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BMP085 Pressure Sensor
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ajt



Joined: 07 Sep 2003
Posts: 110

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BMP085 Pressure Sensor
PostPosted: Fri Aug 17, 2012 12:25 pm     Reply with quote

After spending a lot of time trying to convert integer arithmetic Arduino driver code for this device to CCS, I gave up and wrote my own integer based driver. Both of these exercises were basically a waste of time because there are too many issues in data type differences and overflow, etc. problems with the integer based math.

The following driver is all floating point and works well. Usage is shown in the opening comments. A test program follows.

Please post any improvements or corrections.

(Use any of this work as you wish but you assume all risk in doing so.)

Al Testani

Code:

//************************************************
//  BMP085 Barometric Pressure Sensor
//
//  - Datasheet: http://www.bosch-sensortec.com/content/language1/downloads/BST-BMP085-DS000-05.pdf
//
//  - Written in CCS PCH C using floating point math
//  - Several integer math versions of this driver exist but the speed improvement is
//    not warranted in typical weather station type applications
// 
//  - Based on a paper posted to thebackshed.com by DuinoMiteMegaAn
//    http://www.thebackshed.com/forum/forum_posts.asp?TID=4768&PN=9 
//
//  - Usage:
//     Call once: bmp085Calibration();
//     P_mBar_float = BMP085Pressure(true);  //  calls for temperature first
//     P_mBar_float = BMP085Pressure(false);  // skips temperature reading, assumes done previously
//     T_Cent_float = BMP085Temperature();
//     t_reading = _Temp;  _Temp set on every temperature reading
//        Note:   pressure reading is temp compensated so call for temp reading prior to pressure reading periodically or on each reading
//
//  Al Testani
//  08/17/12
//************************************************

// place a #use i2c statement in the main program and comment this out if not applicable
#use i2c(master, sda=PIN_C4, scl=PIN_C3, FAST, FORCE_HW)

#include <math.h>

const int8 OVS_S = 3; // Oversampling Setting (0,1,2,3 from ultra low power, to ultra hi-resolution)

#define BMP085_ADDRESS 0xEE          // I2C address of BMP085
#define P_CORRECTION   1.5           // in mBars - factor to adjust for elevation to match local weather station pressure
                                     // this value for 14' above sea level (in Boca Raton, Florida)


// Calibration values
signed int16 ac1;
signed int16 ac2;
signed int16 ac3;
int16 ac4;
int16 ac5;
int16 ac6;
signed int16 b1;
signed int16 b2;
signed int16 mb;
signed int16 mc;
signed int16 md;

// floating point cal factors
float _c3;
float _c4;
float _b1;
float _c5;
float _c6;
float _mc;
float _md;

// polynomomial constants
float _x0;
float _x1;
float _x2;
float _y0;
float _y1;
float _y2;
float _p0;
float _p1;
float _p2;

float _s;     // T-25, used in pressure calculation - must run temperature reading before pressure reading
float _Temp;  // set after every temperature or temperature/pressure reading


//----------------------------------------------
int8 BMP085ReadByte(int8 address)
//----------------------------------------------
{
int8 data;

   i2c_start();
   i2c_write(BMP085_ADDRESS);
   i2c_write(address);
   i2c_start();
   i2c_write(BMP085_ADDRESS | 0x01 );
   data=i2c_read(0);
   i2c_stop();
   return(data);
}


//----------------------------------------------
int16 BMP085ReadInt(int8 address)
//----------------------------------------------
{
int8 msb, lsb;
int16 temp;

   i2c_start();
   i2c_write(BMP085_ADDRESS);
   i2c_write(address);
   i2c_start();
   i2c_write(BMP085_ADDRESS | 0x01 );
   msb = i2c_read();
   lsb = i2c_read(0);
   i2c_stop();
   temp = make16(msb, lsb);
   return ( temp );
}


//----------------------------------------------
void BMP085WriteByte(int8 address, int8 data)
//----------------------------------------------
{
   i2c_start();
   i2c_write(BMP085_ADDRESS);
   i2c_write(address);
   i2c_write(data);
   i2c_stop();
}


//----------------------------------------------
void bmp085Calibration()
//----------------------------------------------
{
   // read BMP085 EEPROM cal factors
   ac1 = bmp085ReadInt(0xAA);
   ac2 = bmp085ReadInt(0xAC);
   ac3 = bmp085ReadInt(0xAE);
   ac4 = bmp085ReadInt(0xB0);
   ac5 = bmp085ReadInt(0xB2);
   ac6 = bmp085ReadInt(0xB4);
   b1  = bmp085ReadInt(0xB6);
   b2  = bmp085ReadInt(0xB8);
   mb  = bmp085ReadInt(0xBA);
   mc  = bmp085ReadInt(0xBC);
   md  = bmp085ReadInt(0xBE);

    // calculate floating point cal factors
   _c3 = 0.0048828125 * ac3;            // 160 * pow2(-15) * ac3;
   _c4 = 0.000000030517578125 * ac4;    // 1E-3 * pow2(-15) * ac4;
   _c5 = 0.00000019073486328125 * ac5;  // (pow2(-15)/160) * ac5;
   _c6 = (float)ac6;
   _b1 = 0.00002384185791015625 * b1;   // 25600 * pow2(-30) * b1;
   _mc = 0.08 * mc;                     // (pow2(11) / 25600) * mc;
   _md = (float)md / 160;
   
   // calculate polynomial constants
   _x0 = (float)ac1;
   _x1 = 0.01953125 * ac2;             // 160 * pow2(-13) * ac2;
   _x2 = 0.000762939453125 * b2;       // 25600 * pow2(-25) * b2;
   _y0 = _c4 * 32768;                  //_c4 * pow2(15);
   _y1 = _c4 * _c3;
   _y2 = _c4 * _b1;
   _p0 = 2.364375; 
   _p1 = 0.992984;
   _p2 = 0.000004421;   
}


// Read the uncompensated temperature value
//----------------------------------------------
int16 BMP085ReadUT()
//----------------------------------------------
{
int16 ut;
 
  // Write 0x2E into Register 0xF4
  BMP085WriteByte(0xF4, 0x2E);
  delay_ms(5); // Wait at least 4.5ms
  // Read two bytes from registers 0xF6 and 0xF7
  ut = BMP085ReadInt(0xF6);
  return((float)ut);
}


// Read the uncompensated pressure value
//----------------------------------------------
int32 bmp085ReadUP()
//----------------------------------------------
{
int8 msb, lsb, xlsb;
float p;
 
  // Write 0x34+(OSS<<6) into register 0xF4
  // Request a pressure reading w/ oversampling setting
  BMP085WriteByte(0xF4, (0x34 + (OVS_S<<6)) );
 
  // Wait for conversion, delay time dependent on OSS
  switch (OVS_S)
  {
     case 0: delay_ms(5);  break;
     case 1: delay_ms(8);  break;
     case 2: delay_ms(14); break;
     case 3: delay_ms(26); break;
  }   
 
  // Read register 0xF6 (MSB), 0xF7 (LSB), and 0xF8 (XLSB)
   msb  = BMP085ReadByte(0xF6);
   lsb  = BMP085ReadByte(0xF7);
   xlsb = BMP085ReadByte(0xF8);
   p = (256*msb) + lsb + (xlsb/256);
   return(p);
}


//----------------------------------------------
float BMP085GetTemp(float _tu)
//----------------------------------------------
{
float alpha, T;

   alpha = _c5 * (_tu - _c6);
   T = alpha + (_mc/(alpha + _md));
   _s = T - 25;
   return(T);
}   


//----------------------------------------------
float BMP085GetPressure(float _pu)
//----------------------------------------------
{
float x, y, z;
float P;

   x = _x2*_s*_s + _x1*_s + _x0;
   y = _y2*_s*_s + _y1*_s + _y0;
   z = ((float)_pu - x) / y;
   P = _p2*z*z + _p1*z + _p0;
   P += P_CORRECTION;
   return(P);
}


//----------------------------------------------
float BMP085Pressure(boolean getTemp)
//----------------------------------------------
{
   if (getTemp)
      _Temp = BMP085GetTemp(BMP085ReadUT());  // creates _s required for pressure calculation
   return(BMP085GetPressure(BMP085ReadUP()));
}


//----------------------------------------------
float BMP085Temperature(void)
//----------------------------------------------
{
   _Temp = BMP085GetTemp(BMP085ReadUT());
   return(_Temp);
}




A test program using the driver follows:

Code:

#include <18LF2420.h>
#device adc=16
#FUSES NOWDT, WDT128, H4, NOFCMEN, NOIESO, NOBROWNOUT, NOPBADEN, NOLPT1OSC, NOSTVREN, NOLVP, NOXINST // 4MHz crystal
#use delay(clock=16000000)
#use rs232(baud=57600, xmit=PIN_C6, rcv=PIN_C7, bits=8, parity=N, stop=1, errors)

#include "./BMP085.c"


// Pin Definitions
#define YEL_LED         PIN_B3
#define SCL             PIN_C3 
#define SDA             PIN_C4 
#define TX              PIN_C6
#define RX              PIN_C7


// Macros
#define set(x) output_high(x)
#define clr(x) output_low(x)


//----------------------------------------------
void main()
//----------------------------------------------
{
float Tf, P_inHg;
float T_Cent;
float P_mBar;
int16 tp, tt;

   setup_timer_0(T0_INTERNAL|T0_DIV_4); // 1 usec resolution
   bmp085Calibration();

   while(true)
   {
      set(YEL_LED);
      set_timer0(0);
     
      T_Cent = BMP085Temperature();
      tt= get_timer0();
      P_mBar = BMP085Pressure(false);   // skips required temp reading since already done above
      tp = get_timer0() - tt;
      printf("Temperature (C):  %.1g\r\n", T_Cent);
      printf("Pressure (mBar):  %0.2g\r\n\n", P_mBar);
      Tf = ((9.0/5.0)*T_Cent) + 32.0;
      printf("Temperature (F):  %.1g\r\n", Tf);
      P_inHg = (0.0295301) * P_mBar;
      printf("Pressure (inHg):  %.2g\r\n\n", P_inHg);
      printf("Processing time: \r\n");
      printf("  Temperature = %Lu  (usec)\r\n", tt);
      printf("  Pressuure   = %Lu (usec)\r\n", tp);
      printf("------------------------------\r\n");
     
      clr(YEL_LED);
      delay_ms(1000);
   }
}

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Al Testani
Lykos1986



Joined: 26 Nov 2005
Posts: 68

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PostPosted: Wed Apr 17, 2013 4:54 am     Reply with quote

Hi! Have you got any update about this driver?

I am trying to use it but without success! It always replies back with -9 for the temperature and 247.6 for the pressure.

At my code I am using:
...
#include "./BMP085.c"
...
bmp085Calibration();
...
T_Cent = BMP085Temperature();
P_mBar = BMP085Pressure(false);
...

And then I am printing the values.

The I2C pins are the correct ones but I am always having the same values

Any help?
ajt



Joined: 07 Sep 2003
Posts: 110

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PostPosted: Wed Apr 17, 2013 7:45 am     Reply with quote

The code is the latest revision and from the code snippet you sent should work. However... I can't help at all since I don't know what PIC you are using, what the hardware schematic looks like, or what version of the compiler you are using.

Does the code (unmodified) I provided including the test program work properly on your hardware?

I will gladly try to help but you will have to provide much more information.
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Al Testani
Lykos1986



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PostPosted: Wed Apr 17, 2013 10:48 am     Reply with quote

Actually I am using a PIC24F32KA304
#include "24F32KA304.h"

and for the fuses I have:
#FUSES NOWRTB, NOBSS, NOWDT, NOBROWNOUT, NOLVR, NOPUT, MCLR, ICSP2, NODEBUG, NODSWDT, NOWRT, NOPROTECT, NOIESO, PR, HS, NOCKSFSM, ALTI2C

Otherwise my code is almost the same.

As for the hardware part, I am using 4.7K Pull-Up resistors at the I2C pins, EOC and XCLR pins unconnected and power pins connected to the power with 100nF decoupling capacitors

I was trying also to use the SLOW configuration of I2C incase that the speed was the problem but still nothing...

Do you thing it is a problem with the Fuses?

I will try your code without any modifications as well and I will let you know
ajt



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Posts: 110

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PostPosted: Wed Apr 17, 2013 11:04 am     Reply with quote

Make sure you have a #use i2c statement in your code in one place. The following is the default in the BMP085.c file. Obviously, change it to the pins you are using:

Code:
#use i2c(master, sda=PIN_C4, scl=PIN_C3, FAST, FORCE_HW)


If you are not using the I2C peripheral then you don't want the FORCE_HW switch but I don't know if my code and/or the BMP085 would would work with software I2C. It should but I never tested it.

In terms of fuses, I don't use that PIC so don't know but you might want to check if your oscillator is set up properly.
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Al Testani
Lykos1986



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PostPosted: Wed Apr 17, 2013 12:11 pm     Reply with quote

Hmmm, I am using your example and I am having a few interesting results.

If I use the:
#use i2c(master, sda=PIN_B2, scl=PIN_B3, FAST, FORCE_SW)
it replies back with:
Temperature (C): 12.7
Pressure (mBar): 544347.31

If I use the:
#use i2c(master, sda=PIN_B2, scl=PIN_B3, FAST, FORCE_HW)
it replies back with:
Temperature (C): -9
Pressure (mBar): 247.6

Of course, the results are not changing even if I gently try to heat the sensor.

I've use also the SLOW instead of FAST as well but I am having exactly the same results. Probably is something wrong with the sensor...
ajt



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PostPosted: Wed Apr 17, 2013 12:30 pm     Reply with quote

Maybe you should use the ICD1 or ICD2 switch in your #USE i2c statement since your PIC has two I2C hardware peripherals. I don't know if the compiler sets the correct hardware by specifying the pins only. You could look is the LST file to see what is really getting set up.
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Al Testani
Lykos1986



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PostPosted: Thu Apr 18, 2013 3:10 am     Reply with quote

It is not about the I2C1 or I2C2. I just connect a USB logic analyser and it seems that the communication is more than perfect! I am having good timings, ACT conditions and everything else related to a good I2C master-slave communication. Furthermore I was checking with the datasheet and everything are as suppose to be! In other words your driver if OK!

I am 99% sure that the problem is with the BMP085 sensor itself! You have to read two register values for the temperature and three register values for the pressure (plus the 11 calibration coefficients from the EEPROM only at the beginning). And then you perform the calculations at the code/driver

It seems that the two temperature registers are giving back always 0xFF and 0xFF and the three pressure registers are giving back always 0x00, 0x00 and 0x00. No matter if I heat the sensor etc

So, I think it is a problematic sensor and nothing more! What to expect when this sensor is from eBay for 3.5$ with free shipping!!!
ajt



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PostPosted: Thu Apr 18, 2013 10:20 am     Reply with quote

I received a notification in mid-Feb. that the BMP085 is at EOL and now obsolete. There are still some left in distribution and places like eBay. The BMP085 is not recommended for new designs.

The Bosch-Sensortec website no longer lists the BMP085, just the BMP180 and BMP280. According to the BMP180 datasheet it is the replacement for the BMP085. Unfortunately, it has a different footprint so cannot go into existing designs.

From a quick review of the registers and operation of the interface I believe the BMP085 driver code will work as it is except there is now a 5th resolution mode that isn't supported in my code.

I need to get some samples of the BMP180 and test them out.
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Al Testani
Lykos1986



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PostPosted: Thu Apr 18, 2013 12:47 pm     Reply with quote

Good to letting me know ajt!

I will try to get samples from the BMP180 as well...
ajt



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Posts: 110

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BMP180 Driver
PostPosted: Mon May 20, 2013 3:18 pm     Reply with quote

I tested the BMP180 with the exact driver code and example for the BMP085 previously posted and it works fine.
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Al Testani
Lykos1986



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PostPosted: Wed May 22, 2013 2:17 am     Reply with quote

Good news!!! I will try to source a BMP180 and make some experiments with it!
lazuribicci



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integer library
PostPosted: Tue Jul 30, 2013 2:00 am     Reply with quote

Dear friends,

I have tested above library, but I cannot read pressure, however temperature seems good. I have researched step by step and I found faulty in calibration coefficient routine. First value, ac1, comes wrong. It should be 7000-8000 but it gives 12. So I read it again after md coefficient. It seems everything good.

BTW, I prepare a new integer library for BMP085.

I hope it helps some people.

Fatih GENC


Code:
//************************************************
//  BMP085 Barometric Pressure Sensor
//
//  - Datasheet: http://www.bosch-sensortec.com/content/language1/downloads/BST-BMP085-DS000-05.pdf
//
//  - Written in CCS PCH C using floating point math
//  - Several integer math versions of this driver exist but the speed improvement is
//    not warranted in typical weather station type applications
// 
//  - Based on a paper posted to thebackshed.com by DuinoMiteMegaAn
//    http://www.thebackshed.com/forum/forum_posts.asp?TID=4768&PN=9 
//
//  - Usage:
//     Call once: bmp085Calibration();
//     P_mBar_float = BMP085Pressure(true);  //  calls for temperature first
//     P_mBar_float = BMP085Pressure(false);  // skips temperature reading, assumes done previously
//     T_Cent_float = BMP085Temperature();
//     t_reading = _Temp;  _Temp set on every temperature reading
//        Note:   pressure reading is temp compensated so call for temp reading prior to pressure reading periodically or on each reading
//

//    Revision - integer algotihm
//    Fatih GENC
//    07/30/2013
//
//  Al Testani
//  08/17/12
//************************************************

// place a #use i2c statement in the main program and comment this out if not applicable
#use i2c(MASTER, fast=400000, I2C1, RESTART_WDT)

#include <math.h>

const int8 OVS_S = 3; // Oversampling Setting (0,1,2,3 from ultra low power, to ultra hi-resolution)

#define BMP085_ADDRESS 0xEE          // I2C address of BMP085



// Calibration values
static signed int32 ac1;
static signed int16 ac2;
static signed int16 ac3;
static int16 ac4;
static int16 ac5;
static int16 ac6;
static signed int16 b1;
static signed int16 b2;
static signed int16 mb;
static signed int16 mc;
static signed int16 md;


static float b5;

static float _Temp;  // set after every temperature or temperature/pressure reading


//----------------------------------------------
int8 BMP085ReadByte(int8 address)
//----------------------------------------------
{
int8 data;

   i2c_start();
   i2c_write(BMP085_ADDRESS);
   i2c_write(address);
   i2c_start();
   i2c_write(BMP085_ADDRESS | 0x01 );
   data=i2c_read(0);
   i2c_stop();
   return(data);
}


//----------------------------------------------
int16 BMP085ReadInt(int8 address)
//----------------------------------------------
{
int8 msb, lsb;
int16 temp;

   i2c_start();
   i2c_write(BMP085_ADDRESS);
   i2c_write(address);
   i2c_start();
   i2c_write(BMP085_ADDRESS | 0x01 );
   msb = i2c_read();
   lsb = i2c_read(0);
   i2c_stop();
   temp = make16(msb, lsb);
   return ( temp );
}


//----------------------------------------------
void BMP085WriteByte(int8 address, int8 data)
//----------------------------------------------
{
   i2c_start();
   i2c_write(BMP085_ADDRESS);
   i2c_write(address);
   i2c_write(data);
   i2c_stop();
}


//----------------------------------------------
void bmp085Calibration()
//----------------------------------------------
{
   // read BMP085 EEPROM cal factors
   ac1 = bmp085ReadInt(0xAA); //read wrong value
   ac2 = bmp085ReadInt(0xAC);
   ac3 = bmp085ReadInt(0xAE);
   ac4 = bmp085ReadInt(0xB0);
   ac5 = bmp085ReadInt(0xB2);
   ac6 = bmp085ReadInt(0xB4);
   b1  = bmp085ReadInt(0xB6);
   b2  = bmp085ReadInt(0xB8);
   mb  = bmp085ReadInt(0xBA);
   mc  = bmp085ReadInt(0xBC);
   md  = bmp085ReadInt(0xBE);
   ac1 = bmp085ReadInt(0xAA); // read ac1 again. comes true value this time
   
   //fprintf(debug,"b1:%5Ld,b2:%5Ld,ac1:%5Ld,ac2:%5Ld,ac3:%5Ld,ac4:%5Ld,ac5:%5Ld,ac6:%5Ld,\r\n",b1,b2,ac1,ac2,ac3,ac4,ac5,ac6);
   //fprintf(debug,"mb:%5Ld,mc:%5Ld,md:%5Ld\r\n",mb,mc,md);

 
}


// Read the uncompensated temperature value
//----------------------------------------------
int16 BMP085ReadUT()
//----------------------------------------------
{
int16 ut;
 
  // Write 0x2E into Register 0xF4
  BMP085WriteByte(0xF4, 0x2E);
  delay_ms(5); // Wait at least 4.5ms
  // Read two bytes from registers 0xF6 and 0xF7
  ut = BMP085ReadInt(0xF6);
 
 
 
  return(ut);
}


// Read the uncompensated pressure value
//----------------------------------------------
int32 bmp085ReadUP()
//----------------------------------------------
{
int8 msb, lsb, xlsb;
int32 UP; 
  // Write 0x34+(OSS<<6) into register 0xF4
  // Request a pressure reading w/ oversampling setting
  BMP085WriteByte(0xF4, 0x34+(OVS_S<<6) );
 
  switch (OVS_S)
  {
     case 0: delay_ms(5);  break;
     case 1: delay_ms(8);  break;
     case 2: delay_ms(14); break;
     case 3: delay_ms(26); break;
  } 
     
      i2c_start();
      i2c_write(BMP085_ADDRESS);
      i2c_write(0xF6);
     
      i2c_start();
      i2c_write(BMP085_ADDRESS | 0x01);
     
      // Read register 0xF6 (MSB), 0xF7 (LSB), and 0xF8 (XLSB)
     
      msb = i2c_read();
      lsb = i2c_read();
      xlsb = i2c_read(0); // NACK on last read
      i2c_stop(); //*/
     
      UP = make32(0,msb,lsb,xlsb);
      UP >>=(8-OVS_S);
     

    //fprintf(debug,"UP:%5Lu,msb: %02x,lsb: %02x,xlsb: %02x\r\n",UP,msb,lsb,xlsb);
   
   return(UP);
}


//----------------------------------------------
signed int32 BMP085GetTemp(signed int32 ut)
//----------------------------------------------
{
signed int32 X1,X2, T;
   
   X1 = (ut - ac6)* ac5 / 32768;
   X2 = mc;
   X2 *= 2048;
   X2 /= (X1 + md);
   
   b5 = X1+X2;
   
   T = (b5+8)/16;
   
   //fprintf(debug,"X1:%5Ld,X2:%5Ld,mc:%5Ld,md:%5Ld,ut:%5Ld\r\n",X1,X2,mc,md,ut);
   
   return(T);
}   


//----------------------------------------------
int32 BMP085GetPressure(signed int32 up)
//----------------------------------------------
{
signed int32 B3,B6,X1,X2,X3,a;
signed int32 P;
int32 B4,B7,P2;
   
   switch (OVS_S)
  {
     case 0: a=1;  break;
     case 1: a=2;  break;
     case 2: a=4; break;
     case 3: a=8; break;
  } 
   
   //CCS C gives wrong values when shifting bits in signed integers
   //so, we need arithmetic operation for signed integer variables
   
   B6 = (signed int32)b5-4000;
   X1 = ((B6*B6)/4096)*b2/2048;
   X2 = B6*ac2 / 2048;
   X3 = X1 + X2;
   B3 = ((X3 +(ac1*4))*a + 2)/4; // sint32
   
   //fprintf(debug,"UP:%5Ld,X1:%5Ld,X2:%5Ld,X3:%5Ld,b5:%5Ld,B3:%5Ld,B6:%5Ld,\r\n",up,X1,X2,X3,(signed int32)b5,B3,B6);
   
   
   
   X1 = (ac3)*B6/8192;
   X2 = ((B6*B6)/4096)*b1/65536;
   X3 = (X1 + X2 + 2) / 4;
   B4 = (int32)(X3+32768)*(ac4)/32768;
   
   B7 = (int32)(up-B3);
   
   B7 *=50000>>OVS_S; //unsigned
   
   //fprintf(debug,"X1:%5Ld,X2:%5Ld,X3:%5Ld,B4:%5Lu,B7:%5Lu,\r\n",X1,X2,X3,B4,B7);
   //fprintf(debug,"b1:%5Ld,b2:%5Ld,ac1:%5Ld,ac2:%5Ld,ac3:%5Ld,ac4:%5Ld,\r\n",b1,b2,ac1,ac2,ac3,ac4);

   P2 = (B7/B4)<<1; //unsigned

   
   X1 = (P2>>8)*(P2>>8); //unsigned
   X1 = (X1*3038)>>16;   //unsigned
   P=P2;
   X2 = (-7357*P)/65536;
   
   //fprintf(debug,"X1:%5Ld,X2:%5Ld,p:%5Lu,\r\n",X1,X2,P2);
   
   P = P + (X1+X2+3791)/16;
   
   return(P);
}


//----------------------------------------------
float BMP085Pressure(boolean getTemp)
//----------------------------------------------
{
   if (getTemp)
      _Temp = BMP085GetTemp(BMP085ReadUT()); 
   return(BMP085GetPressure(BMP085ReadUP()));
}


//----------------------------------------------
float BMP085Temperature(void)
//----------------------------------------------
{
   _Temp = BMP085GetTemp(BMP085ReadUT());
   return(_Temp);
}
ajt



Joined: 07 Sep 2003
Posts: 110

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Re: integer library
PostPosted: Tue Jul 30, 2013 10:06 am     Reply with quote

lazuribicci wrote:

I have tested above library, but I cannot read pressure, however temperature seems good. I have researched step by step and I found faulty in calibration coefficient routine. First value, ac1, comes wrong. It should be 7000-8000 but it gives 12. So I read it again after md coefficient. It seems everything good.


This library has been successfully used for some time. Your "fix" for the ac1 coefficient error indicates a hardware problem in your setup or something in your other code that is causing the first read of the device to be in error. I suggest you find the root cause of the problem and fix that vs adding a second read as you have.

Thanks for the integer version of the library.
_________________
Al Testani
waynewy



Joined: 16 Sep 2013
Posts: 4
Location: United States

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PostPosted: Mon Sep 16, 2013 9:23 am     Reply with quote

Just a quick question, where did you get the i2c library in order to use i2c_start(), i2c_write(), etc?

Thanks!
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