Theory of broadband matching and the problem of compatible impedances

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

Impedance matching domain problems of tunable matching networks are described in this paper. A method for determining matchable impedance regions of passive LC ladder networks with any component value ranges is proposed. Matching domains of the most popular II, T and L networks whose component value

This paper presents a simple theory for the design of a broad-band impedance matching network which, when operating between a given RLC generator z,(s) and an RLC load z\*(s), yields a Chebyshev low-pass or band-pass response. Using Chien's realizability conditions of double frequency-dependent term

## Abstract In this paper we report on the properties of the matching polynomial α(__G__) of a graph __G__. We present a number of recursion formulas for α(__G__), from which it follows that many families of orthogonal polynomials arise as matching polynomials of suitable families of graphs. We con