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Energy and Mining
Report Id: EMEHSM717

Energy harvesting is a technique by which energy is removed from outside sources and gathered in small portion. The harvested energy, from outside sources, can be gathered and used to run different electronic devices. Energy can be gathered as small and autonomous sensors, for example, those created utilizing MEMS innovation. These systems are regularly small and require little power, yet their applications are constrained by their dependence on battery control. Rummaging energy from surrounding vibrations, wind, warmth or light could empower shrewd sensors to be practical, inconclusively. Most basic foundation parts are absolutely subject to the energy source or energy producing systems to play out their assignments. This innovation can be utilized as a substitute source to bolster an essential power sources consequently improving general unwavering quality of the system. The primary objective of energy gathering is not to create extensive size of energy but rather to catch even small measure of energy that is squandered in everyday industrial process.


How Big is The Global Energy Harvesting System Market?


The Global Energy Harvesting System Market is expected to exceed more than US$ 662.8 Million by 2023 at a CAGR of 10.62% in the given forecast period.


The major driving factors of Global Energy Harvesting System Market are as follows:


  • Rising demand for safe, power-efficient, and durable systems that require minimum or no maintenance
  • Extensive application of IOT devices in automation and energy harvesting technology in building and home automation
  • Energy harvesting on ocean
  • Utilization of sensors in wearable electronics
  • Snowballing trend for green energy and favorable initiatives by the governments
  • Growing adoption of wireless sensor networks equipped with energy harvesting system


The restraining factors of Global Energy Harvesting System Market are as follows:


  • Constraint of remotely equipped networking schedule
  • Similarity of communication agreement
  • Hugh initial cost associated with energy harvesting system curtails


The Global Energy Harvesting System Market is segmented on the lines of its technology, component, application and regional. Based on technology segmentation it covers light energy harvesting, vibration energy harvesting, thermal energy harvesting, RF energy harvesting. Based on component segmentation it covers transducers, PMICs, secondary batteries. Based on application segmentation it covers building & home automation, consumer electronics, industrial, transportation, security. The Global Energy Harvesting System Market on geographic segmentation covers various regions such as North America, Europe, Asia Pacific, Latin America, Middle East and Africa. Each geographic market is further segmented to provide market revenue for select countries such as the U.S., Canada, U.K. Germany, China, Japan, India, Brazil, and GCC countries.


This report provides:
1) An overview of the global market for Global Energy Harvesting System Market and related technologies.
2) Analyses of global market trends, with data from 2013, estimates for 2014 and 2015, and projections of compound annual growth rates (CAGRs) through 2023.
3) Identifications of new market opportunities and targeted promotional plans for Energy Harvesting System Market.
4) Discussion of research and development, and the demand for new products and new applications.
5) Comprehensive company profiles of major players in the industry.



The scope of the report includes a detailed study of global and regional markets on Global Energy Harvesting System Market with the reasons given for variations in the growth of the industry in certain regions.
The report covers detailed competitive outlook including the market share and company profiles of the key participants operating in the global market. Key players profiled in the report include EnOcean GmbH (Germany), Mide Technology Corporation (US), Lord Microstrain (US); secondary battery and capacitor providers such as Cymbet Corporation (US), Linear Technologies (US), Murata Manufacturing Co. Ltd., (Japan), and Infinite Power Solution Inc. (US); power management IC manufacturers such as Linear Technologies (US), Cypress Semiconductor Corp. (US), STMicroelectronics (Switzerland), Texas Instruments (US), and Fujitsu (Japan). Company profile includes assign such as company summary, financial summary, business strategy and planning, SWOT analysis and current developments.
The Top Companies Report is intended to provide our buyers with a snapshot of the industry’s most influential players.


The Global Energy Harvesting System Market has been segmented as below:


By Technology Analysis:

  • Light Energy Harvesting
  • Vibration Energy Harvesting
  • Thermal Energy Harvesting
  • RF Energy Harvesting


By Component Analysis:

  • Transducers
  • PMICs
  • Secondary Batteries


By Application Analysis:

  • Building & Home Automation
  • Consumer Electronics
  • Industrial
  • Transportation
  • Security


By Regional Analysis:

  • North America
  • Europe
  • Asia-Pacific
  • Rest of the World


Reasons to Buy this Report:
1) Obtain the most up to date information available on all Energy Harvesting System Market.
2) Identify growth segments and opportunities in the industry.
3) Facilitate decision making on the basis of strong historic and forecast of Global Energy Harvesting System Market data.
4) Assess your competitor’s refining portfolio and its evolution.


We can offer you custom research reports as per client’s special requirements.

    1.1    KEY TAKE AWAYS    
    1.3    MARKETS COVERED    
    1.4    STAKEHOLDERS    
    1.5.1    MARKET SIZE    
    1.5.2    MARKET SHARE    

2 Research Methodology
    2.1 Research Data 
           2.1.1 Secondary Data
           Secondary Sources
           2.1.2 Primary Data
           Primary Sources
           Key Industry Insights
           Breakdown of Primaries
    2.2 Market Size Estimation 
           2.2.1 Bottom-Up Approach
           2.2.2 Top-Down Approach
           2.2.3 Market Share Estimation
    2.3 Market Breakdown and Data Triangulation 
    2.4 Research Assumptions

3 Executive Summary 

4 Premium Insights 
    4.1 Attractive Market Opportunities in the Overall Energy Harvesting System Market 
    4.2 Energy Harvesting System Market, By Technology 
    4.3 Energy Harvesting System Market, By Application and By Component 
    4.4 Region Analysis of the Energy Harvesting System Market 
    4.5 Energy Harvesting System Market, By Region 
    4.6 Energy Harvesting System Market, By Application 
    4.7 Energy Harvesting Systems With Wireless Sensor Networks, By Component

5 Market Overview 
    5.1 Introduction 
    5.2 Market Dynamics 
           5.2.1 Drivers
           Growing Demand for Safe, Power-Efficient, and Durable Systems That Require Minimum Or No Maintenance
           Extensive Implementation of IoT Devices in Automation and Energy Harvesting Technology in Building and Home Automation
           Increasing Trend for Green Energy and Favorable Initiatives By the Governments
           Rising Adoption of Wireless Sensor Networks Equipped With Energy Harvesting System
           5.2.2 Restraints
           Limitations of Remotely Installed Networking Modules
           Higher Initial Cost Associated With Energy Harvesting System Curtails the Market Growth in Developing Countries
           5.2.3 Opportunities
           Use of Sensors in Wearable Electronics
           Use of Human Energy Harvesting for Implantable Biomedical Devices
           Ocean Energy Harvesting
           5.2.4 Challenges
           Standardization of Communication Protocols

6 Industry Trends 
    6.1 Introduction 
    6.2 Value Chain Analysis 
    6.3 Trends in Aviation Industry 
           6.3.1 Energy Harvesting Tracking Solution for Cargo
           6.3.2 Energy Harvesting for Powering Electronic Windows
           6.3.3 Energy Harvesting for Damage Detection
           6.3.4 Energy Harvesting for Aircraft Subsystems
    6.4 Analysis of Applications

7 Energy Harvesting Market for Wireless Sensor Network, By Component and Sensor Type 
    7.1 Definition and Scope 
           7.1.1 Wireless Sensor Network (WSN)
    7.2 Data Triangulation Methodology for Wireless Sensor Network With Energy Harvesting

8 Energy Harvesting System Market, By Technology 
    8.1 Introduction 
    8.2 Light Energy Harvesting 
    8.3 Vibration Energy Harvesting 
    8.4 Radio Frequency (RF) Energy Harvesting 
    8.5 Thermal Energy Harvesting

9 Energy Harvesting System Market, By Component 
    9.1 Introduction 
    9.2 Transducer 
           9.2.1 Photovoltaic
           9.2.2 Electrodynamic, Piezoelectric and Electromagnetic
           9.2.3 Thermoelectric
           9.2.4 Radio Frequency (RF) Transducer
    9.3 Power Management Integrated Circuit (PMIC) 
    9.4 Secondary Battery 
    9.5 Case Study

10 Energy Harvesting System Market, By Application 
     10.1 Introduction 
     10.2 Building & Home Automation 
     10.3 Consumer Electronics 
     10.4 Industrial 
     10.5 Transportation 
     10.6 Security

11 Geographical Analysis 
     11.1 Introduction 
     11.2 Americas 
     11.3 Europe 
     11.4 Asia Pacific (APAC) 
     11.5 Rest of the World (RoW)

12 Competitive Landscape
     12.1 Introduction 
     12.2 Market Rank Analysis 
     12.3 Competitive Scenario 
     12.4 Competitive Leadership Mapping 
             12.4.1 Visionary Leaders
             12.4.2 Dynamic Differentiators
             12.4.3 Innovators
             12.4.4 Emerging Companies
     12.5 Business Strategy Excellence 
     12.6 Strength of Product Portfolio

13 Company Profiles 
     13.1 Introduction 
     13.2 ABB Limited 
     13.3 Arveni 
     13.4 Convergence Wireless 
     13.5 Cymbet Corporation 
     13.6 Enocean GmbH 
     13.7 Fujitsu Limited 
     13.8 Greenpeak Technologies B.V. 
     13.9 Honeywell International Inc. 
     13.10 Powercast Corporation 
     13.11 Microchip Technology Inc. 
     13.12 Stmicroelectronics N.V. 
     13.13 Texas Instruments Incorporated 
     13.14 Key Innovators 
             13.14.1 Voltree Power Inc.
             13.14.2 Bionic Power Inc.
             13.14.3 O-Flexx Technologies GmbH

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