BERTL_CHEL18
ultra sonic sensor asdded
Fork of
func_Bertl
by 
BULME_BERTL14
main.cpp
- Committer:
- bulmecisco
- Date:
- 2015-01-03
- Revision:
- 2:43547160ab56
- Parent:
- 1:f2d7bec926ce
- Child:
- 3:c7e5419fa980
File content as of revision 2:43547160ab56:
/***********************************
name: Karel
author: PE HTL BULME
email: pe@bulme.at
description:
Funktionen von Karel The Robot
***********************************/
#include "mbed.h"
const int BTN_FLL = 0x80;
const int BTN_FL = 0x04;
const int BTN_FM = 0x01;
const int BTN_FR = 0x08;
const int BTN_FRR = 0x40;
const int BTN_BL = 0x10;
const int BTN_BM = 0x02;
const int BTN_BR = 0x20;
void move()
{
DigitalOut MotorL_EN(p34);
DigitalOut MotorL_FORWARD(P1_1);
//DigitalOut MotorL_REVERSE(P1_0);
DigitalOut MotorR_EN(p36);
DigitalOut MotorR_FORWARD(P1_3);
//DigitalOut MotorR_REVERSE(P1_4);
PwmOut mg1(p34); //PWM Ausgang zum Motor
PwmOut mg2(p36);
mg1=mg2=1.0;
MotorR_EN=MotorL_EN=1; // Beide Motoren ENABLE
MotorR_FORWARD = MotorL_FORWARD = 1; // Beide Motoren vorwärts EIN
wait_ms(250); // warte 0,25 Sekunde
MotorR_FORWARD = MotorL_FORWARD = 0; // Motoren AUS
MotorR_EN=MotorL_EN=0;
//mg1=mg2=0.0;
wait_ms(250);
}
void moveSpeed(float speedy)
{
DigitalOut MotorL_EN(p34);
DigitalOut MotorL_FORWARD(P1_1);
//DigitalOut MotorL_REVERSE(P1_0);
DigitalOut MotorR_EN(p36);
DigitalOut MotorR_FORWARD(P1_3);
//DigitalOut MotorR_REVERSE(P1_4);
PwmOut mg1(p34); //PWM Ausgang zum Motor
PwmOut mg2(p36);
mg1=mg2=speedy;
MotorR_EN=MotorL_EN=1; // Beide Motoren ENABLE
MotorR_FORWARD = MotorL_FORWARD = 1; // Beide Motoren vorwärts EIN
wait_ms(2000); // warte 0,25 Sekunde
MotorR_FORWARD = MotorL_FORWARD = 0; // Motoren AUS
MotorR_EN=MotorL_EN=0; // Beide Motoren ENABLE
wait_ms(500);
}
void move(int anzahl)
{
for(int i=0; i < anzahl; i++)
move();
}
void turnLeft()
{
// DigitalOut MotorL_EN(p34);
// DigitalOut MotorL_FORWARD(P1_1);
// DigitalOut MotorL_REVERSE(P1_0);
DigitalOut MotorR_EN(p36);
DigitalOut MotorR_FORWARD(P1_3);
// DigitalOut MotorR_REVERSE(P1_4);
// MotorL_EN=1;
PwmOut mg2(p36);
mg2=1.0;
MotorR_EN=1; // rechten Motor ENABLE
MotorR_FORWARD = 1; // rechter Motor vorwärts EIN
wait_ms(750); // warte (90°)
MotorR_FORWARD = 0; // Motoren AUS
MotorR_EN=0;
wait_ms(250); // warte (90°)
}
bool frontIsClear()
{
I2C i2c(p28,p27);
const int addr = 0x40; // I2C-Adresse PCA9555
char cmd[3];
int16_t btns;
i2c.frequency(40000); // I2C Frequenz 40kHz
cmd[0] = 0x06;
cmd[1] = 0x00;
i2c.write(addr, cmd, 2); // Define Port0 = Out
cmd[0]=0x01;
i2c.write(addr, cmd, 1);
i2c.read(addr|1, cmd, 1);
btns = cmd[0];
if( btns == BTN_FM )
return false;
else
return true;
}
/*bool IsAnyFrontButton()
{ return btns & (BTN_FL|BTN_FM|BTN_FR); }
*/
// ************* Hauptprogramm ************
int main()
{
//move();
//turnLeft();
/* DigitalOut LED_D10(P1_8); // LED D10 und D13 definieren
DigitalOut LED_D11(P1_9); // LED D10 und D13 definieren
DigitalOut LED_D12(P1_10); // LED D10 und D13 definieren
DigitalOut LED_D13(P1_11); //
*/
//while(frontIsClear()) {}
turnLeft();
move();
wait(1);
/* moveSpeed(0.25);
LED_D10 = 1;
moveSpeed(0.3);
LED_D11 = 1;
moveSpeed(0.4);
LED_D12 = 1;
moveSpeed(0.5);
LED_D13 = 1;
moveSpeed(0.6);
LED_D10 = LED_D11 = LED_D12 = LED_D13 = 0;
moveSpeed(0.7);
LED_D10 = 1;
moveSpeed(0.8);
LED_D11 = 1;
moveSpeed(0.9);
LED_D12 = 1;
moveSpeed(1.0);
LED_D10 = LED_D11 = LED_D12 = LED_D13 = 1;
PwmOut mg1(p34); //PWM Ausgang zum Motor
PwmOut mg2(p36);
mg1=mg2=0.0;
wait(2);
*/ turnLeft();
move();
//turnLeft();
//move(5);
//wait(2);
return 0;
}