这种电荷转移是由于触点的机械释放或闭合、“触点-线圈”电容以及信号和继电器驱动线路之间的寄生电容引起的。
This charge transfer is due to the mechanical release or closure of the contacts, the contact-to-coil capacitance, and the stray capacitance between signal and relay drive lines.
通过集成电路各器件间的布线传递信号的过程,是将信号电荷向布线间形成的寄生电容充放电的过程。
Electricity charges and discharges from the multi-layer cabling's parasitic capacitance when signal is transferred among different parts of integrated circuit.
该系统采用电容存储电荷的方式积蓄能量,避免了电感储能方式带来的电磁干扰,减小了存储元件的寄生电阻。
The system adopts capacitor to reserve charge and accumulate energy, which avoids the electromagnetic interference and reduces the parasitic resistance comparing with the method of using inductor.
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