Iván Santos
santos_ej3 modulo 3
Diff: main.cpp
- Revision:
- 0:5e1dd727b886
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/main.cpp Wed May 04 18:22:06 2022 +0000
@@ -0,0 +1,67 @@
+#include "mbed.h"
+#include "DHT22.h"
+
+Serial pc(USBTX, USBRX);
+
+// Se definen la entradas analógicas
+
+AnalogIn ldr(A0);
+
+AnalogIn dataX(A1);
+AnalogIn dataY(A2);
+AnalogIn dataZ(A3);
+
+// Se inicializa el DHT con la librería
+
+DHT22 dht22(D2);
+
+void bucle() {
+ pc.baud(4800);
+ double x,y,z;
+ double x_g_value,y_g_value,z_g_value;
+ double roll, pitch;
+ int hum;
+ int temp;
+ while(1) {
+ pc.printf("-------------------------------\r\n");
+ pc.printf("\r\n");
+ float ldrStatus = ldr.read();
+ pc.printf("LDR READING = %4.2f \r\n", ldrStatus);
+
+ x = dataX.read();
+ y = dataY.read();
+ z = dataZ.read();
+
+ // Calculamos las aceleraciones en g
+ x_g_value = ( ( ( (double)(x * 5)/1024) - 1.65 ) / 0.330 );
+ y_g_value = ( ( ( (double)(y * 5)/1024) - 1.65 ) / 0.330 );
+ z_g_value = ( ( ( (double)(z * 5)/1024) - 1.80 ) / 0.330 );
+
+ //A partir de los valores del acelerometro, se calculan los angulos Y, X
+ //respectivamente, con la formula de la tangente.
+ roll = ( ( (atan2(y_g_value,z_g_value) * 180) / 3.14 ) + 180 );
+ pitch = ( ( (atan2(z_g_value,x_g_value) * 180) / 3.14 ) + 180 );
+
+
+ pc.printf("Accelerometer X : %f\n\r", x);
+ pc.printf("Accelerometer Y : %f\n\r", y);
+ pc.printf("Accelerometer Z : %f\n\r", z);
+ pc.printf("Roll: %f\n\r",roll);
+ pc.printf("pitch: %f\n\r",pitch);
+
+ // Conseguimos humedad y temperatura en grados del DHT
+ dht22.sample() ;
+ hum=dht22.getHumidity()/10.0;
+ temp=dht22.getTemperature()/10.0;
+ pc.printf("temp: %d , hum:%d \r\n",temp,hum);
+ pc.printf("\r\n");
+ pc.printf("-------------------------------\r\n");
+ pc.printf("\r\n");
+
+ wait(1);
+ }
+}
+
+int main() {
+ bucle();
+}
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