/* * mutualx.cpp - multiple mutual inductors class implementation * * Copyright (C) 2007, 2008 Stefan Jahn * * This is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2, or (at your option) * any later version. * * This software is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this package; see the file COPYING. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street - Fifth Floor, * Boston, MA 02110-1301, USA. * * $Id$ * */ #if HAVE_CONFIG_H # include #endif #include "component.h" #include "mutualx.h" using namespace qucs; mutualx::mutualx () : circuit () { type = CIR_MUTUALX; setVariableSized (true); } void mutualx::calcSP (nr_double_t frequency) { setMatrixS (ytos (calcMatrixY (frequency))); } matrix mutualx::calcMatrixY (nr_double_t frequency) { #if 1 matrix ts = ztos (calcMatrixZ (frequency)); matrix ty = stoy (ts); #else matrix ty = ztoy (calcMatrixZ (frequency)); #endif int r, c; int inductors = getSize () / 2; matrix y = matrix (inductors * 2); for (r = 0; r < inductors; r++) { for (c = 0; c < inductors; c++) { y.set (2 * r + 0, 2 * c + 0, +ty (r, c)); y.set (2 * r + 1, 2 * c + 1, +ty (r, c)); y.set (2 * r + 0, 2 * c + 1, -ty (r, c)); y.set (2 * r + 1, 2 * c + 0, -ty (r, c)); } } return y; } matrix mutualx::calcMatrixZ (nr_double_t frequency) { int inductors = getSize () / 2; int r, c, state; qucs::vector * L = getPropertyVector ("L"); qucs::vector * C = getPropertyVector ("k"); nr_double_t o = 2 * pi * frequency; matrix z = matrix (inductors); // fill Z-Matrix entries for (state = 0, r = 0; r < inductors; r++) { for (c = 0; c < inductors; c++, state++) { nr_double_t l1 = real (L->get (r)); nr_double_t l2 = real (L->get (c)); nr_double_t k = real (C->get (state)) * std::sqrt (l1 * l2); z.set (r, c, nr_complex_t (0.0, k * o)); } } return z; } void mutualx::initAC (void) { initDC (); } void mutualx::calcAC (nr_double_t frequency) { int inductors = getSize () / 2; int r, c, state; qucs::vector * L = getPropertyVector ("L"); qucs::vector * C = getPropertyVector ("k"); nr_double_t o = 2 * pi * frequency; // fill D-Matrix for (state = 0, r = 0; r < inductors; r++) { for (c = 0; c < inductors; c++, state++) { nr_double_t l1 = real (L->get (r)); nr_double_t l2 = real (L->get (c)); nr_double_t k = real (C->get (state)) * std::sqrt (l1 * l2); setD (VSRC_1 + r, VSRC_1 + c, nr_complex_t (0.0, - k * o)); } } } void mutualx::initDC (void) { int inductors = getSize () / 2; setVoltageSources (inductors); allocMatrixMNA (); // fill C and B-Matrix entries for (int i = 0; i < inductors; i++) voltageSource (VSRC_1 + i, NODE_1 + i * 2, NODE_2 + i * 2); } void mutualx::initTR (void) { int inductors = getSize () / 2; initDC (); setStates (inductors * inductors * 2); } void mutualx::calcTR (nr_double_t) { int inductors = getSize () / 2; int r, c, state; qucs::vector * L = getPropertyVector ("L"); qucs::vector * C = getPropertyVector ("k"); nr_double_t * veq = new nr_double_t[inductors * inductors]; nr_double_t * req = new nr_double_t[inductors * inductors]; // integration for self and mutual inductances for (state = 0, r = 0; r < inductors; r++) { for (c = 0; c < inductors; c++, state++) { nr_double_t l1 = real (L->get (r)); nr_double_t l2 = real (L->get (c)); nr_double_t i = real (getJ (VSRC_1 + c)); nr_double_t k = real (C->get (state)) * std::sqrt (l1 * l2); setState (2 * state, i * k); integrate (2 * state, k, req[state], veq[state]); } } // fill D-Matrix entries and extended RHS for (state = 0, r = 0; r < inductors; r++) { nr_double_t v = 0; for (c = 0; c < inductors; c++, state++) { setD (VSRC_1 + r, VSRC_1 + c, -req[state]); v += veq[state]; } setE (VSRC_1 + r, v); } delete[] veq; delete[] req; } // properties PROP_REQ [] = { { "L", PROP_LIST, { 1e-9, PROP_NO_STR }, PROP_POS_RANGE }, { "k", PROP_LIST, { 0.9, PROP_NO_STR }, PROP_RNGII (-1, +1) }, PROP_NO_PROP }; PROP_OPT [] = { PROP_NO_PROP }; struct define_t mutualx::cirdef = { "MUTX", PROP_NODES, PROP_COMPONENT, PROP_NO_SUBSTRATE, PROP_LINEAR, PROP_DEF };