Title :
Stable and efficient reduction of large, multiport RC networks by pole analysis via congruence transformations
Author :
Kerns, Kevin J. ; Yang, Andrew T.
Author_Institution :
Dept. of Electr. Eng., Washington Univ., WA, USA
Abstract :
A novel technique is presented which employs Pole Analysis via Congruence Transformations (PACT) to reduce RC networks in a well-conditioned manner. Pole analysis is shown to be more efficient than Pade approximations when the number of network ports is large, and congruence transformations preserve the passivity (and thus absolute stability) of the networks. Networks are represented by admittance matrices throughout the analysis, and this representation simplifies interfacing the reduced networks with circuit simulators as well as facilitates realization of the reduced networks using RC elements, A prototype SPICE-in, SPICE-out, network reduction CAD tool called RCFIT is detailed, and examples are presented which demonstrate the accuracy and efficiency of the PACT algorithm
Keywords :
RC circuits; circuit CAD; circuit analysis computing; CAD tool; PACT; RCFIT; SPICE-in; SPICE-out; admittance matrices; congruence transformations; multiport RC networks; pole analysis; Admittance; Analytical models; Asymptotic stability; Circuit simulation; Circuit stability; Design automation; Parasitic capacitance; Permission; Stability analysis; Symmetric matrices;
Conference_Titel :
Design Automation Conference Proceedings 1996, 33rd
Conference_Location :
Las Vegas, NV
Print_ISBN :
0-7803-3294-6
DOI :
10.1109/DAC.1996.545587
