电池性能的测试是电池应用的基础。
镍氢电池应用广泛。
说明:锂离子电池介绍,详细介绍锂离子电池应用。
Lithium-ion battery, the details on the application of lithium-ion battery.
这些离聚物能加工成薄膜,特别适合低湿度或高温燃料电池应用。
These ionomers are capable of being processed into thin film and are extremely well-suited for low humidity or high temperature fuel cell applications.
其中一种选择包括碳纳米管,它现在被用来制作锂离子电池,这种电池应用于轻便的电子产品,比普通电池使用时间长十倍。
One option includes carbon nanotubes, which are now being used to develop lithium-ion batteries for portable electronics that should last ten times longer than current batteries.
斯坦福大学的科学家已经创造出一种可从水中产生电能的电池,这种电池应用于江海汇合处可大规模地创造清洁能源。
Scientists at Stanford University have created a battery which can produce electricity from water - and which could be used where rivers meet the sea to create clean energy on a massive scale.
通过使用新加坡淡马锡理工学院燃料电池应用中心的燃料电池测试系统,对PEMFC的暂态电响应进行测量和分析。
By using a fuel cell test system in fuel cell Application Centre of Temasek Polytechnic, the transient electrical response of PEMFC was observed and investigated.
随着锂离子电池应用范围拓宽和人们对锂离子电池高电压、高比能等性能的要求,锂离子电池的高容量和高安全受到关注。
More and more attentions are being paid on the capacity and safety of Li-ion battery for its wider use and higher performance demands.
本发明提供具有界定在基板支撑组件与气体分配板之间的梯度间隔,且用于沉积供太阳能电池应用的硅薄膜的设备及方法。
Methods and apparatus having a gradient spacing created between a substrate support assembly and a gas distribution plate for depositing a silicon film for solar cell applications are provided.
LTC3633 在 3.6V至 15V的输入电压范围内工作,从而非常适用于两节锂离子电池应用以及5V和 12V中间总线系统。
The LTC3633 operates from an input voltage of 3.6V to 15V, making it ideal for dual-cell Li-Ion applications as well as 5V and 12V intermediate bus systems.
即使你没有给手机添加新的应用程序,单是应用程序更新就会消耗大量的电池电量。
Even if you did not add new apps to your phone, an app update alone can use lots of battery power.
这种电池已经使用,但主要应用于静止设备中。
Such batteries are already in use, but mainly in stationary applications.
如同我在最近博客中提到的世界上最小的电脑,这样的太阳能电池理论上可以应用于任何人们想做成“智能”的东西。
Like the world's tiniest computer I recently blogged about, the solar cells could theoretically be put to use with anything people want to make "smart."
自从近20年前他们有这个发现以来,研究人员用它在电池,晶体管,传感器和太阳能电池和其他应用上进行试验。
Since their discovery nearly 20 years ago, researchers have experimented with them as batteries, transistors, sensors and solar cells, among other applications.
研究者正把这项设计应用到制造太阳能电池的半导体材料上,这样他们希望在节省材料成本的同时仍可以提供高效率的能量转换。
Researchers are applying the design to semiconductor materials to make solar cells that they hope will save money on materials costs while still offering high power-conversion efficiency.
这种仪器正在一系列产业应用中接受调查和测试,其中传统电池会出现电量不足或者不匹配的问题。
This is a type of device that is being investigated for use in a range of industrial applications where traditional batteries are insufficient or inappropriate.
例如,当连接的设备电池电量变化时,应用程序可以接收到广播通知,从而可以通知用户或者采取其它必要的措施。
For example, an application could receive broadcasts that indicate a connected device's battery level and could notify the user or take other action as needed.
目前市场上有许多种产品,2006年发电应用占全部商业燃料电池销售的一半以上。
With a number of products now on the market, electric power generation applications accounted for well over half of all commercial fuel cell sales in 2006.
因此对电池的精制和改良的探索还在继续,使得锂离子电池达到应用标准——最终目标是出现在数以百万计的汽车内。
So the quest is under way for the refinements and improvements that will bring lithium-ion batteries up to scratch—and lead to their presence in millions of cars.
锂电池技术也将有望被广泛应用到电动汽车的生产中去,电动汽车已经成为世界顶级汽车厂商商业开发计划所重点关注的对象了。
This same technology is also expected to find wide application in the production of the electric cars that figure prominently in the business plans of all of the world's top automakers.
安卓没有这种限制——不过,作为结果,使用这些电力敏感型资源的应用会很快把电池耗光。
Android doesn't have this restriction - but as a result, apps that use those power-intensive types of resources can run down the battery quickly.
它所具有的特性可应用于既需要高强度电流又依赖似电池样输出平稳电流的领域。
It has the characteristics needed for applications that require both high-power pulses and steady, battery-like flow.
因为技术,材料,以及生产过程而对相似,其在半导体和平板电视方面的经验能轻松应用于太阳能电池和LED照明上。
Its experience in semiconductors and flat-screen televisions fits easily with solar cells and LED lighting: the technology, materials and production processes are similar.
这一技术的应用并不局限于太阳能电池。
他表示该奈米结构应用于电池的阴极,下一步是促进电池的阳极,并促进电池的储电能力。
Since the nanostructure is applied to a battery's cathode, he said, the next step is to study improving the anode, along with further increasing battery density.
这款应用最新氢燃料电池技术的计程车正在开发中,目标定为2012年奥运会以前全面进行道路试验。
A taxi cab that runs on the latest hydrogen fuel cell technology is being developed with the aim of being ready for full road trials in time for the 2012 Olympics.
根据Gizmodo的报道,苹果公司获得了一项将液体金属应用在电池上的专利。
According to Gizmodo Apple has been awarded a patent for the use of LiquidMetal for use with its batteries.
他是2009年的技术先锋zpower公司背后的那个人,该公司专门从事用于移动应用的可充电银锌电池的研发。
He was behind ZPower, a 2009 Tech Pioneer that specializes in rechargeable silver-zinc batteries for mobile applications.
他是2009年的技术先锋zpower公司背后的那个人,该公司专门从事用于移动应用的可充电银锌电池的研发。
He was behind ZPower, a 2009 Tech Pioneer that specializes in rechargeable silver-zinc batteries for mobile applications.
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