1 INTRODUCTION 18
1.1 OBJECTIVES OF THE STUDY 18
1.2 DEFINITION 18
1.3 STUDY SCOPE 19
1.3.1 MARKETS COVERED 19
1.3.2 GEOGRAPHIC SCOPE 19
1.3.3 YEARS CONSIDERED FOR STUDY 20
1.4 LIMITATIONS OF REPORT 20
1.5 CURRENCY 20
1.6 MARKET STAKEHOLDERS 21

2 RESEARCH METHODOLOGY 22
2.1 RESEARCH DATA 22
2.1.1 SECONDARY DATA 23
2.1.1.1 Secondary sources 24
2.1.2 PRIMARY DATA 24
2.1.2.1 Breakdown of primaries 25
2.1.2.2 Key data from primary sources 25
2.1.2.3 Key industry insights 26
2.2 MARKET SIZE ESTIMATION 26
2.2.1 BOTTOM-UP APPROACH 27
2.2.1.1 Approach for capturing market size by bottom-up analysis (demand side) 27
2.2.2 TOP-DOWN APPROACH 28
2.2.2.1 Approach for capturing market share by top-down analysis (supply side) 28
2.2.3 MARKET SHARE ESTIMATION 28
2.3 MARKET BREAKDOWN AND DATA TRIANGULATION 29
2.4 RESEARCH ASSUMPTIONS 30

3 EXECUTIVE SUMMARY 31

4 PREMIUM INSIGHTS 36
4.1 ATTRACTIVE MARKET OPPORTUNITIES IN OVERALL ENERGY HARVESTING SYSTEM MARKET 36
4.2 ENERGY HARVESTING SYSTEM MARKET, BY TECHNOLOGY 36
4.3 ENERGY HARVESTING SYSTEM MARKET, BY APPLICATION 37
4.4 ENERGY HARVESTING SYSTEMS WITH WIRELESS SENSOR NETWORKS, BY COMPONENT 37
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4.5 ENERGY HARVESTING SYSTEM MARKET IN AMERICAS, BY APPLICATION AND COUNTRY 38
4.6 REGION ANALYSIS OF ENERGY HARVESTING SYSTEM MARKET 39
4.7 ENERGY HARVESTING SYSTEM MARKET, BY REGION 39

5 MARKET OVERVIEW 40
5.1 INTRODUCTION 40
5.2 MARKET DYNAMICS 41
5.2.1 DRIVERS 41
5.2.1.1 Growing demand for safe, power-efficient, and durable systems that require minimum or no maintenance 41
5.2.1.2 Extensive implementation of IoT devices in automation and energy harvesting technology in building and home automation 42
5.2.1.3 Increasing trend for green energy and favorable initiatives by governments 43
5.2.1.4 Rising adoption of wireless sensor networks equipped with energy harvesting system 44
5.2.2 RESTRAINTS 44
5.2.2.1 Limitations of remotely installed networking modules 44
5.2.2.2 Higher initial cost associated with energy harvesting system curtails market growth in developing countries 45
5.2.3 OPPORTUNITIES 45
5.2.3.1 Use of sensors in wearable electronics 45
5.2.3.2 Use of human energy harvesting for implantable biomedical devices 45
5.2.3.3 Ocean energy harvesting 46
5.2.4 CHALLENGES 46
5.2.4.1 Standardization of communication protocols 46
5.2.4.2 Environmental damages to energy harvesting device 46

6 INDUSTRY TRENDS 47
6.1 INTRODUCTION 47
6.2 VALUE CHAIN ANALYSIS 47
6.3 TRENDS IN AVIATION INDUSTRY 49
6.3.1 ENERGY HARVESTING TRACKING SOLUTION FOR CARGO 49
6.3.2 ENERGY HARVESTING FOR POWERING ELECTRONIC WINDOWS 49
6.3.3 ENERGY HARVESTING FOR DAMAGE DETECTION 49
6.3.4 ENERGY HARVESTING FOR AIRCRAFT SUBSYSTEMS 50
6.4 ANALYSIS OF APPLICATIONS 50

7 ENERGY HARVESTING SYSTEM MARKET, BY END-USE SYSTEM 52
7.1 WIRELESS SWITCHING SYSTEM 52
7.2 WIRELESS HVAC SYSTEM 52
7.3 WIRELESS SENSING AND TELEMATICS SYSTEM 52
7.4 TIRE PRESSURE MONITORING SYSTEM 53
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7.5 ASSET TRACKING SYSTEM 53
7.6 REMOTE HEALTH MONITORING SYSTEM 54
7.7 REGENERATIVE ENERGY HARVESTING SYSTEM 54

8 ENERGY HARVESTING SYSTEM MARKET FOR WIRELESS SENSOR NETWORK, BY COMPONENT AND SENSOR TYPE 55
8.1 DEFINITION AND SCOPE 55
8.1.1 WIRELESS SENSOR NETWORK (WSN) 55
8.2 DATA TRIANGULATION METHODOLOGY FOR WIRELESS SENSOR NETWORK WITH ENERGY HARVESTING 56

9 ENERGY HARVESTING SYSTEM MARKET, BY TECHNOLOGY 59
9.1 INTRODUCTION 60
9.2 LIGHT ENERGY HARVESTING 61
9.2.1 THE AVAILABILITY OF ABUNDANT LIGHT ENERGY SOURCE IS THE KEY REASON FOR THE GROWTH OF LIGHT ENERGY HARVESTING TECHNOLOGY 61
9.3 VIBRATION ENERGY HARVESTING 64
9.3.1 HOME AUTOMATION AND INDUSTRIAL SENSOR NETWORK APPLICATIONS DRIVES THE VIBRATION ENERGY HARVESTING MARKET 64
9.4 RADIO FREQUENCY (RF) ENERGY HARVESTING 68
9.4.1 RFID TECHNOLOGY IS CURRENTLY A MAJOR APPLICATION FOR RF ENERGY HARVESTING 68
9.5 THERMAL ENERGY HARVESTING 70
9.5.1 THERMAL ENERGY HARVESTING TECHNOLOGY IS MAJORLY DRIVEN BY INDUSTRIAL APPLICATIONS IN THE MANUFACTURING PROCESS 70

10 ENERGY HARVESTING SYSTEM MARKET, BY COMPONENT 74
10.1 INTRODUCTION 75
10.2 TRANSDUCER 76
10.2.1 PHOTOVOLTAIC 76
10.2.1.1 Photovoltaic transducers market is majorly driven by applications in building automation, consumer electronics, and transportation 76
10.2.2 ELECTRODYNAMIC, PIEZOELECTRIC, AND ELECTROMAGNETIC 77
10.2.2.1 Electrodynamic 77
10.2.2.2 Piezoelectric 78
10.2.2.3 Electromagnetic 79
10.2.3 THERMOELECTRIC 80
10.2.3.1 Thermoelectric devices has.its major market for energy harvesting in industries and automobiles 80
10.2.4 RADIO FREQUENCY (RF) TRANSDUCER 81
10.2.4.1 switches, fitness trackers, smartwatches, wireless charging headphones, smart cards, and RFID tags are the key applications of RF transducers 81
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10.3 POWER MANAGEMENT INTEGRATED CIRCUIT (PMIC) 83
10.3.1 PMIC PLAYS A KEY ROLE IN MANAGEMENT OF POWER GENERATED THROUGH ENERGY HARVESTING DEVICES 83
10.4 SECONDARY BATTERY 84
10.4.1 LITHIUM-ION BATTERIES ARE MAJORLY USED AS A SECONDARY BATTERY IN ENERGY HARVESTING SYSTEM 84
10.5 CASE STUDY 86

11 ENERGY HARVESTING SYSTEM MARKET, BY APPLICATION 87
11.1 INTRODUCTION 88
11.2 BUILDING & HOME AUTOMATION 89
11.2.1 BUILDING AND HOME AUTOMATION APPLICATION ACCOUNTED FOR THE LARGEST SHARE OF ENERGY HARVESTING SYSTEM MARKET 89
11.3 CONSUMER ELECTRONICS 91
11.3.1 WRIST WATCHES, HEALTH DEVICES, AND PORTABLE CHARGERS ARE THE KEY APPLICATION DRIVING THE ENERGY HARVESTING MARKET 91
11.4 INDUSTRIAL 92
11.4.1 THE RISE IN VIBRATION ENERGY HARVESTING IN INDUSTRIAL APPLICATION TO DRIVE THE ENERGY HARVESTING MARKET 92
11.5 TRANSPORTATION 94
11.5.1 AUTOMOBILES AND TRAINS ARE THE MAJOR SOURCE OF ENERGY HARVESTING IN TRANSPORTATION 94
11.6 SECURITY 95
11.6.1 THE GROWTH OF ENERGY HARVESTING SYSTEM IN SECURITY IS ATTRIBUTED TO RISE IN ADOPTION OF SOLAR AND VIBRATION ENERGY HARVESTING TECHNOLOGY 95

12 GEOGRAPHICAL ANALYSIS 97
12.1 INTRODUCTION 98
12.2 AMERICAS 99
12.2.1 INCREASE IN ADOPTION OF BUILDING AND HOME AUTOMATION SOLUTION IN US ATTRIBUTES TO THE HIGHEST GROWTH OF THE MARKET 99
12.3 EUROPE 103
12.3.1 INCREASE IN MEDICAL APPLICATIONS PROVOKES THE GROWTH OF ENERGY HARVESTING SYSTEM MARKET IN EUROPE 103
12.4 ASIA PACIFIC (APAC) 107
12.4.1 THE ENERGY HARVESTING SYSTEM MARKET IN APAC IS ATTRIBUTED TO INCREASE IN ADOPTION IN JAPAN, CHINA, AUSTRALIA, AND SOUTH KOREA 107
12.5 REST OF THE WORLD (ROW) 112
12.5.1 BUILDING AND HOME AUTOMATION AND TRANSPORTATION ARE THE MAJOR INDUSTRIES CONTRIBUTING TO THE MARKET GROWTH IN ROW 112
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13 COMPETITIVE LANDSCAPE 115
13.1 INTRODUCTION 115
13.2 MARKET RANK ANALYSIS 116
13.3 COMPETITIVE SCENARIO 117
13.4 COMPETITIVE LEADERSHIP MAPPING 118
13.4.1 VISIONARY LEADERS 118
13.4.2 DYNAMIC DIFFERENTIATORS 118
13.4.3 INNOVATORS 118
13.4.4 EMERGING COMPANIES 118
13.5 STRENGTH OF PRODUCT PORTFOLIO 120
13.6 BUSINESS STRATEGY EXCELLENCE 121
14 COMPANY PROFILES 122
(Business overview, Products offered, Strength of the product portfolio, Business strategy excellence, Recent developments, Key relationships)*
14.1 INTRODUCTION 122
14.2 KEY PLAYERS 123
14.2.1 ABB 123
14.2.2 LINEAR TECHNOLOGY (ANALOG DEVICES) 126
14.2.3 CONVERGENCE WIRELESS 128
14.2.4 CYMBET 130
14.2.5 ENOCEAN 133
14.2.6 FUJITSU 136
14.2.7 HONEYWELL 139
14.2.8 POWERCAST CORPORATION 141
14.2.9 STMICROELECTRONICS 144
14.2.10 TEXAS INSTRUMENTS 146
14.3 OTHER COMPANIES 149
14.3.1 MICROCHIP TECHNOLOGY 149
14.3.2 GREENPEAK TECHNOLOGIES (QORVO) 149
14.3.3 VOLTREE POWER 150
14.3.4 CYPRESS SEMICONDUCTOR 150
14.3.5 LAIRD (ADVENT INTERNATIONAL) 151
14.3.6 MIDE TECHNOLOGY 151
14.3.7 LORD MICROSTRAIN 152
14.3.8 IXYS CORPORATION (LITTLEFUSE INC.) 152
14.3.9 BIONIC POWER 153
14.3.10 O-FLEXX TECHNOLOGIES (MAHLE) 153
*Details on Business overview, Products offered, Strength of the product portfolio, Business strategy excellence, Recent developments, Key relationships not be captured in case of unlisted companies.
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15 APPENDIX 154
15.1 INSIGHTS OF INDUSTRY EXPERTS 154
15.2 DISCUSSION GUIDE 155
15.4 AVAILABLE CUSTOMIZATIONS 160
15.5 RELATED REPORTS 160
15.6 AUTHOR DETAILS 161