mirror of https://github.com/rusefi/rusefi-1.git
165 lines
4.7 KiB
C++
165 lines
4.7 KiB
C++
/*
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* trigger_misc.cpp
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*
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* Created on: Oct 30, 2018
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* @author Andrey Belomutskiy, (c) 2012-2020
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*/
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#include "pch.h"
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#include "trigger_misc.h"
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#include "trigger_universal.h"
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// TT_FIAT_IAW_P8
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void configureFiatIAQ_P8(TriggerWaveform * s) {
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s->initialize(FOUR_STROKE_CAM_SENSOR);
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int width = 60;
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s->tdcPosition = width;
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s->addEvent720(width, T_PRIMARY, TV_RISE);
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s->addEvent720(180, T_PRIMARY, TV_FALL);
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s->addEvent720(180 + width, T_PRIMARY, TV_RISE);
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s->addEvent720(720, T_PRIMARY, TV_FALL);
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s->setTriggerSynchronizationGap(3);
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}
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// TT_TRI_TACH
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void configureTriTach(TriggerWaveform * s) {
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s->initialize(FOUR_STROKE_CRANK_SENSOR);
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s->isSynchronizationNeeded = false;
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float toothWidth = 0.5;
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float engineCycle = FOUR_STROKE_ENGINE_CYCLE;
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int totalTeethCount = 135;
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float offset = 0;
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float angleDown = engineCycle / totalTeethCount * (0 + (1 - toothWidth));
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float angleUp = engineCycle / totalTeethCount * (0 + 1);
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s->addEventClamped(offset + angleDown, T_PRIMARY, TV_RISE, NO_LEFT_FILTER, NO_RIGHT_FILTER);
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s->addEventClamped(offset + angleDown + 0.1, T_SECONDARY, TV_RISE, NO_LEFT_FILTER, NO_RIGHT_FILTER);
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s->addEventClamped(offset + angleUp, T_PRIMARY, TV_FALL, NO_LEFT_FILTER, NO_RIGHT_FILTER);
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s->addEventClamped(offset + angleUp + 0.1, T_SECONDARY, TV_FALL, NO_LEFT_FILTER, NO_RIGHT_FILTER);
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addSkippedToothTriggerEvents(T_SECONDARY, s, totalTeethCount, /* skipped */ 0, toothWidth, offset, engineCycle,
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1.0 * FOUR_STROKE_ENGINE_CYCLE / 135,
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NO_RIGHT_FILTER);
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}
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/**
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* based on https://fordsix.com/threads/understanding-standard-and-signature-pip-thick-film-ignition.81515/
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* based on https://www.w8ji.com/distributor_stabbing.htm
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*/
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void configureFordPip(TriggerWaveform * s) {
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s->initialize(FOUR_STROKE_CAM_SENSOR);
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s->tdcPosition = 662.5;
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s->setTriggerSynchronizationGap(0.66);
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s->setSecondTriggerSynchronizationGap(1.25);
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/**
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* sensor is mounted on distributor but trigger shape is defined in engine cycle angles
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*/
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int oneCylinder = s->getCycleDuration() / 8;
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s->addEventAngle(oneCylinder * 0.75, T_PRIMARY, TV_RISE);
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s->addEventAngle(oneCylinder, T_PRIMARY, TV_FALL);
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for (int i = 2;i<=8;i++) {
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s->addEventAngle(oneCylinder * (i - 0.5), T_PRIMARY, TV_RISE);
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s->addEventAngle(oneCylinder * i, T_PRIMARY, TV_FALL);
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}
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}
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void configureFordST170(TriggerWaveform * s) {
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s->initialize(FOUR_STROKE_CAM_SENSOR);
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int width = 10;
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int total = s->getCycleDuration() / 8;
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s->addEventAngle(1 * total - width, T_PRIMARY, TV_RISE);
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s->addEventAngle(1 * total, T_PRIMARY, TV_FALL);
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s->addEventAngle(2 * total - width, T_PRIMARY, TV_RISE);
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s->addEventAngle(2 * total, T_PRIMARY, TV_FALL);
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s->addEventAngle(4 * total - width, T_PRIMARY, TV_RISE);
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s->addEventAngle(4 * total, T_PRIMARY, TV_FALL);
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s->addEventAngle(6 * total - width, T_PRIMARY, TV_RISE);
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s->addEventAngle(6 * total, T_PRIMARY, TV_FALL);
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s->addEventAngle(8 * total - width, T_PRIMARY, TV_RISE);
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s->addEventAngle(8 * total, T_PRIMARY, TV_FALL);
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}
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void configureDaihatsu4(TriggerWaveform * s) {
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s->initialize(FOUR_STROKE_CAM_SENSOR);
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int width = 10;
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s->setTriggerSynchronizationGap(0.125);
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s->addEventAngle(30 - width, T_PRIMARY, TV_RISE);
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s->addEventAngle(30, T_PRIMARY, TV_FALL);
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s->addEventAngle(s->getCycleDuration() / 3 - width, T_PRIMARY, TV_RISE);
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s->addEventAngle(s->getCycleDuration() / 3, T_PRIMARY, TV_FALL);
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s->addEventAngle(s->getCycleDuration() / 3 * 2 - width, T_PRIMARY, TV_RISE);
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s->addEventAngle(s->getCycleDuration() / 3 * 2, T_PRIMARY, TV_FALL);
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s->addEventAngle(s->getCycleDuration() - width, T_PRIMARY, TV_RISE);
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s->addEventAngle(s->getCycleDuration(), T_PRIMARY, TV_FALL);
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}
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void configureBarra3plus1cam(TriggerWaveform *s) {
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s->initialize(FOUR_STROKE_CAM_SENSOR);
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s->useRiseEdge = true;
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// TODO: gapBothDirections?
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// This wheel has four teeth
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// two short gaps, and two long gaps
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// short = 60 deg
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// long = 120 deg
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{
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int offset = 120;
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s->addEventAngle(offset + 2 * 0 - 10, T_PRIMARY, TV_RISE);
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s->addEventAngle(offset + 2 * 0 + 0, T_PRIMARY, TV_FALL);
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// short gap 60 deg
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s->addEventAngle(offset + 2 * 60 - 10, T_PRIMARY, TV_RISE);
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s->addEventAngle(offset + 2 * 60 + 0, T_PRIMARY, TV_FALL);
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// long gap 120 deg
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s->addEventAngle(offset + 2 * 180 - 10, T_PRIMARY, TV_RISE);
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s->addEventAngle(offset + 2 * 180 + 0, T_PRIMARY, TV_FALL);
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// long gap 120 deg
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s->addEventAngle(offset + 2 * 300 - 10, T_PRIMARY, TV_RISE);
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s->addEventAngle(offset + 2 * 300 + 0, T_PRIMARY, TV_FALL);
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// short gap, 60 deg back to zero/720
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}
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// sync tooth is the zero tooth, the first short gap after two long gaps
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s->setTriggerSynchronizationGap3(0, 1.6f, 2.4f);
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// previous gap should be 1.0
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s->setTriggerSynchronizationGap3(1, 0.8f, 1.2f);
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}
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