mirror of https://github.com/rusefi/rusefi-1.git
117 lines
3.2 KiB
C++
117 lines
3.2 KiB
C++
/*
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* @file trigger_toyota.cpp
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*
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* https://thedeltaecho.wordpress.com/2010/03/14/2jz-ge-cam-crank-signals/
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*
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* @date Dec 14, 2015
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* @author Andrey Belomutskiy, (c) 2012-2016
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*/
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#include "trigger_toyota.h"
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EXTERN_ENGINE;
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void initialize2jzGE1_12(TriggerShape *s) {
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s->initialize(FOUR_STROKE_CAM_SENSOR, true);
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float crankD = 360 / 12 / 2; // 15
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float crankAngle = 10;
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s->addEvent(crankAngle, T_SECONDARY, TV_FALL, -1, 721); // 120
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for (int i = 0; i < 2; i++) {
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s->addEvent(crankAngle + crankD, T_SECONDARY, TV_RISE, -1, 721);
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crankAngle += crankD;
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s->addEvent(crankAngle + crankD, T_SECONDARY, TV_FALL, -1, 721); // 120
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crankAngle += crankD;
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}
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s->addEvent(75, T_PRIMARY, TV_FALL, -1, 721);
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for (int i = 0; i < 21; i++) {
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s->addEvent(crankAngle + crankD, T_SECONDARY, TV_RISE, -1, 721);
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crankAngle += crankD;
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s->addEvent(crankAngle + crankD, T_SECONDARY, TV_FALL, -1, 721); // 120
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crankAngle += crankD;
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}
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s->addEvent(crankAngle + crankD, T_SECONDARY, TV_RISE, -1, 721);
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crankAngle += crankD;
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s->addEvent(720, T_PRIMARY, TV_RISE, -1, 721);
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s->isSynchronizationNeeded = false;
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}
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void initialize2jzGE3_34(TriggerShape *s) {
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setToothedWheelConfiguration(s, 36, 2, FOUR_STROKE_CRANK_SENSOR);
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// s->initialize(FOUR_STROKE_CAM_SENSOR, true);
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//
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// float camD = 720 / 6; // 120
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//
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// float crankAngle = 20; // skipping two teeth
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//
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// for (int i = 0; i < 10; i++) {
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// s->addEvent(crankAngle + 5, T_SECONDARY, TV_RISE, -1, 721);
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// s->addEvent(crankAngle + 9.9, T_SECONDARY, TV_FALL, -1, 721); // 120
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// crankAngle += 10;
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// } // 2 + 10
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//
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// float camAngle = 0;
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// camAngle += camD;
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// s->addEvent(camAngle, T_PRIMARY, TV_RISE, -1, 721); // 120
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//
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// for (int i = 0; i < 12; i++) {
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// s->addEvent(crankAngle + 5, T_SECONDARY, TV_RISE, -1, 721);
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// s->addEvent(crankAngle + 9.9, T_SECONDARY, TV_FALL, -1, 721); // 120
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// crankAngle += 10;
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// } // 2 + 22
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//
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//
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// camAngle += camD;
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// s->addEvent(camAngle, T_PRIMARY, TV_FALL, -1, 721); // 240
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//
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// for (int i = 0; i < 12; i++) {
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// s->addEvent(crankAngle + 5, T_SECONDARY, TV_RISE, -1, 721);
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// s->addEvent(crankAngle + 9.9, T_SECONDARY, TV_FALL, -1, 721); // 120
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// crankAngle += 10;
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// } // 2 + 34
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//
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// camAngle += camD;
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// s->addEvent(camAngle, T_PRIMARY, TV_RISE, -1, 721); // 360
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//
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// crankAngle += 20; // skipping two teeth one more time
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// for (int i = 0; i < 10; i++) {
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// s->addEvent(crankAngle + 5, T_SECONDARY, TV_RISE, -1, 721);
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// s->addEvent(crankAngle + 9.9, T_SECONDARY, TV_FALL, -1, 721); // 120
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// crankAngle += 10;
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// } // 2 + 10
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//
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// camAngle += camD;
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// s->addEvent(camAngle, T_PRIMARY, TV_FALL, -1, 721); // 480
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//
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// for (int i = 0; i < 12; i++) {
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// s->addEvent(crankAngle + 5, T_SECONDARY, TV_RISE, -1, 721);
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// s->addEvent(crankAngle + 9.9, T_SECONDARY, TV_FALL, -1, 721); // 120
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// crankAngle += 10;
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// } // 2 + 22
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//
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// camAngle += camD;
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// s->addEvent(camAngle, T_PRIMARY, TV_RISE, -1, 721); // 600
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//
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//
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// for (int i = 0; i < 12; i++) {
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// s->addEvent(crankAngle + 5, T_SECONDARY, TV_RISE, -1, 721);
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// s->addEvent(crankAngle + 9.9, T_SECONDARY, TV_FALL, -1, 721); // 120
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// crankAngle += 10;
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// } // 2 + 32
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// camAngle += camD;
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// s->addEvent(camAngle, T_PRIMARY, TV_FALL, -1, 721); // 720
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//
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// s->isSynchronizationNeeded = false;
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}
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