mirror of https://github.com/FOME-Tech/fome-fw.git
172 lines
6.9 KiB
C++
172 lines
6.9 KiB
C++
/**
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* @file trigger_mazda.cpp
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*
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* @date Feb 18, 2014
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* @author Andrey Belomutskiy, (c) 2012-2017
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*
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* This file is part of rusEfi - see http://rusefi.com
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*
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* rusEfi is free software; you can redistribute it and/or modify it under the terms of
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* the GNU General Public License as published by the Free Software Foundation; either
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* version 3 of the License, or (at your option) any later version.
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*
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* rusEfi is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without
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* even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License along with this program.
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* If not, see <http://www.gnu.org/licenses/>.
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*/
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#include "trigger_mazda.h"
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void initializeMazdaMiataNaShape(TriggerShape *s DECLARE_ENGINE_PARAMETER_S) {
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s->initialize(FOUR_STROKE_CAM_SENSOR, true);
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s->setTriggerSynchronizationGap2(1.4930 * 0.6f, 1.4930 * 1.3f);
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s->useRiseEdge = false;
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s->tdcPosition = 294;
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s->isSynchronizationNeeded = true;
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/**
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* http://rusefi.com/forum/viewtopic.php?f=3&t=729&p=12983#p12983
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*/
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s->addEvent2(52.960405, T_SECONDARY, TV_RISE PASS_ENGINE_PARAMETER);
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s->addEvent2(122.635956, T_SECONDARY, TV_FALL PASS_ENGINE_PARAMETER);
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s->addEvent2(216.897031, T_PRIMARY, TV_RISE PASS_ENGINE_PARAMETER);
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s->addEvent2(232.640068, T_SECONDARY, TV_RISE PASS_ENGINE_PARAMETER);
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s->addEvent2(288.819688, T_PRIMARY, TV_FALL PASS_ENGINE_PARAMETER);
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s->addEvent2(302.646323, T_SECONDARY, TV_FALL PASS_ENGINE_PARAMETER);
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s->addEvent2(412.448056, T_SECONDARY, TV_RISE PASS_ENGINE_PARAMETER);
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s->addEvent2(482.816719, T_SECONDARY, TV_FALL PASS_ENGINE_PARAMETER);
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s->addEvent2(577.035495, T_PRIMARY, TV_RISE PASS_ENGINE_PARAMETER);
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s->addEvent2(592.878113, T_SECONDARY, TV_RISE PASS_ENGINE_PARAMETER);
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s->addEvent2(662.899708, T_SECONDARY, TV_FALL PASS_ENGINE_PARAMETER);
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s->addEvent2(720.0f, T_PRIMARY, TV_FALL PASS_ENGINE_PARAMETER);
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s->useOnlyPrimaryForSync = true;
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}
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// TT_MIATA_VVT
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void initializeMazdaMiataNb2Crank(TriggerShape *s DECLARE_ENGINE_PARAMETER_S) {
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s->initialize(FOUR_STROKE_SYMMETRICAL_CRANK_SENSOR, false);
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float o = 160;
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s->tdcPosition = 60 + 655;
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s->setTriggerSynchronizationGap2(0.35f, 0.98f);
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s->addEvent2(o + 4 * 56.0f, T_PRIMARY, TV_FALL PASS_ENGINE_PARAMETER);
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s->addEvent2(o + 4 * 60.0f, T_PRIMARY, TV_RISE PASS_ENGINE_PARAMETER);
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s->addEvent2(o + 4 * 136.0f, T_PRIMARY, TV_FALL PASS_ENGINE_PARAMETER);
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s->addEvent2(o + 4 * 140.0f, T_PRIMARY, TV_RISE PASS_ENGINE_PARAMETER);
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}
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static void initializeMazdaMiataNb1ShapeWithOffset(TriggerShape *s, float offset DECLARE_ENGINE_PARAMETER_S) {
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s->initialize(FOUR_STROKE_CAM_SENSOR, true);
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s->setTriggerSynchronizationGap(0.11f);
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s->useRiseEdge = false;
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s->invertOnAdd = true;
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s->tdcPosition = 276;
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/**
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* cam sensor is primary, crank sensor is secondary
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*/
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s->addEvent2(20.0f, T_PRIMARY, TV_RISE PASS_ENGINE_PARAMETER);
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s->addEvent2(offset + 66.0f, T_SECONDARY, TV_FALL PASS_ENGINE_PARAMETER);
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s->addEvent2(offset + 70.0f, T_SECONDARY, TV_RISE PASS_ENGINE_PARAMETER);
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s->addEvent2(offset + 136.0f, T_SECONDARY, TV_FALL PASS_ENGINE_PARAMETER);
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s->addEvent2(offset + 140.0f, T_SECONDARY, TV_RISE PASS_ENGINE_PARAMETER);
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s->addEvent2(offset + 246.0f, T_SECONDARY, TV_FALL PASS_ENGINE_PARAMETER);
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s->addEvent2(offset + 250.0f, T_SECONDARY, TV_RISE PASS_ENGINE_PARAMETER);
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s->addEvent2(offset + 316.0f, T_SECONDARY, TV_FALL PASS_ENGINE_PARAMETER);
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s->addEvent2(offset + 320.0f, T_SECONDARY, TV_RISE PASS_ENGINE_PARAMETER);
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s->addEvent2(340.0f, T_PRIMARY, TV_FALL PASS_ENGINE_PARAMETER);
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s->addEvent2(360.0f, T_PRIMARY, TV_RISE PASS_ENGINE_PARAMETER);
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s->addEvent2(380.0f, T_PRIMARY, TV_FALL PASS_ENGINE_PARAMETER);
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s->addEvent2(400.0f, T_PRIMARY, TV_RISE PASS_ENGINE_PARAMETER);
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s->addEvent2(offset + 426.0f, T_SECONDARY, TV_FALL PASS_ENGINE_PARAMETER);
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s->addEvent2(offset + 430.0f, T_SECONDARY, TV_RISE PASS_ENGINE_PARAMETER);
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s->addEvent2(offset + 496.0f, T_SECONDARY, TV_FALL PASS_ENGINE_PARAMETER);
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s->addEvent2(offset + 500.0f, T_SECONDARY, TV_RISE PASS_ENGINE_PARAMETER);
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s->addEvent2(offset + 606.0f, T_SECONDARY, TV_FALL PASS_ENGINE_PARAMETER);
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s->addEvent2(offset + 610.0f, T_SECONDARY, TV_RISE PASS_ENGINE_PARAMETER);
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s->addEvent2(offset + 676.0f, T_SECONDARY, TV_FALL PASS_ENGINE_PARAMETER);
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s->addEvent2(offset + 680.0f, T_SECONDARY, TV_RISE PASS_ENGINE_PARAMETER);
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s->addEvent2(720.0f, T_PRIMARY, TV_FALL PASS_ENGINE_PARAMETER);
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s->useOnlyPrimaryForSync = true;
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}
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void initializeMazdaMiataNb1Shape(TriggerShape *s DECLARE_ENGINE_PARAMETER_S) {
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initializeMazdaMiataNb1ShapeWithOffset(s, 0 PASS_ENGINE_PARAMETER);
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}
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void initializeMazdaMiataVVtTestShape(TriggerShape *s DECLARE_ENGINE_PARAMETER_S) {
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initializeMazdaMiataNb1ShapeWithOffset(s, -22 PASS_ENGINE_PARAMETER);
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}
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void configureMazdaProtegeSOHC(TriggerShape *s DECLARE_ENGINE_PARAMETER_S) {
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// todo: move to into configuration definition s->needSecondTriggerInput = FALSE;
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s->initialize(FOUR_STROKE_CAM_SENSOR, false);
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// s->initialState[0] = 1;
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// float w = 720 / 4 * 0.215;
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float a = 5;
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float z = 0.093;
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a = 180;
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s->addEvent2(a - z * 720, T_PRIMARY, TV_RISE PASS_ENGINE_PARAMETER);
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s->addEvent2(a, T_PRIMARY, TV_FALL PASS_ENGINE_PARAMETER);
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a += 180;
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s->addEvent2(a - z * 720, T_PRIMARY, TV_RISE PASS_ENGINE_PARAMETER);
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s->addEvent2(a, T_PRIMARY, TV_FALL PASS_ENGINE_PARAMETER);
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a += 180;
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s->addEvent2(a - z * 720, T_PRIMARY, TV_RISE PASS_ENGINE_PARAMETER);
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s->addEvent2(a, T_PRIMARY, TV_FALL PASS_ENGINE_PARAMETER);
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a += 180;
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s->addEvent2(a - z * 720, T_PRIMARY, TV_RISE PASS_ENGINE_PARAMETER);
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s->addEvent2(a, T_PRIMARY, TV_FALL PASS_ENGINE_PARAMETER);
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s->isSynchronizationNeeded = false;
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}
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void configureMazdaProtegeLx(TriggerShape *s DECLARE_ENGINE_PARAMETER_S) {
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// todo: move to into configuration definition s->needSecondTriggerInput = FALSE;
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s->initialize(FOUR_STROKE_CAM_SENSOR, true);
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s->useOnlyPrimaryForSync = true;
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/**
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* based on https://svn.code.sf.net/p/rusefi/code/trunk/misc/logs/1993_escort_gt/MAIN_rfi_report_2015-02-01%2017_39.csv
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*/
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s->addEvent2(95.329254, T_PRIMARY, TV_RISE PASS_ENGINE_PARAMETER);
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s->addEvent2(95.329254 + 14.876692, T_SECONDARY, TV_RISE PASS_ENGINE_PARAMETER);
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s->addEvent2(95.329254 + 82.693557, T_SECONDARY, TV_FALL PASS_ENGINE_PARAMETER);
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s->addEvent2(95.329254 + 137.119154, T_PRIMARY, TV_FALL PASS_ENGINE_PARAMETER);
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s->addEvent2(95.329254 + 192.378308, T_SECONDARY, TV_RISE PASS_ENGINE_PARAMETER);
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s->addEvent2(95.329254 + 261.556418, T_SECONDARY, TV_FALL PASS_ENGINE_PARAMETER);
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s->addEvent2(95.329254 + 373.060597, T_SECONDARY, TV_RISE PASS_ENGINE_PARAMETER);
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s->addEvent2(95.329254 + 443.503184, T_SECONDARY, TV_FALL PASS_ENGINE_PARAMETER);
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s->addEvent2(95.329254 + 555.349776, T_SECONDARY, TV_RISE PASS_ENGINE_PARAMETER);
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s->addEvent2(720, T_SECONDARY, TV_FALL PASS_ENGINE_PARAMETER);
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s->tdcPosition = 137.119154;
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s->isSynchronizationNeeded = false;
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}
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