This document explains how to set up the Sen5x sensor to run on a Raspberry Pi using the provided code.
- SEN50 (only particulate matter signals available)
- SEN54 (no NOx signal available)
- SEN55 (full feature set)
Your sensor has the five different connectors: VCC, GND, SDA, SCL, SEL (the sixth connector will not be used for now). Use the following pins to connect your SEN5x:
| SEN5x | Raspberry Pi | Jumper Wire |
|---|---|---|
| VCC | Pin 2 (5V) | Red |
| GND | Pin 6 | Black |
| SDA | Pin 3 | Green |
| SCL | Pin 5 | Yellow |
| SEL | Pin 9 (GND for I2C) | Blue |
| Pin | Name | Description | Comments |
|---|---|---|---|
| 1 | VCC | Supply Voltage | 5V ±10% |
| 2 | GND | Ground | |
| 3 | SDA | I2C: Serial data input / output | TTL 5V and LVTTL 3.3V compatible |
| 4 | SCL | I2C: Serial clock input | TTL 5V and LVTTL 3.3V compatible |
| 5 | SEL | Interface select | Pull to GND to select I2C |
| 6 | NC | Do not connect |
- Install the Raspberry Pi OS on to your Raspberry Pi
- Enable the I2C interface in the raspi-config
- Download the driver for the Sensirion Github Page and extract the
.zipon your Raspberry Pi - Compile the driver
-
Open a terminal
-
Navigate to the driver directory. E.g.
cd ~/raspberry-pi-i2c-sen5x -
Run the
makecommand to compile the driverOutput:
rm -f sen5x_i2c_example_usage cc -Os -Wall -fstrict-aliasing -Wstrict-aliasing=1 -Wsign-conversion -fPIC -I. -o sen5x_i2c_example_usage sen5x_i2c.h sen5x_i2c.c sensirion_i2c_hal.h sensirion_i2c.h sensirion_i2c.c \ sensirion_i2c_hal.c sensirion_config.h sensirion_common.h sensirion_common.c sen5x_i2c_example_usage.c
-
- Test your connected sensor
-
Run
./sen5x_i2c_example_usagein the same directory you used to compile the driver.Output:
Serial number: 213100019 Product name: Firmware: 1.0, Hardware: 4.0 Mass concentration pm1p0: 0.0 µg/m³ Mass concentration pm2p5: 0.0 µg/m³ Mass concentration pm4p0: 0.0 µg/m³ Mass concentration pm10p0: 0.0 µg/m³ Ambient humidity: 39.6 %RH Ambient temperature: 28.0 °C Voc index: 0.0 Nox index: 0.0 Mass concentration pm1p0: 0.0 µg/m³ Mass concentration pm2p5: 0.0 µg/m³ Mass concentration pm4p0: 0.0 µg/m³ Mass concentration pm10p0: 0.0 µg/m³ Ambient humidity: 39.2 %RH Ambient temperature: 30.1 °C Voc index: 0.0 Nox index: 0.0 ... -
Wait a few minutes until Voc/NOx index values are stable.
-
If the execution of make in the compilation step 3 fails with something like
-bash: make: command not found
your RaspberryPi likely does not have the build tools installed. Proceed as follows:
$ sudo apt-get update
$ sudo apt-get upgrade
$ sudo apt-get install build-essential
- Ensure that you connected the sensor correctly: All cables are fully plugged in and connected to the correct pin.
- Ensure that I2C is enabled on the Raspberry Pi. For this redo the steps on "Enable the I2C interface in the raspi-config" in the guide above.
- Ensure that your user account has read and write access to the I2C device.
If it only works with user root (
sudo ./sen5x_i2c_example_usage), it's typically due to wrong permission settings. See the next chapter how to solve this.
If your user is missing access to the I2C interface you should first verfiy
the user belongs to the i2c group.
$ groups
users input some other groups etc
If i2c is missing in the list add the user and restart the Raspberry Pi.
$ sudo adduser ${USER} i2c
Adding user `pi' to group `i2c' ...
Adding user pi to group i2c
Done.
$ sudo reboot
If that did not help you can make globally accessible hardware interfaces with a udev rule. Only do this if everything else failed and you are reasonably confident you are the only one having access to your Pi.
Go into the /etc/udev/rules.d folder and add a new file named
local.rules.
$ cd /etc/udev/rules.d/
$ sudo touch local.rules
Then add a single line ACTION=="add", KERNEL=="i2c-[0-1]*", MODE="0666"
to the file with your favorite editor.
$ sudo vi local.rules