We consider the search for all DC solutions of resistive Piecewise-Linear (PWL) circuits and the analysis of the characteristics of resistive PWL composite $N$-ports. These problems are unified from a theoretical and operating point of view by introducing the so-called $N$-augmented circuit, obtained from the $N$-port by closing its ports with $N$ norators. Set-theoretic approach is used to describe the properties of the $N$-augmented circuits leading to the formulation of a general DC analysis algorithm, based on Linear Programming techniques. The examples at the end of the paper show some practical and efficient application of the general DC analysis algorithm
A new methodology is presented to solve a strongly nonlinear circuit, characterized by Piece-Wise Li...
Linear n-ports are examined, at a single frequency, in the light of a method based on invariance pri...
Abstract:- An efficient algorithm is proposed for finding all DC solutions of nonlinear (not piecewi...
The generalized DC analysis of generic piecewise-linear circuits includes some important problems of...
An algorithm to capture all the unicursal branches of any one-port characteristic in piecewise-linea...
A new fast method to find all the DC solutions of piecewise-linear (PWL) resistive circuits is prese...
A fast and efficient method for finding all dc solutions of resistive piecewise linear (PWL) circuit...
This paper deals with the problems of computing port characteristics and maximum power transfer for ...
This paper proposes an approach to find possible mul- tiple solutions of nonlinear resistive circuit...
A new method of finding the operating points in circuits containing ideal diodes which utilizes the ...
Piecewise Linear (PL) approximation of non-linear behaviour is a well-known technique in synthesis a...
FrA02 Invited Session: Circuit Synthesis 2: Paper FrA02.3A survey on the development of resistive ne...
In this article, we present a time domain method to compute synthesized reduced-order approximation ...
This paper presents a method for the approximate synthesis of nonlinear multiport resistors. Accordi...
A fast and convergent iteration method for piecewise-linear analysis of nonlinear resistive circuits...
A new methodology is presented to solve a strongly nonlinear circuit, characterized by Piece-Wise Li...
Linear n-ports are examined, at a single frequency, in the light of a method based on invariance pri...
Abstract:- An efficient algorithm is proposed for finding all DC solutions of nonlinear (not piecewi...
The generalized DC analysis of generic piecewise-linear circuits includes some important problems of...
An algorithm to capture all the unicursal branches of any one-port characteristic in piecewise-linea...
A new fast method to find all the DC solutions of piecewise-linear (PWL) resistive circuits is prese...
A fast and efficient method for finding all dc solutions of resistive piecewise linear (PWL) circuit...
This paper deals with the problems of computing port characteristics and maximum power transfer for ...
This paper proposes an approach to find possible mul- tiple solutions of nonlinear resistive circuit...
A new method of finding the operating points in circuits containing ideal diodes which utilizes the ...
Piecewise Linear (PL) approximation of non-linear behaviour is a well-known technique in synthesis a...
FrA02 Invited Session: Circuit Synthesis 2: Paper FrA02.3A survey on the development of resistive ne...
In this article, we present a time domain method to compute synthesized reduced-order approximation ...
This paper presents a method for the approximate synthesis of nonlinear multiport resistors. Accordi...
A fast and convergent iteration method for piecewise-linear analysis of nonlinear resistive circuits...
A new methodology is presented to solve a strongly nonlinear circuit, characterized by Piece-Wise Li...
Linear n-ports are examined, at a single frequency, in the light of a method based on invariance pri...
Abstract:- An efficient algorithm is proposed for finding all DC solutions of nonlinear (not piecewi...