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市場調査レポート

環境エネルギーハーベスター市場(〜2016年):低消費電力アプリケーションのためのバッテリー交換が作り出す成長機会

Ambient Energy Harvesters Market to 2016 - Replacement of Batteries for Low Power Applications Creates Growth Opportunities

発行 GBI Research 商品コード 244542
出版日 ページ情報 英文 72 Pages
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環境エネルギーハーベスター市場(〜2016年):低消費電力アプリケーションのためのバッテリー交換が作り出す成長機会 Ambient Energy Harvesters Market to 2016 - Replacement of Batteries for Low Power Applications Creates Growth Opportunities
出版日: 2012年06月12日 ページ情報: 英文 72 Pages
概要

環境エネルギーハーベスター(AEH)市場は、2012年から2016年の期間中、CAGR17.1%で拡大すると予測されています。

当レポートでは、環境エネルギーハーベスター(発電機)市場について調査分析し、AEH産業の動向、主要サプライヤーおよび売上収益と売上高、技術分析、の種類、地域およびエンドアプリケーション別の予測(〜2016年)、主要企業のプロファイル、概略以下の構成でお届けします。

第1章 目次

第2章 イントロダクション

第3章 AEH市場

  • 概要
  • エネルギーハーベスティング(環境発電)の種類
    • 採取−利用のアーキテクチャー
    • 採取−貯蔵−利用のアーキテクチャー

第4章 AEH関連技術

  • 主要技術
    • 太陽光発電
    • 熱電
    • 圧電
    • 電磁
  • その他の技術
    • 静電気
    • 磁歪
    • 無線周波数
  • 最新の技術開発
    • 海洋エネルギーハーベスティング
    • バイオケミカルエネルギーハーベスティング
    • 血糖エネルギーハーベスティング
    • バイオエネルギーハーベスティング
  • AEH技術の比較
  • AEHの主要コンポーネント

第5章 主な産業力学

  • 主な市場促進因子
    • 低消費電力アプリケーションのためのバッテリー交換が作り出す成長機会
    • 低消費電力の開発が生み出す成長可能性
  • 課題
    • 長期間のエネルギー貯蔵のための効率的な方法の開発
    • コスト削減のための規格開発
  • 将来の動向
    • ハイブリッドエナジーハーベスタの需要が増加する予測
    • 液晶ディスプレイ(LCD)・スマートフォン向けエネルギーハーベスティングポラライザ
    • 小型電気製品向けペーパーベースのエナジーハーベスタ
    • モバイルデバイス向けサスペンションエナジーハーベスタ

第6章 ファイブフォース分析

  • 新規参入企業の脅威:中
  • 供給業者の交渉力
  • 買い手の交渉力
  • 代替品の脅威
  • 競合企業間の敵対関係

第7章 世界のAEH市場

  • 世界の売上収益
  • 世界の売上高

第8章 世界のAEH市場分析:製品タイプ別

  • 太陽光エナジーハーベスタ市場
  • 電磁エナジーハーベスタ市場
  • 圧電エナジーハーベスタ市場
  • 熱電エナジーハーベスタ市場
  • その他のエナジーハーベスタ市場

第9章 世界のAEH市場分析:地域別分析

  • 欧州の売上収益・売上高予測
  • 南北アメリカの売上収益・売上高予測
  • アジア太平洋地域の売上収益・売上高予測
  • MEAの売上収益・売上高予測

第10章 世界のAEH市場:エンドアプリケーション別

  • 家電
  • ビルオートメーション
  • 軍事・航空宇宙
  • その他のアプリケーション

第11章 世界のAEH市場における主要企業

  • 競合情勢
  • 企業プロファイル:Linear Technology Corporation
    • 事業概要
    • 主要製品
    • 最新の開発
  • 企業プロファイル:Advanced Linear Devices Inc
  • 企業プロファイル:Cymbet Corporation
  • 企業プロファイル:IXYS Corporation
  • 企業プロファイル:Ferro Solutions, Inc
  • 企業プロファイル:Perpetuum Ltd
  • 企業プロファイル:MicroStrain
  • 企業プロファイル:Mide Technology Corporation
  • 企業プロファイル:Global Thermoelectric
  • 企業プロファイル:Marlow Industries Inc
  • 企業プロファイル:Powercast Corporation
  • 企業プロファイル:EnOcean GmbH

第12章 付録

図表

目次

Summary

GBI Research's report, "Ambient Energy Harvesters Market to 2016 - Replacement of Batteries for Low Power Applications Creates Growth Opportunities", provides key information and analysis of market opportunities in the ambient energy harvesters (AEHs) market. The report provides information on industry dynamics, key suppliers, and the sales revenue and sales volume of AEHs. The report also provides forecasts for energy harvesting based on type, region and end-application until 2016. Market size forecasts until 2016 are provided for photovoltaic energy harvesters, electromagnetic energy harvesters, piezoelectric energy harvesters and thermoelectric energy harvesters. The following application markets for energy harvesters are also discussed: consumer electronics, industrial and building automation, and military and aerospace.

With developments in energy harvesting technologies, the potential for energy harvesters to replace batteries as power suppliers is increasing. The new areas of application for energy harvesters include medical devices and automotives in the healthcare and agriculture sectors.

This report is built using data and information sourced from proprietary databases, primary and secondary research and in-house analysis by GBI Research's team of industry experts.

Scope

  • Market size of AEHs in terms of sales revenue and sales volume. Historic data from 2009 to 2011 is provided, along with forecasts until 2016.
  • Companies that were prominent in 2011 are discussed.
  • Market size of photovoltaic energy harvesters, electromagnetic energy harvesters, piezoelectric energy harvesters and thermoelectric energy harvesters, in terms of sales revenue and sales volume are provided, including historic data from 2009 to 2011 and forecast data until 2016.
  • Market in key regions, such as the Americas, Asia Pacific, Europe, and the Middle East and Africa, is covered.
  • Market size for key applications, such as consumer electronics, industrial and building automation, and military and aerospace, is discussed.
  • Comprehensive profiles of key companies, such as Linear Technology, Advanced Linear Devices, Cymbet Corporation, Ferro Solutions, Perpetuum and IXYS Corporation, are discussed.
  • Analytical frameworks, such as Porter's five forces analysis, are used to give a comprehensive view of the global AEHs market.

Reasons to buy

  • Exploit growth opportunities in the global AEHs market.
  • Devise market-entry and expansion strategies for various chipsets for AEHs.
  • Develop business strategies from Porter's five forces analysis.
  • Identify key growth markets for your products.
  • Know the demand potential of the AEHs market.

Executive Summary

New Green Technology Harvests Natural Power

Ambient Energy Harvesters (AEHs) are unleashing the potential to harvest energy from the environment and may hold the potential to replace batteries in the future if technology can keep up, according to technology experts GBI Research.

The new report* shows how harvesting can provide an emissions-free renewable power supply, harnessing solar, wind and thermal power to produce green energy.

Ambient energy harvesting is primarily used when the installation and maintenance of application systems is problematic, due to the potential cost or practical difficulty of providing power or communication through the use of cables. Energy harvesting can be used almost anywhere, as, unlike batteries, no space is required, and there are no accessibility issues related to maintenance.

Demand for energy harvesters is expected to grow with the development of low-power electronics, motivated by the increasing need for various applications to run efficiently, independently and remotely.

A number of low power microcontrollers, digital signal processors, RF transceivers and sensors have already been developed, such as Texas Instruments' MSP430 microcontroller and Analog Devices Inc.'s ADXL345 ultra-low-power Micro Electro Mechanical System (MEMS) sensor.

However, further technological development is required to facilitate an efficient means of energy storage. Currently, energy can be stored either by using batteries or ultracapacitors. Due to their efficiency and superior lifetime, capacitors are increasingly preferred over batteries, but concerns about leakages limit their use over long periods. While a combination of batteries and capacitors can provide a safe and efficient harvesting system, the industry still lacks an innovative way to store harvested energy over prolonged lengths of time.

Hybrid energy harvesters represent the next progression in the green energy industry. While energy produced by AEHs is limited, hybrid energy harvesters utilize multiple sources, such as light, heat and vibrations, to increase its energy generating potential. Demand for these can be expected to increase in the near future, but technology will still need to catch up. Until then, the AEHs market is expected to grow at a compound annual growth rate (CAGR) of 17.1% during 2012-2016.

Ambient Energy Harvesters Market to 2016 - Replacement of Batteries for Low Power Applications Creates Growth Opportunities

This report provides information on industry dynamics, key suppliers, and the sales revenue and sales volume of AEHs, and gives forecasts for energy harvesting based on type, region and end-application until 2016. Market size forecasts until 2016 are provided for photovoltaic energy harvesters, electromagnetic energy harvesters, piezoelectric energy harvesters and thermoelectric energy harvesters. The following application markets for energy harvesters are also discussed: consumer electronics, industrial and building automation, and military and aerospace.

This report was built using data and information sourced from proprietary databases, primary and secondary research, and in-house analysis conducted by GBI Research's team of industry experts.

Table of Contents

.

1. Table of Contents

  • 1.1. List of Tables
  • 1.2. List of Figures

2. Introduction

3. Ambient Energy Harvesters Market

  • 3.1. Overview
  • 3.2. Types of Energy Harvesting
    • 3.2.1. Harvest-Use Architecture
    • 3.2.2. Harvest-Store-Use Architecture

4. Technologies Associated with Ambient Energy Harvesters

  • 4.1. Key Technologies
    • 4.1.1. Photovoltaic
    • 4.1.2. Thermoelectric
    • 4.1.3. Piezoelectric
    • 4.1.4. Electromagnetic
  • 4.2. Other Technologies
    • 4.2.1. Electrostatic
    • 4.2.2. Magnetostrictive
    • 4.2.3. Radio Frequency
  • 4.3. Latest Technological Developments
    • 4.3.1. Ocean Power Harvesting
    • 4.3.2. Biomechanical Energy Harvesting
    • 4.3.3. Blood Sugar Energy Harvesting
    • 4.3.4. Bio-energy Harvesting
  • 4.4. Comparison of Ambient Energy Harvesting Technologies
  • 4.5. Key Components of Ambient Energy Harvesters

5. Ambient Energy Harvesters Market - Key Industry Dynamics

  • 5.1. Key Market Drivers
    • 5.1.1. Potential to Replace Batteries in Low Power Applications Creates Growth Opportunities
    • 5.1.2. Development of Low Power Electronics to Create Growth Potential
  • 5.2. Ambient Energy Harvesters - Challenges
    • 5.2.1. Developing Efficient Ways for Long Term Energy Storage
    • 5.2.2. Develop Standards to Reduce Costs
  • 5.3. Ambient Energy Harvesters - Future Trends
    • 5.3.1. Demand for Hybrid Energy Harvesters is Expected to Increase
    • 5.3.2. Energy-Harvesting Polarizers for Liquid Crystal Displays (LCDs) and Smartphones
    • 5.3.3. Paper-Based Energy Harvesters to Power Small Electronics
    • 5.3.4. Suspension Energy Harvesting to Power Mobile Devices

6. Ambient Energy Harvesters Market - Five Force Analysis

  • 6.1. Threat of New Entrants - Medium
  • 6.2. Bargaining Power of Suppliers
  • 6.3. Bargaining Power of Buyers
  • 6.4. Threat of Product Substitutes
  • 6.5. Competitive Rivalry

7. Global Ambient Energy Harvesters Market

  • 7.1. Global Sales Revenue
  • 7.2. Global Sales Volume

8. Global Ambient Energy Harvesters Market Analysis - Product Types

  • 8.1. Photovoltaic Energy Harvesters Market
  • 8.2. Electromagnetic Energy Harvesters Market
  • 8.3. Piezoelectric Energy Harvesters Market
  • 8.4. Thermoelectric Energy Harvesters Market
  • 8.5. Other Energy Harvesters Market

9. Ambient Energy Harvesters Market Market - Geographical Analysis

  • 9.1. Europe Sales Revenue and Sales Volume Forecasts
  • 9.2. The Americas Sales Revenue and Sales Volume Forecasts
  • 9.3. Asia Pacific Sales Revenue and Sales Volume Forecasts
  • 9.4. MEA Sales Revenue and Sales Volume Forecasts

10. Ambient Energy Harvesters Market by End Application

  • 10.1. Ambient Energy Harvesters Revenue and Volume Forecasts in Consumer Electronics
  • 10.2. Ambient Energy Harvesters Revenue and Volume Forecasts in Industrial and Building Automation
  • 10.3. Ambient Energy Harvesters Revenue and Volume Forecasts in Military and Aerospace
  • 10.4. Ambient Energy Harvesters Revenue and Volume Forecasts in Other Applications

11. Ambient Energy Harvesters Market - Key Companies

  • 11.1. Global Ambient Energy Harvesters Market, Competitive Landscape
  • 11.2. Company Profile - Linear Technology Corporation
    • 11.2.1. Business Description
    • 11.2.2. Key Products
    • 11.2.3. Latest Developments
  • 11.3. Company Profile - Advanced Linear Devices Inc
    • 11.3.1. Business Description
    • 11.3.2. Key Products
    • 11.3.3. Latest Developments
  • 11.4. Company Profile - Cymbet Corporation
    • 11.4.1. Business Description
    • 11.4.2. Key Products
    • 11.4.3. Latest Developments
  • 11.5. Company Profile - IXYS Corporation
    • 11.5.1. Business Description
    • 11.5.2. Key Products
    • 11.5.3. Latest Developments
  • 11.6. Company Profile - Ferro Solutions, Inc
    • 11.6.1. Business Description
    • 11.6.2. Key Products
    • 11.6.3. Latest Developments
  • 11.7. Company Profile- Perpetuum Ltd
    • 11.7.1. Business Description
    • 11.7.2. Key Products
    • 11.7.3. Latest Developments
  • 11.8. Company Profile - MicroStrain
    • 11.8.1. Business Description
    • 11.8.2. Key Products
    • 11.8.3. Key Developments
  • 11.9. Company Profile - Mide Technology Corporation
    • 11.9.1. Business Description
    • 11.9.2. Key Products
    • 11.9.3. Latest Developments
  • 11.10. Company Profile - Global Thermoelectric
    • 11.10.1. Business Description
    • 11.10.2. Key Products and Services
  • 11.11. Company Profile - Marlow Industries Inc
    • 11.11.1. Business Description
    • 11.11.2. Key Products
    • 11.11.3. Latest Developments
  • 11.12. Company Profile - Powercast Corporation
    • 11.12.1. Business Description
    • 11.12.2. Key Products
    • 11.12.3. Latest Developments
  • 11.13. Company Profile - EnOcean GmbH
    • 11.13.1. Business Description
    • 11.13.2. Key Products
    • 11.13.3. Key Developments

12. Appendix

  • 12.1. About GBI Research
  • 12.2. Glossary of Terms
  • 12.3. Bibliography
  • 12.4. Methodology
    • 12.4.1. Market Size Estimates
    • 12.4.2. Market Size Forecasts
    • 12.4.3. Geographies Discussed
    • 12.4.4. Coverage
    • 12.4.5. Secondary Research
    • 12.4.6. Primary Research
    • 12.4.7. Expert Panel Validation
  • 12.5. Contact Us
  • 12.6. Disclaimer

List of Tables

  • Table 1: Energy Harvesting Technologies
  • Table 2: Key Components, Ambient Energy Harvesters
  • Table 3: Ambient Energy Harvesters, Global, Sales Revenue ($m), 2009-2016
  • Table 4: Ambient Energy Harvesters, Global, Sales Volume (million), 2009-2016
  • Table 5: Ambient Energy Harvesters Market, Global, Breakdown by Product Types (%), 2011
  • Table 6: Photovoltaic Energy Harvesters, Global, Sales Revenue ($m) and Sales Volume (million), 2009-2016
  • Table 7: Electromagnetic Energy Harvesters, Global, Sales Revenue ($m) and Sales Volume (million), 2009-2016
  • Table 8: Piezoelectric Energy Harvesters, Global, Sales Revenue ($m) and Sales Volume (million), 2009-2016
  • Table 9: Thermoelectric Energy Harvesters, Global, Sales Revenue ($m) and Sales Volume (million), 2009-2016
  • Table 10: Other Energy Harvesters, Global, Sales Revenue ($m) and Sales Volume (million), 2009-2016
  • Table 11: Ambient Energy Harvesters Market, Global, Breakdown by Key Regions (%), 2011
  • Table 12: Ambient Energy Harvesters, Europe, Sales Revenue ($m) and Sales Volume (million), 2009-2016
  • Table 13: Ambient Energy Harvesters, Americas, Sales Revenue ($m) and Sales Volume (million), 2009-2016
  • Table 14: Ambient Energy Harvesters, APAC, Sales Revenue ($m) and Sales Volume (million), 2009-2016
  • Table 15: Ambient Energy Harvesters, MEA, Sales Revenue ($m) and Sales Volume (million), 2009-2016
  • Table 16: Ambient Energy Harvesters Market, Global, Breakdown by End Application (%), 2011
  • Table 17: Ambient Energy Harvesters, End Applications
  • Table 18: Ambient Energy Harvesters, Consumer Electronics, Sales Revenue ($m) and Sales Volume (million), 2009-2016
  • Table 19: Ambient Energy Harvesters, Industrial and Building Automation, Sales Revenue ($m) and Sales Volume (million), 2009-2016
  • Table 20: Ambient Energy Harvesters, Military and Aerospace, Sales Revenue ($m) and Sales Volume (million), 2009-2016
  • Table 21: Ambient Energy Harvesters, Other Applications, Sales Revenue ($m) and Sales Volume (million), 2009-2016
  • Table 22: Ambient Energy Harvesters Market - Key Companies
  • Table 23: Ambient Energy Harvesters Market, Competitive Landscape, 2011
  • Table 24: Key Facts, Linear Technology Corporation
  • Table 25: Key Products, Linear Technology
  • Table 26: Key Facts, Advanced Linear Devices Inc
  • Table 27: Key Products, Advanced Linear Devices Inc
  • Table 28: Key Facts, Cymbet Corporation
  • Table 29: Key Products, Cymbet Corporation
  • Table 30: Key Facts, IXYS Corporation
  • Table 31: Key Products, IXYS Corporation
  • Table 32: Key Facts, Ferro Solutions, Inc
  • Table 33: Key Products, Ferro Solutions, Inc
  • Table 34: Key Facts, Perpetuum Ltd
  • Table 35: Key Products, Perpetuum Ltd
  • Table 36: Key Facts, MicroStrain Inc.
  • Table 37: Key Products, MicroStrain Inc.
  • Table 38: Key Facts, Mide Technology Corporation
  • Table 39: Key Products, Mide Technology Corporation
  • Table 40: Key Facts, Global Thermoelectric
  • Table 41: Key Products and Services, Global Thermoelectric
  • Table 42: Key Facts, Marlow Industries Inc
  • Table 43: Key Products, Marlow Industries Inc
  • Table 44: Key Facts, Powercast Corporation
  • Table 45: Key Products, Powercast Corporation
  • Table 46: Key Facts, EnOcean GmbH
  • Table 47: Key Products, EnOcean GmbH
  • Table 48: Ambient Energy Harvesters, Glossary of Terms

List of Figures

  • Figure 1: Harvest-Use Architecture, Energy Harvesting System, 2012
  • Figure 2: Harvest-Store-Use Architecture, Energy Harvesting System
  • Figure 3: Key Technologies, Ambient Energy Harvesting
  • Figure 4: Key Industry Dynamics, Ambient Energy Harvesters
  • Figure 5: Ambient Energy Harvesters, Global, Sales Revenue ($m), 2009-2016
  • Figure 6: Ambient Energy Harvesters, Global, Sales Volume (million), 2009-2016
  • Figure 7: Ambient Energy Harvesters Market, Global, Breakdown by Product Types (%), 2011
  • Figure 8: Photovoltaic Energy Harvesters, Global, Sales Revenue ($m), 2009-2016
  • Figure 9: Photovoltaic Energy Harvesters, Global, Sales Volume (million), 2009-2016
  • Figure 10: Electromagnetic Energy Harvesters, Global, Sales Revenue ($m), 2009-2016
  • Figure 11: Electromagnetic Energy Harvesters, Global, Sales Volume (million), 2009-2016
  • Figure 12: Piezoelectric Energy Harvesters, Global, Sales Revenue ($m), 2009-2016
  • Figure 13: Piezoelectric Energy Harvesters, Global, Sales Volume (million), 2009-2016
  • Figure 14: Thermoelectric Energy Harvesters, Global, Sales Revenue ($m), 2009-2016
  • Figure 15: Thermoelectric Energy Harvesters, Global, Sales Volume (million), 2009-2016
  • Figure 16: Other Energy Harvesters, Global, Sales Revenue ($m), 2009-2016
  • Figure 17: Other Energy Harvesters, Global, Sales Volume (million), 2009-2016
  • Figure 18: Ambient Energy Harvesters Market, Global, Breakdown by Key Regions (%), 2011
  • Figure 19: Ambient Energy Harvesters, Europe, Sales Revenue ($m), 2009-2016
  • Figure 20: Ambient Energy Harvesters, Europe, Sales Volume (million), 2009-2016
  • Figure 21: Ambient Energy Harvesters, Americas, Sales Revenue ($m), 2009-2016
  • Figure 22: Ambient Energy Harvesters, Americas, Sales Volume (million), 2009-2016
  • Figure 23: Ambient Energy Harvesters, APAC, Sales Revenue ($m), 2009-2016
  • Figure 24: Ambient Energy Harvesters, APAC, Sales Volume (million), 2009-2016
  • Figure 25: Ambient Energy Harvesters, MEA, Sales Revenue ($m), 2009-2016
  • Figure 26: Ambient Energy Harvesters, MEA, Sales Volume (million), 2009-2016
  • Figure 27: Ambient Energy Harvesters Market, Global, Breakdown by End Application (%), 2011
  • Figure 28: Ambient Energy Harvesters, Consumer Electronics, Sales Revenue ($m), 2009-2016
  • Figure 29: Ambient Energy Harvesters, Consumer Electronics, Sales Volume (million), 2009-2016
  • Figure 30: Ambient Energy Harvesters, Industrial and Building Automation, Sales Revenue ($m), 2009-2016
  • Figure 31: Ambient Energy Harvesters, Industrial and Building Automation, Sales Volume (million), 2009-2016
  • Figure 32: Ambient Energy Harvesters, Military and Aerospace, Sales Revenue ($m), 2009-2016
  • Figure 33: Ambient Energy Harvesters, Military and Aerospace, Sales Volume (million), 2009-2016
  • Figure 34: Ambient Energy Harvesters, Other Applications, Sales Revenue ($m), 2009-2016
  • Figure 35: Ambient Energy Harvesters, Other Applications, Sales Volume (million), 2009-2016
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