From 46ce99ec18fbb912a549d5c49a0207c9f341cc4d Mon Sep 17 00:00:00 2001 From: mmcwilliams Date: Fri, 1 Mar 2019 18:01:45 -0500 Subject: [PATCH] Add an alternate camera firmware for MONO NO AWARE's JK. --- .../mcopy_mono_firmware_camera_bolex.ino | 163 ++++++++++++++++++ 1 file changed, 163 insertions(+) create mode 100644 ino/mcopy_mono_firmware_camera_bolex/mcopy_mono_firmware_camera_bolex.ino diff --git a/ino/mcopy_mono_firmware_camera_bolex/mcopy_mono_firmware_camera_bolex.ino b/ino/mcopy_mono_firmware_camera_bolex/mcopy_mono_firmware_camera_bolex.ino new file mode 100644 index 0000000..da40001 --- /dev/null +++ b/ino/mcopy_mono_firmware_camera_bolex/mcopy_mono_firmware_camera_bolex.ino @@ -0,0 +1,163 @@ +/** + * This is a specialized version of the mcopy firmware for + * controlling the JK104-R/Bolex camera of the optical printer + * at MONO NO AWARE. This uses a Sainsmart 8 Solid State Relay + * board wired into the directional switches of a JK104-R/Bolex camera + * controller box, a secondary projector controller box and it + * runs on an Arduino Uno compatible board. + * + * Pins + * 12 - CH1 - BWD CAM 1 + * 11 - CH2 - FWD CAM 1 (bridged to CH1) + * 10 - CH3 - BWD CAM 1 + * 09 - CH4 - FWD CAM 1 (bridged to CH3) + * 08 - CH5 - BWD CAM 1 + * - controls the directional relays of the Bolex Camera. + * 07 - CH8 - 4 pronged trigger cable + * - triggers the camera + */ + + +boolean debug_state = false; + +const int cam_bwd_pin_1 = 12; +const int cam_fwd_pin_1 = 11; +const int cam_bwd_pin_2 = 10; +const int cam_fwd_pin_2 = 9; +const int cam_bwd_pin_3 = 8; +const int cam_pin = 7; + +const int cam_momentary = 60; +const int cam_time = 600; //secondary projector speed +const int cam_delay = 42; + +boolean cam_dir = true; +boolean cam_running = false; + +const char cmd_camera = 'c'; +const char cmd_cam_forward = 'e'; +const char cmd_cam_backward = 'f'; + +const char cmd_debug = 'd'; +const char cmd_connect = 'i'; +volatile char cmd_char = 'z'; +const char cmd_mcopy_identifier = 'm'; +const char cmd_cam_identifier = 'k'; + +const int serialDelay = 5; + +void setup() { + Serial.begin(57600); + Serial.flush(); + Serial.setTimeout(serialDelay); + + pinMode(cam_fwd_pin_1, OUTPUT); + pinMode(cam_bwd_pin_1, OUTPUT); + + pinMode(cam_fwd_pin_2, OUTPUT); + pinMode(cam_bwd_pin_2, OUTPUT); + + pinMode(cam_bwd_pin_3, OUTPUT); + + pinMode(cam_pin, OUTPUT); + + digitalWrite(cam_pin, LOW); + + digitalWrite(cam_fwd_pin_1, HIGH); + digitalWrite(cam_fwd_pin_2, HIGH); + + digitalWrite(cam_bwd_pin_1, LOW); + digitalWrite(cam_bwd_pin_2, LOW); + digitalWrite(cam_bwd_pin_3, LOW); +} + +void loop() { + if (Serial.available()) { + /* read the most recent byte */ + cmd_char = (char)Serial.read(); + } + if (cmd_char != 'z') { + cmd(cmd_char); + cmd_char = 'z'; + } +} + +void cmd (char val) { + if (val == cmd_debug) { + debug(); + } else if (val == cmd_connect) { + connect(); + } else if (val == cmd_mcopy_identifier) { + identify(); + } else if (val == cmd_camera) { + camera(); + } else if (val == cmd_cam_forward) { + cam_direction(true); + } else if (val == cmd_cam_backward) { + cam_direction(false); + } +} + +void debug () { + debug_state = true; + Serial.println(cmd_debug); + log("debugging enabled"); +} + +void connect () { + Serial.println(cmd_connect); + log("connect()"); +} + +void identify () { + Serial.println(cmd_cam_identifier); + log("identify()"); +} + +void camera () { + if (!cam_running) { + cam_running = true; + digitalWrite(cam_pin, HIGH); + + delay(cam_momentary); + digitalWrite(cam_pin, LOW); + + delay(cam_time - cam_momentary + cam_delay); + + Serial.println(cmd_camera); + log("camera()"); + cam_running = false; + + } +} + +void cam_direction (boolean state) { + cam_dir = state; + digitalWrite(cam_fwd_pin_1, LOW); + digitalWrite(cam_fwd_pin_2, LOW); + + digitalWrite(cam_bwd_pin_1, LOW); + digitalWrite(cam_bwd_pin_2, LOW); + digitalWrite(cam_bwd_pin_3, LOW); + if (state) { + digitalWrite(cam_fwd_pin_1, HIGH); + digitalWrite(cam_fwd_pin_2, HIGH); + + Serial.println(cmd_cam_forward); + log("cam_direction -> true"); + } else { + digitalWrite(cam_bwd_pin_1, HIGH); + digitalWrite(cam_bwd_pin_2, HIGH); + digitalWrite(cam_bwd_pin_3, HIGH); + + Serial.println(cmd_cam_backward); + log("cam_direction -> false"); + } + //delay(50); //delay after direction change to account for slippage of the belt +} + +void log (String msg) { + if (debug_state) { + Serial.println(msg); + } +}