但在一般电容中,分离电荷间的距离不会小于两片金属片间的距离。
But in a capacitor, the separated charges can get no closer than the distance between the two metal plates.
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。
The shorter distance between those separated charges in an ultracapacitor translates to a larger electric field—and much more energy storage capacity.
正如最初的电容取决于水电容的介电性能的水,形成的导电分子大小和分离。
As noted initially, the capacitance depends on the dielectric properties of the water and the size and separation of the conductive elements forming the water capacitor.
通过采用片上极点分离技术和片上零极点抵消技术,保证了没有片外电容情况下低压差稳压器的稳定性。
By using an on-chip pole splitting technique and an on-chip pole-zero canceling technique, high stability is achieved without an off-chip capacitor.
通过采用片上极点分离技术和片上零极点抵消技术,保证了没有片外电容情况下低压差稳压器的稳定性。
By using an on-chip pole splitting technique and an on-chip pole-zero canceling technique, high stability is achieved without an off-chip capacitor.
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