mcopy/ino/mcopy_cam_relay/mcopy_cam_relay.ino

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Arduino
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/*
Control a camera with a single relay that
triggers a shutter release.
Hardware
Arduino Nano
Relay module
LED
480 Ohm resistor
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Wiring
CAMERA
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Wire directly to corresponding relay pins.
Arduino 2 5V GND
Relay 1 VCC GND
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*/
#include "McopySerial.h"
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//CAMERA CONSTANTS
const int CAMERA = 2;
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const int BUTTON = 7;
const int LED = 8;
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const int CAMERA_MOMENT = 240;
//VARIABLES
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volatile int cameraFrame = 2000;
volatile char cmdChar = 'z';
volatile long now;
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McopySerial mc;
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void setup () {
pins();
digitalWrite(LED, HIGH);
mc.begin(mc.CAMERA_IDENTIFIER);
delay(42);
digitalWrite(LED, LOW);
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}
void loop () {
now = millis();
cmdChar = mc.loop();
cmd(cmdChar);
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if (digitalRead(BUTTON) == LOW) {
camera();
}
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}
void pins () {
pinMode(CAMERA, OUTPUT);
pinMode(LED, OUTPUT);
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pinMode(BUTTON, INPUT_PULLUP);
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digitalWrite(CAMERA, LOW);
digitalWrite(LED, LOW);
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}
void cmd (char val) {
if (val == mc.CAMERA_FORWARD) {
camera_direction(true);
} else if (val == mc.CAMERA_BACKWARD) {
camera_direction(false);
} else if (val == mc.CAMERA) {
camera();
} else if (val == mc.STATE) {
state();
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}
}
//null route direction
void camera_direction (boolean state) {
if (state) {
mc.confirm(mc.CAMERA_FORWARD);
mc.log("camera_direction(true)");
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} else {
mc.confirm(mc.CAMERA_BACKWARD);
mc.log("camera_direction(false)");
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}
}
void camera () {
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digitalWrite(CAMERA, HIGH);
digitalWrite(LED, HIGH);
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delay(CAMERA_MOMENT);
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digitalWrite(CAMERA, LOW);
delay(cameraFrame - CAMERA_MOMENT);
digitalWrite(LED, LOW);
mc.confirm(mc.CAMERA);
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}
void state () {
String stateString = String(mc.CAMERA_EXPOSURE);
stateString += String(cameraFrame);
stateString += String(mc.STATE);
mc.print(stateString);
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}