本实用新型结合了超级电容器和铅酸蓄电池两种电流载体。
This utility model combines the two kinds of current carriers: the super-capacitor and the plumbic acid battery group.
电容器就是吊桶的电子等价物。
互电容 :一层含有电流的驱动线路。
Mutual capacitance: A layer of driving lines carries current.
因此它的作用相当于一个超级电容器。
他认为这样可以经济地生产可穿电容器。
This would enable wearable capacitors to be made economically, he reckons.
其他的电容器极角被接地。
因为里面有一个电容器。
另外一种是超级电容器。
那是某种不用组合电阻,电容和电感器的元件。
It was something that no combination of resistors, capacitors and inductors would do.
电容会在一个给出的电压值下储存一定的电荷。
For a given voltage a capacitor will store a certain amount of charge.
电容器汇合了电流。
SOI技术用于减少器件电容和提高晶体管性能。
SOI technology is used to reduce the device capacitance and increase transistor performance.
此类电容指示器将成为未来组合仪表的常规配置。
Such a capacitor gauge could become a common sight on the dashboards of the future.
电容器是不同的。
“超级”电容?
电阻器和电容器一起组成计时器,晶体管作为开关。
The resistor and the capacitor together were the timer, and the transistor worked as the switch.
新型超电容器的制作是从一个精确控制的爆炸开始。
The new super capacitor began its electrically charged life with a literal bang.
该小组的设备是一个电容和一个与其连接的感应线圈。
The team's set-up consisted of an inducting coil connected to a capacitor.
用1瓦的电源加上1个超级电容就可以应对用电峰值。
One solution, Schindall said, is to build a 1-watt supply, plus an ultracapacitor to handle the peak.
从广义上讲,存储电能的设备分为电池和电容器两大类。
Broadly speaking, devices for storing electricity come in two varieties: batteries and capacitors.
风力发电同样增势迅猛,发电容量增加了24%。
Wind power also grew strongly, adding 24% of generating capacity.
理论上来说,记忆电容至少可以不消耗任何能量来储存信息。
In theory at least, a memcapacitor could store data without dissipating any energy at all.
电池却与电容相反,据我们所知它储存的是电化学能。
A battery, by contrast, stores what is known as an electrochemical potential.
不过我们倒希望他们省去这些工作直接升级到电容屏。
We'd rather they just skipped all that work and upgraded, though.
简言之,超级电容在提供急速上升的电力方面是最好的器械之一。
Put simply, ultracapacitors are some of the best devices around for delivering a quick surge of power.
在输入辅助技术加电容屏的帮助下,文字输入速度可能也会更快。
And touch is arguably faster for entering text when it's aid-assisted on a capacitive screen.
电池能够很好地储存大量电能,但传导很慢;电容器却正好相反。
Batteries are good at storing large amounts of charge but slow at delivering it; for capacitors the reverse is the case.
嗯,至少他们明确了需要更好的手势支持,需要模拟电容屏的能力。
Hrm. Well at least they're acknowledging the need for better gesture support, and the need to mimic the capability of capacitive touch.
和最耐反复充电的电池相比,超级电容器仍容易工作寿命更加长久。
And compared with most rechargeable batteries, supercapacitors tend to have a longer working life.
和最耐反复充电的电池相比,超级电容器仍容易工作寿命更加长久。
And compared with most rechargeable batteries, supercapacitors tend to have a longer working life.
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