An Approximate Analyt ical (Structural) Superposition in Terms of Two, or More, α - Circuits of the Same Topology: Pt .1 – Description of the Superposition

Abstract

One-ports named “f-circuits”, composed of similar conductors described by a monotonic polynomial, or quasi-polynomial (i.e. with positive but not necessarily integer, powers) characteristic i = f(v) are studied, focusing on the algebraic map f → F. Here F(.) is the input conductivity characteristic; i.e., i in = F(v in ) is the input current. The “power-law” “a-circuit” introduced in [1], for which f(v) ~ v a , is an important particular case. By means of a generalization of a parallel connection, the f-circuits are constructed from the a-circuits of the same topology, with different a, so that the given topology is kept, and ‘f’ is an additive function of the connection. We observe and consider an associated, generally approximated, but, in all of the cases studied, always high-precision, specific superposition. This superposition is in terms of f → F, and it means that F(.) of the connection is close to the sum of the input currents of the independent a-circuits, all connected in parallel to the same source. In other words, F(.) is well approximated by a linear combination of the same degrees of the independent variable as in f(.), i.e. the map of the characteristics f → F is close to a linear one. This unexpected result is useful for understanding nonlinear algebraic circuits, and is missed in the classical theory. The cases of f(v) = D 1 v + D 2 v 2 and f(v) = D 1 v + D 3 v 3 , are analyzed in examples. Special topologies when the superposition must be ideal, are also considered. In the second part [2] of the work the “circuit mechanism” that is responsible for the high precision of the superposition, in the most general case, is explained.