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statistics - Part 2

Posts Tagged ‘statistics’

Smart Phone Usage Trends

Smart Phone Usage trends

A Partner Conducive to Smart Communication Process

Let us have a look at the prevailing mobile phones’ market and find out the reasons behind its unparalleled popularity.

The world’s present mobile phone users’ base is past 3 billion as per an eminent market survey and the trends are likely to continue in the coming few decades. In addition to that, this base is larger than the strength of Internet users or fixed telephone line subscribers. The usage of mobile phone is attaining exemplary penetration rates in developed as well as developing nations.

The modern day mobile manufacturers are ready to give due emphasis to the identification of user demands besides implementing innovative ways for the purpose of users’ satisfaction. This is imperative to cater to the increasingly fragmented and diverse market, which is shaped in equation to the prevailing differing needs, expectations and values. Since, the modern day mobile users are ready to pay a justified price for stylish and innovative mobile phones, more and more manufacturers are jumping into the mobiles market. The entry of these manufacturers brings more competition and this eventually leads to the availability of cheap mobile phones. These are the reasons that are prompting the mobile manufacturers to go for the technological innovations and creative marketing programs. All these positive trends are highly suitable for the mobiles market since both the manufacturer and mobile user feel elated to be a part of this intense race.

If you are looking for some high-quality yet cheap mobile phone, then you need to take some steps before putting your hands on a mobile phone. A clear understanding of the prevailing market trends can be attained by making a detailed market survey; you can also seek the advice of your friends, relatives and colleagues before getting a cheap mobile phone.

Let us now have a look at some of the highly promising, new and established mobile names and products to get the complete insight. Some of the most promising and reliable names in the world of mobile phones are Fly, Spice and Samsung. The Fly mobile phones such as Fly MX300, Fly MP600 and Fly T2060 have been able to live up to the expectations of the mobile user community on the sheer basis of their performance, affordability and reliability. These Fly mobile phones are highly advanced when it comes to seamless delivery of mobile solutions.

Get a high-quality and cheap mobile phone for yourself and feel the difference.

About the Author

The author is a specialist in retail writing. Her writing skills reflect the outcome of years of exposure to the retail industry. Working with retail giants as a consultant has enriched her knowledge base and her passion for writing got fire. She can be read regularly on RetailsDirect.com. For details please visit: www.retailsdirect.com
Cheap LCD TV

Compound Semiconductor Substrates 2010 Market Report now Available at ReportsandReports
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Smart Phone Sales Data

Smart Phone Sales data

Dell’s first quarter revenue in China grew 44% in the second half of new smart phone push

Dell’s first quarter revenue in China grew 44% in the second half of new smart phone push

May 21 message, with the enterprise market to pick up, Dell ushered in the past few Dell Latitude D610 Battery quarters, the best growth performance of a quarter. As of today, Dell announced April 30, 2010 performance in the first quarter, the total income of 14.9 billion U.S. dollars, up 21%, while in the Chinese market, year over year revenue growth of 44%.

From the business point of view, consumer business grew 16%, the lowest increase in four major sectors. And large enterprises to achieve business unit income of 4.2 billion, up 25%, public utilities, 3.9 billion total revenue of the Department, up 22%, SME Division total revenues 3.5 billion U.S. dollars, up 19%.

However, it is noteworthy that the four business units, the lower the profits of the Consumer Business Unit, operating income was 17 million U.S. dollars. Dell’s side said the next targets, will continue to enhance profit margins.

Dell’s global consumer and SME Division president Stephen @ Phyllis to answer questions that Netease technology, technology update cycle has come to start the operation of the enterprise market, while the financial crisis on the enterprise market has gradually subsided, there will be continued next growth.

In addition, Phyllis said, Dell will be released this year in Europe and the United States market, 5-inch Tablet PC, and next year into the Chinese market, in addition, Dell will launch later this year in China, several smart phone.

China continued to perform well below the BRIC average growth rate

Dell’s earnings, said the quarter’s revenue growth in the Chinese market 44% is Dell Fujitsu Lifebook s6000 Battery important growth engine. This is expressed in many quarters Dell’s continuous rapid growth in China, but in Brazil, India, Russia and China, which composed of the BRICs, China’s growth slow.

Data showed Dell’s revenue in the BRIC average growth of 60%, while achieving 90% growth in India, Baxi Da 81%.

Phyllis said the slower growth rate in China is mainly due to the Chinese market has great volume of business, this is the world’s second largest market.

However, the 44% growth rate is the result contains a number of operations. Phyllis introduced in China and India, the Department of Consumer business achieved revenue growth of 100% over the previous year.

Market share lost to Acer from the Internet this

From the third quarter of 2009, Acer beyond Dell as the world’s second-largest PC maker after. Phyllis said that this data is primarily due to low-end Dell notebooks on the Internet and other products of the different views, he believes Dell’s high-end PC market, good, and this area has very high profit margins.

“Our opponents on the Internet over this some publicity, we think that the Internet can not replace the full notebook.” Phyllis said, tablet PCs and notebook computers on the Internet this is complementary products, rather than the alternative.

Starting this year in Europe and the United States to introduce more Tablet PC smart phones in China

Phyllis said that Dell’s business is also actively exploring the development of smart phones and Tablet PC market opportunities. Which Dell will market in Europe and the United States this year, starting within 5-inch Tablet PC, the product or will enter the Chinese market in 2011.

In the smart phone, the Phyllis said that the Chinese market, Dell is a “test field”, HP Pavilion DV4000 Battery Dell and China Mobile launched Ophone will release several new models this year, no date yet.

Aspects of the system for smart phones, Phyllis said, Dell will not develop its own set of operating system, Dell’s strategy in this area is clear, that is, and operators with the use of open systems.

Dell today announced first quarter fiscal 2011 earnings. The report shows that Dell’s first-quarter net profit of 441 million U.S. dollars, up 52% over last year; sales of 14.874 billion U.S. dollars, up 21% over the same period last year.

In the subsequent conference call, Dell said that Dell’s net profit increased substantially due to the past period of time, cost control very good results.

With the move to launch smart phone for Dell, in large part with the global test of means. It is reported that Dell will be the year a few smart phones released in China. Dell will also introduce 5-inch flat panel, the first in Europe and the United States starting in the second half, but when entering China is not yet determined, but should be in the next year.

Dell’s strategy in the smart phone or with operators, mobile phone operating system, Dell said it has always been an open strategy, and no plans to build a dedicated mobile phone system.

Although the Internet this accounted for a large share, but Dell does not have high expectations of the Internet. Dell said that notebook shipments in the Internet accounts for the great part, but the publicity of the competitors on the Internet too far, in fact, the Internet can not be a substitute for laptops, only to add type of mobile devices.

Dell said that the reason for the overall loss in the notebook Acer, the major gap, including the Internet, including the low end of the market. But Dell said its market share in many high-end, and that access of the low profit margins.

In the BRIC countries (Brazil, Russia, India, China) Dell’s business to achieve sustained growth, Dell’s total revenue in these countries increased by 60%, revenue growth in the Indian market up to 90%, 81% growth in the Brazilian market, Dell this fiscal quarter, revenue in China increased by 44%, Dell is an important growth engine.

Asia-Pacific and Japan revenue growth of 33%, still more than 20% of the global level, Sony VGP-BPL2 Battery this quarter’s revenue of 2.7 billion, almost a best quarter profits, in addition to other parts of Japan have remained relatively stable growth. Both desktops, notebooks, servers and other product lines are all double-digit growth.

Dell expressed satisfaction with the growth of the Chinese market in 2006, China’s annual revenues of about 1.5 billion U.S. dollars, is now an annual income of close to 50 million, four to five years tripled.

About the Author

News Update: Report Finds 49% Boost to Smart Phone Sales in Q1 2010

Smart Phone Penetration Us

smart phone penetration us

Mobile Phones

Advancement in the technology has brought great innovations to the human life. There has been immense metamorphosis in the way human beings live their lives. Enhanced lifestyles and progressive inventions have bestowed the mankind with more comfort and luxury. Now we have advanced gadgets with which we can simply enjoy great convenience in our lives. The things which were only an imagination few years back have now turned into reality.

The technology blossoms in the world of sophistication and advanced sciences. One such innovation of technology that has influentially penetrated the human lives is the mobile phones. These gadgets have transformed the way people interact with each other. They have revolutionized our lives in tremendous manner. Earlier we used the conventional land line phones to communicate with our family members. Then these advanced gadgets were introduced which entirely changed the way we talk with others. This novel concept really appealed to the people, however initially these phones were not too advanced and they had less features. With time there has been tremendous enhancement in the arena of these phones.

These days Mobile Phones have become highly advanced and they have immense facilities that can simply exhilarate the user. Now the users can communicate with their peers and family members no matter where they are. The new age phones feature advanced applications with which the users can get great ease in communication. These gadgets are equipped with advanced camera with which high quality images can be shot. The cameras have finest quality lenses and great precision. These cameras are supported with the other advanced functionality like digital zoom, auto focus. The advanced phones feature amazing applications for editing images and adding finishing touches to the photographs. You may also find great facilities like video streaming and video conferencing in the handsets.

Gone are the days when phones were only used for talking; now they can also be used for surfing the internet. These gadgets are equipped with advanced technologies like GPRS, EDGE, 3G etc with which the reliable and fast speed internet connectivity can be achieved on these device without any hassle. This has bestowed the users with ease of checking their important emails, creating their blogs etc. These handsets have advanced Bluetooth connectivity with which the users can easily connect to other devices and have hassle free data transfer. This innovative technology has made mobile phones more efficient linke Nokia N95. These gadgets are loaded with immense capabilities to entertain the users.

These gadgets are endowed with highly efficient and robust music players with which the users can enjoy the music everywhere. The music players have support for a variety of file formats. Users can create play list of their favourite songs and listen to the tracks with amazing sound quality. The handsets also feature multimedia messages, video playback, advanced polyphonicMP3 ringtones and FM radio etc.

As the trend of smart phones is gaining pace more and more handset manufacturers are coming with advanced phones that are similar to mini computers. These devices have efficient applications for document editing. They also feature QWERTY keypads with which the users can easily type email messages.

About the Author

Mobile Phone deals have offers you contract mobile phone with latest mobile handsets and best networks.

Video Introduction to Nielsen Report by Charlie Buchwalter, SVP of Research and Analytics

Smart Phone Market Share Us

Smart Phone Market Share us

Worldwide Nanotechnology Thin Film Lithium-Ion Battery Market Shares Strategies, And Forecasts, 2009-2015-Aarkstore Enterprise

Worldwide nanotechnology thin film lithium-ion batteries are poised to achieve significant growth as units become more able to achieve deliver of power to electric vehicles efficiently. Less expensive lithium-ion batteries allow leveraging economies of scale and proliferation of devices into a wide range of applications. According to Susan Eustis, lead author of the study, “Economies of scale leverage the lithium-ion battery nanotechnology advances needed to make lithium-ion batteries competitive. Nanotechnology provided by lithium-ion research solves the issues poised by the need to store renewable energy. Lithium-ion batteries switch price reductions are poised to drive market adoption by making units affordable.”

Nanotechnology results obtained in the laboratory are being translated into commercial products. The processes of translating the nanotechnology science into thin film lithium ion batteries are anticipated to be ongoing. The breakthroughs of science in the laboratory have only begun to be translated into life outside the lab, with a long way to go in improving the functioning of the lithium-ion batteries. Unlike any other battery technology, thin film solid-state batteries show very high cycle life. Using very thin cathodes (0.05µm) batteries have been cycled in excess of 45,000 cycles with very limited loss in capacity. After 45,000 cycles, 95% of the original capacity remained.

Then there is the problem of translating the evolving technology into manufacturing process. What this means is that the market will be very dynamic, with the market leaders continuously being challenged by innovators, large and small that develop more cost efficient units. Systems integration and manufacturing capabilities have developed a broad family of high-power lithium-ion batteries and battery systems. A family of battery products, combined with strategic partner relationships in the transportation, electric grid services and portable power markets, position vendors to address these markets for lithium-ion batteries.

Electric Vehicles depend on design, development, manufacture, and support of advanced, rechargeable lithium-ion batteries. Batteries provide a combination of power, safety and life. Next-generation energy storage solutions are evolving as commercially available batteries. Lithium-ion batteries will play an increasingly important role in facilitating a shift toward cleaner forms of energy.

Innovative approaches to materials science and battery engineering are available from a large number of very significant companies — GE, Panasonic Sanyo / Matsushita Industrial Co., Ltd., NEC, Saft, Toshiba, BYD / Berkshire Hathaway, LG Chem, Altair Nanotechnologies, Samsung, Sony, A123 Systems with MIT technology, and Altair Nanotechnologies.

Markets for lithium-ion batteries at $911 million in 2008 are anticipated to reach $9.1 billion by 2015, growing in response to decreases in unit costs and increases. Lithiumion batteries used in Cell Phones and PCs, and in cordless power tools are proving the technology. Units are shipped into military markets and are used in satellites, proving the feasibility of systems. Small, lithium-ion prismatic batteries prove the feasibility of this technology. The large emerging markets are for hybrid and electric vehicles powered by renewable energy systems.

Report Methodology
This is the 399th report in a series of market research reports that provide forecasts in communications, telecommunications, the internet, computer, software, and telephone equipment. The project leaders take direct responsibility for writing and preparing each report. They have significant experience preparing industry studies. Forecasts are based on primary research and proprietary data bases. Forecasts reflect analysis of the market trends in the segment and related segments. Unit and dollar shipments are analyzed through consideration of dollar volume of each market participation in the segment. Market share analysis includes conversations with key customers of products, industry segment leaders, marketing directors, distributors, leading market participants, and companies seeking to develop measurable market share. Over 200 in-depth interviews are conducted for each report with a broad range of key participants and opinion leaders in the market segment.
 
 
  Table of Contents : 
Thin Film Lithium Ion Battery Executive Summary   ES-1

Worldwide Nanotechnology Thin Film Lithium-Ion

Battery Market Driving Forces  ES-1

Market Driving Forces  ES-2

Nanotechnology Forms the Base for Lithium-Ion Batteries  ES-7

Competitors  ES-7

Lithium-Ion Battery Market Shares  ES-7

Lithium-Ion Battery Market Forecasts  ES-9

 

1. Thin Film Lithium Ion Battery

Market Description and Market Dynamics   1-1

1.1   Lithium-Ion Battery Target Markets  1-1

1.1.1    Project Better Place and the Renault-Nissan Alliance  1-2

1.1.2    Largest Target Market, The Transportation Industry  1-3

1.1.3    Electric Grid Services Market 1-4

1.1.4    Portable Power Market, Power Tools  1-5

1.2   Lithium-Ion Battery Technologies Transportation

Industry Target Market 1-7

1.3   Energy Storage For Grid Stabilization  1-11

1.3.1    Local Energy Storage Benefit For Utilities  1-12

1.4   Applications Require On-Printed Circuit

Board Battery Power  1-13

1.4.1    Thin-film vs. Printed Batteries  1-13

1.5   Smart Buildings  1-14

1.5.1    Permanent Power for Wireless Sensors  1-16

1.6   Battery Safety / Potential Hazards  1-17

1.7   Thin Film Solid-State Battery Construction  1-18

1.8   Battery Is Electrochemical Device  1-20

1.9   Battery Depends On Chemical Energy  1-21

1.9.1    Characteristics Of Battery Cells  1-21

1.9.2    Batteries Are Designed Differently For Various Applications  1-23

 

2. Thin Film Lithium Ion Battery Market

Shares and Market Forecasts   2-1

2.1   Worldwide Nanotechnology Thin Film Lithium-Ion

Battery Market Driving Forces  2-1

2.1.1    Market Driving Forces  2-2

2.1.2    Nanotechnology Forms the Base for Lithium-Ion Batteries  2-7

2.1.3    Competitors  2-7

2.2   Lithium-Ion Battery Market Shares  2-7

2.2.1    ExxonMobil Affiliate in Japan / Tonen Chemical 2-10

2.3   Lithium-Ion Battery Market Forecasts  2-11

2.4   Electric Vehicle and Hybrid Vehicle Lithium-Ion

Battery Market Shares  2-14

2.4.1    BYD   2-16

2.4.2    Johnson Controls-Saft 2-16

2.4.3    Saft Battery Technologies  2-17

2.4.4    A123Systems 32 Series Automotive Class

Lithium Ion™ Cells: 2-17

2.4.5    NEC and Nissen  2-19

2.4.6    LG Chem   2-20

2.4.7    EnerDel 2-20

2.4.8    Competition  2-20

2.5   Electric and Hybrid Vehicle Lithium-Ion

Battery Market Forecasts  2-21

2.5.1    Largest Target Market, The Transportation Industry  2-25

Thin Film Advanced Lithium-Ion Battery EV Market 2-27

Thin Film Lithium-Ion And Lithium Polymer Automotive Batteries  2-27

2.6   Thin-Film and Printed Batteries: On-Board

Solutions for Low-Power Electronics  2-29

2.6.1    Solicore Tiny Flat Battery  2-31

2.6.2    Thin-Film, Organic, and Printed Batteries:

On-Board Solutions for Low-Power Electronics  2-32

2.7   Cell Phone, Communications, And PC Lithium-Ion

Battery Technology Markets Discussion  2-33

2.7.1    Samsung SDI  2-33

2.7.2    BYD   2-33

2.7.3    Saft 2-33

2.7.4    Portable Power Competition  2-34

2.8   Lithium-Ion Battery Technology Portable Power

Market, Power Tools Market Shares  2-34

2.8.1    A123 Systems  2-36

2.9   Lithium-Ion Battery Technology Portable Power,

Power Tools Market Forecasts  2-37

2.10     Lithium-Ion Battery Technology Electric

Grid Services Markets  2-40

2.10.1  Electric Grid Services  2-42

2.11     Thin Film Lithium-Ion Battery Market Positioning  2-43

2.11.1  US And Its Allies Are Changing The Military Landscape  2-48

2.12     Digital Device Battery Forecasts  2-51

 

3. Thin Film Lithium-Ion Battery Product Description   3-1

3.1   A123 Systems  3-1

3.1.1    A123 Systems Lithium Ion Cell Construction

Based On A Dual Plate Tubular Design  3-4

3.1.2    A123Systems 32 Series Automotive Class

Lithium Ion™ Cells: 3-5

3.1.3    GM and A123Systems Co-Develop

Lithium-Ion Battery Cell for Chevrolet Volt 3-11

3.1.4    A123Systems / GE Production Contract for

Norewegian Think Electric Vehicles  3-12

3.1.5    A123Systems Patent for Nanophosphate™

Lithium Ion Battery Technology  3-14

3.2   LG Chem   3-15

3.2.1    LG Lithium-Ion Cylindrical Battery  3-15

3.2.2    LG Lithium-ion Polymer Battery  3-15

3.2.3    LG Lithium-ion Battery Prismatic Type  3-17

3.2.4    LG Chem   3-17

3.3   SAFT   3-18

3.3.1    Saft Lithium-ion (Li-ion) Batteries  3-18

3.3.2    Saft is Li-ion Batteries For Commercial

GEO Satellites to JSC ISS of Russia  3-19

3.3.3    Saft Contract To Power Hybrid Electric Mobile

Utility Systems From Titan Energy Development 3-21

3.3.4    Saft and ABB Develop New High Voltage Li-ion

Battery System   3-22

3.3.5    Saft Hybrid Battery Technology for Wisconsin Clean Energy  3-24

3.3.6    Saft High-Energy Lithium-Ion (Li-ion) Batteries For Raytheon  3-25

3.3.7    Saft Lithium-Ion (Li-ion) Battery Backup Systems  3-25

3.3.8    Saft Energy Storage As A Key

Renewable Energy Enabling Technology  3-26

3.3.9    Saft / Solion Large Li-ion batteries  3-27

3.3.10  Saft Lithium-Sulfur Dioxide (Li-So2) Batteries  3-31

3.3.11  Saft Lithium Technologies  3-32

3.3.12  Saft Lithium-thionyl chloride (Li-SOCl2) 3-32

3.3.13  Lithium-thionyl chloride (Li-SOCl2) – LS/LST/LSG cell ranges  3-35

3.3.14  Saft Small LS/LST bobbin cells  3-36

3.3.15  Saft Large LS/T bobbin cells  3-38

3.3.16  Saft Lithium-Manganese Dioxide (Li-MnO2) 3-43

3.3.17  Saft Lithium-ion (Li-ion) 3-43

3.4   BYD   3-50

3.4.1    Warren Buffett Buys 10 Percent Stake In BYD

Chinese Battery Manufacturer 3-50

3.4.2    BYD Battery Expertise  3-52

3.5   Panasonic / Sanyo  3-53

3.6   Samsung  3-54

3.7   Ener1  / EnerDel 3-55

3.7.1    EnerDel Lithium-Ion Prismatic Design  3-56

3.7.2    EnerDel Addressing Market Demand for

Hybrid Electric Vehicles (HEVs) 3-56

3.7.3    EnerDel 5Amp Battery Pack  3-60

3.8   Imara  3-60

3.9   ExxonMobil Affiliate in Japan / Tonen Chemical 3-62

3.9.1    Tonen Chemical Leading Supplier Of Separators

For Lithium Ion Batteries  3-63

3.10     NEC   3-63

3.10.1  Nissan and NEC Group  3-64

3.10.2  Nissan And NEC Joint Venture  3-65

3.10.3  NEC High-Performance Lithium-Ion Batteries

Employ A Compact Laminated Configuration  3-66

3.10.4  NEC / Nissan Low-Cost Lithium-Manganese Batteries  3-67

3.10.5  NEC Lamilion Energy  3-68

3.10.6  NEC Subaru  3-68

3.10.7  NEC Thin Film Battery Has Sixteen Modules

Consisting Of Twelve Cells, Serially Connected  3-69

3.10.8  NEC / Subaru Thin Film Battery Flat Shape  3-69

3.11     Sony  3-71

3.12     Matshushita Industrial Co., Ltd.  (Panasonic) 3-73

3.12.1  Panasonic Lithium Batteries  3-74

3.12.2  Panasonic Lithium-Ion Rechargeable Batteries  3-75

3.13     E-One Moli Energy  3-79

3.13.1  Product Data Sheets  3-81

3.14     QuantumSphere  3-82

3.15     Solicore Ultra Thin-Film Battery  3-84

3.15.1  Solicore’s Flexion Lithium Polymer Batteries  3-86

3.15.2  Solicore Flexion Lithium Powered Cards  3-87

3.15.3  Solicore RFID (Radio Frequency Identification) Devices  3-89

3.15.4  Solicore’s Flexion® Batteries Bluechip Million Unit Purchase  3-90

3.15.5  Solicore Supports Smart Cards  3-91

3.16     Cymbet EnerChip™ Solid-State, Rechargeable

Thin-Film Batteries  3-92

3.16.1  Cymbet Enerchip™ Sensors Support 3-94

3.17     Front Edge Technology  3-95

3.18     Excellatron Thin-Film Micro-Batteries  3-95

3.18.1  Contrast To Conventional Lithium Cells  3-95

3.18.2  Excellatron Market Advantage  3-97

3.18.3  Excellatron Battery Current State of the Art 3-99

3.18.4  Excellatron Battery Intrinsically Safe  3-101

3.18.5  High Temperature Performance of

Excellatron Thin Film Batteries  3-101

3.18.6  Excellatron Long Cycle Life  3-109

3.18.7  Excellatron Polymer Film Substrate for Thin Flexible Profile  3-111

3.18.8  Excellatron Unique Proprietary Passivation

Barrier and Packaging Solution  3-113

3.19     Front Edge 50,000 Prototypes Of Nanoenergy Batteries  3-117

3.19.1  Front Edge Technology (FET) 3-117

3.20     Infinite Power Solutions (IPS) Flexible Thin-Film Batteries  3-127

3.20.1  Infinite Power Solutions  3-129

3.21     Oak Ridge Micro-Energy  3-130

3.21.1  Oak Ridge Micro-Energy Thin Film Batteries  3-132

3.22     Energizer  3-132

3.22.1  Energizer Holdings  3-133

3.23     Valence  3-134

3.23.1  PVI for Valence’s U-Charge(R) XP Energy Storage Systems  3-134

3.23.2  Valence Lithium Phosphate  3-135

3.23.3  Valence Lithium Phosphate Stability and Dependability  3-137

3.23.4  Valence Safety Focus  3-137

3.23.5  Valence Lithium Phosphate Alternative to Lead-Acid  3-138

3.23.6  Valence Lithium Phosphate Storage and Run-Time  3-138

3.23.7  Valence Lithium Phosphate Safety and Maintenance Free  3-138

3.24     ITN Energy Systems  3-139

3.24.1  ITN Intelligent Processing, Sensors, & Controls: 3-142

3.24.2  ITN Control: 3-144

3.24.3  ITN Sensors  3-147

3.24.4  ITN Unique Sensors: X-Ray Fluorescence And

Parallel Detection Spectroscopic Ellipsometer 3-148

3.25     ULVAC   3-159

3.26     Intersil 3-159

 

4. Thin Film Lithium Ion Battery Technology   4-1

4.1   Vendor Lithium-ion Battery Strategy  4-1

4.1.1    Rechargeable Lithium Batteries Characteristics  4-2

4.2   Challenges in Battery Design  4-3

4.2.1    Advanced Lithium-ion Batteries Requirements  4-7

4.3   Vendor Lithium-Ion Battery Positioning  4-8

4.3.1    High-Quality, Volume Manufacturing Facilities  4-10

4.4   Applications Of Lithium-Ion Batteries  4-11

4.5   Mobile Phone Industry  4-12

4.5.1    Nanowires  4-13

4.5.2    Thin Film Battery Enabling Chemistries  4-13

4.5.3    The Cathodes  4-14

4.5.4    Solid State Devices Provide More Energy Density  4-14

4.6   Advantages of Lithium-Ion Batteries  4-15

4.6.1    Lithium-Ion Battery Shortcomings  4-18

4.6.2    Charging  4-19

4.6.3    Applications  4-19

4.6.4    Costs  4-20

4.7   Lithium Cell Chemistry Variants  4-20

4.7.1    Lithium-ion  4-21

4.7.2    Lithium-ion Polymer 4-22

4.7.3    Other Lithium Cathode Chemistry Variants  4-23

4.7.4    Lithium Cobalt LiCoO2  4-23

4.7.5    Lithium Manganese LiMn2O4  4-23

4.7.6    Lithium Nickel LiNiO2  4-24

4.7.7    Lithium (NCM) Nickel Cobal Manganese – Li(NiCoMn)O2  4-24

4.7.8    Lithium Iron Phosphate LiFePO4  4-24

4.8   Operating Performance Of The Cell Can Be Tuned  4-25

4.9   Lithium Metal Polymer  4-26

4.9.1    Lithium Sulphur Li2S8  4-26

4.9.2    Alternative Anode Chemistry  4-26

4.10     ExxonMobil affiliate, Tonen Chemical

Polyethylene-Based, Porous Film   4-27

4.11     Cymbet Alternate Manufacturing  4-27

4.12     Thin-Film Batteries Packaging  4-27

4.13     ITN Energy Systems Fibrous Substrates, PowerFiber  4-28

4.13.1  ITN Sensors  4-31

4.14     Cell Construction  4-32

4.15     Impact Of Nanotechnology  4-33

4.16     Thin Film Batteries  4-34

4.16.1  Thin Film Battery Timescales and Costs  4-37

4.16.2  High Power And Energy Density  4-37

4.16.3  High Rate Capability  4-38

4.17     Comparison Of Rechargeable Battery Performance  4-39

4.18     Polymer Film Substrate  4-45

4.19     Micro Battery Solid Electrolyte  4-46

 

5.1  Nanotechnology Thin Film Battery Lithium-Ion Company Profiles   5-1

5.1   Nanotechnology Thin Film Battery Lithium-Ion  5-1

5.2   A123 Systems  5-1

5.2.1    A123 Systems Revenue  5-1

5.2.2    A123Systems Registration Statement for Initial Public Offering  5-2

5.2.3    A123 Systems Batteries Benefits  5-2

5.2.4    A123 Systems Competitive Advantage  5-4

5.2.5    A123 Systems Strategy  5-7

5.2.6    A123Systems and GE   5-8

5.2.7    A123 Acquisition of Hymotion  5-9

5.2.8    Procter & Gamble Duracell and A123 Systems Collaborate  5-10

5.2.9    Cobasys and A123 Systems  5-10

5.3   Advanced Cerametrics  5-11

5.4   Altair Nanotechnologies  5-12

5.4.1    Altair Nanotechnologies Power and Energy Group  5-12

5.4.2    Altair Nanotechnologies Performance Materials Division  5-12

5.4.3    Altair Nanotechnologies Life Sciences Division  5-14

5.4.4    Altair Nanotechnologies One-Megawatt Battery

System Available for Commercial Operation by AES

Energy Storage, LLC   5-14

5.4.5    Altair Nanotechnologies Revenues  5-15

5.5   Applied Data  5-16

5.6   Bekaert 5-16

5.7   Robert Bosch GmbH   5-17

5.8   Boston Power / Sonata  5-17

5.9   BYD   5-21

5.9.1    Warren Buffett Buys 10 Percent Stake In BYD

Chinese Battery Manufacturer 5-21

5.10     Cymbet 5-23

5.10.1  Cymbet Thin-Film, Solid-State Battery Technology  5-23

5.10.2  Cymbet and ANT Wireless Sensor Network  5-23

5.10.3  Garmin International ANT™ Wireless Network  5-25

5.11     Dow   5-25

5.12     E-One Moli Energy Group  5-26

5.13     Ener1  5-27

5.13.1  Ener1 Third Quarter 2008 Revenue  5-27

5.13.2  Ener1 Positioning Technology Originally

Pioneered By Argonne National Lab  5-30

5.13.3  Ener1 Acquires Enertech Leading Korean

Lithium-ion Battery Cell Producer 5-31

5.13.4  Ener1 / Enertech Specializes In Producing

Large Format Flat (“Prismatic”) Cells  5-32

5.13.5  EnerDel Operations  5-34

5.14     Energizer  5-39

5.15     Excellatron  5-44

5.16     Exon  5-45

5.16.1  ExxonMobil Chemical / Tonen Chemical Corporation  5-46

5.17     Front Edge Technology (FET) 5-47

5.18     GE   5-47

5.18.1  GE Global Research  5-48

5.18.2  GE Energy Financial Services  5-48

5.19     GM    5-48

5.19.1  General Motors Faces Bankruptcy  5-50

5.20     Ignite  5-51

5.21     IPS  5-51

5.22     Johnson Controls-Saft 5-52

5.23     KSW Microtec  5-52

5.24     LG Petrochemical 5-53

5.24.1  LG Chem   5-54

5.25     MMT Funds  5-54

5.26     NEC   5-54

5.26.1  Nissan Motor Co., Ltd., NEC, And Subsidiary

NEC TOKIN Joint-Venture Company – Automotive

Energy Supply Corporation (AESC) – 5-55

5.26.2  First Commercial Application For AESC’s Li-Ion Batteries  5-57

5.26.3  NEC TOKIN Lithium-Manganese Electrodes by 2009  5-59

5.26.4  Nissan Partnership With NEC   5-59

5.26.5  NEC Lamilion Energy  5-60

5.27     Oak Ridge Micro-Energy  5-60

5.28     Panasonic / Sanyo  5-61

5.29     QuantumSphere  5-63

5.30     Saft 5-64

5.30.1  Saft Battery Technologies  5-66

5.30.2  Saft Industrial Battery Group (IBG) 5-68

5.30.3  Saft Specialty Battery Group (SBG) 5-69

5.30.4  Saft Rechargeable Battery Systems (RBS) 5-71

5.30.5  Saft Research and Development 5-71

5.30.6  Johnson Controls-Saft United States Advanced

Battery Consortium (USABC) 5-72

5.31     Samsung  5-73

5.32     Solicore  5-73

5.32.1  Solicore’s Flexion® Batteries Bluechip Million Unit Purchase  5-74

5.32.2  Solicore Embedded Power Solutions  5-75

5.33     Think  5-75

5.34     Valence  5-76

5.34.1  Valence Strategy  5-77

5.34.2  Phases Of Valence Business Strategy  5-78

5.35     Ulvac  5-80

 

Tables and Figures
Table ES-1  ES-4

Lithium-Ion Battery Market Driving Forces 

Table ES-2  ES-6

Energy Advantages Of Thin-Film Batteries 

Figure ES-3  ES-8

Worldwide Lithium-Ion Thin Film Advanced Battery

Shipments, Market Shares, Dollars, 2008 

Figure ES-4  ES-10

Worldwide Lithium-Ion Thin Film Advanced Battery 

Shipments, Market Shares, Dollars, 2009-2015 

 

Table 1-1  1-3

Principal Features Used To Compare Rechargeable Batteries 

Figure 1-2  1-8

BMW’s Mini E Electric Car Powered By A Rechargeable Lithium-Ion Battery 

Table 1-3  1-9

Examples of Hybrid Electric Vehicles 

Figure 1-4  1-19

Typical Structure Of A Thin Film Solid State Battery 

Table 1-5  1-22

Characteristics Of Battery Cells 

 

Table 2-1  2-4

Lithium-Ion Battery Market Driving Forces 

Table 2-2  2-6

Energy Advantages Of Thin-Film Batteries 

Figure 2-3  2-8

Worldwide Lithium-Ion Thin Film Advanced Battery 

Shipments, Market Shares, Dollars, 2008 

Table 2-4  2-9

Worldwide Lithium-Ion Thin Film Advanced Battery 

Shipments, Market Shares, Dollars, 2008 

Figure 2-5  2-12

Worldwide Lithium-Ion Thin Film Advanced Battery 

Shipments, Market Shares, Dollars, 2009-2015 

Figure 2-6  2-13

Worldwide Lithium-Ion and Advanced Lithium-ion

Battery Market Forecasts,  Automotive, Power Tools,

Electric Grid, and PC Card,  Dollars, 2009-2015 

Figure 2-7  2-14

Worldwide Lithium-Ion Thin Film Automotive Advanced Battery 

Shipments, Market Shares, Dollars, 2008 

Figure 2-8  2-15

Worldwide Lithium-Ion Thin Film Automotive Advanced Battery 

Shipments, Market Shares, Dollars, 2008 

 

Figure 2-9  2-21

Worldwide Lithium-Ion Thin Film Advanced Battery 

Shipments, Market Shares, Dollars, 2009-2015 

Figure 2-10  2-22

Worldwide Lithium-Ion Thin Film Advanced Battery 

Shipments, Market Shares, Units, 2009-2015 

Figure 2-11  2-23

Worldwide Lithium-Ion Thin Film Advanced Battery 

Shipments, Market Shares, Units and Dollars, 2009-2015 

Figure 2-12  2-30

Worldwide PC Card On Board Lithium-Ion Batteries 

Market Forecasts, Dollars, 2009-2015 

Figure 2-13  2-35

Worldwide Lithium-Ion Thin Film Cordless Tool Advanced Battery Shipments, Market Shares, Dollars, 2008 

Table 2-14  2-36

Worldwide Lithium-Ion Thin Film Cordless Tool Advanced Battery Shipments, Market Shares, Dollars, 2008 

Figure 2-15  2-38

Worldwide Lithium-Ion Battery Portable Power

Tool and Advanced Portable Battery Shipments,

Market Forecasts, Dollars, 2009-2015 

Figure 2-16  2-41

Worldwide Electric Grid Lithium-Ion Battery

Storage Market Forecasts, Dollars, 2009-2015 

Table 2-17  2-45

Commercialization Challenges Of The Automotive,

Truck, and Bus Thin Film Battery Industry 

Table 2-18  2-47

Integrated Thin Film Battery Personal Transport

Power Systems 

Table 2-19  2-49

Requirements For Advanced Power Sources In A

Variety Of Military Applications 

Table 2-20  2-50

Large-Format Lithium-Ion Battery Key Advantages 

Table 2-20 (Continued) 2-51

Large-Format Lithium-Ion Battery Key Advantages 

 

Figure 3-1  3-2

A123 Systems Lithium Ion Battery 

Table 3-2  3-3

A123 Systems APR18650M1 Features 

Figure 3-3  3-4

A123 Systems lithium ion battery Cells: 26650 

Figure 3-4  3-5

A123 Cells: 32 Series 

Figure 3-5  3-7

A123 Systems Hybrid Characteristics 

Figure 3-6  3-8

A123 Systems Hybrid Discharge Characteristics 

 

Table 3-7  3-9

A123 Systems Benefits…

Table 3-8  3-10

A123 Systems Heavy Duty Custom and Standard Solutions 

Figure 3-9  3-16

LG Chem Lithium-Ion Batteries 

Table 3-10  3-32

Saft Lithium Technologies 

Table 3-11  3-33

Saft Lithium-Ion Battery Main applications 

Table 3-11  (Continued) 3-34

Saft Lithium-Ion Battery Main applications 

Figure 3-12  3-35

Saft Non Rechargeable Battery 

Table 3-13  3-39

Saft Lithium-Ion Construction Features 

Table 3-14  3-40

Saft Lithium-Ion Battery Benefits 

Figure 3-15  3-42

Saft Lithium-Sulfur Dioxide (Li-SO2) Batteries 

Table 3-16  3-44

Saft Lithium-Ion Battery Variations 

Table 3-16  (Continued) 3-45

Saft Lithium-Ion Battery Variations 

Table 3-16  (Continued) 3-46

Saft Lithium-Ion Battery Variations 

Table 3-16  (Continued) 3-47

Saft Lithium-Ion Battery Variations 

Table 3-16  (Continued) 3-48

Saft Lithium-Ion Battery Variations 

Table 3-16  (Continued) 3-49

Saft Lithium-Ion Battery Variations 

Figure 3-17  3-57

EnerDel Automotive Battery 

Table 3-18  3-58

EnerDel Lithium Ion Battery System for HEVs 

Table 3-19  3-59

EnerDel Automotive Battery Features 

Table 3-20  3-60

Imara Thin Film Battery Cells 

Figure 3-21  3-65

NEC Fuel Cells and Catalysts 

Table 3-22  3-72

Key Features of Sony NP-FP71 Hybrid Lithium Ion

Rechargeable Battery 

Table 3-22  (Continued) 3-73

Key Features of Sony NP-FP71 Hybrid Lithium Ion

Rechargeable Battery 

Figure 3-23  3-74

Panasonic Lithium Batteries 

Figure 3-24  3-75

Panasonic Lithium-Ion Rechargable Batteries 

Table 3-25  3-76

Panasonic Rechargeable Lithium ion Batteries Features:

Table 3-26  3-76

Panasonic Rechargeable Lithium ion Batteries 

Table 3-27  3-77

Panasonic Rechargeable Lithium ion Batteries 

Table 3-28  3-85

Solicore Flexion Battery Product Features:

Table 3-29  3-86

Solicore’s Flexion Lithium Polymer Battery Applications 

Table 3-30  3-87

Solicore’s Flexion Lithium Polymer Battery Uses 

Figure 3-31  3-88

Solicore Flexion High Temperature Batteries Survive Lamination 

Table 3-31A   3-89

Solicore RFID (Radio Frequency Identification) Applications 

Table 3-32  3-96

Excellatron Nanotechnology Thin Film Battery Features 

Table 3-33  3-97

Excellatron Battery Advantages 

Table 3-34  3-99

Excellatron Battery Thin Film Solid State Battery Components 

Figure 3-35  3-102

Excellatron Thin Film Battery Charge/Discharge Profile at 25ºC.

Figure 3-36  3-103

Excellatron Thin Film Battery Charge/Discharge

Profile At 150ºC.

Figure 3-37  3-104

Excellatron High Temperature (150ºC) Charge And

Discharge Capacity 

Figure 3-38  3-106

Excellatron Capacity And Resistance Of Thin Film Battery

As A Function Of Temperature 

Figure 3-39  3-106

Excellatron’s Battery (0.1 mAh) Discharged By A 100 mA

Pulse at 80ºC.

Figure 3-40  3-108

Excellatron High Rate Pulse Discharge 

Figure 3-41  3-109

Long Term Cyclability Of A Thin Film Solid State Battery 

Figure 3-42: 3-110

Excellatron Thin Film Battery Long Term Cyclability 

Figure 3-43  3-111

Discharge Capacity Of Several Typical Cathode Materials 

Figure 3-44: 3-112

Excellatron Thin film batteries deposited on a thin polymer substrate.

Figure 3-45  3-114

Excellatron Proprietary Passivation Barrier and Packaging 

Table 3-46  3-115

Comparison Of Battery Performances 

Figure 3-47  3-131

Oak Ridge Construction of a Thin Film Battery 

Table 3-48  3-136

Key Features of Valence Lithium Phosphate Technology 

Table 3-49  3-139

ITN Commercial Markets:

Figure 3-50  3-140

ITN Thin Film Battery:

Table 3-51  3-141

ITN Thin Film Battery Design Features/Advantages 

Table 3-52  3-142

ITN Thin Film Battery Economical production 

Table 3-53  3-143

ITN Thin Film Battery Strengths 

Figure 3-54  3-145

ITN Intelligent Process Control

Figure 3-55  3-146

Framework of Intelligent Processing of Materials 

Figure 3-56  3-149

XRF Instrument Developed by ITN Used on a System  

Figure 3-57  3-150

Thin Film Deposition 

Figure 3- 58  3-150

ITP Thin-film Process 

Table 3-59  3-151

Thin-film Process Capabilities 

Table 3-60  3-152

ITNThin-film Material Processing Experience Metals 

 

Table 4-1  4-4

Challenges in Lithium-ion Battery Design 

Table 4-2  4-35

Thin Film Battery Unique Properties 

Table 4-3  4-38

Comparison of battery performances 

Table 4-4  4-40

Comparison of battery performances 

Table 4-5  4-42

Thin Films For Advanced Batteries 

Table 4-6  4-43

Thin Film Batteries Technology 

Table 4-7  4-44

Thin Film Battery / Lithium Air Batteries Applications 

Figure 4-8  4-45

Polymer Film Substrate Thin Flexible battery Profiles 

Figure 4-9  4-46

Design Alternatives of Thin Film Rechargable Batteries 

 

Table 5-1  5-3

A123 Systems Batteries Benefits 

Table 5-2  5-5

A123 Systems Competitive Positioning 

Table 5-2  (Continued) 5-6

A123 Systems Competitive Positioning 

Table 5-2  (Continued) 5-7

A123 Systems Competitive Positioning 

Figure 5-3  5-19

Boston-Power Charge Curve 

 

Figure 5-4  5-20

Boston-Power Discharge Curve 

Figure 5-5  5-35

EnerDel Operations 

Figure 5-6  5-36

EnerDel Lithium Power Systems 

Figure 5-7  5-37

EnerDel Lithium Power USABC Contracts 

Figure 5-8  5-38

EnerDel Lithium Power Think Projct

Figure 5-9  5-63

Sanyo Battery Targets 2020 

Figure 5-10  5-65

Saft Sales Segments Half 1, 2008 

Figure 5-11  5-67

Saft Revenue H1 2008 

Figure 5-12  5-81

Ulvac Vacuum Pumps, Gauges, and Valves
 
 

Worldwide nanotechnology thin film lithium-ion batteries are poised to achieve significant growth as units become more able to achieve deliver of power to electric vehicles efficiently. Less expensive lithium-ion batteries allow leveraging economies of scale and proliferation of devices into a wide range of applications. According to Susan Eustis, lead author of the study, “Economies of scale leverage the lithium-ion battery nanotechnology advances needed to make lithium-ion batteries competitive. Nanotechnology provided by lithium-ion research solves the issues poised by the need to store renewable energy. Lithium-ion batteries switch price reductions are poised to drive market adoption by making units affordable.”

Nanotechnology results obtained in the laboratory are being translated into commercial products. The processes of translating the nanotechnology science into thin film lithium ion batteries are anticipated to be ongoing. The breakthroughs of science in the laboratory have only begun to be translated into life outside the lab, with a long way to go in improving the functioning of the lithium-ion batteries. Unlike any other battery technology, thin film solid-state batteries show very high cycle life. Using very thin cathodes (0.05µm) batteries have been cycled in excess of 45,000 cycles with very limited loss in capacity. After 45,000 cycles, 95% of the original capacity remained.

Then there is the problem of translating the evolving technology into manufacturing process. What this means is that the market will be very dynamic, with the market leaders continuously being challenged by innovators, large and small that develop more cost efficient units. Systems integration and manufacturing capabilities have developed a broad family of high-power lithium-ion batteries and battery systems. A family of battery products, combined with strategic partner relationships in the transportation, electric grid services and portable power markets, position vendors to address these markets for lithium-ion batteries.

Electric Vehicles depend on design, development, manufacture, and support of advanced, rechargeable lithium-ion batteries. Batteries provide a combination of power, safety and life. Next-generation energy storage solutions are evolving as commercially available batteries. Lithium-ion batteries will play an increasingly important role in facilitating a shift toward cleaner forms of energy.

Innovative approaches to materials science and battery engineering are available from a large number of very significant companies — GE, Panasonic Sanyo / Matsushita Industrial Co., Ltd., NEC, Saft, Toshiba, BYD / Berkshire Hathaway, LG Chem, Altair Nanotechnologies, Samsung, Sony, A123 Systems with MIT technology, and Altair Nanotechnologies.

Markets for lithium-ion batteries at $911 million in 2008 are anticipated to reach $9.1 billion by 2015, growing in response to decreases in unit costs and increases. Lithiumion batteries used in cell phones and PCs, and in cordless power tools are proving the technology. Units are shipped into military markets and are used in satellites, proving the feasibility of systems. Small, lithium-ion prismatic batteries prove the feasibility of this technology. The large emerging markets are for hybrid and electric vehicles powered by renewable energy systems.

Report Methodology
This is the 399th report in a series of market research reports that provide forecasts in communications, telecommunications, the internet, computer, software, and telephone equipment. The project leaders take direct responsibility for writing and preparing each report. They have significant experience preparing industry studies. Forecasts are based on primary research and proprietary data bases. Forecasts reflect analysis of the market trends in the segment and related segments. Unit and dollar shipments are analyzed through consideration of dollar volume of each market participation in the segment. Market share analysis includes conversations with key customers of products, industry segment leaders, marketing directors, distributors, leading market participants, and companies seeking to develop measurable market share. Over 200 in-depth interviews are conducted for each report with a broad range of key participants and opinion leaders in the market segment.
 
 
  Table of Contents : 
Thin Film Lithium Ion Battery Executive Summary   ES-1

Worldwide Nanotechnology Thin Film Lithium-Ion

Battery Market Driving Forces  ES-1

Market Driving Forces  ES-2

Nanotechnology Forms the Base for Lithium-Ion Batteries  ES-7

Competitors  ES-7

Lithium-Ion Battery Market Shares  ES-7

Lithium-Ion Battery Market Forecasts  ES-9

 

1. Thin Film Lithium Ion Battery

Market Description and Market Dynamics   1-1

1.1   Lithium-Ion Battery Target Markets  1-1

1.1.1    Project Better Place and the Renault-Nissan Alliance  1-2

1.1.2    Largest Target Market, The Transportation Industry  1-3

1.1.3    Electric Grid Services Market 1-4

1.1.4    Portable Power Market, Power Tools  1-5

1.2   Lithium-Ion Battery Technologies Transportation

Industry Target Market 1-7

1.3   Energy Storage For Grid Stabilization  1-11

1.3.1    Local Energy Storage Benefit For Utilities  1-12

1.4   Applications Require On-Printed Circuit

Board Battery Power  1-13

1.4.1    Thin-film vs. Printed Batteries  1-13

1.5   Smart Buildings  1-14

1.5.1    Permanent Power for Wireless Sensors  1-16

1.6   Battery Safety / Potential Hazards  1-17

1.7   Thin Film Solid-State Battery Construction  1-18

1.8   Battery Is Electrochemical Device  1-20

1.9   Battery Depends On Chemical Energy  1-21

1.9.1    Characteristics Of Battery Cells  1-21

1.9.2    Batteries Are Designed Differently For Various Applications  1-23

 

2. Thin Film Lithium Ion Battery Market

Shares and Market Forecasts   2-1

2.1   Worldwide Nanotechnology Thin Film Lithium-Ion

Battery Market Driving Forces  2-1

2.1.1    Market Driving Forces  2-2

2.1.2    Nanotechnology Forms the Base for Lithium-Ion Batteries  2-7

2.1.3    Competitors  2-7

2.2   Lithium-Ion Battery Market Shares  2-7

2.2.1    ExxonMobil Affiliate in Japan / Tonen Chemical 2-10

2.3   Lithium-Ion Battery Market Forecasts  2-11

2.4   Electric Vehicle and Hybrid Vehicle Lithium-Ion

Battery Market Shares  2-14

2.4.1    BYD   2-16

2.4.2    Johnson Controls-Saft 2-16

2.4.3    Saft Battery Technologies  2-17

2.4.4    A123Systems 32 Series Automotive Class

Lithium Ion™ Cells: 2-17

2.4.5    NEC and Nissen  2-19

2.4.6    LG Chem   2-20

2.4.7    EnerDel 2-20

2.4.8    Competition  2-20

2.5   Electric and Hybrid Vehicle Lithium-Ion

Battery Market Forecasts  2-21

2.5.1    Largest Target Market, The Transportation Industry  2-25

Thin Film Advanced Lithium-Ion Battery EV Market 2-27

Thin Film Lithium-Ion And Lithium Polymer Automotive Batteries  2-27

2.6   Thin-Film and Printed Batteries: On-Board

Solutions for Low-Power Electronics  2-29

2.6.1    Solicore Tiny Flat Battery  2-31

2.6.2    Thin-Film, Organic, and Printed Batteries:

On-Board Solutions for Low-Power Electronics  2-32

2.7   Cell Phone, Communications, And PC Lithium-Ion

Battery Technology Markets Discussion  2-33

2.7.1    Samsung SDI  2-33

2.7.2    BYD   2-33

2.7.3    Saft 2-33

2.7.4    Portable Power Competition  2-34

2.8   Lithium-Ion Battery Technology Portable Power

Market, Power Tools Market Shares  2-34

2.8.1    A123 Systems  2-36

2.9   Lithium-Ion Battery Technology Portable Power,

Power Tools Market Forecasts  2-37

2.10     Lithium-Ion Battery Technology Electric

Grid Services Markets  2-40

2.10.1  Electric Grid Services  2-42

2.11     Thin Film Lithium-Ion Battery Market Positioning  2-43

2.11.1  US And Its Allies Are Changing The Military Landscape  2-48

2.12     Digital Device Battery Forecasts  2-51

 

3. Thin Film Lithium-Ion Battery Product Description   3-1

3.1   A123 Systems  3-1

3.1.1    A123 Systems Lithium Ion Cell Construction

Based On A Dual Plate Tubular Design  3-4

3.1.2    A123Systems 32 Series Automotive Class

Lithium Ion™ Cells: 3-5

3.1.3    GM and A123Systems Co-Develop

Lithium-Ion Battery Cell for Chevrolet Volt 3-11

3.1.4    A123Systems / GE Production Contract for

Norewegian Think Electric Vehicles  3-12

3.1.5    A123Systems Patent for Nanophosphate™

Lithium Ion Battery Technology  3-14

3.2   LG Chem   3-15

3.2.1    LG Lithium-Ion Cylindrical Battery  3-15

3.2.2    LG Lithium-ion Polymer Battery  3-15

3.2.3    LG Lithium-ion Battery Prismatic Type  3-17

3.2.4    LG Chem   3-17

3.3   SAFT   3-18

3.3.1    Saft Lithium-ion (Li-ion) Batteries  3-18

3.3.2    Saft is Li-ion Batteries For Commercial

GEO Satellites to JSC ISS of Russia  3-19

3.3.3    Saft Contract To Power Hybrid Electric Mobile

Utility Systems From Titan Energy Development 3-21

3.3.4    Saft and ABB Develop New High Voltage Li-ion

Battery System   3-22

3.3.5    Saft Hybrid Battery Technology for Wisconsin Clean Energy  3-24

3.3.6    Saft High-Energy Lithium-Ion (Li-ion) Batteries For Raytheon  3-25

3.3.7    Saft Lithium-Ion (Li-ion) Battery Backup Systems  3-25

3.3.8    Saft Energy Storage As A Key

Renewable Energy Enabling Technology  3-26

3.3.9    Saft / Solion Large Li-ion batteries  3-27

3.3.10  Saft Lithium-Sulfur Dioxide (Li-So2) Batteries  3-31

3.3.11  Saft Lithium Technologies  3-32

3.3.12  Saft Lithium-thionyl chloride (Li-SOCl2) 3-32

3.3.13  Lithium-thionyl chloride (Li-SOCl2) – LS/LST/LSG cell ranges  3-35

3.3.14  Saft Small LS/LST bobbin cells  3-36

3.3.15  Saft Large LS/T bobbin cells  3-38

3.3.16  Saft Lithium-Manganese Dioxide (Li-MnO2) 3-43

3.3.17  Saft Lithium-ion (Li-ion) 3-43

3.4   BYD   3-50

3.4.1    Warren Buffett Buys 10 Percent Stake In BYD

Chinese Battery Manufacturer 3-50

3.4.2    BYD Battery Expertise  3-52

3.5   Panasonic / Sanyo  3-53

3.6   Samsung  3-54

3.7   Ener1  / EnerDel 3-55

3.7.1    EnerDel Lithium-Ion Prismatic Design  3-56

3.7.2    EnerDel Addressing Market Demand for

Hybrid Electric Vehicles (HEVs) 3-56

3.7.3    EnerDel 5Amp Battery Pack  3-60

3.8   Imara  3-60

3.9   ExxonMobil Affiliate in Japan / Tonen Chemical 3-62

3.9.1    Tonen Chemical Leading Supplier Of Separators

For Lithium Ion Batteries  3-63

3.10     NEC   3-63

3.10.1  Nissan and NEC Group  3-64

3.10.2  Nissan And NEC Joint Venture  3-65

3.10.3  NEC High-Performance Lithium-Ion Batteries

Employ A Compact Laminated Configuration  3-66

3.10.4  NEC / Nissan Low-Cost Lithium-Manganese Batteries  3-67

3.10.5  NEC Lamilion Energy  3-68

3.10.6  NEC Subaru  3-68

3.10.7  NEC Thin Film Battery Has Sixteen Modules

Consisting Of Twelve Cells, Serially Connected  3-69

3.10.8  NEC / Subaru Thin Film Battery Flat Shape  3-69

3.11     Sony  3-71

3.12     Matshushita Industrial Co., Ltd.  (Panasonic) 3-73

3.12.1  Panasonic Lithium Batteries  3-74

3.12.2  Panasonic Lithium-Ion Rechargeable Batteries  3-75

3.13     E-One Moli Energy  3-79

3.13.1  Product Data Sheets  3-81

3.14     QuantumSphere  3-82

3.15     Solicore Ultra Thin-Film Battery  3-84

3.15.1  Solicore’s Flexion Lithium Polymer Batteries  3-86

3.15.2  Solicore Flexion Lithium Powered Cards  3-87

3.15.3  Solicore RFID (Radio Frequency Identification) Devices  3-89

3.15.4  Solicore’s Flexion® Batteries Bluechip Million Unit Purchase  3-90

3.15.5  Solicore Supports Smart Cards  3-91

3.16     Cymbet EnerChip™ Solid-State, Rechargeable

Thin-Film Batteries  3-92

3.16.1  Cymbet Enerchip™ Sensors Support 3-94

3.17     Front Edge Technology  3-95

3.18     Excellatron Thin-Film Micro-Batteries  3-95

3.18.1  Contrast To Conventional Lithium Cells  3-95

3.18.2  Excellatron Market Advantage  3-97

3.18.3  Excellatron Battery Current State of the Art 3-99

3.18.4  Excellatron Battery Intrinsically Safe  3-101

3.18.5  High Temperature Performance of

Excellatron Thin Film Batteries  3-101

3.18.6  Excellatron Long Cycle Life  3-109

3.18.7  Excellatron Polymer Film Substrate for Thin Flexible Profile  3-111

3.18.8  Excellatron Unique Proprietary Passivation

Barrier and Packaging Solution  3-113

3.19     Front Edge 50,000 Prototypes Of Nanoenergy Batteries  3-117

3.19.1  Front Edge Technology (FET) 3-117

3.20     Infinite Power Solutions (IPS) Flexible Thin-Film Batteries  3-127

3.20.1  Infinite Power Solutions  3-129

3.21     Oak Ridge Micro-Energy  3-130

3.21.1  Oak Ridge Micro-Energy Thin Film Batteries  3-132

3.22     Energizer  3-132

3.22.1  Energizer Holdings  3-133

3.23     Valence  3-134

3.23.1  PVI for Valence’s U-Charge(R) XP Energy Storage Systems  3-134

3.23.2  Valence Lithium Phosphate  3-135

3.23.3  Valence Lithium Phosphate Stability and Dependability  3-137

3.23.4  Valence Safety Focus  3-137

3.23.5  Valence Lithium Phosphate Alternative to Lead-Acid  3-138

3.23.6  Valence Lithium Phosphate Storage and Run-Time  3-138

3.23.7  Valence Lithium Phosphate Safety and Maintenance Free  3-138

3.24     ITN Energy Systems  3-139

3.24.1  ITN Intelligent Processing, Sensors, & Controls: 3-142

3.24.2  ITN Control: 3-144

3.24.3  ITN Sensors  3-147

3.24.4  ITN Unique Sensors: X-Ray Fluorescence And

Parallel Detection Spectroscopic Ellipsometer 3-148

3.25     ULVAC   3-159

3.26     Intersil 3-159

 

4. Thin Film Lithium Ion Battery Technology   4-1

4.1   Vendor Lithium-ion Battery Strategy  4-1

4.1.1    Rechargeable Lithium Batteries Characteristics  4-2

4.2   Challenges in Battery Design  4-3

4.2.1    Advanced Lithium-ion Batteries Requirements  4-7

4.3   Vendor Lithium-Ion Battery Positioning  4-8

4.3.1    High-Quality, Volume Manufacturing Facilities  4-10

4.4   Applications Of Lithium-Ion Batteries  4-11

4.5   Mobile Phone Industry  4-12

4.5.1    Nanowires  4-13

4.5.2    Thin Film Battery Enabling Chemistries  4-13

4.5.3    The Cathodes  4-14

4.5.4    Solid State Devices Provide More Energy Density  4-14

4.6   Advantages of Lithium-Ion Batteries  4-15

4.6.1    Lithium-Ion Battery Shortcomings  4-18

4.6.2    Charging  4-19

4.6.3    Applications  4-19

4.6.4    Costs  4-20

4.7   Lithium Cell Chemistry Variants  4-20

4.7.1    Lithium-ion  4-21

4.7.2    Lithium-ion Polymer 4-22

4.7.3    Other Lithium Cathode Chemistry Variants  4-23

4.7.4    Lithium Cobalt LiCoO2  4-23

4.7.5    Lithium Manganese LiMn2O4  4-23

4.7.6    Lithium Nickel LiNiO2  4-24

4.7.7    Lithium (NCM) Nickel Cobal Manganese – Li(NiCoMn)O2  4-24

4.7.8    Lithium Iron Phosphate LiFePO4  4-24

4.8   Operating Performance Of The Cell Can Be Tuned  4-25

4.9   Lithium Metal Polymer  4-26

4.9.1    Lithium Sulphur Li2S8  4-26

4.9.2    Alternative Anode Chemistry  4-26

4.10     ExxonMobil affiliate, Tonen Chemical

Polyethylene-Based, Porous Film   4-27

4.11     Cymbet Alternate Manufacturing  4-27

4.12     Thin-Film Batteries Packaging  4-27

4.13     ITN Energy Systems Fibrous Substrates, PowerFiber  4-28

4.13.1  ITN Sensors  4-31

4.14     Cell Construction  4-32

4.15     Impact Of Nanotechnology  4-33

4.16     Thin Film Batteries  4-34

4.16.1  Thin Film Battery Timescales and Costs  4-37

4.16.2  High Power And Energy Density  4-37

4.16.3  High Rate Capability  4-38

4.17     Comparison Of Rechargeable Battery Performance  4-39

4.18     Polymer Film Substrate  4-45

4.19     Micro Battery Solid Electrolyte  4-46

 

5.1  Nanotechnology Thin Film Battery Lithium-Ion Company Profiles   5-1

5.1   Nanotechnology Thin Film Battery Lithium-Ion  5-1

5.2   A123 Systems  5-1

5.2.1    A123 Systems Revenue  5-1

5.2.2    A123Systems Registration Statement for Initial Public Offering  5-2

5.2.3    A123 Systems Batteries Benefits  5-2

5.2.4    A123 Systems Competitive Advantage  5-4

5.2.5    A123 Systems Strategy  5-7

5.2.6    A123Systems and GE   5-8

5.2.7    A123 Acquisition of Hymotion  5-9

5.2.8    Procter & Gamble Duracell and A123 Systems Collaborate  5-10

5.2.9    Cobasys and A123 Systems  5-10

5.3   Advanced Cerametrics  5-11

5.4   Altair Nanotechnologies  5-12

5.4.1    Altair Nanotechnologies Power and Energy Group  5-12

5.4.2    Altair Nanotechnologies Performance Materials Division  5-12

5.4.3    Altair Nanotechnologies Life Sciences Division  5-14

5.4.4    Altair Nanotechnologies One-Megawatt Battery

System Available for Commercial Operation by AES

Energy Storage, LLC   5-14

5.4.5    Altair Nanotechnologies Revenues  5-15

5.5   Applied Data  5-16

5.6   Bekaert 5-16

5.7   Robert Bosch GmbH   5-17

5.8   Boston Power / Sonata  5-17

5.9   BYD   5-21

5.9.1    Warren Buffett Buys 10 Percent Stake In BYD

Chinese Battery Manufacturer 5-21

5.10     Cymbet 5-23

5.10.1  Cymbet Thin-Film, Solid-State Battery Technology  5-23

5.10.2  Cymbet and ANT Wireless Sensor Network  5-23

5.10.3  Garmin International ANT™ Wireless Network  5-25

5.11     Dow   5-25

5.12     E-One Moli Energy Group  5-26

5.13     Ener1  5-27

5.13.1  Ener1 Third Quarter 2008 Revenue  5-27

5.13.2  Ener1 Positioning Technology Originally

Pioneered By Argonne National Lab  5-30

5.13.3  Ener1 Acquires Enertech Leading Korean

Lithium-ion Battery Cell Producer 5-31

5.13.4  Ener1 / Enertech Specializes In Producing

Large Format Flat (“Prismatic”) Cells  5-32

5.13.5  EnerDel Operations  5-34

5.14     Energizer  5-39

5.15     Excellatron  5-44

5.16     Exon  5-45

5.16.1  ExxonMobil Chemical / Tonen Chemical Corporation  5-46

5.17     Front Edge Technology (FET) 5-47

5.18     GE   5-47

5.18.1  GE Global Research  5-48

5.18.2  GE Energy Financial Services  5-48

5.19     GM    5-48

5.19.1  General Motors Faces Bankruptcy  5-50

5.20     Ignite  5-51

5.21     IPS  5-51

5.22     Johnson Controls-Saft 5-52

5.23     KSW Microtec  5-52

5.24     LG Petrochemical 5-53

5.24.1  LG Chem   5-54

5.25     MMT Funds  5-54

5.26     NEC   5-54

5.26.1  Nissan Motor Co., Ltd., NEC, And Subsidiary

NEC TOKIN Joint-Venture Company – Automotive

Energy Supply Corporation (AESC) – 5-55

5.26.2  First Commercial Application For AESC’s Li-Ion Batteries  5-57

5.26.3  NEC TOKIN Lithium-Manganese Electrodes by 2009  5-59

5.26.4  Nissan Partnership With NEC   5-59

5.26.5  NEC Lamilion Energy  5-60

5.27     Oak Ridge Micro-Energy  5-60

5.28     Panasonic / Sanyo  5-61

5.29     QuantumSphere  5-63

5.30     Saft 5-64

5.30.1  Saft Battery Technologies  5-66

5.30.2  Saft Industrial Battery Group (IBG) 5-68

5.30.3  Saft Specialty Battery Group (SBG) 5-69

5.30.4  Saft Rechargeable Battery Systems (RBS) 5-71

5.30.5  Saft Research and Development 5-71

5.30.6  Johnson Controls-Saft United States Advanced

Battery Consortium (USABC) 5-72

5.31     Samsung  5-73

5.32     Solicore  5-73

5.32.1  Solicore’s Flexion® Batteries Bluechip Million Unit Purchase  5-74

5.32.2  Solicore Embedded Power Solutions  5-75

5.33     Think  5-75

5.34     Valence  5-76

5.34.1  Valence Strategy  5-77

5.34.2  Phases Of Valence Business Strategy  5-78

5.35     Ulvac  5-80

 

Tables and Figures
Table ES-1  ES-4

Lithium-Ion Battery Market Driving Forces 

Table ES-2  ES-6

Energy Advantages Of Thin-Film Batteries 

Figure ES-3  ES-8

Worldwide Lithium-Ion Thin Film Advanced Battery

Shipments, Market Shares, Dollars, 2008 

Figure ES-4  ES-10

Worldwide Lithium-Ion Thin Film Advanced Battery 

Shipments, Market Shares, Dollars, 2009-2015 

 

Table 1-1  1-3

Principal Features Used To Compare Rechargeable Batteries 

Figure 1-2  1-8

BMW’s Mini E Electric Car Powered By A Rechargeable Lithium-Ion Battery 

Table 1-3  1-9

Examples of Hybrid Electric Vehicles 

Figure 1-4  1-19

Typical Structure Of A Thin Film Solid State Battery 

Table 1-5  1-22

Characteristics Of Battery Cells 

 

Table 2-1  2-4

Lithium-Ion Battery Market Driving Forces 

Table 2-2  2-6

Energy Advantages Of Thin-Film Batteries 

Figure 2-3  2-8

Worldwide Lithium-Ion Thin Film Advanced Battery 

Shipments, Market Shares, Dollars, 2008 

Table 2-4  2-9

Worldwide Lithium-Ion Thin Film Advanced Battery 

Shipments, Market Shares, Dollars, 2008 

Figure 2-5  2-12

Worldwide Lithium-Ion Thin Film Advanced Battery 

Shipments, Market Shares, Dollars, 2009-2015 

Figure 2-6  2-13

Worldwide Lithium-Ion and Advanced Lithium-ion

Battery Market Forecasts,  Automotive, Power Tools,

Electric Grid, and PC Card,  Dollars, 2009-2015 

Figure 2-7  2-14

Worldwide Lithium-Ion Thin Film Automotive Advanced Battery 

Shipments, Market Shares, Dollars, 2008 

Figure 2-8  2-15

Worldwide Lithium-Ion Thin Film Automotive Advanced Battery 

Shipments, Market Shares, Dollars, 2008 

 

Figure 2-9  2-21

Worldwide Lithium-Ion Thin Film Advanced Battery 

Shipments, Market Shares, Dollars, 2009-2015 

Figure 2-10  2-22

Worldwide Lithium-Ion Thin Film Advanced Battery 

Shipments, Market Shares, Units, 2009-2015 

Figure 2-11  2-23

Worldwide Lithium-Ion Thin Film Advanced Battery 

Shipments, Market Shares, Units and Dollars, 2009-2015 

Figure 2-12  2-30

Worldwide PC Card On Board Lithium-Ion Batteries 

Market Forecasts, Dollars, 2009-2015 

Figure 2-13  2-35

Worldwide Lithium-Ion Thin Film Cordless Tool Advanced Battery Shipments, Market Shares, Dollars, 2008 

Table 2-14  2-36

Worldwide Lithium-Ion Thin Film Cordless Tool Advanced Battery Shipments, Market Shares, Dollars, 2008 

Figure 2-15  2-38

Worldwide Lithium-Ion Battery Portable Power

Tool and Advanced Portable Battery Shipments,

Market Forecasts, Dollars, 2009-2015 

Figure 2-16  2-41

Worldwide Electric Grid Lithium-Ion Battery

Storage Market Forecasts, Dollars, 2009-2015 

Table 2-17  2-45

Commercialization Challenges Of The Automotive,

Truck, and Bus Thin Film Battery Industry 

Table 2-18  2-47

Integrated Thin Film Battery Personal Transport

Power Systems 

Table 2-19  2-49

Requirements For Advanced Power Sources In A

Variety Of Military Applications 

Table 2-20  2-50

Large-Format Lithium-Ion Battery Key Advantages 

Table 2-20 (Continued) 2-51

Large-Format Lithium-Ion Battery Key Advantages 

 

Figure 3-1  3-2

A123 Systems Lithium Ion Battery 

Table 3-2  3-3

A123 Systems APR18650M1 Features 

Figure 3-3  3-4

A123 Systems lithium ion battery Cells: 26650 

Figure 3-4  3-5

A123 Cells: 32 Series 

Figure 3-5  3-7

A123 Systems Hybrid Characteristics 

Figure 3-6  3-8

A123 Systems Hybrid Discharge Characteristics 

 

Table 3-7  3-9

A123 Systems Benefits…

Table 3-8  3-10

A123 Systems Heavy Duty Custom and Standard Solutions 

Figure 3-9  3-16

LG Chem Lithium-Ion Batteries 

Table 3-10  3-32

Saft Lithium Technologies 

Table 3-11  3-33

Saft Lithium-Ion Battery Main applications 

Table 3-11  (Continued) 3-34

Saft Lithium-Ion Battery Main applications 

Figure 3-12  3-35

Saft Non Rechargeable Battery 

Table 3-13  3-39

Saft Lithium-Ion Construction Features 

Table 3-14  3-40

Saft Lithium-Ion Battery Benefits 

Figure 3-15  3-42

Saft Lithium-Sulfur Dioxide (Li-SO2) Batteries 

Table 3-16  3-44

Saft Lithium-Ion Battery Variations 

Table 3-16  (Continued) 3-45

Saft Lithium-Ion Battery Variations 

Table 3-16  (Continued) 3-46

Saft Lithium-Ion Battery Variations 

Table 3-16  (Continued) 3-47

Saft Lithium-Ion Battery Variations 

Table 3-16  (Continued) 3-48

Saft Lithium-Ion Battery Variations 

Table 3-16  (Continued) 3-49

Saft Lithium-Ion Battery Variations 

Figure 3-17  3-57

EnerDel Automotive Battery 

Table 3-18  3-58

EnerDel Lithium Ion Battery System for HEVs 

Table 3-19  3-59

EnerDel Automotive Battery Features 

Table 3-20  3-60

Imara Thin Film Battery Cells 

Figure 3-21  3-65

NEC Fuel Cells and Catalysts 

Table 3-22  3-72

Key Features of Sony NP-FP71 Hybrid Lithium Ion

Rechargeable Battery 

Table 3-22  (Continued) 3-73

Key Features of Sony NP-FP71 Hybrid Lithium Ion

Rechargeable Battery 

Figure 3-23  3-74

Panasonic Lithium Batteries 

Figure 3-24  3-75

Panasonic Lithium-Ion Rechargable Batteries 

Table 3-25  3-76

Panasonic Rechargeable Lithium ion Batteries Features:

Table 3-26  3-76

Panasonic Rechargeable Lithium ion Batteries 

Table 3-27  3-77

Panasonic Rechargeable Lithium ion Batteries 

Table 3-28  3-85

Solicore Flexion Battery Product Features:

Table 3-29  3-86

Solicore’s Flexion Lithium Polymer Battery Applications 

Table 3-30  3-87

Solicore’s Flexion Lithium Polymer Battery Uses 

Figure 3-31  3-88

Solicore Flexion High Temperature Batteries Survive Lamination 

Table 3-31A   3-89

Solicore RFID (Radio Frequency Identification) Applications 

Table 3-32  3-96

Excellatron Nanotechnology Thin Film Battery Features 

Table 3-33  3-97

Excellatron Battery Advantages 

Table 3-34  3-99

Excellatron Battery Thin Film Solid State Battery Components 

Figure 3-35  3-102

Excellatron Thin Film Battery Charge/Discharge Profile at 25ºC.

Figure 3-36  3-103

Excellatron Thin Film Battery Charge/Discharge

Profile At 150ºC.

Figure 3-37  3-104

Excellatron High Temperature (150ºC) Charge And

Discharge Capacity 

Figure 3-38  3-106

Excellatron Capacity And Resistance Of Thin Film Battery

As A Function Of Temperature 

Figure 3-39  3-106

Excellatron’s Battery (0.1 mAh) Discharged By A 100 mA

Pulse at 80ºC.

Figure 3-40  3-108

Excellatron High Rate Pulse Discharge 

Figure 3-41  3-109

Long Term Cyclability Of A Thin Film Solid State Battery 

Figure 3-42: 3-110

Excellatron Thin Film Battery Long Term Cyclability 

Figure 3-43  3-111

Discharge Capacity Of Several Typical Cathode Materials 

Figure 3-44: 3-112

Excellatron Thin film batteries deposited on a thin polymer substrate.

Figure 3-45  3-114

Excellatron Proprietary Passivation Barrier and Packaging 

Table 3-46  3-115

Comparison Of Battery Performances 

Figure 3-47  3-131

Oak Ridge Construction of a Thin Film Battery 

Table 3-48  3-136

Key Features of Valence Lithium Phosphate Technology 

Table 3-49  3-139

ITN Commercial Markets:

Figure 3-50  3-140

ITN Thin Film Battery:

Table 3-51  3-141

ITN Thin Film Battery Design Features/Advantages 

Table 3-52  3-142

ITN Thin Film Battery Economical production 

Table 3-53  3-143

ITN Thin Film Battery Strengths 

Figure 3-54  3-145

ITN Intelligent Process Control

Figure 3-55  3-146

Framework of Intelligent Processing of Materials 

Figure 3-56  3-149

XRF Instrument Developed by ITN Used on a System  

Figure 3-57  3-150

Thin Film Deposition 

Figure 3- 58  3-150

ITP Thin-film Process 

Table 3-59  3-151

Thin-film Process Capabilities 

Table 3-60  3-152

ITNThin-film Material Processing Experience Metals 

 

Table 4-1  4-4

Challenges in Lithium-ion Battery Design 

Table 4-2  4-35

Thin Film Battery Unique Properties 

Table 4-3  4-38

Comparison of battery performances 

Table 4-4  4-40

Comparison of battery performances 

Table 4-5  4-42

Thin Films For Advanced Batteries 

Table 4-6  4-43

Thin Film Batteries Technology 

Table 4-7  4-44

Thin Film Battery / Lithium Air Batteries Applications 

Figure 4-8  4-45

Polymer Film Substrate Thin Flexible battery Profiles 

Figure 4-9  4-46

Design Alternatives of Thin Film Rechargable Batteries 

 

Table 5-1  5-3

A123 Systems Batteries Benefits 

Table 5-2  5-5

A123 Systems Competitive Positioning 

Table 5-2  (Continued) 5-6

A123 Systems Competitive Positioning 

Table 5-2  (Continued) 5-7

A123 Systems Competitive Positioning 

Figure 5-3  5-19

Boston-Power Charge Curve 

 

Figure 5-4  5-20

Boston-Power Discharge Curve 

Figure 5-5  5-35

EnerDel Operations 

Figure 5-6  5-36

EnerDel Lithium Power Systems 

Figure 5-7  5-37

EnerDel Lithium Power USABC Contracts 

Figure 5-8  5-38

EnerDel Lithium Power Think Projct

Figure 5-9  5-63

Sanyo Battery Targets 2020 

Figure 5-10  5-65

Saft Sales Segments Half 1, 2008 

Figure 5-11  5-67

Saft Revenue H1 2008 

Figure 5-12  5-81

Ulvac Vacuum Pumps, Gauges, and Valves
 
 For More information please contact

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Earnings Report: Nokia (NYSE:NOK) Profits Jump 65%, Smartphone Market Share Up 11%

Smart Phone Growth Statistics

Smart Phone Growth statistics
smart phone growth statistics

Himfr.com reports of the world in the second quarter smartphone Ranking: Nokia RIM Apple has in the first three

Beijing on the afternoon of the 26th August after foreign media Reports of the British research firm Canalys released last week, the global smartphone sales in the second quarter statistical report, the report shows, Nokia still holds the top position, the rapid growth of Apple and RIM, and Microsoft's market share slipped.

The report says that despite the impact of the global Recession in the second quarter of the global smartphone sales are still up 13.4%. Compared with the PC industry, interface innovation, design, application of the ever richer, and factors such as Advertising on mobile devices remained, the average selling price stable.

In the second quarter, while sales of existing inter-regional imbalances, but still as high as 16.9 million Nokia Smart Phone Sales take a leading position, an increase of 10.4%, accounting for 44.3% of smartphone sales, followed by RIM in the second quarter sales of 8 million, an increase of 41.6%, Apple handset design, usability and application procedures established industry-leading position in the second quarter, the company's smartphone sales of 5.2 million, an increase of 626.9%.

According to statistics, in the second quarter of the global smartphone operating system market share, Symbian, smartphone sales of 19.2 million, down by 2.1%, turnover of the entire text of 52%, RIM smartphone operating system sold 800 10,000, an increase of 41.6%; Mac OS handset sales reached 5.2 million simultaneous growth of 626.9%; Microsoft operating system, 3.4 million mobile phones sold, compared to 28.7%, Google Android mobile phone operating system, sold 1.1 million.

iPhone strategy and product development company, founder of the Small Society Zachary Lavin (Raven Zachary) pointed out that, despite Nokia's Symbian operating system, currently than half of the smartphone, but not as Android, iPhone and Blackberry by the developers in demand, the operating system, there is the Most fatal weakness.

Microsoft Windows CE since 1996, began the mobile phone market, enter the Smart Phone Applications are almost 10 years, but the system is currently a lack of effective competition. Android operating system, ultra-mobile phone sales in the second quarter, only 1 million, but taking into account only a small number of phones with the system and have in the next few quarters, a large number of Android mobile communication, the development of the system deserves attention.

About the Author

I am a professional editor from http://www.himfr.com/, and my work is to promote a free online trade platform.

http://www.himfr.com/ contain a great deal of information about waterfall tub spout,YPrPb Component Output, welcome to visit!

Amico Games Corp. plans to develop the modernization of their in-game graphics in Journey to the West Amico Online Games Corp. (OTCBB: AMCG), an IT company specializes in operating mobile and networked multiplayer games, announced today that the company's in-game graphics in Journey To The West Online, the attractiveness upgrade plans to improve the game on high-end Chinese mobile phone users. Read more

Smart Phone Sales Statistics

Smart Phone Sales statistics
smart phone sales statistics

Frbiz.com reports Home appliance policy stimulation sales recycling service dragged back

Their power to old change since the implementation of the new policy, gradually to pull effect. Last week, the ministry of commerce has announced new MDX home appliance with the latest statistics data management system, ending nov. 16, including Beijing, Shanghai, guangdong, nine provinces of pilot five kinds of old appliances 239, five new appliances sales, sales of 80.21 203 million billion yuan. “New MDX to contribute at least five kinds of home appliance product the 30% of sales. Guangzhou gome manager in accepting our correspondent high cluster interview emphasizes saying.

With the new MDX appliances sales sharply form contrast, many consumer also reflects the recycling enterprises in recycling discarded appliances efficient slant generally slow, restrict the home appliance with old change new growth prospects.

Annual sales approximation million

In the latest home appliance with new MDX statistics, nine provinces of pilot five kinds of old appliances, TV 168.7 23.9 million sets, refrigerators, washing machines 30.9 21.7 million units, air conditioning units, computer 14.3 3.4 million, And five new appliances sales of television sets, 93.8 203 324 million sets, refrigerators, washing machines, air conditioning 24.1 31.8 million, computer 20.9 million.

“Obviously, during the National Day of this year in the refrigerator, our product year-on-year growth rate in the 30% above.” Hisense kelon guangzhou branch officials told reporters, due to stab at home appliance new MDX policy, even if not in the fridge, freezer peak sales sales of products still presents the obvious rising trend.

Reporter noticed, and the ministry announced last month new MDX home appliance with different data in the past one month, home appliance with new MDX annual sales growth has already close to 100 million,. Public figures showed that in a month before nine provinces, the pilot five kinds of recycling old appliances 138 million for the new home appliance, sales, sales for the 40.49 million RMB 10.23 billion yuan. Single means of guangdong, as of October 28th, guangdong recycling old appliances 10.8 million, sales, sales of new appliance 7.6 million 3 million yuan, and the new appliances sales where 474% year-on-year growth and 764%, 805% sales growth. Guangzhou gome all WangYongHong manager revealed, in home appliance with old change new policies, nearly two, three months, guangzhou gome store electrical appliances product sales growth under, and at last week, only the recovery of guangzhou gome appliances with old change new product has more than 80,000, TV is big.

Recycling service to improve

Obviously, home appliance with old change new policies for each big bid appliances manufacturers selling, is undoubtedly a positive. The benefit from home appliance with new MDX stimulating sales, guangzhou, foshan and zhongshan, dongguan city, even the home appliance sells supply varieties of tension. Yet some of the electrical appliances sale, participate in bidding for recycling enterprises also pressed for time, demands for the second batch of bidding and participate in the bid-winning enterprises become.

However, in the home appliance with old change quickly spread of new policies at the same time, each are big the sales and recycling enterprises in the concrete implementation process also appeared a lot of problems. Reporter in the home appliance with old change new website to see the complaint center, since the mid August, official since the start of the complaint center, so far, has received the complaint to 400, including recycling link has become one of the most concern of the consumers.

“Well, not to collect the recycling, delay time, call my day, service attitude is poor phone”, “a month, how old machine is not recycling” in the complaint center on the boards, many consumers for electrical appliances with old change new old home appliance recycling rate constant questioning.

This, analysts say, the enterprise and the dismantling of recovery, a number of enterprises and often only a pilot enterprise, and the dismantling of the quantity, recycling enterprises than this, causing dissembling enterprise to keep up with the recycling of waste recycling appliance enterprise. In addition, some consumer appliances reflects too low price. Industry insiders point, with the home appliance with new MDX policy execution process forward, how will service, will do in this round about appliance manufacturers in the final share allocation. The cake,

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The Daily Geek #80 – December 4th, 2008

Smart Phone Growth

smart phone growth
What do you dream will happen with technology in 5 years?

If you think about it, five years isn’t really that long. And if you compare it with technology, during that time, major technological growth has already happened. What do you predict will be the future of computer and technology.

I’m thinking 20 GB of RAM, Super End Graphics card, 5 TB hard drives for $100, smaller and more compact SD cards, phones running internet and technology, touch screen high definition TV’s. Movable motion consoles like the xbox 360 project natal, full screen and surround motion pictures and surround sound FPS games, smart phones that can detect a signal from anywhere in the world. Free wireless internet anywhere, faster cpu, 100 in TVs.

HAL2000 may no longer be a sci-fi character.

EFT BioTech Holdings and Digital Development Partners Have Completed Preliminary Beta Testing of the New EFT- Smart …
CITY OF INDUSTRY, Calif.—-EFT BioTech Holdings, Inc. , a US based international holding company, and its majority owned subsidiary, Digital Development Partners, Inc. , have completed the preliminary testing in Asia for the new EFT-Smart Phone.

Smart Phone Sales

smart phone sales
Will the Samsung A737 for sale ever to be GoPhone?

In only one pre-paid mobile phone to receive / pay as you go. And it seems every week Samsung A737 gets put on a show of pre-paid section, but then it is deducted. Can someone please predict smart here?

I bought it as a prepaid cell phone. so it should be there. sometimes they run out of stock.

Smart Phone Revolution – New Consumers

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