NOT FINISHED YET!!!
My first try to get a self built fully working Quadrocopter based on an mbed, a self built frame and some other more or less cheap parts.
Dependencies:
mbed
MODI2C
Diff: main.cpp
- Revision:
- 7:9d4313510646
- Parent:
- 6:179752756e9f
- Child:
- 8:d25ecdcdbeb5
--- a/main.cpp Sat Oct 13 11:12:22 2012 +0000
+++ b/main.cpp Mon Oct 15 17:23:06 2012 +0000
@@ -1,11 +1,12 @@
-#include "mbed.h" // Standar Library
-#include "LED.h" // LEDs
-#include "L3G4200D.h" // Gyro (Gyroscope)
-#include "ADXL345.h" // Acc (Accelerometer)
-#include "HMC5883.h" // Comp (Compass)
-#include "BMP085.h" // Alt (Altitude sensor)
-#include "Servo.h" // Motor
-#include "terminal.h"
+#include "mbed.h" // Standard Library
+#include "LED.h" // LEDs framework for blinking ;)
+#include "L3G4200D.h" // Gyro (Gyroscope)
+#include "ADXL345.h" // Acc (Accelerometer)
+#include "HMC5883.h" // Comp (Compass)
+#include "BMP085.h" // Alt (Altitude sensor)
+#include "RC_Channel.h" // RemoteControl Chnnels with PPM
+#include "Servo.h" // Motor PPM
+#include "PC.h" // Serial Port via USB for debugging
Timer GlobalTimer;
@@ -15,9 +16,12 @@
ADXL345 Acc(p28, p27);
HMC5883 Comp(p28, p27, GlobalTimer);
BMP085 Alt(p28, p27);
-Servo Motor(p20);
+//Servo Motor_front(p18);
+Servo Motor_left(p17);
+Servo Motor_right(p19);
+Servo Motor_back(p20);
-terminal pc(USBTX, USBRX); //Achtung: Treiber auf PC fuer Serial-mbed installieren. hier herunterladen https://mbed.org/media/downloads/drivers/mbedWinSerial_16466.exe
+PC pc(USBTX, USBRX); //Achtung: Treiber auf PC fuer Serial-mbed installieren. hier herunterladen https://mbed.org/media/downloads/drivers/mbedWinSerial_16466.exe
#define PI 3.1415926535897932384626433832795
#define Rad2Deg 57.295779513082320876798154814105
@@ -40,7 +44,9 @@
float Comp_angle = 0;
float tempangle = 0;
- Motor.initialize();
+ Motor_left.initialize();
+ Motor_right.initialize();
+ Motor_back.initialize();
//Kompass kalibrieren --> Problem fremde Magnetfelder!
//Comp.AutoCalibration = 1;
short MagRawMin[3]= {-400, -400, -400}; //Gespeicherte Werte verwenden
@@ -67,8 +73,8 @@
Comp_angle = Comp.getAngle(Comp.Mag[0], Comp.Mag[1]);
// meassure dt
- dt = GlobalTimer.read_us() - time_loop; // Zeit in us seit letzter loop
- time_loop = GlobalTimer.read_us(); // setze aktuelle zeit f�r n�chste messung
+ dt = GlobalTimer.read_us() - time_loop; // time in us since last loop
+ time_loop = GlobalTimer.read_us(); // set new time for next measurement
// calculate angles for roll, pitch an yaw
angle[0] += (Acc_angle[0] - angle[0])/50 + Gyro_data[0] *dt/15000000.0;
@@ -77,23 +83,28 @@
tempangle -= Gyro_data[2] *dt/15000000.0;
// LCD output
- pc.locate(10,5); // first line
- pc.printf("Y:%2.1f %2.1fm ", angle[2], Alt.CalcAltitude(Alt.Pressure));
- //LCD.printf("%2.1f %2.1f %2.1f ", Comp.RawMag[0], Comp.RawMag[1], Comp.RawMag[2]);
- pc.locate(10,8); // second line
+ pc.locate(10,5);
+ pc.printf("dt:%d %6.1fm ", dt, Alt.CalcAltitude(Alt.Pressure));
+ pc.locate(10,8);
pc.printf("Roll:%6.1f Pitch:%6.1f Yaw:%6.1f ", angle[0], angle[1], angle[2]);
- //LCD.printf("R:%2.1f P:%2.1f ", Comp_angle, tempangle);
- //LCD.printf("%2.1f %2.1f %2.1f ", Comp.Mag[0], Comp.Mag[1], Comp.Mag[2]);
+ pc.locate(10,10);
+ pc.printf("Debug_Yaw: Comp:%6.1f Gyro:%6.1f ", Comp_angle, tempangle);
+ pc.locate(10,12);
+ pc.printf("Comp_Raw: %6.1f %6.1f %6.1f ", Comp.RawMag[0], Comp.RawMag[1], Comp.RawMag[2]);
+ pc.locate(10,13);
+ pc.printf("Comp_Mag: %6.1f %6.1f %6.1f ", Comp.Mag[0], Comp.Mag[1], Comp.Mag[2]);
- Motor = 1000 + 5*abs(angle[1]); // set new motor speed
+ // Read RC data
+ //RC[0].read() // TODO: RC daten lesen und einberechnen!
+
+ // PID Regelung
- //LED hin und her
- int ledset = 0;
- if (angle[0] < 0) ledset += 1; else ledset += 8;
- if (angle[1] < 0) ledset += 2; else ledset += 4;
- LEDs = ledset;
+ // set new motor speeds
+ Motor_left = 1000 + 5*abs(angle[1]);
+ Motor_right = 1000 + 5*abs(angle[1]);
+ Motor_back = 1000 + 5*abs(angle[1]);
- //LEDs.rollnext();
- //wait(0.1);
+ LEDs.rollnext();
+ wait(0.1);
}
}
Matthias Grob
