We love aircraft maintenance lithium batteries want to be correct? This issue has been plagued by many notebook computers faithful users, including me. After a review of some information, the recent opportunity in the professional advice of a electrochemical a renowned domestic dell 1691p battery and Dr. Reading Institute Deputy Director. The recent availability of relevant knowledge and experience to write out to offer you the reader.
Lithium ion batteries are lithium in the positive electrode material usually reactive compounds composition cathode is a special molecular structure of carbon. Positive electrode materials for the main components common LiCoO2, charging, the batteries in the electric bipolar positive trend forcing the release lithium-ion dell inspiron 2500 compounds, embedded cathode elements arranged a film layer structure of the carbon. Discharged, the lithium ion from carbon film layer structure, separate out, and positive re-integration of the compounds. Lithium ion movement generated currents.
Although simple chemical reaction theory, but in actual industrial production, the need to consider practical issues to more : positive electrode material needs additives to provide or maintain the number of active, the negative electrode material in the molecular structure level required to design to accommodate more lithium ion dell inspiron 3700; Fill in the division is between the cathode, in addition to maintaining stability, There is also a need to have a good conductive nature, reduced battery internal inertia.
Although lithium-ion batteries are nickel-cadmium batteries little memory effect, the theory is the crystallization of memory effects in almost lithium batteries will not have such a response. However, lithium-ion rechargeable dell inspiron 3800 batteries in several capacity will decline after release, the reasons are complex and varied. Mainly negative electrode material itself is changing, from the molecular level, is the negative electrode of a lithium-ion accommodate structure will be gradually 18th hole, plug; From the perspective of the chemical is being cathode materials reactive passivation, a deputy response generated stable other compounds. Physics, material will gradually falling off as a positive situation, in short, can ultimately reduce battery provides free discharged in the course of the lithium-ion mobile number.
An overcharge and excessive discharge will be lithium-ion dell inspiron 4000 batteries are cathode caused permanent damage, from the molecular level, can intuitive understanding will lead to excessive discharge of carbon cathode excessive release lithium ion and make their films at the structural breakdown, excessive charging will be too much lithium ion hard into the structure where the carbon cathode, and lithium ion no longer makes some release. This is why normally equipped with lithium-ion dell inspiron 4100 battery provides discharge control circuit causes.
Unsuitable temperature will trigger internal lithium ion dell inspiron 8000 battery other chemical reactions generated We do not want to see the compounds, so in many lithium ion batteries are negative electrode temperature divide between a protective or electrolyte additives. In some cases the cells warming, composite membrane electrolyte membrane Kong closed or degenerative, batteries internal inertia increased until open circuit, the battery no longer warming, ensuring dell inspiron 8100 battery charging temperature normal.
And lithium-ion rechargeable battery or can upgrade the actual capacity? Experts clearly told me that this is meaningless. They even said that the so-called three-person before use on the "back" in their knowledge of the two Dr., also can not imagine what it necessary. But why many people leave after dark place in dell inspiron 8200 Battery Information marker capacity will change? Will be mentioned later.
IBM notebook computer with a lithium-ion latitude c500 battery battery charging control chips and management chips. These chips are a series of register management, a capacity, temperature, ID, the charging state, the number of discharge values. In the use of these values will gradually change. I personally think that IBM notebook computers in use on the "whole person should use a month later on a" practice is the main role should be to amend the register of improper value, making battery charge control and the actual nominal latitude c600 battery battery capacity coincide.
Charging the battery charging control chip main control process. ThinkPad lithium-ion latitude c800 battery batteries charging process is divided into two stages, Hengliu provides fast stage (a yellow battery light) and Hengya current decline phase (a vgp-bps2a battery light green lights. Hengliu Express provides stage battery voltage latitude c840 battery batteries gradually rise to the standard voltage, and then in the control chips into Hengya stage, voltage not been made to ensure that no longer rise, with the current latitude c640 battery consumption to rise gradually weakened 0, and the final completion of charging.
Statistics chip sales through the records discharge curve (voltage, current and time) can be calculated sample cell capacity, and that is what we read in the Battery Information Lane Estate. Values. And lithium ion batteries used in numerous after discharge curve will be changed, if the chip had not had the opportunity to once again read out a complete discharge curve, the calculated amount is inaccurate. So we need to take a deep cover calibration cell chip.
1. Not deliberately guarantee every person to have the power to take End;
2. Time to do a deep-protection circuit provides controlled release of power to amend batteries statistics, but it will not enhance the actual capacity of your batteries.
3. Long-term idle latitude c540 battery batteries to be placed on the shady places to weaken its own internal passivation reaction speed.
4. Protection circuits are also unable to control cell self discharge, the latitude c810 battery do not have long-term, should be made into a certain
amount of storage in order to prevent the batteries from over-discharge led to the discharge of excessive damage.
In fact, not too many have to take into account the use of laptop battery attention, in other words taking into account also is not much use. How many times a cell can use, perhaps more differences from the manufacture of individual differences cell itself, rather than using methods. Choice of a good reputation in the notebook computer brands, the use of long-life vgp-bps2c batteries is the one of the guarantees.
Thursday, February 28, 2008
FUJITSU FPCBP80 Laptop Battery, FUJITSU Lifebook S6000, S6200, S6230, S6231 Series Laptop Battery
FUJITSU FPCBP80 Laptop Battery, FUJITSU Lifebook S6000, S6200, S6230, S6231 Series Laptop Batter
This laptop battery can replace the following part numbers:
FPCBP80, FPCBP80AP,
Battery Type : Li-ion
Voltage : 10.80V
Capacity : 4400mAh
Color : Bice
Dimension : 131.10 x 79.40 x 20.20 mm
Product Type : Replacement Battery (Brand New)
Weight : 428.08g
Fit Model:
FUJITSU
Fujitsu Lifebook S6000 Series,
Fujitsu Lifebook S6200 Series,
Fujitsu Lifebook S6210 Series,
Fujitsu Lifebook S6220 Series,
Fujitsu Lifebook S6230 Series,
Fujitsu Lifebook S6231 Series
Wednesday, February 27, 2008
About Battery History
One of the most remarkable and novel discoveries in the last 400 years has been electricity. You may ask, “Has electricity been around that long?” The answer is yes, and perhaps much longer. But the practical use of pa3383u electricity has only been at our disposal since the mid-to late 1800s, and in a limited way at first. At the world exposition in Paris in 1900, for example, one of the main attractions was an electrically lit bridge over the river Seine.
The earliest method of generating electricity occurred by creating a static charge satellite pro 6300 battery. In 1660, Otto von Guericke constructed the first electrical machine that consisted of a large sulphur globe which, when rubbed and turned, attracted feathers and small pieces of paper. Guericke was able to prove that the sparks generated were truly electrical.
The first suggested use of static electricity was the so-called “electric pa3450u-1brs pistol”. Invented by Alessandro Volta (1745-1827), an electrical wire was placed in a jar filled with methane gas. By sending an electrical spark through the wire, the jar would explode.
Volta then thought of using this invention to provide long distance communications, albeit only addressing one Boolean bit. An iron wire supported by wooden poles was to be strung from Como to Milan, Italy. At the receiving end pa3176u-1brs, the wire would terminate in a jar filled with methane gas. On command, an electrical spark is sent by wire that would detonate the electric pistol to signal a coded event. This communications link was never built.
Volta’s discovery of the decomposition of water by an electrical current laid the foundation of electrochemistry.Cadex Electronics Inc.
In 1791, while working at Bologna University, Luigi Galvani discovered that the muscle of a frog contracted when touched by a llic object. This phenomenon became known as animal electricity satellite m50 battery — a misnomer, as the theory was later disproven. Prompted by these experiments, Volta initiated a series of experiments using zinc, lead, tin or iron as positive plates. Copper, silver, gold or graphite were used as negative plates.
The next stage of generating electricity was through electrolysis. Volta discovered in 1800 that a continuous flow of electrical force was generated when using certain fluids as conductors to promote a chemical reaction between the ls or electrodes. This led to the invention of the first voltaic cell, better know as the pa3191u-1bas battery. Volta discovered further that the voltage would increase when voltaic cells were stacked on top of each other.
In the same year, Volta released his discovery of a continuous source of electricity to the Royal Society of London. No longer were experiments limited to a brief display of sparks that lasted a fraction of a second. A seemingly endless stream of electric current was now available aspire 3040 battery.
France was one of the first nations to officially recognize Volta’s discoveries. At the time, France was approaching the height of scientific advancements and new ideas were welcomed with open arms to support the political agenda. By invitation, Volta addressed the Institute of France in a series of lectures at which Napoleon Bonaparte was present as a member of the Institute.
Volta’s discoveries so impressed the world that in November 1800, he was invited by the French National Institute to lectures in which Napoleon Bonaparte participated. Later, Napoleon himself helped with the experiments, drawing sparks from the travelmate 2200 battery, melting a steel wire, discharging an electric pistol and decomposing water into its elements. ? Cadex Electronics Inc.
New discoveries were made when Sir Humphry Davy, inventor of the miner’s safety lamp, installed the largest and most powerful electric battery in the vaults of the Royal Institution of London. He connected the battery to charcoal electrodes and produced the first electric travelmate 3000 battery light. As reported by witnesses, his voltaic arc lamp produced “the most brilliant ascending arch of light ever seen.”
Davy's most important investigations were devoted to electrochemistry. Following Galvani's experiments and the discovery of the voltaic cell, interest in galvanic electricity had become widespread. Davy began to test the chemical effects of Aspire 5050 battery electricity in 1800. He soon found that by passing electrical current through some substances, these substances decomposed, a process later called electrolysis. The generated voltage was directly related to the reactivity of the electrolyte with the l. Evidently, Davy understood that the actions of electrolysis and the voltaic cell were the same.
In 1802, Dr. William Cruickshank designed the first electric battery capable of mass production. Cruickshank had arranged square sheets of copper, which he soldered at their ends, together with sheets of zinc of equal size travelmate 3300 battery. These sheets were placed into a long rectangular wooden box that was sealed with cement. Grooves in the box held the l plates in position. The box was then filled with an electrolyte of brine, or watered down acid.
William Cruickshank, an English chemist, built a BTP-43D1 battery of electric cells by joining zinc and copper plates in a wooden box filled with electrolyte. This flooded design had the advantage of not drying out with use and provided more energy than Volta’s disc arrangement. Cadex Electronics Inc.
The third method of generating electricity was discovered relatively late — electricity through magnetism. In 1820, Andr-Marie Ampre (1775-1836) had noticed that wires carrying an electric current were at times attracted to one another, while at other times they were repelled.
In 1831, Michael Faraday (1791-1867) demonstrated how a copper disc was able to provide a constant flow of electricity when revolved in a strong magnetic field. Faraday, assisting Davy and his research team, succeeded in generating an endless electrical force as long as the movement between a coil and magnet continued. The electric generator was invented. This process was then reversed and the electric motor was discovered. Shortly thereafter, transformers were developed that could convert electricity to a desired voltage. In 1833, Faraday established the foundation of electrochemistry with Faraday's Law, which describes the amount of reduction that occurs in an electrolytic cell.
In 1836, John F. Daniell, an English chemist, continued with the research of the electro-chemical pa2522u-1bas battery and developed an improved cell that produced a steadier current than Volta's device. Until then, all batteries had been composed of primary cells, meaning that they could not be recharged. In 1859, the French physician Gaston Platé invented the first rechargeable battery. This secondary battery was based on lead acid chemistry, a system that is still used today.
The battery may be much older. It is believed that the Parthians who ruled Baghdad (ca. 250 bc) used batteries to electroplate silver. The Egyptians are said to have electroplated antimony onto copper over 4300 years ago.
In 1899, Waldmar Jungner from Sweden invented the nickel-cadmium satellite 3000 battery, which used nickel for the positive electrode and cadmium for the negative. Two years later, Edison produced an alternative design by replacing cadmium with iron. Due to high material costs compared to dry cells or lead acid storage batteries, the practical applications of the nickel-cadmium and nickel-iron batteries were limited.
Toward the end of the 1800s, giant generators and transformers were built. Transmission lines were installed and electricity was made available to humanity to produce light, heat and movement. In the early twentieth century, the invention of the vacuum tube enabled generating controlled signals, amplifications and sound. Soon thereafter, radio was invented, which made wireless communication possible.
It was not until Shlecht and Ackermann invented the sintered pole plate in 1932 when profound improvements were achieved. These advancements were reflected in higher load currents and improved longevity satellite a65 battery. The sealed nickel-cadmium battery, as we know it toady, became only available when Neumann succeeded in completely sealing the cell in 1947.
The earliest method of generating electricity occurred by creating a static charge satellite pro 6300 battery. In 1660, Otto von Guericke constructed the first electrical machine that consisted of a large sulphur globe which, when rubbed and turned, attracted feathers and small pieces of paper. Guericke was able to prove that the sparks generated were truly electrical.
The first suggested use of static electricity was the so-called “electric pa3450u-1brs pistol”. Invented by Alessandro Volta (1745-1827), an electrical wire was placed in a jar filled with methane gas. By sending an electrical spark through the wire, the jar would explode.
Volta then thought of using this invention to provide long distance communications, albeit only addressing one Boolean bit. An iron wire supported by wooden poles was to be strung from Como to Milan, Italy. At the receiving end pa3176u-1brs, the wire would terminate in a jar filled with methane gas. On command, an electrical spark is sent by wire that would detonate the electric pistol to signal a coded event. This communications link was never built.
Volta’s discovery of the decomposition of water by an electrical current laid the foundation of electrochemistry.Cadex Electronics Inc.
In 1791, while working at Bologna University, Luigi Galvani discovered that the muscle of a frog contracted when touched by a llic object. This phenomenon became known as animal electricity satellite m50 battery — a misnomer, as the theory was later disproven. Prompted by these experiments, Volta initiated a series of experiments using zinc, lead, tin or iron as positive plates. Copper, silver, gold or graphite were used as negative plates.
The next stage of generating electricity was through electrolysis. Volta discovered in 1800 that a continuous flow of electrical force was generated when using certain fluids as conductors to promote a chemical reaction between the ls or electrodes. This led to the invention of the first voltaic cell, better know as the pa3191u-1bas battery. Volta discovered further that the voltage would increase when voltaic cells were stacked on top of each other.
In the same year, Volta released his discovery of a continuous source of electricity to the Royal Society of London. No longer were experiments limited to a brief display of sparks that lasted a fraction of a second. A seemingly endless stream of electric current was now available aspire 3040 battery.
France was one of the first nations to officially recognize Volta’s discoveries. At the time, France was approaching the height of scientific advancements and new ideas were welcomed with open arms to support the political agenda. By invitation, Volta addressed the Institute of France in a series of lectures at which Napoleon Bonaparte was present as a member of the Institute.
Volta’s discoveries so impressed the world that in November 1800, he was invited by the French National Institute to lectures in which Napoleon Bonaparte participated. Later, Napoleon himself helped with the experiments, drawing sparks from the travelmate 2200 battery, melting a steel wire, discharging an electric pistol and decomposing water into its elements. ? Cadex Electronics Inc.
New discoveries were made when Sir Humphry Davy, inventor of the miner’s safety lamp, installed the largest and most powerful electric battery in the vaults of the Royal Institution of London. He connected the battery to charcoal electrodes and produced the first electric travelmate 3000 battery light. As reported by witnesses, his voltaic arc lamp produced “the most brilliant ascending arch of light ever seen.”
Davy's most important investigations were devoted to electrochemistry. Following Galvani's experiments and the discovery of the voltaic cell, interest in galvanic electricity had become widespread. Davy began to test the chemical effects of Aspire 5050 battery electricity in 1800. He soon found that by passing electrical current through some substances, these substances decomposed, a process later called electrolysis. The generated voltage was directly related to the reactivity of the electrolyte with the l. Evidently, Davy understood that the actions of electrolysis and the voltaic cell were the same.
In 1802, Dr. William Cruickshank designed the first electric battery capable of mass production. Cruickshank had arranged square sheets of copper, which he soldered at their ends, together with sheets of zinc of equal size travelmate 3300 battery. These sheets were placed into a long rectangular wooden box that was sealed with cement. Grooves in the box held the l plates in position. The box was then filled with an electrolyte of brine, or watered down acid.
William Cruickshank, an English chemist, built a BTP-43D1 battery of electric cells by joining zinc and copper plates in a wooden box filled with electrolyte. This flooded design had the advantage of not drying out with use and provided more energy than Volta’s disc arrangement. Cadex Electronics Inc.
The third method of generating electricity was discovered relatively late — electricity through magnetism. In 1820, Andr-Marie Ampre (1775-1836) had noticed that wires carrying an electric current were at times attracted to one another, while at other times they were repelled.
In 1831, Michael Faraday (1791-1867) demonstrated how a copper disc was able to provide a constant flow of electricity when revolved in a strong magnetic field. Faraday, assisting Davy and his research team, succeeded in generating an endless electrical force as long as the movement between a coil and magnet continued. The electric generator was invented. This process was then reversed and the electric motor was discovered. Shortly thereafter, transformers were developed that could convert electricity to a desired voltage. In 1833, Faraday established the foundation of electrochemistry with Faraday's Law, which describes the amount of reduction that occurs in an electrolytic cell.
In 1836, John F. Daniell, an English chemist, continued with the research of the electro-chemical pa2522u-1bas battery and developed an improved cell that produced a steadier current than Volta's device. Until then, all batteries had been composed of primary cells, meaning that they could not be recharged. In 1859, the French physician Gaston Platé invented the first rechargeable battery. This secondary battery was based on lead acid chemistry, a system that is still used today.
The battery may be much older. It is believed that the Parthians who ruled Baghdad (ca. 250 bc) used batteries to electroplate silver. The Egyptians are said to have electroplated antimony onto copper over 4300 years ago.
In 1899, Waldmar Jungner from Sweden invented the nickel-cadmium satellite 3000 battery, which used nickel for the positive electrode and cadmium for the negative. Two years later, Edison produced an alternative design by replacing cadmium with iron. Due to high material costs compared to dry cells or lead acid storage batteries, the practical applications of the nickel-cadmium and nickel-iron batteries were limited.
Toward the end of the 1800s, giant generators and transformers were built. Transmission lines were installed and electricity was made available to humanity to produce light, heat and movement. In the early twentieth century, the invention of the vacuum tube enabled generating controlled signals, amplifications and sound. Soon thereafter, radio was invented, which made wireless communication possible.
It was not until Shlecht and Ackermann invented the sintered pole plate in 1932 when profound improvements were achieved. These advancements were reflected in higher load currents and improved longevity satellite a65 battery. The sealed nickel-cadmium battery, as we know it toady, became only available when Neumann succeeded in completely sealing the cell in 1947.
DELL 312-0273 Battery,DELL 312-0273 Laptop Battery
DELL 312-0273 Battery,DELL 312-0273 Laptop Battery
Compatible Part Numbers:
312-0273, C2174, F1244, G1947, H5559,,
Battery Type : Li-ion
Voltage : 14.80V
Capacity : 6600mAh
Color : Dark Grey
Dimension : 140.90 x 110.40 x 38.85 mm
Special Functions : Internal Speaker
Product Type : Replacement Battery (Brand New)
Weight : 785.28g
Fit Model:
DELL
Dell Inspiron 9100,
Dell Inspiron XPS
Tuesday, February 26, 2008
HP F2111-60901 laptop battery
HP F2111-60901 laptop battery
HP 2111, 3933H, F2024, F2024-80001, F2024-80001A, F2024A, F2024B, F2111-60901, F2193, F2193-80001, F2193-80001A, F3924HR, F3925-60901, F3928HR, F3930H, F4307H,,
Battery Type : Li-ion
Voltage : 11.10V
Capacity : 6600mAh
Color : Dark Blue
Dimension : 180.00 x 81.80 x 20.20 mm
Product Type : Replacement Battery (Brand New)
Weight : 626.52g
Fit Model:
HP Omnibook XE3 Series
Omnibook XE3, Omnibook XE3L,
F2112KG, F2112KT, F2112K, F2112WG, F2112WR,
F2112WT, F2112W, F2113KG, F2113KT, F2113K,
F2113WG, F2113WT, F2113W, F2114KG, F2114KT,
F2114K, F2114WG, F2114WT, F2114W, F2115KG,
F2115KR, F2115KT, F2115K, F2115WG, F2115WR,
F2115WT, F2115W, F2116KG, F2116KR, F2116KT,
F2116K, F2116WG, F2116WR, F2116WT, F2116W,
F2117KG, F2117KR, F2117KT, F2117K, F2117WG,
F2117WR, F2117WT, F2117W, F2118KG, F2118KR,
F2118KT, F2118K, F2118WG, F2118WR, F2118WT,
F2118W, F2119KG, F2119KT, F2119WG, F2119WT,
F2120KG, F2120KG, F2120KT, F2120WG, F2120WT,
F2121KT, F2121K, F2121WT, F2121W, F2122KT,
F2122K, F2122WT, F2122W, F2123KT, F2123K,
F2123WT, F2123W, F2124KT, F2124K, F2124WT,
F2124W, F2125K, F2125W, F2126K, F2126W,
F2127K, F2127W, F2261MR, F2261MT, F2261M,
F2262MR, F2262MT, F2262M, F2271WG, F2271WT,
F2272WG, F2272WT, F2274M, F2278M, F2287M,
F2287W, F2288W, F2289WT
HP Omnibook XE3B Series
F2300KG, F2300KT, F2300WG, F2300WT, F2301KG,
F2301KR, F2301KT, F2301K, F2301WG, F2301WR,
F2301WT, F2301W, F2302KG, F2302KR, F2302KT,
F2302K, F2302WG, F2302WR, F2302WT, F2302W,
F2303WC, F2303KG, F2303KR, F2303KT, F2303K,
F2303WG, F2303WR, F2303WT, F2303W, F2304KG,
F2304KR, F2304KT, F2304K, F2304WG, F2304WR,
F2304WT, F2304W, F2305KG, F2305KR, F2305KT,
F2305K, F2305WG, F2305WR, F2305WT, F2305W,
F2306KG, F2306KR, F2306KT, F2306K, F2306WC,
F2306WG, F2306WR, F2306WT, F2306W, F2307KG,
F2307KR, F2307KT, F2307K, F2307WG, F2307WR,
F2307WT, F2307W, F2308KG, F2308KR, F2308KT,
F2308K, F2308WG, F2308WR, F2308WT, F2308W,
F2309KG, F2309KT, F2309K, F2309WG, F2309WR,
F2309WT, F2309W, F2310KT, F2310K, F2310WT,
F2310W, F2311KT, F2311K, F2311WT, F2311W,
F2315K, F2315W, F2316K, F2316W, F2317K,
F2317W, F2318K, F2318W, F2319K, F2319W,
F2320KG, F2320KT, F2320K, F2320WG, F2320WT,
F2320W, F2321KG, F2321KT, F2321K, F2321WG,
F2321WT, F2321W, F2325KR, F2325KT, F2325K,
F2325WG, F2325WR, F2325WT, F2325W, F2326KG,
F2326KR, F2326KT, F2326K, F2326WG, F2326WR,
F2326WT, F2326W, F2381KT, F2381K, F2381WT,
F2381W, F2382KT, F2382K, F2382WT, F2382W,
F2429W, F2431K, F2433WR, F2433W, F2438WT,
F2439M, F2440MT, F2441W, F2442KG, F2443WT,
F2447WR, F2458K, F2458W, F2459K, F2459W
HP Omnibook XE3C Series
F2330KG, F2330KR, F2330KT, F2330K, F2330WC,
F2330WG, F2330WR, F2330WT, F2330W, F2331KG,
F2331KT, F2331K, F2331WC, F2331WG, F2331WT,
F2331W, F2332KG, F2332KR, F2332KT, F2332K,
F2332WC, F2332WG, F2332WR, F2332W, F2333KG,
F2333KR, F2333KT, F2333K, F2333WC, F2333WG,
F2333WR, F2333W, F2334KG, F2334KT, F2334K,
F2334WC, F2334WG, F2334WT, F2334W, F2335KG,
F2335KT, F2335K, F2335WC, F23345G, F2335WT,
F2335W, F2336KG, F2336KT, F2336K, F2336WC,
F23346G, F2336WT, F2336W, F2337KG, F2337KR,
F2337KT, F2337K, F2337WC, F2337WG, F2337WR,
F2337WT, F2337W, F2338KG, F2338KT, F2338K,
F2338WC, F2338WG, F2338WT, F2338W, F2339KG,
F2339KR, F2339KT, F2339K, F2339WC, F2339WG,
F2339WR, F2339WT, F2339W, F2340KG, F2340KR,
F2340KT, F2340K, F2340WC, F2340WG, F2340WR,
F2340WT, F2340W, F2341KG, F2341KR, F2341KT,
F2341K, F2341WC, F2341WG, F2341WR, F2341WT,
F2341W, F2342KT, F2342K, F2342WC, F2342WT,
F2342W, F2343KG, F2343KT, F2343K, F2343WC,
F2343WG, F2343WT, F2343W, F2344KG, F2344KT,
F2344K, F2344WC, F2344WG, F2344WT, F2344W,
F2374K, F2374W, F2375KR, F2375KT, F2375K,
F2375W, F2376K, F2376W, F2377K, F2378K,
F2378W, F2379KT, F2379K, F2379WC, F2379WT,
F2379W, F2389KG, F2389KT, F2389K, F2389WC,
F2389WG, F2389WT, F2389W, F2390KT, F2390K,
F2390WT, F2390W, F2391KT, F2391K, F2391WT,
F2391W, F2392KT, F239K, F2392WT, F2392W,
F2393KG, F2393KT, F2393K, F2393WG, F2393WT,
F2393W, F2394KG, F2394KT, F2394K, F2394WT,
F2394W, F2395KT, F2395K, F2395WT, F2395W,
F2396KT, F2396K, F2396WT, F2396W, F2397KT,
F2397K, F2397WT, F2397W, F2398KT, F2398K,
F2398WT, F2398W, F2399KT, F2399K, F2399WT,
F2399W, F2400KT, F2400K, F2400WT, F2400W,
F2401KG, F2401KT, F2401K, F2401WG, F2401WT,
F2401W, F2402KG, F2402KT, F2402K, F2402WG,
F2402WT, F2402W, F2403W, F2417WT, F2460WT,
F2467K, F2468K, F2972W, F2976W, F3708KS,
F3708WS, F3709KS, F3709WS, F3711KS, F3711WS,
F3714WS, F3719KS, F3721WS, F3722KS, F3725WS,
F3725KS, F3754M, F3755M, F3756M, F3757W,
F3759KG, F3759WG, F3760WG, F3765W, F3766KT,
F3767WG, F3768WT, F3769WT, F3770K, F3770W,
F3771K, F3771W, F3772W, F3773KT, F3774KG,
F3775KT, F3776KG, F3776KR, F3776KT, F3776K,
F3776WG, F3776WR, F3776WT, F3776W, F3777KG,
F3777KR, F3777KT, F3777K, F3777WG, F3777WR,
F3777WT, F3777W, F3778KG, F3778KT, F3778WG,
F3778WT, F3855W, F3857W, F3858W, F3859W,
F3860KR, F3860KT, F3860K, F3860WR, F3860WT,
F3860W, F3861K, F3861WR, F3861WT, F3861W,
F3862KG, F3862K, F3862WR, F3862WT, F3862W,
F3863K, F3863WR, F3863WT, F3863W, F3869WS,
F3869W, F3875K, F3875W, F3877KS, F3877W,
F3878W, F3882W, F3883WT, F3884WT, F3894KG,
F4139KS, F4139W, F4144KS, F4145WS, F4146WS,
F4298K, F4298W, F4299W, F4300K, F4301W,
F4712KG, F4713KT, F4714KT, F4751WS
HP Omnibook XE3-GC Series
HP Omnibook XE3-GD Series
F2409W, F2410W, F2411W, F2412W, F3779WT,
F3780WT, F3781WT, F3876WT
HP Omnibook XE3-GE Series
F4307H, F4308H, F4309H
HP OmniBook XE3-GF Series
HP Omnibook XE3L Series
F2332WT, F2333WT, F2335WG, F2336WG, F2377W
Pavilion 5000 Series
Pavilion N5000 Series
N5000, N5100, N5125, N5130, N5135,
N5140, N5150, N5170, N5190
Pavilion N5100 Series
N5125-F1946A, N5125-F1946AR, N5130-F1937A,
N5135-F1940A, N5135-F1940AR, N5140-F1951A,
N5150-F1938A, N5170-F1939A, N5190-F1941A,
N5195-F1937A, N5195-F1938A, N5195-F1939A,
N5195-F1939AR, N5195-F1940AR, N5195-F1940A,
N5195-F1940AR, N5195-F1941AR, N5195-F1941A,
N5195-F1942AR, N5195-F1942A, N5195-F1946AR,
N5195-F1946A, N5195-F1951A
Pavilion N5200 Series
N5200, N5210, N5210M, N5210-F2360M,
N5210-F2360MR, N5221, N5221-F2370M, N5240,
N5240-F2361M, N5240-F2361MR, N5241, N5241-F2371M,
N5250, N5250-F2362M, N5250-F2362MR,
N5261, N5261-F2372M, N5270, N5270-F2363M,
N5270-F2363MR, N5271, N5271-F2373M,
N5290, N5290- F2364M, N5290-F2364MR,
N5295-F2360M, N5295-F2360MR, N5295-F2361M,
N5295-F2361MR, N5295-F2362M, N5295-F2362MR,
N5295-F2363M, N5295-F2363MR, N5295-F2364M,
N5295-F2364MR, N5295-F2365M, N5295-F2365MR,
N5295-F2370M, N5295-F2371M, N5295-F2372M,
N5295-F2373M
Pavilion N5300 Series
N5300, N5310, N5311, N5340, N5341,
N5350, N5351, N5371, N5381, N5390
Pavilion N5300 Series
N5310-F2345M, N5310-F2345MR, N5311-F2354M,
N5340-F2346M, N5340-F2346MR, N5341-F2355M,
N5350-F2347M, N5350-F2347MR, N5351-F2356M,
N5371-F2357M, N5381-F2358M, N5390-F2348M,
N5390-F2348MR
Pavilion N5400 Series
N5400, N5402, N5412, N5415, N5420,
N5420L, N5421, N5421L, N5422, N5425,
N5430, N5435, N5440, N5442, N5444,
N5445, N5451, N5452, N5454, N5455,
N5461, N5462, N5470, N5472, N5474,
N5475, N5481, N5482, N5484, N5485,
N5490, N5495
Pavilion N5400 Series
N5402L-F3889H, N5412-F3963H, N5415-F3931H, N5420L-F2404M,
N5420L-F2404MR, N5421, N5421-F2345MR,
N5421-F2345M, N5421-F2346MR, N5421-F2346M, N5421-F2347MR,
N5421-F2347M, N5421-F2348MR, N5421-F2348M, N5421-F2354M,
N5421-F2355M, N5421-F2356M, N5421-F2357M, N5421-F2358M,
N5421-F2404MR, N5421-F2404MR, N5421-F2415M, N5421-F2416M,
N5421-F3866M, N5421-F3782M, N5421L-F3782M, N5422L-F3962H,
N5425-F3924H, Pavilion N5430, N5430-F2418MR, N5430-F2418M,
N5435-F4310H
Pavilion N5440 Series
Pavilion N5440, N5440-F3864M, N5440-F2405MR, N5440-F2405M,
N5441, N5441-F3783M, N5442-F3957H, N5444-F2413MG,
N5445-F3941H, Pavilion N5450, N5450-F2413MG, N5450-F2406MR,
N5450-F2406M, N5452-F3958H, N5454-F4302HG, N5455-F3926H,
N5455-F3926HR, N5461-F3784M, N5462-F3959H, N5470-F3784M,
N5470-F3865M, N5470-F2407MR, N5470-F2407M, N5472 F3964H,
N5474-F2414MG, N5475 F3927H, N5481-F3785M, N5482 F3960H,
N5484-F4303HG, N5490 F2408M, N5490 F2408MR, N5490 F2408M,
Pavilion N5491, N5491-F2408MR, N5491-F2408M, N5491-F2414MG,
N5491-F3785M, N5491-F3786MN5495 F3942H
Pavilion N5500 Series
N5511L, N5584
Pavilion XH176 Series,
Pavilion XH226 Series,
Pavilion XH355 Series,
Pavilion XH395 Series,
Pavilion XH485 Series
Pavilion XH Series
XH35, XH136, XH156, XH215, XH216,
XH260, XH335, XH365, XH455, XH535,
XH545, XH555, XH575, XH635, XH675
Pavilion XH100 Series
XH136-F1947A, XH136-F1947AR, XH156-F1948A,
XH176-F1947AR, XH176-F1947A, XH176-F1948A,
XH176-F1649AR, XH176-F1949A
Pavilion XH200 Series
XH215-F2369M, XH216-F2366M, XH226-F2369MR,
XH226-F2369M, XH226-F2366MR, XH226-F2366M,
XH226-F2367MR, XH226-F2367M
Pavilion XH300 Series
XH355-F2456M, XH355-F2456MR, XH365-F2349M,
XH365-F2349MR, XH395-F2456MR, XH395-F2456M,
XH395-F2349MR, XH395-F2349M, XH395-F2353MR,
XH395-F2353M
Pavilion XH400 Series
XH455-F2419M, XH455-F2419MR, XH485-F2419MR,
XH485-F2419M, XH485-F2420MR, XH485-F2420M
Pavilion XH500 Series
XH535-F3928H, XH535-F3928HR, XH545-F3933H,
XH555-F3929H, XH575-F3930H,
Pavilion XH600 Series
XH635-F5122H, XH635-F5122HR, XH675-F3408HR,
XH675-F3408H, XH675-F3924H, XH675-F3927H,
XH675-F3928H, XH675-F3928HR, XH675-F3930H,
XH675-F3933H
Monday, February 25, 2008
SONY VGP-BPS5 VGP-BPS5A VGP-BPL5 Laptop Battery
SONY VGP-BPS5 VGP-BPS5A VGP-BPL5 Laptop Battery
Compatible Part Numbers:
VGP-BPL5, VGP-BPL5A, VGP-BPS5, VGP-BPS5A,,
Battery Type : Li-ion
Voltage : 7.40V
Capacity : 11000 mAh
Color : Black
Dimension : 205.90 x 58.00 x 40.10 mm
Product Type : Replacement Battery (Brand New)
Weight : 504.70g
Fit Model:
SONY
Sony VAIO VGN-TX Series
VAIO VGN-TX15C/W, VAIO VGN-TX16C, VAIO VGN-TX16C/W,
VAIO VGN-TX16GP/W, VAIO VGN-TX16LP/W,VAIO VGN-TX16SP/W,
VAIO VGN-TX16TP, VAIO VGN-TX17C/B, VAIO VGN-TX17C/L,
VAIO VGN-TX17GP/B, VAIO VGN-TX17GP/W, VAIO VGN-TX17TP,
VAIO VGN-TX1HP, VAIO VGN-TX1HP/W, VAIO VGN-TX1XP,
VAIO VGN-TX1XP/B, VAIO VGN-TX1XP/L, VAIO VGN-TX25C,
VAIO VGN-TX25C/W, VAIO VGN-TX26C, VAIO VGN-TX26C/B,
VAIO VGN-TX26C/T, VAIO VGN-TX26C/W, VAIO VGN-TX26GP/W,
VAIO VGN-TX26LP/W, VAIO VGN-TX26TP, VAIO VGN-TX26TP/W,
VAIO VGN-TX27CP, VAIO VGN-TX27CP/B, VAIO VGN-TX27CP/L,
VAIO VGN-TX27LP/B, VAIO VGN-TX27TP, VAIO VGN-TX27TP/B,
VAIO VGN-TX28CP, VAIO VGN-TX28CP/L, VAIO VGN-TX2HP/W,
VAIO VGN-TX2XP/B, VAIO VGN-TX2XP/L, VAIO VGN-TX36C,
VAIO VGN-TX36TP, VAIO VGN-TX37CP, VAIO VGN-TX37TP,
VAIO VGN-TX38CP, VAIO VGN-TX3HP/W, VAIO VGN-TX3XP/B,
VAIO VGN-TX3XP/L, VAIO VGN-TX50B/B, VAIO VGN-TX51B/B,
VAIO VGN-TX52B/B, VAIO VGN-TX56C, VAIO VGN-TX56C/W,
VAIO VGN-TX610P/B, VAIO VGN-TX630P/B, VAIO VGN-TX650P/B,
VAIO VGN-TX651PB, VAIO VGN-TX670P/B, VAIO VGN-TX670P/W,
VAIO VGN-TX72B/B, VAIO VGN-TX750P/B, VAIO VGN-TX770P/B,
VAIO VGN-TX770PBK1, VAIO VGN-TX770P/T, VAIO VGN-TX770PTK1,
VAIO VGN-TX770P/W, VAIO VGN-TX770PWK1, VAIO VGN-TX790PK1,
VAIO VGN-TX790P/L, VAIO VGN-TX800, VAIO VGN-TX850PB,
VAIO VGN-TX90PS, VAIO VGN-TX90PS1, VAIO VGN-TX90PS3A,
VAIO VGN-TX90S, VAIO VGN-TX91PS, VAIO VGN-TX91S,
VAIO VGN-TX92PS, VAIO VGN-TX92S
Sony VAIO VGN-TXN Series
VAIO VGN-TXN15P/B, VAIO VGN-TXN15P/W, VAIO VGN-TXN17P7,
VAIO VGN-TXN17P/B, VAIO VGN-TXN17P/T, VAIO VGN-TXN19P/L
Replacement for IBM ThinkPad 310, 315 Series Laptop Battery
Replacement for IBM ThinkPad 310, 315 Series Laptop Battery
Compatible Part Numbers:
60.46914.051, 60.46914.061, 91.46928.010, 91.48428.051, BTP-W31, BTP-X31,11J8604, 11J8639, 11J8645, IB310
,BTP-X31,BTP-X31, IB310, 60.46914.051, 11J8604, 11J8639, 11J8645,,
Battery Type : Ni-MH
Voltage : 10.80V (Compatible with 11.10V)
Capacity : 4000mAh
Color : Black
Dimension : 215.00 x 57.40 x 21.55 mm
Product Type : Replacement Battery (Brand New)
Weight : 677.55g
Fit Model:
IBM
ThinkPad 310 Series
ThinkPad 310, ThinkPad 310D, ThinkPad 310E,
ThinkPad 310ED, ThinkPad 315, ThinkPad 315D,
ThinkPad 315E
ACER
Acer 370
Acer 372
Acer 374
Acer 380
Aquanta 370PC
Acernote Lifenote 373
Acer 310 Series
Acer 310, Acer 310D, Acer 310E,
Acer 310ED
Acer 315 Series
Acer 315, Acer 315E
Acer 610 Series
Acer 610, Acer 610CD,
Acer 610CDT
AcerNote 370 Series
AcerNote Light Series
AcerNote Light 370, AcerNote Light 370P,
AcerNote Light 370PC, AcerNote Light 371,
AcerNote Light 372, AcerNote Light 373,
AcerNote Light 373+, AcerNote 374,
AcerNote Light 380, AcerNote Light 381,
AcerNote Light 383, AcerNote Light 384
Extensa 610 Series
Extensa 610, Extensa 610CD, Extensa 610CDP,
Extensa 610CDT, Extensa 616, Extensa 616CDS,
Extensa 616CDT
TEXAS INSTRUMENTS
Instruments Extensa 610 Series
Instruments Extensa 610,
Instruments Extensa 610CD,
Instruments Extensa 610CDT,
Instruments Extensa 616CDS,
Instruments Extensa 616CDT
UNISYS
Unisys Aquanta 370PC
Friday, February 22, 2008
laptop battery fits TOSHIBA PA3450U-1BRS L10 L20 2200mah
Battery Type : Li-ion
Voltage : 14.40V
Capacity : 2200mAh
Color : Black
Dimension : 205.30 x 61.00 x 19.80 mm
Product Type : Replacement Battery (Brand New)
Weight : 243.70g
Replacement Code:
PA3450U-1BRS,,
Fit Model:
TOSHIBA
Toshiba Equium Series
Equium L20-197, Equium L20-198,
Equium L20-264
Toshiba Satellite L15 Series
Toshiba Satellite L25 Series
Toshiba Tecra L2 Series
Toshiba Satellite L10 Series
Satellite L10-151, Satellite L10-269,
Satellite L10-270
Toshiba Satellite L20 Series
Satellite L20-101, Satellite L20-112,
Satellite L20-118, Satellite L20-120,
Satellite L20-121, Satellite L20-153,
Satellite L20-155, Satellite L20-157,
Satellite L20-159, Satellite L20-173,
Satellite L20-188, Satellite L20-196,
Satellite L20-205, Satellite L20-217,
Satellite L20-256, Satellite L20-257,
Satellite L20-260, Satellite L20-267,
Satellite L20-268, Satellite L20-S310TD
Toshiba Satellite Pro L10 Series
Satellite Pro L10-233
Toshiba Satellite Pro L20 Series
Satellite Pro L20-102, Satellite Pro L20-103,
Satellite Pro L20-174, Satellite Pro L20-211,
Satellite Pro L20-258, Satellite Pro L20-259
Wednesday, February 20, 2008
Laptop batteries
Dear Sir/Madam,
Welcome Guest!
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If you need these products,welcome to vist our websit www.batteries-supply.com inquiry about more information! Any of your requests will enjoy my quick response here.
Thank you!
Best Regards!
http://www.batteries-supply.com
Welcome Guest!
Our compony is specialized in producing of laptop battery.
Laptop batteries are specifically designed for each laptop brand and model.
Batteries-supply.com offers a complete line of replacement notebook batteries for most laptop computers. We offers high quality and cheap laptop batteries for most laptop computers. Our replacement laptop batteries are of higher quality and longer life with the excellent service from our customer service team, you can feel free to purchase on batteries-supply.com. Laptop Batteries and Notebook Batteries for Toshiba, Sony, IBM, HP, Compaq, Apple, Dell, Gateway, Panasonic and more.
All laptop batteries are brand new, save money on high quality laptop batteries, shipped fast!
If you need these products,welcome to vist our websit www.batteries-supply.com inquiry about more information! Any of your requests will enjoy my quick response here.
Thank you!
Best Regards!
http://www.batteries-supply.com
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