Exemplo n.º 1
0
void DS18B20_Controller::completeSensorReadout() {
  // initialise OK sensors to state NOK and leave other states untouched:
  for(uint8_t i=0; i<numSensors; i++) {
    if(sensors[i]->sensorStatus == DS18B20_SENSOR_OK) {
      sensors[i]->sensorStatus = DS18B20_SENSOR_NOK;
    }
    sensors[i]->currentTemp  = ACF_UNDEFINED_TEMPERATURE;
  }
  
  uint8_t addr[DS18B20_SENSOR_ID_BYTES];
  
  while(oneWire->search(addr)) {  
    if (OneWire::crc8(addr, DS18B20_SENSOR_ID_BYTES-1) != addr[DS18B20_SENSOR_ID_BYTES-1]) {
      continue;
    }
    
    uint8_t data[DS18B20_SENSOR_READOUT_BYTES];
    if (! readSensorScratchpad(addr, data)) {
      continue;
    }
    
    DS18B20_Sensor *sensor = getSensor(addr);
    if (sensor != NULL) {
      DS18B20_Readout readout = getCelcius(data);
      #ifdef DEBUG_DS18B20
        Serial.print(F("DEBUG_DS18B20: Sensor "));
        Serial.print(sensor->label);
      #endif
      
      // only set temperature and state for NOK sensors and AUTO_ASSIGNED sensors (leave others untouched):
      if (sensor->sensorStatus == DS18B20_SENSOR_ID_AUTO_ASSIGNED) {
        sensor->currentTemp  = readout.celcius;
        #ifdef DEBUG_DS18B20
          char buf[MAX_DS18B20_SENSOR_ID_STR_LEN];
          Serial.print(F(": ID AUTO ASSIGNED, "));
          Serial.println(formatTemperature(readout.celcius, buf));
        #endif
        
      } else if (sensor->sensorStatus == DS18B20_SENSOR_NOK) {
        // Ensure temperature is plausible:
        if((sensor->rangeMin == ACF_UNDEFINED_TEMPERATURE || readout.celcius >= sensor->rangeMin) 
            && (sensor->rangeMax == ACF_UNDEFINED_TEMPERATURE || readout.celcius <= sensor->rangeMax)) {
          sensor->sensorStatus = DS18B20_SENSOR_OK;
          sensor->currentTemp  = readout.celcius;
          #ifdef DEBUG_DS18B20
            char buf[MAX_DS18B20_SENSOR_ID_STR_LEN];
            Serial.print(F(": OK, "));
            Serial.println(formatTemperature(readout.celcius, buf));
          #endif
        } else {
          #ifdef DEBUG_DS18B20
            Serial.println(F(": NOK"));
          #endif
        }
      }
    } 
  }
  oneWire->reset_search();
}
Exemplo n.º 2
0
int main()
{
	int farh;
    printf(" °F   |   °C\n");
    printf("---------------\n");
	for(farh = MINIMO; farh <= MAXIMO; farh=farh + INCREMENTO)
		printf("%3d   |  %6.1f\n", farh, getCelcius(farh));
}
void sensorsTemperatureClass::loop() {
    sensorState = digitalRead(sensorStatePin);
    if( sensorState == HIGH ) {
        rawAnalog = analogRead(sensorPin);
    } else {
        rawAnalog = -1;
    }
    //print and limit ints to 3 chars
    sprintf(lcdRows[0], "--TEMP F:%03d--", ((int) getFahrenheit()) % 1000);
    sprintf(lcdRows[1], "---K:%03d C:%03d--", ((int) getKelvin()) % 1000, ((int) getCelcius()) % 1000);
    delay(100);
}
double sensorsTemperatureClass::getFahrenheit() {
    return ( getCelcius() * 9.0 / 5.0 ) + 32.0;
}
Exemplo n.º 5
0
/**********************************************************************
***********							 Main Program						***********************
***********************************************************************
	Aim  : main program
	NOTE :
**********************************************************************/
int main (void)
{

    SystemCoreClockUpdate();
//	SysTick_Config(10000);																					//turn SysTick timer on
    SysTick_Config(SystemCoreClock/1600);															// 1ms SysTicks
    Delay(100);																												//wait for system stabilization
    SIM->SCGC5 |= SIM_SCGC5_PORTD_MASK | SIM_SCGC5_PORTB_MASK;      	//Port-D-B clock ON
    SIM->SCGC5 |= SIM_SCGC5_PORTA_MASK;
    Delay(0x500);                     																//delay
    LED_Init();           																						//Initialize the LEDs
    spi_init();																												// SPI-1 init
    Delay(0x100);																											//delay
    hede=PTD->PDIR;
    TI_Init();
//		TI_HW_Reset();
//	Delay(0x3000);													//delay for logic analyzer
    hede=PTD->PDIR;
//	SpiStart();
//	SPI_Send(0x10);
//	SpiStop();
//		test[0]=TI_ReadByte(0x0F);
//		test[1]=TI_ReadByte(0x0F);
//		test[2]=TI_ReadByte(0x0F);
//		test[3]=TI_ReadByte(0x0F);
//		test[4]=TI_ReadByte(0x0F);
//
//	TI_WriteByte(CC112X_IOCFG3,0x87);
//	test[5]=TI_ReadByte(CC112X_IOCFG3);
//	TI_Command(CC112X_SRES);				//sofware reset
//
//	test[6]=TI_ReadByte(CC112X_IOCFG3);
//	TI_WriteByte(CC112X_IOCFG3,0x87);
//	test[7]=TI_ReadByte(CC112X_IOCFG3);
//
    TI_Write_brst(CC112X_BURST_TXFIFO,toto,20);
    Delay(100);
    TI_Read_brst(CC112X_RSSI1,got,1);

//Delay(100);
//TI_Command(CC112X_SRES);				//sofware reset

    setRegisters();
    getReg_Test();
//		TI_WriteByte(CC112X_DCFILT_CFG,0x40);
//		TI_WriteByte(CC112X_IOCFG2, 0x06);
//		TI_WriteByte(CC112X_IOCFG1, 0xB0);
//		TI_WriteByte(CC112X_IOCFG0, 0x40);

    test[0] = getCelcius();	 //Read temp sensor TEST



//	Delay(0x2000);
    while(1)
    {
        // Turn on leds 1 by 1
        YELLOW_ON;
        Delay(1000);
        GREEN_ON;
        Delay(1000);
        RED_ON;
        Delay(1000);
        //Turn off leds
        YELLOW_OFF;
        GREEN_OFF;
        RED_OFF;
//		SpiStart();
//		hede=PTD->PDIR;
//		DelayUs(0x1000);
//		SPI_Send(0x10);
//		x=SPI_Send(0x00);
//		x=SPI_Send(0x00);
//		SpiStop();
//		Delay(0x50);

//		SpiStart();
//		SPI_Send(0x10);
//		x=SPI_Send(0x00);
//		SpiStop();
//		hede=PTD->PDIR;
//
//		SpiStop();
////		YELLOW_ON; Delay(1000);	GREEN_ON; Delay(1000);	RED_ON; Delay(1000);
////		TI_WriteByte(CC112X_IOCFG3,0x87);
////		test[2]=TI_ReadByte(CC112X_IOCFG3);
////		YELLOW_OFF;	GREEN_OFF;	RED_OFF;
//
//	PTD->PCOR |= (1UL<<4);                             	  // CS=0, SPI start
//
//	hede=PTD->PDIR;

////		test[0]=SPI_Send(0x10);
//	while((PTD->PDIR & 0x80)!= 0);												//Wait for CHIP_RDYn signal
//
//	SPI_Send(0x8F);																//send the adress and get the status byte
//	test[2]= SPI_Send(0x00);															//read the adress
////		test[1]=SPI_Send(0x00);
////		test[2]=SPI_Send(0x10);
////		test[3]=SPI_Send(0x00);
////		SPI_Send(0x10);
//
//	PTD->PSOR |= (1UL<<4);                             	  // CS=0, SPI stop
    }
}