GY-63_MS5611/libraries/CHT8305
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examples 0.2.1 CHT8305 2024-01-30 15:19:59 +01:00
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.arduino-ci.yml 0.1.5 CHT8305 2022-10-29 18:55:26 +02:00
CHANGELOG.md 0.2.1 CHT8305 2024-01-30 15:19:59 +01:00
CHT8305.cpp 0.2.1 CHT8305 2024-01-30 15:19:59 +01:00
CHT8305.h 0.2.1 CHT8305 2024-01-30 15:19:59 +01:00
keywords.txt 0.2.0 CHT8305 2023-12-05 20:46:08 +01:00
library.json 0.2.1 CHT8305 2024-01-30 15:19:59 +01:00
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LICENSE 0.2.1 CHT8305 2024-01-30 15:19:59 +01:00
README.md 0.2.1 CHT8305 2024-01-30 15:19:59 +01:00

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License: MIT GitHub release PlatformIO Registry

CHT8305

Arduino library for CHT8305 temperature and humidity sensor.

EXPERIMENTAL minimal tested.

If you are able to test this library, please let me know your experiences.

Description

The CHT8305 is a temperature and humidity sensor.

sensor range accuracy* resolution
temperature -40°..125° max 2°C 0.1° C
humidity 0%..100% RH max 5% RH 0.1% RH

* Accuracy for full range. More exact details for smaller ranges, see datasheet (page 8).

One of the interesting functions is the support of an ALERT function. This prevents the need for continuous polling of the sensor.

0.2.0 Breaking change

Version 0.2.0 introduced a breaking change. You cannot set the pins in begin() any more. This reduces the dependency of processor dependent Wire implementations. The user has to call Wire.begin() and can optionally set the Wire pins before calling begin().

Moved the address parameter from begin() to constructor.

Tests

  • Temperature and humidity functions works on AVR.
    • default about 14 milliseconds at 14 bit resolution.
  • offset functions work.
  • getVoltage() function works on AVR but meaning unclear.
  • getManufacturer(), getVersionID() works on AVR.

The ALERT functions are not tested. The reason is that the sensor I have does not expose the ALERT pin.

If you are able to test the ALERT functions, please let me know your experiences.

Hardware

Always check datasheet for connections.

//
//             +---------------+
//     VCC ----| VCC           |
//     SDA ----| SDA  CHT8305  |
//     GND ----| GND           |
//     SCL ----| SCL           |
//      ?  ----| AD0           |   ? depends on address see table below.
//             |               |
//     IRQ ----| ALERT         |   only if enabled.
//             +---------------+
//
//  check datasheet
//  VCC     RED
//  GND     BLACK
//  SDA     YELLOW
//  SCL     WHITE

Pull ups are needed on SDA, SCL and optional to ALERT.

Alert

The CHT8305 has an ALERT logic output pin with an open drain structure. This output is active low. (if the breakout supports this.)

I2C

performance

I2C bus speeds is supported up to 400 KHz.

Addresses

AD0 Address Notes
GND 0x40 CHT8305_DEFAULT_ADDRESS
VCC 0x41
SDA 0x42
SCL 0x43

Pull ups are needed on SDA, SCL and optional to ALERT.

I2C multiplexing

Sometimes you need to control more devices than possible with the default address range the device provides. This is possible with an I2C multiplexer e.g. TCA9548 which creates up to eight channels (think of it as I2C subnets) which can use the complete address range of the device.

Drawback of using a multiplexer is that it takes more administration in your code e.g. which device is on which channel. This will slow down the access, which must be taken into account when deciding which devices are on which channel. Also note that switching between channels will slow down other devices too if they are behind the multiplexer.

Interface

#include "CHT8305.h"

Constructor

  • CHT8305(const uint8_t address = CHT8305_DEFAULT_ADDRESS, TwoWire *wire = &Wire) Constructor with default address (0x40) and I2C bus.
  • int begin() initializes internals. Returns error status.
  • bool isConnected() checks if address (default 0x40) can be seen on the I2C bus.

Core

  • int read() reads both the temperature and humidity. Can be called once per second.
  • int readTemperature() read only temperature (slightly faster than read)
  • int readHumidity() read only humidity (slightly faster than read)
  • uint32_t lastRead() returns lastRead in MilliSeconds since start sketch. Useful to check when it is time to call read() again, or for logging.
  • float getHumidity() returns last humidity read. Will return the same value until read() or readTemperature() is called again.
  • float getTemperature() returns last temperature read. Will return the same value until read() or readHumidity() is called again.

Note: read(), readTemperature() and readHumidity() blocks each other, so you can call only one of them every second.

Conversion delay

  • void setConversionDelay(uint8_t cd = 14) default is 14 milliseconds (datasheet). 7 ms failed. 8 ms worked, so values below 8 are mapped to 8 in the library. Expect 10 ms is pretty save. Use at own risk. It might be that lower resolutions allow shorter delays. This is not tested.
  • uint8_t getConversionDelay() returns set value.

Offset

Adding offsets works well in the "normal range" but might introduce under- or overflow at the ends of the sensor range. These are not handled for temperature by the library (humidity since 0.1.7).

  • void setHumidityOffset(float offset) idem.
  • void setTemperatureOffset(float offset) idem.
  • float getHumidityOffset() idem.
  • float getTemperatureOffset() idem.

If the offset is not the same over the operational range, consider a mapping function for temperature and humidity. e.g. https://github.com/RobTillaart/MultiMap

Configuration register

Check the datasheet for details of the register bits.

  • void setConfigRegister(uint16_t bitmask) idem. Default value 0x1004.
  • uint16_t getConfigRegister() idem.
bit mask name description
15 0x8000 soft reset 1 = reboot the sensor to default
14 0x4000 clock stretch 1 = ON, 0 = OFF (default)
13 0x2000 heater 1 = ON, 0 = OFF (default)
12 0x1000 mode 1 = read both (default), 0 = read T or RH
11 0x0800 vccs 1 = >2.8V, 0 = <2.8V
10 0x0400 T-RES 1 = 11 bit, 0 = 14 bit (default)
9-8 0x0300 H-RES 10 = 8 bit, 01 = 11 bit, 00 = 14 bit (default)
7-6 0x00C0 ALTM Alert Mode (datasheet)
5 0x0020 APS Alert pending status
4 0x0010 H-ALT Humidity Alert status
3 0x0008 T-ALT Temperature Alert status
2 0x0004 VCC enable 1 = enable VCC measurement (default), 0 = disable
1-0 0x0003 reserved. do not change.

Getters / setters configuration register

Note: setting setConfigRegister(bitmask) can be faster.

Wrapper functions for easy configuration.

  • void softReset() sets the soft reset bit in the configuration, causing the sensor to reset.
  • void setI2CClockStretch(bool on = false) check datasheet.
  • bool getI2CClockStretch() check datasheet.
  • void setHeaterOn(bool on = false) switch on internal heater. Can improve humidity readings. See datasheet for (limited) details.
    • WARNING User is responsible for timing as library does not support timing.
  • bool getHeater() Returns status of the heater.
  • void setMeasurementMode(bool both = true) both T and H or single value.
  • bool getMeasurementMode() returns mode set above.
  • bool getVCCstatus() 1 == > 2.8V 0 == < 2.8V Useful when battery operated?
  • void setTemperatureResolution(uint8_t res = 0) 1 = 11 bit, 0 = 14 bit (default).
  • uint8_t getTemperatureResolution() idem.
  • void setHumidityResolution(uint8_t res = 0) 2 = 8 bit, 1 = 11 bit, 0 = 14 bit (default).
  • uint8_t getHumidityResolution() idem.
  • void setVCCenable(bool enable = false) idem.
  • bool getVCCenable() idem.

Alert

See register 3 datasheet page 12 for details.

  • void setAlertTriggerMode(uint8_t mode) see table below.
  • uint8_t getAlertTriggerMode() returns 0, 1, 2 or 3.
mode trigger notes
0 T or H default
1 T
2 H
3 T and H
  • bool getAlertPendingStatus() idem.
  • bool getAlertHumidityStatus() idem.
  • bool getAlertTemperatureStatus() idem.
  • bool setAlertLevels(float temperature, float humidity)
    • the values will be truncated to the nearest value possible.
    • the ALERT supports HIGH limit only ==> there is no LOW limit ALERT.
    • note: the datasheet is ambiguous with respect to the formula used.
  • float getAlertLevelTemperature() returns the truncated value set.
  • float getAlertLevelHumidity() returns the truncated value set.

The ALERT pin triggers with a falling edge (from HIGH to LOW).

Voltage

VCC measurement should be enabled by means of void setVCCenable(true) or by setConfigRegister(0x0004).

  • float getVoltage() unclear what unit is used.

Best guess for now: 16 bit data implies voltage = 5.0V * value / 32768.0; Varied slightly 5.000 - 4.999 also for 3V3 power supply.

Conclusion: it is unclear how to interpret this register.

Meta data

  • uint16_t getManufacturer() returns 0x5959.
  • uint16_t getVersionID() return value may differ. Test returned 0x8305.

Register map

See datasheet page 10 for details

Address Register name
0x00 CHT8305_REG_TEMPERATURE
0x01 CHT8305_REG_HUMIDITY
0x02 CHT8305_REG_CONFIG
0x03 CHT8305_REG_ALERT
0x04 CHT8305_REG_VOLTAGE
0xFE CHT8305_REG_MANUFACTURER
0xFF CHT8305_REG_VERSION

Future

Must

  • elaborate documentation.
  • more testing (platforms)

Should

  • test ESP32, other platforms?
  • test performance.
  • test resolution bits.
    • delay ?
  • test configuration functions.
  • test ALERT functions.
  • test write / readRegister with a single uint16_t to simplify code.

Could

  • parameter testing
  • parameter defaults?

Wont

Support

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Thank you,