Franz Wolf
Testprogram
Dependencies: mbed MPU6050 DS1820
main.cpp
- Committer:
- wf
- Date:
- 2019-10-20
- Revision:
- 3:3dcdaf0d09a1
- Parent:
- 2:0e87ebc53aa8
File content as of revision 3:3dcdaf0d09a1:
// Diese Software testet die verschiedenen Funktionen des NUClight V3 Boards
// BULME Graz,
// by F. Wolf 20.10.2019
/*
PIN-OUT-NUClight
NUCLEO-L432KC
RGB-rot D1|-------| VIn
RGB-gruen D0| | GND
NRST| | RST
GND| | 5V0
LED1 <-D2| | A7
LED2 <-D3| | A6 -> LED7
SDA (I2C) (MPU6050 gyro) <- D4| | A5
SCL (I2C) (MPU6050 gyro) <- D5| | A4
LED3 <-D6| | A3 -> POTI
nc D7| | A2 -> Taster
nc D8| | A1 -> Taster
LED4 D9| | A0 -> DS18B20
RGB-blau <- D10| | ARF
LED5 <- D11| | 3V0
LED6 <- D12|-------| D13 -> LED8
RGB LED aktiv hight (1)
*/
#include <mbed.h>
#include "MPU6050.h"
#include "DS1820.h"
//****** Definitionen **********************
Serial pc(SERIAL_TX,SERIAL_RX); //nucleo
// Definition der Taster (Switches)
InterruptIn sw1(A1);
InterruptIn sw2(A2);
AnalogIn ain(A3);
// Definition der 8 LED's
DigitalOut led1(D2);
DigitalOut led2(D3);
DigitalOut led3(D6);
DigitalOut led4(D9);
DigitalOut led5(D11);
DigitalOut led6(D12);
DigitalOut led7(A6);
DigitalOut led8(D13); // on Board LED
// RGB LED
PwmOut RGBg(D0); // gruen LED
PwmOut RGBr(D1); // rote LED
PwmOut RGBb(D10); // blaue LED
// DS1820 Temperatursensor
#define DATA_PIN A0 // DS18B20
DS1820 ds1820(DATA_PIN); // create a ds1820 sensor
// GY-521 Module MPU-6050 3-Achsen-Gyroskop + 3 Achsen Accelerometre
MPU6050 ark(D4,D5); // MPU6050(PinName sda, PinName scl);
// ********** Deklarationen **************
void RGBtest();
void LEDtest();
void LEDonoff();
// variable
int a;
int num_devices = 0;
// ********** Hauptprogramm **************
int main()
{
pc.printf("******** TEST-SW *************\r\n"); //HTerm Welcome Message
pc.printf("TEST-SW Welcome to NUClight V3 \r\n"); //HTerm Welcome Message
pc.printf("*******************************\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
pc.printf("percentage: %3.0f%%\r\n", ain.read()*100.0f);
RGBr.period_ms(20.0f); // 20 mili second period
RGBr.pulsewidth_ms(ain.read()*10.0f); // 5 mili second pulse (on)
wait(1);
// *** MPU6050 (gyro) TEST
// reading Temprature
float temp = ark.getTemp();
pc.printf("MPU6050-temprature = %0.2f ^C\r\n",temp);
pc.printf("__________________\r\n");
//reading Gyrometer readings
float gyro[3];
ark.getGyro(gyro);
pc.printf("Gyroscope\r\n");
pc.printf("__________________\r\n");
pc.printf("Gyro0=%0.3f, Gyro1=%0.3f, Gyro2=%0.3f\r\n",gyro[0],gyro[1],gyro[2]);
//reading Acclerometer readings
float acce[3];
ark.getAccelero(acce);
pc.printf("Accelerometer\r\n");
pc.printf("__________________\r\n");
pc.printf("Acce0=%0.3f, Acce1=%0.3f, Acce2=%0.3f\r\n",acce[0],acce[1],acce[2]);
wait(1); //wait 1000ms
//DS18B20
if(ds1820.begin())
{
ds1820.startConversion(); // start temperature conversion
wait(1.0); // let DS1820 complete the temperature conversion
pc.printf("temprature DS1820 = %3.1f ^C\r\n", ds1820.read(),248); // read temperature
pc.printf("__________________\r\n");
}
else
{
pc.printf("No DS1820 sensor found!\r\n");
}
}
}
// ********** Funktionen **************
// TEST-RGB
//------------------------------------
void RGBtest()
{
pc.printf("RGBTEST\r\n"); //HTerm Ausgabe
LEDtest();
for (int t=1; t<15;t++)
{
RGBr.period_ms(20.0f); // 20 mili second period
RGBr.pulsewidth_ms(t); // 5 mili second pulse (on)
wait(0.3);
}
RGBr.pulsewidth_ms(0); // 5 mili second pulse (on)
for (int t=1; t<15;t++)
{
RGBg.period_ms(20.0f); // 20 mili second period
RGBg.pulsewidth_ms(t); // 5 mili second pulse (on)
wait(0.3);
}
RGBr.pulsewidth_ms(0); // 5 mili second pulse (on)
RGBg.pulsewidth_ms(0); // 5 mili second pulse (on)
for (int t=1; t<15;t++)
{
RGBb.period_ms(20.0f); // 20 mili second period
RGBb.pulsewidth_ms(t); // 5 mili second pulse (on)
wait(0.3);
}
wait(1);
RGBr.pulsewidth_ms(0); // RGB-LED off
RGBg.pulsewidth_ms(0); //
RGBb.pulsewidth_ms(0); //
int rr=(rand()%15);
int rg=(rand()%15);
int rb=(rand()%15);
RGBr.period_ms(20.0f); // 20 mili second period
RGBr.pulsewidth_ms(rr); // 5 mili second pulse (on)
RGBg.period_ms(20.0f); // 20 mili second period
RGBg.pulsewidth_ms(rg); // 5 mili second pulse (on)
RGBb.period_ms(20.0f); // 20 mili second period
RGBb.pulsewidth_ms(rb); // 5 mili second pulse (on)
wait(1);
RGBr.pulsewidth_ms(0); // RGB-LED off
RGBg.pulsewidth_ms(0); //
RGBb.pulsewidth_ms(0); //
}
// TEST-LED
//------------------------------------
void LEDtest()
{
pc.printf("LAUFLICHT UEBER 8 LED (5-mal) \r\n"); //HTerm Ausgabe
a=0;
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=1; //Led1 einschalten
wait(0.2);
led4=0; //Led1 ausschalten
led5=1; //Led2 einschalten
wait(0.2);
led5=0; //Led2 ausschalten
led6=1; //Led3 einschalten
wait(0.2);
led6=0; //Led3 ausschalten
led7=1; //Led2 einschalten
wait(0.2);
led7=0; //Led2 ausschalten
led8=1; //Led3 einschalten
wait(0.2);
led8=0; //Led3 ausschalten
a++;
}
}
// TEST-LED-on-off
//------------------------------------
void LEDonoff()
{
led1=!led1; //Led1 einschalten
led2=!led2; //Led1 einschalten
led3=!led3; //Led1 einschalten
led4=!led4; //Led1 einschalten
led5=!led5; //Led1 einschalten
led6=!led6; //Led1 einschalten
led7=!led7; //Led1 einschalten
led8=!led8; //Led1 einschalten
}
/******************** ENDE ***********************/