This paper introduces a solar light emitting tile based on ultracapacitor.
详细介绍了一种基于超级电容的太阳能装饰灯的设计。
One solution, Schindall said, is to build a 1-watt supply, plus an ultracapacitor to handle the peak.
用1瓦的电源加上1个超级电容就可以应对用电峰值。
The shorter distance between those separated charges in an ultracapacitor translates to a larger electric field—and much more energy storage capacity.
超级电容中分离电荷之间的距离越小,形成电场的越大,储存能力也就越大。
In an ultracapacitor, the distance between the ions and opposite-charged electrode is so tiny it's measured in nanometers (one-thousandth of a micron).
在超级电容中,离子和带相反电荷的电极之间的距离非常小,需要用纳米(千分之一微米)计算。
In an electric car, for example, an ultracapacitor could provide the power needed for acceleration, while a battery provides range and recharges the ultracap between surges.
比如电动车,超级电容可以提供加速所需的电力,而电池提供行程所需能量,并在电涌间隙为超级电容反复充电。
A mathematical model of the actively controlled battery-ultracapacitor hybrid energy storage system based on a power converter was set up, and the control loop was designed.
建立了基于功率变换器的有源式超级电容器-蓄电池混合储能系统的模型,并对控制环节进行了设计,提出了一种在脉动负载下蓄电池恒流输出的控制策略。
Similarly, in an ultracapacitor, when voltage is applied across the two metal plates (i.e. during charging), a charge still builds on the two electrodes—one positive, one negative.
同样,在超级电容中,当两块金属片被施以电压(即充电)后,电荷建立于两极,一极为正,一极为负。
Through allocating suitable capacity of battery-ultracapacitor hybrid storage unit, the continuity and reliability of wind-solar complementary generation system could be improved.
通过配置容量合适的蓄电池-超级电容器混合储能单元,可以提高风光互补发电系统供电的连续性和可靠性。
The hybrid electric power source composed of Ultracapacitor and storage battery may satisfy the demands about power density and energy density proposed by many types of electric facilities.
它与蓄电池组合成的混合动力电源,可以满足多种用电设备对电源提出的功率密度和能量密度的要求。
The hybrid electric power source composed of Ultracapacitor and storage battery may satisfy the demands about power density and energy density proposed by many types of electric facilities.
它与蓄电池组合成的混合动力电源,可以满足多种用电设备对电源提出的功率密度和能量密度的要求。
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