OpenCO2 Sensor is an Arduino IDE compatible Repository for an E-Ink Indoor air quality Sensor using the ESP32, SCD4X and an RGB LED.
Buy it here on Tindie
Especially in winter, when windows are closed, a reminder to ventilate regularly is useful for health, comfort and well-being. Poor indoor air quality can lead to decreased productivity and learning disabilities. Therefore, I developed an Open-source ESP32 project that uses an E-Ink display and a LED to show the indoor CO2 content. Take the small Sensor anywhere you go to monitor the Air Quality, with Battery life of 11+ days.
With the SCD40, Sensirion offers a completely new miniaturized CO2 sensor based on the photoacoustic sensor principle. The integrated, industry-leading humidity and temperature sensor offers high accuracy with low power consumption.
- Automatic self-calibration ensures the highest long-term stability
- CO2 output range: 400 ppm – 40'000 ppm
- Accuracy:
- CO2 ±(50ppm + 5% of reading)
- Temperature ±0.8°C
- Humidity ±6%
1.54" in size with a very high resolution (200x200 Pixel). Enables low power consumption and wide viewing angle. Per partial refresh, readings are updated every five seconds (every 30 seconds in battery mode).
For displaying the air quality as a traffic light (green, yellow, red, magenta). Brightness and color are adjustable via software.
Size: 4.7 x 4.1 x 2.4 cm
Press the Menu button on the backside of the OpenCO2 Sensor. Select an option via long press (1+ sec) or move to next menu point via a short press. Choose between:
LED
control color, brightness and when the LED should be enabledDisplay
can be inverted. Also change the Temperature unit, language and fontCalibrate
put the sensor outside for 3+ minutes (only run this, if calibration is needed)History
display up to 24h of CO2, temperature and humidity as a graph. Values can also be exported via QR codes containing 1h of CO2 measurements each.Wi-Fi
enable or disable wireless connectionsInfo
shows MAC Address, serial numbers, uptime, version and battery detailsRainbow
fun little easter egg
Enable Wi-Fi via the Menu button. When power is connected, an access point OpenCO2 Sensor
is enabled. Connect to it and navigate to http://192.168.4.1 (it will open automatically on modern Smartphones). Insert your home Wi-Fi credentials under Configure WiFi
. Choose your network name from the list in the top and insert the password. Click Save
. The sensor will now be automatically connected. Navigate to IP:9925 to see current co2/temperature/humidity measurements.
Connect the sensor to your Wi-Fi network and find out the IP of the sensor in your home network via the ui of your router or on the sensor itself via the button under Menu -> Info .
curl [IP]:9925/metrics
Result:
# HELP rco2 CO2 value, in ppm
# TYPE rco2 gauge
rco2{id="Open CO2 Sensor",mac="7C:DF:A1:96:B9:72"}571
# HELP atmp Temperature, in degrees Celsius
# TYPE atmp gauge
atmp{id="Open CO2 Sensor",mac="7C:DF:A1:96:B9:72"}25.37
# HELP rhum Relative humidity, in percent
# TYPE rhum gauge
rhum{id="Open CO2 Sensor",mac="7C:DF:A1:96:B9:72"}55.15
Use internet-pi to store the CO2 / Temperature / Humidity data on your Pi. First connect the OpenCO2 Sensor to your Wi-Fi network and follow the instructions https://www.youtube.com/watch?v=Cmr5VNALRAg Then download the https://raw.githubusercontent.com/davidkreidler/OpenCO2_Sensor/main/grafana_OpenCO2_Sensor.json and import it into Grafana.
- Download
FIRMWARE.BIN
from the latest release - Plug a data USB-C cable into your PC and the Sensor
- copy
FIRMWARE.BIN
to the USB device
Download FIRMWARE.BIN
from the latest release.
Enable Wi-Fi via the Menu button, in an area where no previously known network is active. Connect power. Then connect to OpenCO2 Sensor
and navigate to http://192.168.4.1 . Under Update
select the FIRMWARE.BIN
file and click Update
. The Sensor will restart.
- Download all files from the latest release
- Make sure, that the power switch is in the
ON
position (down) - Plug a data USB-C cable into your PC and the Sensor
- Hold the Button on the backside of the CO2 Sensor near the USB-C port and shortly push simultaneously the reset ↪️ Button
- In Device Manager under
Ports (COM & LPT)
find the COM number and modify it inupdate.bat
- Run
update.bat
- Afterwards push the reset ↪️ Button
- Copy the esp32-waveshare-epd Folder to your
Arduino/libraries/
- Install the ESP32 support for Arduino IDE
- Choose
ESP32S2 Dev Module
underTools -> Board -> esp32
- Connect the Sensor as described in step "Update to the latest release" and choose the new Port under
Tools -> Boards -> Port