Mathematical theory of broadband matching of multiport networks

The necessary and sufficient conditions that an n x n matrix be the scattering matrix of a lumped, lossless n-port normalizing to n non-Foster positive-real impedances are presented in matrix form in terms of coeficients of the Laurent series of the parameters. Also, a method is introducedfor constr

7'he paper presents a unified summary of recent progress on mathematical theory of broadband matching. It is shown that the characterization of the normalized scattering matrix, the problem of compatible impedances and the matching of an arbitrary load to a frequency-dependent source to give a preas

The paper provides practical means for selecting the optimum parameters for the design of a lossless coupling network that equalizes the parallel RC load to a resistive generator and to achieve the nth-order elliptic transducer power-gain characteristic. Fundamental gain-bandwidth limitation and ot

Given the source and load impedances and a preassigned transducer power-gain characteristic, the necessary and su&ient conditions are given for the existence of a lossless reciprocal and a nonreciprocal equalizer which, when operating between the two given impedances, yields the desired transducer p

## It is shown that Youla's theory of broadband matching between a passive load and a resistive generator with a preassigned transducer power gain characteristic is completely equivalent to Wohlers' solution to the problem of compatible impedances, which transforms a given passive impedance by a los