寄生电流

This paper analyzes the structure and distributed parameters of electrostatic discharge simulator during discharge, establishes a 9-component circuit model of BMM-ESD,obtains the current expression in complex frequency domain,and then gets a ESD current expression in time domain by Inverse Laplace transform.

为进一步发展BMM-ESP电流的电路建模求解法，分析了静电放电测试环境在实际放电测试过程中的寄生参量并建立了一个9元件ESD电路模型，求得了电流在复频域的表达式，进而通过拉普拉斯反变换解得了BMM-ESD电流时域解析式。

The active region of the device is designed to be surrounded by a deep trench to cut off the various probable parasitical effects that may degrade the device performance, and to avoid the parallel-current effect in particular.

在器件有源区周围的划片边界附近设计了一道宽200m、深60m的槽，有效地截断了影响器件性能的各种寄生效应，特别是截断了并联电流的影响。

However, because of the obvious snapback breakdown characteristic of NMOS transistor and the layout geometry effect on the distributed base resistance of each parasitic lateral bipolar transistor, multi-finger NMOS cannot be triggered on uniformly under ESD stress.

然而由於N型金氧半电晶体具有明显的骤回崩溃特性，以及布局上每根指状N型寄生横向双载子电晶体之等效基极电阻之不同，造成多指状结构N型金氧半电晶体在静电放电轰击下，并不会均匀的导通来排放静电放电电流，而是集中於某些指状N型金氧半电晶体。

The resonant phenomenon of Bridgeless Boost PFC with split inductor s is analyzed using experiments, simulation and equivalent circuit methods.

通过实验、仿真和等效电路模型分析方法对分立电感无桥Boost PFC电路电感电流上叠加有高频谐振电流的现象做出了详细的分析和研究，指出高频谐振是PFC分立电感与电路的寄生电容组成LC振荡回路所引起的，确定了谐振电流的路径和谐振频率的大小。

The device is able to handle an unclamped current during its normal operation, assuring self protection against voltage surges, PCB stray inductance, and allowing a snubberless operation for low output power.

该设备能够处理的非钳位电流在正常运行，保证对电压的自我保护，印刷电路板寄生电感，和允许低输出功率缓冲器运作。

It is shown by the test results that the parasitic conduction current changes with the temperature rising,and the precision of TSC is affected seriously.

然而测试中存在着随温度升高而逐渐变化的寄生电导电流，其叠加于TSC曲线，会对TSC测试精

Dynamic large-signal, DC, and small-signal circuit models including parasitic resistances and current ripples of nonideal synchronous rectifier buck converter operating in CCM are established. Closed-loop modeling of nonideal synchronous rectifier buck converter for voltage-mode control is studied. Transfer functions are obtained. Effects of parasitic components on control loop design of the converter are explored. Systematic simulation analysis is performed. All the results show that it is necessary to include parasitic components of converters into equivalent models.

首次建立了考虑寄生电阻和电流纹波的同步整流 Buck 变换器在连续工作模式下的大信号平均模型、DC 和小信号电路模型，研究了电压控制的闭环建模，导出了传递函数，剖析了变换器的寄生参数对其控制电路设计的影响，进行了小信号特性的仿真研究，进一步阐明了考虑变换器的寄生参数建模的必要性。

bonding wire：键合线

在设计中,应该多放置几对电源和地PAD,不但可以减少电压降,冗余的电源、地PAD以及键合线(Bonding Wire)都可以减少寄生电容,从而降低顺势电流变化而导致的电压波动.

stray capacitance：寄生电容

并且在灯管下方切割的孔洞可以显著地减轻电流不平均的问题,并改善光源的均匀性. CSOT图一:(a)典型的冷阴极萤光灯(CCFLs)驱动架构;(b)单一冷阴极萤光灯管(CCFLs)之等效电路模型. 图二:灯管之寄生电容(stray capacitance)及漏电流.

emitter：射极

一 N 型井区被加入在 N 型扩散层之下,由于该 N 型井区具有较深的接面深度(junction depth),该 Itrig 电流会被该 N 型井区阻 挡而流入 N 型井区,这促使该寄生的双载子晶体管组件的基极(base)射极(emitter) 之间有一正的电压偏压,

sneak current：寄生电流

snap switch 快动开关 | sneak current 寄生电流 | socket 插口

sneak current：潜通路

sneak circuit 寄生电流,潜行电流 | sneak current 潜通路 | sneak path 测错

snap switch：快动开关

snap action contact 突动触点 | snap switch 快动开关 | sneak current 寄生电流

parasite drag：干扰阻力

parasite current 寄生电流 | parasite drag 干扰阻力 | parasitic antenna 无源天线,无源振子