Global Wireless Power Transmission Market: Industry Analysis and Forecast (2018-2026 ) – by Technology, Implementation,Receiver Application,Transmitter Application, and Region.

Global Wireless Power Transmission Market: Industry Analysis and Forecast (2018-2026 ) – by Technology, Implementation,Receiver Application,Transmitter Application, and Region.

Market Scenario

Global Wireless Power Transmission Market was valued at US$ 3.26Bn in 2017 and is expected to reach US$ 16.56Bn by 2026, at a CAGR of 22.53% during a forecast period. Global Wireless Power Transmission MarketDemand for wireless power transmission is driven by its advantage in terms of elimination of cables, while providing clutter-free charging. This benefit is especially driving the development of consumer electronics devices that can be wirelessly charged. Wireless chargers can sense the amount of power that each electronic device requires so that batteries are not overcharged. Furthermore, electricity loss in wireless power transmission is less compared to wired power transmission, as there is no AT&C loss in wireless power transmission. This is expected to increase the usage of wireless power transmission further, thereby augmenting the global wireless power transmission market. Other factors driving the market include high operational efficiency, rise in the use of network communications, digitization, and development of infrastructure. Technologies utilized for wireless power transmission is primarily inductive coupling and magnetic resonance. Presence of different charging techniques has resulted in confusion for OEMs, component providers, and customers also, in terms of standard adoption. This is likely to restrain the market in the next few years. The impact of this restraint is expected to lessen with the establishment of common standards. A key difficulty of wireless power transmission is its cost. Users need to buy the latest wireless chargers to get higher output from wireless charging devices, as old chargers are slow at charging. So, users need to invest more in the latest chargers. Based on the receiver applicationsegment,Smartphones is the largest receiver application for wireless power transmission technology owing to the implementation of inductive wireless power transmission in various smartphones in the past years. Samsung Galaxy Series, Motorola Droid phones, and Google Nexus phones are some notable smartphones, which have wireless charging capabilities. Global Wireless Power Transmission Market Increasing number of applications of the wireless charging technology in health care and industrial sectors is anticipated to help companies expand their product portfolio in the near future. Implementation of the technology in medical scanning devices, implanted medical devices (IMDs), and hearing aids in the health care sector is projected to provide lucrative growth opportunities to the global wireless power transmission market in the near future. Innovations are required to overcome the range barrier in inductive, magnetic resonance, and RF technologies. This is likely to improve usage of the wireless power transmission technology in the automotive industry in the next few years. This is projected to boost the global wireless power transmission market during the forecast period, because of high demand for hybrid electric vehicles and eco-friendly electric vehicles. In terms of region,APAC is expected to hold the largest market share during the forecast period. APAC is considered as the manufacturing hub for consumer electronic products like smartphones, tablets, laptops, and wearable devices. Its huge residents and rapid development in the past has led to the significant demand for devices. Therefore, the presence of large consumer electronics industries in the counties like China, Japan, India, and South Korea has attributed to the huge market size of the APAC region in the global wireless power transmission market. The objective of the report is to present a comprehensive assessment of the market and contains thoughtful insights, facts, historical data, industry-validated market data and projections with a suitable set of assumptions and methodology. The report also helps in understanding Wireless Power Transmission dynamics, structure by identifying and analyzing the market segments and project the global market size. Further, the report also focuses on the competitive analysis of key players by product, price, financial position, product portfolio, growth strategies, and regional presence. The report also provides PEST analysis, PORTER’s analysis, SWOT analysis to address the question of shareholders to prioritizing the efforts and investment in the near future to the emerging segment in Wireless Power Transmission.

Scope of Global Wireless Power Transmission Market

Global Wireless Power Transmission Market, by Technology

• Near-Field Technologies • Far-Field Technologies

Global Wireless Power Transmission Market, by Implementation

• Aftermarket • Integrated

Global Wireless Power Transmission Market, by Receiver Application

• Smartphones • Tablets • Wearable Electronics • Notebooks • Other Consumer Electronics • Electrical Vehicle Charging • Industrial

Global Wireless Power Transmission Market, by Transmitter Application

• Standalone Chargers • Automotive (In-Vehicle Charging System) • Electric Vehicle Charging • Furniture • Industrial

Global Wireless Power Transmission Market, by Region

• North America • Europe • Asia Pacific • Middle East & Africa • South America

Key Players Operating in Global Wireless Power Transmission Market

• Integrated Device Technology, Inc. • Qualcomm, Inc. • Samsung Electronics Co., Ltd. • TDK Corporation • Texas Instruments, Inc. • Nucurrent, Inc. • Powermat Technologies, Ltd. • Powerbyproxi, Ltd. • Witricity Corporation • ConvenientpowerHk, Ltd. • Salcomp PLC • Ossia Inc. • Energous Corporation • Fulton Innovation LLC • Humavox Ltd. • WI Charge Ltd. • Energysquare Global Next Generation Biometric Market 

Table of Contents

Table of Content

1. Preface 1.1. Report Scope and Market Segmentation 1.2. Research Highlights 1.3. Research Objectives 2. Assumptions and Research Methodology 2.1. Report Assumptions 2.2. Abbreviations 2.3. Research Methodology 2.3.1. Secondary Research 2.3.1.1. Secondary data 2.3.1.2. Secondary Sources 2.3.2. Primary Research 2.3.2.1. Data from Primary Sources 2.3.2.2. Breakdown of Primary Sources 3. Executive Summary : Global Wireless Power Transmission Market Size, by Market Value (US$ Bn) 4. Market Overview 4.1. Introduction 4.2. Market Indicator 4.2.1. Drivers 4.2.2. Restraints 4.2.3. Opportunities 4.2.4. Challenges 4.3. Porter’s Analysis 4.4. Value Chain Analysis 4.5. Market Risk Analysis 4.6. SWOT Analysis 4.7. Industry Trends in Global Wireless Power Transmission Market and Emerging Technologies 5. Supply Side and Demand Side Indicators 6. Global Wireless Power Transmission Market Analysis and Forecast 6.1. Global Wireless Power Transmission Market Size & Y-o-Y Growth Analysis 6.1.1. North America 6.1.2. Europe 6.1.3. Asia Pacific 6.1.4. Middle East & Africa 6.1.5. South America 7. Global Wireless Power Transmission Market Analysis and Forecast, by Technology 7.1. Introduction and Definition 7.2. Key Findings 7.3. Global Wireless Power Transmission Market Value Share Analysis, by Technology 7.4. Global Wireless Power Transmission Market Size (US$ Bn) Forecast, by Technology 7.5. Global Wireless Power Transmission Market Analysis, by Technology 7.6. Global Wireless Power Transmission Market Attractiveness Analysis, by Technology 8. Global Wireless Power Transmission Market Analysis and Forecast, by Implementation 8.1. Introduction and Definition 8.2. Key Findings 8.3. Global Wireless Power Transmission Market Value Share Analysis, by Implementation 8.4. Global Wireless Power Transmission Market Size (US$ Bn) Forecast, by Implementation 8.5. Global Wireless Power Transmission Market Analysis, by Implementation 8.6. Global Wireless Power Transmission Market Attractiveness Analysis, by Implementation 9. Global Wireless Power Transmission Market Analysis and Forecast, by Receiver Application 9.1. Introduction and Definition 9.2. Key Findings 9.3. Global Wireless Power Transmission Market Value Share Analysis, by Receiver Application 9.4. Global Wireless Power Transmission Market Size (US$ Bn) Forecast, by Receiver Application 9.5. Global Wireless Power Transmission Market Analysis, by Receiver Application 9.6. Global Wireless Power Transmission Market Attractiveness Analysis, by Receiver Application 10. Global Wireless Power Transmission Market Analysis and Forecast, by Transmitter Application 10.1. Introduction and Definition 10.2. Key Findings 10.3. Global Wireless Power Transmission Market Value Share Analysis, by Transmitter Application 10.4. Global Wireless Power Transmission Market Size (US$ Bn) Forecast, by Transmitter Application 10.5. Global Wireless Power Transmission Market Analysis, by Transmitter Application 10.6. Global Wireless Power Transmission Market Attractiveness Analysis, by Transmitter Application 11. Global Wireless Power Transmission Market Analysis, by Region 11.1. Global Wireless Power Transmission Market Value Share Analysis, by Region 11.2. Global Wireless Power Transmission Market Size (US$ Bn) Forecast, by Region 11.3. Global Wireless Power Transmission Market Attractiveness Analysis, by Region 12. North America Wireless Power Transmission Market Analysis 12.1. Key Findings 12.2. North America Wireless Power Transmission Market Overview 12.3. North America Wireless Power Transmission Market Value Share Analysis, by Technology 12.4. North America Wireless Power Transmission Market Forecast, by Technology 12.4.1. Near-Field Technologies 12.4.2. Far-Field Technologies 12.5. North America Wireless Power Transmission Market Value Share Analysis, by Implementation 12.6. North America Wireless Power Transmission Market Forecast, by Implementation 12.6.1. Aftermarket 12.6.2. Integrated 12.7. North America Wireless Power Transmission Market Value Share Analysis, by Receiver Application 12.8. North America Wireless Power Transmission Market Forecast, by Receiver Application 12.8.1. Smartphones 12.8.2. Tablets 12.8.3. Wearable Electronics 12.8.4. Notebooks 12.8.5. Other Consumer Electronics 12.8.6. Electrical Vehicle Charging 12.8.7. Industrial 12.9. North America Wireless Power Transmission Market Value Share Analysis, by Transmitter Application 12.10. North America Wireless Power Transmission Market Forecast, by Transmitter Application 12.10.1. Standalone Chargers 12.10.2. Automotive (In-Vehicle Charging System) 12.10.3. Electric Vehicle Charging 12.10.4. Furniture 12.10.5. Industrial 12.11. North America Wireless Power Transmission Market Value Share Analysis, by Country 12.12. North America Wireless Power Transmission Market Forecast, by Country 12.12.1. U.S. 12.12.2. Canada 12.13. North America Wireless Power Transmission Market Analysis, by Country 12.14. U.S. Wireless Power Transmission Market Forecast, by Technology 12.14.1. Near-Field Technologies 12.14.2. Far-Field Technologies 12.15. U.S. Wireless Power Transmission Market Forecast, by Implementation 12.15.1. Aftermarket 12.15.2. Integrated 12.16. U.S. Wireless Power Transmission Market Forecast, by Receiver Application 12.16.1. Smartphones 12.16.2. Tablets 12.16.3. Wearable Electronics 12.16.4. Notebooks 12.16.5. Other Consumer Electronics 12.16.6. Electrical Vehicle Charging 12.16.7. Industrial 12.17. U.S. Wireless Power Transmission Market Forecast, by Transmitter Application 12.17.1. Standalone Chargers 12.17.2. Automotive (In-Vehicle Charging System) 12.17.3. Electric Vehicle Charging 12.17.4. Furniture 12.17.5. Industrial 12.18. Canada Wireless Power Transmission Market Forecast, by Technology 12.18.1. Near-Field Technologies 12.18.2. Far-Field Technologies 12.19. Canada Wireless Power Transmission Market Forecast, by Implementation 12.19.1. Aftermarket 12.19.2. Integrated 12.20. Canada Wireless Power Transmission Market Forecast, by Receiver Application 12.20.1. Smartphones 12.20.2. Tablets 12.20.3. Wearable Electronics 12.20.4. Notebooks 12.20.5. Other Consumer Electronics 12.20.6. Electrical Vehicle Charging 12.20.7. Industrial 12.21. Canada Wireless Power Transmission Market Forecast, by Transmitter Application 12.21.1. Standalone Chargers 12.21.2. Automotive (In-Vehicle Charging System) 12.21.3. Electric Vehicle Charging 12.21.4. Furniture 12.21.5. Industrial 12.22. North America Wireless Power Transmission Market Attractiveness Analysis 12.22.1. By Technology 12.22.2. By Implementation 12.22.3. By Receiver Application 12.22.4. By Transmitter Application 12.23. PEST Analysis 12.24. Key Trends 12.25. Key Developments 13. Europe Wireless Power Transmission Market Analysis 13.1. Key Findings 13.2. Europe Wireless Power Transmission Market Overview 13.3. Europe Wireless Power Transmission Market Value Share Analysis, by Technology 13.4. Europe Wireless Power Transmission Market Forecast, by Technology 13.4.1. Near-Field Technologies 13.4.2. Far-Field Technologies 13.5. Europe Wireless Power Transmission Market Value Share Analysis, by Implementation 13.6. Europe Wireless Power Transmission Market Forecast, by Implementation 13.6.1. Aftermarket 13.6.2. Integrated 13.7. Europe Wireless Power Transmission Market Value Share Analysis, by Receiver Application 13.8. Europe Wireless Power Transmission Market Forecast, by Receiver Application 13.8.1. Smartphones 13.8.2. Tablets 13.8.3. Wearable Electronics 13.8.4. Notebooks 13.8.5. Other Consumer Electronics 13.8.6. Electrical Vehicle Charging 13.8.7. Industrial 13.9. Europe Wireless Power Transmission Market Forecast, by Transmitter Application 13.9.1. Standalone Chargers 13.9.2. Automotive (In-Vehicle Charging System) 13.9.3. Electric Vehicle Charging 13.9.4. Furniture 13.9.5. Industrial 13.10. Europe Wireless Power Transmission Market Value Share Analysis, by Country 13.11. Europe Wireless Power Transmission Market Forecast, by Country 13.11.1. Germany 13.11.2. U.K. 13.11.3. France 13.11.4. Italy 13.11.5. Spain 13.11.6. Rest of Europe 13.12. Europe Wireless Power Transmission Market Analysis, by Country 13.13. Germany Wireless Power Transmission Market Forecast, by Technology 13.13.1. Near-Field Technologies 13.13.2. Far-Field Technologies 13.14. Germany Wireless Power Transmission Market Forecast, by Implementation 13.14.1. Aftermarket 13.14.2. Integrated 13.15. Germany Wireless Power Transmission Market Forecast, by Receiver Application 13.15.1. Smartphones 13.15.2. Tablets 13.15.3. Wearable Electronics 13.15.4. Notebooks 13.15.5. Other Consumer Electronics 13.15.6. Electrical Vehicle Charging 13.15.7. Industrial 13.16. Germany Wireless Power Transmission Market Forecast, by Transmitter Application 13.16.1. Standalone Chargers 13.16.2. Automotive (In-Vehicle Charging System) 13.16.3. Electric Vehicle Charging 13.16.4. Furniture 13.16.5. Industrial 13.17. U.K. Wireless Power Transmission Market Forecast, by Technology 13.17.1. Near-Field Technologies 13.17.2. Far-Field Technologies 13.18. U.K. Wireless Power Transmission Market Forecast, by Implementation 13.18.1. Aftermarket 13.18.2. Integrated 13.19. U.K. Wireless Power Transmission Market Forecast, by Receiver Application 13.19.1. Smartphones 13.19.2. Tablets 13.19.3. Wearable Electronics 13.19.4. Notebooks 13.19.5. Other Consumer Electronics 13.19.6. Electrical Vehicle Charging 13.19.7. Industrial 13.20. U.K. Wireless Power Transmission Market Forecast, by Transmitter Application 13.20.1. Standalone Chargers 13.20.2. Automotive (In-Vehicle Charging System) 13.20.3. Electric Vehicle Charging 13.20.4. Furniture 13.20.5. Industrial 13.21. France Wireless Power Transmission Market Forecast, by Technology 13.21.1. Near-Field Technologies 13.21.2. Far-Field Technologies 13.22. France Wireless Power Transmission Market Forecast, by Implementation 13.22.1. Aftermarket 13.22.2. Integrated 13.23. France Wireless Power Transmission Market Forecast, by Receiver Application 13.23.1. Smartphones 13.23.2. Tablets 13.23.3. Wearable Electronics 13.23.4. Notebooks 13.23.5. Other Consumer Electronics 13.23.6. Electrical Vehicle Charging 13.23.7. Industrial 13.24. France Wireless Power Transmission Market Forecast, by Transmitter Application 13.24.1. Standalone Chargers 13.24.2. Automotive (In-Vehicle Charging System) 13.24.3. Electric Vehicle Charging 13.24.4. Furniture 13.24.5. Industrial 13.25. Italy Wireless Power Transmission Market Forecast, by Technology 13.25.1. Near-Field Technologies 13.25.2. Far-Field Technologies 13.26. Italy Wireless Power Transmission Market Forecast, by Implementation 13.26.1. Aftermarket 13.26.2. Integrated 13.27. Italy Wireless Power Transmission Market Forecast, by Receiver Application 13.27.1. Smartphones 13.27.2. Tablets 13.27.3. Wearable Electronics 13.27.4. Notebooks 13.27.5. Other Consumer Electronics 13.27.6. Electrical Vehicle Charging 13.27.7. Industrial 13.28. Italy Wireless Power Transmission Market Forecast, by Transmitter Application 13.28.1. Standalone Chargers 13.28.2. Automotive (In-Vehicle Charging System) 13.28.3. Electric Vehicle Charging 13.28.4. Furniture 13.28.5. Industrial 13.29. Spain Wireless Power Transmission Market Forecast, by Technology 13.29.1. Near-Field Technologies 13.29.2. Far-Field Technologies 13.30. Spain Wireless Power Transmission Market Forecast, by Implementation 13.30.1. Aftermarket 13.30.2. Integrated 13.31. Spain Wireless Power Transmission Market Forecast, by Receiver Application 13.31.1. Smartphones 13.31.2. Tablets 13.31.3. Wearable Electronics 13.31.4. Notebooks 13.31.5. Other Consumer Electronics 13.31.6. Electrical Vehicle Charging 13.31.7. Industrial 13.32. Spain Wireless Power Transmission Market Forecast, by Transmitter Application 13.32.1. Standalone Chargers 13.32.2. Automotive (In-Vehicle Charging System) 13.32.3. Electric Vehicle Charging 13.32.4. Furniture 13.32.5. Industrial 13.33. Rest of Europe Wireless Power Transmission Market Forecast, by Technology 13.33.1. Near-Field Technologies 13.33.2. Far-Field Technologies 13.34. Rest of Europe Wireless Power Transmission Market Forecast, by Implementation 13.34.1. Aftermarket 13.34.2. Integrated 13.35. Rest of Europe Wireless Power Transmission Market Forecast, by Receiver Application 13.35.1. Smartphones 13.35.2. Tablets 13.35.3. Wearable Electronics 13.35.4. Notebooks 13.35.5. Other Consumer Electronics 13.35.6. Electrical Vehicle Charging 13.35.7. Industrial 13.36. Rest Of Europe Wireless Power Transmission Market Forecast, by Transmitter Application 13.36.1. Standalone Chargers 13.36.2. Automotive (In-Vehicle Charging System) 13.36.3. Electric Vehicle Charging 13.36.4. Furniture 13.36.5. Industrial 13.37. Europe Wireless Power Transmission Market Attractiveness Analysis 13.37.1. By Technology 13.37.2. By Implementation 13.37.3. By Receiver Application 13.37.4. By Transmitter Application 13.38. PEST Analysis 13.39. Key Trends 13.40. Key Developments 14. Asia Pacific Wireless Power Transmission Market Analysis 14.1. Key Findings 14.2. Asia Pacific Wireless Power Transmission Market Overview 14.3. Asia Pacific Wireless Power Transmission Market Value Share Analysis, by Technology 14.4. Asia Pacific Wireless Power Transmission Market Forecast, by Technology 14.4.1. Near-Field Technologies 14.4.2. Far-Field Technologies 14.5. Asia Pacific Wireless Power Transmission Market Value Share Analysis, by Implementation 14.6. Asia Pacific Wireless Power Transmission Market Forecast, by Implementation 14.6.1. Aftermarket 14.6.2. Integrated 14.7. Asia Pacific Wireless Power Transmission Market Value Share Analysis, by Receiver Application 14.8. Asia Pacific Wireless Power Transmission Market Forecast, by Receiver Application 14.8.1. Smartphones 14.8.2. Tablets 14.8.3. Wearable Electronics 14.8.4. Notebooks 14.8.5. Other Consumer Electronics 14.8.6. Electrical Vehicle Charging 14.8.7. Industrial 14.9. Asia Pacific Wireless Power Transmission Market Value Share Analysis, by Transmitter Application 14.10. Asia Pacific Wireless Power Transmission Market Forecast, by Transmitter Application 14.10.1. Standalone Chargers 14.10.2. Automotive (In-Vehicle Charging System) 14.10.3. Electric Vehicle Charging 14.10.4. Furniture 14.10.5. Industrial 14.11. Asia Pacific Wireless Power Transmission Market Value Share Analysis, by Country 14.12. Asia Pacific Wireless Power Transmission Market Forecast, by Country 14.12.1. China 14.12.2. India 14.12.3. Japan 14.12.4. ASEAN 14.12.5. Rest of Asia Pacific 14.13. Asia Pacific Wireless Power Transmission Market Analysis, by Country 14.14. China Wireless Power Transmission Market Forecast, by Technology 14.14.1. Near-Field Technologies 14.14.2. Far-Field Technologies 14.15. China Wireless Power Transmission Market Forecast, by Implementation 14.15.1. Aftermarket 14.15.2. Integrated 14.16. China Wireless Power Transmission Market Forecast, by Receiver Application 14.16.1. Smartphones 14.16.2. Tablets 14.16.3. Wearable Electronics 14.16.4. Notebooks 14.16.5. Other Consumer Electronics 14.16.6. Electrical Vehicle Charging 14.16.7. Industrial 14.17. China Wireless Power Transmission Market Forecast, by Transmitter Application 14.17.1. Standalone Chargers 14.17.2. Automotive (In-Vehicle Charging System) 14.17.3. Electric Vehicle Charging 14.17.4. Furniture 14.17.5. Industrial 14.18. India Wireless Power Transmission Market Forecast, by Technology 14.18.1. Near-Field Technologies 14.18.2. Far-Field Technologies 14.19. India Wireless Power Transmission Market Forecast, by Implementation 14.19.1. Aftermarket 14.19.2. Integrated 14.20. India Wireless Power Transmission Market Forecast, by Receiver Application 14.20.1. Smartphones 14.20.2. Tablets 14.20.3. Wearable Electronics 14.20.4. Notebooks 14.20.5. Other Consumer Electronics 14.20.6. Electrical Vehicle Charging 14.20.7. Industrial 14.21. India Wireless Power Transmission Market Forecast, by Transmitter Application 14.21.1. Standalone Chargers 14.21.2. Automotive (In-Vehicle Charging System) 14.21.3. Electric Vehicle Charging 14.21.4. Furniture 14.21.5. Industrial 14.22. Japan Wireless Power Transmission Market Forecast, by Technology 14.22.1. Near-Field Technologies 14.22.2. Far-Field Technologies 14.23. Japan Wireless Power Transmission Market Forecast, by Implementation 14.23.1. Aftermarket 14.23.2. Integrated 14.24. Japan Wireless Power Transmission Market Forecast, by Receiver Application 14.24.1. Smartphones 14.24.2. Tablets 14.24.3. Wearable Electronics 14.24.4. Notebooks 14.24.5. Other Consumer Electronics 14.24.6. Electrical Vehicle Charging 14.24.7. Industrial 14.25. Japan Wireless Power Transmission Market Forecast, by Transmitter Application 14.25.1. Standalone Chargers 14.25.2. Automotive (In-Vehicle Charging System) 14.25.3. Electric Vehicle Charging 14.25.4. Furniture 14.25.5. Industrial 14.26. ASEAN Wireless Power Transmission Market Forecast, by Technology 14.26.1. Near-Field Technologies 14.26.2. Far-Field Technologies 14.27. ASEAN Wireless Power Transmission Market Forecast, by Implementation 14.27.1. Aftermarket 14.27.2. Integrated 14.28. ASEAN Wireless Power Transmission Market Forecast, by Receiver Application 14.28.1. Smartphones 14.28.2. Tablets 14.28.3. Wearable Electronics 14.28.4. Notebooks 14.28.5. Other Consumer Electronics 14.28.6. Electrical Vehicle Charging 14.28.7. Industrial 14.29. ASEAN Wireless Power Transmission Market Forecast, by Transmitter Application 14.29.1. Standalone Chargers 14.29.2. Automotive (In-Vehicle Charging System) 14.29.3. Electric Vehicle Charging 14.29.4. Furniture 14.29.5. Industrial 14.30. Rest of Asia Pacific Wireless Power Transmission Market Forecast, by Technology 14.30.1. Near-Field Technologies 14.30.2. Far-Field Technologies s 14.31. Rest of Asia Pacific Wireless Power Transmission Market Forecast, by Implementation 14.31.1. Aftermarket 14.31.2. Integrated 14.32. Rest of Asia Pacific Wireless Power Transmission Market Forecast, by Receiver Application 14.32.1. Smartphones 14.32.2. Tablets 14.32.3. Wearable Electronics 14.32.4. Notebooks 14.32.5. Other Consumer Electronics 14.32.6. Electrical Vehicle Charging 14.32.7. Industrial 14.33. Rest of Asia Pacific Wireless Power Transmission Market Forecast, by Transmitter Application 14.33.1. Standalone Chargers 14.33.2. Automotive (In-Vehicle Charging System) 14.33.3. Electric Vehicle Charging 14.33.4. Furniture 14.33.5. Industrial 14.34. Asia Pacific Wireless Power Transmission Market Attractiveness Analysis 14.34.1. By Technology 14.34.2. By Implementation 14.34.3. By Receiver Application 14.34.4. By Transmitter Application 14.35. PEST Analysis 14.36. Key Trends 14.37. Key Developments 15. Middle East & Africa Wireless Power Transmission Market Analysis 15.1. Key Findings 15.2. Middle East & Africa Wireless Power Transmission Market Overview 15.3. Middle East & Africa Wireless Power Transmission Market Value Share Analysis, by Technology 15.4. Middle East & Africa Wireless Power Transmission Market Forecast, by Technology 15.4.1. Near-Field Technologies 15.4.2. Far-Field Technologies 15.5. Middle East & Africa Wireless Power Transmission Market Value Share Analysis, by Implementation 15.6. Middle East & Africa Wireless Power Transmission Market Forecast, by Implementation 15.6.1. Aftermarket 15.6.2. Integrated 15.7. Middle East & Africa Wireless Power Transmission Market Value Share Analysis, by Receiver Application 15.8. Middle East & Africa Wireless Power Transmission Market Forecast, by Receiver Application 15.8.1. Smartphones 15.8.2. Tablets 15.8.3. Wearable Electronics 15.8.4. Notebooks 15.8.5. Other Consumer Electronics 15.8.6. Electrical Vehicle Charging 15.8.7. Industrial 15.9. Middle East & Africa Wireless Power Transmission Market Value Share Analysis, by Transmitter Application 15.10. Middle East & Africa Wireless Power Transmission Market Forecast, by Transmitter Application 15.10.1. Standalone Chargers 15.10.2. Automotive (In-Vehicle Charging System) 15.10.3. Electric Vehicle Charging 15.10.4. Furniture 15.10.5. Industrial 15.11. Middle East & Africa Wireless Power Transmission Market Value Share Analysis, by Country 15.12. Middle East & Africa Wireless Power Transmission Market Forecast, by Country 15.12.1. GCC 15.12.2. South Africa 15.12.3. Rest of Middle East & Africa 15.13. Middle East & Africa Wireless Power Transmission Market Analysis, by Country 15.14. GCC Wireless Power Transmission Market Forecast, by Technology 15.14.1. Near-Field Technologies 15.14.2. Far-Field Technologies 15.15. GCC Wireless Power Transmission Market Forecast, by Implementation 15.15.1. Aftermarket 15.15.2. Integrated 15.16. GCC Wireless Power Transmission Market Forecast, by Receiver Application 15.16.1. Smartphones 15.16.2. Tablets 15.16.3. Wearable Electronics 15.16.4. Notebooks 15.16.5. Other Consumer Electronics 15.16.6. Electrical Vehicle Charging 15.16.7. Industrial 15.17. GCC Wireless Power Transmission Market Forecast, by Transmitter Application 15.17.1. Standalone Chargers 15.17.2. Automotive (In-Vehicle Charging System) 15.17.3. Electric Vehicle Charging 15.17.4. Furniture 15.17.5. Industrial 15.18. South Africa Wireless Power Transmission Market Forecast, by Technology 15.18.1. Near-Field Technologies 15.18.2. Far-Field Technologies 15.19. South Africa Wireless Power Transmission Market Forecast, by Implementation 15.19.1. Aftermarket 15.19.2. Integrated 15.20. South Africa Wireless Power Transmission Market Forecast, by Receiver Application 15.20.1. Smartphones 15.20.2. Tablets 15.20.3. Wearable Electronics 15.20.4. Notebooks 15.20.5. Other Consumer Electronics 15.20.6. Electrical Vehicle Charging 15.20.7. Industrial 15.21. South Africa Wireless Power Transmission Market Forecast, by Transmitter Application 15.21.1. Standalone Chargers 15.21.2. Automotive (In-Vehicle Charging System) 15.21.3. Electric Vehicle Charging 15.21.4. Furniture 15.21.5. Industrial 15.22. Rest of Middle East & Africa Wireless Power Transmission Market Forecast, by Technology 15.22.1. Near-Field Technologies 15.22.2. Far-Field Technologies 15.23. Rest of Middle East & Africa Wireless Power Transmission Market Forecast, by Implementation 15.23.1. Aftermarket 15.23.2. Integrated 15.24. Rest of Middle East & Africa Wireless Power Transmission Market Forecast, by Receiver Application 15.24.1. Smartphones 15.24.2. Tablets 15.24.3. Wearable Electronics 15.24.4. Notebooks 15.24.5. Other Consumer Electronics 15.24.6. Electrical Vehicle Charging 15.24.7. Industrial 15.25. Rest of Middle East & Africa Wireless Power Transmission Market Forecast, by Transmitter Application 15.25.1. Standalone Chargers 15.25.2. Automotive (In-Vehicle Charging System) 15.25.3. Electric Vehicle Charging 15.25.4. Furniture 15.25.5. Industrial 15.26. Middle East & Africa Wireless Power Transmission Market Attractiveness Analysis 15.26.1. By Technology 15.26.2. By Implementation 15.26.3. By Receiver Application 15.26.4. By Transmitter Application 15.27. PEST Analysis 15.28. Key Trends 15.29. Key Developments 16. South America Wireless Power Transmission Market Analysis 16.1. Key Findings 16.2. South America Wireless Power Transmission Market Overview 16.3. South America Wireless Power Transmission Market Value Share Analysis, by Technology 16.4. South America Wireless Power Transmission Market Forecast, by Technology 16.4.1. Near-Field Technologies 16.4.2. Far-Field Technologies 16.5. South America Wireless Power Transmission Market Value Share Analysis, by Implementation 16.6. South America Wireless Power Transmission Market Forecast, by Implementation 16.6.1. Aftermarket 16.6.2. Integrated 16.7. South America Wireless Power Transmission Market Value Share Analysis, by Receiver Application 16.8. South America Wireless Power Transmission Market Forecast, by Receiver Application 16.8.1. Smartphones 16.8.2. Tablets 16.8.3. Wearable Electronics 16.8.4. Notebooks 16.8.5. Other Consumer Electronics 16.8.6. Electrical Vehicle Charging 16.8.7. Industrial 16.9. South America Wireless Power Transmission Market Value Share Analysis, by Transmitter Application 16.10. South America Wireless Power Transmission Market Forecast, by Transmitter Application 16.10.1. Standalone Chargers 16.10.2. Automotive (In-Vehicle Charging System) 16.10.3. Electric Vehicle Charging 16.10.4. Furniture 16.10.5. Industrial 16.11. South America Wireless Power Transmission Market Value Share Analysis, by Country 16.12. South America Wireless Power Transmission Market Forecast, by Country 16.12.1. Brazil 16.12.2. Mexico 16.12.3. Rest of South America 16.13. South America Wireless Power Transmission Market Analysis, by Country 16.14. Brazil Wireless Power Transmission Market Forecast, by Technology 16.14.1. Near-Field Technologies 16.14.2. Far-Field Technologies 16.15. Brazil Wireless Power Transmission Market Forecast, by Implementation 16.15.1. Aftermarket 16.15.2. Integrated 16.16. Brazil Wireless Power Transmission Market Forecast, by Receiver Application 16.16.1. Smartphones 16.16.2. Tablets 16.16.3. Wearable Electronics 16.16.4. Notebooks 16.16.5. Other Consumer Electronics 16.16.6. Electrical Vehicle Charging 16.16.7. Industrial 16.17. Brazil Wireless Power Transmission Market Forecast, by Transmitter Application 16.17.1. Standalone Chargers 16.17.2. Automotive (In-Vehicle Charging System) 16.17.3. Electric Vehicle Charging 16.17.4. Furniture 16.17.5. Industrial 16.18. Mexico Wireless Power Transmission Market Forecast, by Technology 16.18.1. Near-Field Technologies 16.18.2. Far-Field Technologies 16.19. Mexico Wireless Power Transmission Market Forecast, by Implementation 16.19.1. Aftermarket 16.19.2. Integrated 16.20. Mexico Wireless Power Transmission Market Forecast, by Receiver Application 16.20.1. Smartphones 16.20.2. Tablets 16.20.3. Wearable Electronics 16.20.4. Notebooks 16.20.5. Other Consumer Electronics 16.20.6. Electrical Vehicle Charging 16.20.7. Industrial 16.21. Mexico Wireless Power Transmission Market Forecast, by Transmitter Application 16.21.1. Standalone Chargers 16.21.2. Automotive (In-Vehicle Charging System) 16.21.3. Electric Vehicle Charging 16.21.4. Furniture 16.21.5. Industrial 16.22. Rest of South America Wireless Power Transmission Market Forecast, by Technology 16.22.1. Near-Field Technologies 16.22.2. Far-Field Technologies 16.23. Rest of South America Wireless Power Transmission Market Forecast, by Implementation 16.23.1. Aftermarket 16.23.2. Integrated 16.24. Rest of South America Wireless Power Transmission Market Forecast, by Receiver Application 16.24.1. Smartphones 16.24.2. Tablets 16.24.3. Wearable Electronics 16.24.4. Notebooks 16.24.5. Other Consumer Electronics 16.24.6. Electrical Vehicle Charging 16.24.7. Industrial 16.25. Rest of South America Wireless Power Transmission Market Forecast, by Transmitter Application 16.25.1. Standalone Chargers 16.25.2. Automotive (In-Vehicle Charging System) 16.25.3. Electric Vehicle Charging 16.25.4. Furniture 16.25.5. Industrial 16.26. South America Wireless Power Transmission Market Attractiveness Analysis 16.26.1. By Technology 16.26.2. By Implementation 16.26.3. By Receiver Application 16.26.4. By Transmitter Application 16.27. PEST Analysis 16.28. Key Trends 16.29. Key Developments 17. Company Profiles 17.1. Market Share Analysis, by Company 17.2. Competition Matrix 17.2.1. Competitive Benchmarking of key players by price, presence, market share, Receiver Applications and R&D investment 17.2.2. New Product Launches and Product Enhancements 17.2.3. Market Consolidation 17.2.3.1. M&A by Regions, Investment and Receiver Applications 17.2.3.2. M&A Key Players, Forward Integration and Backward Integration 17.3. Company Profiles: Key Players 17.3.1. Integrated Device Technology, Inc. 17.3.1.1. Company Overview 17.3.1.2. Financial Overview 17.3.1.3. Product Portfolio 17.3.1.4. Business Strategy 17.3.1.5. Recent Developments 17.3.1.6. Development / Company Footprint (for Implementation?) 17.3.2. Qualcomm, Inc. 17.3.3. Samsung Electronics Co., Ltd. 17.3.4. TDK Corporation 17.3.5. Texas Instruments, Inc. 17.3.6. Nucurrent, Inc. 17.3.7. Powermat Technologies, Ltd. 17.3.8. Powerbyproxi, Ltd. 17.3.9. Witricity Corporation 17.3.10. ConvenientpowerHk, Ltd. 17.3.11. Salcomp PLC 17.3.12. Ossia Inc. 17.3.13. Energous Corporation 17.3.14. Fulton Innovation LLC 17.3.15. Humavox Ltd. 17.3.16. WI Charge Ltd. 17.3.17. Energysquare. 18. Primary Key Insights

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About This Report

Report ID 30188
Published Date May 2019
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