I am working on ST Temperature sensor( hts221 ) , I use I2C command communication with sensor.

I see from the document like the following text.

enter code here Temperature data are expressed as TEMP_OUT_H & TEMP_OUT_L as 2’s complement numbers.

And the following picture is the description from document. enter image description here

And the Temperature data read from the sensor is like the following

TEMP_OUT_L is 0xA8

How to convert the value of TEMP_OUT_L and TEMP_OUT_H to the Temperature data ?

Thanks in advance ?

  • 2
    What have you tried? If you have the 2 bytes from I2C, you have already done the hard part. Rest is a simple bit shift and OR-operation. – user694733 Aug 15 '14 at 6:47
  • @squeamishossifrage I don't think direct pointer dereference works. OP mentions that he's reading over I2C. – user694733 Aug 15 '14 at 6:53
  • @user694733 Ah, missed that. – r3mainer Aug 15 '14 at 7:03
  • I hope there are more details... If not a glass of water with ice is at 0 Celsius or 32 Fahrenheit, what are your values.? – Serge Ballesta Aug 15 '14 at 7:10

By concatenating the bits in the two values, to form a single 16-bit value:

const temp_h = i2c_read_byte(TEMP_OUT_H);
const temp_l = i2c_read_byte(TEMP_OUT_L);
const uint16_t temp = (temp_h << 8) | temp_l;

This just assumes you have a function uint8_t i2c_read_byte(uint8_t address); that can be used to read out the two registers.

Of course, the next step would be to convert this raw binary number into an actual temperature in some proper unit (like degrees Celsius, or Kelvin). To do that, you need more information from the data sheet.

  • still, what's the scale? I feel like that should be documented somewhere. Is that vendor-specific? – John Dvorak Aug 15 '14 at 6:56

On page 6 of the datasheet it says:

Temperature sensitivity 0.016 °C/LSB

So here's what you need to do:

#define TEMP_SENSITIVITY 0.016f
#define TEMP_OFFSET      ???    /* Get this value from the datasheet. */

unsigned char tempOutH;
unsigned char tempOutL;

/* Here you get the values for tempOutH and tempOutL. */

uint16_t tempData = (tempOutH << 8) | tempOutL;
float    temp     = (tempData * TEMP_SENSITIVITY) + TEMP_OFFSET;  

So what you do is concatenate the two 8-bit high and low values. This gives you a single 16-bit value. Then you convert/scale that number between 0 and 65535 to the real temperature value.

I assumed that there must be an offset specified in the datasheet, because otherwise the temperature can only positive: between 0.0 and 65363 * 0.016. This offset will be a negative value. I leave it up to you to find this offset.

  • 1
    Also, on page 25 of the data sheet (st.com/st-web-ui/static/active/en/resource/technical/document/…) it flat out shows a worked out example using linear interpolation (y=mx+b) approach to converting the digital value to a temperature. Between this and the answer provided above, you have all the information you could need. – Cloud Aug 15 '14 at 12:19
  • Sorry...I am new to this , I have see the page 25 in data sheet. But I still understand how to converting the value to a temperature... – Martin Aug 29 '14 at 5:30
  • @Martin I have not time to sort this out fully for you. I'd suggest you read the data sheet very carefully (multiple times if needed) it should all be in there. HTH – meaning-matters Aug 29 '14 at 11:01

0xFF part of 0xFFA8 seems suspicious for me, probably the device is configured to work in 8-bit mode (if it's even possible) , on the page 24 of the datasheet it's said

T0 and T1 are the actual calibration temperature values multiplied by 8.

So 0xA8 divided by 8 gives: 31.25 - isn't it temperature around you currently?

  • Sorry...I didn't understand. How you convert the 0xA8 to 31.25 ? – Martin Aug 28 '14 at 11:01
  • 1
    simply divide 250(0xa8) by 8, so 250/8=31.25 – Ruslan Gerasimov Aug 28 '14 at 11:04

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