In this paper, based on network branch equation, a canonical method for calculating faults in a distribution network is systematically studied.
文章以网络支路阻抗方程作为电网数学模型,系统地研究了配电网故障计算的通用方法。
According to the feature of network configuration and based on multi-port compensation technique, the approach uses the network branch equation to directly constitute the nodal impedance matrix.
通过分析配电网的有向拓扑图,建立了配电网的数学模型——节点线段关联矩阵,并在该数学模型的基础上,分析归纳出节点阻抗矩阵各元素的计算方法。
A joint element is presented to represent the trunk and branch networks and used to derive the continuity equation for these two network systems.
为了突出主干和分支网络的特殊性,提出了节理单元模型并专门推导了节理单元的连续性方程。
With symmetry of branch impedance matrix in reciprocity network the loop current equation that the loop impedance matrix is symmetrical is presented.
利用互易电路支路阻抗矩阵对称性,构造回路阻抗矩阵也对称的回路电流方程,得出一种证明互易定理的直观方。
After a analysis of the typical branch of active network, the mesh equation, node equation, loop equation, cut set equation for active network are given.
在分析两种形式的有源网络典型支路的基础上,把无源网络的网孔方程、节点方程、回路方程、割集方程推广为有源网络下的相应方程。
After a analysis of the typical branch of active network, the mesh equation, node equation, loop equation, cut set equation for active network are given.
在分析两种形式的有源网络典型支路的基础上,把无源网络的网孔方程、节点方程、回路方程、割集方程推广为有源网络下的相应方程。
应用推荐