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市場調查報告書

微能源採集的技術影響分析

Technology Impact Assessment of Micro Energy Harvesting

出版商 Frost & Sullivan 商品編碼 652572
出版日期 內容資訊 英文 74 Pages
商品交期: 最快1-2個工作天內
價格
微能源採集的技術影響分析 Technology Impact Assessment of Micro Energy Harvesting
出版日期: 2018年05月31日內容資訊: 英文 74 Pages
簡介

本報告針對微能源採集的各種技術調查、提供微能源採集的重要性、技術種類與概要、發展過程、技術區分主要創新、革新檔案、主要成長機會、引進促進因素與課題、主要專利、未來展望。

第1章 摘要整理

第2章 技術狀況回顧

  • 微能源採集技術重要性、分類
  • EH能源來源
  • 微能源採集者的主要課題
  • 過去發展過程
  • 電力條件與實施技術
  • 各種能源採集技術表現比較
  • 技術標竿
  • 主要革新:電磁波EH、RF EH
  • 主要革新:熱電EH、運動EH
  • 用途、引進參數:用途、EH技術投影
  • 微能源採集技術生態系統
  • 微能源採集全球引進情況
  • 無線感應器與可戴式:微能源採集主要實施技術
  • 成長機會

第3章 振動能源採集技術

  • 成長機會:低消費電力感應器設備、醫療、基本設施管理
  • 主要企業檔案
  • 主要機關、大學檔案
  • 開發、引進影響因素
  • 促進因素與課題
  • 促進創新的專利公開狀況
  • 主要資金供給倡議
  • 今後展望:振動發電裝置

第4章 電磁波、RF能源採集技術

  • IoT促進EH設備的市場機會
  • 主要創新、革新檔案
  • 開發、引進影響因素
  • 促進因素與課題
  • 專利動向:IoT促進EH技術引進
  • 資金來源主要構成、研發資料領域
  • 今後展望:RF能源開發商

第5章 熱電能源採集技術

  • 成長機會:可戴式、遙控感應、通訊設備、預知保全
  • 主要革新檔案:歐洲、亞洲
  • 主要革新檔案:美國
  • 開發、引進影響因素
  • 引進影響因素
  • 設計課題:廣泛引進的阻礙
  • 可戴式、製造業用途:促進創新
  • 主要資金供給倡議
  • 近年主要研發資料領域
  • 今後展望

第6章 光能源採集技術

  • PV的EH成長機會
  • 主要企業檔案
  • 技術引進影響因素
  • 專利情況
  • 資資金來源主要構成、研發資料領域
  • 今後展望:PV EH技術

第7章 安裝範例與成長機會

  • 安裝範例與影響
  • 主要用途、實施因素的見解
  • 成長機會

第8章 主要專利、連絡方式

目錄
Product Code: D7FA

Building and Home Automation, Industrial, Biomedical are Key Growth Sectors

Micro Energy Harvesting technologies are gaining increased attention in building automation and wireless sensor applications. The objective is to eliminate batteries and costs related to maintenance and replacement. With rapid proliferation of IoT devices and low power sensor networks, alternate energy sources are explored for powering millions of low power sensors, communication devices, controllers, and many more.

With high impact created by IoT concept on different industries, new business models are creating new opportunities. Key applications include: building and home automation, industrial, and biomedical.

The technology and innovation report covers the following:

  • Assessment of vibration, light (artificial light, solar radiation), electromagnetic, RF, and thermal energy harvesting technologies
  • Comparative analysis of key technologies
  • Innovation profiles
  • Application matrix
  • Key factors influencing adoption - drivers and challenges
  • Patent and funding scenario
  • Key stakeholders and their R&D initiatives
  • R&D portfolio areas/innovation themes
  • Global Adoption Scenario
  • Implementation examples
  • Technology convergence scenarios
  • Technology forecast (2020 and beyond)
  • Growth opportunities

Table of Contents

1.0. EXECUTIVE SUMMARY

  • 1.1. Research Scope
  • 1.2. Research Methodology
  • 1.3. Research Methodology Explained
  • 1.4. Summary of Key Findings - Key Research Focus Areas and High Impact Applications
  • 1.5. Summary of Key Findings - Key Enabling Platforms
  • 1.6. Summary of Key Findings - Growth Opportunity Strategic Levers
  • 1.7. Summary of Key Findings - Technology Convergence Scenarios

2.0. TECHNOLOGY STATUS REVIEW

  • 2.1. Micro Energy Harvesting - Technology Significance and Categorization
  • 2.2. Sources of EH
  • 2.3. Major Challenges Addressed by Micro Energy Harvesters
  • 2.4. Snapshot of Historic Developments
  • 2.5. Power Requirements and Enabling Technologies
  • 2.6. Performance Comparison of Energy Harvesting Technologies
  • 2.7. Technology Benchmarking
  • 2.8. Key Innovators in Electromagnetic and RF-based EH
  • 2.9. Key Innovators in Thermo Electric- and Motion-based EH
  • 2.10. Application Matrix - Mapping of Applications and EH Technologies
  • 2.11. Ecosystem for Micro Energy Harvesting Technology
  • 2.12. Adoption Scenario of Micro Energy Harvesting Across the Globe
  • 2.13. Wireless Sensors and Wearables are Key Enablers of Micro Energy Harvesting
  • 2.14. Growth Opportunities

3.0. VIBRATION-BASED ENERGY HARVESTING TECHNOLOGY

  • 3.1. Growth Opportunities: Low Power Sensor Devices, Medical, and Infrastructure Management
  • 3.2. Profiles of Key Companies
  • 3.3. Profiles of Key Institutions and Universities
  • 3.4. Factors Influencing Developments and Adoption
  • 3.5. Description of Driving and Challenging Factors
  • 3.6. Status of Patent Publications Driving Innovations
  • 3.7. Key Funding Initiatives
  • 3.8. The Road Ahead for Vibration Energy Harvesters

4.0. ELECTROMAGNETIC AND RADIO FREQUENCY-BASED ENERGY HARVESTING TECHNOLOGY

  • 4.1. IoT will Drive Opportunities for EH Devices
  • 4.2. Profile of Key Innovations and Innovators
  • 4.3. Factors Influencing Developments and Adoption
  • 4.4. Description of Driving and Challenging Factors
  • 4.5. Patent Trends: IoT will Drive Adoption of EH Technologies
  • 4.6. Key Funding Activities and R&D Portfolio Areas
  • 4.7. The Road Ahead for RF Energy Harvesters

5.0. THERMOELECTRIC ENERGY HARVESTING TECHNOLOGY

  • 5.1. Growth Opportunities: Wearables, Remote Sensing and Communication Devices , and Predictive Maintenance Drive Market Growth of Micro TEGs
  • 5.2. Profiles of Key Innovators - Europe and Asia
  • 5.3. Profiles of Key Innovators - US
  • 5.4. Factors Influencing Developments and Adoption
  • 5.5. What is Driving Adoption?
  • 5.6. Design Challenges May Pose Hindrance to Wide Spread Adoption
  • 5.7. Wearables and Manufacturing Applications Drive Innovation
  • 5.8. Key Funding Initiatives
  • 5.9. Key Recent R&D Portfolio Areas
  • 5.10. The Road Ahead

6.0. LIGHT-BASED ENERGY HARVESTING TECHNOLOGY

  • 6.1. Growth Opportunities for PV-based EH
  • 6.2. Profiles of Key Companies
  • 6.3. Factors Influencing Technology Adoption
  • 6.4. Patent Scenario
  • 6.5. Key Funding Activities and R&D Portfolio Areas
  • 6.6. The Road Ahead for Photovoltaics EH Technology

7.0. IMPLEMENTATION CASES AND GROWTH OPPORTUNITIES

  • 7.1. Implementation Cases and Impact
  • 7.1. Implementation Cases and Impact (continued)
  • 7.1. Implementation Cases and Impact (continued)
  • 7.2. Viewpoint on Key Applications and Enablers
  • 7.3. Growth Opportunities

8.0. KEY PATENTS AND CONTACTS

  • 8.1. Key Patents - RF Energy Harvester
  • 8.2. Key Patents - Thermoelectric Generator
  • 8.3. Industry Contacts
  • Legal Disclaimer