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| examples | ||
| test | ||
| .arduino-ci.yml | ||
| I2C_ASDX.cpp | ||
| I2C_ASDX.h | ||
| keywords.txt | ||
| library.json | ||
| library.properties | ||
| LICENSE | ||
| README.md | ||
I2C_ASDX
Arduino library for I2C ASDX pressure sensor.
Description
The ASDX sensor of Honeywell exist in many variations. Check the datasheet of your type for all the details.
The I2C_ASDX library can read the sensor and give the pressure in millibar, bar or PSI or many other units. See below.
Related library: https://github.com/RobTillaart/pressure
Interface
Constructor
- I2C_ASDX(uint8_taddress, uint8_t psi, TwoWire *wire = &Wire) Constructor, I2C address and maximum pressure. Optional the wire interface can be defined.
- bool begin(uint8_t sda, uint8_t scl) I2C parameters for ESP32 a.o. Returns true if address can be found on I2C bus.
- bool begin() for UNO and other boards supporting Wire. Returns true if address can be found on I2C bus.
- void reset() resets internal variables, including pressure.
- bool isConnected() tests if address can be found on I2C bus.
- bool available() wrapper around isConnected. Obsolete in the future.
Read
Before any call to getPressure() one need to call read() unless one wants the last value read.
- int read() actually reads the sensor, checks for errors, calculates the pressure and set the lastRead timestamp. Returns I2C_ASDX_OK or an error code.
Units
- int getPressure() returns pressure (integer format) in milliBar, will return 0 after reset() and no read done.
- float getMilliBar() returns pressure in milliBar.
- float getBar() returns pressure in bar.
- float getPSI() returns pressure in PSI = Pounds per Square Inch.
- float getATM() returns pressure in Atmosphere.
- float getDynes() returns pressure in Dynes.
- float getInchHg() returns pressure in inches mercury.
- float getInchH2O() returns pressure in inches water.
- float getPascal() returns pressure in Pascal. Note this is the SI unit.
- float getTORR() returns pressure in TORR.
- float getCmHg() returns pressure in centimetre mercury.
- float getCmH2O() returns pressure in centimetre water.
- float getMSW() returns pressure in Meters of Sea Water. (under water pressure unit).
Related library: https://github.com/RobTillaart/pressure
State
- uint16_t errorCount() total counter for the number of errors occurred.
- uint32_t lastRead() time in milliseconds of last successful read of the sensor.
- int state() last known state of read, also returned by read()
| state | meaning |
|---|---|
| I2C_ASDX_OK | no error |
| I2C_ASDX_INIT | begin() not called |
| I2C_ASDX_READ_ERROR | I2C error |
| I2C_ASDX_C000_ERROR | sensor error |
| I2C_ASDX_CONNECT_ERROR | I2C error |
Testing
The library is tested with only 3 different sensors, all of the PG type.
Code is prepared but not tested for 15, 5 and 1 PSI too.
ID UNIT TYPE DESCRIPTION
output is proportional to difference
PG PSI Gage * between applied pressure and atmospheric pressure
MG mBar Gage * idem
BG Bar Gage * idem
KG KiloPascal Gage * idem
D Differential * between pressure applied to each of the ports.
A Absolute * between applied pressure and built-in reference to vacuum.
ADDRESS PRESSURE RANGE TYPE P A T V
0x58 100 psi 0..6895 mBar SSCDANN 100PG 5 A 5
0x38 60 psi 0..4137 mbar SSCDANN 060PG 3 A 5
0x28 30 psi 0..2068 mbar SSCDANN 030PG 2 A 5
P = pressure range
A = I2C address indicator
T = accuracy range
V = voltage (3 volt also supported, not tested)
That said it is expected that the library is modifiable to support many more as long as they have the following raw read values.
1638 = 0 PSI
14746 = max PSI
Testing
TESTED TYPES - type A 10% - 90% only
Operation
See examples
Future
- update documentation
- add real life examples if possible
- find a good reference for conversion formula constants.