论文信息 - Trajectories of nonlinear RLC networks: A geometric approach

Trajectories of nonlinear RLC networks: A geometric approach

The response of a nonlinear time-varying coupled RLC network starting from a given operating point is considered. We view the response as motion occurring in a differentiable manifold \Sigma in R^{2b} \times R_{+} , where b is the number of branches. We impose two basic manifold conditions (MC) on the network. First, the resistor characteristics are required to be a manifold \Lambda . Second, the resistor characteristics and their connections are such that the set of branch voltages and branch currents satisfying both the Kirchhoff laws and the resistor characteristics is a manifold \Sigma . We then show that under the conditions imposed on the RLC elements and the topology of the network, the network has a unique response specified by a flow on \Sigma if and only if the capacitor voltages, inductor currents, and time constitute a parametrization for \Sigma . Finally, we show that our conditions include as special cases the determinateness conditions previously obtained by several authors.

C. Desoer | F. Wu | C. Desoer | F. Wu

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