Test ok

Dependencies:   mbed MPU6050 DS1820

main.cpp

Committer:
wf
Date:
2019-02-13
Revision:
1:75b533b777ad
Parent:
0:f007d2f125be
Child:
2:0e87ebc53aa8

File content as of revision 1:75b533b777ad:

// HIMBED _TEST1_V2 
// TEST 13.02.2019
// Diese Software testet die verschiedenen Funktionen des M0 Boards  
// BULME Graz,     by F. Wolf   04.02.2019
/*
                             PIN-OUT-NUClight
                                NUCLEO-L432KC
                                 |-------|
                                 |       |
                                 |       |
                                 |       |
                        LED1 <-D2|       |
                        LED2 <-D3|       |
SDA (I2C)  (MPU6050 gyro) <- D4  |       | 
SCL (I2C)  (MPU6050 gyro) <- D5  |       |
                        LED3 <-D6|       | A3 -> Taster
                                 |       | A2 -> Taster
                                 |       | A1 -> Taster
                                 |       | A0 -> DS18B20
                     RGB-g <- D10|       |
                     RGB-b <- D11|       |
                     RGB-r <- D12|-------|
        
 RGB LED aktiv hight (1)       
 */   
        
#include <mbed.h>
#include "MPU6050.h"
#include "DS1820.h"

#define DATA_PIN        A0  // DS18B20
#define MAX_PROBES      2

// ********   Definitionen  **********
//Serial pc(USBTX, USBRX);
Serial pc(SERIAL_TX,SERIAL_RX);

// Definition der Taster (Switches)
/*
InterruptIn  sw1(A1); //SW1
InterruptIn  sw2(A2); //SW2 -> sein IO Pin ist laut Schaltplan der P0_15
InterruptIn  sw3(A3); //SW3
*/



InterruptIn sw1(A1); 
InterruptIn sw2(A2); 
InterruptIn sw3(A3); 


// Definition der 3 LED's
DigitalOut led1(D2);
DigitalOut led2(D3);
DigitalOut led3(D6);

DigitalOut led4(D13);  // on Board LED

// RGB LED
DigitalOut RGBb(D10);  // blaue LED
DigitalOut RGBg(D11);  // grüne LED 
DigitalOut RGBr(D12);  // rote  LED

int a;          
int num_devices = 0;          

//mpu6050
//creating onject of MPU6050 class
MPU6050 ark(D4,D5); // MPU6050(PinName sda, PinName scl);

DS1820* probe[MAX_PROBES];

// ********** Deklarationen **************
void RGBtest();
void LEDtest();
void LEDonoff();

// **********  Hauptprogramm ************** 
int main()
{
    pc.printf("Welcome to NUClight TEST V1 \r\n"); //HTerm Welcome Message  
    
    
    while(1)
    {
    // attach the address of the flip function to the rising edge
    sw1.fall(&RGBtest);      //RGB-Test Unterprogramm aufrufen
    sw2.fall(&LEDonoff);     //LED ON OFF - Test Unterprogramm aufrufen
    sw3.fall(&LEDtest);      //LED-Test Unterprogramm aufrufen
   

             
          /*************** MPU6050 (gyro) TEST *******************************/        
     
        //reading Temprature
        float temp = ark.getTemp();
        pc.printf("MPU6050-temprature = %0.2f ^C\r\n",temp);
        
        //reading Grometer readings
        float gyro[3];
        ark.getGyro(gyro);
        pc.printf("Gyro0=%0.3f,\tGyro1=%0.3f,\tGyro2=%0.3f\r\n",gyro[0],gyro[1],gyro[2]);
        
        //reading Acclerometer readings
        float acce[3];
        ark.getAccelero(acce);
        pc.printf("Acce0=%0.3f,Acce1=%0.3f,Acce2=%0.3f\r\n",acce[0],acce[1],acce[2]);

        wait(1); //wait 1000ms
    
//DS18B20

       // define MULTIPLE_PROBES
     
         
        DS1820* probe[MAX_PROBES];
         
     
            // Initialize the probe array to DS1820 objects
           // int num_devices = 0;
            while(DS1820::unassignedProbe(DATA_PIN)) {
                probe[num_devices] = new DS1820(DATA_PIN);
                num_devices++;
                if (num_devices == MAX_PROBES)
                    break;
            }
            
            printf("Found %d device(s)\r\n\n", num_devices);
      
                probe[0]->convertTemperature(true, DS1820::all_devices);         //Start temperature conversion, wait until ready
                for (int i = 0; i<num_devices; i++)
                    printf("DS18B20-Device %d returns %3.1f oC\r\n", i, probe[i]->temperature());
                printf("\r\n");
                wait(1);
            
            wait(1);
            }
} 
/**************************************************** Unterprogramme****************************************************/
/***********************************************************************************************************************/
           
/************************** RGB ****************************/
/***********************************************************/
void RGBtest()
{
    pc.printf("RGBTEST WEIS-ROT-MAGENTA-BLAU-TURKIS-GRUN-GELB\r\n"); //HTerm Ausgabe
    
        //Weiss
        RGBr = 1;   // Alle RGB LED EIN
        RGBb = 1;
        RGBg = 1;
        wait(0.2); 
        
        //Rot
        RGBb = 0; // Blaue LED ausschalten
        RGBg = 0; // Grune LED ausschalten
        wait(0.2);
        
        //Purple
        RGBb = 1; // Blaue LED einschalten
        wait(0.2);
        
        //Blaue
        RGBr = 0; // Rote LED ausschalten
        wait(0.2);
        
        //Turkis
        RGBg = 1; // Grune LED einschalten
        wait(0.2);
        
        //Grun
        RGBb = 0; // Blaue LED ausschalten
        wait(0.2);
        
        //Gelb
        RGBr = 1; // Rote LED einschalten
        wait(0.2);
        
        //Alle ausschalten
        RGBr = 0;  
        RGBb = 0;
        RGBg = 0;
}

/************************** LED ****************************/
/***********************************************************/
void LEDtest()
{
    pc.printf("LAUFLICHT UEBER 3 LED (5-mal) \r\n"); //HTerm Ausgabe
    a=0;
     
    RGBtest(); 
 
    
    while (a<5) {   
        led1=1;     //Led1 einschalten
        wait(0.2);
        led1=0;     //Led1 ausschalten
        
        led2=1;     //Led2 einschalten
        wait(0.2);
        led2=0;     //Led2 ausschalten
        
        led3=1;     //Led3 einschalten
        wait(0.2);
        led3=0;     //Led3 ausschalten
        
        led4=!led4;
        a++;
        }
}

/************************ Sensoren *************************/
/***********************************************************/
void LEDonoff()
{
    /*
    led1=!led1;     //Led1 einschalten
    led2=!led2;     //Led1 einschalten
    led3=!led3;     //Led1 einschalten
*/

  led4=!led4;     //Led1 einschalten
}

/***********/
/********************   ENDE  ***********************/