Use predefined bit manipulation macros
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Rihards Skuja
parent
b7458e4bd3
commit
e6ec28b04c
@ -18,14 +18,11 @@ References:
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#include <avr/io.h>
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//setup connection
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#define DS18B20_PORT PORTC
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#define DS18B20_DDR DDRC
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#define DS18B20_PIN PINC
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#define DS18B20_DQ PC0
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#define DS18B20_BIT PC0
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//commands
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#define DS18B20_CMD_CONVERTTEMP 0x44
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#define DS18B20_CMD_RSCRATCHPAD 0xbe
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#define DS18B20_CMD_WSCRATCHPAD 0x4e
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@ -41,7 +38,7 @@ References:
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//stop any interrupt on read
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#define DS18B20_STOPINTERRUPTONREAD 1
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//functions
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uint8_t ds18b20_reset(void);
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void ds18b20_writebit(uint8_t bit);
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uint8_t ds18b20_readbit(void);
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@ -10,8 +10,8 @@ Please refer to LICENSE file for licensing information.
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#include <avr/io.h>
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#include <util/delay.h>
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#include <avr/interrupt.h>
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#include "ds18b20.h"
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#include "common.h"
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#include "temperature.h"
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/*
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* ds18b20 init
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@ -20,20 +20,20 @@ uint8_t ds18b20_reset()
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{
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uint8_t i;
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//low for 480us
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DS18B20_PORT &= ~(1 << DS18B20_DQ); //low
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DS18B20_DDR |= (1 << DS18B20_DQ); //output
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// low for 480us
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CLR(DS18B20_PORT, DS18B20_BIT);
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SET(DS18B20_DDR, DS18B20_BIT);
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_delay_us(480);
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//release line and wait for 60uS
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DS18B20_DDR &= ~(1 << DS18B20_DQ); //input
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// release line and wait for 60uS
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CLR(DS18B20_DDR, DS18B20_BIT);
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_delay_us(60);
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//get value and wait 420us
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i = (DS18B20_PIN & (1 << DS18B20_DQ));
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// get value and wait 420us
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i = CHK(DS18B20_PIN, DS18B20_BIT);
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_delay_us(420);
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//return the read value, 0=ok, 1=error
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// return the read value, 0=ok, 1=error
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return i;
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}
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@ -42,18 +42,18 @@ uint8_t ds18b20_reset()
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*/
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void ds18b20_writebit(uint8_t bit)
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{
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//low for 1uS
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DS18B20_PORT &= ~(1 << DS18B20_DQ); //low
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DS18B20_DDR |= (1 << DS18B20_DQ); //output
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// low for 1uS
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CLR(DS18B20_PORT, DS18B20_BIT);
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SET(DS18B20_DDR, DS18B20_BIT);
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_delay_us(1);
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//if we want to write 1, release the line (if not will keep low)
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// if we want to write 1, release the line (if not will keep low)
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if (bit)
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DS18B20_DDR &= ~(1 << DS18B20_DQ); //input
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CLR(DS18B20_DDR, DS18B20_BIT);
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//wait 60uS and release the line
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// wait 60uS and release the line
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_delay_us(60);
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DS18B20_DDR &= ~(1 << DS18B20_DQ); //input
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DS18B20_DDR &= ~(1 << DS18B20_BIT);
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}
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/*
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@ -63,20 +63,20 @@ uint8_t ds18b20_readbit(void)
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{
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uint8_t bit = 0;
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//low for 1uS
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DS18B20_PORT &= ~(1 << DS18B20_DQ); //low
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DS18B20_DDR |= (1 << DS18B20_DQ); //output
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// low for 1uS
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CLR(DS18B20_PORT, DS18B20_BIT);
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SET(DS18B20_DDR, DS18B20_BIT);
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_delay_us(1);
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//release line and wait for 14uS
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DS18B20_DDR &= ~(1 << DS18B20_DQ); //input
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// release line and wait for 14uS
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CLR(DS18B20_DDR, DS18B20_BIT);
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_delay_us(14);
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//read the value
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if (DS18B20_PIN & (1 << DS18B20_DQ))
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// read the value
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if (CHK(DS18B20_PIN, DS18B20_BIT))
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bit = 1;
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//wait 45uS and return read value
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// wait 45uS and return read value
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_delay_us(45);
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return bit;
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}
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@ -119,17 +119,17 @@ double ds18b20_gettemp()
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cli();
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#endif
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ds18b20_reset(); //reset
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ds18b20_writebyte(DS18B20_CMD_SKIPROM); //skip ROM
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ds18b20_writebyte(DS18B20_CMD_CONVERTTEMP); //start temperature conversion
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ds18b20_reset(); // reset
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ds18b20_writebyte(DS18B20_CMD_SKIPROM); // skip ROM
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ds18b20_writebyte(DS18B20_CMD_CONVERTTEMP); // start temperature conversion
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while (!ds18b20_readbit()); //wait until conversion is complete
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while (!ds18b20_readbit()); // wait until conversion is complete
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ds18b20_reset(); //reset
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ds18b20_writebyte(DS18B20_CMD_SKIPROM); //skip ROM
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ds18b20_writebyte(DS18B20_CMD_RSCRATCHPAD); //read scratchpad
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ds18b20_reset(); // reset
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ds18b20_writebyte(DS18B20_CMD_SKIPROM); // skip ROM
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ds18b20_writebyte(DS18B20_CMD_RSCRATCHPAD); // read scratchpad
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//read 2 byte from scratchpad
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// read 2 byte from scratchpad
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temperature_l = ds18b20_readbyte();
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temperature_h = ds18b20_readbyte();
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@ -137,7 +137,7 @@ double ds18b20_gettemp()
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sei();
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#endif
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//convert the 12 bit value obtained
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// convert the 12 bit value obtained
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retd = ((temperature_h << 8) + temperature_l) * 0.0625;
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return retd;
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