Kitronik
Kitronik Air Quality Datalogging Board for Pico
The Kitronik Smart Air Quality Board provides a complete air monitoring and datalogging solution for the Raspberry Pi Pico. With an onboard BME688 environmen...
The Kitronik Smart Air Quality Board provides a complete air monitoring and datalogging solution for the Raspberry Pi Pico. With an onboard BME688 environmental sensor, OLED display, real-time clock support, and MicroPython libraries, it's ready to measure temperature, pressure, humidity, air quality index, and estimated CO₂ levels right out of the box.
Data can be logged to the Pico's flash memory and displayed on the 128×64 OLED screen or via three RGB ZIP LEDs. Two user buttons, a piezo buzzer, and external connections for servos, motors, analogue sensors, and additional LEDs make this a versatile platform for environmental monitoring projects.
Key Features
- BME688 Sensor – Measures temperature, pressure, humidity, air quality index, and eCO₂
- 128×64 OLED Display – Black and white screen for real-time data visualisation
- 3× RGB ZIP LEDs – Visual status indicators with extension connector for more
- Piezo Buzzer – Audio alerts and notifications
- 2× User Buttons – Programmable input for menus and interaction
- Datalogging Ready – RTC support and Pico flash storage for timed data capture
- External Connections – 2× 1A outputs, servo output, analogue inputs (ADC), and additional GPIO breakout pads
- Flexible Power – 3× AA battery holder or terminal block (also supports solar cell with NiMH batteries)
Ideal For
- Indoor and outdoor air quality monitoring
- Environmental science experiments and datalogging
- STEM education and classroom projects
- Weather station builds
- Learning MicroPython with real sensor data
Package Contents
- 1× Kitronik Smart Air Quality Datalogging Board
- 1× 3× AA Battery Holder
Resources
Jargon buster
Plain-language definitions for the technical terms used above.
- ADC
- An analogue-to-digital converter reads a changing voltage and turns it into a number the microcontroller can use. It matters when connecting analogue sensors such as light, sound, or variable-resistor sensors.
- breakout
- A breakout is a small circuit board that makes a tiny or hard-to-solder component easier to connect to with standard pins. It matters because this OLED module can be wired into a microcontroller project without needing to solder directly to the display’s fine contacts.
- Flash memory
- Non-volatile memory that keeps stored data even when power is removed. In this sensor, it matters because enrolled fingerprint templates can remain saved after the project is turned off.
- GPIO
- General-purpose input/output pins are microcontroller pins you can set in software to read signals, switch devices on and off, or connect to peripherals. The number of GPIO pins matters because it limits how many buttons, LEDs, sensors, and other parts you can wire directly to the board.
- MicroPython
- A version of the Python programming language made to run on microcontrollers. It matters because it lets beginners write readable code to control LEDs, sensors, motors and displays without needing to start with lower-level languages.
- OLED
- OLED stands for organic light-emitting diode, a display type where each pixel produces its own light. It matters because OLED screens are thin, high-contrast and easy to read for small status displays, but they can be more sensitive to image burn-in than some other display types.
- RGB
- Short for red, green and blue, usually referring to an LED that can mix those three colours. It matters because controlling an RGB LED teaches how separate outputs combine to create different colours.
- RTC
- A Real-Time Clock keeps track of time even when the main processor is asleep or powered down, usually with a small backup battery. It matters for data logging and tracking projects that need accurate timestamps.
- servo
- A servo is a motor with built-in position control, usually told to move to a specific angle by a control signal. It matters when you need repeatable movement, such as steering, arms, flaps, or linkages, rather than continuous spinning.
- Terminal block
- A connector used to join wires together in a neat, removable, or serviceable way. For this product, it helps split one power input into several outputs without soldering.
Find this product in
Raspberry Pi
Sensors & Input
STEM & Education
