Good Battery

East power electronic devices from July 20, 2010 to start selling the U.S. Infinite Power Solutions (IPS) of all solid batteries “THINERGY” (Figure 1). East power electronic devices and IPS signed a sales agency agreement, plans in Japan, Korea and Taiwan to sell. Tokyo Electric Power electronic devices and strive to achieve in the next three sales of 1 billion yen.

IPS’s all solid battery cathode material used in lithium cobalt oxide (LiCoO2), anode materials used in lithium metal films used in the solid electrolyte in lithium-phosphate oxygen and nitrogen (LiPON). Cell stack 6 by the coating layer electrode, the thickness of only 0.17mm.

Ongoing production of 1 inch (25.4mm) square units “MEC101″, with a capacity of 0.7mAh of standard products, as well as capacity 1mAh the end product. When the depth of discharge (DOD) to 100%, repeated 1C charge and discharge, still have 10 000 times more than life. The high rate at 70C discharge under the continuous release of 40mA of current (Figure 2). Self-discharge rate is only 1% or less. Operating temperature range is -40 ~ 85 ℃. Learned, is currently being developed for automotive use, etc. to support maximum working temperature of 260 ℃ products.

IPS plans to use these features, the new products for wireless sensors, active RFID tags, smart cards and other small medical devices inside the power supply system, and replace the portable battery built into the button and double-layer capacitors. East power electronic devices that exist on the market in particular, the following requirements: the batteries and solar cells and solid vibration power generation portfolio of small power modules for sensor networks, wireless sensor.

In addition to industry has begun to explore the board for power and standby power SSD memory in addition there will be solid battery built into the print wiring base plate for development. IPS provides not only solid battery monomer, also started to provide the solid battery with integrated charge management, over-charging protection and power regulation functions of the control circuit of the small power module (Micro Power Module, MPM).

Although the sample of solid battery price is 2000 yen, but once the IPS overall mass production and bring costs down to single digits. IPS Colorado in the United States to build an annual output of 1 million cell production system, after expansion may produce six million.

Can be mass produced unit in addition to MEC101, there are 1 inch × inch (50.8mm)’s “MEC102″ and 1 inch × 0.5 英寸 (12.7mm)’s “MEC120″, a total of three. In addition, from the fourth quarter of 2010, start sample shipments in the watch can be equipped with the 0.5-inch square “MEC125″.

IPS was founded in 2001, venture firms. From Oak Ridge National Laboratory (Oak Ridge National Laboratory, ORNL) won all solid battery technology licensing. In addition to IPS, the United States Cymbet and STMicroelectronics (STMicroelectronics) from Oak Ridge National Laboratory received a technology licensing.

Car at home and abroad enterprises have made Power of hybrid, electric vehicle technology occasion, Chery also open a new path, with the U.S. electric car infrastructure providers Better-place companies to accelerate the mass production type can replace the battery electric vehicle research and development. We can not help but ask, “quick-change battery mode” electric car really is a way to industrialization? Can help the eventual realization of large-scale electric vehicle market?

To seize the market rent consignment

Now, with new energy-based electric vehicle automotive development strategy has become national policy, public enterprises are also actively promote the car. But, after all, is an emerging field, because standards are not uniform, the price is too high, charging stations and other facilities inadequate, the electric car order to realize the industrialization of large-scale, market still has a long way to go. Chery therefore thought of “quick-change battery technology”, and Better-place companies, which in the electric vehicle charging facilities intelligent building has a rich experience.

According to sources, Chery, the two sides will jointly develop a replaceable battery electric vehicles, and to study the electric car charging network solutions to Speed Up the process of the market of electric vehicles, electric vehicles worldwide to seize opportunities. Same time, through research and development, will enable electric vehicle charging network with seamless docking, enterprises appear to avoid the current part of the car’s electric vehicle charging network interface can not be compatible with the plight.

Chery aspects that are “quick-charge” technology advantages and disadvantages, while in shorter charging time, which greatly hurt the cell body. The quick-change battery mode of development, will make different cell types in the practical level, the difference becomes negligible. In addition, the current high cost of electric vehicle batteries, consumer unbearable. The Chery launched “to rent consignment” sales model and the “quick-change battery” technology combined products will become increasingly convenient and marketization. Chery official said, “opt-in electric cars Chery for the user, simply replace the battery station” for rent “batteries can be, as easy as to the gas station.”

How the costs of rent charged for

If the lease, will make a cost that would be how to collect it? Interview with Xinhua, Chery Automobile Co., Ltd. Deputy General Manager of new energy transport boat party, he told reporters: “‘Rent for batteries’ cost of government, the quick-change stations and consumers share responsibility for the specific mode of operation is discussed. I believe will would help consumers to use and maintain the battery, and can quickly accept electric vehicles. quick-change points in a dedicated charging equipment, replaced the battery will slowly charge, to take such a way that reduces battery consumption, extend the battery life, charging at night can also be used, economic security benefits. ”

According to Fang Zhou Yun introduced to such electric vehicles to market successfully in 2012, the present greater R & D efforts. Market share of such models will be based on actual demand, pricing is also specific accounting. To do now is further promoting the technology matures and the quick change power station built, a demonstration pilot, further optimization of the relevant technical and operational programs. Q4 this year for the average consumer in China can see a demonstration of quick change batteries, the production model will have 1 to 2 models.

Between ideal and reality

In fact, the “quick-change battery technology” argument a long time, but in fact is the technology struggles, each enterprise has its own views. Some people like to charge, it was like for power, these two technologies have their advantages and disadvantages. So the technology’s future prospects in the end what it true, Chery said, to promote large-scale electric car market? Automotive Engineering Research Institute of Shanghai Jiaotong University, Professor Yin expressed his view: “Now electric car charging time is too long, compared with oil, consumers can not accept quick-change energy technology generation, can only say that can ease this problem. If you want to change the battery, there is a deep-seated problems, that is for electric scale electric cars themselves how to achieve because the car industry is not in the end did not take the size effect. ”

Prof. Yin said that the current large-scale production is unlikely to change in electric cars, mainstream companies are reluctant to act rashly. As developed as IBM compatible, and the establishment of standards, but to support the provision of Intel chips and Microsoft operating systems, equivalent to the current small battery business, enterprises do not want any car a second IBM.

But to have to scale earnings, to a large scale uniform soon have to change the battery box, motor standard, if not a unified standard would be no cost advantage, then the scale will be difficult. However, as the same are not the same brand mobile phone battery, car battery even more difficult.

And if so, pure electric cars are the core of family members from the battery factory, only the car shell is made of vehicle factories, vehicle personalization is also gone. Perhaps the change in electric vehicle development is a new opportunity to change the energy field, but a gap remains between the ideal and reality. That which is not only common issues from the battery, there is the issue of car design, into very large.

The use of solar water heaters have become commonplace, but when solar power can into the homes of ordinary people? From the Tianjin Binhai High-tech Industrial Development Zone was informed that settled in the coastal high-tech park project will be AU Optronics company put into production in August. Production of solar cells currently used the world’s most sophisticated photovoltaic technology, a dozen film area of 1.7 square meters of solar panels together, the annual power generation more than 1,000 degrees, basically to meet the daily demand of a family.

“If a disaster area to provide emergency lighting power supply, a million products composed of small systems can meet.” According to technical personnel, AU Optronics products polysilicon solar cells project currently the world’s most sophisticated photovoltaic technology. AU Optronics Corporation put into operation in Tianjin, for photoelectric conversion of 14% to 15% of general products and 17% to 19% of high-end product, then the conversion rate will be the introduction of ultra-high conversion rate of 22% of battery products.

Generally calculated in accordance with the staff to the roof or on flat ground to set the civil solar panels, for example, 10 kW solar panel group (about 40 blocks, each block area of 1.7 square meters) up to an annual generation capacity of about 6000 to 7000 degrees . More than a dozen solar panels together, more than 1,000 degrees each year, generating capacity, can meet a family day lighting, television and other demand. The battery pack can protect the life of 25 years.

According to reports, the project put into production in August after four production lines will be started successively, and can produce on demand the appropriate civil or industrial products, to achieve an annual output of 200 megawatts of production capacity.

July 7, Lake Beijing Branch Xinhe New Energy Technology Co., Ltd. and Castle Peak Energy Research Institute HealthCare signed a cooperative contract of mutual investment 110 million yuan in Hubei Province through the establishment of new energy technology Co., Ltd., Castle Peak, development and production of electric cars special batteries and other power battery.

It is reported that a letter co-Lake Beijing Branch New Energy Technology Co., Ltd. The total investment will be less than 30 billion yuan, 1-2012 invest 1 billion yuan by the end of specialized batteries for electric vehicle research and development.

Currently, Xiangfan by vigorously implementing the strategies of new energy vehicles, has formed a vehicle from the battery to the electric car more complete industrial chain, brought together more than 10 manufacturers, industry cluster effect gradually. Castle Peak Energy Research Institute R & D alum iron phosphate lithium-ion batteries have been identified in Northern Automotive Quality Supervision, Inspection and test by test, to state “lithium-ion batteries for electric vehicle” standards. Through this partnership, will soon be the electric car battery production technology, processes, and commercialization closely, so that the battery capacity, key indicators such as battery charge rate to a higher standard.

Applied Materials (Applied Materials, AMAT) open the successive operating deficit of energy and environmental solutions sector (Energy and Environmental Solutions: EES) of the reorganization plan. The company sets out to provide thin film silicon solar cell production line class total solutions business (Turnkey Solution), instead committed to crystalline silicon solar cells and LED business class. However, CVD and sputtering devices, device type silicon thin film solar cell manufacturing plant operations will continue.

Previously, AMAT has been “SunFab” film silicon solar cell as a whole class of solutions as the core to carry out solar cell business. As to provide total solutions, help to promote the popularization of solar cells. On the other hand, the business also vulnerable to governments to develop the impact of energy policy. And the need to provide support to ongoing operations to bear the “heavy burden” (Applied Materials Japan). The resulting profit of the business difficult. In fact, with the economic situation, recovery, and other departments both sales and operating profit expanded only EES sector deficit in a row.

AMAT believes that this restructuring will take 300 million 75 million ~ 400 million cost of around 25 million U.S. dollars, but can reduce operating expenses EES department more than 100 million U.S. dollars. After the reorganization, EES department will become available beginning in 2011 annual profit of the sector. The company will continue to provide support to existing SunFab. In addition, CVD will continue to carry out sputtering devices, equipment and manufacturing operations in a single device, it will continue to improve efficiency and productivity for the purposes of research and development. In addition, solar cell set up in China R & D base will change the direction of R & D is committed to crystalline silicon solar cells and other products category.

 Within the first notebook battery power exhaustion. With the more clean and better. And then to find some good absorbent paper (I use napkins), the battery pack up. Then the whole of the battery box into the refrigerator freezer to (not frozen), put 3 days, then take it out 2 days at room temperature decentralization. wait for the battery thaw. so when the battery return to room temperature, and then threw it out of the refrigerator .2 days later, at room temperature for 3 days, put them in laptop charging.

    Notebook battery capacity drop solution development team approach

My notebook is basically installed in the notebook, and one to prevent accidental power outage, resulting in his work in vain. Secondly, can also play a role in protecting your computer. Every night I go to bed is holding the computer, battery will look at a movie or fiction (with a wireless network), and then sleep. but a long time (soon 2 years). found to decrease battery life. with software testing, and find a 45% decline in capacity you can only use a word within an hour. Then find a lot of ways, no way to lose 45% of the capacity to look back.

    Last month, read the article about cell phone battery maintenance, so I opened Dayton hut. In accordance with the method, you can restore the capacity of the battery to 90% or more, and now used for nearly a month, and no Sha problem. Is speak out and share with everyone, hopefully more useful to everyone. specific approach is the first notebook battery power exhaustion. with the more clean and better. and then to find some good absorbent paper (I use napkins) , the battery pack up. then the whole of the battery box into the freezer to the refrigerator (not frozen), put 3 days, then take it out 2 days at room temperature decentralization. wait for the battery thaw. so when the battery return to room temperature, then .2 days later thrown out of the refrigerator, at room temperature for 3 days, put into the laptop charging. at a time when attention to the battery installed and copper on the surface of the water all get a clean. is full, you re-use the software under test to see the battery capacity back to 90% of the. with the time and battery life up to two and a half hours or more of the. happy now!

    This year, new energy car has been in the hot plate, then came the recent Ministry of Industry and Development will develop the battery power, the relevant company is expected to receive financial subsidies, tax incentives and other aspects of support. However, because of this emerging market company level within the field of arrhythmia, new regulations will accelerate eliminate a number of possible poor performance of the company, and leading technology, excellent performance is expected to accelerate the development of the company.

    Power battery development ideas will be clear

    Ministry of Industry has called on the upstream and downstream enterprises, research institutions, held in Tianjin, “Power Battery Industry Development Forum”, on the development of battery overall planning, a clear roadmap to strengthen the management of technology research and industry, to prevent blind investment and duplicated construction . Combined with the Ministry of Industry will be two sessions this year on behalf of members of the electric vehicle and battery of a proposal for handling the situation, organize the experts to develop as soon as power battery development ideas, and effectively promote China’s new energy auto industry. Insiders pointed out that the new energy power batteries into nickel-hydrogen batteries and lithium battery. The former is mainly used in hybrid vehicles, and hybrid vehicles with lower subsidies, will only exist as a transitional form, in the long run, benefit levels will be greatly reduced. The lithium battery for electric vehicles and for plug-in hybrid vehicles in use, more than nickel-metal hydride battery development prospects.

    Since the 20th century, after the success of 90 lithium battery research and development, the last decade a rapid growth in the small secondary battery market holds the largest market share. As technology advances lithium batteries have been in people’s lives has been widely used, such as portable electronic products, new energy transport and storage and other fields.

    The lithium batteries used in hybrid cars due to the development of new energy vehicles in the positive, bright future. With Japan and other countries in that our lithium business and electric bike industry integration between enterprises is entirely spontaneous. Overall, China’s lithium technology, the highest level with foreign advanced level did not differ much. These advanced technology to achieve industrialization, only the production equipment, research and development breakthrough. Lithium battery industry chain mainly consists of three parts: lithium ore, lithium battery materials and battery manufacturing and packaging.

    Lithium batteries is expected to benefit first leader

    Lithium iron phosphate is lithium revolution triggered a new material industry, is the development of the industry’s most cutting-edge lithium. Chinese companies began to launch in 2001 of lithium iron phosphate material development, the current lithium iron phosphate industry, the domestic investment boom is on the rise, the trend more than any other country. As of 2009, there were 50-60 home appliance manufacturers will soon or have already completed the core product line acquisition, for capacity expansion, which has entered the industrial mass production to the market stability of supply enterprises in Tianjin strand, Peking University first, BYD , Hunan Shanshan new materials 8, the rest are in the pilot stage. Hengtai Securities that CITIC Guoan, Tibet mining concern.

    The middle is for the production of lithium battery cathode material and lithium battery separator business. The next decade, the total global demand for cathode materials for lithium compound annual growth of more than 20%, while the dynamic growth of cathode materials for lithium is as high as 40%. Global demand for cathode materials for lithium is expected to total from last year’s 37,600 tons, in 2012 soared to 8.17 million tons, of which diverse materials, lithium manganese oxide and lithium iron phosphate cathode material for lithium power the next decade, 40% compound annual growth above. States Securities recommended when l technology, the company gradually consolidate to enhance competitiveness, the laying of rapid growth platform. As the lithium industry showed a high concentration of monopoly, with the large-scale power lithium products on the upstream material quality and technological innovation increasingly stringent requirements of the industry to gradually raise the threshold, under the company’s first-mover advantage is expected to show strong momentum Always the Winner.

Development of green and marked a new low-carbon energy technology industry in Suzhou economic restructuring is undoubtedly an important part of upgrading. The new energy industry, inexhaustible solar energy, new energy industry is a good key aim.

Some people say that solar energy solar energy, with the sun there can be no sun on the incompetent.

This is only half – before it does, not right now, and rainy days, even under fluorescent lights, a solar cell can still generate electricity. This battery can also be used to promote fruit and vegetable greenhouse growth prospects are bright.

This solar cell is the high-performance amorphous silicon solar cells. Recently, the production of such batteries General PV Energy (Suzhou) Co., Ltd. has been in the park within Weiting foundation, one completed, it will form a 50-100 megawatt amorphous silicon thin film solar cell production capacity, long-term production size of around 200 MW, dell GK479 while the establishment of advanced technology research and development, testing and building integrated high-efficiency agriculture development center and three centers, become the leading enterprises in the field of solar energy industry.

Under fluorescent light power launched

Universal Photovoltaic Energy (Suzhou) Co., Ltd. General Manager Dr. Liu Youhai introduced into the 21st century, global demand for solar cells, being more than 40% annually.

The current silicon solar cells can be divided into three categories: single crystal silicon solar cells, polycrystalline silicon thin film solar cells and amorphous silicon thin film solar cells. Which looks rather dark polysilicon thin film solar cell market share of 90%. But the production of polycrystalline silicon thin film solar cells need to consume a large amount of high purity silicon, and high purity silicon in short supply in recent years, there were even no market value, dell FK890 serious impact on the industry. In addition, the production of polycrystalline silicon thin film solar cell energy consumption, to produce a polycrystalline silicon thin film solar photovoltaic module components (1 × 1.5 米 specifications), needs to consume 40 kilograms of coal, but also pollution.

Amorphous silicon thin film solar cell is not the existence of these constraints. Of course, before the existence of such batteries is not high energy conversion rate of the shortcomings. Liu Youhai that the general polysilicon thin film solar cell energy conversion rate of 16%, while the amorphous silicon thin film solar cell conversion rate was only 7% of the world’s advanced level of only 10%. Conversion rate is low, so many people are reluctant to choose this cell.

However, after the Chinese team of independent R & D, General PV Energy (Suzhou) Co., Ltd can produce the energy conversion rate of 14%. Listen to less than polycrystalline silicon thin film solar cells, but scientific tests proved that the same conversion rate of thin film solar cells, amorphous silicon The electricity is 1.2 times that of polysilicon. Liu Youhai explained that this is because the amorphous silicon cells are more weak in the case of light can generate electricity, such as rainy days (if a little light), even under fluorescent light can also generate electricity.

Sure enough, reporters Universal Photovoltaic Energy (Suzhou) Co., Ltd. dell Inspiron 1721 battery Temporary office witnessed this point: here’s a backlight near corner stood a tall adult board, the board’s surface look like glass, close to the top sheet of paper to tell people that this is the amorphous silicon thin film solar cell components of the. Odd that there is no single piece of wire and components connected with the outside world, can not shine a ray of sunshine, but even the top of a small lamp lit. Accompanied by the companies interviewed Yan One project manager explained before, a small lamp of power, is absorbing the indoor fluorescent components of energy conversion from the.

Unlimited prospects

Liu Youhai not without pride that 14% to 16.8% by 1.2, so their battery power, the actual conversion rate higher than normal silicon cells. This battery can be used for the power generation, can also be used to assist in building the energy, but also for home use, such as used in the water heater is used to lighting. By a 100-120 watt power components, ordinary people usually coupled with a board with six battery device is sufficient.

In addition, this battery can also be used in greenhouse, so that some of the specific wavelength is not power, and used for the greenhouse warming, promoting fruit and vegetable production, which is the normal silicon cells can not. Liu Youhai, currently they have established in Rugao and other places several demonstration shelf, shelf bracket model is not installed plastic membrane, but fitted with amorphous silicon thin film solar cell module. Because there is no sun can still generate electricity, so cold when the growth rate of fruits and vegetables much faster than the other sheds.

Liuyou Hai said it was optimistic about the prospects of this vast, combined with favorable investment environment of Suzhou, so the total investment of 300 million US dollars, dell Inspiron 1720 battery covers an area of 253 acres of foreign-funded projects will Suzhou Foundation, a project expected to put into operation next year . In addition to construction of thin film photovoltaic control group of production bases and equipment manufacturing base, there will also set up three R & D centers, namely 30 000 square meters of advanced technology research and development center, 15,000 square meters of high agricultural experiment center and 15,000 square meters of construction integration and development centers.

New Energy and Industrial Exhibition grand

As a high-performance products, amorphous silicon thin film solar cells of course, is to lead the development of a new energy industry, beach-goers, but by no means the only beach-goers.

To park, for example, there have been aimed at the nano-optical new energy to the industry. Nano-optical semiconductor lighting and new energy is the main direction of solar photovoltaic cells, to general lighting, large screen LCD backlight modules and LED battery equipment as the breakthrough independent film.

And Universal Photovoltaic Energy (Suzhou) Co., Ltd. the same day in the park foundation’s up bright electronic items, is one example. The company by the Taiwan subsidiary of BenQ Group Lunda Electronics Co., Ltd. invested a total investment of approximately USD 500 million yuan. The project covers about 363 acres, will be moved to the first quarter of next year, and production equipment to provide domestic and international markets LED backlight LCD and LED lighting applications. After the completion of up to bright electronic LED industry will be the only film from the upstream extension, middle chips, packaged applications, the downstream one-stop production company, formed in the mainland’s largest LED industry base.

Lou turnip settled on poly-can Optical Technology (Suzhou) Co., Ltd., is one example. The company consists of Xin Gu Optoelectronics Co., Ltd. in April 8, 2010 funded the establishment, mainly engaged in high-power semiconductor lighting (LED) extension and the design of industrialization. Companies registered capital of 250 million yuan, total investment of 750 million yuan.

Development of green and marked a new low-carbon energy technology industry in Suzhou economic restructuring is undoubtedly an important part of upgrading. The new energy industry, dell GK479 inexhaustible solar energy, new energy industry is a good key aim.

Some people say that solar energy solar energy, with the sun there can be no sun on the incompetent.

This is only half – before it does, not right now, and rainy days, even under fluorescent lights, a solar cell can still generate electricity. This battery can also be used to promote fruit and vegetable greenhouse growth prospects are bright.

This solar cell is the high-performance amorphous silicon solar cells. Recently, the production of such batteries General PV Energy (Suzhou) Co., Ltd. has been in the park within Weiting foundation, one completed, it will form a 50-100 megawatt amorphous silicon thin film solar cell production capacity, long-term production size of around 200 MW, dell FK890 while the establishment of advanced technology research and development, testing and building integrated high-efficiency agriculture development center and three centers, become the leading enterprises in the field of solar energy industry.

Under fluorescent light power launched

Universal Photovoltaic Energy (Suzhou) Co., Ltd. General Manager Dr. Liu Youhai introduced into the 21st century, global demand for solar cells, being more than 40% annually.

The current silicon solar cells can be divided into three categories: single crystal silicon solar cells, polycrystalline silicon thin film solar cells and amorphous silicon thin film solar cells. Which looks rather dark polysilicon thin film solar cell market share of 90%. But the production of polycrystalline silicon thin film solar cells need to consume a large amount of high purity silicon, and high purity silicon in short supply in recent years, there were even no market value, serious impact on the industry. dell Inspiron 1721 battery In addition, the production of polycrystalline silicon thin film solar cell energy consumption, to produce a polycrystalline silicon thin film solar photovoltaic module components (1 × 1.5 米 specifications), needs to consume 40 kilograms of coal, but also pollution.

Amorphous silicon thin film solar cell is not the existence of these constraints. Of course, before the existence of such batteries is not high energy conversion rate of the shortcomings. Liu Youhai that the general polysilicon thin film solar cell energy conversion rate of 16%, while the amorphous silicon thin film solar cell conversion rate was only 7% of the world’s advanced level of only 10%. Conversion rate is low, so many people are reluctant to choose this cell.

However, after the Chinese team of independent R & D, General PV Energy (Suzhou) Co., Ltd can produce the energy conversion rate of 14%. Listen to less than polycrystalline silicon thin film solar cells, but scientific tests proved that the same conversion rate of thin film solar cells, amorphous silicon The electricity is 1.2 times that of polysilicon. Liu Youhai explained that this is because the amorphous silicon cells are more weak in the case of light can generate electricity, such as rainy days (if a little light), even under fluorescent light can also generate electricity.

Sure enough, reporters Universal Photovoltaic Energy (Suzhou) Co., Ltd. Temporary office witnessed this point: here’s a backlight near corner stood a tall adult board, the board’s surface look like glass, close to the top sheet of paper to tell people that this is the amorphous silicon thin film solar cell components of the. Odd that there is no single piece of wire and components connected with the outside world, can not shine a ray of sunshine, but even the top of a small lamp lit. dell Inspiron 1720 battery Accompanied by the companies interviewed Yan One project manager explained before, a small lamp of power, is absorbing the indoor fluorescent components of energy conversion from the.

Unlimited prospects

Liu Youhai not without pride that 14% to 16.8% by 1.2, so their battery power, the actual conversion rate higher than normal silicon cells. This battery can be used for the power generation, can also be used to assist in building the energy, but also for home use, such as used in the water heater is used to lighting. By a 100-120 watt power components, ordinary people usually coupled with a board with six battery device is sufficient.

In addition, this battery can also be used in greenhouse, so that some of the specific wavelength is not power, and used for the greenhouse warming, promoting fruit and vegetable production, which is the normal silicon cells can not. Liu Youhai, currently they have established in Rugao and other places several demonstration shelf, shelf bracket model is not installed plastic membrane, but fitted with amorphous silicon thin film solar cell module. Because there is no sun can still generate electricity, so cold when the growth rate of fruits and vegetables much faster than the other sheds.

Liuyou Hai said it was optimistic about the prospects of this vast, combined with favorable investment environment of Suzhou, so the total investment of 300 million US dollars, covers an area of 253 acres of foreign-funded projects will Suzhou Foundation, a project expected to put into operation next year . In addition to construction of thin film photovoltaic control group of production bases and equipment manufacturing base, there will also set up three R & D centers, namely 30 000 square meters of advanced technology research and development center, 15,000 square meters of high agricultural experiment center and 15,000 square meters of construction integration and development centers.

New Energy and Industrial Exhibition grand

As a high-performance products, amorphous silicon thin film solar cells of course, is to lead the development of a new energy industry, beach-goers, but by no means the only beach-goers.

To park, for example, there have been aimed at the nano-optical new energy to the industry. Nano-optical semiconductor lighting and new energy is the main direction of solar photovoltaic cells, to general lighting, large screen LCD backlight modules and LED battery equipment as the breakthrough independent film.

And Universal Photovoltaic Energy (Suzhou) Co., Ltd. the same day in the park foundation’s up bright electronic items, is one example. The company by the Taiwan subsidiary of BenQ Group Lunda Electronics Co., Ltd. invested a total investment of approximately USD 500 million yuan. The project covers about 363 acres, will be moved to the first quarter of next year, and production equipment to provide domestic and international markets LED backlight LCD and LED lighting applications. After the completion of up to bright electronic LED industry will be the only film from the upstream extension, middle chips, packaged applications, the downstream one-stop production company, formed in the mainland’s largest LED industry base.

Lou turnip settled on poly-can Optical Technology (Suzhou) Co., Ltd., is one example. The company consists of Xin Gu Optoelectronics Co., Ltd. in April 8, 2010 funded the establishment, mainly engaged in high-power semiconductor lighting (LED) extension and the design of industrialization. Companies registered capital of 250 million yuan, total investment of 750 million yuan.

evelopment of green and marked a new low-carbon energy technology industry in Suzhou economic restructuring is undoubtedly an important part of upgrading. The new energy industry,  dell GK479  inexhaustible solar energy, new energy industry is a good key aim.

Some people say that solar energy solar energy, with the sun there can be no sun on the incompetent.

This is only half – before it does, not right now, and rainy days, even under fluorescent lights,  dell FK890 a solar cell can still generate electricity. This battery can also be used to promote fruit and vegetable greenhouse growth prospects are bright.

This solar cell is the high-performance amorphous silicon solar cells. Recently, the production of such batteries General PV Energy (Suzhou) Co., Ltd. has been in the park within Weiting foundation, one completed, it will form a 50-100 megawatt amorphous silicon thin film solar cell production capacity, long-term production size of around 200 MW, dell Inspiron 1721 battery while the establishment of advanced technology research and development, testing and building integrated high-efficiency agriculture development center and three centers, become the leading enterprises in the field of solar energy industry.

Under fluorescent light power launched

Universal Photovoltaic Energy (Suzhou) Co., Ltd. General Manager Dr. Liu Youhai introduced into the 21st century, global demand for solar cells, being more than 40% annually.

The current silicon solar cells can be divided into three categories: single crystal silicon solar cells, polycrystalline silicon thin film solar cells and amorphous silicon thin film solar cells. Which looks rather dark polysilicon thin film solar cell market share of 90%. But the production of polycrystalline silicon thin film solar cells need to consume a large amount of high purity silicon, and high purity silicon in short supply in recent years, there were even no market value, serious impact on the industry. In addition, the production of polycrystalline silicon thin film solar cell energy consumption, to produce a polycrystalline silicon thin film solar photovoltaic module components (1 × 1.5 米 specifications), needs to consume 40 kilograms of coal, but also pollution.

Amorphous silicon thin film solar cell is not the existence of these constraints. Of course, before the existence of such batteries is not high energy conversion rate of the shortcomings. Liu Youhai that the general polysilicon thin film solar cell energy conversion rate of 16%, while the amorphous silicon thin film solar cell conversion rate was only 7% of the world’s advanced level of only 10%. Conversion rate is low, so many people are reluctant to choose this cell.

However, after the Chinese team of independent R & D, General PV Energy (Suzhou) Co., Ltd can produce the energy conversion rate of 14%. Listen to less than polycrystalline silicon thin film solar cells, but scientific tests proved that the same conversion rate of thin film solar cells, amorphous silicon The electricity is 1.2 times that of polysilicon. Liu Youhai explained that this is because the amorphous silicon cells are more weak in the case of light can generate electricity, such as rainy days (if a little light), even under fluorescent light can also generate electricity.

Sure enough, reporters Universal Photovoltaic Energy (Suzhou) Co., Ltd. Temporary office witnessed this point: here’s a backlight near corner stood a tall adult board, the board’s surface look like glass, close to the top sheet of paper to tell people that this is the amorphous silicon thin film solar cell components of the. Odd that there is no single piece of wire and components connected with the outside world, can not shine a ray of sunshine, but even the top of a small lamp lit. Accompanied by the companies interviewed Yan One project manager explained before, a small lamp of power, is absorbing the indoor fluorescent components of energy conversion from the.

Unlimited prospects

Liu Youhai not without pride that 14% to 16.8% by 1.2, so their battery power, the actual conversion rate higher than normal silicon cells. This battery can be used for the power generation, can also be used to assist in building the energy, but also for home use, such as used in the water heater is used to lighting. By a 100-120 watt power components, ordinary people usually coupled with a board with six battery device is sufficient.

In addition, this battery can also be used in greenhouse, so that some of the specific wavelength is not power, and used for the greenhouse warming, promoting fruit and vegetable production, which is the normal silicon cells can not. Liu Youhai, currently they have established in Rugao and other places several demonstration shelf, shelf bracket model is not installed plastic membrane, but fitted with amorphous silicon thin film solar cell module. Because there is no sun can still generate electricity, so cold when the growth rate of fruits and vegetables much faster than the other sheds.

Liuyou Hai said it was optimistic about the prospects of this vast,  dell Inspiron 1720 battery combined with favorable investment environment of Suzhou, so the total investment of 300 million US dollars, covers an area of 253 acres of foreign-funded projects will Suzhou Foundation, a project expected to put into operation next year . In addition to construction of thin film photovoltaic control group of production bases and equipment manufacturing base, there will also set up three R & D centers, namely 30 000 square meters of advanced technology research and development center, 15,000 square meters of high agricultural experiment center and 15,000 square meters of construction integration and development centers.

New Energy and Industrial Exhibition grand

As a high-performance products, amorphous silicon thin film solar cells of course, is to lead the development of a new energy industry, beach-goers, but by no means the only beach-goers.

To park, for example, there have been aimed at the nano-optical new energy to the industry. Nano-optical semiconductor lighting and new energy is the main direction of solar photovoltaic cells, to general lighting, large screen LCD backlight modules and LED battery equipment as the breakthrough independent film.

And Universal Photovoltaic Energy (Suzhou) Co., Ltd. the same day in the park foundation’s up bright electronic items, is one example. The company by the Taiwan subsidiary of BenQ Group Lunda Electronics Co., Ltd. invested a total investment of approximately USD 500 million yuan. The project covers about 363 acres, will be moved to the first quarter of next year, and production equipment to provide domestic and international markets LED backlight LCD and LED lighting applications. After the completion of up to bright electronic LED industry will be the only film from the upstream extension, middle chips, packaged applications, the downstream one-stop production company, formed in the mainland’s largest LED industry base.

Lou turnip settled on poly-can Optical Technology (Suzhou) Co., Ltd., is one example. The company consists of Xin Gu Optoelectronics Co., Ltd. in April 8, 2010 funded the establishment, mainly engaged in high-power semiconductor lighting (LED) extension and the design of industrialization. Companies registered capital of 250 million yuan, total investment of 750 million yuan.