结果表明:电荷与电流的时间演化函数由雅可比椭圆函数替代,而且在电路中显示周期性压缩效应。
The results indicate that the time evolution function of charge or current is the Jacobian elliptic function instead of a sine one, and the squeezing effect appears periodically in the circuit.
主要通过考虑介观电容的耦合能,对离散电荷介观LC电路中的电荷与电流的动力学行为进行了研究。
This paper mainly investigates dynamic behavior of charge and current in a mesoscopic LC circuit with discrete charge by considering coupling energy of the mesoscopic capacitor.
基尔霍夫电流定律,由古斯塔夫·基尔霍夫1845年证明,规定在某一波节的电荷输入与电荷输出相等。
Kirchhoff's current law, described by Gustav Kirchhoff in 1845, states charge input at a node is equal to the charge output.
两种材料的接合处电子与电穴配对形成一个没有电荷的区域,阻止电流通过。
At the junction where the two materials meet, electrons pair up with holes to form an area depleted of charge that prevents current from flowing.
外拖冲击电压的极性与绝缘子表面电荷极性是否相同会影响绝缘子的电晕起始时刻、由流注向先导的转变时间间隔和流注电晕电流。
The polarity of impulse voltage and the polarity of insulator surface electric charge can affect the corona initial time of insulator, the change time - interval and the corona current.
当撤去电压时,这些分离的电荷在重新组合时会在与绝缘体相连的电路中产生衰减的电流。
When the voltage is removed, the separated charges generate a decaying current through circuits connected to the insulator as they recombine.
详细分析了电荷泵的动态工作特性,给出了电荷泵电压上升时间及瞬态电流与电路的关系。
Charge Pump dynamic analysis is analyzed, where the relationship between the voltage rising time and transient current to circuit is given.
当左右电子库之间存在偏压时,通过对系统的自旋电流与电荷流公式的分析,得到系统中只存在电荷流而没有自旋电流的条件。
It is discovered that when there is bias between the left and right reservoirs, we can get the condition of system with only charge current.
研究了电路量子态的演化,电路中电荷及电流的量子压缩效应以及介观电容器中隧穿电流的量子崩塌与复苏现象。
Subsequently, we study the evolution of the quantum state, the quantum squeezing effects of the charge and the current, and the quantum CR phenomenon of the tunneling current in the capacitance.
通过在存储器单元的衬底区域与存储器单元的源极区域及存储 器单元的漏极区域中至少一个之间测量电流,来操作一种具有电荷捕 捉结构的存储器单元。
The invention operates a memory cell with charge capturing structure by measuring the current between substrate region and at least one of the source and drain regions of the memory cell.
与无耗散的电路类似,电源影响电荷和电流的大小,但不影响电荷和电流的电子涨落。
Similar to the electric circuit without resistance, electric sources affect the amount of the electric charge and current, but do not affect their quantum fluctuations.
输出部蓄积能量线感应区域内产生的电荷,输出与蓄积电荷量相当的电流信号或电压信号。
The output part stores the charge occurring in the energy line sensing area and outputs a current or voltage signal equivalent to the amount of the stored charge.
重点阐述大气压下辉光放电(APGD)技术的现状,解释了电子雪崩模型和流注放电理论,并以电压- 电流波形图和电压-电荷李萨育图鉴别介质阻挡放电与大气压下辉光放电。
The common models to explain APGD are electron avalanche model and streamer discharge model. APGD and DBD can be distinguished by voltage-current waveform and voltage-charge Lissajous figure.
重点阐述大气压下辉光放电(APGD)技术的现状,解释了电子雪崩模型和流注放电理论,并以电压- 电流波形图和电压-电荷李萨育图鉴别介质阻挡放电与大气压下辉光放电。
The common models to explain APGD are electron avalanche model and streamer discharge model. APGD and DBD can be distinguished by voltage-current waveform and voltage-charge Lissajous figure.
应用推荐