Vibration Energy Harvesting System Market to Grow at 11% CAGR during 2025

Global Vibration Energy Harvesting System Market Analysis, 2020

By Type (Linear Systems, Non-Linear Systems, and Rational Systems), By Components (Transducer, Storage System, and PMIC), By Application (Building & Home Automation, Consumer Electronics, Industrial,... ... ronics, Industrial, Healthcare, Transportation, Security, and Others), By Region (North America, South America, Europe, Middle East and Africa, Asia- Pacific), By Country (US, Canada, Mexico, Brazil, Colombia, Germany, Italy, France, UK, Saudi-Arabia, UAE, South Africa, China, India, Japan, and South Korea), By Company Read more

Energy
Dec 2019
Pages 184
Report Format: PDF, Excel, PPT

According to MarkNtel Advisors’ research report titled “Global Vibration Energy Harvesting System Market Analysis, 2020”, the Vibration Energy Harvesting System market is anticipated to grow at a CAGR of around 11% during 2020-25 due to the proliferation of IoT technology across consumer electronics and the automation of the process in different industries which are expected to drive the market for vibration energy harvesting systems.


Report Coverage	Details
Study Period	Historical Data: 2015-19
	Base Year: 2019
	Forecast Period: 2020-25
Regions Covered	North America
	Europe
	Asia-Pacific
	South America
	Middle East & Africa
Unit Denominations	USD Million/Billion

The integrated technologies require a continuous supply of power without network breakage. The grid-connected power supply is a costly affair and involves high maintenance and installation costs. Vibration energy harvesting enables the replacement of such conventional mode of power supply such as battery those are used in small electronic devices. Moreover, the rising environment concerns, supportive government regulations, and increasing focus on the renewable power production are expected to proliferate the demand for vibration energy harvesting system in the forthcoming years.

The application of vibration energy harvesting systems is expected to increase in the future with the advent of technological enhancement. The manufacturers are trying to increase their power storage capacities to enable its application across several untapped areas.

Transducer, the Highest Revenue Generating Component in the VEHS Market

Based on the components, the transducer segment dominated the Global Vibration Energy Harvesting market in 2019, as stated in the MarkNtel Advisors’ research report “Global Vibration Energy Harvesting System Market Analysis, 2020”. Transducers are further sub-segmented into photovoltaic, piezoelectric, thermoelectric, and electro-dynamic. Among these, photovoltaic category generated maximum revenue for the vibration energy harvesting system companies.

Rising demand for renewable power sources to meet the supply deficit of energy resources and to cater to the increasing electricity demand from the growing population have been driving the demand for this category. Moreover, the photovoltaic cells operate at economical prices, as compared to the other technologies.

According to MarkNtel Advisors, the key market players in the Global Vibration Energy Harvesting System industry include Perpetuum Ltd., STMicroelectronics, Murata Manufacturing Co., Ltd., Kinergizer BV, Renesas Electronics Corporation, Mide Technology, Smart Material Corporation, and Others.

1. Introduction

1.1. Research Process

1.2. Assumption

1.3. Market Segmentation

1.4. Market Definition

2. Executive Summary

3. Expert Verbatim- What our Experts Say?

4. Global Vibration Energy Harvesting SystemMarket Outlook, 2015-2025F

4.1. Market Size & Analysis

4.1.1. By Revenues

4.1.2. Market Share & Analysis

4.1.3. By Type

4.1.3.1. Linear Systems

4.1.3.2. Non-Linear Systems

4.1.3.3. Rational Systems

4.1.4. By Components

4.1.4.1. Transducer

4.1.4.1.1. Photovoltaic

4.1.4.1.2. Piezoelectric

4.1.4.1.3. Thermoelectric

4.1.4.1.4. Electro- Dynamic

4.1.4.2. Power Management Integrated Circuits (PMIC)

4.1.4.3. Storage Systems

4.1.5. By Application

4.1.5.1. Building & Home Automation

4.1.5.2. Consumer Electronics

4.1.5.3. Industrial

4.1.5.4. Healthcare

4.1.5.5. Transportation

4.1.5.6. Security

4.1.5.7. Others

4.1.6. By Region

4.1.6.1. North America

4.1.6.2. South America

4.1.6.3. Europe

4.1.6.4. Middle East & Africa

4.1.6.5. Asia-Pacific

4.1.7. By Company

4.1.7.1. Revenue Shares

4.1.7.2. Strategic Factorial Indexing

4.1.7.3. Competitor Placement in Markntel Quadrant

5. North America Vibration Energy Harvesting System Market Outlook, 2015-2025F

5.1. Market Size & Analysis

5.1.1. By Revenues

5.2. Market Share & Analysis

5.2.1. By Type

5.2.2. By Components

5.2.3. By Application

5.2.4. By Country

5.2.4.1. US

5.2.4.2. Mexico

5.2.4.3. Canada

5.3. The US Vibration Energy Harvesting System Market Outlook, 2015-2025F

5.3.1. Market Size & Analysis

5.3.1.1. By Revenues

5.3.2. Market Share & Analysis

5.3.2.1. By Type

5.3.2.2. By Components

5.3.2.3. By Application

5.4. Canada Vibration Energy Harvesting System Market Outlook, 2015-2025F

5.4.1. Market Size & Analysis

5.4.1.1. By Revenues

5.4.2. Market Share & Analysis

5.4.2.1. By Type

5.4.2.2. By Components

5.4.2.3. By Application

5.5. Mexico Vibration Energy Harvesting System Market Outlook, 2015-2025F

5.5.1. Market Size & Analysis

5.5.1.1. By Revenues

5.5.2. Market Share & Analysis

5.5.2.1. By Type

5.5.2.2. By Components

5.5.2.3. By Application

6. South America Vibration Energy Harvesting System Market Outlook, 2015-2025F

6.1. Market Size & Analysis

6.1.1. By Revenues

6.2. Market Share & Analysis

6.2.1. By Type

6.2.2. By Components

6.2.3. By Application

6.2.4. By Application

6.2.5. By Country

6.2.5.1. Brazil

6.2.5.2. Colombia

6.3. Brazil Vibration Energy Harvesting System Market Outlook, 2015-2025F

6.3.1. Market Size & Analysis

6.3.1.1. By Revenues

6.3.2. Market Share & Analysis

6.3.2.1. By Type

6.3.2.2. By Components

6.3.2.3. By Application

6.4. Colombia Vibration Energy Harvesting System Market Outlook, 2015-2025F

6.4.1. Market Size & Analysis

6.4.1.1. By Revenues

6.4.2. Market Share & Analysis

6.4.2.1. By Type

6.4.2.2. By Components

6.4.2.3. By Application

7. Europe Vibration Energy Harvesting System Market Outlook, 2015-2025F

7.1. Market Size & Analysis

7.2. Market Size & Analysis

7.2.1. By Revenues

7.3. Market Share & Analysis

7.3.1. By Type

7.3.2. By Components

7.3.3. By Application

7.3.4. By Country

7.3.4.1. Germany

7.3.4.2. France

7.3.4.3. Italy

7.3.4.4. UK

7.4. Germany Vibration Energy Harvesting System Market Outlook, 2015-2025F

7.4.1. Market Size & Analysis

7.4.1.1. By Revenues

7.4.2. Market Share & Analysis

7.4.2.1. By Type

7.4.2.2. By Components

7.4.2.3. By Application

7.5. France Vibration Energy Harvesting System Market Outlook, 2015-2025F

7.5.1. Market Size & Analysis

7.5.1.1. By Revenues

7.5.2. Market Share & Analysis

7.5.2.1. By Type

7.5.2.2. By Components

7.5.2.3. By Application

7.6. Italy Vibration Energy Harvesting System Market Outlook, 2015-2025F

7.6.1. Market Size & Analysis

7.6.1.1. By Revenues

7.6.2. Market Share & Analysis

7.6.2.1. By Type

7.6.2.2. By Components

7.6.2.3. By Application

7.7. UK Vibration Energy Harvesting System Market Outlook, 2015-2025F

7.7.1. Market Size & Analysis

7.7.1.1. By Revenues

7.7.2. Market Share & Analysis

7.7.2.1. By Type

7.7.2.2. By Components

7.7.2.3. By Application

8. Middle East & Africa Vibration Energy Harvesting System Market Outlook, 2015-2025F

8.1. Market Size & Analysis

8.1.1. By Revenues

8.2. Market Share & Analysis

8.2.1. By Type

8.2.2. By Components

8.2.3. By Application

8.2.4. By Country

8.2.4.1. Saudi Arabia

8.2.4.2. UAE

8.2.4.3. South Africa

8.3. Saudi Arabia Vibration Energy Harvesting System Market Outlook, 2015-2025F

8.3.1. Market Size & Analysis

8.3.1.1. By Revenues

8.3.2. Market Share & Analysis

8.3.2.1. By Type

8.3.2.2. By Components

8.3.2.3. By Application

8.4. UAE Vibration Energy Harvesting System Market Outlook, 2015-2025F

8.4.1. Market Size & Analysis

8.4.1.1. By Revenues

8.4.2. Market Share & Analysis

8.4.2.1. By Type

8.4.2.2. By Components

8.4.2.3. By Application

8.5. South Africa Vibration Energy Harvesting System Market Outlook, 2015-2025F

8.5.1. Market Size & Analysis

8.5.1.1. By Revenues

8.5.2. Market Share & Analysis

8.5.2.1. By Type

8.5.2.2. By Components

8.5.2.3. By Application

9. Asia-Pacific Vibration Energy Harvesting System Market Outlook, 2015-2025F

9.1. Market Size & Analysis

9.1.1. By Revenues

9.2. Market Share & Analysis

9.2.1. By Type

9.2.2. By Components

9.2.3. By Application

9.2.4. By Country

9.2.4.1. China

9.2.4.2. India

9.2.4.3. Japan

9.2.4.4. South Korea

9.3. China Vibration Energy Harvesting System Market Outlook, 2015-2025F

9.3.1. Market Size & Analysis

9.3.1.1. By Revenues

9.3.2. Market Share & Analysis

9.3.2.1. By Type

9.3.2.2. By Components

9.3.2.3. By Application

9.4. India Vibration Energy Harvesting System Market Outlook, 2015-2025F

9.4.1. Market Size & Analysis

9.4.1.1. By Revenues

9.4.2. Market Share & Analysis

9.4.2.1. By Type

9.4.2.2. By Components

9.4.2.3. By Application

9.5. Japan Vibration Energy Harvesting System Market Outlook, 2015-2025F

9.5.1. Market Size & Analysis

9.5.1.1. By Revenues

9.5.2. Market Share & Analysis

9.5.2.1. By Type

9.5.2.2. By Components

9.5.2.3. By Application

9.6. South Korea Vibration Energy Harvesting System Market Outlook, 2015-2025F

9.6.1. Market Size & Analysis

9.6.1.1. By Revenues

9.6.2. Market Share & Analysis

9.6.2.1. By Type

9.6.2.2. By Components

9.6.2.3. By Application

9.7. South Korea Vibration Energy Harvesting System Market Outlook, 2015-2025F

9.7.1. Market Size & Analysis

9.7.1.1. By Revenues

9.7.2. Market Share & Analysis

9.7.2.1. By Type

9.7.2.2. By Components

9.7.2.3. By Application

10. Global Vibration Energy Harvesting System Market Policies, Regulations, Product Standards

11. Global Vibration Energy Harvesting System Market Trends & Insights

12. Global Vibration Energy Harvesting System Market Dynamics

12.1.Growth Drivers

12.2.Challenges

12.3.Impact Analysis

13. Global Vibration Energy Harvesting System Market Hotspot and Opportunities

14. Global Vibration Energy Harvesting System Market Key Strategic Imperatives for Success and Growth

15. Competitive Outlook

15.1.Competition Matrix

15.1.1. Product Portfolio

15.1.2. Brand Specialization

15.1.3. Target Markets

15.1.4. Target Technologies

15.1.5. Research & Development

15.1.6. Strategic Alliances

15.1.7. Strategic Initiatives

15.2.Company Profiles (Business Description, Product Segments, Business Segments, Financials, Strategic Alliances/ Partnerships, Future Plans)

15.2.1. Perpetuum Ltd.

15.2.2. STMicroelectronics

15.2.3. Murata Manufacturing Co., Ltd.

15.2.4. Kinergizer BV

15.2.5. Renesas Electronics Corporation

15.2.6. Mide Technology

15.2.7. Smart Material Corporation

15.2.8. Powercast Corporation

15.2.9. ReVibe energy

15.2.10. Cymbet Corporation

16. Disclaimer

MarkNtel Advisors follows a robust and iterative research methodology designed to ensure maximum accuracy and minimize deviation in market estimates and forecasts. Our approach combines both bottom-up and top-down techniques to effectively segment and quantify various aspects of the market. A consistent feature across all our research reports is data triangulation, which examines the market from three distinct perspectives to validate findings. Key components of our research process include:

1. Scope & Research Design At the outset, MarkNtel Advisors define the research objectives and formulate pertinent questions. This phase involves determining the type of research—qualitative or quantitative—and designing a methodology that outlines data collection methods, target demographics, and analytical tools. They also establish timelines and budgets to ensure the research aligns with client goals.

2. Sample Selection and Data Collection In this stage, the firm identifies the target audience and determines the appropriate sample size to ensure representativeness. They employ various sampling methods, such as random or stratified sampling, based on the research objectives. Data collection is carried out using tools like surveys, interviews, and observations, ensuring the gathered data is reliable and relevant.

3. Data Analysis and Validation Once data is collected, MarkNtel Advisors undertake a rigorous analysis process. This includes cleaning the data to remove inconsistencies, employing statistical software for quantitative analysis, and thematic analysis for qualitative data. Validation steps are taken to ensure the accuracy and reliability of the findings, minimizing biases and errors.

4. Data Forecast and FinalizationThe final phase involves forecasting future market trends based on the analyzed data. MarkNtel Advisors utilize predictive modeling and time series analysis to anticipate market behaviors. The insights are then compiled into comprehensive reports, featuring visual aids like charts and graphs, and include strategic recommendations to inform client decision-making

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