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GY-63_MS5611/libraries/MS5611
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rob tillaart 60badaffe6 0.3.6 MS5611
2022-01-16 10:03:30 +01:00
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.github/workflows 0.3.1 MS5611 2021-12-22 10:13:21 +01:00
examples 0.3.6 MS5611 2022-01-16 10:03:30 +01:00
test 0.3.2 MS5611 2021-12-24 12:14:45 +01:00
.arduino-ci.yml 0.3.1 MS5611 2021-12-22 10:13:21 +01:00
keywords.txt 0.3.6 MS5611 2022-01-16 10:03:30 +01:00
library.json 0.3.6 MS5611 2022-01-16 10:03:30 +01:00
library.properties 0.3.6 MS5611 2022-01-16 10:03:30 +01:00
LICENSE 0.3.1 MS5611 2021-12-22 10:13:21 +01:00
MS5611.cpp 0.3.6 MS5611 2022-01-16 10:03:30 +01:00
MS5611.h 0.3.6 MS5611 2022-01-16 10:03:30 +01:00
README.md 0.3.6 MS5611 2022-01-16 10:03:30 +01:00
todo.txt 0.1.8 Fix #109 incorrect constants 2018-07-05 12:35:56 +02:00

README.md

Arduino CI Arduino-lint JSON check License: MIT GitHub release

MS5611

Arduino library for MS5611 temperature and pressure sensor.

Description

The MS5611 is a high resolution temperature and pressure sensor a.k.a GY-63. The high resolution is made possible by oversampling many times.

The device address is 0x76 or 0x77 depending on the CSB/CSO pin.

This library only implements the I2C interface.

breakout

//
//  BREAKOUT  MS5611  aka  GY63 - see datasheet
//
//  SPI    I2C
//              +--------+
//  VCC    VCC  | o      |
//  GND    GND  | o      |
//         SCL  | o      |
//  SDI    SDA  | o      |
//  CSO         | o      |
//  SDO         | o L    |   L = led
//          PS  | o    O |   O = opening  PS = protocol select
//              +--------+
//
//  PS to VCC  ==>  I2C
//  PS to GND  ==>  SPI
//  CS to VCC  ==>  0x76
//  CS to GND  ==>  0x77
//

related libraries

For pressure conversions see - https://github.com/RobTillaart/pressure

For temperature conversions see - https://github.com/RobTillaart/Temperature

Release Notes

0.3.0 breaking change

  1. fixed math error so previous versions are obsolete.
  2. temperature is a float expressed in degrees Celsius.
  3. pressure is a float expressed in mBar.

0.3.5 NANO 33 BLE

The I2C/Wire library of the NANO 33 BLE does not see the device on the I2C bus. After hours of testing it looks like that the I2C/Wire library of the NANO 33 BLE does not handle isConnected() like other platforms do. Adding a wire->write(0x00) in isConnected() fixes the problem, however more investigation is needed to understand the root cause.

0.3.6

The write(0) in isConnected() is made conditional explicit for the NANO 33 BLE.

The timing for convert is adjusted from TYPICAL to MAX - datasheet page 3.

Interface

Base

  • MS5611(uint8_t deviceAddress) constructor.
  • bool begin(uint8_t sda, uint8_t scl, TwoWire *wire = &Wire) for ESP and alike, optionally set Wire interface. initializes internals,
  • bool begin(TwoWire *wire = &Wire) for UNO and alike, optionally set Wire interface. Initializes internals.
  • bool isConnected() checks availability of device address on the I2C bus. (see note above NANO 33 BLE).
  • reset() resets the chip and loads constants from its ROM.
  • int read(uint8_t bits) the actual reading of the sensor. Number of bits determines the oversampling factor. Returns MS5611_READ_OK upon success.
  • int read() wraps the read() above, uses the preset oversampling (see below). Returns MS5611_READ_OK upon success.
  • float getTemperature() returns temperature in °C. Subsequent calls will return the same value until a new read() is called.
  • float getPressure() pressure is in mBar. Subsequent calls will return the same value until a new read() is called.

Oversampling

  • void setOversampling(osr_t samplingRate) sets the amount of oversampling. See table below and test example how to use.
  • osr_t getOversampling() returns amount of oversampling.

Some numbers from datasheet, page 3 MAX column rounded up. (see #23) (actual read time differs - see performance sketch)

definition value oversampling ratio resolution (mbar) time (us) notes
OSR_ULTRA_HIGH 12 4096 0.012 9100
OSR_HIGH 11 2048 0.018 4600
OSR_STANDARD 10 1024 0.027 2300
OSR_LOW 9 512 0.042 1200
OSR_ULTRA_LOW 8 256 0.065 600 Default = backwards compatible

Offset

The offset functions are added (0.3.6) to calibrate the sensor against e.g. a local weather station. This calibration can only be done runtime.

  • void setPressureOffset(float offset = 0) Set an offset to calibrate the pressure. Can be used to get the pressure relative to e.g. 1 Atm. Set the offset to -1013 HPa/mBar and you get a sort of relative pressure. Default the offset is set to 0.
  • float getPressureOffset() returns the current pressure offset.
  • void setTemperatureOffset(float offset = 0) Set an offset to calibrate the temperature. Can be used to get the temperature in degrees Kelvin, just set the offset to +273.15. Default the offset is set to 0.
  • float getTemperatureOffset() returns the current temperature offset.

Misc

  • int getLastResult() checks last I2C communication. Replace with more informative error handling?
  • uint32_t lastRead() last time when read() was called in milliseconds since startup.

Operation

See examples

Future

  • update documentation
    • separate release notes?
  • create a SPI based library (same base class if possible?)
    • first get this lib working 100%
  • proper error handling
  • redo lower level functions?
  • handle the read + math of temperature first?