Jeudi 31 décembre 2009 4 31 /12 /Déc /2009 07:21

solar cells

solar cells First post by: www.itsbattery.com
LCD TV can produce a lot of the manufacturers, but can produce LCD panels are a handful of manufacturers. The most representative is Sharp's Kameyama plant, Samsung and Fujitsu Laptop Battery jointly built the plant, LG and Philips jointly built the plant, and several Taiwanese LCD panel manufacturer. Sharp Kameyama factory which produced "ASV panel" popular market sought after. Many consumers choose to buy Sharp LCD TVs are directed at Kameyama factory original LCD Fujitsu FPCBP80 Battery panels from Japan. What is the unique feature of Kameyama plant » Well-integrated peripheral resources, from the beginning of the site Sharp Kameyama plant is located in Japan known as "Crystal Valley" said the city Kameyama, Mie Prefecture, gathered around a "liquid crystal" as the core of the surrounding areas. For example, Kameyama plant and a distant relative of Japan's Toppan Printing plant, the plant is the production of color filters for LCD manufacturing one of the components can be directly supply Fujitsu FPCBP77 Battery Kameyama plant. This can not only save transportation costs and enhance efficiency, more user-friendly Sharp parts of the process and the quality control, for the final produce high-quality LCD panels provide effective protection. Kameyama plant is the world's only LCD panels from a train to the LCD TV production plant. This is not a simple pipeline project, which is of great significance: LCD TV technology experts and design, production technology experts from product design and development stage and learn from face-to-face exchanges, the two sides so as to enhance the technical level . Specifically, the panel is to their own advantages and circuit design and image processing technology for organic integration. The two major areas of technology integration of those parts procurement alone to be assembled by the Fujitsu FPCBP68 Battery manufacturers can not be achieved. Kameyama plant using the eighth generation LCD motherboard the size of 2160 mm  2460mm, but the thickness of only 0.7 mm, and the smooth surface of the motherboard is 2000 times that of ordinary glass. Glue the motherboard in the middle when injected into the liquid crystal layer is only 3-micron, and distributed evenly, without the slightest deviation. To show twice the ordinary fine quality high-definition television, Kameyama plant using nanometer Fujitsu FPCBP63 Battery ultra-fine processing technology, the LCD panel on the TFT (thin film transistor) to 2 times in the past with the density. In addition, since LCD panels on the circuit is very sophisticated, even if mixed with a pollen, will not have a luminous point, leading to fatal flaws. Therefore, the production of LCD panels in the process must ensure that a high cleanliness, and Kameyama plant is a clean room. Energy saving, emission reduction, super green factory Sharp to environmental protection has always been known for its core products can be created that is the solar energy and energy conservation LCD products. Sharp not only implement the concept of Fujitsu FPCBP95 Battery environmental protection in product development, manufacturing more products to infiltrate every aspect of. Kameyama plant is a super green factory laptop battery . Kameyama plant with the world's largest solar power systems, power generation capacity up to 5,210 kilowatts, equivalent to 1300 the average family's electricity requirements, to reduce 3,400 tons of carbon dioxide emissions. In addition, the plant also has Japan's largest fuel cell system will provide 1,000 kilowatts of electricity each year, cutting 3,000 tons of carbon dioxide emissions. As the system at night and rainy day can power generation, and solar power generation system can complement and protect the stability of electricity supply. At the same time, the plant is equipped with Japan's largest heating supply system at the same time, to environmental protection for the liquefied natural gas fuel, generating a total of about 26,400 kilowatts. And will also be produced during the generation of waste heat can be used for air-conditioning, heating and hot water supply, 76,000 tons a year can cut carbon dioxide emissions. LCD panels in the production process, requires a large amount of water used for cleaning operations. Therefore, Sharp from the concept of protection of water resources, to achieve the greatest extent possible use of recycled water. In Kameyama plant, the use of the "manufacturing process used by the water 100% recovery, and then again to enable it to be used in the production of" closed system, the effective realization of the protection of water resources. Focus on the most cutting-edge LCD plant, solar cell factory Related enterprises and factories, "the 21st century-oriented enterprises Group" Currently, Sharp has decided in Sakai City, Osaka Prefecture, the world's first simultaneous construction of the 10th-generation solar panel factory and factory. In addition, the area will also attract the support infrastructure, materials and equipment spare parts production enterprises to invest and build factories, and common development "of the 21st century enterprise groups." On the one hand, Sakai plant will further deepen the Kameyama plant "vertical integration" model, to attract LCD motherboard, color filters and other parts of powerful enterprises to invest and build factories. To achieve lower logistics costs and enhance efficiency, and through ownership of the outstanding technical materials and equipment spare parts production enterprises with Sharp's technical staff work closely with the integration of knowledge and expertise, with a view to achieving a new technological innovation. On the other hand, LCD and solar cells are in the same film technology, to share IBM Laptop Battery materials and gases. Therefore, the two factories located together, through technical integration, is expected to further reduce costs and improve performance. Sharp's LCD and solar cells Sharp LCD technology research and development 35-year history. The industry has spread to such a statement, Sharp has 80 percent of the global LCD patents. Perhaps this is some exaggeration, but Sharp in the hearts of the people but also cutting-edge image is evident. 1998, Sharp successfully cross the threshold of display technology, the first to solve the small LCD TV viewing angle, slow response time, short life, and so on. 2004 Sharp released the 45-inch LCD TV, LCD TV breakthrough in the big screen can not be the bottleneck. 2006 Sharp also released a 65-inch LCD TV, plasma camp and beyond, into the large-screen areas. Now grasp the big-screen, high-definition LCD technology Sharp is moving in the direction of the development of ultra-thin, and has successfully developed a thickness of only 2 cm (Display) LCD TV. In addition, Sharp has developed for the corresponding single-band mobile phones and other products used by small and medium-sized LCD - "Mobile ASV LCD." At present, the panel carrying the Sharp phone in the Chinese market for sale. Sharp since 1959, began to research and development of solar cells are manufactured. So far, solar cell production has been up to more than 2 GW, the global solar cell about the total 1 / 4. Sharp solar cells quality is extremely reliable, is the only Japanese Aerospace Exploration Agency finds that the solar cell. Facts have proved that the Sharp solar cells in the disparity between the temperature of the universe (more than 160 satellites), the humidity and strong winds coast (1900 multiple beacon), and other grim conditions remain normal operation, quality and reliable. In addition, Sharp has developed a conversion efficiency as high as 11% (Sharp products for the past seven percent), the volume is only ordinary crystal silicon solar cells 1 / 100 of the thin film solar cells. Not only save raw IBM ThinkPad T40 Battery materials, in addition to the beautiful appearance. Sharp Kameyama plant's second factory is used by such a thin film solar cells.
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Jeudi 31 décembre 2009 4 31 /12 /Déc /2009 07:19

lithium-ion battery materials

lithium-ion battery materials First post by: www.itsbattery.com
With IBM Laptop Battery technology continues to update and development of its light, high-capacity, long-life advantages gradually consumers of all ages. By phone market has expanded to cameras, model aircraft, toys, and other areas. In recent years, IBM ThinkPad T41 Battery electric power Hardware Tools tools, backup power Regulators regulators, electric bicycles, light electric vehicles and other large equipment on the Application of a growing concern, and the equipment requirements of a large-capacity battery , High-power conditions. IBM ThinkPad T42 Battery can meet the high-security, high power, long life's basic requirements, many experts and scholars on the important subject. Power lithium-ion batteries generally refers to security issues because of improper use of battery power, functional failure, accidents and abuse battery Guzhang leakage, temperature and pressure beyond the use of standard, or even the explosion and fire incidents, resulting in the user lives and property are threatened . One explosion and fire is the most serious safety incidents. Lithium-ion batteries abuse led to the fire explosion of internal reasons are very complicated, but most of them are caused by high temperature and pressure, and the causes of the two most can be summed up in the lithium-ion battery thermal runaway reaction, which is fever. These reactions are generally fever: the cell membrane electrode SEI decomposition, embedded lithium and the reaction solvent, the cathode material decomposition, and so on. Cathode material is the key advantage of the LiMn2O4 Lithium-ion battery power in the security issue, the electrode IBM ThinkPad T43 Battery in the cathode material is the key, but also trigger lithium-ion battery the main reason for potential safety problems. Seeking high energy density, high security, environmental protection, and the cheap power battery electrode material is the key to development. The current widespread use of the cathode material are LiCoO2, manganese lithium-acid, nickel and cobalt and manganese Lithium iron phosphate lithium. On the data obtained at home and abroad, LiCoO2 used to power batteries of greater security risks, not generally as the motive power battery cathode materials; LiMn2O4 the use of more common; nickel and cobalt LiMn2O4 domestic use less, China Taiwan and Japan that some manufacturers use. Because manganese is rich in resources (in particular China, the world's reserves of the third), low-cost, environmentally friendly, and LiMn2O4 a high-voltage discharge, the technology is mature, security, and other layered structure of the cathode material can not be compared High-rate charge and discharge capacity of the advantages and thus present in the promotion of lithium-powered batteries, LiMn2O4 has great advantages. Although relatively lower than capacity, but the larger battery is not in itself constitute a significant weakness. LiMn2O4 cathode materials for the lithium-ion batteries assembly has a good safety and thermal stability. However, there are also LiMn2O4 capacity fading fast (especially in high-temperature conditions), the short life cycle of the shortcomings that impedes the process of actually used. Nickel and cobalt LiMn2O4 material than are the advantages of high capacity, superior performance cycle. Made of lithium-ion battery has a very high energy density, suitable for severe restrictions on weight and volume but high-energy requirements of the field. As the use of the cobalt, nickel and other metals, nickel and cobalt prices LiMn2O4 after LiCoO2. However, nickel and cobalt manganese lithium-acid battery applications in force yet to be assessed on the domestic application of the material is usually the way through doping modified to improve its safety performance, but did not see the size of the application. Lithium iron phosphate rich source of raw materials, low prices, higher than the capacity and excellent high-temperature cycle performance and high safety performance advantages, is very dynamic development prospects of battery cathode materials. Lithium iron phosphate as a new type of battery cathode materials for use in recent years have warming trend. Since the patent restrictions, Europe and North America to mass production of lithium iron phosphate battery of small manufacturers, IBM ThinkPad R50 Battery basically been monopolized by a few manufacturers. Although many domestic manufacturers of lithium-ion iron phosphate lithium battery research and development into production, but due to technical and system-level differences in product quality varied. Additives, electrolyte safety Lithium-ion battery power also affected the design of the IBM ThinkPad R51 Battery of security. Only manufacturers are in the negative ratio, bonding agent types, divide the assembly, welding and a type of ear, package, through careful calculation and control, to make a film within a reasonable current distribution, polarization small battery, cooling Good and efficient security. For safety considerations, the driving force in the design of the battery would normally be taken into account when the abnormal situation occurs when the battery system to environmental heat transfer rate system can produce heat than the speed, because it determines the heat out of control in response to the probability . To further enhance the safety of battery power, many manufacturers will normally be the electrolyte in the battery to join the functional additives. These additives have been sufficient defense, anti-Expansion to improve the low temperature and the role of fire-retardant. It is worth mentioning that the flame retardant electrolyte add impetus to enhance the safety of the battery an important direction. Join the flame retardant is designed to increase the oxygen for combustion electrolyte. As we all know, when the oxygen index of more than 27 when a flame retardant material, the development of the flame retardants are close to or reach this target. The power battery electrolyte, the individual indexes for the development of the additive is not difficult, the difficulty of the electrolyte is to ensure that security at the same time we must take into account other conventional performance. Electrolyte balance for the function, multi-functional compound additives on the direction of R & D is. Essential to the protection board In order to strengthen the driving force for the safety of lithium-ion battery, battery protection board is bound with the equipment. In most cases, lithium protection board should have control of the use of lithium-ion battery conditions of work functions, these conditions include voltage, current and temperature. As the use of lithium-ion batteries are unique, making lithium-ion battery power to protect and support the use of panels together to ensure the safety and reliability of the system as a whole. More and more strings of batteries in matching assembly, in the process of long-term use is inevitable that there are individual differences, the protection board (or battery management system) to be responsible for the entire group of battery voltage, current and temperature, and even the IBM FRU 08K8193 Battery capacity to monitor, we must Achieve the accuracy and prompt action can play a due role. At the same time, battery performance of individual differences in the same charge and discharge current, sections of the battery voltage and available capacity will be different, with the increase in the number of cycle, the battery performance differences will become increasingly significant, which will Greatly reduced performance of the entire battery life significantly shortened. For battery performance to reach or approach the level of single cells, each cell must be balanced so that the batteries within the single charge and discharge performance deteriorated due to reduce to the minimum extent. Most manufacturers have adopted a balanced protection of rechargeable lithium-ion batteries for maintenance. Therefore, the driving force for the safety of lithium-ion battery of factors, the electrode material is essential, to ensure that meet the current industry standard materials testing system only LiMn2O4 and lithium iron phosphate. Manufacturers generally use the safety and compatibility of good performance additives protect the electrolyte lithium-ion battery power to better use. In addition, lithium-ion protection board provides for the protection of the functions of lithium batteries, can maximize the protection of safe and reliable power battery use. Charge balance function of practical guarantee for the lithium-ion battery to power high-securitylong-life work. From the future trend, power lithium-ion batteries, boards and equipment for the protection of the three joint development is a scientific development.
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Lundi 28 décembre 2009 1 28 /12 /Déc /2009 05:21

balanced battery

balanced battery First post by: www.itsbattery.com
Operates at 6 V or more portable devices using the battery pack power supply series, in which case the total voltage battery pack for the series and the battery voltage. The portable computer from the battery pack is usually three or four series from the battery, a nominal voltage of 10.8 V or 14.4 V. In most such applications, a single series battery pack unable to provide the necessary energy equipment. Currently the largest battery (such as Toshiba Tecra 9100 Battery) are available for 2000 mAh (mA hours) energy, and the computer needs 50-60 Whr (5000-6000mAh) energy, it is necessary to the series of three parallel each battery cell. The battery is balanced on the battery pack in the series of different cell (or battery) the difference current. Series battery pack in each of the current battery is usually the same, it is necessary to the battery pack additional components and circuitry to achieve a balanced battery. Only when the battery pack in a series of batteries, battery series equal to or greater than 3 when it will consider battery balance. When the Toshiba Satellite 1900 Battery pack in all the cells are to meet the following two conditions, we achieved a balanced battery: 1. If the battery capacity of all the same, then when their relative status of the same charge when it achieved a balanced battery. SOC to the current capacity and is usually rated capacity expressed as a percentage, therefore, open circuit voltage (OCV) can be used as a measure of SOC. If a battery is not balanced package of all the difference rechargeable battery can be reached full capacity (balanced), they will be able to carry out the normal charge and discharge without any additional adjustments, such adjustments is usually a one-off. Users in the use of the new battery, usually takes a long time called for a rechargeable battery, this process actually include a full release - charging. The process to minimize the load, and battery charging the longest time, reduce the balance of the Toshiba Satellite A60-662 Battery circuit requirements. 2. If the battery capacity of different, when the SOC is also the view that they are balanced. However, SOC is only a relative value, the absolute value of each battery capacity is different. In order to make a different capacity battery SOC the same, each of the series when the Toshiba Satellite A65 Series Battery charge and discharge must use difference current. Normal charging and discharging of time than the initial charge and discharge more quickly, and the need for more current. When the battery pack in the battery is not balanced, it will reduce the available capacity, the battery pack in the series minimum capacity of the battery will determine the total capacity of the battery pack. In the battery pack is not balanced, one or a few batteries will be needed in other rechargeable Toshiba Satellite 2100 Battery, has been reached maximum capacity. The discharge, is not fully charged battery will be first than any other battery-end, so that the battery pack voltage due to a lack of early cessation of electricity supply. Usually, the battery capacity of the difference between less than 3 percent. If the series of lithium battery pack of a battery of sub-standard, or placed in the package before too long, in a voltage difference, after up to 150 mV, so that the total capacity of the battery pack dropped 13-18 percent.
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Lundi 28 décembre 2009 1 28 /12 /Déc /2009 05:20

dominant energy

dominant energy First post by: www.itsbattery.com
At present, the international oil prices continued to rise, energy supply growing tensions, the deteriorating environmental conditions, many countries have begun to attach Toshiba Satellite A10 Series Battery importance to research and development of renewable energy. In China, with the rapid socio-economic development, energy and the environment for sustainable development has become increasingly serious constraint. In light of these problems, the reporters here at Toshiba Satellite A100 Battery the General Assembly on an interview with academicians of the laptop battery details Academy of Engineering, Energy and Mining Engineering academician of Huang Lai. Academician Li Huang, to energy conservation, demand total control, development of clean energy technologies, accelerate the development and utilization of renewable energy, optimizing energy structure, to fill the gap of conventional energy, environmental protection and reduction of greenhouse gas emissions an important way to the achievement of China's economic and social The only way to sustainable development. The development of the road map Although coal and oil and gas in the future is still quite a long time, major energy Toshiba Satellite A70 Battery, but China's oil and gas "reserve-production ratio" has reached the Toshiba Satellite A75 Battery warning line, coal, "reserve-production ratio" is also far lower than the level in most countries. In response, Huang Li academicians, on China's renewable energy development need to establish a more positive goals, he will this goal can be summed up as the road map renewable energy development, renewable energy will gradually be added by upgrading to energy alternative sources of energy, The mainstream of energy and one of the leading energy. Huang Li-academician of the road map to the specific details were described: the recent (around 2010), non-hydro renewable energy strategic positioning is to add energy, can provide 060 million tons of Toshiba Tecra 8000 Battery standard coal equivalent of energy demand, accounting for the proportion of the total energy demand 2%: the medium-term (before and after 2020), non-hydro renewable energy is the strategic positioning of alternative energy sources, can provide 180 million -3.3 million tons of standard coal equivalent, the country's total energy demand of 5% -10%; long-term ( Before and after 2030), non-hydroelectric renewable energy strategic Toshiba Tecra 8100 Battery positioning is one of the mainstream of energy, to meet the 400 million -8 100 million tons of standard coal equivalent of energy demand, the country's total energy demand of around 10% -19%; long-term ( Before and after 2050), renewable energy is of strategic positioning one of the leading energy, to meet the 880 million -17.1 million tons of standard coal equivalent of energy demand, the country's total energy demand of 17% -34%. Weak "vases energy" Although the Government has to recognize that forward-looking development of renewable energy resources and strategic significance, and January 1, 2006 promulgation and implementation of the "People's Republic of China Renewable Energy Law," a number of other laws and regulations have also introduced, but some industries and regions Unclear in resources, industrial and other issues remained to be resolved weak circumstances, a quick success and disorderly development of symptoms, the need for scientific guidance. In addition, as the future direction of energy development, renewable energy in the early stage of development there are still some inadequacies, through economic and technological development so that it gradually rationalized. To solar energy as an example, Huang said Academician Li, solar cells in the production process will emit silicon tetrachloride, environmental pollution and, using solar energy is much higher than the cost of coal-fired electricity; In addition, from solar energy to supply patterns That the lack of stability. Again, bio-energy in the production process, the diversified technology will cause the diversification of products, some technologies such as methane gas produced only a low utilization rate of resources products, comprehensive utilization efficiency is not high compared with coal, bio-energy production Scattered distribution of raw materials, mining and use of high cost of transport. The development and use of water involved immigration, environmental protection and watershed issues such as distribution of economic benefits. "Every may Toshiba Tecra 9000 Battery foster a lack of new projects," Huang Li said. Development should have focused on Academician Li Huang, a family of renewable energy in hydro, wind, solar, biomass and other claims, and should be a clear development of their strategic focus. For example, wind power should be "land-based and network-based, pay attention to the development of distributed, speed up industrial building" solar energy should be "mandatory to promote the construction and use of the thermal technology, solar photovoltaic industry chain on the balanced development "Hydropower should be in protecting the environment and ecology on the basis of active and orderly development. For the current concern to the international community of higher bio-energy development model, Huang Li academicians believe that we should "not with the people for grain, and grain is not in dispute" and "not an agricultural land and water, not fight with livestock feed to ensure that food Security "under the premise of multi-start, with the passage of time, non-grain liquid fuels and alternative oil-based products will become of strategic focus. Specifically, the recent can use more mature type of non-food starch and sweet sorghum production of ethanol, a large-scale production, promote long-term study can be considered second generation of bio-liquid fuel technology, agriculture, forestry, waste utilization in the production of cellulose Bioethanol and biodiesel, the scale of alternative fuel oil to protect the security of energy supplies to contribute. "Fossil energy is the sun yesterday to give our mothers, renewable energy is the sun today to give our mother. A new energy revolution will occur, we can better use of renewable energy, fossil energy left to future generations." Huang Lai Academician said.
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Samedi 26 décembre 2009 6 26 /12 /Déc /2009 05:01

free charge to replace

free charge to replace First post by: www.itsbattery.com
Apple recently announced that its production of notebook found on the battery, but this need not panic. This issue will not be like last year, "Toshiba PA3356U-1BRS Battery" like an explosion led to the fire, but will affect the battery life time. To that end, Toshiba PA3291U-1BRS Battery recently released Toshiba PA3506U-1BRS Battery for the firmware update procedure, Battery Update 1.2, Apple needs to update the notebook products include: MacBook MacBook (2006 year-end period) MacBook Pro (15 inches) MacBook Pro (15 inch display smoothing) MacBook Pro (15 inch, Core 2 Duo processor) MacBook Pro (17 inches) MacBook Pro (17 inch, Core 2 Duo processor) Apple said that if the system automatically upgrade Battery Update 1.2, the following problems are still one or more of: 1. The system does not recognize the battery, battery desktop appeared on the chart "X",. 2. Connect the power adapter will not automatically after the battery charge. 3. In the number of battery charging and discharging no more than 300, the Toshiba PA3591U-1BRS Battery life significantly shortened. 4. Deformation of the appearance of the battery. For these users, you can contact Apple, the company will replace free of charge for a new Toshiba Portege 4000 Battery. It is worth noting that because of this problem is not related to security, so even if the waiting time to replace the old problems of the battery can still continue to be used.
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