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#include <mega128.h>
// Alphanumeric LCD Module functions
#asm
.equ __lcd_port=0x18 ;PORTB
#endasm
#include <lcd.h>
#include <delay.h>
#include <stdio.h>
#include <stdlib.h>
#include "acc.h"
#include "handle.h"
#define TRUE 1
#define FALSE 0
#define TIMER0_32PRESCALE_VALUE 2 // (1/16MHz)*32*1000000
#define SENSOR_ON_TIME 40 // 40us 후에 센서를 끔.
#define SENSOR_OFF_TIME 70 // 트리거 신호의 주기 = 240us
#define FULL_STEP 3/*2상*/ /* 1-2상여자 = 7 */
#define ZERO 0
#define RIGHT 1
#define LEFT 2
#define BOTH 3
#define FORWARD 0x03 /* 모터 방향 설정 bit1=왼쪽, bit0=오른쪽 */
#define MOTOR_PORT PORTD
#define SPEED_LIMIT 300
#define SPEED_START 0
#define motor_disable() MOTOR_PORT = 0x00
#define enable() #asm("sei")
#define disable() #asm("cli")
#define sen_on() PORTA=0x18
#define sen_off() PORTA=0x00
#define SENSOR_MODE_ON 1
#define SENSOR_MODE_OFF 2
#define SENSOR_ADJUST 50
#define LEFT2 1
#define LEFT1 2
#define LEFT0 3
#define RIGHT2 6
#define RIGHT1 5
#define RIGHT0 4
#define LIGHT 0
#define COMPARE 1
#define MODE LIGHT
#define HANDLE_RATE_CUR 70
#define HANDLE_RATE_OLD 30
typedef unsigned char byte;
typedef unsigned int word;
typedef unsigned long dword;
byte mode;
byte buzzer_flag;
// sensor part
byte sensor_mode;
word sensor_input[6];
word sensor_border; // 비교기식일때 on/off 경계선
int sensor_adjust; // 광량식일때 좌우 대칭 센서 보정
byte sensor_cnt=0;
// motor part
const byte r_phase_table[] = {0x50, 0x60, 0xA0, 0x90};
const byte l_phase_table[] = {0x05, 0x06, 0x0A, 0x09};
byte step_status; // 주행 방향
word speed_limit; // 최고 제한속도
word time_r,time_l; // 타이머 주기
word acc_index;
byte l_phase_index, r_phase_index; // 상 인덱스
// adjust
int handle_adjust=0;
long handle_adjust_cur=0;
long handle_adjust_old=150;
int handle_gain=4;
// general part
byte lcd_buf[16];
word i,j;
void port_init(void)
{
// External SRAM page configuration:
// - / 0000h - 7FFFh
// Lower page wait state(s): None
// Upper page wait state(s): None
// MCUCR=0x80;// set PC7 as output. PC7 is A15 and is used to enable nCE of SRAM.
// XMCRA=0x00;
MCUCR=0x00;// set PC7 as output. PC7 is A15 and is used to enable nCE of SRAM.
XMCRA=0x00;
DDRA = 0x18;
DDRB = 0xff; // lcd, dummy led
DDRD = 0xff; // step motor output
DDRE = 0x08; // joystick switch input, buzzer output(PORTE3)
DDRF = 0x00; // sensor input
SFIOR=0x00;
}
void tlcd_init(void)
{
// LCD module initialization
lcd_init(8);
lcd_gotoxy(0,0);
lcd_putsf("tracer");
lcd_gotoxy(0,1);
lcd_putsf("akma 1.1");
}
byte adc_on = FALSE;
#define ADC_VREF_TYPE 0x40
//ADC initialize
// Conversion time: 1uS
void adc_init(void)
{
ADCSRA = 0x00; //disable adc
ADMUX = 0x00; //select adc input 0
ACSR = 0x80;
//ADCSRA = 0x89; // 1us 검은색 수광은 이것도 되는데..
ADCSRA = 0x8E; // 이러케 하면 adc가 먼저 win
for(i=0;i<6;i++)
{
sensor_input[i]=0;
}
}
void display_handle()
{
sprintf(lcd_buf, "handle");
lcd_gotoxy(0,0);
lcd_puts(lcd_buf);
sprintf(lcd_buf, "%8d", handle_adjust);
lcd_gotoxy(0,1);
lcd_puts(lcd_buf);
delay_ms(1000);
}
void display_sensor()
{
for(i=0;i<8;i+=2)
{
sprintf(lcd_buf, "%d : %4d", i, sensor_input[i]);
lcd_gotoxy(0,0);
lcd_puts(lcd_buf);
sprintf(lcd_buf, "%d : %4d",i+1, sensor_input[i+1]);
lcd_gotoxy(0,1);
lcd_puts(lcd_buf);
delay_ms(1000);
}
}
void display_sensor_compare()
{
if( sensor_input[LEFT2] > sensor_border)
{
lcd_buf[0] = '1';
}else
{
lcd_buf[0] = '0';
}
if( sensor_input[LEFT1] > sensor_border)
{
lcd_buf[1] = '1';
}else
{
lcd_buf[1] = '0';
}
if( sensor_input[LEFT0] > sensor_border)
{
lcd_buf[2] = '1';
}else
{
lcd_buf[2] = '0';
}
if( sensor_input[RIGHT0] > sensor_border)
{
lcd_buf[3] = '1';
}else
{
lcd_buf[3] = '0';
}
if( sensor_input[RIGHT1] > sensor_border)
{
lcd_buf[4] = '1';
}else
{
lcd_buf[4] = '0';
}
if( sensor_input[RIGHT2] > sensor_border)
{
lcd_buf[5] = '1';
}else
{
lcd_buf[5] = '0';
}
lcd_gotoxy(0,1);
lcd_puts(lcd_buf);
sprintf(lcd_buf, "compare ");
lcd_gotoxy(0,0);
lcd_puts(lcd_buf);
delay_ms(500);
}
// 광량식
void auto_detect()
{
long sensor_temp = 0;
TCNT0 = 0xff;
TCCR0 = 0x03; //start timer, prescale 32
TIMSK = 0x01; //timer 0 interupt
enable(); // interrupt enable
for(i=0;i<2;i++)
{
delay_ms(50); // 센서값을 읽을 시간을 벌어줌
sensor_temp = (long)sensor_temp + (long)(sensor_input[1]+sensor_input[2]+sensor_input[3]-sensor_input[4]-sensor_input[5]-sensor_input[6]);
}
sensor_adjust = (int)(sensor_temp/2);
lcd_gotoxy(0,0);
lcd_putsf("auto ");
lcd_gotoxy(0,1);
lcd_putsf("detect ");
delay_ms(200);
sprintf(lcd_buf, "adjust ");
lcd_gotoxy(0,0);
lcd_puts(lcd_buf);
sprintf(lcd_buf, "%8d", sensor_adjust);
lcd_gotoxy(0,1);
lcd_puts(lcd_buf);
delay_ms(300);
sensor_adjust = -20;//(int)(sensor_temp/10);
}
//비교식
void auto_detect_compare()
{
long sensor_temp = 0;
TCNT0 = 0xff;
TCCR0 = 0x03; //start timer, prescale 32
TIMSK = 0x01; //timer 0 interupt
enable(); // interrupt enable
for(i=0;i<10;i++)
{
delay_ms(100); // 센서값을 읽을 시간을 벌어줌
for(j=1;j<7;j++) // 1,2,3센서(white) vs 4,5,6센서(black)
sensor_temp += sensor_input[j];
}
sensor_border = (word)((float)sensor_temp/(float)60 /* 6x10 */);
lcd_gotoxy(0,0);
lcd_putsf("auto ");
lcd_gotoxy(0,1);
lcd_putsf("detect ");
delay_ms(200);
sprintf(lcd_buf, "border ");
lcd_gotoxy(0,0);
lcd_puts(lcd_buf);
sprintf(lcd_buf, "%8d", sensor_border);
lcd_gotoxy(0,1);
lcd_puts(lcd_buf);
delay_ms(1000);
}
void system_init(void)
{
disable();
port_init();
//센서를 보호하기 위해 부팅하자마자 바로 꺼준다..점등식으로만 써야하므로..
sen_off();
//시끄러우니 일단 끄자..
tlcd_init();
motor_disable();
adc_init();
delay_ms(1);
sensor_mode = SENSOR_MODE_OFF;
enable();
}
void start_motor(void)
{
disable();
step_status = BOTH;
l_phase_index = r_phase_index = 0;
speed_limit = SPEED_LIMIT;
acc_index = SPEED_START;
OCR1AH = (acc_tbl[acc_index]>>8)&0xff; // register high byte
OCR1AL = acc_tbl[acc_index]&0xff; // register low byte
OCR3AH = (acc_tbl[acc_index]>>8)&0xff; // register high byte
OCR3AL = acc_tbl[acc_index]&0xff; // register low byte
TCCR1B = 0x09; //clock/1
TCCR3B = 0x09; //clock/1
TIMSK = 0x11;
ETIMSK = 0x10;
enable();
}
void beep(void)
{
buzzer_flag =1;
delay_ms(100);
buzzer_flag =0;
delay_ms(100);
}
void cal_trim(void)
{
handle_adjust_cur =(long)( (((long)handle_adjust_old*(long)HANDLE_RATE_OLD) + (long)(sensor_input[1]+sensor_input[2]+sensor_input[3]-sensor_input[4]-sensor_input[5]-sensor_input[6]-sensor_adjust)*(long)HANDLE_RATE_CUR ) / (long)100);
handle_adjust_old = handle_adjust_cur;
handle_adjust=(int)(handle_adjust_cur*(int)handle_gain);
//범위를 넘으면 시스템이 죽으므로 처리
if(handle_adjust > 60)
handle_adjust = 60;
if(handle_adjust < -60)
handle_adjust = -60;
}
void cal_trim_compare(void)
{
if( sensor_input[LEFT2] > sensor_border)
{
handle_adjust = 12;
}
else if( sensor_input[RIGHT2] > sensor_border)
{
handle_adjust = 12;
}
else if( sensor_input[LEFT1] > sensor_border)
{
handle_adjust = 8;
}
else if( sensor_input[RIGHT1] > sensor_border)
{
handle_adjust = -8;
}
else if( sensor_input[LEFT0] > sensor_border)
{
handle_adjust = 4;
}
else if( sensor_input[RIGHT0] > sensor_border)
{
handle_adjust = -4;
}else
{
handle_adjust = 1;
}
handle_adjust= (word)((float)handle_adjust * (float)handle_gain);
}
void cal_speed(void)
{
// 가속 테이블은 140을 기준으로 141~~ 속도를 느리게
// 0~139는 속도를 빠르게 해준다..
step_status = ZERO;
acc_index++;
if (acc_index > speed_limit) acc_index = speed_limit;
time_l=(word)((acc_tbl[acc_index]*handle[140+handle_adjust])>>8);
time_r=(word)((acc_tbl[acc_index]*handle[140-handle_adjust])>>8);
}
// left motor phase
interrupt [TIM1_COMPA] void timer1_compa_isr(void)
{
l_phase_index--;
l_phase_index &= FULL_STEP;
MOTOR_PORT = r_phase_table[r_phase_index] | l_phase_table[l_phase_index] ;
step_status |= LEFT;
if(step_status == BOTH)
{
#if(MODE==LIGHT)
cal_trim();
#elseif(MODE==COMPARE)
cal_trim_compare();
#endif
cal_speed();
}
OCR1AH = ( time_l >> 8 ) & 0xff;
OCR1AL = time_l & 0xff;
}
// right motor phase
interrupt [TIM3_COMPA] void timer3_compa_isr(void)
{
r_phase_index++;
r_phase_index &= FULL_STEP;
MOTOR_PORT = r_phase_table[r_phase_index] | l_phase_table[l_phase_index] ;
step_status |= RIGHT;
if(step_status == BOTH)
{
#if(MODE==LIGHT)
cal_trim();
#elseif(MODE==COMPARE)
cal_trim_compare();
#endif
cal_speed();
}
OCR3AH = ( time_r >> 8 ) & 0xff;
OCR3AL = time_r & 0xff;
}
// ADC interrupt service routine
interrupt [ADC_INT] void adc_isr(void)
{
sensor_input[sensor_cnt]= ADCW;
sensor_cnt++;
if(sensor_cnt>=8) sensor_cnt=0;
ADMUX = sensor_cnt; // adc cheannel select
}
// Timer 0 overflow interrupt service routine
interrupt [TIM0_OVF] void timer0_ovf_isr(void)
{
TCCR0 = 0x00;
if(sensor_mode == SENSOR_MODE_OFF)
{
ADCSRA|=0x40; //하얀색 수광용
sen_on();
sensor_mode = SENSOR_MODE_ON;
TCNT0 = (byte)(0xff - (SENSOR_ON_TIME/TIMER0_32PRESCALE_VALUE));
TCCR0 = 0x03; //start timer
}else if(sensor_mode == SENSOR_MODE_ON)
{
//ADCSRA|=0x40; //검정색 수광용
sen_off();
sensor_mode = SENSOR_MODE_OFF;
TCNT0 = (byte)(0xff - (SENSOR_OFF_TIME/TIMER0_32PRESCALE_VALUE));
TCCR0 = 0x03; //start timer
}else if(sensor_mode== (SENSOR_MODE_OFF+1))
{
lcd_gotoxy(0,1);
lcd_putsf("SENSOR");
disable();
}
}
// Timer 2 overflow interrupt service routine
interrupt [TIM2_OVF] void timer2_ovf_isr(void)
{
}
void main(void)
{
system_init();
#if(MODE==LIGHT)
auto_detect();
#elseif(MODE==COMPARE)
auto_detect_compare();
#endif
start_motor();
enable(); // interrupt enable
while (1)
{
//display_handle();
//display_sensor();
//display_sensor_compare();
}
} | 
DDRE = 0x08; // joystick switch input, buzzer output(PORTE3)
이 소스가 조이스틱 스위치로부터 입력을 받도록 io를 설정하는겁니다.
스위치 입력은 구현이 안되어있네요.
그냥 스위치 안달고 사용하시면 되비다.