家電產品及電動汽車無線供電市場:2012-2022年 是由出版商IDTechEx Ltd.在2012年05月所出版的。
這份英文市場調查報告書包含139 Pages 價格從美金3995起跳。
今後10年中,最活躍的無線供電(WPT)市場是家電產品及電動車等攜帶型及移動型設備的非接觸式充電相關市場。這2種設備以相似的技術為基礎,加上幾個建議的規格,也因為部分供應商考慮到兩市場的服務提供,因此具有良好的兼容性。
本報告提供家電產品及電動汽車無線供電市場,主要技術,規格及相關團體概要,家電產品供電及電動車充電的市場及技術概況,以及實例彙整,2012-2022年的市場預測等,為您概述為以下內容。
第1章 摘要整理和結論
第2章 簡介
第3章 技術
- 設備的電力消耗
- WPT的過去,現在,及未來
- WPT包含的東西
- 充電等級
- 短距離感應耦合的選擇
- 無線電頻率RF
- 無線電頻率UHF
- 環境能源採集
- 杜克大學
- 微波和雷射光線
- 雷射及微波替代品
第4章 規格
- 無線充電聯盟(WPC)
- WPC的目的
- 規格引進的實際狀況
- 美國消費電子產品協會(CEA)
- EU的接觸電源規格
- 中華人民共和國的接觸電源規格
- 韓國的接觸電源規格
第5章 用無線電傳輸傳統電子產品電力的組織
- AMIMON
- Dell USA
- Energizer USA
- Fulton Innovation USA
- Haier Group USA
- Hewlett Packard
- Intel USA
- KI USA
- Leggett & Pratt USA
- Marconi Circuit Technology Corporation USA
- Mojo Mobility USA
- Philips Netherlands
- Powermat USA
- PureEnergy Solutions USA
- Qualcomm USA
- Research in Motion USA
- Rohm USA
- RTX Consumer Products Hong Kong
- 三洋電機
- Seiko Epson
- Texas Instruments USA
- Wipower USA
第6章 消費者取向包裝產品(CPG)的供電
- WPT對CPG來說很重要
- Bundesdruckerei(德國)
- Fulton Innovation(美國)
- Poly IC(德國)
- Schreiner PrinTronics(德國)
- 凸版資訊(日本)
第7章 電動車的充電
- 汽車充電的歷史
- 企業簡介
- Conductix-Wampfler(義大利)
- Energy Dynamics Laboratory(美國)
- Evatran(美國)
- HaloIPT(紐西蘭)
- 韓國科學技術院(KAIST)
- Magna-Charge(美國)
- 日產自動車(日本)
- Presidio Graduate School(美國)
- RRC(德國)
- Siemens-BMW
- 新加坡A*STAR(科學技術研究院)
- 猶他州立大學(美國)
- Volvo和Flanders Drive(瑞典,比利時)
- WiTricity與合作企業(美國)
第8章 電動車基本設備的全球市場
- 10年預測
- 價格資訊
- 等級1、2、3預測
- 中國的支出範例
- 超出汽車的市場
- 各類型汽車台數預測
- 充電站的市場發展推動因素
第9章 市場預測
附錄1:詞彙
附錄2:IDTECHEX的出版物及顧問公司
附錄3:超材料的簡介
附錄4:印刷電子產品的簡介
圖表
Abstract
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“The most vibrant WPT markets will be the contactless charging of portable and mobile equipment”
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Description
Over the next decade, the most vibrant Wireless Power Transmission (WPT)
markets will involve the contactless charging of portable and mobile
equipment, in particular consumer electronics and electric vehicles and this
is the focus of this report. These two aspects go together because the
technology is similar, some proposed standards overlap and some suppliers seek
to serve both markets.
Later, this will lead to contactless power for a high proportion of static
consumer, industrial and military electronics. For now, it primarily concerns
wireless charging of lithium-ion batteries in portable consumer electronics
and in land, water and airborne electric vehicles, particularly cars, both
hybrid and pure electric. These travel considerable distances and ready
availability of standard, convenient ie contactless, charging capability is
key to their widespread adoption. To the user of consumer electronics, this is
particularly driven by the ever greater functionality and longer hours of use
of mobile phones calling for frequent charging, given that the batteries are
not improving fast enough.
Consumer electronics has a very powerful driver towards contactless charging
in the form of the extreme inconvenience of the proliferation of electrically
charged products each with an incompatible charging power supply, three to
four billion units being made every year - a potential market for wireless
charging pairs of up to ten billion dollars yearly, given market growth and an
allied market of wireless power to electronic and electric consumer products
that do not need charging. Similarly, there is a large unmet demand for
wireless charging of vehicles, so the driver avoids the inconvenience,
dirtiness and danger of having to get out of the vehicle to plug in something
during bad weather or dangerous neighbourhoods. Many prefer not to handle
heavy electrical equipment.
IDTechEx forecasts the number, unit value and market value of this charging
equipment for 2012-2022, including separately the Levels 1-3 of charging speed
for vehicles. The forecasts reflect a full consideration of the many market
drivers. Unusually, the report evaluates the many negatives delaying market
growth not just the positives that are the focus of previous reports on this
subject that tend to substitute enthusiasm for reality. The technology
options, suppliers and their successes and challenges, standards activities
and the influence of related technologies such as metamaterials, printed
electronics and printed electrics are considered. The relevant needs of the
consumer packaged goods industry are considered as it becomes electronic. 24
tables and 45 figures pull this together, with 42 suppliers and their
partnerships profiled in this 145 page report containing glossary and
appendices.
Report Statistics
- Last update: May 2012
- Forecasts to: 2022
- Total Number of Pages: 139
- Total Number of Tables: 24
- Total Number of Figures: 45
Table of Contents
1. EXECUTIVE SUMMARY AND CONCLUSIONS
2. INTRODUCTION
- 2.1. What is Wireless Power Transmission (WPT)?
3. TECHNOLOGIES
- 3.1. Device power consumption
- 3.2. WPT past present and future
- 3.3. What WPT encompasses
- 3.4. Charging levels
- 3.5. Options for short range inductive coupling
- 3.6. Radio Frequency RF
- 3.7. Radio frequency UHF
- 3.8. Ambient energy harvesting
- 3.9. Duke University
- 3.10. Microwave and laser beams
- 3.10.1. The laser and microwave alternatives
4. STANDARDS
- 4.1. Wireless Power Consortium
- 4.1.2. The purpose of the Wireless Power Consortium
- 4.1.3. Progress in adopting the standards
- 4.1.4. Consumer Electronics Association
- 4.1.5. Contacted power supply standard in the European Union
- 4.1.6. Contacted power supply standard in the People's Republic of China
- 4.1.7. Contacted power supply standard in South Korea
5. ORGANISATIONS WIRELESSLY POWERING TRADITIONAL ELECTRONICS
- 5.1.1. AMIMON
- 5.1.2. Dell USA
- 5.1.3. Energizer USA
- 5.1.4. Fulton Innovation USA
- 5.1.5. Haier Group USA
- 5.1.6. Hewlett Packard
- 5.1.7. Intel USA
- 5.1.8. KI USA
- 5.1.9. Leggett & Pratt USA
- 5.1.10. Marconi Circuit Technology Corporation USA
- 5.1.11. Mojo Mobility USA
- 5.1.12. Philips Netherlands
- 5.1.13. Powermat USA
- 5.1.14. PureEnergy Solutions USA
- 5.1.15. Qualcomm USA
- 5.1.16. Research in Motion USA
- 5.1.17. Rohm USA
- 5.1.18. RTX Consumer Products Hong Kong
- 5.1.19. Sanyo Japan
- 5.1.20. Seiko Epson Corporation Japan
- 5.1.21. Texas Instruments USA
- 5.1.22. Wipower USA
6. POWERING CONSUMER PACKAGED GOODS CPG
- 6.1. The need for WPT with CPG
- 6.1.1. Bundesdruckerei Germany
- 6.1.2. Fulton Innovation USA
- 6.1.3. Poly IC Germany
- 6.1.4. Schreiner PrinTronics Germany
- 6.1.5. Toppan Forms Japan
7. CHARGING ELECTRIC VEHICLES
- 7.1. History of vehicle charging
- 7.2. Company profiles
- 7.2.1. Conductix-Wampfler Italy
- 7.2.2. Energy Dynamics Laboratory USA
- 7.2.3. Evatran USA
- 7.2.4. HaloIPT New Zealand
- 7.2.5. Korea Advanced Institute of Technology
- 7.2.6. Magna-Charge USA
- 7.2.7. Nissan Japan
- 7.2.8. Presidio Graduate School USA
- 7.2.9. RRC Germany
- 7.2.10. Siemens-BMW
- 7.2.11. Singapore A*STAR
- 7.2.12. Utah State University USA
- 7.2.13. Volvo and Flanders Drive Sweden, Belgium
- 7.2.14. WiTricity and Partners USA
8. GLOBAL MARKET FOR ELECTRIC VEHICLE CHARGING INFRASTRUCTURE
- 8.1. Ten year forecasts
- 8.2. Pricing information
- 8.3. Forecasts of Level 1, 2 & 3
- 8.4. Examples of expenditure in China
- 8.5. Market beyond cars
- 8.6. Vehicle projections by type
- 8.7. Market drivers for charging stations
9. MARKET FORECASTS
- 9.1. WPT Forecasts 2012-2022
- 9.2. Market by region
- 9.2.1. Technology road map
APPENDIX 1: IDTECHEX PUBLICATIONS AND CONSULTANCY
APPENDIX 2: INTRODUCTION TO METAMATERIALS
APPENDIX 3: INTRODUCTION PRINTED ELECTRONICS
TABLES
- 1.1. Number, unit value ex-factory and total market value rounded of WPT
hardware sold for consumer electronics worldwide 2012-2022
- 1.2. Number, hardware unit value ex-factory excluding any power storage
and total market value rounded of contactless on-road vehicle charging
stations sold worldwide in thousands 2012-2022
- 1.3. Number of on-road vehicle charging stations sold worldwide in
thousands 2011-2021, residential, other and total, rounded, including plug-in
and contactless
- 1.4. Global market value of the three levels of car charging station
2011-2021 in $ millions
- 3.1. 2000 year history of WPT, wireless power charging and batteries
- 7.1. The good and the bad of inductive contactless charging of electric
vehicles
- 8.1. Global market for electric vehicle chargers US$ billion ex factory
2011 and 2021 rounded
- 8.2. Approximate global car charging station market in 2011 and 2021 in $
billion rounded
- 8.3. Value of the global traction battery charging station hardware market
2011-2021 giving percent of total for East Asia, Europe and North America for
2011 and 2021
- 8.4. Number of car charging stations sold worldwide in thousands
2011-2021, residential, other and total, rounded
- 8.5. Numbers thousands of the three levels of car charging station
hardware worldwide 2011-2021
- 8.6. Examples of orders and commitments for non-residential car charging
stations for on-road vehicles
- 8.7. Average unit price ex factory of the three levels of car charging
station hardware 2011-2021 in $ thousands, excluding energy storage
- 8.8. Typical hardware price of charging stations indoor and outdoor in $
thousands
- 8.9. Global market value of the three levels of car charging station
2011-2021 in $ millions
- 8.10. Market for electric vehicles, both hybrid and pure electric, sold in
the world 2012-2022 in thousands of units rounded
- 8.11. The charging infrastructure situation by category
- 8.12. Sales of Light Electric Vehicles (LEVs) (two wheelers and allied eg
electric quad bikes and on road three wheel micro cars) by region by
percentage of units
- 8.13. Split between Level 2 and Level 3 chargers with rounded percentage
- 8.14. Number of hybrid and pure electric cars plugged in and the total
number in thousands 2011-2021
- 9.1. Number, unit value ex-factory and total market value rounded of WPT
hardware sold for consumer electronics worldwide 2012-2022
- 9.2. Number, hardware unit value ex-factory excluding any power storage
and total market value rounded of contactless on-road vehicle charging
stations sold worldwide in thousands 2012-2022
- 9.3. Number of on-road vehicle charging stations sold worldwide in
thousands 2011-2021, residential, other and total, rounded, including plug-in
and contactless
- 9.4. Global market value of the three levels of car charging station
2011-2021 in $ millions
FIGURES
- 2.1. Concept of a wireless power mat
- 3.1. Power requirements and sources for lowest power devices compared with
contactless personal electrics and contactless vehicle charging
- 3.2. The place of energy harvesting in wirelessly powering electronic and
electrical devices and vehicles
- 3.3. Solar bag and solar panel on phone, both for charging phones
- 3.4. Power in use vs duty cycle for portable and mobile devices showing
zones of use of single use vs rechargeable batteries
- 3.5. Laptop fire caused by lithium-ion battery
- 3.6. Electric taxi in China on fire due to lithium-ion battery
- 3.7. Fatal UPS plane crash caused by the lithium battery cargo
- 3.8. The inadequate improvement in batteries compared to other
technologies in the last 20 years
- 3.9. Powercast wireless sensor node without a battery, utilising
transmitted UHF power
- 3.10. LaserMotive objectives illustrated
- 4.1. WPC interoperability logo
- 5.1. Photographs of the experimental set-up for RF-powered e-Skin in the
dark (top) and transparent state (bottom)
- 5.2. Example of a segmented e-Skin panel (in two different states),
illustrating the design freedom
- 5.3. A functional sample of an e-Skin window from Philips Research and
Holst Centre that doesn't require external power or batteries
- 5.4. WilkCharge mat
- 5.5. eneloop
- 6.1. Fulton wireless power integration in packaging
- 6.2. Wireless power circuit is printed directly
- 6.3. Poly IC application
- 6.4. PolyLogoR-RAD radio activated displays
- 6.5. Card with no battery, the image being illuminated by RF from RFID
reader
- 7.1. Hino "no plug in" bus
- 7.2. In-road charging of small buses in Turin Italy
- 7.3. Evatran EV charging
- 7.4. Evatran Plugless Power EV charging station
- 7.5. HaloIPT 2010 launch of the first wireless charging in the UK
- 7.6. Operating principle of HaloIPT
- 7.7. Drayson racing car
- 7.8. KAIST OLEVs in 2010
- 7.9. Proximity charged tram
- 7.10. Inductive paddle
- 7.11. Wireless e-bike charger
- 7.12. Principle of the WiTricity Delphi wireless charging system
- 8.1. Value of the global traction battery charging station hardware market
2011-2021 percent of total for East Asia, Europe and North America for 2011
and 2021
- 8.2. Nissan backed charging stations being installed in the USA by region
- 8.3. Number of car charging stations sold worldwide in thousands
2011-2021, residential, outdoor and destination, rounded
- 8.4. Numbers thousands of the three levels of charging station worldwide
2011-2021
- 8.5. Average unit price of the three levels of charging station hardware
vehicle 2011-2021 in $ thousands
- 8.6. BYD Auto charging station for pure electric taxis in China
- 8.7. Slow charging station in China
- 8.8. Fast charger for lead acid traction batteries in electric bicycles in
China
- 8.9. Global market value of the three levels of car charging station
2011-2021 in $ millions
- 8.10. Market for electric vehicles, both hybrid and pure electric, sold in
the world 2012-2022 in thousands of units
- 8.11. Total number of plug-in cars in thousands 2011-2021
家電及電動汽車用WPT(無線供電)市場尚未成熟
2011年10月11日
Global Information, Inc.已開始銷售IDTechEx Ltd.所發行的報告書「Wireless Power Transmission for Consumer Electronics and Electric Vehicles 2012-2022 (家電產品及電動汽車無線供電市場:2012-2022年)」
今後10年將變成是最有活力的無線供電(WPT)市場,尤其是適合家電產品和電動汽車等手提式機器及移動體的非接觸充電。ID TECH的報告書針對許多在靜止狀態進行的一般消費者、工業及軍事關聯的電子•電力機器之非接觸充電,說明將來架構的技術。
現在非接觸充電主要是針對攜帶式家電產品及電動汽車的電池。
因應長途移動,充電後可立刻利用,標準且便利性高的非接觸型充電功能,成為擴大引進無線充電的關鍵。例如,期待如同手機之電池充電中,不會限制功能、能更長時間使用的柔軟性。
無線電力傳送分成從數瓦到數千瓦、從1毫米到60厘米的各式種類。WPT通常是由一對多的傳送器與接收器構成。傳送器大半呈靜止狀態,接收器多半為攜帶型,內藏於行動型機器上。傳送器以有線方式連接AC線路和太陽能發電等發電設備。廣泛採用更總括性標準,攜帶型、移動型機器製造商如將共同的接收器內藏,則WPT將成為大眾市場。該報告書亦依動力、技術、地區等介紹對WPT需求的預測。
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