Exemple #1
0
void main()
{

	byte sec;
	byte min;
	byte hrs;
	byte day;
	byte month;
	byte year;
	byte dow;

	ds1307_init();
	/*ds1307_set_date_time(13,6,13,4,01,20,10); // used to set time for first time
	//13-Jun-2013-Thursday-01-20-10
	delay_ms(1000);*/
	while(True)
	{
		
		ds1307_get_date(day,month,year,dow);
		ds1307_get_time(hrs,min,sec);
		printf("\%02d,\%02d,\%02d \r\n",day,month,year);
		printf("\%02d,\%02d,\%02d \r\n",hrs,min,sec);
		delay_ms(1000);
	}
}
Exemple #2
0
int main()
{
	int year=0, month=0, date=0, hour=0, minute=0, second=0, day=0;
	printf("----------DS1307----------\n\n");

	if(!ds1307_init())
	{
		printf("ds1307 init ERROR!\n");
		return 1;
	}
	
	year = ds1307_get_year();
	month = ds1307_get_mon();
	date = ds1307_get_date();
	hour = ds1307_get_hour();
	minute = ds1307_get_min();
	second = ds1307_get_sec();
	day = ds1307_get_day();
	
	printf("%d-%d-%d %d:%d:%d day%d \n",year,month,date,hour,minute,second,day);
	
	ds1307_end();

	return 0;
}
Exemple #3
0
static int set_userport_rtc_enabled(int value, void *param)
{
    int val = value ? 1 : 0;

    if (userport_rtc_ds1307_enabled == val) {
        return 0;
    }

    if (val) {
        ds1307_context = ds1307_init("USERDS1307");
        userport_rtc_list_item = userport_device_register(&rtc_device);
        if (userport_rtc_list_item == NULL) {
            return -1;
        }
        ds1307_set_data_line(ds1307_context, 1);
        ds1307_set_clk_line(ds1307_context, 1);
    } else {
        if (ds1307_context) {
            ds1307_destroy(ds1307_context, ds1307_rtc_save);
            ds1307_context = NULL;
        }
        userport_device_unregister(userport_rtc_list_item);
        userport_rtc_list_item = NULL;
    }

    userport_rtc_ds1307_enabled = val;
    return 0;
}
Exemple #4
0
void main(main){

enable_interrupts( GLOBAL );
//enable_interrupts( INT_RDA );
//   enable_interrupts( INT_RTCC );

 // setup_adc(ADC_CLOCK_INTERNAL); //configura el converso
  setup_adc(ADC_CLOCK_DIV_32);
  setup_adc_ports(ALL_ANALOG);

 ds1307_init ();      ///se inicializa el ds1307
   delay_ms(1000);
   SET_TRIS_A( 0xFF );

//ds1307_set_date_time (9, 9, 14, 21, 22, 28, 10); /// se escribe en el displositivo
fprintf(COM_int,"Hola Mundo");
while(true){
    ds1307_get_date (day, month, yr, dow);  /// se obtiene la fecha
    ds1307_get_time (hrs, min, sec);   /// se obtiene la hora
   // fprintf(COM_int,"AT$MSGSND=4,\"");
   // fprintf(COM_int, "20%d%02d%02d, %d, %d, %d\"\n\r", yr, month, day, hrs, min, sec);

      set_adc_channel(0);
      valor=read_adc();
      delay_ms(10);
      set_adc_channel(1);
      valor1=read_adc();
      delay_ms(10);
      set_adc_channel(2);
      valor2=read_adc();
      delay_ms(10);
      set_adc_channel(3);
      valor3=read_adc();
      delay_ms(10);
      set_adc_channel(4);
      valor4=read_adc();
      delay_ms(10);
      set_adc_channel(5);
      valor5=read_adc();
      delay_ms(10);
      fprintf(COM_int, "#PT01,20%d%02d%02d,%02d%02d%02d,%Lu,%Lu,%Lu,%Lu,%Lu,%Lu,000,999$\"\n\r"yr,month, day, hrs, min, sec, valor, valor1, valor2, valor3, valor4, valor5);
      output_high(pin_c1);
      delay_ms(1000);
      output_low(pin_c1);
      delay_ms(1000);

}
}
Exemple #5
0
int  main (void) {
    if (i2c_open()<0) { printf("Apertura del bus I2C fallita\n"); return 1; }

    ds1307_init();

    input_data();
    set_data(giorno_in,mese_in,anno_in);
    printf("Data sul DS1307: %d/%d/%d\r\n",read_day(),read_month(),read_year());

    input_ora();
    set_ora(ora_in,minuto_in);
    while (1){
		printf("Data sul DS1307: %02X/%02X/%02X\r\n", read_day(), read_month(), read_year());
        printf("Ora sul DS1307: %02X:%02X:%02X\r\n",read_hour(),read_min(),read_sec());
		
        sleep(10);
    }
    return 1;
}
Exemple #6
0
void init(void)
    {
    //in outputs intit
    //minutenleds + alarmLed
    //setze bit 1 =Ausgang
    DDRB |= (1 << 1);
    DDRB |= (1 << 3);
    DDRB |= (1 << 4);
    DDRB |= (1 << 5);
    DDRC |= (1 << 3);	//AlarmLED
    // setze pin auf vdd = LED aus
    PORTB |= (1 << 1);
    PORTB |= (1 << 3);
    PORTB |= (1 << 4);
    PORTB |= (1 << 5);
    PORTC |= (1 << 3);		//AlarmLED

    //Buzzer als Ausgang setzen und auf +5V schalten = ausgeschaltet
    DDRB |= (1 << 2);
    PORTB |= (1 << 2);
    //Mosfet als Ausgang und ausschalten
    DDRC |= (1 << 1);
    PORTC |= (1 << 1);

    //Matrix leeren
    PORTC &= ~(1 << 1);					//Mosfet anschalten
    for (uint8_t i = 0; i <= 111; i++)
	{
	matrix[i].r = 0;
	matrix[i].g = 0;//TODO: evtl den gesamten BLock nach vorne verschieben
	matrix[i].b = 0; //War geplant damit am anfang erst einmal dunkel
	}
    ws2812_setleds(matrix, 111);
    PORTC |= (1 << 1);
    //init ds1307
    ds1307_init();
    }
Exemple #7
0
void main()
{
	//initialize data
   var_init();
   //initialize timers and cp1 interrupt
   setup_timer_1(T1_INTERNAL | T1_DIV_BY_2);      //div 2 - 26.2 ms overflow
	setup_ccp1(CCP_CAPTURE_FE);
   //with 819.2 us overflow for Timer0, motor's speed must be at least 20 RPS
   setup_timer_0(T0_INTERNAL | T0_DIV_16); //div 16 - 819.2 us overflow
   //enable interrupts
   enable_interrupts(INT_RB2|INT_RB3|INT_RB4|INT_RB5);;
   enable_interrupts(INT_EXT);
   enable_interrupts(INT_TIMER1);
   enable_interrupts(INT_CCP1);
   enable_interrupts(INT_TIMER0);
   enable_interrupts(INT_RDA);
	enable_interrupts(GLOBAL);
	//initialize clock
   ds1307_init();
  	
	//test power on
	rgb_bits.blue =  0xF00F;
	rgb_bits.red =   0x0F0F;
	rgb_bits.green = 0x00FF;
	latch_write(rgb_bits.blue, rgb_bits.red, rgb_bits.green);
  	
	//get the first values of date, time
	ds1307_get_time(hour, min, sec);
	ds1307_get_date(day, month, year, dow);
	// calculating hour hand's position for analog clock
   anal_hour = hour % 12;
   anal_hour = anal_hour * 5;
   anal_hour = anal_hour + (int8)(min / 12);
   // calculating hour, minute, day, month numbers to display in digital clock
   hour_h = (int8)(hour / 10);
	hour_l = hour % 10;
	min_h = (int8)(min / 10);
	min_l = min % 10;
	day_h = (int8)(day / 10);
	day_l = day % 10;
	month_h = (int8)(month / 10);
	month_l = month % 10;
  
   // main routine
   while(true)
   {
   	// rs232 operation
   	if (rs232_status == 11)
   	{
   		//notify the RS232 transmission for date, time update is successful
   		latch_write(0x0000, 0x0FF0, 0x0000);
   		rs232_status = 0;
   	   ds1307_set_date_time(day, month, year, dow, hour, min, sec);
   	   putc('O');
   	   delay_ms(100);
   	   putc('K');
   	   delay_ms(100);
		   latch_ClearAll();
   	}
   	// get the time value from ds1307 after each 5 minutes
		if(tick == 300)
		{
			ds1307_get_time(hour, min, sec);
			ds1307_get_date(day, month, year, dow);
		   anal_hour = hour % 12;
			anal_hour = anal_hour * 5;
			anal_hour = anal_hour + (int8)(min / 12);
		   tick = 1;
		}
		// change values of minute and hour at appropriate value of second and minute
		if(sec > 59)
		{
			sec = 0;
			min++;
			if(min > 59)
			{
				min = 0;
				ds1307_get_time(hour, min, sec);
				anal_hour = hour % 12;
			   anal_hour = anal_hour * 5;
			   anal_hour = anal_hour + (int8)(min / 12);
			}
			//refresh value for digital clock after each minute
			hour_h = (int8)(hour / 10);
			hour_l = hour % 10;
			min_h = (int8)(min / 10);
			min_l = min % 10;
		}
		//display routine
		if(circle_trigger == 1)
		{  
			circle_trigger = 0;
			if ((smode % 2) == 1) latch_ClearAll();
			digit_sec++;
			section_trigger = 1;
			section_count = MAX_SECTION;
			section_timer = 256 - (int8)(sigHall_timer / (MAX_SECTION * 8)) + tuning;
			while(circle_trigger == 0 && section_count > 0)
			{ 	
				if(section_trigger == 1)
				{
					set_timer0(section_timer);
					section_trigger = 0;
					//data calculation
					fetch_data();
					//shifting data
					latch_write(rgb_bits.blue, rgb_bits.red, rgb_bits.green);
					//smode change between continuous display and discrete display
					if ((smode % 2) == 1 && section_count > 1) latch_ClearAll();
					section_count--;
				}
			}
		}// circle_trigger
   } // end of while(true)
}
Exemple #8
0
int main(void)
{
lcd_init();
ds1307_init();
adc_init();
timer_init();
asm("sei");
/*
    //test
	lcd_str("Hello, World");
	lcd_gotoxy(1,0);
	lcd_str("by shtomik");
	_delay_ms(1000);
	lcd_clr();
	lcd_str("after clr");*/

start_t();

    //test
    ds1307_setdate(12, 12, 31, 23, 01, 35);

//смонтировать microSD
res = pf_mount(&fs);
if(res == FR_OK)
{
    //диск смонтирован и мы продолжаем работу
    if(pf_open("test.txt") == FR_OK)
    {
        //открыли файл в корне test.txt
        //...
        pf_lseek(0);
            //заполняем буффер, надо набрать 512 байт инфы и писать
			//иначе будет много лишних пробелов
            //sprintf(buff, "%s\n%s", "Hello,World!", "by_sht");
            //записываем его на карту
            pf_write(buff, 512, &br);
			//финализируем запись
       		pf_write(NULL, 0, &br);
			pf_lseek(512);
			pf_write(buff, 512, &br);
        	//финализируем запись
        	pf_write(NULL, 0, &br);

		lcd_clr();
        lcd_str("ok");
    }
    else
    {
        //file not found or ...
        lcd_str("file not found");
    }
    //демонтируем диск передав функции нулевой указатель
    pf_mount(NULL);
	lcd_clr();
	lcd_str("file write");
}
else
{
    //не удалось смонтировать диск
	lcd_clr();
    lcd_str("not flash");
}

    while( 1 )
    {
        ;
    }

return 0;
}
Exemple #9
0
main()
{ 
ds1307_init(); 

// Set date for -> 15 June 2005 Tuesday 
// Set time for -> 15:20:55 
//ds1307_set_date_time(18,11,12,2,22,05,55); 


  setup_adc(ADC_CLOCK_INTERNAL);
//enables the a/d module 
  set_adc_channel(0);
//the next read_adc call will read channel 0
  delay_us(10);
//a small delay is required after setting the channel

//aguarda 100ms
  delay_ms(100);

//inicializa o display LCD
  inic_display();

  while (true)
  {

    switch(tela){
      case 0:
        display(0,0x01);
        update_clock();
        read_temperature();
        check_temperature();
        show_temperature();
        show_clock();

        if(tecla_set_status && !tecla_menos_status && tecla_mais_status)
          tela = 2;

        if(tecla_set_status && tecla_menos_status && !tecla_mais_status)
          tela = 1;
        

        break;
      case 1:
        read_temperature();
        configure_temperature();
        break;
      case 2:
        //update_clock();
        configure_time();
        break;
    }

//alterna o estado do pino D4
    //output_toggle(PIN_D1);

    verifica_teclas();

//aguarda 500ms
    delay_ms (100);
  }
}
Exemple #10
0
/************************************************************************
*  Main Program  *****  Programa Principal                              *
************************************************************************/
void main()
{

   setup_psp(PSP_DISABLED);
   setup_wdt(WDT_OFF);
   setup_timer_0(RTCC_INTERNAL);
   setup_timer_1(T1_INTERNAL|T1_DIV_BY_8);
   setup_timer_2(T2_DIV_BY_16,0xFF,16);
   setup_timer_3(T3_DISABLED|T3_DIV_BY_1);
   setup_comparator(NC_NC_NC_NC);
   setup_vref(FALSE);
   
   setup_adc( ADC_OFF );

   enable_interrupts(INT_TIMER1);
   enable_interrupts(INT_TIMER2);
   enable_interrupts(INT_RDA);
   enable_interrupts(INT_EXT1);
   enable_interrupts(global);
   

   str_init(print_date);
   str_init(print_time);
   
   
   
   
   
   set_timer1(0);
   
   init_ext_eeprom();
   ds1307_init();
   glcd_init(ON);    

   

   readconfig();

      
  

   draw_sect();

   while (1)
   { 
      
      
      
      if (firstrun==255)
      {
         glcd_fillscreen(OFF);
         glcd_loadscreen();
         glcd_showlogo();
         delay_ms(1500);
         menu_mainmenu();
         firstrun = 0;
         write_eeprom(0x00, firstrun);
      }
      
      if (config==1)
      {   
         menu_mainmenu();
         if(UniTemp[0]==0x43)
         {
            write_eeprom(0x01, 1);
         }
         else if(UniTemp[0]==0x46)
         {
            write_eeprom(0x01, 2);
         }
         if(UniPres[0]==0x6D)
         {
            write_eeprom(0x02, 1);
         }
         else if(UniPres[0]==0x50)
         {
            write_eeprom(0x02, 2);
         }
         if(UniVel[0]==0x4E)
         {
            write_eeprom(0x03, 1);
         }
         else if(UniVel[0]==0x6B)
         {
            write_eeprom(0x03, 2);
         }
         else if(UniVel[0]==0x6D)
         {
            write_eeprom(0x03, 3);
         }
         
         update_readings();
         
         button = !PRESSED;
         config=0;
      }
      
      if (uh>40)
      {
       
         twop[0]=":";
         guion[0]="-";
         spa[0]=" ";  

         str_init(print_time);
         str_init(print_date);
         
         ds1307_get_time(aux_hr,aux_min,aux_sec);
         ds1307_get_date(aux_day, aux_month, aux_year, aux_dow);

         itoa(aux_day,10,print_day);
         itoa(aux_month,10,print_month);
         itoa(aux_year,10,print_year);
         switch(aux_dow)
         {
            case 0:
            {
               print_dow[0] = "D";
               break;
            }
            case 1:
            {
               print_dow[0] = "L";
               break;
            }
            case 2:
            {
               print_dow[0] = "M";
               break;
            }
            case 3:
            {
               print_dow[0] = "I";
               break;
            }
            case 4:
            {
               print_dow[0] = "J";
               break;
            }
            case 5:
            {
               print_dow[0] = "V";
               break;
            }
            case 6:
            {
               print_dow[0] = "S";
               break;
            }
         }
         sprintf(print_date,"%s:%s-%s-%s",print_dow,print_day,print_month,print_year);
         //strcat(print_date,print_dow);
         //strcat(print_date,twop);
         //strcat(print_date,print_day);
         //strcat(print_date,guion);
        // strcat(print_date,print_month);
         //strcat(print_date,guion);
         //strcat(print_date,print_year);

         if(aop[0]==0x50)
         {
            aux_hr=aux_hr-20;
         }
         itoa(aux_hr,10,print_hr);
         itoa(aux_min,10,print_min);
         strcat(print_time,print_hr);
         strcat(print_time,twop);
         strcat(print_time,print_min);
         
         if ((aop[0]==0x41)||(aop[0]==0x50))
         {
            strcat(print_time,twop);
            strcat(print_time,aop);
         }
         


         
         rcv_td=1;
         uh=0;
      }

      poll_ok();
      lightbuttons();

      while(bkbhit) 
      {
         
         auxi = bgetc();
         switch (auxi)
         {
            case 0x54:     //T
            {
               type=1;
               str_init(string);
               break;
            }
            case 0x50:     //P
            {
               type=2;
               str_init(string);
               break;
            }
            case 0x48:     //H
            {
               type=3;
               str_init(string);
               break;
            }
            case 0x41:     //A
            {
               type=4;
               str_init(string);
               break;
            }
            case 0x57:     //W
            {
               type=5;
               str_init(string);
               break;
            }
            case 0x52:     //R 
            {
               type=6;
               str_init(string);
               break;
            }
            case 0x44:     //D
            {
               type=7;
               str_init(string);
               break;
            }
            case 0x4C:     //L
            {
               type=8;
               str_init(string);
               break;
            }
            case 0x56:     //V
            {
               type=9;
               str_init(string);
               break;
            }
            case 0x42:     //B
            {
               type=10;
               str_init(string);
               break;
            }         
            
         }
         
         switch (type)
         {
            case 1:                 //Temperatura
            {
               if ((auxi!=0x0D)&&(auxi!=0x54))
               {
                  string[i] = auxi;
                  i++;
               }
               if (auxi==0x0D)
               {
                  i=0;
                  str_init(tprint);
                  tt = atol(string);  

                  if(UniTemp[0]==0x46)
                  {
                     tt = ((tt*9)/5)+320;
                  }

                  strcat(temp_buffer_eeprom,string);
                  eep+=3;

                  sprintf(ttt,"%3.1w",tt);
                  strcat(tprint,ttt);
                  strcat(tprint,UniTemp);

                  strcpy(t2_print,tprint);

                  rcv_t=1;
               }
               break;
            }
            case 2:                 //Presion
            {
               if ((auxi!=0x0D)&&(auxi!=0x50))
               {
                  string[i] = auxi;
                  i++;
               }
               if (auxi==0x0D)
               {
                  i=0;
                  str_init(pprint);
                  pp = atoi32(string);

                  if(UniPres[0]==0x50)
                  {
                     pp = pp*10;
                     sprintf(ppp,"%6.0w",pp);
                     strcat(pprint,ppp);
                     strcat(pprint,UniPres);  
                  }
                  else
                  {
                     sprintf(ppp,"%4.1w",pp);
                     strcat(pprint,ppp);
                     strcat(pprint,UniPres);  
                  }

                  rcv_p=1;
                  
               }
               break;
            }
            case 3:                 //Humedad
            {
               if ((auxi!=0x0D)&&(auxi!=0x48))
               {
                  string[i] = auxi;
                  i++;
               }
               if (auxi==0x0D)
               {
                  i=0;
                  char uni[]="%";
                  str_init(hprint);
                  hh = atol(string);
                  sprintf(hhh,"%2.1w",hh);
                  strcat(hprint,hhh);
                  strcat(hprint,uni);

                  rcv_h=1;
               }
               break;
            }
            case 4:                 //Altitud
            {
               if ((auxi!=0x0D)&&(auxi!=0x41))
               {
                  string[i] = auxi;
                  i++;
               }
               if (auxi==0x0D)
               {
                  i=0;
                  char uni[]="m";
                  str_init(aprint);
                  aa = atol(string);
                  sprintf(aaa,"%5.1w",aa);
                  strcat(aprint,aaa);
                  strcat(aprint,uni);

                  rcv_a=1;
                    
               }
               break;
            }
            case 5:                 //Clima
            {
               if ((auxi!=0x0D)&&(auxi!=0x57))
               {
                  string[i] = auxi;
                  i++;
               }
               if (auxi==0x0D)
               {
                  i=0;                  
                  
                  ww = atoi(string);
                                    
                  rcv_w=1;
               }
               break;
            }
            case 6:                 //Probabilidad de lluvia
            {
               if ((auxi!=0x0D)&&(auxi!=0x52))
               {
                  string[i] = auxi;
                  i++;
               }
               if (auxi==0x0D)
               {
                  i=0;

                  char uni[]="%";
                  str_init(pdlprint);
                  ppdl = atol(string);
                  sprintf(pppdl,"%2.0w",ppdl);
                  strcat(pdlprint,pppdl);
                  strcat(pdlprint,uni);
                  
                  rcv_pdl=1;
               }
               break;
            }
            case 7:                 //Direccion del viento
            {
               if ((auxi!=0x0D)&&(auxi!=0x44))
               {
                  string[i] = auxi;
                  i++;
               }
               if (auxi==0x0D)
               {
                  i=0;
                  
                  str_init(dprint);
                  dd = atol(string);
                  switch(dd)
                  {
                     case 0:
                     {
                        dprint[0]="N";
                        dprint[1]="\0";
                        break;
                     }
                     case 1:
                     {
                        dprint[0]="N";
                        dprint[1]="E";
                        dprint[2]="\0";
                        break;
                     }
                     case 2:
                     {
                        dprint[0]="E";
                        dprint[1]="\0";
                        break;
                     }
                     case 3:
                     {
                        dprint[0]="S";
                        dprint[1]="E";
                        dprint[2]="\0";
                        break;
                     }
                     case 4:
                     {
                        dprint[0]="S";
                        dprint[1]="\0";
                        break;
                     }
                     case 5:
                     {
                        dprint[0]="S";
                        dprint[1]="O";
                        dprint[2]="\0";
                        break;
                     }
                     case 6:
                     {
                        dprint[0]="O";
                        dprint[1]="\0";
                        break;
                     }
                     case 7:
                     {
                        dprint[0]="N";
                        dprint[1]="O";
                        dprint[2]="\0";
                        break;
                     }
                  }
                  
                  rcv_d=1;           
               }
               break;
            }
            case 8:                 //Intensidad de luz
            {
               if ((auxi!=0x0D)&&(auxi!=0x4C))
               {
                  string[i] = auxi;
                  i++;
               }
               if (auxi==0x0D)
               {
                  i=0;                  
                  
                  ll = atoi(string);
                  ll = ll*6.3+67;
                  
                  rcv_l=1;
               }
               break;
            }
            case 9:                 //Velocidad del viento
            {
               if ((auxi!=0x0D)&&(auxi!=0x56))
               {
                  string[i] = auxi;
                  i++;
               }
               if (auxi==0x0D)
               {
                  i=0;
                  
                  str_init(vprint);
                  vv = atoi32(string);

                  if(UniVel[0]==0x6D)
                  {
                     vv = vv * 0.5144;
                  }
                  else if(UniVel[0]==0x6B)
                  {
                     vv = vv * 1.852;
                  }
                  else
                  {

                  }

                  sprintf(vvv,"%4.1w",vv);
                  strcat(vprint,vvv);
                  strcat(vprint,UniVel);  

                  
                  rcv_v=1;
               }
               break;
            }
            case 10:                //Bat Status
            {
               if ((auxi!=0x0D)&&(auxi!=0x42))
               {
                  string[i] = auxi;
                  i++;
               }
               if (auxi==0x0D)
               {
                  i=0;
                  
                  
                  bat1_st = atoi(string);
                  
                  rcv_bat1_st=1;
               }
               break;
            }
            
         }

         if(eep>=9)
         {
            update_eeprom();
            eep=0;
         }
         update_readings();
         glcd_update();
         //END KBHIT 
      }
      

      
      glcd_update();
      //ENDWHILE
   }
//ENDMAIN
}