Sharp, Enel of Italy since 2011, and the ST joint venture to produce t

Sharp announced January 4, 2010 on the thin film solar cell manufacturing operations with the Italian Enel Green Power (EGP) and STMicroelectronics (STMicroelectronics, ST) signed a tripartite joint venture agreement and the independent power generation business (Independent Power Producer) and EGP between the two sides signed a joint venture agreement (the release of information on Sharp, STMicroelectronics, the release of information). By the European Commission's approval, the two joint-venture company is expected to respectively set up before the end of March 2010. Toshiba,PA3399U-1BAS，PA3399U-2BAS，PA3399U-1BRS，PA3399U-2BRS.

Thin-film solar cell manufacturing operations will be used in Catania, Sicily, Italy, and STMicroelectronics semiconductor factory (M6 plant). Is scheduled for commissioning in early 2011. It is reported that the production capacity for the initial start 160MW / year, plans a few years expanded to 480MW / year. Joint venture manufacturing operations funded ratio, Sharp, EGP, and STMicroelectronics each 1 / 3. The production business will continue to abide by Sharp and EGP in the May 2008 signing of the memorandum, STMicroelectronics is also involved. PA3465U-1BRS，Satellite A100 battery, Satellite A105 battery, Satellite A80 battery, Satellite M100 battery.

A joint venture between Sharp and EGP power generation plant will use the Catania film solar cells, plans by the end of December 2016 before the construction of several solar power stations. Total electricity generation is expected to scale up to more than 500MW. Power stations will be set up in Italy, France, Spain and Greece and other Mediterranean regions. As the thin-film solar cell conversion efficiency at a high temperature drop than crystalline solar cells are smaller, so is suitable for high-temperature parts of the Mediterranean region and other large-scale solar power generation. Power generation business, a joint venture known as ES Solar Farms Srl. EGP funded ratio of 50%, Sharp accounted for 40%, Sharp Electronics (Italia) SpA accounted for 10%.Satellite M105 battery, Satellite M110 battery, Satellite M115 battery, Satellite M40 battery,Satellite M45 battery, Satellite M50 battery, Satellite M55 battery, Tecra A3 battery, Tecra A4 battery, Tecra A5 battery, Tecra A6 battery, Tecra A7 battery,PA3451U-1BRS.

ULVAC has developed EV charging system and receive purchase orders

ULVAC (ULVAC) developed by the electric vehicle (EV) of the quick charger and solar power generation equipment, a combination of EV charging system. Now Chigasaki City, Kanagawa Prefecture, received orders in March 2010 will be held prior to the actual setting in Chigasaki City, APPLE,A1175 ，MacBook Pro 15 inch battery,A1078 ，A1045，PowerBook G4 15 battery municipal car park. EV charging system the price number of million yen. The first year's sales target of 10 billion yen. In addition to Japan, ULVAC that accept overseas orders will be positive.

Being made available to Chigasaki, Kanagawa use by the largest solar power generation capacity of 20kW and 50kW battery fast chargers consisting of EV charging system. Solar power is insufficient, additional electrical power system will be. The system also has in Chigasaki city displayed on a monitor within the state power generation and charging functions. Sony,VGP-BPS2，VGP-BPS2A，VGP-BPS2B，VGP-BPS2C，VGP-BPL2，VGP-BPL2C,VGP-BPS8，VGP-BPS8A，VGP-BPL8, VGP-BPL8A.

The core part of the EV charging system - rapid charger and power regulator is controlled by a subsidiary of ULVAC Japan, Reliance and its joint development. Quick charger in line with Tokyo Electric Power Company's standards and can be filled about 25 minutes into the EV battery capacity of 80%. Japan's development of a sputtering device Reliance power supply, and diverted its fast-charger. Power regulator power conversion efficiency up to 98%. VGP-BPS9，VGP-BPS9/B，VGP-BPS9/S，VGP-BPS9A，VGP-BPS9A/B.

Chigasaki City to provide the system prior to ULVAC has its headquarters in the city of Chigasaki factory configured for presentation of the EV charging system. The system consists of the largest generating capacity of 8.4kW of solar cells and 25kW power quick charger and other accessories. Solar cells used in the trial of the factory production line structure of thin-film silicon tandem solar cells. A stable conversion efficiency of 8%. ULVAC will use the demonstration system, continue to promote research and development work in order to improve the efficiency of EV charging system easy to operate.Sony VGP-BPS10，Sony VGP-BPS10A，Sony VGP-BPS10A/B.

Use of printing technology trial of lithium polymer rechargeable batte

In Mie Prefecture Industrial Support Center Advanced Materials Innovation Center (Advanced Materials Innovation Center) led the development team, using printing technology trial out of lithium-polymer rechargeable dell C1295，Dell Inspiron 500m battery，Dell Inspiron 510m battery. It has the shape of flake, vision and flexible solar cells and displays such as binding, or paste used in the surface shape. If the floor with flexible solar cells formed on the integration, but also so that tilting the film set of generating function and a power-storage functions.

Manufacturing methods using printing technology, in addition to achieve the thin, large area, and plot-based stratification, the volume through a combination of volume-based technology, continuous production process also is expected to realize low-cost. The development of lithium polymer rechargeable battery is Mie Prefecture Industrial Support Center, Dell Inspiron 600m battery，Dell Latitude D500 battery，Dell Latitude D505 battery，Dell Latitude D510 battery,Toppan Printing, Shin-Kobe Electric, KUREHA ELASTOMER, Jinsheng Industrial (Kinseimatec), Ming-cheng, chemical industry, Mie University, Mie Prefecture Suzuka and the High Commissioner for Industrial Research The Japanese Ministry of Education to participate in metropolitan areas to promote industry-academia-government collaboration project results.

The lithium-polymer rechargeable battery with output voltage of 4V and 2V of the two, can be produced at room temperature. Cell thickness of about 500μm. Battery capacity has not been announced. Flexible floor of the formation of positive and negative use of printing technology. Although the use of a common flexible substrate sheet, but the trial use of printing technology, for the vision technology used in a continuous roll to roll production technology. Alleged that the use of Roll to Roll technologies, flexible substrate thinning,Dell Latitude D520 battery，Dell Latitude D600 battery，Dell Latitude D610 battery, so the battery itself can be thinner. In addition, the polymer electrolyte in the package was not used to printing technology. Positive and negative materials and polymer electrolytes details were not disclosed.

Lithium-polymer rechargeable battery from a 08 year development plan began a period of three years, starting in April 2010 for the last year. Development team in the last year is scheduled to increase manufacturing technology to reach the trial level, while volume production will explore the lithium-polymer rechargeable battery suitable purpose. Want to find out the promising use and clear performance parameters such as battery capacity goal.Dell PC764，Dell Latitude D620 battery,Dell Latitude D820 battery，Dell Latitude D830 battery,Dell Y9943，Dell Inspiron 630m battery，Dell Inspiron 640m battery，Dell Inspiron E1405 battery，Dell XPS M140 battery.

Panasonic released the next decade, industry planning, the battery bus

Tencent Technology YORK, January 9, according to foreign media reports, Matsushita Electric Friday, said that by the end of 2019 three of the 2019 fiscal year, the company batteries and other energy services revenue will reach 3 trillion yen ( approximately 32 billion U.S. dollars). dell studio 1555 battery,dell studio 1557 battery,dell studio 1735 battery,dell studio 1737 battery.

Matsushita Electric Industrial Co. expects fiscal year 2019, the company's total revenues will reach 10 trillion yen, batteries and other energy services revenues will account for about one-third of total revenues. In the next six years, the Matsushita Electric Industrial Co. Sanyo Electric's solar cells will be injected about 1,000 business billion yen. Matsushita Electric announced in December 2009, Sanyo Electric's stake in a public stock purchase on December 9 was formally completed, the former to obtain a majority stake in the latter. Matsushita Electric Industrial Co. to pay for this transaction a total of 43 billion dollars. dell vostro 1000 battery,dell vostro 1320 battery,dell vostro 1400 battery,dell vostro 1500 battery.

Matsushita Electric Industrial president Fumio Ohtsubo (Fumio Ohtsubo) said, "to accelerate expansion of our energy-related businesses, will be working with Samsung Electronics, the most effective way to compete." As the world's largest plasma TV maker Matsushita Electric Industrial Co. expects fiscal year 2019 operating margins and return on assets will be at least 10%. 29000 in the global job cuts and spending cuts ¥ 200,000,000,000, after losses at the Matsushita Electric Industrial Co. are expected in the next fiscal year will be re-return to profitability. dell vostro 1520 battery,dell vostro 1700 battery,dell vostro 2510 battery.

Bloomberg News survey of analysts on average expect the current, Matsushita Electric at the end of 2010, three of the 2010 fiscal year net loss of 1130 billion yen as of the end of 2011, three of the 2011 fiscal year net profit will reach ¥ 105,000,000,000.

Matsushita Electric Industrial Co. said Friday, in the integration of the experience from Sanyo Electric, the company Li-ion rechargeable battery business at the end of 2016 three of the 2016 fiscal year revenue will reach 1 trillion yen. Together with Sanyo Electric, Matsushita Electric's objective is to occupy the global Li-ion rechargeable battery industry for at least 40% of the share. dell RN873，dell GW240，dell Inspiron 1525 battery，dell Inspiron 1526 battery,D5318，U4873，Inspiron 6000 battery，Inspiron 9300 battery，Inspiron 9400 battery，Inspiron E1705 battery,KD476，GD761，TD347，Inspiron 1501 battery，Inspiron 6400 battery，Inspiron E1505 battery，Latitude 131L battery.

Hitachi Cable developed for a new generation of lithium-ion rechargeab

Hitachi Cable has developed by adding zirconium (Zr) for enhanced rolling copper, cathode active material for the use of silicon and other alloy materials, a new generation of lithium-ion rechargeable laptop battery ,dell GK479， dell FK890，dell Inspiron 1721 battery. Since the copper foil of the alloy has a strength capable of withstanding the negative electrode active material of the volume change, so it not only can be used for mobile terminals and other consumer products, is also expected for the hybrid vehicle use, etc..

Aimed at increasing the energy density of lithium-ion rechargeable battery means, there is the use of charge-discharge capacity than the current mainstream silicon-carbon-like material such as alloy type of material, as the negative electrode collector body fixation on the surface of copper foil of the negative active material technology. But the alloy type of material in the discharge of the volume change is greater than the carbon-like material,dell Inspiron 1720 battery, dell Inspiron 1521 battery, dell Inspiron 1520 battery, repeated charge and discharge when the copper foil by the stress, resulting in negative active material and lead foil strip, resulting in shortened life expectancy. And, in order to improve the energy density, the general use of the thickness of 8 ~ 10μm thin copper foil, a new generation of lithium-ion rechargeable batteries, also called thin to achieve the same degree. Therefore need to develop a higher strength of copper foil, to resist the negative electrode alloy material volume change.

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