Harry Keane
MPU6050 with I2C. NO LCD
Diff: main.cpp
- Revision:
- 3:02533f8628e4
- Parent:
- 1:cea9d83b8636
- Child:
- 4:0bbb594dd933
--- a/main.cpp Sun Jun 29 21:53:23 2014 +0000
+++ b/main.cpp Sun Apr 19 13:04:46 2020 +0000
@@ -28,7 +28,7 @@
#include "mbed.h"
#include "MPU6050.h"
-#include "N5110.h"
+//#include "N5110.h"
// Using NOKIA 5110 monochrome 84 x 48 pixel display
// pin 9 - Serial clock out (SCLK)
@@ -47,8 +47,7 @@
Serial pc(USBTX, USBRX); // tx, rx
- // VCC, SCE, RST, D/C, MOSI,S CLK, LED
- N5110 lcd(PA_8, PB_10, PA_9, PA_6, PA_7, PA_5, PC_7);
+
int main()
{
@@ -59,8 +58,7 @@
t.start();
- lcd.init();
- lcd.setBrightness(0.05);
+
// Read the WHO_AM_I register, this is a good test of communication
@@ -71,8 +69,7 @@
{
pc.printf("MPU6050 is online...");
wait(1);
- lcd.clear();
- lcd.printString("MPU6050 OK", 0, 0);
+
mpu6050.MPU6050SelfTest(SelfTest); // Start by performing self test and reporting values
@@ -90,20 +87,13 @@
mpu6050.calibrateMPU6050(gyroBias, accelBias); // Calibrate gyro and accelerometers, load biases in bias registers
mpu6050.initMPU6050(); pc.printf("MPU6050 initialized for active data mode....\n\r"); // Initialize device for active mode read of acclerometer, gyroscope, and temperature
- lcd.clear();
- lcd.printString("MPU6050", 0, 0);
- lcd.printString("pass self test", 0, 1);
- lcd.printString("initializing", 0, 2);
+
wait(2);
}
else
{
pc.printf("Device did not the pass self-test!\n\r");
-
- lcd.clear();
- lcd.printString("MPU6050", 0, 0);
- lcd.printString("no pass", 0, 1);
- lcd.printString("self test", 0, 2);
+
}
}
else
@@ -111,10 +101,7 @@
pc.printf("Could not connect to MPU6050: \n\r");
pc.printf("%#x \n", whoami);
- lcd.clear();
- lcd.printString("MPU6050", 0, 0);
- lcd.printString("no connection", 0, 1);
- lcd.printString("0x", 0, 2); lcd.setXYAddress(20, 2); lcd.printChar(whoami);
+
while(1) ; // Loop forever if communication doesn't happen
}
@@ -161,8 +148,8 @@
mpu6050.MadgwickQuaternionUpdate(ax, ay, az, gx*PI/180.0f, gy*PI/180.0f, gz*PI/180.0f);
// Serial print and/or display at 0.5 s rate independent of data rates
- delt_t = t.read_ms() - count;
- if (delt_t > 500) { // update LCD once per half-second independent of read rate
+ // delt_t = t.read_ms() - count;
+ // if (delt_t > 500) { // update LCD once per half-second independent of read rate
pc.printf("ax = %f", 1000*ax);
pc.printf(" ay = %f", 1000*ay);
@@ -179,12 +166,7 @@
pc.printf("q2 = %f\n\r", q[2]);
pc.printf("q3 = %f\n\r", q[3]);
- lcd.clear();
- lcd.printString("MPU6050", 0, 0);
- lcd.printString("x y z", 0, 1);
- lcd.setXYAddress(0, 2); lcd.printChar((char)(1000*ax));
- lcd.setXYAddress(20, 2); lcd.printChar((char)(1000*ay));
- lcd.setXYAddress(40, 2); lcd.printChar((char)(1000*az)); lcd.printString("mg", 66, 2);
+
// Define output variables from updated quaternion---these are Tait-Bryan angles, commonly used in aircraft orientation.
@@ -215,10 +197,12 @@
pc.printf("average rate = %f\n\r", (float) sumCount/sum);
myled= !myled;
- count = t.read_ms();
+ // count = t.read_ms();
sum = 0;
sumCount = 0;
+
+ //wait(0.5); //So i can read the data
}
}
- }
\ No newline at end of file
+
\ No newline at end of file