Energy Harvesting System Market Size, Share & Industry Trends

Energy Harvesting System Market Size, Share & Industry Trends Analysis Report by Technology (Light, Vibration, Radio Frequency (RF), Thermal), Component (Transducers (Photovoltaic, Piezoelectric, Electromagnetic, RF, Thermoelectric), PMICs, Secondary Batteries) - Global Forecast to 2028

Report Code: SE 1196 Jul, 2023, by marketsandmarkets.com

Updated on : Oct 22, 2024

Energy Harvesting System Market Size & Growth

The global energy harvesting system market size was valued at USD 0.6 billion in 2023 and is estimated to reach USD 0.9 billion by 2028, growing at a CAGR of 10.0% during the forecast period 2023-2028

The growth of the market is driven by rising environmental concerns, miniaturization and flexibility requirements, and integration of IoT devices in energy harvesting systems for building and home automation.

Energy Harvesting System Market

Energy Harvesting System Market

Energy Harvesting System Market Forecast to 2028

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Energy Harvesting System Market Dynamics

Drivers: Miniaturization and flexibility requirements

The demand for smaller, more flexible energy harvesting systems is increasing, driven by the growing need for compact, lightweight, and versatile power solutions. Applications such as wearable electronics, IoT sensors, and smart packaging require energy harvesting systems that seamlessly integrate into small form factors and adapt to various shapes and structures. Miniaturization of energy harvesting systems enables their integration into smaller devices, making them more practical and efficient. For instance, in wearable electronics, energy harvesting systems can generate power from the wearer's movements or body heat, eliminating the need for frequent battery replacements. This enhances user convenience, extends device lifespan, and reduces electronic waste.

Flexibility is another crucial requirement for energy harvesting systems, particularly in applications where conformability and adaptability to curved surfaces are necessary. Flexible energy harvesting devices can be integrated into textiles, curved surfaces, or irregularly shaped objects without compromising performance or aesthetics. This opens up possibilities for energy harvesting integration in smart clothing, flexible displays, and curved electronics.

Restraint: Geographic and environmental constraints

Energy harvesting technologies depend on specific geographical regions or environmental conditions to perform optimally. For instance, solar energy harvesting relies on the availability of sunlight for effective power generation, making it less suitable for regions with limited sunlight exposure or high levels of cloud cover. Thus, geographic and environmental constraints can hinder the widespread adoption of energy harvesting systems in areas where the necessary resources are not readily available. Regions with low sunlight exposure may find solar energy harvesting less viable and may need to rely on other sources of energy generation. Similarly, regions with low wind speeds may not benefit from wind energy harvesting systems.

Furthermore, environmental conditions such as extreme temperatures, humidity, or corrosive environments can impact the efficiency and durability of energy harvesting systems. For example, extreme cold temperatures can reduce the efficiency of solar panels, while high humidity levels can affect the performance of certain energy harvesting devices. These environmental limitations may require additional considerations and adaptations in system design, materials, or maintenance protocols, which can increase costs and complexity.

Opportunities: Emergence of smart cities

The emergence of smart cities presents lucrative opportunities for the energy harvesting system industry. As cities become more populated and interconnected, there is a growing need for sustainable energy solutions to power smart infrastructure. Smart buildings, a key component of smart cities, can benefit from energy harvesting technologies in several ways.

By integrating energy harvesting systems into building structures, energy can be generated from ambient sources such as solar, thermal, or kinetic energy. This energy can power low-power devices, sensors, and monitoring systems within the building. Energy harvesting technologies can also capture and utilize wasted energy, such as harvesting heat from HVAC systems or capturing vibrations from building operations. These applications reduce the reliance on traditional energy sources and enhance the overall energy efficiency of buildings.

Intelligent transportation systems, another crucial aspect of smart cities, can also leverage energy harvesting systems. Traffic management systems, streetlights, and signage can be powered by energy harvested from ambient sources, reducing the dependence on the electrical grid. For instance, solar panels integrated into road surfaces can harvest solar energy and power streetlights or charging stations for electric vehicles. Energy harvesting technologies can also be used to capture energy from braking or vibrations in transportation systems, which can be converted into electricity to power onboard sensors, communications devices, or lighting.

Furthermore, energy-efficient networks within smart cities can be powered by energy harvesting systems. Wireless sensor networks, for instance, can utilize energy harvesting technologies to power the multitude of sensors deployed throughout the city for environmental monitoring, waste management, or security purposes. By harnessing energy from the environment, these networks can operate autonomously and reduce the need for frequent battery replacements or external power sources.

The integration of energy harvesting systems into smart cities offers numerous benefits. It reduces reliance on traditional energy sources, promotes sustainability, enhances energy efficiency, and improves the overall resilience of city infrastructure. Energy harvesting technologies enable smart cities to achieve self-sufficiency and reduce their environmental footprint. Moreover, they contribute to cost savings by reducing energy consumption and maintenance requirements.

Challenge: Limitations associated with integrating energy harvesting systems into existing infrastructure

The integration of energy harvesting systems into existing infrastructure poses significant challenges due to the diverse nature of the infrastructure and the need for retrofitting or modifications. The integration process involves adapting the infrastructure to accommodate energy harvesting technologies and ensuring compatibility with existing systems and operations.

One of the primary challenges is retrofitting older structures or buildings. Many existing buildings were not designed with energy harvesting systems in mind, which can make the integration process complex and costly. Retrofitting may involve modifications to the building envelope, electrical systems, and structural components to incorporate energy harvesting devices such as solar panels, piezoelectric sensors, or kinetic energy harvesters. Structural assessments and engineering expertise are often required to ensure the integrity and safety of the retrofitting process.

Similarly, integrating energy harvesting systems into roadways or transportation infrastructure presents unique challenges. The installation of energy harvesting technologies, such as piezoelectric materials or solar panels, may require road resurfacing or modifications to accommodate the devices. Coordination with transportation authorities and consideration of traffic management are essential to minimize disruptions during the integration process. Furthermore, the integration of energy harvesting systems with the existing transportation infrastructure may involve overcoming regulatory and safety requirements.

Industrial equipment and machinery also pose challenges for integration with energy harvesting systems. Retrofitting existing equipment to harness energy from ambient sources, such as vibrations or waste heat, may require modifications to the equipment design or the addition of energy harvesting modules. Compatibility with control systems and electrical interfaces must also be considered to ensure seamless integration without compromising the operational efficiency or safety of the equipment.

Energy Harvesting System Ecosystem

Energy Harvesting System Market by Ecosystem

Energy Harvesting System Segmentation Analysis

Light energy harvesting segment to hold larger market share during the forecast period.

In 2022, the light energy harvesting segment accounted for the larger share of the energy harvesting system market. As the demand for clean, sustainable energy solutions continues to rise, light energy harvesting offers a promising avenue for harnessing renewable energy. The advancements in photovoltaic technologies, such as solar panels, have paved the way for the efficient conversion of sunlight into usable electricity.

Additionally, emerging technologies such as organic solar cells, perovskite solar cells, and transparent solar panels are revolutionizing the field by enhancing efficiency and expanding the range of applications. The versatility of light energy harvesting allows it to be integrated into a wide array of devices and systems, including wearables, Internet of Things (IoT) devices, autonomous sensors, and smart infrastructure. This technology reduces reliance on traditional energy sources, promotes energy independence, reduces carbon footprint, and opens opportunities for decentralized power generation. With ongoing research and development efforts, the growth potential of light energy harvesting is expected to accelerate, driving innovation, sustainability, and economic growth in the coming years.

Transducers segment account for the largest share of the energy harvesting system market for during the forecast period

In 2022, the transducers segment held the largest share of the market. The rising demand for self-powered devices and the growth of the Internet of Things (IoT) are driving the need for energy harvesting transducers. Energy harvesting transducers offer an attractive alternative to traditional batteries, enabling the development of self-sufficient devices that can operate without external power sources or frequent battery replacements.

The increasing awareness of sustainability and energy efficiency is pushing industries towards renewable and environmentally friendly power solutions, reducing reliance on disposable batteries. The expanding use cases in various industries, including building automation, automotive, and transportation, further contribute to the growing demand. These factors collectively create a favourable environment for the increased adoption of energy harvesting transducers in the coming years.

Building & home automation application to exhibit highest growth in terms of energy harvesting system market during the forecast period

The building & home automation application segment is expected to account for the highest growth of the market. The segment is driven by the increasing demand for energy-efficient and smart living environments. The integration of energy harvesting systems into these applications has emerged as a key growth factor, offering numerous benefits in terms of sustainability, convenience, and cost savings.

These systems enhance energy efficiency by harnessing renewable sources like solar, thermal, or kinetic energy to power lighting, HVAC systems, sensors, and smart devices. With wireless connectivity and scalability, the energy harvesting systems provide easy integration without complex wiring. The maintenance-free operation and reduced environmental impact of energy harvesting systems further contribute to market growth across building & home automation applications. By leveraging energy harvesting systems, the building & home automation applications offer a greener and more adaptable future.

Energy harvesting system market in Asia Pacific estimated to grow at the fastest rate during the forecast period

The market, in Asia Pacific is expected to grow at the highest CAGR during the forecast period. The region's technological advancements and manufacturing capabilities contribute to the development and commercialization of energy harvesting systems. Furthermore, the rising awareness and concern for environmental sustainability among consumers and businesses drive the adoption of clean energy practices, including energy harvesting. The Asia Pacific region is also witnessing significant investment in smart city projects, which require efficient and sustainable power solutions, thereby fuelling the demand for energy harvesting systems.

Energy Harvesting System Market by Region

Energy Harvesting System Market by Region

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Top Energy Harvesting System Companies - Key Market Players

Major vendors in the energy harvesting system companies include

  • STMicroelectronics (Switzerland),
  • Microchip Technology Inc. (US),
  • Texas Instruments Incorporated (US),
  • Analog Devices, Inc. (US),
  • Infineon Technologies AG (Germany),
  • Renesas Electronics Corporation (Japan),
  • EnOcean GmbH (Germany),
  • ABB (Switzerland),
  • Honeywell International Inc. (US),
  • Qorvo, Inc. (US).

Apart from this, Kistler Group (Switzerland), Cymbet Corporation (US), Mide Technology Corporation (US), Physik Instrumente (PI) GmbH & Co. KG (Germany), CTS Corporation (US), Trameto Limited (UK), Nexperia (Netherlands), CeramTec GmbH (Germany), Bionic Power Inc. (Canada), Kinergizer (Netherlands), Powercast Corporation (US), Micropelt GmbH (Germany), Advanced Linear Devices, Inc. (US), APC International Ltd. (US), and Voltree Power (US) are among a few emerging companies in the energy harvesting system market.

Energy Harvesting System Market Report Scope

Report Metric

Details

Estimated Market Size USD 0.6 billion in 2023
Projected Market Size USD 0.9 billion by 2028
Energy Harvesting System Market Growth Rate CAGR of 10.0%

Energy Harvesting System Market size available for years

2019—2028

Base year

2022

Forecast period

2023—2028

Segments covered

Technology, Component, End-use System, Application and Region

Geographic regions covered

North America, Europe, Asia Pacific, and RoW

Companies covered

The major players include STMicroelectronics (Switzerland), Microchip Technology Inc. (US), Texas Instruments Incorporated (US), Analog Devices, Inc. (US), Infineon Technologies AG (Germany), Renesas Electronics Corporation (Japan), EnOcean GmbH (Germany), ABB (Switzerland), Honeywell International Inc. (US), Qorvo, Inc. (US) and Others- total 25 players have been covered.

Energy Harvesting System Market Highlights

This research report categorizes the energy harvesting system market based on technology, component, end-use system, application, and region.

Segment

Subsegment

By Technology:

  • Light Energy Harvesting
  • Vibration Energy Harvesting
  • Radio Frequency (RF) Energy Harvesting
  • Thermal Energy Harvesting
    • Low-temperature Range
    • Medium-temperature Range
    • High-temperature Range

By Component:

  • Transducers
    • Photovoltaic
    • Electrodynamic, Piezoelectric, and Electromagnetic
    • Thermoelectric
    • Radio Frequency (RF) Transducer
  • Power Management Integrated Circuits (PMICs)
  • Secondary Batteries

By End-use System:

  • Wireless Switching System
  • Wireless HVAC System
  • Wireless Sensing and Telematics System
  • Tire Pressure Monitoring System
  • Asset Tracking System
  • Remote Health Monitoring System
  • Regenerative Energy Harvesting System

By Application:

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

By Region:

  • North America
    • US
    • Canada
    • Mexico
  • Europe
    • Germany
    • UK
    • France
    • Rest of Europe
  • Asia Pacific
    • China
    • Japan
    • South Korea
    • Rest of Asia Pacific
  • Rest of the World (RoW)
    • South America
    • Middle East & Africa

Recent Developments in Energy Harvesting System Industry

  • In March 2023, STMicroelectronics (Switzerland) launched the L9961 battery management system (BMS) device, which offers precise and adaptable performance, improving the efficiency, durability, and safety of energy harvesting from Li-ion and Li-polymer batteries for applications such as power tools, energy storage, and medical devices.
  • In March 2023, Infineon Technologies AG (Germany) launched the NGC1081, a new NFC tag-side controller that integrates sensing and energy harvesting capabilities. This compact, battery-free solution enables low-cost, smart sensing IoT devices for various applications, from medical patches to data loggers and smart thermostats.
  • In June 2022, At Lightfair 2022, EnOcean GmbH (Germany) showcased its self-powered sensor and switch solutions based on energy harvesting wireless technology. The Easyfit portfolio offered wireless controls for smart lighting systems, enabling energy savings and improved environments. The products were battery-free, wireless, and interoperable, making them suitable for various building automation and IoT applications.

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INTRODUCTION
23
RESEARCH METHODOLOGY
30
EXECUTIVE SUMMARY
44
PREMIUM INSIGHTS
49
MARKET OVERVIEW
52
  • 5.1 INTRODUCTION
  • 5.2 MARKET DYNAMICS
    DRIVERS
    - Rising environmental concerns
    - Miniaturization and flexibility requirements
    - Integration of IoT devices in energy harvesting systems for building and home automation
    - Favorable government initiatives
    - Growing preference for wireless sensor networks equipped with energy harvesting systems
    RESTRAINTS
    - Geographic and environmental constraints
    - Limitations of remotely installed networking modules
    - High initial cost of energy harvesting systems
    OPPORTUNITIES
    - Emergence of smart cities
    - Adoption of sensors in wearable electronics
    - Use of human energy harvesting for implantable biomedical devices
    - Ocean energy harvesting
    CHALLENGES
    - Limitations associated with integrating energy harvesting systems into existing infrastructure
    - Standardization of communications protocols
    - Damages caused to energy harvesting devices by surrounding environments
  • 5.3 TECHNOLOGY ANALYSIS
    MULTI-SOURCE HARVESTING
    NANOMATERIALS AND METAMATERIALS
    3D PRINTING
    BODY MOTION ENERGY HARVESTING
    PHOTO-ELECTROCHEMISTRY-BASED ENERGY HARVESTING
  • 5.4 VALUE CHAIN ANALYSIS
  • 5.5 ECOSYSTEM MAPPING
  • 5.6 TRENDS/DISRUPTIONS IMPACTING CUSTOMERS’ BUSINESSES
  • 5.7 PORTER’S FIVE FORCES ANALYSIS
    THREAT OF NEW ENTRANTS
    THREAT OF SUBSTITUTES
    BARGAINING POWER OF SUPPLIERS
    BARGAINING POWER OF BUYERS
    INTENSITY OF COMPETITIVE RIVALRY
  • 5.8 AVERAGE SELLING PRICE (ASP) ANALYSIS
    AVERAGE SELLING PRICE TREND, BY COMPONENT
    AVERAGE SELLING PRICE TREND OF COMPONENTS, BY KEY PLAYER
  • 5.9 CASE STUDY ANALYSIS
    THERMOKON ACHIEVES ENERGY EFFICIENCY IN HISTORIC TOWN HALL WITH WIRELESS SOLUTIONS
    PAVEGEN POWERS PHONE CHARGING THROUGH FOOTSTEPS
    NXP AND ENOCEAN STREAMLINE WIRELESS ENERGY HARVESTING IN SMART HOME DEVICES WITH NFC
    PAVEGEN DEVELOPS KINETIC TENNIS EXPERIENCE TO SUPPORT SUSTAINABILITY
    SIEMENS LEVERAGES PAVEGEN’S KINETIC TECHNOLOGY TO ENGAGE AUDIENCES IN SUSTAINABLE MOBILITY
    CENTRAL BEDFORDSHIRE COUNCIL PROMOTES CLEAN-ENERGY GENERATION
  • 5.10 TRADE ANALYSIS
  • 5.11 TARIFF ANALYSIS
  • 5.12 PATENT ANALYSIS
  • 5.13 KEY CONFERENCES AND EVENTS, 2023–2024
  • 5.14 REGULATORY LANDSCAPE
    REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER ORGANIZATIONS
    REGULATORY STANDARDS
    - ISO 50001
    - ISO 50003:2021
    - ISO 50004:2020
    - IEC 62830-1:2017
    - IEC 62830-2:2017
    - IEC 62830-3:2017
    - IEC 62830-4:2019
    GOVERNMENT REGULATIONS
    - US
    - Europe
    - China
    - Japan
  • 5.15 KEY STAKEHOLDERS AND BUYING CRITERIA
    KEY STAKEHOLDERS IN BUYING PROCESS
    BUYING CRITERIA
ENERGY HARVESTING SYSTEM MARKET, BY END-USE SYSTEM
94
  • 6.1 INTRODUCTION
  • 6.2 WIRELESS SWITCHING SYSTEMS
  • 6.3 WIRELESS HVAC SYSTEMS
  • 6.4 WIRELESS SENSING & TELEMATICS SYSTEMS
  • 6.5 TIRE PRESSURE MONITORING SYSTEMS
  • 6.6 ASSET TRACKING SYSTEMS
  • 6.7 REMOTE HEALTH MONITORING SYSTEMS
  • 6.8 REGENERATIVE ENERGY HARVESTING SYSTEMS
    FOOTWEAR INDUSTRY
    TEXTILE INDUSTRY
    TECHNOLOGY ANALYSIS
    - Piezoelectric
    - Electromagnetic
    - Triboelectric effect
    - R&D breakthroughs
ENERGY HARVESTING SYSTEM MARKET, BY TECHNOLOGY
101
  • 7.1 INTRODUCTION
  • 7.2 LIGHT ENERGY HARVESTING
    GROWING PREFERENCE FOR SUSTAINABLE AND SELF-POWERED DEVICES TO DRIVE GROWTH
  • 7.3 VIBRATION ENERGY HARVESTING
    INCREASING DEMAND FOR HOME AUTOMATION AND INDUSTRIAL SENSOR NETWORK APPLICATIONS TO DRIVE GROWTH
  • 7.4 RF ENERGY HARVESTING
    WIDESPREAD ADOPTION OF WIRELESS COMMUNICATIONS TECHNOLOGIES TO DRIVE GROWTH
  • 7.5 THERMAL ENERGY HARVESTING
    LARGE THERMAL ENERGY RESERVES IN INDUSTRIAL APPLICATIONS TO DRIVE GROWTH
    THERMAL ENERGY HARVESTING, BY SUB-TYPE
    - Low-temperature range
    - Medium-temperature range
    - High-temperature range
ENERGY HARVESTING SYSTEM MARKET, BY COMPONENT
125
  • 8.1 INTRODUCTION
  • 8.2 TRANSDUCERS
    PHOTOVOLTAIC
    - Increasing adoption in building automation, consumer electronics, and transportation applications to drive growth
    ELECTRODYNAMIC, PIEZOELECTRIC, AND ELECTROMAGNETIC
    - Electrodynamic
    - Piezoelectric
    - Electromagnetic
    THERMOELECTRIC
    - Need for sustainable power sources across industrial sector to drive growth
    RADIO FREQUENCY (RF)
    - Growing use in switches, fitness trackers, smart cards, and RFID tags to drive growth
  • 8.3 POWER MANAGEMENT INTEGRATED CIRCUITS (PMICS)
    HIGH DEMAND FOR POWER REGULATION IN ENERGY HARVESTING SOLUTIONS TO DRIVE GROWTH
  • 8.4 SECONDARY BATTERIES
    EXPANDING NEED FOR RELIABLE ENERGY STORAGE SOLUTIONS TO DRIVE GROWTH
ENERGY HARVESTING SYSTEM MARKET, BY APPLICATION
138
  • 9.1 INTRODUCTION
  • 9.2 BUILDING & HOME AUTOMATION
    RISING EMPHASIS ON ENERGY-EFFICIENT BUILDINGS AND SMART HOMES TO DRIVE GROWTH
  • 9.3 CONSUMER ELECTRONICS
    INCREASED PREFERENCE FOR EXTENDED BATTERY LIFE AND SUSTAINABLE POWER SOLUTIONS TO DRIVE GROWTH
  • 9.4 INDUSTRIAL
    EXTENSIVE USE OF SELF-POWERED SENSORS AND IOT DEVICES IN INDUSTRIAL SETTINGS TO DRIVE GROWTH
  • 9.5 TRANSPORTATION
    NEED TO REDUCE EMISSIONS IN TRANSPORTATION TO DRIVE GROWTH
  • 9.6 SECURITY
    SOARING ADOPTION OF SOLAR AND VIBRATION ENERGY HARVESTING TECHNOLOGIES TO DRIVE GROWTH
ENERGY HARVESTING SYSTEM MARKET, BY REGION
150
  • 10.1 INTRODUCTION
  • 10.2 NORTH AMERICA
    NORTH AMERICA: RECESSION IMPACT
    US
    - Government initiatives for renewable energy adoption to drive growth
    CANADA
    - Abundant availability of natural resources to drive growth
    MEXICO
    - Focus on energy diversification to drive growth
  • 10.3 EUROPE
    EUROPE: RECESSION IMPACT
    UK
    - Focus on smart city initiatives and building automation to drive growth
    GERMANY
    - Increased investments in renewable energy sources to drive growth
    FRANCE
    - Rising adoption of electric vehicles to drive growth
    REST OF EUROPE
  • 10.4 ASIA PACIFIC
    ASIA PACIFIC: RECESSION IMPACT
    CHINA
    - Government emphasis on reducing carbon emissions to drive growth
    JAPAN
    - Growing uptake of regenerative braking in domestic railway sector to drive growth
    SOUTH KOREA
    - Technological innovation to drive market growth
    REST OF ASIA PACIFIC
  • 10.5 ROW
    ROW: RECESSION IMPACT
    SOUTH AMERICA
    - Industrial and infrastructure development projects to drive growth
    MIDDLE EAST & AFRICA
    - Growing demand for smart building solutions to drive growth
COMPETITIVE LANDSCAPE
172
  • 11.1 OVERVIEW
  • 11.2 STRATEGIES ADOPTED BY KEY PLAYERS
  • 11.3 REVENUE ANALYSIS
  • 11.4 MARKET SHARE ANALYSIS, 2022
  • 11.5 COMPANY EVALUATION MATRIX
    STARS
    EMERGING LEADERS
    PERVASIVE PLAYERS
    PARTICIPANTS
  • 11.6 START-UP/SME EVALUATION MATRIX
    PROGRESSIVE COMPANIES
    RESPONSIVE COMPANIES
    DYNAMIC COMPANIES
    STARTING BLOCKS
  • 11.7 COMPETITIVE BENCHMARKING
  • 11.8 COMPANY FOOTPRINT ANALYSIS
  • 11.9 COMPETITIVE SCENARIO AND TRENDS
    PRODUCT LAUNCHES
    DEALS
COMPANY PROFILES
196
  • 12.1 KEY PLAYERS
    STMICROELECTRONICS
    - Business overview
    - Products/Solutions/Services offered
    - Recent developments
    - MnM view
    MICROCHIP TECHNOLOGY INC.
    - Business overview
    - Products/Solutions/Services offered
    - Recent developments
    - MnM view
    TEXAS INSTRUMENTS INCORPORATED
    - Business overview
    - Products/Solutions/Services offered
    - Recent developments
    - MnM view
    ANALOG DEVICES, INC.
    - Business overview
    - Products/Solutions/Services offered
    - Recent developments
    - MnM view
    INFINEON TECHNOLOGIES AG
    - Business overview
    - Products/Solutions/Services offered
    - Recent developments
    - MnM view
    RENESAS ELECTRONICS CORPORATION
    - Business overview
    - Products/Solutions/Services offered
    - Recent developments
    ENOCEAN GMBH
    - Business overview
    - Products/Solutions/Services offered
    - Recent developments
    ABB
    - Business overview
    - Products/Solutions/Services offered
    - Recent developments
    HONEYWELL INTERNATIONAL INC.
    - Business overview
    - Products/Solutions/Services offered
    - Recent developments
    QORVO, INC.
    - Business overview
    - Products/Solutions/Services offered
    - Recent developments
  • 12.2 OTHER PLAYERS
    KISTLER GROUP
    CYMBET
    MIDE TECHNOLOGY CORPORATION
    PHYSIK INSTRUMENTE (PI) GMBH & CO. KG
    CTS CORPORATION
    TRAMETO LIMITED
    NEXPERIA
    CERAMTEC GMBH
    BIONIC POWER INC.
    KINERGIZER
    POWERCAST CORPORATION
    MICROPELT GMBH
    ADVANCED LINEAR DEVICES, INC.
    APC INTERNATIONAL LTD.
    VOLTREE POWER
APPENDIX
252
  • 13.1 DISCUSSION GUIDE
  • 13.2 KNOWLEDGESTORE: MARKETSANDMARKETS’ SUBSCRIPTION PORTAL
  • 13.3 CUSTOMIZATION OPTIONS
  • 13.4 RELATED REPORTS
  • 13.5 AUTHOR DETAILS
LIST OF TABLES
 
  • TABLE 1 RISK ASSESSMENT
  • TABLE 2 GOVERNMENT INITIATIVES
  • TABLE 3 ENERGY HARVESTING SYSTEM MARKET ECOSYSTEM
  • TABLE 4 IMPACT OF PORTER’S FIVE FORCES
  • TABLE 5 AVERAGE SELLING PRICE OF COMPONENTS (USD)
  • TABLE 6 AVERAGE SELLING PRICE OF COMPONENTS, BY KEY PLAYER (USD)
  • TABLE 7 TARIFF IMPOSED BY BRAZIL ON IMPORTS OF PHOTOSENSITIVE SEMICONDUCTOR DEVICES, 2021
  • TABLE 8 TARIFF IMPOSED BY ARGENTINA ON IMPORTS OF PHOTOSENSITIVE SEMICONDUCTOR DEVICES, 2022
  • TABLE 9 TOP 20 PATENT OWNERS, 2013–2022
  • TABLE 10 PATENT REGISTRATIONS, 2019–2023
  • TABLE 11 KEY CONFERENCES AND EVENTS, 2023–2024
  • TABLE 12 NORTH AMERICA: REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER ORGANIZATIONS
  • TABLE 13 EUROPE: REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER ORGANIZATIONS
  • TABLE 14 ASIA PACIFIC: REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER ORGANIZATIONS
  • TABLE 15 ROW: REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER ORGANIZATIONS
  • TABLE 16 INFLUENCE OF STAKEHOLDERS ON BUYING PROCESS FOR TOP THREE APPLICATIONS (%)
  • TABLE 17 KEY BUYING CRITERIA FOR TOP THREE APPLICATIONS
  • TABLE 18 ENERGY HARVESTING SYSTEM MARKET, BY TECHNOLOGY, 2019–2022 (USD MILLION)
  • TABLE 19 ENERGY HARVESTING SYSTEM MARKET, BY TECHNOLOGY, 2023–2028 (USD MILLION)
  • TABLE 20 LIGHT ENERGY HARVESTING: ENERGY HARVESTING SYSTEM MARKET, BY APPLICATION, 2019–2022 (USD MILLION)
  • TABLE 21 LIGHT ENERGY HARVESTING: ENERGY HARVESTING SYSTEM MARKET, BY APPLICATION, 2023–2028 (USD MILLION)
  • TABLE 22 LIGHT ENERGY HARVESTING: ENERGY HARVESTING SYSTEM MARKET, BY REGION, 2019–2022 (USD MILLION)
  • TABLE 23 LIGHT ENERGY HARVESTING: ENERGY HARVESTING SYSTEM MARKET, BY REGION, 2023–2028 (USD MILLION)
  • TABLE 24 BUILDING & HOME AUTOMATION: LIGHT ENERGY HARVESTING MARKET, BY REGION, 2019–2022 (USD MILLION)
  • TABLE 25 BUILDING & HOME AUTOMATION: LIGHT ENERGY HARVESTING MARKET, BY REGION, 2023–2028 (USD MILLION)
  • TABLE 26 CONSUMER ELECTRONICS: LIGHT ENERGY HARVESTING MARKET, BY REGION, 2019–2022 (USD THOUSAND)
  • TABLE 27 CONSUMER ELECTRONICS: LIGHT ENERGY HARVESTING MARKET, BY REGION, 2023–2028 (USD THOUSAND)
  • TABLE 28 INDUSTRIAL: LIGHT ENERGY HARVESTING MARKET, BY REGION, 2019–2022 (USD THOUSAND)
  • TABLE 29 INDUSTRIAL: LIGHT ENERGY HARVESTING MARKET, BY REGION, 2023–2028 (USD THOUSAND)
  • TABLE 30 TRANSPORTATION: LIGHT ENERGY HARVESTING MARKET, BY REGION, 2019–2022 (USD THOUSAND)
  • TABLE 31 TRANSPORTATION: LIGHT ENERGY HARVESTING MARKET, BY REGION, 2023–2028 (USD THOUSAND)
  • TABLE 32 SECURITY: LIGHT ENERGY HARVESTING MARKET, BY REGION, 2019–2022 (USD THOUSAND)
  • TABLE 33 SECURITY: LIGHT ENERGY HARVESTING MARKET, BY REGION, 2023–2028 (USD THOUSAND)
  • TABLE 34 VIBRATION ENERGY HARVESTING: ENERGY HARVESTING SYSTEM MARKET, BY APPLICATION, 2019–2022 (USD MILLION)
  • TABLE 35 VIBRATION ENERGY HARVESTING: ENERGY HARVESTING SYSTEM MARKET, BY APPLICATION, 2023–2028 (USD MILLION)
  • TABLE 36 VIBRATION ENERGY HARVESTING: ENERGY HARVESTING SYSTEM MARKET, BY REGION, 2019–2022 (USD MILLION)
  • TABLE 37 VIBRATION ENERGY HARVESTING: ENERGY HARVESTING SYSTEM MARKET, BY REGION, 2023–2028 (USD MILLION)
  • TABLE 38 BUILDING & HOME AUTOMATION: VIBRATION ENERGY HARVESTING MARKET, BY REGION, 2019–2022 (USD MILLION)
  • TABLE 39 BUILDING & HOME AUTOMATION: VIBRATION ENERGY HARVESTING MARKET, BY REGION, 2023–2028 (USD MILLION)
  • TABLE 40 CONSUMER ELECTRONICS: VIBRATION ENERGY HARVESTING MARKET, BY REGION, 2019–2022 (USD THOUSAND)
  • TABLE 41 CONSUMER ELECTRONICS: VIBRATION ENERGY HARVESTING MARKET, BY REGION, 2023–2028 (USD THOUSAND)
  • TABLE 42 INDUSTRIAL: VIBRATION ENERGY HARVESTING MARKET, BY REGION, 2019–2022 (USD THOUSAND)
  • TABLE 43 INDUSTRIAL: VIBRATION ENERGY HARVESTING MARKET, BY REGION, 2023–2028 (USD THOUSAND)
  • TABLE 44 TRANSPORTATION: VIBRATION ENERGY HARVESTING MARKET, BY REGION, 2019–2022 (USD THOUSAND)
  • TABLE 45 TRANSPORTATION: VIBRATION ENERGY HARVESTING MARKET, BY REGION, 2023–2028 (USD THOUSAND)
  • TABLE 46 SECURITY: VIBRATION ENERGY HARVESTING MARKET, BY REGION, 2019–2022 (USD THOUSAND)
  • TABLE 47 SECURITY: VIBRATION ENERGY HARVESTING MARKET, BY REGION, 2023–2028 (USD THOUSAND)
  • TABLE 48 RF ENERGY HARVESTING: ENERGY HARVESTING SYSTEM MARKET, BY APPLICATION, 2019–2022 (USD THOUSAND)
  • TABLE 49 RF ENERGY HARVESTING: ENERGY HARVESTING SYSTEM MARKET, BY APPLICATION, 2023–2028 (USD THOUSAND)
  • TABLE 50 RF ENERGY HARVESTING: ENERGY HARVESTING SYSTEM MARKET, BY REGION, 2019–2022 (USD THOUSAND)
  • TABLE 51 RF ENERGY HARVESTING: ENERGY HARVESTING SYSTEM MARKET, BY REGION, 2023–2028 (USD THOUSAND)
  • TABLE 52 BUILDING & HOME AUTOMATION: RF ENERGY HARVESTING MARKET, BY REGION, 2019–2022 (USD THOUSAND)
  • TABLE 53 BUILDING & HOME AUTOMATION: RF ENERGY HARVESTING MARKET, BY REGION, 2023–2028 (USD THOUSAND)
  • TABLE 54 INDUSTRIAL: RF ENERGY HARVESTING MARKET, BY REGION, 2019–2022 (USD THOUSAND)
  • TABLE 55 INDUSTRIAL: RF ENERGY HARVESTING MARKET, BY REGION, 2023–2028 (USD THOUSAND)
  • TABLE 56 SECURITY: RF ENERGY HARVESTING MARKET, BY REGION, 2019–2022 (USD THOUSAND)
  • TABLE 57 SECURITY: RF ENERGY HARVESTING MARKET, BY REGION, 2023–2028 (USD THOUSAND)
  • TABLE 58 THERMAL ENERGY HARVESTING: ENERGY HARVESTING SYSTEM MARKET, BY APPLICATION, 2019–2022 (USD THOUSAND)
  • TABLE 59 THERMAL ENERGY HARVESTING: ENERGY HARVESTING SYSTEM MARKET, BY APPLICATION, 2023–2028 (USD THOUSAND)
  • TABLE 60 THERMAL ENERGY HARVESTING: ENERGY HARVESTING SYSTEM MARKET, BY REGION, 2019–2022 (USD THOUSAND)
  • TABLE 61 THERMAL ENERGY HARVESTING: ENERGY HARVESTING SYSTEM MARKET, BY REGION, 2023–2028 (USD THOUSAND)
  • TABLE 62 BUILDING & HOME AUTOMATION: THERMAL ENERGY HARVESTING MARKET, BY REGION, 2019–2022 (USD THOUSAND)
  • TABLE 63 BUILDING & HOME AUTOMATION: THERMAL ENERGY HARVESTING MARKET, BY REGION, 2023–2028 (USD THOUSAND)
  • TABLE 64 CONSUMER ELECTRONICS: THERMAL ENERGY HARVESTING MARKET, BY REGION, 2019–2022 (USD THOUSAND)
  • TABLE 65 CONSUMER ELECTRONICS: THERMAL ENERGY HARVESTING MARKET, BY REGION, 2023–2028 (USD THOUSAND)
  • TABLE 66 INDUSTRIAL: ENERGY HARVESTING MARKET, BY REGION, 2019–2022 (USD THOUSAND)
  • TABLE 67 INDUSTRIAL: THERMAL ENERGY HARVESTING MARKET, BY REGION, 2023–2028 (USD THOUSAND)
  • TABLE 68 TRANSPORTATION: THERMAL ENERGY HARVESTING MARKET, BY REGION, 2019–2022 (USD THOUSAND)
  • TABLE 69 TRANSPORTATION: THERMAL ENERGY HARVESTING MARKET, BY REGION, 2023–2028 (USD THOUSAND)
  • TABLE 70 SECURITY: THERMAL ENERGY HARVESTING MARKET, BY REGION, 2019–2022 (USD THOUSAND)
  • TABLE 71 SECURITY: THERMAL ENERGY HARVESTING MARKET, BY REGION, 2023–2028 (USD THOUSAND)
  • TABLE 72 THERMAL ENERGY HARVESTING MARKET: APPLICATION/SUB-APPLICATION
  • TABLE 73 THERMAL ENERGY HARVESTING MARKET, BY SUB-TYPE, 2019–2022 (USD MILLION)
  • TABLE 74 THERMAL ENERGY HARVESTING MARKET, BY SUB-TYPE, 2023–2028 (USD MILLION)
  • TABLE 75 ENERGY HARVESTING SYSTEM MARKET, BY COMPONENT, 2019–2022 (USD MILLION)
  • TABLE 76 ENERGY HARVESTING SYSTEM MARKET, BY COMPONENT, 2023–2028 (USD MILLION)
  • TABLE 77 ENERGY HARVESTING SYSTEM MARKET, BY COMPONENT, 2019–2022 (MILLION UNITS)
  • TABLE 78 ENERGY HARVESTING SYSTEM MARKET, BY COMPONENT, 2023–2028 (MILLION UNITS)
  • TABLE 79 TRANSDUCERS: ENERGY HARVESTING SYSTEM MARKET, BY TYPE, 2019–2022 (USD MILLION)
  • TABLE 80 TRANSDUCERS: ENERGY HARVESTING SYSTEM MARKET, BY TYPE, 2023–2028 (USD MILLION)
  • TABLE 81 TRANSDUCERS: ENERGY HARVESTING SYSTEM MARKET, BY TECHNOLOGY, 2019–2022 (USD MILLION)
  • TABLE 82 TRANSDUCERS: ENERGY HARVESTING SYSTEM MARKET, BY TECHNOLOGY, 2023–2028 (USD MILLION)
  • TABLE 83 PMICS: ENERGY HARVESTING SYSTEM MARKET, BY TECHNOLOGY, 2019–2022 (USD THOUSAND)
  • TABLE 84 PMICS: ENERGY HARVESTING SYSTEM MARKET, BY TECHNOLOGY, 2023–2028 (USD THOUSAND)
  • TABLE 85 SECONDARY BATTERIES: ENERGY HARVESTING SYSTEM MARKET, BY TYPE, 2019–2022 (USD MILLION)
  • TABLE 86 SECONDARY BATTERIES: ENERGY HARVESTING SYSTEM MARKET, BY TYPE, 2023–2028 (USD MILLION)
  • TABLE 87 SECONDARY BATTERIES: ENERGY HARVESTING SYSTEM MARKET, BY TECHNOLOGY, 2019–2022 (USD MILLION)
  • TABLE 88 SECONDARY BATTERIES: ENERGY HARVESTING SYSTEM MARKET, BY TECHNOLOGY, 2023–2028 (USD MILLION)
  • TABLE 89 ENERGY HARVESTING SYSTEM MARKET, BY APPLICATION, 2019–2022 (USD MILLION)
  • TABLE 90 ENERGY HARVESTING SYSTEM MARKET, BY APPLICATION, 2023–2028 (USD MILLION)
  • TABLE 91 BUILDING & HOME AUTOMATION: ENERGY HARVESTING SYSTEM MARKET, BY REGION, 2019–2022 (USD MILLION)
  • TABLE 92 BUILDING & HOME AUTOMATION: ENERGY HARVESTING SYSTEM MARKET, BY REGION, 2023–2028 (USD MILLION)
  • TABLE 93 BUILDING & HOME AUTOMATION: ENERGY HARVESTING SYSTEM MARKET, BY TECHNOLOGY, 2019–2022 (USD MILLION)
  • TABLE 94 BUILDING & HOME AUTOMATION: ENERGY HARVESTING SYSTEM MARKET, BY TECHNOLOGY, 2023–2028 (USD MILLION)
  • TABLE 95 CONSUMER ELECTRONICS: ENERGY HARVESTING SYSTEM MARKET, BY REGION, 2019–2022 (USD THOUSAND)
  • TABLE 96 CONSUMER ELECTRONICS: ENERGY HARVESTING SYSTEM MARKET, BY REGION, 2023–2028 (USD THOUSAND)
  • TABLE 97 CONSUMER ELECTRONICS: ENERGY HARVESTING SYSTEM MARKET, BY TECHNOLOGY, 2019–2022 (USD THOUSAND)
  • TABLE 98 CONSUMER ELECTRONICS: ENERGY HARVESTING SYSTEM MARKET, BY TECHNOLOGY, 2023–2028 (USD THOUSAND)
  • TABLE 99 INDUSTRIAL: ENERGY HARVESTING SYSTEM MARKET, BY REGION, 2019–2022 (USD MILLION)
  • TABLE 100 INDUSTRIAL: ENERGY HARVESTING SYSTEM MARKET, BY REGION, 2023–2028 (USD MILLION)
  • TABLE 101 INDUSTRIAL: ENERGY HARVESTING SYSTEM MARKET, BY TECHNOLOGY, 2019–2022 (USD MILLION)
  • TABLE 102 INDUSTRIAL: ENERGY HARVESTING SYSTEM MARKET, BY TECHNOLOGY, 2023–2028 (USD MILLION)
  • TABLE 103 TRANSPORTATION: ENERGY HARVESTING SYSTEM MARKET, BY REGION, 2019–2022 (USD THOUSAND)
  • TABLE 104 TRANSPORTATION: ENERGY HARVESTING SYSTEM MARKET, BY REGION, 2023–2028 (USD THOUSAND)
  • TABLE 105 TRANSPORTATION: ENERGY HARVESTING SYSTEM MARKET, BY TECHNOLOGY, 2019–2022 (USD MILLION)
  • TABLE 106 TRANSPORTATION: ENERGY HARVESTING SYSTEM MARKET, BY TECHNOLOGY, 2023–2028 (USD MILLION)
  • TABLE 107 SECURITY: ENERGY HARVESTING SYSTEM MARKET, BY REGION, 2019–2022 (USD THOUSAND)
  • TABLE 108 SECURITY: ENERGY HARVESTING SYSTEM MARKET, BY REGION, 2023–2028 (USD THOUSAND)
  • TABLE 109 SECURITY: ENERGY HARVESTING SYSTEM MARKET, BY TECHNOLOGY, 2019–2022 (USD THOUSAND)
  • TABLE 110 SECURITY: ENERGY HARVESTING SYSTEM MARKET, BY TECHNOLOGY, 2023–2028 (USD THOUSAND)
  • TABLE 111 ENERGY HARVESTING SYSTEM MARKET, BY REGION, 2019–2022 (USD MILLION)
  • TABLE 112 ENERGY HARVESTING SYSTEM MARKET, BY REGION, 2023–2028 (USD MILLION)
  • TABLE 113 NORTH AMERICA: ENERGY HARVESTING SYSTEM MARKET, BY COUNTRY, 2019–2022 (USD MILLION)
  • TABLE 114 NORTH AMERICA: ENERGY HARVESTING SYSTEM MARKET, BY COUNTRY, 2023–2028 (USD MILLION)
  • TABLE 115 NORTH AMERICA: ENERGY HARVESTING SYSTEM MARKET, BY APPLICATION, 2019–2022 (USD MILLION)
  • TABLE 116 NORTH AMERICA: ENERGY HARVESTING SYSTEM MARKET, BY APPLICATION, 2023–2028 (USD MILLION)
  • TABLE 117 NORTH AMERICA: ENERGY HARVESTING SYSTEM MARKET, BY TECHNOLOGY, 2019–2022 (USD MILLION)
  • TABLE 118 NORTH AMERICA: ENERGY HARVESTING SYSTEM MARKET, BY TECHNOLOGY, 2023–2028 (USD MILLION)
  • TABLE 119 EUROPE: ENERGY HARVESTING SYSTEM MARKET, BY COUNTRY, 2019–2022 (USD MILLION)
  • TABLE 120 EUROPE: ENERGY HARVESTING SYSTEM MARKET, BY COUNTRY, 2023–2028 (USD MILLION)
  • TABLE 121 EUROPE: ENERGY HARVESTING SYSTEM MARKET, BY APPLICATION, 2019–2022 (USD MILLION)
  • TABLE 122 EUROPE: ENERGY HARVESTING SYSTEM MARKET, BY APPLICATION, 2023–2028 (USD MILLION)
  • TABLE 123 EUROPE: ENERGY HARVESTING SYSTEM MARKET, BY TECHNOLOGY, 2019–2022 (USD MILLION)
  • TABLE 124 EUROPE: ENERGY HARVESTING SYSTEM MARKET, BY TECHNOLOGY, 2023–2028 (USD MILLION)
  • TABLE 125 ASIA PACIFIC: ENERGY HARVESTING SYSTEM MARKET, BY COUNTRY, 2019–2022 (USD MILLION)
  • TABLE 126 ASIA PACIFIC: ENERGY HARVESTING SYSTEM MARKET, BY COUNTRY, 2023–2028 (USD MILLION)
  • TABLE 127 ASIA PACIFIC: ENERGY HARVESTING SYSTEM MARKET, BY APPLICATION, 2019–2022 (USD MILLION)
  • TABLE 128 ASIA PACIFIC: ENERGY HARVESTING SYSTEM MARKET, BY APPLICATION, 2023–2028 (USD MILLION)
  • TABLE 129 ASIA PACIFIC: ENERGY HARVESTING SYSTEM MARKET, BY TECHNOLOGY, 2019–2022 (USD MILLION)
  • TABLE 130 ASIA PACIFIC: ENERGY HARVESTING SYSTEM MARKET, BY TECHNOLOGY, 2023–2028 (USD MILLION)
  • TABLE 131 ROW: ENERGY HARVESTING SYSTEM MARKET, BY REGION, 2019–2022 (USD MILLION)
  • TABLE 132 ROW: ENERGY HARVESTING SYSTEM MARKET, BY REGION, 2023–2028 (USD MILLION)
  • TABLE 133 ROW: ENERGY HARVESTING SYSTEM MARKET, BY APPLICATION, 2019–2022 (USD THOUSAND)
  • TABLE 134 ROW: ENERGY HARVESTING SYSTEM MARKET, BY APPLICATION, 2023–2028 (USD THOUSAND)
  • TABLE 135 ROW: ENERGY HARVESTING SYSTEM MARKET, BY TECHNOLOGY, 2019–2022 (USD THOUSAND)
  • TABLE 136 ROW: ENERGY HARVESTING SYSTEM MARKET, BY TECHNOLOGY, 2023–2028 (USD THOUSAND)
  • TABLE 137 STRATEGIES ADOPTED BY KEY PLAYERS IN ENERGY HARVESTING SYSTEM MARKET
  • TABLE 138 ENERGY HARVESTING SYSTEM MARKET: DEGREE OF COMPETITION
  • TABLE 139 START-UPS IN ENERGY HARVESTING SYSTEM MARKET
  • TABLE 140 START-UP/SME EVALUATION MATRIX: KEY START-UPS
  • TABLE 141 COMPETITIVE BENCHMARKING OF KEY START-UPS/SMES
  • TABLE 142 COMPANY FOOTPRINT
  • TABLE 143 TECHNOLOGY FOOTPRINT
  • TABLE 144 APPLICATION FOOTPRINT
  • TABLE 145 REGION FOOTPRINT
  • TABLE 146 PRODUCT LAUNCHES, 2019–2023
  • TABLE 147 DEALS, 2019–2022
  • TABLE 148 STMICROELECTRONICS: BUSINESS OVERVIEW
  • TABLE 149 STMICROELECTRONICS: PRODUCTS/SOLUTIONS/SERVICES OFFERED
  • TABLE 150 STMICROELECTRONICS: PRODUCT LAUNCHES
  • TABLE 151 STMICROELECTRONICS: DEALS
  • TABLE 152 MICROCHIP TECHNOLOGY INC.: BUSINESS OVERVIEW
  • TABLE 153 MICROCHIP TECHNOLOGY INC.: PRODUCTS/SOLUTIONS/SERVICES OFFERED
  • TABLE 154 MICROCHIP TECHNOLOGY INC.: PRODUCT LAUNCHES
  • TABLE 155 MICROCHIP TECHNOLOGY INC.: DEALS
  • TABLE 156 TEXAS INSTRUMENTS INCORPORATED: BUSINESS OVERVIEW
  • TABLE 157 TEXAS INSTRUMENTS INCORPORATED: PRODUCTS/SOLUTIONS/SERVICES OFFERED
  • TABLE 158 TEXAS INSTRUMENTS INCORPORATED: PRODUCT LAUNCHES
  • TABLE 159 TEXAS INSTRUMENTS INCORPORATED: DEALS
  • TABLE 160 ANALOG DEVICES, INC.: BUSINESS OVERVIEW
  • TABLE 161 ANALOG DEVICES, INC.: PRODUCTS/SOLUTIONS/SERVICES OFFERED
  • TABLE 162 ANALOG DEVICES, INC.: PRODUCT LAUNCHES
  • TABLE 163 ANALOG DEVICES, INC.: DEALS
  • TABLE 164 ANALOG DEVICES, INC.: OTHERS
  • TABLE 165 INFINEON TECHNOLOGIES AG: BUSINESS OVERVIEW
  • TABLE 166 INFINEON TECHNOLOGIES AG: PRODUCTS/SOLUTIONS/SERVICES OFFERED
  • TABLE 167 INFINEON TECHNOLOGIES AG: PRODUCT LAUNCHES
  • TABLE 168 INFINEON TECHNOLOGIES AG: DEALS
  • TABLE 169 INFINEON TECHNOLOGIES AG: OTHERS
  • TABLE 170 RENESAS ELECTRONICS CORPORATION: BUSINESS OVERVIEW
  • TABLE 171 RENESAS ELECTRONICS CORPORATION: PRODUCTS/SOLUTIONS/SERVICES OFFERED
  • TABLE 172 RENESAS ELECTRONICS CORPORATION: PRODUCT LAUNCHES
  • TABLE 173 RENESAS ELECTRONICS CORPORATION: DEALS
  • TABLE 174 ENOCEAN GMBH: BUSINESS OVERVIEW
  • TABLE 175 ENOCEAN GMBH: PRODUCTS/SOLUTIONS/SERVICES OFFERED
  • TABLE 176 ENOCEAN GMBH: PRODUCT LAUNCHES
  • TABLE 177 ENOCEAN GMBH: DEALS
  • TABLE 178 ABB: BUSINESS OVERVIEW
  • TABLE 179 ABB: PRODUCTS/SOLUTIONS/SERVICES OFFERED
  • TABLE 180 ABB: PRODUCT LAUNCHES
  • TABLE 181 ABB: DEALS
  • TABLE 182 HONEYWELL INTERNATIONAL INC.: BUSINESS OVERVIEW
  • TABLE 183 HONEYWELL INTERNATIONAL INC.: PRODUCTS/SOLUTIONS/SERVICES OFFERED
  • TABLE 184 HONEYWELL INTERNATIONAL INC.: PRODUCT LAUNCHES
  • TABLE 185 HONEYWELL INTERNATIONAL INC.: DEALS
  • TABLE 186 QORVO, INC.: BUSINESS OVERVIEW
  • TABLE 187 QORVO, INC.: PRODUCTS/SOLUTIONS/SERVICES OFFERED
  • TABLE 188 QORVO, INC.: PRODUCT LAUNCHES
  • TABLE 189 QORVO, INC.: DEALS
LIST OF FIGURES
 
  • FIGURE 1 ENERGY HARVESTING SYSTEM MARKET SEGMENTATION
  • FIGURE 2 RESEARCH DESIGN
  • FIGURE 3 RESEARCH PROCESS FLOW
  • FIGURE 4 BOTTOM-UP APPROACH
  • FIGURE 5 DEMAND-SIDE APPROACH
  • FIGURE 6 TOP-DOWN APPROACH
  • FIGURE 7 DATA TRIANGULATION
  • FIGURE 8 RESEARCH ASSUMPTIONS
  • FIGURE 9 GDP GROWTH PROJECTIONS FOR MAJOR ECONOMIES, 2021–2023
  • FIGURE 10 IMPACT OF RECESSION ON ENERGY HARVESTING SYSTEM MARKET, 2019–2028 (USD MILLION)
  • FIGURE 11 LIGHT ENERGY HARVESTING TO BE FASTEST-GROWING SEGMENT DURING FORECAST PERIOD
  • FIGURE 12 TRANSDUCERS TO ACQUIRE MAXIMUM MARKET SHARE IN 2028
  • FIGURE 13 BUILDING & HOME AUTOMATION TO SURPASS OTHER SEGMENTS DURING FORECAST PERIOD
  • FIGURE 14 NORTH AMERICA TO BE LARGEST MARKET DURING FORECAST PERIOD
  • FIGURE 15 INCREASED ADOPTION OF WIRELESS SENSOR NETWORKS EQUIPPED WITH ENERGY HARVESTING SYSTEMS
  • FIGURE 16 LIGHT ENERGY HARVESTING SEGMENT TO DOMINATE MARKET DURING FORECAST PERIOD
  • FIGURE 17 TRANSDUCERS AND BUILDING & HOME AUTOMATION SEGMENTS TO HOLD LARGEST MARKET SHARES IN 2023
  • FIGURE 18 NORTH AMERICA TO SECURE LEADING MARKET POSITION IN 2023
  • FIGURE 19 CHINA TO BE FASTEST-GROWING COUNTRY BETWEEN 2023 AND 2028
  • FIGURE 20 ENERGY HARVESTING SYSTEM MARKET: DRIVERS, RESTRAINTS, OPPORTUNITIES, AND CHALLENGES
  • FIGURE 21 FACILITY MANAGEMENT SYSTEM MARKET SIZE, 2019–2027
  • FIGURE 22 IMPACT OF ENERGY HARVESTING SYSTEM MARKET DRIVERS
  • FIGURE 23 IMPACT OF ENERGY HARVESTING SYSTEM MARKET RESTRAINTS
  • FIGURE 24 IMPACT OF ENERGY HARVESTING SYSTEM MARKET OPPORTUNITIES
  • FIGURE 25 IMPACT OF ENERGY HARVESTING SYSTEM MARKET CHALLENGES
  • FIGURE 26 COMPARATIVE ANALYSIS OF ENERGY HARVESTING TECHNOLOGY, BY APPLICATION
  • FIGURE 27 IMPACT OF TECHNOLOGY PENETRATION ON EACH APPLICATION
  • FIGURE 28 VALUE CHAIN ANALYSIS
  • FIGURE 29 KEY PLAYERS IN ENERGY HARVESTING SYSTEM ECOSYSTEM
  • FIGURE 30 ENERGY HARVESTING SYSTEM ECOSYSTEM
  • FIGURE 31 TRENDS/DISRUPTIONS IN ENERGY HARVESTING SYSTEM MARKET
  • FIGURE 32 PORTER’S FIVE FORCES ANALYSIS
  • FIGURE 33 AVERAGE SELLING PRICE OF COMPONENTS, 2019–2028
  • FIGURE 34 AVERAGE SELLING PRICE OF TRANSDUCERS, BY KEY PLAYERS
  • FIGURE 35 AVERAGE SELLING PRICE OF PMICS, BY KEY PLAYERS
  • FIGURE 36 AVERAGE SELLING PRICE OF SECONDARY BATTERIES, BY KEY PLAYERS
  • FIGURE 37 IMPORT DATA FOR HS CODE 854140, BY COUNTRY, 2018–2022
  • FIGURE 38 EXPORT DATA FOR HS CODE 854140, BY COUNTRY, 2018–2022
  • FIGURE 39 NUMBER OF PATENTS RELATED TO ENERGY HARVESTING SYSTEMS, 2013–2022
  • FIGURE 40 TOP 10 PATENT APPLICANTS, 2013–2022
  • FIGURE 41 INFLUENCE OF STAKEHOLDERS ON BUYING PROCESS FOR TOP THREE APPLICATIONS
  • FIGURE 42 KEY BUYING CRITERIA FOR TOP THREE APPLICATIONS
  • FIGURE 43 ENERGY HARVESTING SYSTEM MARKET, BY TECHNOLOGY, 2023–2028 (USD MILLION)
  • FIGURE 44 ENERGY HARVESTING SYSTEM MARKET, BY COMPONENT, 2023–2028 (USD MILLION)
  • FIGURE 45 PHOTOVOLTAIC CELL
  • FIGURE 46 ELECTRODYNAMIC TRANSDUCER
  • FIGURE 47 PIEZOELECTRIC TRANSDUCER
  • FIGURE 48 ELECTROMAGNETIC TRANSDUCER
  • FIGURE 49 THERMOELECTRIC TRANSDUCER
  • FIGURE 50 RF ENERGY HARVESTING PROCESS
  • FIGURE 51 RADIO FREQUENCY-TO-DC CONVERTER
  • FIGURE 52 ENERGY HARVESTING SYSTEM MARKET, BY APPLICATION, 2023–2028 (USD MILLION)
  • FIGURE 53 ENERGY HARVESTING SYSTEM MARKET, BY REGION, 2023–2028 (USD MILLION)
  • FIGURE 54 NORTH AMERICA: ENERGY HARVESTING SYSTEM MARKET SNAPSHOT
  • FIGURE 55 US TO DOMINATE NORTH AMERICAN MARKET DURING FORECAST PERIOD
  • FIGURE 56 EUROPE: ENERGY HARVESTING SYSTEM MARKET SNAPSHOT
  • FIGURE 57 UK TO DOMINATE EUROPEAN MARKET DURING FORECAST PERIOD
  • FIGURE 58 ASIA PACIFIC: ENERGY HARVESTING SYSTEM MARKET SNAPSHOT
  • FIGURE 59 CHINA TO DOMINATE ASIA PACIFIC MARKET DURING FORECAST PERIOD
  • FIGURE 60 REVENUE ANALYSIS OF TOP FIVE PLAYERS, 2022–2022
  • FIGURE 61 COMPANY EVALUATION MATRIX, 2022
  • FIGURE 62 START-UP/SME EVALUATION MATRIX, 2022
  • FIGURE 63 STMICROELECTRONICS: COMPANY SNAPSHOT
  • FIGURE 64 MICROCHIP TECHNOLOGY INC.: COMPANY SNAPSHOT
  • FIGURE 65 TEXAS INSTRUMENTS INCORPORATED: COMPANY SNAPSHOT
  • FIGURE 66 ANALOG DEVICES, INC.: COMPANY SNAPSHOT
  • FIGURE 67 INFINEON TECHNOLOGIES AG: COMPANY SNAPSHOT
  • FIGURE 68 RENESAS ELECTRONICS CORPORATION: COMPANY SNAPSHOT
  • FIGURE 69 ABB: COMPANY SNAPSHOT
  • FIGURE 70 HONEYWELL INTERNATIONAL INC.: COMPANY SNAPSHOT
  • FIGURE 71 QORVO, INC.: COMPANY SNAPSHOT

 

The study involved four major activities in estimating the size for energy harvesting system market. Exhaustive secondary research was done to collect information on the market, peer market, and parent market. The next step was to validate these findings, assumptions, and sizing with industry experts across value chains through primary research. The bottom-up approach was employed to estimate the overall market size. After that, market breakdown and data triangulation were used to estimate the market size of segments and subsegments.

Secondary Research

In the secondary research process, sources such as annual reports, press releases, investor presentations, white papers, and articles by recognized authors were referred to. Secondary research was done to obtain critical information about the market’s supply chain, value chain, key market players, and market segmentation according to industry trends, regions, and developments from both market and technology perspectives.

Primary Research

Extensive primary research has been conducted after understanding and analyzing the energy harvesting system market scenario through secondary research. Several primary interviews have been conducted with key opinion leaders from demand- and supply-side vendors across North America, Europe, Asia Pacific, and RoW. Approximately 25% of primary interviews have been conducted with the demand side and 75% with the supply side. These primary data have been collected through telephonic interviews, questionnaires, and emails.

Energy Harvesting System Market Size, and Share

To know about the assumptions considered for the study, download the pdf brochure

Market Size Estimation

In the complete market engineering process, both top-down and bottom-up approaches, along with several data triangulation methods, have been used to perform the market size estimation and forecasting for the market segments and subsegments listed in this report. Extensive qualitative and quantitative analyses have been performed on the complete market engineering process to list key information/insights throughout the report.

Key players in the market have been identified through secondary research, and their market shares in the respective regions have been determined through primary and secondary research. This entire procedure includes the study of annual and financial reports of the top players as well as extensive interviews with industry experts, such as CEOs, VPs, directors, and marketing executives, for key insights (both quantitative and qualitative) on the energy harvesting system market. All percentage shares, splits, and breakdowns have been determined using secondary sources and verified through primary sources. All the possible parameters that affect the markets covered in this research study have been accounted for, viewed in extensive detail, verified through primary research, and analyzed to get the final quantitative and qualitative data. This data has been consolidated and supplemented with detailed inputs and analysis from MarketsandMarkets and presented in this report.

Energy Harvesting System Market: Bottom-Up Approach

Energy Harvesting System Market Size, and Bottom-Up Approach

The bottom-up approach has been employed to arrive at the overall size of the energy harvesting system market from the revenues of key players and their share in the market.

Energy Harvesting System Market: Top-Down Approach

Energy Harvesting System Market Size, and Top-Down Approach

In the top-down approach, the overall market size has been used to estimate the size of the individual markets (mentioned in the market segmentation) through percentage splits from secondary and primary research. For the calculation of specific market segments, the most appropriate parent market size has been used to implement the top-down approach. The bottom-up approach has also been implemented for the data extracted from the secondary research to validate the market size of various segments.

The market share of each company has been estimated to verify the revenue shares used earlier in the bottom-up approach. With the data triangulation procedure and validation of data through primaries, the overall parent market size and each market size have been determined and confirmed in this study.

Data Triangulation

After arriving at the overall market size through the process explained above, the overall market has been split into several segments. To complete the overall market engineering process and arrive at the exact statistics for all the segments, market breakdown and data triangulation procedures have been employed, wherever applicable. The data has been triangulated by studying various factors and trends from both the demand and supply sides. The market has also been validated using both top-down and bottom-up approaches.

Definition

An energy harvesting system captures and harnesses ambient energy from the surrounding environment, converting it into usable electrical power for low-power electronic devices. It allows for the extraction of energy from sources such as light, heat, vibration, motion, radio waves, or electromagnetic fields and transforms it into electricity through specialized transducers. This harvested energy can be used immediately to power electronic devices or stored in batteries or capacitors for later use. Energy harvesting systems offer a sustainable and self-sufficient power solution, reducing the reliance on traditional power sources and enabling the deployment of low-power devices in various applications, including wireless sensors, IoT devices, wearables, and remote monitoring systems.

Key Stakeholders

  • Raw material and manufacturing equipment suppliers
  • Integrated device manufacturers (IDMs)
  • Energy harvesting system component manufacturers
  • Original device manufacturers (ODMs)
  • Original equipment manufacturers (OEMs) of energy harvesting systems
  • Distributors and traders
  • Research organizations
  • Organizations, forums, alliances, and associations related to energy harvesting systems

Report Objectives

  • To define, describe, segment, and forecast the size of the energy harvesting system market in terms of value based on technology, component, application, and region
  • To define, describe, segment, and forecast the size of the energy harvesting system market in terms of volume based on component
  • To define and describe the energy harvesting system market based on end-use system
  • To forecast the market size for various segments with respect to four regions, namely North America, Europe, Asia Pacific, and the Rest of the World (RoW)
  • To identify and analyze the drivers, restraints, opportunities, and challenges influencing the growth of the energy harvesting system market
  • To provide case study analysis, patent analysis, technology analysis, ecosystem mapping, pricing analysis, Porter’s Five Forces analysis, and regulatory landscape pertaining to the energy harvesting system market
  • To provide a detailed overview of the value chain of the energy harvesting system market
  • To strategically analyze micromarkets1 with regard to individual growth trends, prospects, and contributions to the total market
  • To analyze opportunities for stakeholders by identifying the high-growth segments of the energy harvesting system market
  • To strategically profile key players, comprehensively analyze their market positions in terms of ranking and core competencies2, and provide a competitive landscape of the energy harvesting system market
  • To analyze strategic approaches such as product launches, acquisitions, agreements, and partnerships in the energy harvesting system market
  • To study the impact of the recession on the energy harvesting system market

Available Customizations

With the given market data, MarketsandMarkets offers customizations according to the company’s specific needs. The following customization options are available for the report:

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  • Detailed analysis and profiling of additional market players (up to 7)
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Report Code
SE 1196
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Jul, 2023
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