公司没有使用电池组,而是转而利用数秒内可充放电的电容。
But, rather than rely on batteries, the company turned to capacitors which can be charged and discharged in just seconds.
充放电无酸雾。
文摘:研究了铈对锂铝合金阳极充放电性能的影响。
Abstract: the influence of cerium on the behavior of lithium-aluminium alloy anode was studied.
循环伏安实验表明,掺钛明显改善充放电反应的可逆性。
Cyclic voltammetry experiment shows the titanium dopant obviously improves the reversibility of charge-discharge reaction.
采用充放电测试技术对电极材料的电化学性能进行了研究。
The electrochemical properties of the cathode material were studied by charge discharge technology.
表面处理改善了电极的充放电性能,特别是大电流放电性能。
The charge-discharge performance of the electrode was improved by surface treatment, especially heavy load discharge performance.
结合循环伏安与充放电测试,对材料的电化学性能进行了评估。
The electrochemistry properties of materials were evaluated by CVs and charge-discharge test.
简要介绍了钒电池研究样品的组成,工作原理及其充放电特性。
The composition, working mechanism and charge discharge characteristics of vanadium REDOX battery were described.
测试结果表明,电池具有较低的内阻和良好的高倍率充放电性能。
The electrical testing results show that it has low resistance and good properties of charge or discharge under large current.
研究了稀土元素钇对锂铝合金阳极充放电性能及其表面结构的影响。
The effects of yttrium on the charge discharge behaviour and surface structure of lithium aluminium alloy anode were studied.
快速充放电的大容量电池将使现在仍处于边缘的科技变得更有吸引力。
High-storage batteries that could charge and discharge quickly might make a number of still-marginal technologies much more attractive.
电池充电试验、电池容量测量、电池内阻测量、循环充放电寿命试验。
Its measuring and checking included battery charge, battery capacity, battery internal resistance, circulating charge and discharge test.
不幸的是,因为这些阴极材料都不是良导体,所以充放电需要很长时间。
Unfortunately, because these materials are not good conductors of electric charge, it takes a long time to get the charge in or out of a battery.
采用开关元件控制的恒流充放电是产生稳定非正弦振荡波的主要方法。
Constant current charging by switch control is the main method to generate non-sinusoid oscillation waveform.
液晶显示器的电源需要多组不同位准的电压来对液晶进行充放电的动作。
The power sources for LCD panels need different voltage scale to charge and discharge the liquid crystal capacitors.
这还不包含相关的零部件,如将电池片温度维持在可接受范围内和管理充放电的系统。
And that does not count related parts like the system that maintains the temperature of the cells within an acceptable range and manages the charging and discharging.
阐述了一种新型基于充放电原理的高分子电容式湿度传感器信号处理方法。
This paper describes a new signal processing of macromolecule capacitance humidity sensor based on the charge-discharge principle.
所以一种使用方便,效果良好的充放电设备,对于蓄电池来讲时非常必要的。
Therefore one kind of easy to operate, the effect good charging and discharging equipment, says regarding the accumulator cell time is essential.
采用电导监测溶液中浓度的变化,确定不同循环充放电条件下的电池的容量。
Uses in the electric conductance monitor solution the density change, determined differently circulates under the sufficient electric discharge condition battery capacity.
上述系统主要的问题是缺乏最大功率跟踪控制和蓄电池充放电控制的统一考虑。
The main problem in the existing system is that maximum power control is separate from charging and discharging control.
电池有一个内置微处理器,它通过电池充放电的过程来提供电池内电量的估计值。
The battery has an internal microprocessor that provides an estimate of the amount of energy in the battery as it charges and discharges.
同时必须保证ITO薄膜接地效果良好,否则会使OSR表面充放电现象更加严重。
The another is that ITO film must be well grounded, or else the surface charge and discharge phenomena of OSR would be much more serious.
重点针对电池的比能量,充放电特性,循环性能,安全性能等方面的进展进行了对比。
The review focused on comparison of the specific energy, charging discharging characteristics, cycling performance and safety characteristics of these batteries.
研究人员发现他们制作的电极充放电速度可以达到现有器件的100倍以上,同时保持同样多的能量。
The researchers found that their electrode can charge and discharge up to 100 times faster than existing devices while holding the same amount of energy.
然而,专家说,在某些应用条件下,纳米材料反而不利,或是会在几十次充放电后发生衰减。
Still, in some applications, nano-materials gum up the works, or break down after a few dozen charges and discharges, experts say.
实验结果表明,使用这种电极可使电池的可逆性明显改善,提高其循环寿命和充放电容量。
The experimental results showed this electrode can improve reversibility of the battery and increase its charge discharge capacity, cycle life.
他补充说,比起传统电池,这种材料充放电的速度更快,并且由于少了化学转换过程,它的寿命会更长。
The material charges and discharges electricity quicker than a conventional battery, and does not use chemical processes - giving it a longer lifespan, he added.
介绍了一种新型蓄电池充放电装置的系统结构和工作原理,并对其控制方法和控制电路进行了研究。
The system configure and operation principle of the novel storage battery charged and discharged device were introduced, and its control method and circuit were gived.
介绍了一种新型蓄电池充放电装置的系统结构和工作原理,并对其控制方法和控制电路进行了研究。
The system configure and operation principle of the novel storage battery charged and discharged device were introduced, and its control method and circuit were gived.
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