The power storage technique in super capacitors was studied in this paper.
本文中对超级电容器储能技术进行了研究。
This paper presents a practical example for application of super capacitors in the inverters.
本文给出了超级电容器应用在变频器中的一个实例。
In the future, super capacitors will be more powerful and replace batteries in more and more devices.
将来,超电容器将会更加强大并且能够取代越来越多的设备里的电池。
A sort of permanent magnetic operating mechanism for vacuum breaker powered by super capacitors was described.
永磁操动机构是新一代真空断路器的操作系统,是由机械操动向电子操动转变的关键。
Super capacitors or "electric double layer capacitors" store charge in a layer of ions adsorbed on the surface of carbon.
超电容器或者“双电介质层电容器”通过吸附碳层表面的离子储存电量。
This paper studies control of the energy system based on super capacitors. Super capacitor, a novel energy storage component, is used here.
本文中研究了超级电容器储能系统的发电控制,其中的储能元件采用超级电容器这一新型能源器件。
These compositions of Hybrid power crane system are diesel generator sets, super capacitors, bi-directional DC-DC converter and work drive motor.
本文设计的混合动力起重机系统主要由柴油发电机组、超级电容器、双向DC-DC变换器和工作电机构成。
The linear RC network model can approximately reflect the physical characteristics and the internal redistribution of charge characteristics of super capacitors.
其中,线性RC网络模型能近似地反映出超级电容器的物理特性,并可以反映出超级电容器的内部电荷的重新分配特性。
The software is completed in assemble language. With the growing up of the technology and low cost, the energy system based on super capacitors will be used widely.
随着技术的成熟和成本的降低,超级电容器储能将被广泛应用于电力系统的电能质量控制中。
Super capacitors, however, store much more energy than their traditional counterparts and are used to power small devices such as toys including model planes and helicopters.
但是,比起传统电容,超电容器能够储存更多的能量,并且可以为小的设备如模型飞机和玩具直升飞机等玩具提供电能。
“超级”电容?
This paper analyzes the operating principle of super capacitor system, and divides into three parts of inverter, bi-directional dc-dc converter and Electric Double Layer Capacitors.
本文分析了超级电容器储能系统的运行原理,并将超级电容器储能系统的电路结构分为换流器,双向直流变直流变换器和双电层电容器组三个部分。
The studies on super-capacitors mainly focus on the preparation of the electrode materials.
超级电容器的研究主要集中在对高性能电极材料的制备上。
It'ssuper thin — one atom thick in fact — canbe produced in a kitchen blender (ifyou know how to) and can be used to make everything from super-capacitors tohelping filter clean, safe drinking water.
它超级薄——实际上只有一个原子的厚度,可以通过厨房里的搅拌器中制备出来(当然前提是你知道如何制备),几乎能被用于一切场合,从超级电容器到饮用水的过滤净化。
Because of so many excellences, super-capacitors have wide applications in communication, electronic industry, railway system, aviation industry, spaceflight industry, military field and so on.
超级电容器在通讯、电子、铁路、航空、航天以及军事等领域都具有极其广泛的用途。
The advantages and disadvantages of electrochemical power sources, which included storage batteries, super-capacitors, fuel cells, valve-regulated ultra battery, were also discussed.
对混合动力车用电化学能源系统的技术要求和各种电化学能源——蓄电池、超级电容器、燃料电池、阀控超电池等的优缺点作了简要的论述。
The advantages and disadvantages of electrochemical power sources, which included storage batteries, super-capacitors, fuel cells, valve-regulated ultra battery, were also discussed.
对混合动力车用电化学能源系统的技术要求和各种电化学能源——蓄电池、超级电容器、燃料电池、阀控超电池等的优缺点作了简要的论述。
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