From 42c1b607348c34323423e386d7f93bea20bc7336 Mon Sep 17 00:00:00 2001 From: ohjian Date: Tue, 13 Jun 2023 16:36:51 +0200 Subject: [PATCH] =?UTF-8?q?Dateien=20hochladen=20nach=20=E2=80=9Etransform?= =?UTF-8?q?=5Fmodules/friction=5Flabel=E2=80=9C?= MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit --- .../friction_label/friction_label.ino | 173 ++++++++++++++++++ 1 file changed, 173 insertions(+) create mode 100644 transform_modules/friction_label/friction_label.ino diff --git a/transform_modules/friction_label/friction_label.ino b/transform_modules/friction_label/friction_label.ino new file mode 100644 index 0000000..3c1207c --- /dev/null +++ b/transform_modules/friction_label/friction_label.ino @@ -0,0 +1,173 @@ +/* +friction label +// board info: LilyGO TTGO T8 ESP32-S2 - with SD Card Slot +// board select: ESP32S2 DEV Module + +current USB port: 142300 +*/ + +#define sensor1 1 // PCB: 42 // potentiometer: fontsize RV1 +#define sensor2 2 // PCB: 37 // potentiometer: font RV2 +#define sensor3 3 // PCB: 35 // potentiometer: outline RV3 +#define sensor4 4 // PCB: 36 // potentiometer: rotation RV4 +#define sensor5 5 // PCB: 46 // slide potentiometer: x position RV5 +#define sensor6 6 // PCB: 45 // slide potentiometer: y position RV6 +#define sensor7 7 // PCB: 39 // slide potentiometer: graytone 1 RV7 +#define sensor8 8 // PCB: 38 // slide potentiometer: graytone 2RV8 +#define sensorLED 0 // LED + +String input; +String newData; +String output; +String moduleID = "#FL"; + + +// the setup routine runs once when you press reset: +void setup() { + // initialize serial and serial1 communication at 115200 and 9600 bits per second: + Serial.begin(115200); //goes to serial monitor, just for debugging purposes + Serial1.begin(9600); // goes to the next module via patch cable (use transmit pin TX on IO17 and also connect to GND) + + Serial1.setTimeout(100); // there is a small bug, so there needs to be a checksum? + + // set mode for digital input to not give floating values, but either 0 or 1: + pinMode(sensorLED, OUTPUT); // set LED pin to output + //LED initial state + digitalWrite(sensorLED, LOW); +} + + + + +// the loop routine runs over and over again forever: +void loop() { + + // sensor 1: fontsize + // read analog input + int sensorValue1 = analogRead(sensor1); + // redefine range for fontsize: + int fontsize = map(sensorValue1, 0, 8191, 100, 1); + + + // sensor 2: font + // read analog input + int sensorValue2 = analogRead(sensor2); + // redefine range for font: + int value2 = map(sensorValue2, 0, 8191, 8191, 0); + // use value2 to define font: not get int but string with fontname: + String font = ""; + if(value2 >= 0 && value2 < 1) {font = "T-1";} // if value1 is bigger than or equal to 1 and value1 is smaller than or equal to 10: Times-Roman + else if(value2 >= 1 && value2 <= 2) {font = "T-2";} // else if value1 is bigger than or equal to 11 and value1 is smaller than or equal to 20: Times-Bold + else if(value2 >= 50 && value2 <= 920) {font = "T-3";} + else if(value2 >= 921 && value2 <= 1830) {font = "T-4";} + else if(value2 >= 1831 && value2 <= 3199) {font = "H-1";} + else if(value2 >= 3200 && value2 <= 4399) {font = "H-2";} + else if(value2 >= 4400 && value2 <= 5600) {font = "H-3";} + else if(value2 >= 5601 && value2 <= 6350) {font = "H-4";} + else if(value2 >= 6351 && value2 <= 7250) {font = "C-1";} + else if(value2 >= 7251 && value2 <= 7870) {font = "C-2";} + else if(value2 >= 7871 && value2 <= 8189) {font = "C-3";} + else if(value2 >= 8190 && value2 <= 8191) {font = "C-4";} + + + + // sensor 3: outline + // read analog input + int sensorValue3 = analogRead(sensor3); + // redefine range for outline: + int outline = map(sensorValue3, 0, 8191, 120, 20); + + + // sensor 4: rotation + // read analog input + int sensorValue4 = analogRead(sensor4); + // redefine range for rotation: + int rotation = map(sensorValue4, 0, 8191, 20, 0); + + + + // sensor5: x position + // read analog input + int sensorValue5 = analogRead(sensor5); + // redefine range for x-position: + int xPosition = map(sensorValue5, 0, 8191, 0, 450); + + + // sensor6: y position + // read analog input + int sensorValue6 = analogRead(sensor6); + // redefine range for y-position: + int yPosition = map(sensorValue6, 0, 8191, 0, 700); + + + // sensor7: graytone 1 + // graytone1 = text + // read analog input + int sensorValue7 = analogRead(sensor7); + // redefine range for graytones: + int value7 = map(sensorValue7, 0, 8191, 0, 110); + // graytone1: + String graytone1 = ""; + if(value7 >= 0 && value7 <= 10) {graytone1 = "0.0";} //black + else if(value7 >= 11 && value7 <= 20) {graytone1 = "0.1";} + else if(value7 >= 21 && value7 <= 30) {graytone1 = "0.2";} + else if(value7 >= 31 && value7 <= 40) {graytone1 = "0.3";} + else if(value7 >= 41 && value7 <= 50) {graytone1 = "0.4";} + else if(value7 >= 51 && value7 <= 60) {graytone1 = "0.5";} + else if(value7 >= 61 && value7 <= 70) {graytone1 = "0.6";} + else if(value7 >= 71 && value7 <= 80) {graytone1 = "0.7";} + else if(value7 >= 81 && value7 <= 90) {graytone1 = "0.8";} + else if(value7 >= 91 && value7 <= 100) {graytone1 = "0.9";} + else if(value7 >= 101 && value7 <= 110) {graytone1 = "1.0";} //white + + + // sensor8: graytone 2 + // graytone2 = outline + // read analog input + int sensorValue8 = analogRead(sensor8); + // redefine range for graytones: + int value8 = map(sensorValue8, 0, 8191, 0, 100); + // graytone2: + String graytone2 = ""; + if(value8 >= 0 && value8 <= 10) {graytone2 = "0.0";} //black + else if(value8 >= 11 && value8 <= 20) {graytone2 = "0.1";} + else if(value8 >= 21 && value8 <= 30) {graytone2 = "0.2";} + else if(value8 >= 31 && value8 <= 40) {graytone2 = "0.3";} + else if(value8 >= 41 && value8 <= 50) {graytone2 = "0.4";} + else if(value8 >= 51 && value8 <= 60) {graytone2 = "0.5";} + else if(value8 >= 61 && value8 <= 70) {graytone2 = "0.6";} + else if(value8 >= 71 && value8 <= 80) {graytone2 = "0.7";} + else if(value8 >= 81 && value8 <= 90) {graytone2 = "0.8";} + else if(value8 >= 91 && value8 <= 100) {graytone2 = "0.9";} //almost white + + + + + //put all the above values in a string to define the new data from this module: + newData = "&&&" + String(moduleID) + "," + String(font) + "," + String(fontsize) + "," + String(rotation) + "," + String(outline) + "," + String(xPosition) + "," + String(yPosition) + "," + String(graytone1) + "," + String(graytone2) + "&&&"; + + //Receive data from previous module (RX): + input = Serial1.readStringUntil('\n'); // read received data until line break and store in input variable + + + //LED + if (input != "") { + digitalWrite(sensorLED, HIGH); //turn LED on + } + else { + digitalWrite(sensorLED, LOW); //turn LED off + } + + + + output = input + newData; + + //Send data to next module (TX): + Serial1.println(output); //the data received + new data + + //Print data on Serial Monitor: + Serial.println("This is the input I received: " + input); + Serial.println("Friction Label, new data: " + newData); + Serial.println("This is the output I send: " + output); + +}