EEStor公司推测采用了这样的储能装备后,将能造出快速充电的电动汽车——这当然还是要在电容器的帮忙下。
One use of such a bank, the firm suggests, could be the rapid charging of electric cars—which would, of course, also be fitted with capacitors.
电荷存储元件——电容器,可以快速地充放电,但是因为电荷被存储在电容器金属片的表面,所以电荷容量有限。
Electrical storage devices known as capacitors charge and discharge very quickly, but because they hold their charge on the surface of metal plates, their storage capacity is limited.
基于ATP的仿真和Matlab的运算表明基于电容器电感器电压比的电抗器匝间短路保护,能够对匝间故障做出快速而正确的判断。
ATP simulation and MATLAB calculation show that the voltage ratio protection against inter-turn fault of reactor can make correct judgement to this kind of fault quickly.
实验结果表明:这种方式能够实现高电压、大容量电容器组的快速充电。
The experimental results show this way can be used to charge high voltage and high capacity capacitors quickly.
采用了超声波无损探伤检测和破坏性试验相结合的试验方法,得到了一种鉴别陶瓷电容器可靠性的快速判别依据。
A quick method to assess the reliability of ceramic capacitors were also got through the combination of supersonic wave aided nondestructive test and destructive test.
系统负荷投切和电容器充电的仿真结果表明,该方法能快速有效地区分暂态脉冲和振荡暂态。
The simulations of load switching and capacitor charging show that the proposed method can quickly and effectively class the impulse transient and oscillation transient disturbances.
因为它能够快速充电,大型超级电容器用于再生制动车辆。
Because of its ability to rapidly charge, large supercapacitors are used for regenerative braking on vehicles.
在软件设计中,以快速傅立叶变换算法(FFT)为基础,采用复合控制方法控制电容器的投切。
With the Fast Fourier Transform (FFT) algorithm in software design, capacitors being switched on or off are controlled by compound criterion.
设计了快速响应型电容器投切控制器。
A quick response switching controller for the capacitor is designed.
斯坦福大学的科学家利用在日常文件的形式纳米技术快速生产超轻量,可弯曲电池和超级电容器。
Stanford scientists are harnessing nanotechnology to quickly produce ultra-lightweight, bendable batteries and supercapacitors in the form of everyday paper.
在正常响应阶段协调控制并联电容器和快速无功源,以保证系统的快速无功备用容量。
In normal control stage, the coupled electric capacitors and fast reactive resources are controlled to guarantee the reserved fast reactive capacity.
本文从理论和实践上分析了凭借测试电容器放电电流快速地测定电容值的方法。
In this paper, the author has analysed and discussed theoretically a method of measuring the capacity rapidly by measuring the discharged current of the capacitors.
“SOLEN高速电容器”优于其他类似的电容器:多段式,分段式,一般或特殊,由于我们少有的短管大直径,快速设计。就是如此容易。
SOLEN Fast Capacitors outperform any other similar capacitors: multi-sections, segmented, ordinary or otherwise, due to our unique short length, a wide diameter, fast design. It is as simple as that.
“SOLEN高速电容器”优于其他类似的电容器:多段式,分段式,一般或特殊,由于我们少有的短管大直径,快速设计。就是如此容易。
SOLEN Fast Capacitors outperform any other similar capacitors: multi-sections, segmented, ordinary or otherwise, due to our unique short length, a wide diameter, fast design. It is as simple as that.
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