andrea camilloni
Published

SensorBoard

SensorBoard is a opensource project with GUI.

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SensorBoard

Things used in this project

Hardware components

Arduino Mega 2560 & Genuino Mega 2560
Arduino Mega 2560 & Genuino Mega 2560
×1
Ultrasonic Sensor - HC-SR04 (Generic)
Ultrasonic Sensor - HC-SR04 (Generic)
×1
Display HX8357B
×1
Pmod RTCC
Digilent Pmod RTCC
×1
ESP8266 ESP-01
Espressif ESP8266 ESP-01
×1
SparkFun Atmospheric Sensor Breakout - BME280
SparkFun Atmospheric Sensor Breakout - BME280
×1
Inertial Measurement Unit (IMU) (6 deg of freedom)
Inertial Measurement Unit (IMU) (6 deg of freedom)
×1
DHT11 Temperature & Humidity Sensor (4 pins)
DHT11 Temperature & Humidity Sensor (4 pins)
×1
gas sensor
×1
Buzzer
Buzzer
×1
Relay (generic)
×1
LED (generic)
LED (generic)
×1
resistor(generic)
×1
something more
×1

Software apps and online services

Arduino IDE
Arduino IDE
ThingSpeak API
ThingSpeak API

Story

Read more

Custom parts and enclosures

Circuit

Schematics

SensorBoard Schematic

Code

SensorBoardGUI

C/C++
It's complete code about GUI developed on Arduino mega
// Display UTFT
// Risoluzione 480x320 pixels.
// Board Arduino Mega 2560
// due to the size of the images.
// Librerie utilizzate:
// UTFT and UTouch libraries
// UTFT_Buttons add-on library.
//
//ESP8266
//PIN: RX  D16
//     TX  D17
//     RST RES
//


//COMPLETE CODE ON: https://andreacamilloni.000webhostapp.com/







//ultime modifiche: dove possibile eliminazione delay,funzione per antirimbalzo DR(pin),correzione variabili che allocavano memoria(da int a bool)


#define RELEASE 0 //release 0 se versione test
//release 1 versione rilasciata





// This code block is only needed to support multiple
// MCU architectures in a single sketch.
#if defined(__AVR__)
#define imagedatatype  unsigned int
#elif defined(__PIC32MX__)
#define imagedatatype  unsigned short
#elif defined(__arm__)
#define imagedatatype  unsigned short
#endif
// End of multi-architecture block

//Librerie display HX8357B
#include <UTFT.h>             //libreria per scrivere sul display
#include <UTouch.h>           //libreria solo per display touch(non ussata)
#include <UTFT_Buttons.h>     //libreria per la creazione di pulsanti
#include <UTFT_Geometry.h>    //libreria per la creazione di figure geometriche

//librerie sensori
#include <DS1307.h>           //rtc(RealTimeClock)
#include <dht11.h>            //DHT11(Temperatura e umidit)
dht11 DHT;                    //dichiarazione per la successiva lettura dei parametri
#include <Wire.h>             //ACCELEROMETRO

#define DHT11_PIN 2           //pin 2 DHT11
#define VT100_MODE  1         // Modalit seriale

//Sensore Ultrasuoni HCSR04
#define triggerPort 5        //pin 5 trigger
#define echoPort 6           //pin 6 echo
float distanza;              //usata sia in ALLARME sia in MenuHcSR04 => distanza acquisita 
float durata;                //usata sia in ALLARME sia in MenuHcSR04 => durata BURST
int odistanza;               //usata in ALLARME                       => stato precedente
bool stato_allarme[] = {false, false};    //usata in ALLARME

// Accelerometro MPU6050
const int MPU = 0x69;        // I2C address of the MPU-6050
int16_t AcX, AcY, AcZ, Tmp, GyX, GyY, GyZ; //asse 

// Sensore Temp. press. umid. BME280
#define BME280_ADDRESS 0x76                    //I2C address del BME280
unsigned long int hum_raw, temp_raw, pres_raw; //umidit,temperatura,pressione
signed long int t_fine;



uint16_t dig_T1;
int16_t dig_T2;
int16_t dig_T3;
uint16_t dig_P1;
int16_t dig_P2;
int16_t dig_P3;
int16_t dig_P4;
int16_t dig_P5;
int16_t dig_P6;
int16_t dig_P7;
int16_t dig_P8;
int16_t dig_P9;
int8_t  dig_H1;
int16_t dig_H2;
int8_t  dig_H3;
int16_t dig_H4;
int16_t dig_H5;
int8_t  dig_H6;
// fine parte BME280


// Gestione pulsanti
/*
  int SW1 = DR(7);  //  "<<" Back
  int SW2 = DR(8);  //  "<"  Left
  int SW3 = DR(9);  //  "v"  Down
  int SW4 = DR(10); //  "^"  Up
  int SW5 = DR(11); //  ">"  Right
  int SW6 = DR(12); //  ">>" Enter
*/


//Funzione per lettura del fronte dei pulsanti
bool k, oldk;
bool DR(int pin)
{
  oldk = k;
  k = digitalRead(pin);
  if (!k && oldk)
    return false;
  return true;
}//fine funzione



// Dichiarazione font usati
extern uint8_t SmallFont[];
extern uint8_t BigFont[];
//extern uint8_t Dingbats1_XL[];
extern uint8_t SevenSegNumFont[]; //Solo numeri

// Dichiarazione bitmap usate
extern imagedatatype Nuvole[];
extern imagedatatype NuvoleSole[];
extern imagedatatype Sole[];
extern imagedatatype Pioggia[];
extern imagedatatype MatteiDEV_213[];




//dichiarazione modulo display HX8357B
UTFT myGLCD(HX8357B, 38, 39, 40, 41);
UTFT_Geometry geo(&myGLCD);

// Set up UTouch...
// Set the pins to the correct ones for your development board
// -----------------------------------------------------------
// Standard Arduino 2009/Uno/Leonardo shield   : NOT SUPPORTED DUE TO LACK OF MEMORY
// Standard Arduino Mega/Due shield            : 6,5,4,3,2
// CTE TFT LCD/SD Shield for Arduino Due       : 6,5,4,3,2
// Standard chipKit Uno32/uC32                 : 20,21,22,23,24
// Standard chipKit Max32                      : 62,63,64,65,66
// AquaLEDSource All in One Super Screw Shield : 62,63,64,65,66

UTouch  myTouch(52, 48, 51, 50, 49);  //per display supportati

// Finally we set up UTFT_Buttons :)
UTFT_Buttons  myButtons(&myGLCD, &myTouch);

int sensor_3V3 = A10;
int sensor_3V3_Value = 0;
float sensor_3V3_Volt = 0;
int sensor_VIN = A9;
int sensor_VIN_Value = 0;
float sensor_VIN_Volt = 0;
int sensor_LM35 = A8;        //sensore temperatura LM35
int sensor_LM35_Value = 0;
int sensor_GAS = A12;        //sensore gas 
int GAS = 0;
int Allarme_GAS_PIN = 3;
int Allarme_GAS = 0;
float LM35_VIN_Volt = 0;
float Temperatura = 0;
float Lettura_DHT11;
int Index = 1;
int WeekDay;

//variabili per il controllo dello stato dei rele
bool stat_rele1 = false;
bool stat_rele2 = false;

// Init the DS1307 RTC
DS1307 rtc(20, 21);  // I2C Mega 2560

Time  t;

int but1, but2, but3, but4, but5, but6, butX, butY, pressed_button;
boolean default_colors = true;

void setup()
{
  myGLCD.InitLCD();
  myGLCD.clrScr();
  myGLCD.setFont(BigFont);

#if RELEASE  //entra solamente se RELEASE == 1 e stampa inizialmente SENSORBOARD 
  myGLCD.setColor(VGA_RED);
  myGLCD.setBackColor(0, 0, 0);
  myGLCD.print("SENSOR BOARD", CENTER, (myGLCD.getDisplayYSize() / 2) - 8);
  delay(5000);

  myGLCD.clrScr();
#endif

  // myTouch.InitTouch();
  // myTouch.setPrecision(PREC_MEDIUM);

  myButtons.setTextFont(BigFont);
  //myButtons.setSymbolFont(Dingbats1_XL);

  rtc.begin();
  // Set the clock to run-mode
  rtc.halt(false);

  Serial.begin(9600);
  Serial.println("Send any character to enter serial mode...");
  Serial.println();
  Serial2.begin(9600);//esp8266

  // Gestione tastierino
  pinMode(7, INPUT_PULLUP);
  pinMode(8, INPUT_PULLUP);
  pinMode(9, INPUT_PULLUP);
  pinMode(10, INPUT_PULLUP);
  pinMode(11, INPUT_PULLUP);
  pinMode(12, INPUT_PULLUP);

  pinMode(18, OUTPUT);

  pinMode( triggerPort, OUTPUT ); //Hcsr04_out
  pinMode( echoPort, INPUT );     //Hcsr04_in

  pinMode(13, OUTPUT); //LED
  pinMode(14, OUTPUT); //Rele1
  pinMode(15, OUTPUT); //Rele2

  // Sensore BME280
  uint8_t osrs_t = 1;             //Temperature oversampling x 1
  uint8_t osrs_p = 1;             //Pressure oversampling x 1
  uint8_t osrs_h = 1;             //Humidity oversampling x 1
  uint8_t mode = 3;               //Normal mode
  uint8_t t_sb = 5;               //Tstandby 1000ms
  uint8_t filter = 0;             //Filter off
  uint8_t spi3w_en = 0;           //3-wire SPI Disable

  uint8_t ctrl_meas_reg = (osrs_t << 5) | (osrs_p << 2) | mode;
  uint8_t config_reg    = (t_sb << 5) | (filter << 2) | spi3w_en;
  uint8_t ctrl_hum_reg  = osrs_h;

  writeReg(0xF2, ctrl_hum_reg);
  writeReg(0xF4, ctrl_meas_reg);
  writeReg(0xF5, config_reg);
  readTrim();
  // fine Sensore BME 280

  // Inizio Accelerometro MPU6050
  Wire.begin();
  Wire.beginTransmission(MPU);
  Wire.write(0x6B);  // PWR_MGMT_1 register
  Wire.write(0);     // set to zero (wakes up the MPU-6050)
  Wire.endTransmission(true);
  // Fine Accelerometro MPU6050

  //Configurazione bottoni menu principale
  int but1, but2, but3, but4, but5, but6, but7, Icona, pressed_button; // touch

  Icona = myButtons.addButton( 20,  20, 100,  75, MatteiDEV_213); // disegna logo
  but1 = myButtons.addButton( 150,  20, 300,  30, "Altre Opzioni .."); //default
  but2 = myButtons.addButton( 150,  60, 300,  30, "Dati Ambientali");
  but3 = myButtons.addButton( 150, 100, 300,  30, "Avvisi ed Allarmi");
  but4 = myButtons.addButton( 150, 140, 300,  30, "Centralina Meteo");
  but5 = myButtons.addButton( 150, 180, 300,  30, "SET Data e Ora");
  but6 = myButtons.addButton( 150, 220, 300,  30, "Monitor hardware");

  myButtons.setButtonColors(VGA_RED, VGA_RED, VGA_BLACK, VGA_BLUE, VGA_GRAY);
  myButtons.drawButtons();


}

void printDate()  // disegno calendario su pag. principale
{
  Time t_temp;

  t_temp = rtc.getTime();
  myGLCD.setFont(BigFont);
  myGLCD.setColor(0, 0, 0);
  myGLCD.setBackColor(255, 255, 255);
  myGLCD.print(rtc.getDOWStr(FORMAT_SHORT), 40, 120);
  if (rtc.getDOWStr(FORMAT_SHORT) == 1)         // Scrivere calendario rosso se domenica.
    myGLCD.setColor(VGA_RED);
  else
    myGLCD.setColor(0, 0, 0);
  if (t_temp.date < 10)
    myGLCD.printNumI(t_temp.date, 60, 140);
  else
    myGLCD.printNumI(t_temp.date, 40, 140);
  myGLCD.print(rtc.getMonthStr(FORMAT_SHORT), 40, 160);
  myGLCD.printNumI(t_temp.year, 35, 177);
}

void clearDate()
{
  myGLCD.setColor(255, 255, 255);
  myGLCD.fillRect(30, 118, 101, 195);
}


signed long int calibration_T(signed long int adc_T)
{

  signed long int var1, var2, T;
  var1 = ((((adc_T >> 3) - ((signed long int)dig_T1 << 1))) * ((signed long int)dig_T2)) >> 11;
  var2 = (((((adc_T >> 4) - ((signed long int)dig_T1)) * ((adc_T >> 4) - ((signed long int)dig_T1))) >> 12) * ((signed long int)dig_T3)) >> 14;

  t_fine = var1 + var2;
  T = (t_fine * 5 + 128) >> 8;
  return T;
}

unsigned long int calibration_P(signed long int adc_P)   // BME280
{
  signed long int var1, var2;
  unsigned long int P;
  var1 = (((signed long int)t_fine) >> 1) - (signed long int)64000;
  var2 = (((var1 >> 2) * (var1 >> 2)) >> 11) * ((signed long int)dig_P6);
  var2 = var2 + ((var1 * ((signed long int)dig_P5)) << 1);
  var2 = (var2 >> 2) + (((signed long int)dig_P4) << 16);
  var1 = (((dig_P3 * (((var1 >> 2) * (var1 >> 2)) >> 13)) >> 3) + ((((signed long int)dig_P2) * var1) >> 1)) >> 18;
  var1 = ((((32768 + var1)) * ((signed long int)dig_P1)) >> 15);
  if (var1 == 0)
  {
    return 0;
  }
  P = (((unsigned long int)(((signed long int)1048576) - adc_P) - (var2 >> 12))) * 3125;
  if (P < 0x80000000)
  {
    P = (P << 1) / ((unsigned long int) var1);
  }
  else
  {
    P = (P / (unsigned long int)var1) * 2;
  }
  var1 = (((signed long int)dig_P9) * ((signed long int)(((P >> 3) * (P >> 3)) >> 13))) >> 12;
  var2 = (((signed long int)(P >> 2)) * ((signed long int)dig_P8)) >> 13;
  P = (unsigned long int)((signed long int)P + ((var1 + var2 + dig_P7) >> 4));
  return P;
}

unsigned long int calibration_H(signed long int adc_H)  // BME280
{
  signed long int v_x1;

  v_x1 = (t_fine - ((signed long int)76800));
  v_x1 = (((((adc_H << 14) - (((signed long int)dig_H4) << 20) - (((signed long int)dig_H5) * v_x1)) +
            ((signed long int)16384)) >> 15) * (((((((v_x1 * ((signed long int)dig_H6)) >> 10) *
                (((v_x1 * ((signed long int)dig_H3)) >> 11) + ((signed long int) 32768))) >> 10) + (( signed long int)2097152)) *
                ((signed long int) dig_H2) + 8192) >> 14));
  v_x1 = (v_x1 - (((((v_x1 >> 15) * (v_x1 >> 15)) >> 7) * ((signed long int)dig_H1)) >> 4));
  v_x1 = (v_x1 < 0 ? 0 : v_x1);
  v_x1 = (v_x1 > 419430400 ? 419430400 : v_x1);
  return (unsigned long int)(v_x1 >> 12);
}


/***********************************************************************************ALTREOPZIONI****************************************************ALTREOPZIONI***************************************************************/

void Menu1()  // Sottomen altre opzioni
{
  myGLCD.clrScr();
  myButtons.deleteAllButtons();
  int but1, but2, but3, but4, but5, but6,  Icona, pressed_button; // touch

  Icona = myButtons.addButton( 20,  20, 100,  75, MatteiDEV_213); // disegna logo

  Index = 1;

  but1 = myButtons.addButton( 150,  20, 300,  30, "Sensore Ultrasuoni"); //default
  but2 = myButtons.addButton( 150,  60, 300,  30, "Dati Accelerometro");
  but3 = myButtons.addButton( 150, 100, 300,  30, "Scan I2C Address");
  but4 = myButtons.addButton( 150, 140, 300,  30, "Controllo Rele' ");
  but5 = myButtons.addButton( 150, 180, 300,  30, "Connessione Web");
  but6 = myButtons.addButton( 150, 220, 300,  30, "Informazioni");
  myButtons.setButtonColors(VGA_RED, VGA_RED, VGA_BLACK, VGA_BLUE, VGA_GRAY);
  myButtons.drawButtons();
  clearDate();
  printDate(); //stampa DATA


  myGLCD.setColor(VGA_BLACK);
  myGLCD.setBackColor(VGA_WHITE);
  myGLCD.print("IIS E. Mattei Recanati", 40, 270);
  myGLCD.setBackColor(VGA_WHITE);
  myGLCD.setColor(VGA_BLACK);
  myGLCD.print(" dip. Telecomunicazioni ", 25, 290);
  // fine ricostruzione pagina iniziale
  do
  {
    printHour(); //stampa ORA
    //SW4 = DR(10); //  "^"  Up
    //SW3 = DR(9);  //  "v"  Down

    if (!DR(10))
    {
      myButtons.disableButton(Index, true);
      myButtons.setButtonColors(VGA_WHITE, VGA_GRAY, VGA_WHITE, VGA_RED, VGA_BLUE);
      Index--;
    }

    if (!DR(9))
    {
      myButtons.disableButton(Index, true);
      myButtons.setButtonColors(VGA_WHITE, VGA_GRAY, VGA_WHITE, VGA_RED, VGA_BLUE);
      Index++;
    }

    // Ritardo per antirimbalzo su selezione men
    if (Index > 6)
      Index = 1;
    if (Index < 1)
      Index = 6;

    //SW6 = DR(12);   // Enter premuto
    if (!DR(12))
      switch (Index) {
        case 1:      // Sensore Ultrasuoni
          butX == but1;
          MenuDistanza();
          break;
        case 2:      // Dati Accelerometro
          butX == but2;
          MenuAccelerometro();
          break;
        case 3:      // Scan I2C Address
          butX == but3;
          MenuI2C();
          break;
        case 4:      // Menu Rele
          butX == but4;
          MenuRele();
          break;
        case 5:      // connessioneweb
          butX == but5;
          connessioneweb();
          break;
        case 6:  // Informazioni
          butX == but6;
          informazioni(1.23, 1.4); // parametro1: versione firmware      parametro2: versione hardware
          break;

      }

    pressed_button == butX;

    if (pressed_button == butX)
    {
      if (myButtons.buttonEnabled(Index))
      {
        myButtons.disableButton(Index, true);
        myButtons.setButtonColors(VGA_YELLOW, VGA_RED, VGA_BLACK, VGA_BLUE, VGA_GRAY);
      }
      else
      {
        myButtons.enableButton(Index, true);
        myButtons.setButtonColors(VGA_YELLOW, VGA_RED, VGA_BLACK, VGA_BLUE, VGA_GRAY);

      }
    }

  } while (DR(7));  // Uscita sottomen

  myButtons.deleteAllButtons();
  myGLCD.clrScr();
  Icona = myButtons.addButton( 20,  20, 100,  75, MatteiDEV_213); // disegna logo
  but1 = myButtons.addButton( 150,  20, 300,  30, "Altre Opzioni .."); //default
  but2 = myButtons.addButton( 150,  60, 300,  30, "Dati Ambientali");
  but3 = myButtons.addButton( 150, 100, 300,  30, "Avvisi ed Allarmi");
  but4 = myButtons.addButton( 150, 140, 300,  30, "Centralina Meteo");
  but5 = myButtons.addButton( 150, 180, 300,  30, "SET Data e Ora");
  but6 = myButtons.addButton( 150, 220, 300,  30, "Monitor hardware");
  myButtons.setButtonColors(VGA_RED, VGA_RED, VGA_BLACK, VGA_BLUE, VGA_GRAY);
  myButtons.drawButtons();
  myGLCD.setColor(VGA_BLACK);
  myGLCD.setBackColor(VGA_WHITE);
  myGLCD.print("IIS E. Mattei Recanati", 40, 270);
  myGLCD.print(" dip. Telecomunicazioni ", 25, 290);

  clearDate();
  printDate();
  // Ritorno pag. iniziale display LCD e ricostruzione Menu principale

  // fine ricostruzione pagina iniziale

}


/***************************************************** Lettura*parametri*ambientali*************************************************/
void Menu2()  // Lettura parametri ambientali
{
  myGLCD.clrScr();
  do
  {
    Allarme_GAS = digitalRead(3);
    if (Allarme_GAS == LOW) {
      myGLCD.setColor(VGA_YELLOW);
      myGLCD.setBackColor(VGA_RED);
      myGLCD.print("  ALLARME GAS  ", 70, 50);
      digitalWrite(18, 1);
    }
    else {
      myGLCD.setColor(VGA_BLACK);
      myGLCD.setBackColor(VGA_BLACK);
      myGLCD.print("  ALLARME GAS  ", 70, 50);
      digitalWrite(18, 0);
    }
    sensor_LM35_Value = analogRead(sensor_LM35);
    LM35_VIN_Volt = sensor_LM35_Value * 0.0048;
    Temperatura = LM35_VIN_Volt * 100;
    myGLCD.setBackColor(VGA_BLACK);
    myGLCD.setColor(VGA_YELLOW);
    myGLCD.print("Temperatura = ", 10, 110);
    myGLCD.setColor(VGA_RED);
    myGLCD.printNumF(Temperatura, 1, 230, 110);
    myGLCD.setColor(VGA_YELLOW);
    myGLCD.print("Gradi C.", 310, 110);
    myGLCD.setColor(VGA_GRAY);
    myGLCD.print("Valori Sensore LM35", 10, 80);
    Lettura_DHT11 = DHT.read(DHT11_PIN); // Lettura dati DHT11
    GAS = analogRead(sensor_GAS);
    myGLCD.setColor(VGA_YELLOW);
    myGLCD.print("Lettura sensore GAS = ", 10, 150);

    myGLCD.setColor(VGA_BLACK);
    myGLCD.print("         ", 360, 150); // cancella valore precedente
    myGLCD.setColor(VGA_BLUE);
    if (GAS <= 9)
      myGLCD.printNumI(GAS, 390, 150);
    if ((GAS >= 10) and (GAS < 100))
      myGLCD.printNumI(GAS, 375, 150);
    if ((GAS >= 100) and (GAS < 1000))
      myGLCD.printNumI(GAS, 360, 150);
    if (GAS >= 1000)
      myGLCD.printNumI(GAS, 345, 150);

    myGLCD.setColor(VGA_GRAY);
    myGLCD.print("Dati sensore DHT11 ", 10, 190);
    myGLCD.setColor(VGA_GREEN);
    myGLCD.print("Valore Umidita' (%) = ", 10, 230);
    myGLCD.print("Valore Temperatura  = ", 10, 210);
    myGLCD.setColor(VGA_PURPLE);
    myGLCD.printNumF(DHT.humidity, 1, 360, 230);
    myGLCD.printNumF(DHT.temperature, 1, 360, 210);
    myGLCD.setColor(VGA_WHITE);
    myGLCD.print("  Premere  <<  per Uscire ", 10, 270);

  } while (DR(7));  // Uscita pagina Parametri Ambientali

  // Ritorno pag. iniziale display LCD
  myGLCD.clrScr();
  myButtons.setButtonColors(VGA_RED, VGA_RED, VGA_BLACK, VGA_BLUE, VGA_GRAY);
  myButtons.drawButtons();
  myGLCD.setColor(VGA_BLACK);
  myGLCD.setBackColor(VGA_WHITE);
  myGLCD.print("IIS E. Mattei Recanati", 40, 270);
  myGLCD.print(" dip. Telecomunicazioni ", 25, 290);

  clearDate();
  printDate();
  // fine ricostruzione pagina iniziale

}

//*********************ALLARME*****************************************************************************ALLARME********


void Menu3()  // Avvisi ed Allarmi
{
  myGLCD.clrScr();
  myButtons.deleteAllButtons();
  int but1, but2, but3, but4, but5, but6, Icona, pressed_button; // touch
  Index = 0;

  myGLCD.setColor(VGA_RED);
  myGLCD.setBackColor(VGA_WHITE);
  myGLCD.print("      Allame Movimento       ", 10, 10);
  myGLCD.print("      Allame Vibrazioni      ", 10, 180);
  myGLCD.setColor(VGA_GREEN);
  myGLCD.setBackColor(VGA_BLACK);
  myGLCD.print("sensore ad ulrasuoni HCSR04", 10, 30);
  myGLCD.print("sensore accelerometro MPU-6050", 10, 200);
  but1 = myButtons.addButton( 10,  50, 186,  90, "ON"); //default
  but2 = myButtons.addButton( 205,  50, 186,  90, "OFF");

  but3 = myButtons.addButton( 10,  220, 186,  90, "ON"); //default
  but4 = myButtons.addButton( 205,  220, 186,  90, "OFF");
  myButtons.setButtonColors(VGA_RED, VGA_RED, VGA_BLACK, VGA_BLUE, VGA_GRAY);
  myButtons.drawButtons();
  do
  {
    digitalWrite( triggerPort, LOW );
    digitalWrite( triggerPort, HIGH );
    delayMicroseconds( 10 );
    digitalWrite( triggerPort, LOW );
    durata = pulseIn( echoPort, HIGH );
    distanza = 0.034 * durata / 2;
    //DHT.read(DHT11_PIN);
    //distanza = (331.4 + (0.62  * DHT.temperature)) / 10000 * durata;


    //DR(11); //  ">"  Right
    //DR(8);  //  "<"  Left

    if (!DR(8))
    {
      myButtons.disableButton(Index, true);
      myButtons.setButtonColors(VGA_WHITE, VGA_GRAY, VGA_WHITE, VGA_RED, VGA_BLUE);
      Index--;
    }

    if (!DR(11))
    {
      myButtons.disableButton(Index, true);
      myButtons.setButtonColors(VGA_WHITE, VGA_GRAY, VGA_WHITE, VGA_RED, VGA_BLUE);
      Index++;
    }

    // Ritardo per antirimbalzo su selezione men
    if (Index > 3)
      Index = 0;
    if (Index < 0)
      Index = 3;

    //SW6 = DR(12);   // Enter premuto
    if (!DR(12))
      switch (Index) {
        case 0:          //on
          butX == but1;
          odistanza = distanza;
          stato_allarme[0] = true;
          break;
        case 1:          //off
          butX == but2;
          stato_allarme[0] = false;

          break;
        case 2:
          butX == but3;
          //          Wire.beginTransmission(MPU);
          //          Wire.write(0x3B);  // starting with register 0x3B (ACCEL_XOUT_H)
          //          Wire.endTransmission(false);
          //          Wire.requestFrom(MPU, 14, true); // request a total of 14 registers
          //          AcX = Wire.read() << 8 | Wire.read(); // 0x3B (ACCEL_XOUT_H) & 0x3C (ACCEL_XOUT_L)
          //          AcY = Wire.read() << 8 | Wire.read(); // 0x3D (ACCEL_YOUT_H) & 0x3E (ACCEL_YOUT_L)
          //          AcZ = Wire.read() << 8 | Wire.read(); // 0x3F (ACCEL_ZOUT_H) & 0x40 (ACCEL_ZOUT_L)
          //          GyX = Wire.read() << 8 | Wire.read(); // 0x43 (GYRO_XOUT_H) & 0x44 (GYRO_XOUT_L)
          //          GyY = Wire.read() << 8 | Wire.read(); // 0x45 (GYRO_YOUT_H) & 0x46 (GYRO_YOUT_L)
          //          GyZ = Wire.read() << 8 | Wire.read(); // 0x47 (GYRO_ZOUT_H) & 0x48 (GYRO_ZOUT_L)
          stato_allarme[1] = true;
          break;
        case 3:          //off
          butX == but4;

          stato_allarme[1] = false;
          break;

      }

    pressed_button == butX;


    if (pressed_button == butX)
    {
      if (myButtons.buttonEnabled(Index))
      {
        myButtons.disableButton(Index, true);
        myButtons.setButtonColors(VGA_YELLOW, VGA_RED, VGA_BLACK, VGA_BLUE, VGA_GRAY);
      }
      else
      {
        myButtons.enableButton(Index, true);
        myButtons.setButtonColors(VGA_YELLOW, VGA_RED, VGA_BLACK, VGA_BLUE, VGA_GRAY);

      }
    }
    Allarme();

  } while (DR(7));  // Uscita sottomen

  myButtons.deleteAllButtons();
  myGLCD.clrScr();
  Icona = myButtons.addButton( 20,  20, 100,  75, MatteiDEV_213); // disegna logo
  but1 = myButtons.addButton( 150,  20, 300,  30, "Altre Opzioni .."); //default
  but2 = myButtons.addButton( 150,  60, 300,  30, "Dati Ambientali");
  but3 = myButtons.addButton( 150, 100, 300,  30, "Avvisi ed Allarmi");
  but4 = myButtons.addButton( 150, 140, 300,  30, "Centralina Meteo");
  but5 = myButtons.addButton( 150, 180, 300,  30, "SET Data e Ora");
  but6 = myButtons.addButton( 150, 220, 300,  30, "Monitor hardware");
  myButtons.setButtonColors(VGA_RED, VGA_RED, VGA_BLACK, VGA_BLUE, VGA_GRAY);
  myButtons.drawButtons();
  myGLCD.setColor(VGA_BLACK);
  myGLCD.setBackColor(VGA_WHITE);
  myGLCD.print("IIS E. Mattei Recanati", 40, 270);
  myGLCD.print(" dip. Telecomunicazioni ", 25, 290);

  clearDate();
  printDate();

}

void Allarme()
{
  if (stato_allarme[0])
    if ((odistanza - distanza) > 3 || (odistanza - distanza) < -3 )
    {
      stat_rele1 = true;//stato rele generale
      digitalWrite(14, stat_rele1);
      digitalWrite(18, stat_rele1);
      myGLCD.setColor(VGA_YELLOW);
      myGLCD.setBackColor(VGA_RED);
      myGLCD.print("         ATTENZIONE          ", 10, 150);
    }

  if (!stato_allarme[0]) {
    stat_rele1 = false;//stato rele generale
    digitalWrite(14, stat_rele1);
    digitalWrite(18, stat_rele1);
    myGLCD.setColor(VGA_BLACK);
    myGLCD.setBackColor(VGA_BLACK);
    myGLCD.print("         ATTENZIONE          ", 10, 150);


  }
  myGLCD.setColor(VGA_BLACK);
  myGLCD.setBackColor(VGA_BLACK);
}

//*****************************METEO*******************************************METEO*********************************METEO*************

void Menu4()  // Centralina Meteo  Sensore BME280
{
  myButtons.deleteAllButtons();
  myGLCD.clrScr();
  myGLCD.setColor(VGA_RED);
  //myGLCD.drawRect(10, 14, 465, 90);
  int but1, but2, but3, but4, but5, but6, Icona, pressed_button; // touch
  do
  {
    double temp_act = 0.0, press_act = 0.0, hum_act = 0.0;
    signed long int temp_cal;
    unsigned long int press_cal, hum_cal;

    readData();

    temp_cal = calibration_T(temp_raw);
    press_cal = calibration_P(pres_raw);
    hum_cal = calibration_H(hum_raw);
    temp_act = (double)temp_cal / 100.0;
    press_act = (double)press_cal / 100.0;
    hum_act = (double)hum_cal / 1024.0;
    myGLCD.setColor(VGA_YELLOW);
    myGLCD.setBackColor(VGA_BLACK);
    myGLCD.print("TEMP. =  ", 30, 150);
    myGLCD.print("DegC", 250, 150);
    myGLCD.setColor(VGA_BLUE);
    myGLCD.printNumF(temp_act, 2, 150, 150);
    myGLCD.setColor(VGA_RED);
    myGLCD.print("Pressione =  ", 30, 190);
    myGLCD.print("mBAR  ", 350, 190);
    myGLCD.setColor(VGA_GRAY);
    myGLCD.printNumF(press_act, 2, 230, 190);
    myGLCD.setColor(VGA_GREEN);
    myGLCD.print("Umidita' =  ", 30, 230);
    myGLCD.print(" %  ", 320, 230);
    myGLCD.setColor(VGA_YELLOW);
    myGLCD.printNumF(hum_act, 2, 220, 230);


    //int Icona;
    String stringaMeteo;
    String stringaMeteo1;
    if (press_act < 984 && hum_act > 65)//pioggia   press1010
    { myButtons.deleteAllButtons();
      myButtons.addButton( 30,  20, 72, 72, Pioggia); // disegna logo
      stringaMeteo = "Pioggia     ";
      //delay(25);
    }
    if (press_act < 984 && hum_act < 65)//nuvoloso  press1010
    {
      myButtons.deleteAllButtons();
      myButtons.addButton( 30,  20, 72,  72, Nuvole); // disegna logo
      //delay(25);
      stringaMeteo = "Nuvoloso    ";
    }
    if (press_act > 984 && hum_act > 65)//schiarite  press1010
    {
      myButtons.deleteAllButtons();
      myButtons.addButton( 30,  20, 72,  72, NuvoleSole);
      //delay(25);
      stringaMeteo = "Parzialmente";
      stringaMeteo1 = "Nuvoloso";
    } else stringaMeteo1 = "         ";
    if (press_act > 984 && hum_act < 65)//sole   press1010
    { myButtons.deleteAllButtons();
      myButtons.addButton( 30,  20, 72,  72, Sole);
      //delay(25);
      stringaMeteo = "Soleggiato  ";
    }
    myGLCD.setColor(VGA_RED);
    myGLCD.setBackColor(VGA_GREEN);
    myGLCD.print("LIVE METEO", 120, 25);
    myGLCD.setColor(VGA_GREEN);
    myGLCD.setBackColor(VGA_BLACK);
    myGLCD.print(stringaMeteo, 120, 70);
    myGLCD.print(stringaMeteo1, 120, 90);

    lum();
    myGLCD.setFont(SmallFont);
    myGLCD.setColor(VGA_YELLOW);
    myGLCD.print("Luminosita'", 360, 30);

    myButtons.drawButtons();
    myGLCD.setFont(BigFont);
    myGLCD.setColor(VGA_WHITE);
    myGLCD.print("  Premere  <<  per Uscire ", 10, 270);  // Uscire da Centralina Meteo

  } while (DR(7));  // Uscita pagina 6

  myButtons.deleteAllButtons();
  myGLCD.clrScr();
  Icona = myButtons.addButton( 20,  20, 100,  75, MatteiDEV_213); // disegna logo
  but1 = myButtons.addButton( 150,  20, 300,  30, "Altre Opzioni .."); //default
  but2 = myButtons.addButton( 150,  60, 300,  30, "Dati Ambientali");
  but3 = myButtons.addButton( 150, 100, 300,  30, "Avvisi ed Allarmi");
  but4 = myButtons.addButton( 150, 140, 300,  30, "Centralina Meteo");
  but5 = myButtons.addButton( 150, 180, 300,  30, "SET Data e Ora");
  but6 = myButtons.addButton( 150, 220, 300,  30, "Monitor hardware");
  myButtons.setButtonColors(VGA_RED, VGA_RED, VGA_BLACK, VGA_BLUE, VGA_GRAY);
  myButtons.drawButtons();
  myGLCD.setColor(VGA_BLACK);
  myGLCD.setBackColor(VGA_WHITE);
  myGLCD.print("IIS E. Mattei Recanati", 40, 270);
  myGLCD.print(" dip. Telecomunicazioni ", 25, 290);

  clearDate();
  printDate();
  // Ritorno pag. iniziale display LCD e ricostruzione Menu principale

  // fine ricostruzione pagina iniziale

}

//********************************************************DATA&ORA*****************************DATA&ORA*****************DATA&ORA****
void Menu5()  // SET Data e Ora
{
  myGLCD.clrScr();

  setClock();




  do
  {
    myGLCD.setColor(VGA_WHITE);
    myGLCD.print("  Premere  <<  per Uscire ", 10, 260);
    myGLCD.print("  Premere  >>  per Salvare ", 10, 290);

  } while (DR(7));  // Uscita pagina 6

  // Ritorno pag. iniziale display LCD
  myGLCD.clrScr();
  // myButtons.addButton( 20,  20, 100,  75, MatteiDEV_213); // disegna logo
  myButtons.setButtonColors(VGA_RED, VGA_RED, VGA_BLACK, VGA_BLUE, VGA_GRAY);
  myButtons.drawButtons();
  myGLCD.setColor(VGA_BLACK);
  myGLCD.setBackColor(VGA_WHITE);
  myGLCD.print("IIS E. Mattei Recanati", 40, 270);
  myGLCD.print(" dip. Telecomunicazioni ", 25, 290);

  clearDate();
  printDate();
  // fine ricostruzione pagina iniziale
}

//**************MONITOR_HARDWARE************************MONITOR_HARDWARE*******************************MONITOR_HARDWARE****
void Menu6()  // Monitor hardware
{
  myGLCD.clrScr();
  myGLCD.drawRect(10, 14, 225, 150);
  myGLCD.print(" TEST BUTTON ", 11, 15);
  myGLCD.setColor(VGA_GRAY);
  myGLCD.print("MONITOR TENSIONI", 11, 161);
  myGLCD.drawRect(10, 250, 285, 160);

  do
  {

    myGLCD.setColor(VGA_WHITE);
    myGLCD.setColor(VGA_RED);
    if (!DR(7))
    { myGLCD.setColor(VGA_RED);
      myGLCD.print("<<", 30, 100);
    }
    else {
      myGLCD.setColor(VGA_WHITE);
      myGLCD.print("<<", 30, 100);
    }
    if (!DR(8)) {
      myGLCD.setColor(VGA_RED);
      myGLCD.print("<", 80, 100);
    }
    else {
      myGLCD.setColor(VGA_WHITE);
      myGLCD.print("<", 80, 100);
    }
    if (!DR(10)) {
      myGLCD.setColor(VGA_RED);
      myGLCD.print("^", 110, 85);
    }
    else {
      myGLCD.setColor(VGA_WHITE);
      myGLCD.print("^", 110, 85);
    }
    if (!DR(9)) {
      myGLCD.setColor(VGA_RED);
      myGLCD.print("v", 110, 115);
    }
    else {
      myGLCD.setColor(VGA_WHITE);
      myGLCD.print("v", 110, 115);
    }
    if (!DR(11)) {
      myGLCD.setColor(VGA_RED);
      myGLCD.print(">", 140, 100);
    }
    else {
      myGLCD.setColor(VGA_WHITE);
      myGLCD.print(">", 140, 100);
    }
    if (!DR(12)) {
      myGLCD.setColor(VGA_RED);
      myGLCD.print(">>", 175, 100);
    }
    else {
      myGLCD.setColor(VGA_WHITE);
      myGLCD.print(">>", 175, 100);
    }
    sensor_3V3_Value = analogRead(sensor_3V3);
    sensor_VIN_Value = analogRead(sensor_VIN);
    sensor_3V3_Volt = sensor_3V3_Value * 0.0050;
    sensor_VIN_Volt = sensor_VIN_Value * 0.0051;
    sensor_VIN_Volt = sensor_VIN_Volt * 4.1;   // Partitore resistivo in ingresso
    myGLCD.setColor(VGA_YELLOW);
    myGLCD.setBackColor(VGA_BLACK);
    myGLCD.print("Valore 3V3 = ", 11, 200);
    myGLCD.setColor(VGA_RED);
    myGLCD.print("Valore VIN = ", 11, 220);
    myGLCD.setColor(VGA_BLUE);
    myGLCD.printNumF(sensor_3V3_Volt, 2, 220, 200);
    myGLCD.printNumF(sensor_VIN_Volt, 2, 220, 220);
    myGLCD.setColor(VGA_WHITE);
    myGLCD.print("  Premere  <<  per uscire ", 10, 270);

  } while (DR(7));  // Uscita pagina 6

  // Ritorno pag. iniziale display LCD
  myGLCD.clrScr();
  myButtons.setButtonColors(VGA_RED, VGA_RED, VGA_BLACK, VGA_BLUE, VGA_GRAY);
  myButtons.drawButtons();
  myGLCD.setColor(VGA_BLACK);
  myGLCD.setBackColor(VGA_WHITE);
  myGLCD.print("IIS E. Mattei Recanati", 40, 270);
  myGLCD.setBackColor(VGA_WHITE);
  myGLCD.setColor(VGA_BLACK);
  myGLCD.print(" dip. Telecomunicazioni ", 25, 290);

  clearDate();
  printDate();
  // fine ricostruzione pagina iniziale

}

/*********LOOP*******LOOP**********LOOP***********LOOP*************LOOP************LOOP*********LOOP********LOOP********LOOP*************/
void loop()
{
  clearDate();
  printDate();
  myGLCD.setColor(VGA_BLACK);
  myGLCD.setBackColor(VGA_WHITE);
  myGLCD.print("IIS E. Mattei Recanati", 40, 270);
  myGLCD.setBackColor(VGA_WHITE);
  myGLCD.setColor(VGA_BLACK);
  myGLCD.print(" dip. Telecomunicazioni ", 25, 290);


  Index = 1;


  while (1)  //   ***********   LOOP   Principale   ************
  {

...

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Credits

andrea camilloni

andrea camilloni

1 project • 2 followers
I'm 18 years old and I'm studying at the last year of school(telecomunications and IT).
Thanks to Mauro Arcangeli.

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