Synthesis of N + 1 Node Resistor N-Ports
- 1 December 1965
- journal article
- Published by Institute of Electrical and Electronics Engineers (IEEE) in IEEE Transactions on Circuit Theory
- Vol. 12 (4), 515-520
- https://doi.org/10.1109/tct.1965.1082481
Abstract
Determination of the necessary and sufficient conditions that a matrix be the short-circuit admittance matrix of a resistor n-port without transformers is a classic problem in network theory. This paper presents a new procedure for determining the realizability of ann-port onn + 1terminals. This technique has the advantage of being considerably simpler than any previous technique; in fact, it proceeds almost by inspection. Furthermore, it completely eliminates the Gould algorithm used by Cederbaum, and it avoids the "tree growing" process of Guillemin, Biorci, and Civalleri. It is entirely algebraic in nature. The only restriction is that the given matrix have no zero elements. The method is applied to a tenth-order matrix to illustrate its simplicity. The method is based on a new equation relating the short-circuit admittance matrix to the inverse of the connection matrix of port voltages. A simple standard form for the short-circuit admittance matrix which leads to a unique solution of the equation for the connection matrix is given. The realizability is then completed by checking the result of a congruence transformation for hyperdimonance. A new method of obtaining tip ports is also included. This is applied to the realization of a linear tree, and it is shown that the usual permutation into linearly tapered form may be completely avoided.Keywords
This publication has 9 references indexed in Scilit:
- Synthesis of Resistive N-Port Networks with N + 1 NodesIRE Transactions on Circuit Theory, 1962
- Conditions for the Realizability of a Conductance MatrixIRE Transactions on Circuit Theory, 1961
- On the Synthesis of Resistive N-Port NetworksIRE Transactions on Circuit Theory, 1961
- Sign matrices and realizability of conductance matricesProceedings of the IEE Part C: Monographs, 1961
- On the Conductance Matrices with All-Positive ElementsIRE Transactions on Circuit Theory, 1961
- On the Analysis and Synthesis of Single-Element-Kind Net-worksIRE Transactions on Circuit Theory, 1960
- How to grow your own trees from given cut-set or tie-set matricesIEEE Transactions on Information Theory, 1959
- Applications of matrix algebra to network theoryIEEE Transactions on Information Theory, 1959
- Graphs and Vector SpacesJournal of Mathematics and Physics, 1958