Computational technique for the periodic steady-state analysis of large nonlinear circuits

An algorithm that can decide, prior to performing the circuit analysis, if a procedure for the fast computation of the periodic steady state is necessary, is presented in this paper. The analysis of a switching supply illustrates how this algorithm works.

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A state space single-phase transformer model incorporating nonlinear phenomena of magnetic saturation and hysteresis for transient and periodic steady-state analysis

2000 Power Engineering Society Summer Meeting (Cat. No.00CH37134) ◽

10.1109/pess.2000.867369 ◽

2002 ◽

Cited By ~ 4

Author(s):

S. Garcia ◽

A. Medina ◽

C. Perez

Keyword(s):

Steady State ◽

State Space ◽

Single Phase ◽

Magnetic Saturation ◽

Nonlinear Phenomena ◽

Steady State Analysis ◽

Periodic Steady State ◽

Transformer Model ◽

State Analysis

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Periodic steady-state analysis of coupled ODE-AE-CGE systems for MOS RF autonomous circuit simulation

Proceedings of the ASP-DAC Asia and South Pacific Design Automation Conference, 2003. ◽

10.1109/aspdac.2003.1195142 ◽

2003 ◽

Author(s):

Xinyu Wu ◽

Zaiman Chen ◽

Jinmei Lai ◽

Qianling Zhang ◽

Omar Wing ◽

...

Keyword(s):

Steady State ◽

Circuit Simulation ◽

Steady State Analysis ◽

Periodic Steady State ◽

State Analysis

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A new method for the steady-state analysis of periodically excited nonlinear circuits

IEEE Transactions on Circuits and Systems I Fundamental Theory and Applications ◽

10.1109/81.545837 ◽

1996 ◽

Vol 43 (12) ◽

pp. 964-972 ◽

Cited By ~ 9

Author(s):

M. Celik ◽

A. Atalar ◽

M.A. Tan

Keyword(s):

Steady State ◽

Nonlinear Circuits ◽

New Method ◽

Steady State Analysis ◽

State Analysis

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Periodic steady-state analysis of nonlinear oscillators based on multivariate polynomial roots finding

10.5353/th_b5351049 ◽

2014 ◽

Author(s):

Shuqi Zhang

Keyword(s):

Steady State ◽

Nonlinear Oscillators ◽

Multivariate Polynomial ◽

Polynomial Roots ◽

Steady State Analysis ◽

Periodic Steady State ◽

State Analysis

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First fully CAE of a K-band sampling phase detector using periodic steady state analysis and sophisticated SRD-modelling

10.1109/euma.1996.337739 ◽

1996 ◽

Author(s):

W Konrath ◽

H Brauns

Keyword(s):

Steady State ◽

Phase Detector ◽

Steady State Analysis ◽

Periodic Steady State ◽

K Band ◽

State Analysis

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Periodic Steady-State Analysis of Large-Scale Electric Systems Using PoincarÉ Map and Parallel Processing

IEEE Transactions on Power Systems ◽

10.1109/tpwrs.2004.831250 ◽

2004 ◽

Vol 19 (4) ◽

pp. 1784-1793 ◽

Cited By ~ 10

Author(s):

N. Garcia ◽

E. Acha

Keyword(s):

Steady State ◽

Parallel Processing ◽

Large Scale ◽

Poincaré Map ◽

Poincare Map ◽

Steady State Analysis ◽

Periodic Steady State ◽

State Analysis

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INEXACT NEWTON METHODS FOR THE STEADY STATE ANALYSIS OF NONLINEAR CIRCUITS

Mathematical Models and Methods in Applied Sciences ◽

10.1142/s0218202596000043 ◽

1996 ◽

Vol 06 (01) ◽

pp. 43-57 ◽

Cited By ~ 5

Author(s):

NICOLA GUGLIELMI

Keyword(s):

Steady State ◽

Harmonic Balance ◽

Original Problem ◽

Nonlinear Circuits ◽

Projection Technique ◽

Steady State Analysis ◽

Nonlinear Algebraic System ◽

The Time Domain ◽

Theoretical Foundations ◽

State Analysis

In this paper numerical problems arising from steady state analysis of nonlinear circuits with quasiperiodic excitation are discussed. The approach we consider is based on the piecewise harmonic balance techniques8,9 (HB), a methodology which has its theoretical foundations in Galerkin's procedure (see the paper by Urabe12). The original problem, which can be expressed in the form of a system of integro-differential equations in the time domain, is changed into a nonlinear algebraic system through a natural projection technique. Thus, one of the main issues we have investigated consists in the numerical solution of the specific nonlinear algebraic problem.

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