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Wireless Power Mobile Devices, Consumer Electronics, Industrial Devices, Wireless Power Infrastructure, and Wireless Charging of Electric Vehicles: Technology Analysis, Environmental Impact, and Market Forecasts Wireless power is beginning to see wider acceptance and will become an increasingly ubiquitous form of charging for a number of applications. The integration of wireless power technology into mobile and consumer electronics devices is already taking shape through standardization on a worldwide scale. The technology is enabling plug-free and, in many cases, contactless charging for a wide range of devices and machinery – from military and medical devices to electric vehicles (EVs) to unmanned aircraft. Originating with simple inductive charging mechanisms that require a direct point of contact between charger (transmitter) and device (receiver), these systems have evolved to the point of providing an intelligence that will see devices becoming connected to the wider power infrastructure. The barriers to adoption are lifting and evidence is building that wireless power technology can be an environmentally friendly technology and that, before the end of the decade, it could contribute to a significant reduction in carbon emissions and embedded energy used to produce, ship, and dispose of conventional charging equipment. The technology has matured and the industry is beginning to consolidate; a wide range of applications exist, clear leaders are emerging; and, in terms of technology, a value chain has formed from silicon vendors to technology ODMs to OEMs combining to establish standards for interoperability going forward. This Pike Research report examines the global market opportunity for wireless power charging across various application segments including mobile devices, consumer electronics, industrial devices, infrastructure, and electric vehicles. It also outlines and explores the remaining technological and cost hurdles, examines the market issues, and explores the most appropriate business models for bringing wireless power technologies to market. The study profiles key industry players and provides market forecasts for unit shipments and revenue, segmented by application and world region, through 2020. KEY MARKET FORECASTS: Wireless Power Revenue by Application, World Markets: 2012-2020 Wireless Power Unit Price by Application, World Markets: 2012-2020 Wireless Power Unit Shipments by Application, World Markets: 2012-2020 Mobile Devices Wireless Power Unit Shipments and Revenue by Application and Region, World Markets: 2012-2020 Consumer Electronics Wireless Power Unit Shipments and Revenue by Application and Region, World Markets: 2012-2020 Industrial Devices Wireless Power Unit Shipments and Revenue by Application and Region, World Markets: 2012-2020 Wireless Power Infrastructure Unit Shipments and Revenue by Location and Region, World Markets: 2012-2020 Wireless Power Systems for Electric Vehicle Charging Unit Shipments and Revenue by Region, World Markets: 2012-2020 TECHNOLOGIES: Inductive coupling Magnetic resonance coupling Conduction Radio frequency and microwaves Lasers APPLICATIONS: Mobile Devices Consumer Electronics Industrial Devices Wireless Power Infrastructure Wireless Electric Vehicle Charging and Infrastructure GEOGRAPHIES: North America Western Europe Eastern Europe Asia Pacific Latin America Middle East/Africa

Mobile Devices, Consumer Electronics, Industrial Devices, Wireless ... · Mobile Devices, Consumer Electronics, Industrial Devices, Wireless Power Infrastructure, and Wireless Charging

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Page 1: Mobile Devices, Consumer Electronics, Industrial Devices, Wireless ... · Mobile Devices, Consumer Electronics, Industrial Devices, Wireless Power Infrastructure, and Wireless Charging

 

Wireless Power Mobile Devices, Consumer Electronics, Industrial Devices, Wireless Power Infrastructure, and Wireless Charging of Electric Vehicles: Technology Analysis, Environmental Impact, and Market Forecasts Wireless power is beginning to see wider acceptance and will become an increasingly ubiquitous form of charging for a number of applications. The integration of wireless power technology into mobile and consumer electronics devices is already taking shape through standardization on a worldwide scale. The technology is enabling plug-free and, in many cases, contactless charging for a wide range of devices and machinery – from military and medical devices to electric vehicles (EVs) to unmanned aircraft. Originating with simple inductive charging mechanisms that require a direct point of contact between charger (transmitter) and device (receiver), these systems have evolved to the point of providing an intelligence that will see devices becoming connected to the wider power infrastructure.

The barriers to adoption are lifting and evidence is building that wireless power technology can be an environmentally friendly technology and that, before the end of the decade, it could contribute to a significant reduction in carbon emissions and embedded energy used to produce, ship, and dispose of conventional charging equipment. The technology has matured and the industry is beginning to consolidate; a wide range of applications exist, clear leaders are emerging; and, in terms of technology, a value chain has formed from silicon vendors to technology ODMs to OEMs combining to establish standards for interoperability going forward.

This Pike Research report examines the global market opportunity for wireless power charging across various application segments including mobile devices, consumer electronics, industrial devices, infrastructure, and electric vehicles. It also outlines and explores the remaining technological and cost hurdles, examines the market issues, and explores the most appropriate business models for bringing wireless power technologies to market. The study profiles key industry players and provides market forecasts for unit shipments and revenue, segmented by application and world region, through 2020.

KEY MARKET FORECASTS: Wireless Power Revenue by Application, World Markets: 2012-2020

Wireless Power Unit Price by Application, World Markets: 2012-2020

Wireless Power Unit Shipments by Application, World Markets: 2012-2020

Mobile Devices Wireless Power Unit Shipments and Revenue by Application and Region, World Markets: 2012-2020

Consumer Electronics Wireless Power Unit Shipments and Revenue by Application and Region, World Markets: 2012-2020

Industrial Devices Wireless Power Unit Shipments and Revenue by Application and Region, World Markets: 2012-2020

Wireless Power Infrastructure Unit Shipments and Revenue by Location and Region, World Markets: 2012-2020

Wireless Power Systems for Electric Vehicle Charging Unit Shipments and Revenue by Region, World Markets: 2012-2020

TECHNOLOGIES: Inductive coupling

Magnetic resonance coupling

Conduction

Radio frequency and microwaves

Lasers

APPLICATIONS: Mobile Devices

Consumer Electronics

Industrial Devices

Wireless Power Infrastructure

Wireless Electric Vehicle Charging and Infrastructure

GEOGRAPHIES: North America

Western Europe

Eastern Europe

Asia Pacific

Latin America

Middle East/Africa

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TABLE OF CONTENTS: 1. Executive Summary

1.1 Introduction 1.2 Benefits

1.2.1 Beyond Convenience and Cost 1.2.2 Enabling New Technologies 1.2.3 Clean Technology

1.3 Categories and Classifications 1.3.1 By Sector 1.3.2 By Technology 1.3.3 Market Forecasts

2. Market Issues 2.1 General 2.2 Challenges 2.3 Application Segments for Wireless Power 2.4 Mobile Devices

2.4.1 Market Drivers 2.4.2 Market Challenges

2.5 Consumer Electronics 2.5.1 Market Drivers 2.5.2 Market Challenges

2.6 Industrial Devices including Medical and Military Applications

2.6.1 Industrial Applications - Drivers 2.6.1.1 Wireless Sensors 2.6.1.2 Wireless Slip Rings 2.6.1.3 Military Applications – Drivers 2.6.1.4 Military Applications – Challenge

2.6.2 Long-Distance Transmission 2.6.3 Military Applications 2.6.4 Terrestrial Wireless Power Transmission 2.6.5 Space-Based Power 2.6.6 Market Challenges 2.6.7 Industrial Applications – Challenges

2.7 Wireless Power Infrastructure 2.7.1 Market Drivers 2.7.2 Market Challenges

2.8 Electric Vehicles 2.8.1 Wireless Electric Vehicle Charging

2.8.1.1 Stage of Commercialization 2.8.1.2 Field Trials 2.8.1.3 Cost 2.8.1.4 Charging Efficiency 2.8.1.5 Standards 2.8.1.6 Road-Embedded Charging Equipment

3. Technology Issues 3.1 Wireless Power Technology 3.2 Inductive Coupling

3.2.1 Advantages of Inductive Coupling 3.2.2 Disadvantages of Inductive Coupling

3.3 Magnetic Resonance Coupling 3.3.1 Advantages of Magnetic Resonance Coupling 3.3.2 Disadvantages of Magnetic Resonance Coupling

3.4 Conductive Wireless Power 3.4.1 Advantages of Conductive Wireless Power 3.4.2 Disadvantages of Conductive Wireless Power

3.5 Laser/Infrared/Optical Technologies 3.5.1 Advantages of Laser/Infrared/Optical Technologies 3.5.2 Disadvantages of Laser/Infrared/Optical

Technologies 3.6 Radio Frequency Wireless Power

3.6.1 Advantages of Radio Frequency Wireless Power 3.6.2 Disadvantages of Radio Frequency Wireless Power

3.7 Microwave Wireless Power 3.7.1 Advantages of Microwave Wireless Power 3.7.2 Disadvantages of Microwave Wireless Power

4. Energy and Environmental Issues

4.1 Introduction 4.2 Energy Usage for Charging Systems 4.3 Environmental Impact

5. Key Industry Players

5.1 ABB 5.2 Bombardier Inc. 5.3 CE4A – Consumer Electronics for Automotive 5.4 ConvenientPower HK Limited 5.5 Dell 5.6 Delphi 5.7 Energizer Holdings, Inc. 5.8 Evatran (Plugless Power) 5.9 Freescale Semiconductor 5.10 Fulton Innovation (eCoupled) 5.11 Haier Group 5.12 Intel 5.13 KI 5.14 LaserMotive 5.15 Leggett & Platt, Incorporated 5.16 Leyden Energy Inc. 5.17 Magna E-Car Systems 5.18 Mojo Mobility, Inc. 5.19 Philips & Lite-On Digital Solutions Corporation 5.20 PowerBeam Inc. 5.21 PowerbyProxi Ltd. 5.22 Powercast Corporation 5.23 Powermat Technologies 5.24 PureEnergy Solutions, Inc. 5.25 Qualcomm Incorporated 5.26 RRC power solutions Inc. 5.27 Texas Instruments 5.28 WiTricity Corporation

6. Market Forecasts

6.1 Introduction 6.2 Forecast Methodology 6.3 Mobile Devices 6.4 Consumer Electronics 6.5 Industrial Applications 6.6 Wireless Power Infrastructure 6.7 Electric Vehicles

7. Company Directory 8. Acronym and Abbreviation List 9. Table of Contents 10. Table of Charts and Figures 11. Scope of Study, Sources and Methodology, Notes

LIST OF TABLES: Wireless Power Application Adoption Timeframe

Wireless Power Charging Technologies: Advantages & Disadvantages

Product Category List

Duty Cycles for a 24 Hour Use Care

Product Power & Energy Usage by General Charging Equipment

Product Power & Energy Usage by Energy Star Compliant Equipment

Product Power & Energy Usage by Powermat Compliant Equipment

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Embedded Energy to Produce, Ship, Discard External Power Supplies, World Markets: 2009

Embedded Energy to Produce, Ship, Discard External Power Supplies, World Markets: 2020

Projected Energy Use to Produce, Ship, and Dispose of Transformers from External Power Supplies, World Markets: 2020

Projected WP Device Savings of Energy Use to Produce, Ship, and Dispose of Transformers from External Power Supplies, World Markets: 2020

Comparison of Embedded Energy Use and Saving from Wireless Power Technology, World Markets: 2020

Wireless Power Unit Shipments by Application, World Markets: 2010-2020

Wireless Power Unit Price by Application, World Markets: 2010-2020

Wireless Power Revenue by Application, World Markets: 2012-2020

Wireless Power Share by Region, World Markets: 2012-2020

Wireless Power Share by Technology, World Markets: 2012-2020

All Applications Wireless Power Revenue by Region, World Markets: 2012-2020

Mobile Devices Wireless Power Revenue by Region, World Markets: 2012-2020

Consumer Electronics Revenue by Region, World Markets: 2012-2020

Industrial Devices Revenue by Region, World Markets: 2012-2020

Wireless Power Infrastructure Revenue by Region, World Markets: 2012-2020

Wireless Power Systems for Electric Vehicle Charging Revenue by Region, World Markets: 2012-2020

LIST OF CHARTS & FIGURES: Wireless Power Revenue by Application, World

Markets: 2012-2020

Wireless Power Share by Technology, World Markets: 2012-2020

Wireless Power Revenue Share by Region, World Markets: 2020

Duty Cycles for a 24 Hour Use Case

Product Power & Energy Usage by General Charging Equipment

Product Power & Energy Usage by Energy Star Compliant Equipment

Product Power & Energy Usage by Wireless Power Compliant Equipment

Total Addressable Population, World Markets: 2020

Total Wireless Power Energy Usage by Addressable Population: 2020

Embedded Energy to Produce, Ship, Discard External Power Supplies, World Markets: 2020

Wireless Power Unit Shipments by Application, World Markets: 2012-2020

Wireless Power Share by Region, World Markets: 2012-2020

Mobile Devices Wireless Power Unit Shipments by Application, World Markets: 2012-2020

Mobile Devices Wireless Power Revenue by Application, World Markets: 2012-2020

Mobile Devices Wireless Power Revenue by Region, World Markets: 2012-2020

Consumer Electronics Wireless Power Unit Shipments by Application, World Markets: 2012-2020

Consumer Electronics Wireless Power Revenue by Application, World Markets: 2012-2020

Consumer Electronics Wireless Power Revenue by Region, World Markets: 2012-2020

Industrial Devices Wireless Power Unit Shipments by Application, World Markets: 2012-2020

Industrial Devices Wireless Power Revenue by Application, World Markets: 2012-2020

Industrial Devices Wireless Power Revenue by Region, World Markets: 2012-2020

Wireless Power Infrastructure by Location, World Markets: 2012-2020

Wireless Power Infrastructure Revenue by Location, World Markets: 2012-2020

Wireless Power Infrastructure Revenue by Region, World Markets: 2012-2020

Wireless Power Systems for Electric Vehicle Charging, World Markets: 2012-2020

Wireless Power Systems for Electric Vehicle Charging Revenue, World Markets: 2012-2020

Wireless Power Systems for EV Charging Revenue by Region, World Markets: 2012-2020

Wireless Sensor Network in a Robotic Production Line

Wireless Power Transmission System

Embedded Wireless Charging

Transmission Efficiency versus Distance, Inductively Coupled WP Systems

Magnetically Coupled Resonant WP System

Efficiency as a Function of Distance, MRC System

Laser Power Beaming System for UAVs

RF Power Transmission System

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Wireless Power Revenue by Application, World Markets: 2012-2020

(Source: Pike Research)

KEY QUESTIONS ADDRESSED:

Who will be the major players in the wireless power sector in the coming decade?

What are the major technological, business, and regulatory hurdles to wider adoption of wireless power systems?

What are the most promising applications for wireless power charging and transmission?

How large, in terms of units and revenues, will the wireless power market be over the next decade?

In which regions of the world will the adoption of wireless power systems grow most rapidly?

WHO NEEDS THIS REPORT?

Wireless power technology companies

Wireless power end-users, including makers of electric vehicle charging systems and industrial sensor network providers

Mobile device and consumer electronics manufacturers

Semiconductor and component makers

Defense contractors

Government agencies

Investor community

REPORT DETAILS:

Price: Pages: Tables, Charts, Figures: Release Date:

$3900 67 58 2Q 2012

TO ORDER THIS REPORT: Phone: +1.303.997.7609 Email: [email protected]

 

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Wireless EV Charging

Infrastructure

Industrial

Consumer Electronics

Mobile Devices