Wireless Charging

Wireless Charging 2016-2026: Phones & Small Electronics, Electric Cars & Other Vehicles

IDTechEX, Date of Publication: Apr 22, 2016, 137 Pages
US$4,975.00
IDT8510

Wireless charging will be on almost all mobile phones and millions of cars by 2026 

This unique report reflects the new reality that wireless charging is now one subject from phones and medical devices to vehicles. This is because it increasingly involves the same technologies, locations and companies. Why are people so enthusiastic when they experience ubiquitous phone charging? How will the standards battles be resolved? Why will the planned move to hired vehicles and autonomous vehicles drive more demand for wireless charging? Is a compatible set of standards emerging for vehicles? What will sales be from 2016-2026 for mobile device and for vehicle wireless charging? It is all here.

Users of mobile phones and the new connected wearables loathe the fact that they need recharging before a recharging point can be found. They urgently seek ubiquitous wireless charging from the car dashboard to the table in the coffee shop: no hassle top up. Progress is now rapid due to easy retrofit and huge numbers of phones fitting it as original equipment. Standards battles are being resolved by market adoption and merger.

Electric vehicles, whether plug-in hybrid or pure electric are selling well now. That covers land, water and air, off-road and on-road, on water and underwater. That brings to the fore the problems of dirt, weight, vandalism and safety with plugging in so auto makers, for example, plan wireless charging in many cars and buses from 2017 underwritten by one single set of standards being achieved soon.

This report purchase includes up to 30 minutes telephone time with an expert analyst who will help you link key findings in the report to the business issues you're addressing. This needs to be used within three months of purchasing the report.

Wireless Charging 2016-2026: Phones & Small Electronics, Electric Cars & Other Vehicles
TABLE OF CONTENTS

1. EXECUTIVE SUMMARY AND CONCLUSIONS

1.1. Definition and overview
1.2. Wireless charging for portable electronics
1.3. Wireless charging for electric vehicles
1.4. Technology
1.5. Technical options for static WC
1.6. Dynamic charging
1.6.1. Off road trials for electric highways technology
1.7. Forecasts
1.8. NFC model
1.9. Market sweet spot
1.10. Threats
1.11. Market forecasts
1.12. Forecast for high power: electric vehicles
1.13. Market by territory
1.14. Market dynamics
1.15. Other comparisons

2. WIRELESS CHARGING OF PORTABLE DEVICES: LATEST SITUATION

2.1. Main trends
2.2. Misleading terminology
2.3. Challenges
2.4. Real problems

3. INTRODUCTION

3.1. History
3.2. Wireless power transfer
3.2.1. Adoption - who wins
3.3. Qi the winning specification for personal electronics - so far
3.3.1. Competitor
3.4. Comparisons of Qi with the leading competitor
3.5. Apple and Qi
3.6. Wireless vehicle charging

4. WIRELESS CHARGING FOR VEHICLES WHEN STATIONARY

4.1. Introduction
4.2. Standards for vehicle WC
4.3. Recent activity
4.3.1. BMW, Germany Nanyang Singapore
4.3.2. Fraunhofer wireless discharging, lightweighting, dynamic
4.3.3. Hyundai-Kia Korea: Mojo USA
4.3.4. PRIMOVE Belgium
4.3.5. Yutong and ZTE China

5. DYNAMIC CHARGING OF VEHICLES

5.1. Introduction
5.2. Road maintenance concerns
5.3. Semi dynamic charging
5.4. Fully dynamic charging
5.4.1. Drayson Racing UK
5.4.2. Korea Advanced Institute of Science and Technology
5.4.3. University of Tokyo Japan
5.4.4. Utah State University USA
5.5. Renewable electricity generation on motorways
5.6. Timeline
5.6.1. Volvo Sweden

6. ALTERNATIVES TO WIRELESS CHARGING FOR VEHICLES

6.1. Electric vehicles that are never charged externally
6.1.1. Introduction
6.1.2. Options for energy autonomous vehicles
6.2. Robotic charging
6.3. Gantries and catenaries
6.4. Robot arms
6.4.1. DBT-CEV France
6.4.2. PowerHydrant USA
6.4.3. Tesla solid metal snake USA
6.4.4. Volkswagen Germany

7. EXAMPLES OF INTERVIEWS 2015

7.1. BYD China
7.2. Hevo Power USA, WAVE USA, WiTricity USA
7.3. Idaho State Laboratory USA
7.4. Infineon USA/Germany
7.5. PowerHydrant USA
7.6. Qualcomm USA
7.6.1. Wireless Charging: Invitation Only Meeting 26 June 2015
7.7. University of Tokyo, Japan
7.8. WiTricity USA
7.9. XALT Energy USA

 

Date of Publication:
Apr 22, 2016
File Format:
PDF via E-mail
Number of Pages:
137 Pages
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