GY-63_MS5611/libraries/Cozir
2021-12-14 19:05:30 +01:00
..
.github/workflows 0.3.1 Cozir 2021-10-20 09:58:17 +02:00
examples 0.3.2 Cozir 2021-12-14 19:05:30 +01:00
test 0.3.2 Cozir 2021-12-14 19:05:30 +01:00
.arduino-ci.yml 0.3.1 Cozir 2021-10-20 09:58:17 +02:00
cozir.cpp 0.3.2 Cozir 2021-12-14 19:05:30 +01:00
cozir.h 0.3.2 Cozir 2021-12-14 19:05:30 +01:00
keywords.txt 0.3.0 Cozir 2021-08-15 19:38:45 +02:00
library.json 0.3.2 Cozir 2021-12-14 19:05:30 +01:00
library.properties 0.3.2 Cozir 2021-12-14 19:05:30 +01:00
LICENSE 0.3.2 Cozir 2021-12-14 19:05:30 +01:00
README.md 0.3.2 Cozir 2021-12-14 19:05:30 +01:00

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

Cozir

Arduino library for COZIR range of temperature, humidity and CO2 sensors.

Description

The Cozir library is experimental as I do not have a sensor to test the library. The polling mode as used in the examples seems to work quite well as this is tested by DirtGambit.

This library supports only the Serial interface. An I2C based library will be written when I have access to a Cozir sensor that supports I2C. Idea is to make the interface identical if possible.

Notes

  • the CozirDemoHWSerial.ino example needs to run on a MEGA or a Teensy, at least a board with more than one Serial port.
  • Read the datasheet before using this library. It helps to understand the working of the Cozir sensor.

Interface

Read the datasheet (again).

Constructor and initialisation

  • COZIR(Stream * str) constructor.
  • void init() sets operatingMode to CZR_POLLING.
  • bool isInitialized() returns true if enough time has passed after the call to init() for the sensor.

Operating mode

  • void setOperatingMode(uint8_t mode) set the operating mode either to CZR_COMMAND, CZR_POLLING or CZR_STREAMING
  • uint8_t getOperatingMode() returns the mode set, CZR_STREAMING is the default. Please note that init() sets the operating mode to CZR_POLLING.

Core

  • float celsius() idem.
  • float fahrenheit() idem, 'wrapper' around celsius()
  • float humidity() idem.
  • float light() idem.
  • uint32_t CO2() idem.
  • uint16_t getPPMFactor() returns 1, 10, 100 See Page 14.

Calibration

Read datasheet before using these functions:

  • uint16_t fineTuneZeroPoint(uint16_t v1, uint16_t v2)
  • uint16_t calibrateFreshAir()
  • uint16_t calibrateNitrogen()
  • uint16_t calibrateKnownGas(uint16_t value)

Following 3 functions are NOT RECOMMENDED by the datasheet. Feel free to uncomment and use at your own risk. Read datasheet before using these functions:

  • uint16_t calibrateManual(uint16_t value)
  • uint16_t setSpanCalibrate(uint16_t value)
  • uint16_t getSpanCalibrate()

Digifilter

use with care, read datasheet before use.

value meaning
0 Special, see datasheet page ...
1 fast, but can be noisy
32 default, good average
255 slow, max smoothed
  • void setDigiFilter(uint8_t value)
  • uint8_t getDigiFilter()

Streaming MODE

Warning: Not tested ,

  • void setOutputFields(uint16_t fields) Sets the fields in the output stream as a 16 bit mask. See table below.
  • void clearOutputFields() clears all the fields.
  • uint16_t getOutputFields() returns the 16 bit mask of set output fields.
  • bool inOutputFields(uint16_t field) returns true if the field is set.
  • void getRecentFields() After a call to getRecentFields() you must read the serial stream yourself. The internal buffer of this Class cannot handle the possible large output. Lines can be over 100 bytes long!

The fields must be set as a bit mask, the order of the fields in the output is undetermined. So one need to parse the output of the sensor carefully.

Field Value Notes
CZR_LIGHT 0x2000
CZR_HUMIDITY 0x1000
CZR_FILTLED 0x0800
CZR_RAWLED 0x0400
CZR_MAXLED 0x0200
CZR_ZEROPOINT 0x0100
CZR_RAWTEMP 0x0080
CZR_FILTTEMP 0x0040
CZR_FILTLEDSIGNAL 0x0020
CZR_RAWLEDSIGNAL 0x0010
CZR_SENSTEMP 0x0008
CZR_FILTCO2 0x0004
CZR_RAWCO2 0x0002
CZR_NONE 0x0001 reset
CZR_HTC 0x1082 shortcut
CZR_ALL 0x3FFE debug

EEPROM

Read datasheet Page 11-12 about the addresses and their meaning. Use with care.

In 0.3.0 the EEPROM function have been replaced by specific accessor functions. Read datasheet for the details.

  • void setAutoCalibrationPreload(uint16_t value)
  • uint16_t getAutoCalibrationPreload()
  • void setAutoCalibrationInterval(uint16_t value)
  • uint16_t getAutoCalibrationInterval()
  • void setAutoCalibrationOn()
  • void setAutoCalibrationOff()
  • bool getAutoCalibration()
  • void setAutoCalibrationBackgroundConcentration(uint16_t value)
  • uint16_t getAutoCalibrationBackgroundConcentration()
  • void setAmbientConcentration(uint16_t value)
  • uint16_t getAmbientConcentration()
  • void setBufferClearTime(uint16_t value)
  • uint16_t getBufferClearTime()

EEPROM addresses used by above functions.

Read datasheet for the details.

Name Address Default Notes
AHHI 0x00 ? reserved
ANLO 0x01 ? reserved
ANSOURCE 0x02 ? reserved
ACINITHI 0x03 87
ACINITLO 0x04 192
ACHI 0x05 94
ACLO 0x06 128
ACONOFF 0x07 0
ACPPMHI 0x08 1
ACPPMLO 0x09 194
AMBHI 0x0A 1
AMBLO 0x0B 194
BCHI 0x0C 0
BCLO 0x0D 8

Miscellaneous

  • void getVersionSerial() requests version over serial. The user should read (and parse) the serial output as it can become large. Also the user must reset the operating mode either to CZR_POLLING or CZR_STREAMING
  • void getConfiguration() requests configuration over serial. The user should read (and parse) the serial output as it can become large. Also the user must reset the operating mode either to CZR_POLLING or CZR_STREAMING

Future

  • improve documentation
  • test test test test and buy a sensor
  • add a setEEPROMFactoryDefault()?
  • example two Cozir sensors
  • example Cozir with I2C display?
  • build a Arduino COZIR simulator for testing.
    • add other sensors underneath?
    • ...
  • Cozir I2C class for newer generation ~ same functional interface
    • multiWire / pin a la PCF8574

Operation

See examples.

Test sensor

People who have a spare sensor for me, or are willing to run tests, please contact me.