Sensirion SCD30 is a CO², Humidity and Temperature sensor on a module. This is a I2C driver written in Python 3 for MicroPython.
- Sensirion SCD30 Sensor Module
- MicroPython board with I2C interface
Wire the I2C bus to the I2C bus on your MicroPython board. This is an example using the Pyboard D:
Pyboard | SCD30 |
---|---|
X15 (3V3) | VDD |
X14 (GND) | GND |
X9 | TX/SCL |
X10 | RX/SDA |
This example reads the measurements in a continous loop:
import time
from machine import I2C, Pin
from scd30 import SCD30
i2cbus = I2C(1)
scd30 = SCD30(i2c, 0x61)
while True:
# Wait for sensor data to be ready to read (by default every 2 seconds)
while scd30.get_status_ready() != 1:
time.sleep_ms(200)
scd30.read_measurement()
Note that the CO² sensor needs some time to stabilize. Therefor the sensor should be kept powered to achieve a reasonable measurement interval (e.g. <5 minutes). To save power the sensors measurement inverval can be tweaked. See also the Low Power Mode for SCD30 application note.
The CO² sensor has two modes of calibration: FRC (Forced Recalibration) or ASC (Automatic Self-Calibration). This only describes the former.
Essentially the sensor is already calibrated at factory. However, when setting a new measurement interval recalibration might be necessary. The process is to bring the sensor into a controlled environment (e.g. outside) and set the known value at that environment (e.g. 400ppm). From what I understand ASC does essentially the same, just assumes that the lowest values over a certain periode are "outside values"...
Also note that the temperature sensor suffers from heating effects on the PCB. When the sensor operates in 2 second interval the heating is about 3°C. I usually run the sensor at 30 seconds interval and observed a heating of 2°C. The offset is subtracted from the measured temperature! To set a new offset, take the old offset into account!
This project is licensed under the MIT License - see the LICENSE file for details