/Designs/Measuring_instruments/AWS01A/SW/PIC16F887/main.hex
310,4 → 310,4
:04400E00F52CFF3F4F
:00000001FF
;PIC16F887
;CRC=7048 CREATED="16-II-13 00:02"
;CRC=7048 CREATED="17-II-13 16:17"
/Designs/Measuring_instruments/AWS01A/SW/PIC16F887/main.pjt
17,7 → 17,7
0=0000 %S 0 0 796 451 3 0
[Opened Files]
1=main.c
2=..\..\..\..\MRAKOMER4\SW\irmrak4.c
2=
3=dbloader.c
4=
5=..\ds1820.c
/Designs/Measuring_instruments/AWS01A/SW/SHT.c
0,0 → 1,245
///////////////////////////////////////////////////////////////////////////////
// //
// Driver file for SHT75 Temperature & Humidity Sensor //
// //
// ***** To initialise SHT75 sensor upon power up ***** //
// //
// Function : sht_init() //
// Return : none //
// //
// //
// ***** To measure and caluculate SHT75 temp & real RH ***** //
// //
// Function : sht_rd (temp, truehumid) //
// Return : temperature & true humidity in float values //
// //
///////////////////////////////////////////////////////////////////////////////
 
#define sht_data_pin PIN_D3 //(I use A1 as data input)
#define sht_clk_pin PIN_C4
 
 
 
 
//***** Function to alert SHT75 *****
 
void comstart (void)
{
output_float(sht_data_pin); //data high
output_bit(sht_clk_pin, 0); //clk low
delay_us(1);
output_bit(sht_clk_pin, 1); //clk high
delay_us(1);
output_bit(sht_data_pin, 0); //data low
delay_us(1);
output_bit(sht_clk_pin, 0); //clk low
delay_us(2);
output_bit(sht_clk_pin, 1); //clk high
delay_us(1);
output_float(sht_data_pin); //data high
delay_us(1);
output_bit(sht_clk_pin, 0); //clk low
}
 
 
//***** Function to write data to SHT75 *****
 
int1 comwrite (int8 iobyte)
{
int8 i, mask = 0x80;
int1 ack;
 
//Shift out command
delay_us(4);
for(i=0; i<8> 0) output_float(sht_data_pin); //data high if MSB high
else output_bit(sht_data_pin, 0); //data low if MSB low
delay_us(1);
output_bit(sht_clk_pin, 1); //clk high
delay_us(1);
mask = mask >> 1; //shift to next bit
}
 
//Shift in ack
output_bit(sht_clk_pin, 0); //clk low
delay_us(1);
ack = input(sht_data_pin); //get ack bit
output_bit(sht_clk_pin, 1); //clk high
delay_us(1);
output_bit(sht_clk_pin, 0); //clk low
return(ack);
}
 
 
//***** Function to read data from SHT75 *****
 
int16 comread (void)
{
int8 i;
int16 iobyte = 0;
const int16 mask0 = 0x0000;
const int16 mask1 = 0x0001;
 
//shift in MSB data
for(i=0; i<8; i++)
{
iobyte = iobyte << 1;
output_bit(sht_clk_pin, 1); //clk high
delay_us(1);
if (input(sht_data_pin)) iobyte |= mask1; //shift in data bit
else iobyte |= mask0;
output_bit(sht_clk_pin, 0); //clk low
delay_us(1);
}
 
//send ack 0 bit
output_bit(sht_data_pin, 0); //data low
delay_us(1);
output_bit(sht_clk_pin, 1); //clk high
delay_us(2);
output_bit(sht_clk_pin, 0); //clk low
delay_us(1);
output_float(sht_data_pin); //data high
 
//shift in LSB data
for(i=0; i<8; i++)
{
iobyte = iobyte << 1;
output_bit(sht_clk_pin, 1); //clk high
delay_us(1);
if (input(sht_data_pin)) iobyte |= mask1; //shift in data bit
else iobyte |= mask0;
output_bit(sht_clk_pin, 0); //clk low
delay_us(1);
}
 
//send ack 1 bit
output_float(sht_data_pin); //data high
delay_us(1);
output_bit(sht_clk_pin, 1); //clk high
delay_us(2);
output_bit(sht_clk_pin, 0); //clk low
 
return(iobyte);
}
 
 
//***** Function to wait for SHT75 reading *****
 
void comwait (void)
{
int16 sht_delay;
 
output_float(sht_data_pin); //data high
output_bit(sht_clk_pin, 0); //clk low
delay_us(1);
for(sht_delay=0; sht_delay<30000; sht_delay++) // wait for max 300ms
{
if (!input(sht_data_pin)) break; //if sht_data_pin low, SHT75 ready
delay_us(10);
}
}
 
 
//***** Function to reset SHT75 communication *****
 
void comreset (void)
{
int8 i;
 
output_float(sht_data_pin); //data high
output_bit(sht_clk_pin, 0); //clk low
delay_us(2);
for(i=0; i<9; i++)
{
output_bit(sht_clk_pin, 1); //toggle clk 9 times
delay_us(2);
output_bit(sht_clk_pin, 0);
delay_us(2);
}
comstart();
}
 
 
//***** Function to soft reset SHT75 *****
 
void sht_soft_reset (void)
{
comreset(); //SHT75 communication reset
comwrite(0x1e); //send SHT75 reset command
delay_ms(15); //pause 15 ms
}
 
 
//***** Function to measure SHT75 temperature *****
 
int16 measuretemp (void)
{
int1 ack;
int16 iobyte;
 
comstart(); //alert SHT75
ack = comwrite(0x03); //send measure temp command and read ack status
if(ack == 1) return;
comwait(); //wait for SHT75 measurement to complete
iobyte = comread(); //read SHT75 temp data
return(iobyte);
}
 
 
//***** Function to measure SHT75 RH *****
 
int16 measurehumid (void)
{
int1 ack;
int16 iobyte;
 
comstart(); //alert SHT75
ack = comwrite(0x05); //send measure RH command and read ack status
if(ack == 1) return;
comwait(); //wait for SHT75 measurement to complete
iobyte = comread(); //read SHT75 temp data
return(iobyte);
}
 
 
//***** Function to calculate SHT75 temp & RH *****
 
void calculate_data (int16 temp, int16 humid, float & tc, float & rhlin, float & rhtrue)
{
float truehumid1, rh;
 
//calculate temperature reading
tc = ((float) temp * 0.01) - 40.0;
 
//calculate Real RH reading
rh = (float) humid;
 
rhlin = (rh * 0.0405) - (rh * rh * 0.0000028) - 4.0;
 
//calculate True RH reading
rhtrue = ((tc - 25.0) * (0.01 + (0.00008 * rh))) + rhlin;
}
 
 
//***** Function to measure & calculate SHT75 temp & RH *****
 
void sht_rd (float & temp, float & truehumid)
{
int16 restemp, reshumid;
float realhumid;
restemp = 0; truehumid = 0;
 
restemp = measuretemp(); //measure temp
reshumid = measurehumid(); //measure RH
calculate_data (restemp, reshumid, temp, realhumid, truehumid); //calculate temp & RH
}
 
 
//***** Function to initialise SHT75 on power-up *****
 
void sht_init (void)
{
comreset(); //reset SHT75
delay_ms(20); //delay for power-up
}