OneWire Library

The OneWire library provides routines for communication via the Dallas OneWire protocol, e.g. with DS18x20 digital thermometer. OneWire is a Master/Slave protocol, and all communication cabling required is a single wire. OneWire enabled devices should have open collector drivers (with single pull-up resistor) on the shared data line.

Slave devices on the OneWire bus can even get their power supply from data line. For detailed schematic see device datasheet.

Some basic characteristics of this protocol are:

single master system,
low cost,
low transfer rates (up to 16 kbps),
fairly long distances (up to 300 meters),
small data transfer packages.

Each OneWire device also has a unique 64-bit registration number (8-bit device type, 48-bit serial number and 8-bit CRC), so multiple slaves can co-exist on the same bus.

Important :

Oscillator frequency Fosc needs to be at least 4MHz in order to use the routines with Dallas digital thermometers.
This library implements time-based activities, so interrupts need to be disabled when using OneWire library.

Ow_Reset

Prototype	unsigned int Ow_Reset(unsigned int port, unsigned int* pin);
Description	Issues OneWire reset signal for DS18x20.
Parameters	`port:` OneWire bus port `pin:` OneWire bus pin
Returns	`0` if the device is present `1` if the device is not present
Requires	Devices compliant with the Dallas OneWire protocol.
Example	// Issue Reset signal on One-Wire Bus connected to pin RF6 Ow_Reset(&PORTF,6);
Notes	None.

Ow_Read

Prototype	unsigned short Ow_Read(unsigned int port, unsigned int* pin);
Description	Reads one byte of data via the OneWire bus.
Parameters	`port:` OneWire bus port `pin:` OneWire bus pin
Returns	Data read from an external device over the OneWire bus.
Requires	Devices compliant with the Dallas OneWire protocol.
Example	// Read a byte from the One-Wire Bus connected to pin RF6 unsigned short read_data; ... read_data = Ow_Read(&PORTF, 6);
Notes	None.

Ow_Write

Prototype	void Ow_Write(unsigned int port, unsigned int* pin, unsigned short data_);
Description	Writes one byte of data via the OneWire bus.
Parameters	`port:` OneWire bus port `pin:` OneWire bus pin `data_:` data to be written
Returns	Nothing.
Requires	Devices compliant with the Dallas OneWire protocol.
Example	// Send a byte to the One-Wire Bus connected to pin RF6 Ow_Write(&PORTF, 6, 0xCC);
Notes	None.

Library Example

This example reads the temperature using DS18x20 connected to pin RF6. After reset, MCU obtains temperature from the sensor and prints it on the Lcd. Be sure to set Fosc appropriately in your project, to pull-up RF6 line and to turn off the PORTF leds.

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// LCD module connections
sbit LCD_RS at LATB4_bit;
sbit LCD_EN at LATB6_bit;
sbit LCD_D4 at LATD4_bit;
sbit LCD_D5 at LATD5_bit;
sbit LCD_D6 at LATD6_bit;
sbit LCD_D7 at LATD7_bit;

sbit LCD_RS_Direction at TRISB4_bit;
sbit LCD_EN_Direction at TRISB6_bit;
sbit LCD_D4_Direction at TRISD4_bit;
sbit LCD_D5_Direction at TRISD5_bit;
sbit LCD_D6_Direction at TRISD6_bit;
sbit LCD_D7_Direction at TRISD7_bit;
// End LCD module connections

//  Set TEMP_RESOLUTION to the corresponding resolution of used DS18x20 sensor:
//  18S20: 9  (default setting; can be 9,10,11,or 12)
//  18B20: 12
const unsigned short TEMP_RESOLUTION = 9;

char *text = "000.0000";
unsigned temp;

void Display_Temperature(unsigned int temp2write) {
  const unsigned short RES_SHIFT = TEMP_RESOLUTION - 8;
  char temp_whole;
  unsigned int temp_fraction;

  // check if temperature is negative
  if (temp2write & 0x8000) {
     text[0] = '-';
     temp2write = ~temp2write + 1;
     }

  // extract temp_whole
  temp_whole = temp2write >> RES_SHIFT ;

  // convert temp_whole to characters
  if (temp_whole/100)
     text[0] = temp_whole/100  + 48;
  else
     text[0] = '0';

  text[1] = (temp_whole/10)%10 + 48;             // Extract tens digit
  text[2] =  temp_whole%10     + 48;             // Extract ones digit

  // extract temp_fraction and convert it to unsigned int
  temp_fraction  = temp2write << (4-RES_SHIFT);
  temp_fraction &= 0x000F;
  temp_fraction *= 625;

  // convert temp_fraction to characters
  text[4] =  temp_fraction/1000    + 48;         // Extract thousands digit
  text[5] = (temp_fraction/100)%10 + 48;         // Extract hundreds digit
  text[6] = (temp_fraction/10)%10  + 48;         // Extract tens digit
  text[7] =  temp_fraction%10      + 48;         // Extract ones digit

  // print temperature on LCD
  Lcd_Out(2, 5, text);
}

void main() {

  ADPCFG = 0xFFFF;                               // Configure AN pins as digital
  
  Lcd_Init();                                    // Initialize LCD
  Lcd_Cmd(_LCD_CLEAR);                           // Clear LCD
  Lcd_Cmd(_LCD_CURSOR_OFF);                      // Turn cursor off
  Lcd_Out(1, 1, " Temperature:   ");
  // Print degree character, 'C' for Centigrades
  Lcd_Chr(2,13,223);  // different LCD displays have different char code for degree
                      // if you see greek alpha letter try typing 178 instead of 223

  Lcd_Chr(2,14,'C');

  //--- main loop
  do {
    //--- perform temperature reading
    Ow_Reset(&PORTF, 6);                         // Onewire reset signal
    Ow_Write(&PORTF, 6, 0xCC);                   // Issue command SKIP_ROM
    Ow_Write(&PORTF, 6, 0x44);                   // Issue command CONVERT_T
    Delay_us(120);

    Ow_Reset(&PORTF, 6);
    Ow_Write(&PORTF, 6, 0xCC);                   // Issue command SKIP_ROM
    Ow_Write(&PORTF, 6, 0xBE);                   // Issue command READ_SCRATCHPAD
    Delay_ms(400);

    temp =  Ow_Read(&PORTF, 6);
    temp = (Ow_Read(&PORTF, 6) << 8) + temp;

    //--- Format and display result on Lcd
    Display_Temperature(temp);

    Delay_ms(500);
  } while (1);
}

HW Connection

Example of DS1820 connection

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