基于这个原因,一个理想电流源内阻是无限的。
For this reason, the internal resistance of an ideal current source is infinite.
应用电路理论的基本定律分析理想电压源的并联和理想电流源的串联。
With the basic laws of circuit theories, it analyzes ideal voltage source's parallel connection and ideal current source's series connection.
图1理想电流源在电路理论,理想电流源电路元件的电流通过时与其两端的电压无关。
Figure 1 ideal current sources in circuit theory, an ideal current source is a circuit element where the current through it is independent of the voltage across it.
关于节点分析法中理想电压源的附注同样可以应用到回路分析法中出现理想电流源的情况。
The same remarks for the ideal voltage source in nodal analysis apply to ideal current sources in loop analysis.
本文从互感支路的伏安关系出发,导出了多线圈耦合网络具有理想电流源支路时的回路方程。
Based on the V-I characteristics of the mutual inductance branch, the loop equations of the mutual inductance circuit with the branch consisted of ideal current source along are derived.
相反,如果其他一些电压或电路中的电流通过一个理想电流源的电流决定,它被称为从属或控制的电流源。
Conversely, if the current through an ideal current source is determined by some other voltage or current in a circuit, it is called a dependent or controlled current source.
理想PV电池的模型可以表示为一个感光电流源并联一个二极管。
An ideal PV cell can be modeled as a light-induced current source in parallel with a diode.
钳形电流表理想的校准方法是用标准电流源对一根无限长导线加测试电流,并使该导线垂直穿过被校钳形表的几何中心。
An infinite wire carrying standard high current perpendicular to the geometric center of the clamp ammeter should be the ideal method for the clamp ammeters calibration.
一个理想的电流源将提供没有力气短路和方法无限的能源和负载电阻接近无穷大电压(开路)。
An ideal current source would provide no energy to a short circuit and approach infinite energy and voltage as the load resistance approaches infinity (an open circuit).
图1显示了一个理想的电流源驱 动的电阻负载的原理图。
Figure 1 shows a schematic for an ideal current source driving a resistor load.
因此,一个理想的电流源可提供无限的能量将代表无限的能源来源。
Thus, an ideal current source could supply unlimited power forever and so would represent an unlimited source of energy.
在一个理想的电流源的电压是完全取决于它的连接电路。
The voltage across an ideal current source is completely determined by the circuit it is connected to.
本文用节点法分析了含理想电压源的网络,从网络的不含源导纳矩阵获得了含源网络的约束导纳矩阵以及节点短路电流源向量的公式。
Explicit formulas for the constraint admittance matrix and the nodal short-circuit current source vector of networks containing ideal voltage sources are derived by nodal approach.
本文用节点法分析了含理想电压源的网络,从网络的不含源导纳矩阵获得了含源网络的约束导纳矩阵以及节点短路电流源向量的公式。
Explicit formulas for the constraint admittance matrix and the nodal short-circuit current source vector of networks containing ideal voltage sources are derived by nodal approach.
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