From 5133295f387510a85ed3e9a1be90fbbaa6a63d94 Mon Sep 17 00:00:00 2001 From: Matthew McWilliams Date: Sat, 8 Jul 2023 19:44:57 -0400 Subject: [PATCH] Save JKMM100 work --- ino/mcopy_JKMM100/mcopy_JKMM100_work.ino | 206 +++++++++++++++++++++++ 1 file changed, 206 insertions(+) create mode 100644 ino/mcopy_JKMM100/mcopy_JKMM100_work.ino diff --git a/ino/mcopy_JKMM100/mcopy_JKMM100_work.ino b/ino/mcopy_JKMM100/mcopy_JKMM100_work.ino new file mode 100644 index 0000000..a252145 --- /dev/null +++ b/ino/mcopy_JKMM100/mcopy_JKMM100_work.ino @@ -0,0 +1,206 @@ +/* + * Sketch containing firmware for the JKMM100 + * A collaboration between MONO NO AWARE and mcopy. + * Compatible with JK105 hardware. + * + * Uses an Arduino Uno compatible board and a + * custom PCB. + * Rrelay module for proj : + + Wiring + + PROJECTOR + PROJECTOR_DIR + + Wire to corresponding pins + Arduino 3 4 5V GND + Relay 1 2 VCC GND + + For controling JK Projectors 106 models + Solid state relays connect to: + 2uf run capacitory + 400 Ohm Resistor (50W) + + + PINS FOR PROJ WIRE + + # + 1 - + 2 - + 3 - + 4 - + + Relay 1 corresponds to FWD + Relay 2 corresponse to BWD + +*/ + +#include "McopySerial.h" + +volatile unsigned long now; + +//PROJECTOR CONSTANTS +const int PROJECTOR_MICROSWITCH = 11; +const int LED_FWD = 12; +const int LED_BWD = 13; + +const int PROJECTOR_FWD = 3; +const int PROJECTOR_BWD = 4; + +const int PROJECTOR_MOMENT = 240; +const int PROJECTOR_FRAME = 600; +const int PROJECTOR_MICROSWITCH_CLOSED = 0; +const int PROJECTOR_MICROSWITCH_OPENED = 1; +const int PROJECTOR_HALF_TIME = 450; + +//PROJECTOR VARIABLES +boolean proj_dir = true; +boolean proj_running = false; +boolean proj_primed = false; +volatile int proj_micro_state = 0; +volatile long proj_time = 0; +volatile long proj_avg = -1; + +volatile char cmdChar = 'z'; + +McopySerial mc; + +void setup () { + pins(); + digitalWrite(LED_FWD, HIGH); + digitalWrite(LED_BWD, HIGH); + mc.begin(mc.PROJECTOR_IDENTIFIER); + delay(42); + digitalWrite(LED_FWD, LOW); + digitalWrite(LED_BWD, LOW); +} + +void loop () { + now = millis(); + if (proj_running) { + proj_microswitch(); + } else { + cmdChar = mc.loop(); + cmd(cmdChar); + } +} + +void pins () { + pinMode(PROJECTOR_MICROSWITCH, INPUT_PULLUP); + pinMode(PROJECTOR_FWD, OUTPUT); + pinMode(PROJECTOR_BWD, OUTPUT); + pinMode(LED_FWD, OUTPUT); + pinMode(LED_BWD, OUTPUT); + + digitalWrite(PROJECTOR_FWD, LOW); + digitalWrite(PROJECTOR_BWD, LOW); + + digitalWrite(LED_FWD, LOW); + digitalWrite(LED_BWD, LOW); +} + +void cmd (char val) { + if (val == mc.PROJECTOR_FORWARD) { + proj_direction(true); + } else if (val == mc.PROJECTOR_BACKWARD) { + proj_direction(false); + } else if (val == mc.PROJECTOR) { + proj_start(); + } else if (val == mc.STATE) { + state(); + } +} + +void proj_start () { + proj_time = millis(); + + if (proj_dir) { + digitalWrite(PROJECTOR_FWD, HIGH); + digitalWrite(LED_FWD, HIGH); + } else { + digitalWrite(PROJECTOR_BWD, HIGH); + digitalWrite(LED_BWD, HIGH); + } + + proj_running = true; +} + +void proj_stop () { + //stop both directions + //delay(10); + digitalWrite(PROJECTOR_FWD, LOW); + digitalWrite(PROJECTOR_BWD, LOW); + digitalWrite(LED_FWD, LOW); + digitalWrite(LED_BWD, LOW); + + if (digitalRead(PROJECTOR_MICROSWITCH) == PROJECTOR_MICROSWITCH_CLOSED) { + if (proj_dir) { + digitalWrite(PROJECTOR_BWD, HIGH); + delay(15); + digitalWrite(PROJECTOR_BWD, LOW); + } else { + digitalWrite(PROJECTOR_FWD, HIGH); + delay(15); + digitalWrite(PROJECTOR_FWD, LOW); + } + } + + mc.confirm(mc.PROJECTOR); + mc.log("projector()"); + proj_running = false; + + update_timing(millis() - proj_time); + delay(10); + mc.log(String(digitalRead(PROJECTOR_MICROSWITCH))); +} + +void proj_direction (boolean state) { + proj_dir = state; + if (state) { + mc.confirm(mc.PROJECTOR_FORWARD); + mc.log("proj_direction -> true"); + } else { + mc.confirm(mc.PROJECTOR_BACKWARD); + mc.log("proj_direction -> false"); + } +} + +//LOW=0=CLOSED +//HIGH=1=OPEN +void proj_microswitch () { + int val = digitalRead(PROJECTOR_MICROSWITCH); + if (!proj_primed // if not primed + && val != proj_micro_state // AND if state changes + && val == PROJECTOR_MICROSWITCH_OPENED // AND state changes to open + && now - proj_time > PROJECTOR_HALF_TIME) { + //prime + mc.log("proj_primed => true"); + proj_micro_state = val; + proj_primed = true; + } else if (proj_primed //if primed + && val != proj_micro_state //AND if state changes + && val == PROJECTOR_MICROSWITCH_CLOSED //AND state changes to open + && now - proj_time > PROJECTOR_HALF_TIME) { //AND total elapsed time is greater than half frame time + //stop + proj_primed = false; + proj_micro_state = val; //unneeded? + proj_stop(); + } else { + //delay(1); //some smothing value + } +} + +void update_timing (int timing) { + if (proj_avg == -1) { + proj_avg = timing; + } else { + proj_avg = (int) round((proj_avg + timing) / 2); + } + mc.log(String(timing) + "ms"); +} + +void state () { + String stateString = String(mc.CAMERA_EXPOSURE); + stateString += String(proj_avg); + stateString += String(mc.STATE); + mc.print(stateString); +}