Posts Tagged ‘Battery’

Stitchway UltraPower 1900 mAh Backup Battery Charger for iPhone 4,4G, 3GS, 3G ,iPod, iTouch-EXTERNAL, PORTABLE, RECHARGEABLE

• *ONE YEAR WARRANTY*
• 1900mAH-largest power iphone battery in a compact size on market today
• Recharge from DEAD to fULL in less than 2 hours-COLOR BLACK
• Rechargeable at least 400 times. Special Circuitry to protect from overcharging
• Weighs only 2 oz-WIRELESS; PLUG DIRECTLY TO PHONE

Product Description
WORKS FOR iPHONE 4 and 4G. Also iPhone 3GS, 3G, 2G, iTOUCH, iPod. If your apple device depletes its battery early in the day then this is a “must have” accessory for you. You plug the handy, light weight (LESS THAN 2 OUNCES), portable STITCHWAY iPHONE BATTERY BOOSTER into the input port of the phone and you get a rapid total recharge. WIRE FREE. The charger attaches directly to the phone. . It will more than double the treatment time of the phone. Or you can simply glue the charger and, if not used, will fully recharge your depleted phone in about 2 hours. 1900 mAh, THE LARGEST CAPACITY COMPACT BACKUP POWER FOR iPHONES on the market (nearly twice the charging power of a 1000 mAh unit). NOTE: mAh is how batteries are rated for capacity power. The privileged the mAh rating, the more powerful the batteries. Charge battery with same power cables that came with your iPhone. WORKS WITH 3G S, 3G, 2G iPHONES; iTOUCH; ALL iPOD NANOS & CLASSIC

Buy Low-cost Stitchway UltraPower 1900 mAh Backup Battery Charger for iPhone 4,4G, 3GS, 3G ,iPod, iTouch-EXTERNAL, PORTABLE, RECHARGEABLE

8800mAh Portable Battery Charger Say No “Low voltage To shutdown!”

Last week?my best friend Job Steven questioned me a question which have being troubled him all the time.How can I make my laptops battery last longer without the charger?i turn down the volum and the bright,but the time it lasts is also too small?Why?How can i do it…

I suddenly awared this commonplace problem that i can’t consider in my life,but i also come to this phenomenon.it seems like my laptop’s battery is so terrible,so look up the answers on the internet,what beyond my imagination is more and more pepole are come crosswise this problem.

Here are the tips.Disable WiFi and place it into 16 bit colour mode. If you are not using the Internet disconnect. If you are not connected with the internet you should also disable your anti-virus. Hibernate whenever you can so that you don’t lose too much power when booting up. Try to search/find as less as possible. Kill things that you don’t need in task manager. For the long run, open up msconfig by typing msconfig.exe into run and disable unnecessary things that start on boot up. Also disable bluetooth. That’s all I can reckon of right now.

But besides these,while you were on business trips, long distance rides, and other places where you are often without a power source.but your laptop’s battery is lack of power.so the contradiction is produceing!
though the time of our laptop’s battery we can’t change,but we could get one or two gadgets on our hand,You can be simple to take it with you, as your the perfect emergency power source.

More friend on the net give me more pefect advices.some of them recommand me to buy a new laptop,some advice me buy a backup laptop battery,some suggest to buy a portable battery charger for laptops.

For the first advice,to buy a new laptop for us whom as a laptop owner is so luxury.more or less the price of a laptop is so pricey!for the second,the laptop battery on my hand is so hard to rechargeble,it’s so crazy to recharge on my laptop.except this two tips,so we adopt the last.to buy a portable battery charger for laptops.

As usual,we search it on google.But only one result we come to at the last!

8800mAh Portable Battery Charger – The newest emergency power supply for your laptop and USB devices comes in a highly durable and pocket-sized white case that you can take with you anywhere.

This Portable Battery Charger comes with 8 laptop adapter tips that support today’s most ordinary laptop brand names. Combined with the powerful 8800mAh battery, you’ll get many more hours of extended treatment from your laptop or netbook and more than enough time to complete that report or end watching that movie. Also included is a USB OUT port for instant plug-and-charging of any digital USB devices, like your mobile phones, eBook booklover, MID, iPod, iPhone, MP3/MP4 player, and many others.

At a Glance…

    * Portable 8800mAh Battery
    * 8 connectors that work with most laptop brands
    * USB port, charges most USB powered devices
    * Highly durable, built strong with high grade components
    * Over-charge, over-discharge, over-loading, and small circuit protection safety features

Manufacturer Specifications

    * Primary Function: Portable Battery Charger for Laptops and USB Devices
    * Output Power: 8,800 mAh
    * Laptop Adapters: 6 (Works with Acer, ASUS, Samsung, NEC, IBM, HP, Dell, Toshiba, Lenovo, Fujitsu, Sony)
    * USB Charging: Yes
    * Safety Features:
      Over-load protection
      Small circuit protection
      Over-charge protection
      Over-discharge protection
    * Input Voltage AC: 100-240V, 50-60Hz
    * Input Voltage DC: 12-18V
    * Output Voltage:
      – DC 13-16.8V
      – DC5V (USB Port)
    * Battery type: Rechargeable Li-ION (17,600mAh)
    * Visual battery indicator: 25%, 50%, 75%, 100%
    * Dimensions: 95mm x 82mm x 23mm
    * Certification: CE, FCC, RoHS
    * Manufacturer Ref: F4I8EQB8ISYN

 

Product Notes

    * Fantastic charger for emergencies or when outdoors
    * High performance: 5-6 times more power than the average cell phone battery
    * USB charging works with a variety of mobile phones, MP3 players, MP4 players, MID’s, eBook readers, and many other electronic devices
    * Compact form factor will fit easily in your bag, briefcase, purse, even in your pocket
    * Strong, durable design
    * It’s over 8000… mAh!
    * 6 adapter tips for laptops, notebooks, netbooks

Package Contents

    * Portable Battery Charger
    * 6 Laptop Connectors
    * Attachment Extender
    * Power Adapter
    * AC/DC Adapter
    * Free Travel Adapter (for UK, AU, NA, SA customers)

This is a small and portable frame of the Portable Battery Charger. You can be simple to take it with you, as your the perfect emergency power source. It is also the ideal tech doohickey for business trips, long distance rides, and other places where you are often without a power source. Certainly there are the available test button and LED indicators that can show the current battery power at left, which can remind you to recharge!Combined with the powerful 8800mAh battery, you can get more hours of extended treatment for your laptop or netbook. It is also included a USB output port for instant plug-and-charging of any digital USB devices, such as your mobile phones, MP3/MP4 player, eBook booklover, MID, iPod, iPhone, and so on ! They are the Universal USB Chargers ! If you don’t know about the Universal USB Chargers, please contact with us !

 

The Parameter in this articl refers to http://www.epathchina.com/8800mah-capacity-portable-battery-charger-for-laptops-usb-devices-p-5602.html

To help you understand the laptop battery

With the notebook computer prices fall, presumably many of my friends have been keen for a notebook. We went shopping for notebooks, it is often to focus only on product price, weight, appearance and configuration, used by small to take care of notebook batteries.

In fact, the go tool for the notebook, the overall performance level of and inseparable from the merits of the battery, the battery is also no way inferior to the importance of CPU, motherboard, hard disk drives. The rest is with you to learn about laptop batteries, may be able to buy your notebook computer to make recommendations.

Let’s start talking about the Dell 312-0273 battery materials, batteries currently used in notebook computers are three main categories: 1. Nickel-chromium batteries, 2. Ni-MH battery, 3. Lithium battery; they are generally articulated as: Ni-Cd Ni-Cd, Ni-MH Ni-MH, lithium Li.

In this regard the distinction between three types of batteries, I told a friend of notebooks sold had questioned, he had also done phone sales, to a fantastic degree hear how he said. “Laptop battery commonly used in our life there are many similarities between cell phone batteries, laptop and cell phones are the first use of Ni-Cd nickel-cadmium batteries, as battery technology was not advanced enough, so nickel-cadmium batteries have a lot of headaches disadvantages, such as: bulky, heavy weight, capacity, small, small life, there is memory effect, etc. (useless). the current nickel-cadmium batteries have been eliminated, notebooks, and nickel-cadmium must also, and mention it there is not much needed.

There are now battery-Li Lithium-Ion battery and Ni-MH Ni-MH two kinds, in which lithium has a small size, light weight, large capacity, low memory effect, charging time is small, etc., well received by customers like. ” “I also like the lithium electricity, because it does not remember, when you do not have the first charge-discharge and convenient! The Earth broadcast know that” On! “Broadcast reckon that there is no battery memory effect is incorrect, this is misleading and irresponsible businesses.

Lithium batteries have the same memory effect, but its relatively low memory effect, but less obvious Bale. In addition, lithium batteries two types, one is a lithium battery, another is a lithium-ion batteries. ” “What is the difference, how different?” “Lithium-Ion battery will have a long time ago, and it is not safe when used often in charge when burning, bursting, perhaps because of the sake of lithium element too active. Then there is an improved lithium-ion batteries, added element lithium can inhibit the active ingredients, so that lithium really a safe, well-methodical, convenient, while the older Lithium-Ion battery also will be eliminated. As to how to distinguish them from the battery’s mark will be able to identify, lithium as Li, lithium-ion battery for Li-ion.

Now, laptops and cell phones using the so-called lithium, in fact, lithium-ion battery. ” “It’s nickel-metal hydride batteries do?” “Ni-MH battery is the most environmentally friendly battery, pay attention to environmental protection, countries have been vigorously promoting the use of nickel-metal hydride batteries, because the ease of recycling, and the hurt to the background are minimal. But, nickel-metal hydride batteries and lithium compared, there are still some shortcomings . charging for a long time in weight than the sink capacity is also smaller than the lithium, as well as memory effect. Its Although these memories are not as huge as nickel-cadmium batteries, but still need to discharge, the user must be exhausted before charging. laptop case, mobile phones are also the same. ” Later, I also learned that lithium-ion battery (Li-ion more hard to talk about, or called) also has shortcomings, such as charge and discharge times of high prices and less and so on. Lithium battery charging and discharging of the number of only 400-600 times, specially modified products, but many times 800. Charge once per day basis, the best lithium batteries, but more than two years of the Xiecai. And nickel-metal hydride rechargeable batteries for more than 700 times to achieve particular quality and a excellent product charge and discharge up to 1,200 times, so that a comparison, the nickel-metal hydride battery live longer than the lithium batteries and nickel-metal hydride batteries than the price of lithium batteries much lower.

View of this, there is no perfect laptop batteries. Know the laptop battery materials, let us know their origin. Laptop battery origin is mainly Japan, South Korea, China and Taiwan Province of China, especially in Japan, mostly because the battery used in laptop batteries nearly by Japanese manufacturers, such as: Toshiba, Panasonic, Sanyo, NEC and so on. While many brands laptop battery shapes, but the batteries used in these Japanese brands, manufacturing batteries for Japan’s electronics companies have brought quite excellent gains. South Korea, China and Taiwan Province of China make more use of the main processing and production of batteries are also the core of Japan. Weight, shape and capacity The vast majority of laptop batteries to square, the market also has a small number of ultra-thin notebook using cylindrical batteries, such as the SONY 505 series, Toshiba PROTEGE series (I have not seen a triangle). The weight of the battery varies according to the material and models, to Toshiba 1750, for example, it is equipped with nickel-metal hydride batteries, the weight of more than 500 grams, I’ll mention it hurt. I have seen in the market like a machine with the Toshiba 1750 is the same OEM manufacturer, the batteries are also ordinary. But others are using a lithium battery, weighs less than 250 grams, so that I envy.

Mobile phone battery then compared the results of the same. So, I came to a end, the same size and shape of the nickel-metal hydride and lithium electricity, double the weight difference. Volume size, mainly from the marked mAh battery to determine its Chinese name is mAh. Milliampere-hour size is directly correlated to the use of laptop time, I have seen the lowest laptop battery 3100mAh, the highest 4500mAh. According to ordinary sense says, 4500mAh battery life much longer than the 3100mAh, but it can not be generalized.

Battery life notebook configurations with a fantastic relationship, for example Well, the Dell 312-038 battery with a PIII-M, MOBILITY RADEON graphics cards and many other energy-saving technologies in hardware, with the 4000mAh battery, use of time up to 4 hours above. Using the Toshiba 1800 desktop CPU, although equipped with a 4500mAh battery, use of time can only reach 3 hours. This also indicates that the notebook battery mAh not only correlated to hardware, energy-saving technology is very vital to choose the time needed to multi-reference notebook. How the price of laptop battery? Mentioned the importance of notebook batteries, notebook battery level of the overall performance of the pros and cons are inseparable, the importance of the battery is also no way inferior to CPU, motherboard, hard disk drives. In view of the fact that the laptop battery is so vital, the price naturally a lot of money.

As far as I know it, the price of laptop batteries in the ? 1000 – ? 3000, accounting for the overall notebook price 10% – 15%, some ultra-thin models is even privileged. In 1750, for example Toshiba: Toshiba 1750 is priced at ? 9988, while it uses nickel-metal hydride batteries should ? 1400. From this we can see, cost of the batteries has become an vital factor constraining notebook price cuts. Compared with mobile phone, the laptop battery for less than the total price is too high, the price of mobile phone battery is generally the total price of more than 30%, to ? 1000 mobile phone, for example, the price of first equipment batteries around ? 300 also be regarded as a large child. Here, hot pepper recommend you must handle the battery, whether it is laptop or cell phone. If this is because you used improperly, causing the battery OVER, regretted may be too late.

The manufacturer of the battery what kind of warranty? As we all know that the manufacturer’s warranty on the notebook computer time is generally 1 year – 3 years. The time to delight in the longest warranty in fact, only CPU, motherboard, memory, hard disk handbook; fragile parts, such as: optical handbook, LCD, bombard, etc. can only delight in one-year warranty; As for the battery Well, there is Paul 3 months , there is insurance for half a year, the longest, but also a year; there is simply not the battery out of the warranty, if the notebook to buy back home the next day the battery dies, you can only Zirendaomei. As market struggle intensifies, the battery is not in the scope of the warranty is now rare.

But, the pepper, or want to remind everyone to buy notebooks, make sure question about the battery warranty period and conditions, be precise not much mistaken. Why is the battery warranty time so small? I have also questioned this question a number of laptop dealers and manufacturers, and their answer is: laptop batteries are easily smashed goods, the frequency of recharging is a constant, with a small time, with Dehen a touch less than half a year reimbursed . Moreover, the notebook battery and other hardware different, there is no room can be repaired, only new ones, and the so-called warranty is really a replacement. Products for such a long period of warranty (replacement), intangibles on the increased burden on manufacturers, as profit-makers for the purpose, who is not willing to Tam such a huge risk.

It appears that right laptop battery 1 year manufacturer warranty is much mercy of the user. Genuine laptop battery warranty is the case, parallel imports can imagine and more. Merchants sell parallel imported goods have everlastingly avoided mentioning the warranty on the Dell 312-039 battery, users are seldom questioned. Once a user referred to this sensitive issue, vendors are everlastingly batteries are generally not the problem, terrible Baohuan so perfunctory.

I really can not reckon, have lost the regular support of parallel parts manufacturers, rely on the battery warranty? Is it then used to deceive users of copy products.

Super High Capacity Universal External Battery Pack

EXTERNAL BATTERY

We supply high quality batteries at lower prices, such as 133Watt Li-ion Universal External Laptop Battery, Universal External Digital Camera and Camcorder Battery, 39Wh Universal Portable DVD Player External Battery, Best 80 Watt External Laptop Battery, Runtime Up to 7hrs, Universal External battery Pack, Universal External Battery for Digital Camera, Mobile Phone, PDA, MP3, Game Player and Laptop, 60Watt Notebook External Battery for Most Models with Input Rating of 60 Watts, Best Universal External Battery for Most 60 Watt Laptops (Runtime Up to 5hrs), Laptops Universal External battery, 9V 1000mAh External Battery & Leather Case for iPod Mini, 9V 1000mAh External Battery & Leather Case for iPod 3rd, 4th Generation & Photo, 9V 1000mAh External Battery & Leather Case for iPod nano, 9V 1000mAh External Battery&Luxury Leather Case for Apple Mini,3rd,4th Generation&Photo,Nano Series

To learn and find Universal External Laptop Battery

Super high capacity, long run time, external universal battery pack for laptop notebook computers and other devices. Made with high quality Panasonic Li-ion battery cells.

It has up to 2~3 times battery run time (153 Watt-Hour, compared to 40~60 Watt-Hour for most notebook computer internal batteries.) Its universal platform works for most laptop notebook computers on the marketplace. One battery for many different notebook computers. Its compact size can easily fit into a laptop/notebook carry bag.

Technical Specifications Model: BP150 (EL1901) Capacity: 153 Watt-Hour* Battery Cell: Panasonic Colors: Dark Blue Chemistry: Li-ion Input Charging Voltage: DC 12 – 19V Output Voltage: 16/19V + 5V USB Port Operation Current: Max. 4.75A Charging time: 4-6 hours Size: 270.00 x 145.00 x 32.55mm Weight: 1340g Power Indicator: 4 level LED indicator Built-in Protection Circuit: – Over-charge
- Over-discharge
- Over current
– Over temperature
– Small circuit protection Included in Ordinary Package: – Battery x 1 pc
- AC Charging Adapter x 1 pc
- Adapter Power Cord x 1 pc
- DC Car Charging Adapter x 1pc
- Power Cable x 1 pc
– Plug Tips x 12 or more

Note:* When power a product with this battery, the battery running time will vary depending on the product configuration, product model, applications loaded on the product, power management setting of the product, and the product features used by the customer, As with all batteries, the maximum capacity of this battery will decrease with time and treatment.

Battery Capacity Rating: 153 Watt-hour (Wh) capacity means the battery can theoretically last 153 hours if the device it powered only needs 1 Watt power. A typical 6-cell internal notebook battery?? capacity is about 49 Watt-hour. A typical 12-cell internal notebook battery?? capacity is about 98 Watt-hour. There are many different ways to rate a battery capacity on market. A lithium-ion battery cell capacity is usually measured in Ampere-hour (Ah). In view of the fact that an external battery uses many battery cells, some cells are connected in parallel, some are connected in series, using Watt-hour will be more accurate to rate its capacity. If using Ampere-hour to rate its capacity, it should state the Ampere-hour is under what voltage. For example, 9000 mAh at 16V means 9000 mAh x 15V = 135 Wh. If you find a battery that claims its capacity is 20000 mAh (20Ah) without stating at what voltage, most likely it is at 3.6V or 3.7V (3.6V or 3.7V is a lithium-ion battery cell voltage). In this case, the battery capacity will be 20 Ah x 3.7V =74 Watt-hour.

There is a 5V USB port on the battery behind USB port take in. You can use this 5V USB Port to charge cellular phone, MP3 player or other small electronics that can be charged from a 5V USB port. But, the battery pack does not come with any cable and connector tips for this USB port. Our optional Z4 cable and connector tips will work with this 5V USB port.

Battery Pack:

Comparisons of External Battery and Internal Battery

BP150 External Battery

Traditional Internal Battery

How to Charge battery Has its own charger , battery can be charged anytime without the laptop/notebook computer. Very convenient Must place battery into laptop/notebook computer or use pricey proprietary charger to charge battery How to use battery Plug to the laptop/notebook computer’s  DC  power input plug, plug and play. Insert the battery into the laptop/notebook computer’s battery bay. Compatibility Can be used for 90% of laptop/notebook computers on the market. When you upgrade  your laptop/notebook computer, you may still be able to use the battery for new laptop/notebook computer. Every internal battery is proprietary. Different laptop/notebook computer needs different battery. Other treatment Can provide 16V and 19V DC power for other electronic devices also. can only be used for designed laptop/notebook computers.

How to use this battery:

1. Charge the battery: This battery has its own battery charger, you can charge it from any 110V or 220V AC power source with the included AC Charger. You can also charge the battery from a car cigarette lighter with the included Car Charger

2. Set right output voltage:

After the battery has been fully charged, set the voltage output of the battery close to your notebook DC power input requirement (which is same as your notebook AC power adapter’s DC output voltage).

This battery has a switch to set the voltage output at 16V or 19V. 16V is well-matched with 15V~16.5V, 19V is well-matched with 18V~21V.

If your notebook DC input requirement is 15~16.5V, set the battery voltage output at 16V. If your notebook DC power input requirement is 18V ~ 21V, set the battery voltage output at 19V.

2. Select right tip:

Included with your battery is a output cable with  more than 14 different connector plug tips.

The output cable (Z6 Power Cable) one end connect to the battery output port, another end has a 5,5mm/2.5mm connector which will fit a lot laptop notebook computers and other devices.

If the Z6 cable connector does not fit your laptop notebook computers, you can use one of  following connector plgu tips  that work with most  laptop notebook computers.  With the plug tips not connected to Z6 output  cord, locate the right tip by fitting the tip into your laptop notebook computer or other device DC Jack. The tip should fit snugly in the DC jack. The plug the tip to the Z6 output power cable.

Plug Tips Come with the Battery:
(Click on each tip persona to see details for this tip)
Z6 Power Cable
C1
C2
C3
C5
C6
C7
C8
C12
C13
C14
C15
C18
C19
C21
C23
C24
* We may discontinue some ancient tips and add some new tips according to market demands without notice. Real connector tips come with the battery may not be exactly same as the pictures show.

4. Check the polarity:

If you want to use this battery for other devices instead of laptop notebook computers, it is CRITICAL to make sure the polarity of your device matches with this battery output polarity before using this battery. FAILURE TO DO SO MAY RESULT IN SEVERE DAMAGE TO YOUR DEVICE!

To determine the right polarity for your device, inspect the DC adapter jack or the mark of your device thoroughly for information about the device polarity. There will be a symbol with a plus sign on one side and a minus sign on the other with a circle between them. The circle will have an opening so that it looks like a “C”. If the opening of the circle is on the side with the plus sign the polarity is positive. If the opening is on the side with minus sign the polarity is negative. If you cannot find a polarity sign on your device you need to call the device’s manufacturer to find out what the polarity is.

This battery output cable and connectors are configured as positive polarity, which meet the needs of most of laptop computers and devices.

5.  Plug the connector and output cord

After select right connector, plug it on the Z6 output cord, then plug output cord to the battery output port:

Just that simple, now you are ready to use it !

Note: If your notebook?? internal battery is in excellent condition and has been fully charged, you can leave it in your notebook. Otherwise, we recommend you removing the internal battery from it. The external battery will still work fine with the non-charged internal battery in the notebook, but it may not reach the maximum running time

How long can this external battery run ?

This battery’s capacity is 153Wh(Watt-hour).You can compare this capacity with your internal battery capacity to figure out how long this battery can run your notebook. For example, if you have a 9-cell internal battery with output like this: 11.1V & 6600 mAh, then, your internal battery capacity is: 11.1V x 6600 mAh = 73 Wh (Watt-hour). In this case, if your internal notebook battery runs 3-4 hours, then this external battery pack can run about 6- 8 hours, together, they can run 9 ~ 12 hours. Real running time varies, depending on the notebook computer’s configurations and applications (Ex: screen brightness, the use of the CPU, the hard handbook, the CD handbook, etc.). The total run-time of the battery is also heavily dependent upon the design of the notebook. To ensure maximum performance of the battery, optimize the computer’s power management features. Refer to the computer manual for further instructions.

Notebook Computer compatibility:
: Acer, Asus, Compaq, Dell, Fujitsu,IBM, SONY, TOSHIBA & More… As well as devices which required a 15~21V Power supply equipment.

Here is the part of compatibility list:
Acer Aspire Series: Acer Aspire 1200 Series, Aspire 1200X, Aspire 1200XV, Aspire 1202, Aspire 1202X, Aspire 1203X, Aspire 1203XC, Aspire 1203XV Acer Aspire 1300, Aspire 1350, Aspire 1450, Aspire 1360 Aspire 1360 Series Acer Aspire 1410 Aspire 1410 Series Acer Aspire 1520 Series, Acer Aspire 1640 Series Aspire 1640, Aspire 1640Z Aspire 1650 Series Aspire 1650Z Aspire 1660 Series, Aspire 1670 Series, Aspire 1680 Aspire 1680 Series Aspire 1690 Series Aspire 1690, Aspire 1690-II Acer Aspire 2000 Series Aspire 2010 Series Aspire 2010, Aspire 2012WLCi Aspire 2020 Aspire 2020 Series Acer Aspire 2420, Aspire 2920, Acer Aspire 3000 Series, Aspire 3010 Series, Aspire 3020 Series, Aspire 3030 Series, Aspire 3050 Series, Aspire 3100 Series, Acer Aspire 3500 Series, Aspire 3600 Series, Aspire 3610 Series, Aspire 3620 Series, Aspire 3628AWXCi Acer Aspire 4220, Aspire 4310, Aspire 4315, Aspire 4320, Aspire 4520, Aspire 4710, Aspire 4710Z, Aspire 4720, Aspire 4920, Aspire 4920G, Acer Aspire 5000 Series, Aspire 5010 Series, Aspire 5020 Series, Aspire 5030 Series, Aspire 5050 Series, Aspire 5100 Series Acer Aspire 5310, Aspire 5315, Acer Aspire 5500 Series, Aspire 5500Z, Aspire 5520, Aspire 5570Z, Aspire 5690, Aspire 5570 Series, Aspire 5580 Series, Acer Aspire 5610 Series, Aspire 5630 Series, Aspire 5670 Series, Aspire 5672, Aspire 5680 Series Acer Aspire 5710, Aspire 5710Z, Aspire 5715Z, Aspire 5720, Acer Aspire 5920, Aspire 5920G, Acer Aspire 7100 Series, Aspire 7520, Aspire 7720 Acer Aspire 9100 Series, Aspire 9300 Series, Aspire 9400 Series, Aspire 9410 Series, Aspire 9412WSMi, Aspire 9500 Series, Aspire 9800 Series, Aspire 9810 Series, Aspire 9815WKMi, Aspire 9920G,

Acer Extensa Series: Acer Extensa 2000 Series, Extensa 2001LC, Extensa 2001LM Extensa 355, Extensa 390 Series Extensa 391, Extensa 391C, Extensa 391T, Extensa 392, Extensa 392C, Extensa 392T, Extensa 393, Extensa 393C, Extensa 393T, Extensa 394, Extensa 394T, Extensa 395, Extensa 500 Series Extensa 515, Extensa 600 Series Extensa 610, Extensa 616, Extensa 620, Extensa 690 Extensa 700 Series Extensa 900,

Acer Ferrari Series: Acer Ferrari 1000 Series, Ferrari 3000 Series, Ferrari 3200 Series, Ferrari 3400 Series, Ferrari 4000 Series, Ferrari 5000 Series

Acer TraceMate Series: Acer TravelMate 200 Series, TravelMate 210 Acer TravelMate 230,TravelMate 280, Acer TravelMate 290 Series, TravelMate 290ATI, TravelMate 290E, TravelMate 292LMi Acer TravelMate 340 Series, TravelMate 340T, TravelMate 341TV, TravelMate 342T, TravelMate 343TV Acer TravelMate 360 Series, TravelMate 365 Acer TravelMate 505 Series, TravelMate 506 Series, TravelMate 507 Series, TravelMate 508 Series, TravelMate 510, TravelMate 512DX, TravelMate 512T TravelMate 514TVX, TravelMate 520, TravelMate 520iT, TravelMate 521, TravelMate 521TE, TravelMate 521TEV, TravelMate 521TXV, TravelMate 524, TravelMate 524TE, TravelMate 524TXV, TravelMate 525, TravelMate 525TX, TravelMate 525TXV, TravelMate 527, TravelMate 527TXV, TravelMate 529, TravelMate 529ATXV, TravelMate 529TXV Acer TravelMate 660 Series TravelMate 662LVi Acer TravelMate 2100 Series, TravelMate 2200 Series, TravelMate 2300 Series, TravelMate 2301, TravelMate 2302, TravelMate 2303, TravelMate 2310 Series, TravelMate 2350 Series, TravelMate 2352, TravelMate 2353 Acer TravelMate 2400 Series, TravelMate 2410 Series, TravelMate 2420 Series, TravelMate 2430 Series, TravelMate 2440 Series, TravelMate 2450 Series, TravelMate 2480 Series Acer TravelMate 2600 Series, TravelMate 2700 Series Acer TravelMate 3000 Series, TravelMate 3010 Series, TravelMate 3200 Series, TravelMate 3220 Series, TravelMate 32603260 Series, TravelMate 3270 Series, TravelMate 3273WXMi Acer TravelMate 3500, Acer TravelMate 4000 Series, TravelMate 4000M, TravelMate 4001, TravelMate 4001LMi, TravelMate 4002 TravelMate 4050 Series, TravelMate 4051, TravelMate 4052, TravelMate 4053, TravelMate 4060 Series, TravelMate 4070 Series, Acer TravelMate 4100 Series, TravelMate 4100-II Acer TravelMate 4200 Series TravelMate 4200, TravelMate 4200WLMi, TravelMate 4202, TravelMate 4202WLMi, TravelMate 4220 Series, TravelMate 4230 Series, Acer TravelMate 4310, TravelMate 4320, Acer TravelMate 4500 Series, TravelMate 4520, , Acer TravelMate 4600 Series, TravelMate 4600-II, TravelMate 4650 Series, TravelMate 4670 Series, TravelMate 4720 Acer TravelMate 5100 Series, TravelMate 5210, TravelMate 5220, TravelMate 5310, TravelMate 5320, TravelMate 5400M, TravelMate 5510, TravelMate 5520, TravelMate 5600 TravelMate 5600 Series TravelMate 5672WLMi, TravelMate 5710, TravelMate 5720, Acer TravelMate 6231, TravelMate 6291, TravelMate 6292, TravelMate 6492, TravelMate 6592,TravelMate 6410 Series, TravelMate 6460 Series, Acer TravelMate 7320, TravelMate 7520, TravelMate 7720, Acer TravelMate 8100 Series, TravelMate 8100A, TravelMate 8200 Series, TravelMate 8204, TravelMate 8210 Series Acer TravelMate Tablets C100 Series, TravelMate C110 Series, TravelMate Tablets C200 Series, TravelMate C204TMi, TravelMate Tablets C300 Series, TravelMate C300XCi, TravelMate Tablets C310

AMI FT6T20, TF6760

ASUS Laptops: Asus A Series, Asus A2 Series, A2C, A2Lp, A2000H, A2000L, Asus A3 Series, A3Ac, A3E, A3H, A3Vp, Asus A6 Series, Asus A6, A6JA, A6JC, A6Jm, A6K,A6KM, A6KT, A6M, A6R, A6T, A6Ta, A6Tc, A6U, A6V, A6VA, A6Vc, A6VM Asus A7 Series, Asus A7C, A7F, A7G, A7J, A7JC, A7M, A7S, A7Tc Asus A8 Series, A8F, A8Jp, A8Jr, A8Js, A8M, A8Jm, A8Sc Asus F Series, Asus F2J, F2Je, F3 Series, F3Ja, F3Jc, F3Jm, F3Jp, F3Jr,F5R, F9F, F9J, Asus F7000, Asus G Series, Asus G1, G1S, G2, G2S Asus Grandio F7400, Asus L Series, L3 Series, L3000C, L3000H, L 5 Series, L5000GM, L7000, L7000C, L7200, L7300, L8400 Asus M Series, M2 Series, M2N, M2000, M2000N, M3 Series, M3000, M3000N, M5 Series, M5A, M5N, M5000, M5000NP, M6 Series, M6N, M6V, M6VA, M6000N, M6B00N, M6700N, Asus R1E, Asus S1 Series, S1N, S1000N, Asus S5 Series, S5N, S5Ne, Asus S5200N, Asus S6F, Asus U Series, Asus U1F, U5A, U5F, U6E Asus V Series, Asus V1J, V1Jp, V2Je, V6J, V6V, V6VA, V6Va, VX2 Asus V6 Series Asus W Series, Asus W1, W1Jc, W1V, W2J, W2Pc, W2V, W3J, W3N, W3V, W3000, W5A, W5Ae, W5F, W5V, W6A, W7J Asus X51R, Asus Z Series, Asus Z3A, Z33A, Z35L, Z61A, Z63A, Z70A, Z71A, Z71V, Z83V, Z9 Series, Z9000, Z91E, Z93E

AVERATEC: Averatec 3000, Averatec 3120, Averatec 3120V, Averatec 3150 Series, Averatec 3150H, 3150Hd, 3150Hs, 3150P, Averatec 3150HW Averatec 5110 Series, Averatec 5110H, 5110Hx, 5110P Averatec 6200 Series, Averatec 6240, Averatec AV6200H60, Averatec AV6240

Compal Compal ACY13, Compal APL10, Compal APL11, Compal BCL32, Compal BCQ12, Compal CL32, Compal CQ12, Compal CY13, Compal PL10, Compal PL11, Compal TS30H

Compaq Compaq Armada 100, 110S, 600, 1120, 1120T, 1125, 1130, 1130T, 1135,3000, E500, M300, M700, V300 Series Compaq Evo 3100, 5100, 5500, M5500, N110, N115, N150, N160, N200, N400, N600, N610, N620,N800, N1000, N1050, Series, Compaq Evo tablet TC1000, TC1100 Compaq Presario 700, 800, 900, 1000, 1200, 12XL, 1400, 1500, 1510, 1520, 1530, 1540, 1600, 1700, 17XL, 1800, 1800T, 18XL, Compaq Presario 2100, 2200, 2500, 2700, 2800, 3000 Series Compaq Presario A900, B1000, B1800, B2000, B2800, Compaq Presario C300, C500, C700, Compaq Presario CQ20,CQ40, CQ45, CQ50, CQ55, CQ60 Compaq Presario F500, F700 Series Compaq Presario M2000, M2100, M2200, M2300, M2400, M2500 Series Compaq Presario R3000 Series Compaq Presario V1000, V2000, V3000, V4000, V5000, V6000 Series Compaq Presario X1000, X1100, X1200, X1300, X1400 Compaq Prosignia 160, 170, 190 Series

* This battery does NOT work for Compaq Presario R4000, Presario X6000

CompuSmart SmartLine CSL44, CSL46, CSL47, CSL58, CSL61

Dell Dell Inspiron 2500, 2600, 2650, 3700, 3800, 4000, 4100, 5000, 7500, 8000, 8100 Dell Inspiron 13, 1318, 15, 14z, 1420, 1470, 15z, 1501, 1520, 1521, 1525, 1526, 1545, 1570, 6000, E1405, E1505, 1150, 1320, 14, 1410, 1425, 1427, 1440, 17, 1720, 1721, 1750, 6400, 8500, 8600, 9200, 9300, 9400, E1705 Dell Inspiron B120, B130, 110L Dell Inspiron 300m, 500m, 505m, 600m, 630m, 640m, 700m, 710m, Dell Liberty C400 , C500 , C510 , C600 , C610 , C800 , C810 , CP , CP series , CPI , CPi 233ST , CPi 366 , CPi A366XT , CPi D233 , CPi D266XT , CPi D300 XT , CPiA ,CPiA300ST , CPiA366ST ,Dell Liberty CPiA366XT , CPiA400XT , CPiC333GT , CPiC400GT , CPiR , CPiR400GT , CPm , CPm 166ST , CPm 233ST , CPm 233XT , CPT , CPt C333GT , CPt S500GT , CPtC , CPtS , CPtV , CPtV 466GT , CPX , CPxH , CPXH 500GT , CPxJ , CPxJ 650GT , CS , CS R CSI , CSX , X200 , Xpi , XPi 133ST , XPi 75T , XPi CD , XPi P100SD , XPi P120ST , XPi P133 , XPi series Dell Liberty Series D400, D410, D420, D430, D500, D505, D510, D520, D530, D531, D600, D610, D620, D630, D631, X300, 131L, E4200, E4300, 2100, Z, D800, D810, D820, D830, XT2, E5400, E5500, E6500, E6400 DELL STUDIO 13, 14z, 15, 1555, 1435, 1440, 1450, 1457, 1535, 1536, 1537, 1555, 1557, 17, 1735, 1737, 1745, 1747 DELL STUDIO XPS 13, 1340, 16, 17 DELL VOSTRO 90, 1000, 1200, 1210, 1220, 1300, 1310, 1320, 1400, 1500, 1510, A840, A860, 1014, 1015, 1088, 1520, 1700, 1710, 1720, 2510 Dell XPS Series M1210, M1330, M140, M1530 Dell Precision Series: M20, M2300, M60, M65, M70, M2400, M4300 Dell D-Series Docking Series: Station or D/Port Replicator DELL Projector: M109s Projector

E-Machinee eMachines M2105, M5309, M5310, M5312, eMachines M6410, M6412, M6805, M6807, M6809 eMachines Action Note 800, Action Note 866, Action Note 880, Action Note 890, Action Note 895, eMachines Action Note 900, Action Note 910, eMachines eSlate 400, eSlate 450

Fujitsu: Fujitsu Amilo D Series: Amilo D5100, D5500, D6100, D6500, D6820,D7100, D7500, D8820, Biblio 4100L Fujitsu Fujitsu FMV Series, Fujitsu FMV-BIBLO Series Fujitsu Lifebook 200, 400, 500, 700 Series Fujitsu Lifebook A, B, C, E, I, L, N, P, S, T, U, V Series Fujitsu PenCentra 130, 200 Fujitsu Point 510, 1600 Fujitsu Stylistic 500, 100, 1200, 2300, 3400, 3500, 4000, LT C-500, LT-P600 Series Fujitsu Stylistic 3400

Gateway: Gateway 200 Series, 200ARC, Gateway 400 Series, 400SD4, 400VTX, 450ROG, 450ROG, 450SX4, Gateway 600 Series, 600YG2, 600YGR, Geateway Tablet PC M1200, Tablet PC M1300 Gateway 3000 Series: 3018GZ, 3040GZ, 3522GZ, 3545GZ, 3550GH, 3550GZ, 3610GZ Gateway 6000 Series: 6010GZ, 6018GH, 6018GZ, 6020GZ, 6021GH, 6021GZ, 6022GZ, 6023GP, 6510GZ,6518GZ, 6520GZ, 6525GP, 6531GZ Gateway 7110GX, 7508GX, 7510GX, 8510GH, 8510GZ, CX2615, CX2618, Retail 7000, S-7200N, S-7500N, Gateway M Series: M250, M250A, M250B, M250E, M275R, M250ES, M250G, M250GS, M275, M305, M305CRV, M405, M500, M505, M520 Gateway MX Series: MX3042, MX3044, MX3044h, MX3210, MX3215, MX3558, MX3558h, MX3560, MX3560h, MX3562, MX3563, MX3563h, MX3610, MX6025, MX6025h, MX6027, MX6027h, MX6028, MX6030, MX6124, MX6124h, MX6128, MX6135, MX6420, MX6421, MX6423, MX6424, MX6425, MX6428, MX6450, MX6625, MX6627, MX6627h, MX6629, MX6629h, MX6631, MX6650, MX6650h, MX7118MX7515, MX7515h, MX7525, MX8520, MX8523, MX8525, MX8528 Gateway NX Series: NX200S, NX200X, NX250X, NX500S, NX500X, NX550X, NX550XL Gateway Solo Series: Solo 1100, 1150, 1200, 1400, 1450, 2000, 2100, 2150, 2200, 2300, 2500, 2550, 3100, 3150, 5100, 5150,5300, 5350, 9100, 9300, 9500, 9550

HP Omnibook 2100, 3100, 4100, 4150, 500, 510, 6000, 6100, 7100, 7150, 900, XE, XE2, XE3, XT6050, XT/VT6200, XE4100, XE4500, XT1000 Series

HP Pavilion dv4, dv5, dv7 series HP Pavilion dv1000, dv1100, dv1200, dv1300, dv1400, dv1500, dv1600, dv1700, HP Pavilion dv2000, dv4000, dv5000, dv6000, dv8000, dv9000 Series HP Pavilion n3000, n5000 series HP Pavilion tx1300, tx2100, tx2500 HP Pavilion ze1000, ze2000, ze2100, ze2200, ze4000, ze5000 Series HP Pavilion zt1000, zt3000, zv5000 series

HP G5000, G6000, G7000 Series

HP COMPAQ HP Compaq Business Notebook tc4400, HP Compaq Mini-Note 2133 HP Compaq Presario B1200, B1210 Series

HP Compaq Business Notebook Series: Business Notebook 2210b, 2510p, 2710p, Business Notebook 6510b, 6515b, 6710b, 6710s, 6715b, 6715s, 6720S, Business Notebook 6820S, 6910p, Business Notebook 8510p, 8710p

HP Compaq Business Notebook nc Series: Business NoteBook nc2400, nc2410, Business Notebook nc4400, nc6140, nc6320, nc6400, nc8430

HP Compaq Business Notebook nx Series: Business Notebook nx6115, nx6130, nx6310, nx6315, nx6320, nx6325,nx6330, Business Notebook nx7300, nx7400, nx8410, nx9420, nx9600

HP Compaq Mobile Workstation Series: Mobile Workstation 8510w, 8710w, Mobile Workstation nw8440, nw9440, Mobile Workstation nx8420

*Note: This battery does NOT work for HP Pavilion zd8000, HP Pavilion zv6000, HP Compaq nx9600 Series.

IBM ThinkPad 240, 240X, 290, 310, 310D, 310E, 310ED, 365, 380, 380D, 380E, 380ED, 380XD, 380Z, 385, 385D, 385ED, 385XD, 390, 560, 560E, 560X, 560Z, 570, 600, 600E, 701, 770, 770E, 770ED, 770X, 770Z, IBM “i” Series, i1410, i1411, i1412, i1420, i1434, i1435, i1436, i1450, i1451, i1452, i1460, i1470, i1471, i1472, i1480, i1500, i1720, i1721 IBM ThinkPad A20,A30 (P4 Model), A31 Series IBM ThinkPad R30, R31, R32, R40, R40e, R50e, R51, R52 Series IBM ThinkPad T20, T21, T22, T23, T30, T40, T41 Series IBM ThinkPad X20, X21, X22, X30, X31, X40, X41 Series

IBM ThinkPad R60 R60, R60e, R60i, R61, R61e, R61i IBM ThinkPad T60 T60, T60p, T61 T61p series IBM ThinkPad X60 X60, X60s, X60 Tablet, X61, X61s, X61 Tablet IBM ThinkPad Z60 Z60m, Z60t, Z61e, Z61m, Z61p, Z61t Lenovo C100, C200 Lenovo N100, N200 Lenovo V100, V200 Lenovo 3000 IBM/Lenovo Thinkpad 3000 Series:
3000 Y100, Type 8825
3000 Y300, Type 7759
3000 Y500, Type 7761 IBM / Lenovo ThinkPad X200, Type 7454, 7455, 7457, 7458, 7459 IBM / Lenovo ThinkPad X300, Type 2748, 2749, 4052, 6476, 6477, 6478 IBM / Lenovo ThinkPad X301, Type 2774, 2776, 2777, 4057, 4182

Micron Trek2, Trek NX, Trek LT series & More… NEC Ready 220T, 230T, 330T, 340T, 360T NEC Versa 2400, 2500, 5000, 550D series

Panasonic: Panasonic CF-01, CF-07, CF-08, CF-17, CF18, CF19, CF-19CW1AXS, CF-19DC1AXS, CF-25, CF-27, CF-28, CF29, CF-33, CF-34, CD-35, CF-37, CF-41, CF-45, CF-47, CF51, CF-61, CF-62, CF-63, CF-71, CF-72, Panasonic CF Series: CF-P1, CF-Y2, CF-Y4 Panasonic CF-R Series: CF-R2, CF-R3, CF-R4, CF-R5, CF-R6, CF-R6MW4AJR, CF-R7 Panasonic CF-T Series: CF-T1, CF-T2, CF-T4, CF-T5, CF-T5AC1AJS, CF-T7 Panasonic CF-W Series: CF-W2, CF-W4, CF-W5, CF-W5LWEZZBM, CF-W7, CF-W7BWHAJR Panasonic CF-Y5 Series: CF-Y5, CF-Y5KC2AXS, CF-Y5KW2AXS, CF-Y5KW4AXS, CF-Y5KW8AXS, CF-Y5LC2AXS, CF-Y5LW2AXS, CF-Y5LW4AXS, CF-Y5LW8AXS, CF-Y5MC2AJS, CF-Y5MC2AXS, CF-Y5MW2AJS, CF-Y5MW2AXS, CF-Y5MW4AJS, CF-Y5MW4AXS, CF-Y5MW8AJR, CF-Y5MW8AJS, CF-Y5MW8AXS Panasonic CF-Y7 Series: CF-Y7ACCAJS, CF-Y7ACCAXS, CF-Y7AW1AJS, CF-Y7AW1AXS, CF-Y7AWCAJS, CF-Y7AWCAXS, CF-Y7AWDAJS, CF-Y7AWDAXS, CF-Y7AWDBJR, CF-Y7AWDPJR Panasonic Toughbook Series: Toughbook CF-18, Toughbook CF-29, Toughbook CF-51, Toughbook P1, Toughbook R1, Toughbook T1, Toughbook T5, Toughbook T7, Toughbook W5, Toughbook W7, Toughbook Y5, Toughbook Y7

ProStar: Prostar 86, Prostar 982, Prostar 2000 Series: Prostar 2100, 2100p, 2200C, 2200c, 2200S, 2200s, 2200T, 2200t, 2253, 2273, 2293, 2794 Prostar 3000 Series: Prostar 3100B, 3100b, 3100C, 3100c, 3150, 3550, 3593 Prostar 4000 Series: Prostar 4014, 4074, 4094, 4200, 4283, 4794 Prostar 5100S, 5190, 9870, Prostar D Series: Prostar D270X, D400E, D400S, D410S, D470W

SAGER: Sager 3500, Sager 5100C, Sager 5150, Sager 5200, Sager 6200, Sager 7200,Sager 8549 D20, Sager 86, Sager 862,Sager 87, Sager 8700, Sager 98 Series Sager VM8000 Series, Sager VM8100 Series Sager NB Series: Sager NB8600, NB8700, Sager NP Series: Sager NP2720, NP2880, Sager NP3350I, NP3360V, NP3750, NP4020, Sager NP4060, NP4080, NP4760, NP4780, Sager NP4780-C, NP4780-S, NP4780-V, NP5680, NP8100, NP8300, NP8320, NP8500, NP8600, NP8620, NP8623, NP8700, NP8890

Sharp: Sharp PC-A800, PC-S400 Sharp PC3000 Series: PC3010, PC3020, PC3030, PC3040, PC3050, PC3060, PC3070, PC3080, PC3150 Sharp PC8000 Series Sharp PC9000 Series: PC9000, PC9010, PC9020, PC9030, PC9040, PC9050, PC9070, PC9080, PC9340,

Sony Vaio PCG-505 Series, 700/800/900 Series Sony Vaio PCG- F, FX, GR, GRS, GRX, GRZ Series, Sony Vaio PCG- R505 series, SR/SRX series, VX, XG, Z505 Series Twinhead SlimNote 910CV, 9133 series, 9150TZ, 9166TZ, VX, VXE, VXE3 Series

Twinhead Twinhead SlimNote 5, 9, 100, 550S, 575, 600D, 875TX, 890, 5100, 6100, 8100, 890 Series Twinhead SlimNote 910CV, 9100 Series, SlimNote 9150TZ, SlimNote 9166TZ, Twinhead SlimNote VX, SlimNote VXE, SlimNote VXE3

TTX Performance P2000

Winbook Winbook C Series: Winbook C120, Winbook C140, Winbook C170 Winbook FX, Winbook J, Winbook J4, Winbook LM, Winbook M201, Winbook M220, Winbook M221, Winbook M301, Winbook M351, Winbook M402, Winbook N, N3, N4 Series Winbook Si, Winbook X1, X4, XL, XLi, XL2, XL3, XP,XP5 Winbook Z, Z1 Winbook W Series: Winbook W140, Winbook W160

The above compatibility list is just a partial list. If your laptop is not on the compatibility list, please use our Laptop/Notebook Upgrade Handbook to find right battery for you . If this battery is listed under your laptop, it means it will work for your laptop.

Even you can not find your laptop or other device listed in our web site, the battery may still work for you. If your device needs 15V ~ 20V DC power ( it is same as your device AC power adapter DC output voltage), the DC plug is round shape and looks similar to one of connector tips on following picture, then this battery should work for your device.

Plug Tips For Laptops:

(Click on each tip persona to see details for this tip)
C1
C2
C3
C5
C6
C7
C8
C12
C13
C14
C15
C18
C19
C21
C23
C24
Z6 Power Cable
* We may discontinue some ancient tips and add some new tips according to the market without notice. Real connector tips come with the battery may not be exactly same as the pictures show.

Warranty: We carry 1 year warranty for this battery against manufacturing and quality defects! The life of a rechargeable Li-Ion battery operating under normal conditions is generally around 500 charge-discharge cycles.

5 ways to conserve your iPhone battery

When it comes to geek chic, the Apple iPhone — available through Rogers and Fido, and soon, Bell Mobility and Telus, too — still remains the king of the smartphones for its gorgeous touchscreen, Wi-Fi web browsing, iPod integration and support for the awesome App Store and its nearly 100,000 downloads.

But for everything this digital Swiss Army Knife can do there’s an inevitable tradeoff: battery life.

While Apple has added a few gifted battery-saving tricks — such as turning the screen off when you hold it up to your face to make a call — there are still a few things you can do to squeeze more life out of the smartphone (aside from buying a battery pack, of course).

A few suggestions:

* The iPhone’s built-in radios — such as Wi-Fi, GPS and Bluetooth — can be draining on the battery. Therefore, if you don’t need them, turn some of all of these radios off in the Settings options. That being said, if you like to surf the web, do so via Wi-Fi instead of cellular connectivity as it’ll be simpler on the battery (and wallet).

* Dim the brightness on your iPhone using the slider, as the brighter you keep your screen, the quicker it’ll eat away at your battery. Also, make sure the iPhone screen is set to turn off if it detects inactivity for a minute or two — this can be selected in the Auto-Lock area in the General Settings menu.

* Like a BlackBerry, the iPhone is competent of “push mail,” importance your messages are pushed to the phone automatically instead of logging online to pull them down. But push mail can drain the battery quicker in view of the fact that it’s constantly logging into your mail server to send you new messages. If you don’t need it, disable this “push” feature in the Settings area.

* Don’t leave your iPhone in extreme heat or cold, such as in a car for a long period of time, as it could compromise the battery life for your smartphone (and its overall endurance). Also, only charge up the iPhone only when you need it — not when it’s 80 percent charged.

* Finally, everlastingly download the latest software updates for the iPhone via iTunes, as Apple engineers everlastingly try to find new ways to extend battery life. You should be prompted with new software updates automatically, but it doesn’t hurt to click the “Check for Update” tab when in iTunes as a back-up.

*We supply all kinds of batteries such as replacement iPod Batteries, Apple, Creative, List, Fujifilm, Kodak, Nikon, Panasonic, Casio, JVC, Konica/Minolta, Kyocera/Yashica, Minolta, Olympus, Samsung, Sharp.

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

Worldwide nanotechnology thin film lithium-ion batteries are balanced to achieve significant growth as units become more able to achieve deliver of power to electric vehicles efficiently. Less pricey 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 investigate solves the issues balanced by the need to store renewable energy. Lithium-ion batteries switch price reductions are balanced to handbook 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 sequence 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 first 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 well-methodical 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 vital 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 expenditure and increases. Lithiumion batteries used in cell phones and PCs, and in freestyle 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 investigate reports that provide forecasts in communications, telecommunications, the internet, computer, software, and telephone equipment. The project leaders take direct responsibility for prose and preparing each report. They have significant experience preparing industry studies. Forecasts are based on primary investigate and proprietary data bases. Forecasts reflect analysis of the market trends in the segment and correlated 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 / The makings 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 Innumerable 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    Struggle  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 Conversation  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 Struggle  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 Narrow for

Norewegian Reckon 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 Narrow To Power Hybrid Electric Mobile

Helpfulness 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

Use 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 Buy  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 Sequence 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 Worth  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    Expenditure  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 Every second 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 Expenditure  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 Early Broadcast 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 Buys 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 Comprehensive Investigate  5-48

5.18.2  GE Energy Fiscal 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 Attention 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 Investigate 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 Buy  5-74

5.32.2  Solicore Embedded Power Solutions  5-75

5.33     Reckon  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 Freestyle Tool Advanced Battery Shipments, Market Shares, Dollars, 2008 

Table 2-14  2-36

Worldwide Lithium-Ion Thin Film Freestyle 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 Ordinary 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 Reckon 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 balanced to achieve significant growth as units become more able to achieve deliver of power to electric vehicles efficiently. Less pricey 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 investigate solves the issues balanced by the need to store renewable energy. Lithium-ion batteries switch price reductions are balanced to handbook 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 sequence 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 first 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 well-methodical 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 vital 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 expenditure and increases. Lithiumion batteries used in cell phones and PCs, and in freestyle 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 investigate reports that provide forecasts in communications, telecommunications, the internet, computer, software, and telephone equipment. The project leaders take direct responsibility for prose and preparing each report. They have significant experience preparing industry studies. Forecasts are based on primary investigate and proprietary data bases. Forecasts reflect analysis of the market trends in the segment and correlated 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 / The makings 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 Innumerable 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    Struggle  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 Conversation  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 Struggle  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 Narrow for

Norewegian Reckon 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 Narrow To Power Hybrid Electric Mobile

Helpfulness 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

Use 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 Buy  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 Sequence 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 Worth  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    Expenditure  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 Every second 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 Expenditure  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 Early Broadcast 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 Buys 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 Comprehensive Investigate  5-48

5.18.2  GE Energy Fiscal 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 Attention 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 Investigate 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 Buy  5-74

5.32.2  Solicore Embedded Power Solutions  5-75

5.33     Reckon  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 Freestyle Tool Advanced Battery Shipments, Market Shares, Dollars, 2008 

Table 2-14  2-36

Worldwide Lithium-Ion Thin Film Freestyle 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 Ordinary 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 Reckon 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

http://w

Mobile battery Philips – Power traversing the world with you

As a successful fashion designer, Joe designed a number of clothes lines are full of a sense of rhythm. His inspiration comes from precise observation of life and all kinds of music, inspired, and there are everlastingly two or three months each year, Joe’s attention from the crowd disappeared, collecting folk songs alone distant destination. Again, we tend to present stunning works.

Holding in his hand, this mobile power that only JOE the size of the palm of your hand, also, such as the size of ordinary cell phone chargers, folding of the socket design, which avoids the plug will be inadvertently raised the danger, but also further reduces the effective product size, very convenient to carry around to hand, can be placed in pants pocket. The intimate configuration of the Confidential Mobile portable package, better able to effectively prevent the plug wear, extended service life. A Philips portable power at hand, it will solve the problem Joe headache. Small things, there is much of the thinking, the world’s largest brand, an extraordinary design, in view of the fact that then is evident.

Intersection of nature and music, in concert induced JOE endless inspiration, let him work rich in deep importance of life and the natural flavor that comes from nature, life, music, rhythm, so that he works to attract and went with each individual, while the mobile power source of inspiration is the driving break down of all JOE is his life experience and an understanding of the fulcrum, with SCM7880/93, JOE traversing the world, inspired by waves, and then not a problem.

Long-distance travel, pens, cell phone, MP3, is Joe’s three treasure. A pen and paper used to record all the way eolian to capture a source of inspiration; mobile phones, is the need to communicate with the outside world goods; mp3 is used to store music, music is a journey partner, soul catcher, inspired by the flint. They allow travel not alone. Modern mobile portable devices out of the restraints of the power cord, providing the freedom and with nature, but also let Joe out of place and space limitations, freedom to come and go.

But, although there is no fixed power cord binding, but these devices still need a variety of batteries to supply energy, so a wide range of spare batteries, charger that Joe must be carried by each pack when you see his luggage inside That pile of tangled cables together all kinds of chargers, as well as innumerable large and small cells of varying size is, indeed, so simple leisure activity incomparable Joe headache; most troubling is that long-distance travel, the charge may from time to Like at home, so convenient, and sometimes a sheer charger, but can only mind the days, sigh. Joe very much hope that these precious devices can no longer have this pile of mess charger cables, batteries can also be a unified ordinary, and he also has a portable, uninterrupted flow of electricity a powerful battery ?.

Recently a friend sent, like a small thing, just solve these sort of a small JOE distress. It is the mobile power SCM7880/93, is simple to design and start quality of life known as Philips recently launched a mobile power products.

This mobile power, it is to solve all the troubles of the JOE, he has been wanted battery function, the body in this small thing to achieve. SCM7880/93 be able to store an incredible 15 hours (1000mA Li-ion battery) of electricity, is fully able to charge the machine when the need to give enough power to support, not collecting folk songs in the wild, when there was no electricity because of the equipment at hand and the mad, is free, and not subject to time and place control of charge anytime, anywhere for a variety of mobile devices, so that Joe’s life is everlastingly full of energy.

The most valuable to JOE feeling is that it although the body a small, but it has an extremely strong inclusive, comes ordinary with a variety of major international brands are well-matched with mobile phones, MP3 devices connector, it is breathtakingly. Joe place his cell phone, MP3, DV, all turns tried again and found that only one of its requirements can be met in full charge, persons who no longer have large and small, battery chargers each carrying, and a SCM7880/93 can handle that, which erupted in, JOE is the real implementation of the roving light.

The design concept mobile power is not only remarkable Chelsea Heights, but also possesses the function of human concern. For example, LED power indicator set, we can show charging and power consumption of  hp pavilion zt3000 laptop battery, broadcast on the charge of clear understanding in mind, Although a function of small, useful also fantastic, otherwise, excellent music screeching halt because of no electricity and the impact mood, or negligible, and his girlfriend Baodianhuazhou suddenly without electricity, girlfriend, hair on fire to it, but huge things, and with this small but warm and functional, everything may have been the hands of JOE.

The long life of your cell phone battery

One of the most effective methods to increase the uninterrupted period of a telephone work is to replace the source of energy. It is possible to buy privileged capacity cell phone batteries that provide more talk time and stand by time between calls. High capacity batteries do weigh a small more, so they might not be the best choice for persons wanting a featherweight cell phone. If there is no such battery for a particular model of the phone one can buy another ordinary battery in case the basic has discharged.

So, Replace your first battery or keep an extra battery on hand as a backup for you.

Type and capacity characteristics must be taken into consideration when selecting a battery. Nowadays different types of batteries are available in the market.

Nickel Cadmium (NiCd) is the least pricey of rechargeable batteries, but suffers from inherent shortcomings like memory effect. Here, if the battery is not fully drained before recharging, the unused part crystallizes therefore the complete capacity of the battery is not fully used.

The Ni-Cd battery, which originated in the generation of black and white show mobile phones, is loosing its position in the market. The NI-MH battery also has small demand nowadays.

The colour show generation leads to wide attention of Li-ion battery (Li-ion). The prime advantage of these batteries over NiMH is that they hold more energy for same weight and volume. Therefore, Li-ion batteries are much smaller and thinner in comparison. Also, they don’t have any inherent memory effect. The only disadvantage is that they cost more than others.

Li-Po battery is the most new type available for your mobile phone. Li-Po batteries have evolved technologically from Li-ion batteries. A significant advantage of these batteries is that manufacturers can shape the battery nearly but they please, which is very vital to mobile phone manufacturers constantly working on smaller, thinner, and lighter phones. Many latest phones use these types of batteries. Their limitation is lower energy density and decreased sequence count compared to Li-ion. They are also pricey to manufacture – once mass-produced, the Li-ion polymer has the the makings for lower cost.

Capacity of a battery is another index of a telephone quality. 600-800 mAch is an average index for ordinary phones. More modern models like smart phones and pocket pc are applied with batteries capacity reaching 1500 mAch.

Mobile phones manufactured by different companies support differently designed and developed batteries. But frankly speaking not many manufacturers at present time supply batteries with high capacity. Motorola company offers a few variants of High Capacity ion-lithium Battery for the ordinary series of V300/v500/v600/v620/v80/ E398, capacity ranging- from 750 to 1100 mA*ch.

You can significantly increase your talk time with Nextel i760 cell phone batteries. With Nextel i760 cell phone extended battery you can chat with friends and family longer than with a ordinary cell phone battery. Motorola also boasts Maximum Capacity Battery for Nextel i870 i875. It’s up to 420 Minutes Of Talk Time Or up to 150 hours of standby time in digital mode.

Also Siemens well-known lately for the small terms of continuous work of its telephones, at the beginning of 2006 made users pleased, producing the model of Me75, with a battery on 1000 mA*ch.

BlackBerry Company comes with a fantastic battery. The BlackBerry 1000mAh Battery (C-S2) used in many BlackBerry devices is reliable. On the 8700c it usually keeps going for 4 to 5 days. For persons of you who speak hours and hours on the phone everyday, you will certainly want to consider the Extended Batteries. Instead of the regular 1000mAh, you can get up to 1800mAh providing anywhere from 60% to 80% more talk time.

If the term of non-stop work for you is vital, you should pay attention to Nokia 6310i and 1100 (a week without charge) or the Philips Xenium that boasts best-in-class battery performance. It’s nearly 2 weeks without charge!

So its possible to choose long lasting battery although you must be aware that it will cost and weigh more than average.

The question of continuous mobile phone work stands as never sharply today. By 2006, the colour show phone dominated the market. Along with the frequent appearance of camera phones and multimedia phones, functions of photo shooting, receiving and sending multimedia messages, and downloading high-capacity games are used more and more often. But, facing the more powerful 3G mobile phones, battery capacity is obviously insufficient. Mobile phone batteries tend to be lighter, thinner and privileged capacity. Innumerable new battery types such as fuel cell, Zinc-air and solar cell are in the R & D process.

AugustaM Sourcing LLC is a leading manufacturer and distributor of premium quality battery technology products. While worldwide customers require a partner who can reliably meet their demands for high-quality batteries at very competitive prices AugustaM Sourcing LLC provides high-quality, high-performance battery products at the lowest possible cost that could be delivered at the required time. You can take advantage of services from this internet shop if you want to buy new battery – AugustaMBattery is a useful address for you.

The company produces Wireless Phone Batteries including Motorola-iDen Batteries, Nextel-iDen Batteries, RIM-Blackberry Batteries and Spectralink and Nortel Batteries.

Its product range includes aftermarket replacement battery packs and charging solutions for portable devices such as Two Way Radios, Speciality Phones, Barcode Scanners, Barcode Printers, and Laptop Computers. All batteries are precision-engineered and rigorously tested for voltage, capacity, compatibility and safety to meet or exceed OEM specifications.

Samsung Mobile Phone Battery Replacements

Samsung Mobile Phone Battery Replacements

Innumerable batteries are developed today in the market by diverse manufacturers depending upon the different cell phones. The battery should be designed in such a manner that they are well-matched with the specific cell phone. Precise composition will directly enhance the productivity of the mobile phone battery. Numerous developers like Nokia, Siemens, Philips, Motorola, and Samsung are in this business.

I will write about the Samsung mobile phone batteries and their replacements.

1. Replacement Mobile Phone Battery for SGH – D508, SGH – D500E, SGH – D500C, SGH – D500. This mobile phone battery can replace the following part number: BST3078BEC/STD, BST3078BEC, BST3078BE Samsung batteries. These are Li – Polymer batteries with 800 mAH capacity and consume 3.7 V.

2. Mobile Phone Battery Replacement for Samsung AB503442CE, AB503442CAB, AB503442CEC. These are Li – Ion batteries with 700 mAH capacity. The voltage capacity is 3.7 V. This mobile phone battery can replace the following part numbers AB503442C, AB503442CA, AB503442CAB/STD, AB503442CC, AB503442CE, AB503442CEC/STD. This mobile phone battery is well-matched with SGH – A127, SGH – D900, SGH – D900B, SGH – D900i models.

3. Mobile Phone Battery Replacement for Samsung AB653850CE, AB653850EZ, AB653850CU. These are Li – Ion batteries with 1500 mAH capacity. The voltage is 3.7 V. This mobile phone battery can replace the following part numbers AB653850CE, AB653850CU, AB653850EZ. This battery is well-matched with i800 Omnia II and i908 models.

4. Replacement Mobile Phone Battery for SPH – 3650, SPH – 3600, SGH – D608, SGH – D600E models. This mobile phone battery can replace the following part number: BST4389BEC/STD, BST4389BEC, BST4389BC, and BEX438BBC. These are Li – Polymer batteries with 900 mAH capacity. The voltage consumed is 3.7 V.

5. Replacement Mobile Phone Battery for SGH – F488E, SGH – F448, SGH – F488 Tocco, SGH – F480 models. This mobile phone battery can replace the following part number: AB553446CECSTD, AB553446CE, and AB553446B. This is a Li – Ion battery with 1000 mAH capacity. The volt consumed is 3.7 V.

6. Replacement Mobile Phone Battery for SGH – E820T, SGH – E820, SGH – E808, SGH – E808 models. This mobile phone battery can replace the following part number: BST2927WE, BST2927VEC/STD, BST2927VE, BST2927SEC/STD, and BST2927SE. This is Li – Polymer batteries with 800 mAH capacity and consumes 3.7 V.

The batteries are numerous but the customer has to determine its needs and desires before opting to buy cell phone or the cell phone batteries. The user should everlastingly buy the mobile battery from the same manufacturer who has developed the cell phone. The customer should everlastingly buy the apt battery with accurate compositions along with the guaranteed manufacturer’s warranty.

Why don’t you to get discount Mobile phone batteries now.

Ultralast UL-104 Cordless Phone Battery for Panasonic HHR-P104A Equivalent

• Replaces Panasonic HHR-P104 Type 29
• Fits KX-TG23xx KX-TG54xx KX-TGA5xx KX-TH and Others
• 3.6-Volts
• 850 mAh
• Chemistry: Ni-MH

Product Description
Marketing description is not available.

Buy Low-cost Ultralast UL-104 Freestyle Phone Battery for Panasonic HHR-P104A Equivalent