy Harvesting by Component - Energy Harvesting Transducer and Power Management Integrated Circuits - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
    • TABLE 23: Canada 6-Year Perspective for Building Automation Energy Harvesting by Component - Percentage Breakdown of Value Sales for Energy Harvesting Transducer and Power Management Integrated Circuits for the Years 2025 & 2030
  • JAPAN
    • Building Automation Energy Harvesting Market Presence - Strong/Active/Niche/Trivial - Key Competitors in Japan for 2025 (E)
    • TABLE 24: Japan Recent Past, Current & Future Analysis for Building Automation Energy Harvesting by Source - Solar Energy Source, Thermal Energy Source, Vibration & Kinetic Energy Source and Radio Frequency - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
    • TABLE 25: Japan 6-Year Perspective for Building Automation Energy Harvesting by Source - Percentage Breakdown of Value Sales for Solar Energy Source, Thermal Energy Source, Vibration & Kinetic Energy Source and Radio Frequency for the Years 2025 & 2030
    • TABLE 26: Japan Recent Past, Current & Future Analysis for Building Automation Energy Harvesting by Component - Energy Harvesting Transducer and Power Management Integrated Circuits - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
    • TABLE 27: Japan 6-Year Perspective for Building Automation Energy Harvesting by Component - Percentage Breakdown of Value Sales for Energy Harvesting Transducer and Power Management Integrated Circuits for the Years 2025 & 2030
  • CHINA
    • Building Automation Energy Harvesting Market Presence - Strong/Active/Niche/Trivial - Key Competitors in China for 2025 (E)
    • TABLE 28: China Recent Past, Current & Future Analysis for Building Automation Energy Harvesting by Source - Solar Energy Source, Thermal Energy Source, Vibration & Kinetic Energy Source and Radio Frequency - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
    • TABLE 29: China 6-Year Perspective for Building Automation Energy Harvesting by Source - Percentage Breakdown of Value Sales for Solar Energy Source, Thermal Energy Source, Vibration & Kinetic Energy Source and Radio Frequency for the Years 2025 & 2030
    • TABLE 30: China Recent Past, Current & Future Analysis for Building Automation Energy Harvesting by Component - Energy Harvesting Transducer and Power Management Integrated Circuits - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
    • TABLE 31: China 6-Year Perspective for Building Automation Energy Harvesting by Component - Percentage Breakdown of Value Sales for Energy Harvesting Transducer and Power Management Integrated Circuits for the Years 2025 & 2030
  • EUROPE
    • Building Automation Energy Harvesting Market Presence - Strong/Active/Niche/Trivial - Key Competitors in Europe for 2025 (E)
    • TABLE 32: Europe Recent Past, Current & Future Analysis for Building Automation Energy Harvesting by Geographic Region - France, Germany, Italy, UK and Rest of Europe Markets - Independent Analysis of Annual Sales in US$ Thousand for Years 2024 through 2030 and % CAGR
    • TABLE 33: Europe 6-Year Perspective for Building Automation Energy Harvesting by Geographic Region - Percentage Breakdown of Value Sales for France, Germany, Italy, UK and Rest of Europe Markets for Years 2025 & 2030
    • TABLE 34: Europe Recent Past, Current & Future Analysis for Building Automation Energy Harvesting by Source - Solar Energy Source, Thermal Energy Source, Vibration & Kinetic Energy Source and Radio Frequency - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
    • TABLE 35: Europe 6-Year Perspective for Building Automation Energy Harvesting by Source - Percentage Breakdown of Value Sales for Solar Energy Source, Thermal Energy Source, Vibration & Kinetic Energy Source and Radio Frequency for the Years 2025 & 2030
    • TABLE 36: Europe Recent Past, Current & Future Analysis for Building Automation Energy Harvesting by Component - Energy Harvesting Transducer and Power Management Integrated Circuits - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
    • TABLE 37: Europe 6-Year Perspective for Building Automation Energy Harvesting by Component - Percentage Breakdown of Value Sales for Energy Harvesting Transducer and Power Management Integrated Circuits for the Years 2025 & 2030
  • FRANCE
    • Building Automation Energy Harvesting Market Presence - Strong/Active/Niche/Trivial - Key Competitors in France for 2025 (E)
    • TABLE 38: France Recent Past, Current & Future Analysis for Building Automation Energy Harvesting by Source - Solar Energy Source, Thermal Energy Source, Vibration & Kinetic Energy Source and Radio Frequency - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
    • TABLE 39: France 6-Year Perspective for Building Automation Energy Harvesting by Source - Percentage Breakdown of Value Sales for Solar Energy Source, Thermal Energy Source, Vibration & Kinetic Energy Source and Radio Frequency for the Years 2025 & 2030
    • TABLE 40: France Recent Past, Current & Future Analysis for Building Automation Energy Harvesting by Component - Energy Harvesting Transducer and Power Management Integrated Circuits - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
    • TABLE 41: France 6-Year Perspective for Building Automation Energy Harvesting by Component - Percentage Breakdown of Value Sales for Energy Harvesting Transducer and Power Management Integrated Circuits for the Years 2025 & 2030
  • GERMANY
    • Building Automation Energy Harvesting Market Presence - Strong/Active/Niche/Trivial - Key Competitors in Germany for 2025 (E)
    • TABLE 42: Germany Recent Past, Current & Future Analysis for Building Automation Energy Harvesting by Source - Solar Energy Source, Thermal Energy Source, Vibration & Kinetic Energy Source and Radio Frequency - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
    • TABLE 43: Germany 6-Year Perspective for Building Automation Energy Harvesting by Source - Percentage Breakdown of Value Sales for Solar Energy Source, Thermal Energy Source, Vibration & Kinetic Energy Source and Radio Frequency for the Years 2025 & 2030
    • TABLE 44: Germany Recent Past, Current & Future Analysis for Building Automation Energy Harvesting by Component - Energy Harvesting Transducer and Power Management Integrated Circuits - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
    • TABLE 45: Germany 6-Year Perspective for Building Automation Energy Harvesting by Component - Percentage Breakdown of Value Sales for Energy Harvesting Transducer and Power Management Integrated Circuits for the Years 2025 & 2030
  • ITALY
    • TABLE 46: Italy Recent Past, Current & Future Analysis for Building Automation Energy Harvesting by Source - Solar Energy Source, Thermal Energy Source, Vibration & Kinetic Energy Source and Radio Frequency - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
    • TABLE 47: Italy 6-Year Perspective for Building Automation Energy Harvesting by Source - Percentage Breakdown of Value Sales for Solar Energy Source, Thermal Energy Source, Vibration & Kinetic Energy Source and Radio Frequency for the Years 2025 & 2030
    • TABLE 48: Italy Recent Past, Current & Future Analysis for Building Automation Energy Harvesting by Component - Energy Harvesting Transducer and Power Management Integrated Circuits - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
    • TABLE 49: Italy 6-Year Perspective for Building Automation Energy Harvesting by Component - Percentage Breakdown of Value Sales for Energy Harvesting Transducer and Power Management Integrated Circuits for the Years 2025 & 2030
  • UNITED KINGDOM
    • Building Automation Energy Harvesting Market Presence - Strong/Active/Niche/Trivial - Key Competitors in the United Kingdom for 2025 (E)
    • TABLE 50: UK Recent Past, Current & Future Analysis for Building Automation Energy Harvesting by Source - Solar Energy Source, Thermal Energy Source, Vibration & Kinetic Energy Source and Radio Frequency - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
    • TABLE 51: UK 6-Year Perspective for Building Automation Energy Harvesting by Source - Percentage Breakdown of Value Sales for Solar Energy Source, Thermal Energy Source, Vibration & Kinetic Energy Source and Radio Frequency for the Years 2025 & 2030
    • TABLE 52: UK Recent Past, Current & Future Analysis for Building Automation Energy Harvesting by Component - Energy Harvesting Transducer and Power Management Integrated Circuits - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
    • TABLE 53: UK 6-Year Perspective for Building Automation Energy Harvesting by Component - Percentage Breakdown of Value Sales for Energy Harvesting Transducer and Power Management Integrated Circuits for the Years 2025 & 2030
  • REST OF EUROPE
    • TABLE 54: Rest of Europe Recent Past, Current & Future Analysis for Building Automation Energy Harvesting by Source - Solar Energy Source, Thermal Energy Source, Vibration & Kinetic Energy Source and Radio Frequency - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
    • TABLE 55: Rest of Europe 6-Year Perspective for Building Automation Energy Harvesting by Source - Percentage Breakdown of Value Sales for Solar Energy Source, Thermal Energy Source, Vibration & Kinetic Energy Source and Radio Frequency for the Years 2025 & 2030
    • TABLE 56: Rest of Europe Recent Past, Current & Future Analysis for Building Automation Energy Harvesting by Component - Energy Harvesting Transducer and Power Management Integrated Circuits - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
    • TABLE 57: Rest of Europe 6-Year Perspective for Building Automation Energy Harvesting by Component - Percentage Breakdown of Value Sales for Energy Harvesting Transducer and Power Management Integrated Circuits for the Years 2025 & 2030
  • ASIA-PACIFIC
    • Building Automation Energy Harvesting Market Presence - Strong/Active/Niche/Trivial - Key Competitors in Asia-Pacific for 2025 (E)
    • TABLE 58: Asia-Pacific Recent Past, Current & Future Analysis for Building Automation Energy Harvesting by Source - Solar Energy Source, Thermal Energy Source, Vibration & Kinetic Energy Source and Radio Frequency - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
    • TABLE 59: Asia-Pacific 6-Year Perspective for Building Automation Energy Harvesting by Source - Percentage Breakdown of Value Sales for Solar Energy Source, Thermal Energy Source, Vibration & Kinetic Energy Source and Radio Frequency for the Years 2025 & 2030
    • TABLE 60: Asia-Pacific Recent Past, Current & Future Analysis for Building Automation Energy Harvesting by Component - Energy Harvesting Transducer and Power Management Integrated Circuits - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
    • TABLE 61: Asia-Pacific 6-Year Perspective for Building Automation Energy Harvesting by Component - Percentage Breakdown of Value Sales for Energy Harvesting Transducer and Power Management Integrated Circuits for the Years 2025 & 2030
  • REST OF WORLD
    • TABLE 62: Rest of World Recent Past, Current & Future Analysis for Building Automation Energy Harvesting by Source - Solar Energy Source, Thermal Energy Source, Vibration & Kinetic Energy Source and Radio Frequency - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
    • TABLE 63: Rest of World 6-Year Perspective for Building Automation Energy Harvesting by Source - Percentage Breakdown of Value Sales for Solar Energy Source, Thermal Energy Source, Vibration & Kinetic Energy Source and Radio Frequency for the Years 2025 & 2030
    • TABLE 64: Rest of World Recent Past, Current & Future Analysis for Building Automation Energy Harvesting by Component - Energy Harvesting Transducer and Power Management Integrated Circuits - Independent Analysis of Annual Sales in US$ Thousand for the Years 2024 through 2030 and % CAGR
    • TABLE 65: Rest of World 6-Year Perspective for Building Automation Energy Harvesting by Component - Percentage Breakdown of Value Sales for Energy Harvesting Transducer and Power Management Integrated Circuits for the Years 2025 & 2030

IV. COMPETITION