电容器就是吊桶的电子等价物。
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。
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.
就好像是电容器被连接在一起。
必须求出该电容上的电流和电压。
It is necessary to find the current through and voltage across the capacitor.
热风温度应低于电容器工作温度。
Hot air temperature should be within the maximum operating temperature of the capacitor.
如果是电解电容,可以找匹配的换掉。
Electrolytic capacitor if it is, you can find a matching change.
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.
不要让任何物品接触焊接后的电容器。
Please do not allow anything to touch the capacitor after soldering.
电容器是不同的。
用一些合适的钽电容来作为电源部分。
Replace them with some reasonable Tantalum for the power sections.
旁路电容是个真正的极零对。
特征:反向传输电容小,低噪声系数。
Features: Small reverse transfer capacitance, low noise figure.
“超级”电容?
电解电容器应储存于低温及干燥之处所。
您车子的电瓶充电容易吗?
请参阅:超级电容器能为电话、手提电脑供电数日。
SEE ALSO: Super Capacitor Could Power Phone, Laptop for days.
这电容是建筑学的作用。
不要将电容器储存在温度和湿度高的地方。
Do not keep capacitor in high temperature and high humidity atmosphere.
超级电容在电网中也可能发挥相同的作用。
Ultracapacitors hold promise for a similar job on the electric grid.
于是我多试了几次,并注意了电容的温度。
So I tried several times, and pay attention to the temperature of the capacitor.
与理想开关相并联的是触点漏泄电阻和电容。
In parallel with the ideal switch is the contact leakage resistance and capacitance.
它们的普遍原理是利用电容器的可变电容。
Their common principle is to use the variable capacity in a condenser.
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.
一般而言,当源电容增大时,噪声增益也会增大。
In general, as the source capacitance increases, the noise gain also increases.
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.
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.
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