RASPBERRY PI HATS & EXPANSION BOARDS

Raspberry Pi AI HAT+ 2 is a powerful add-on designed to bring real-time artificial intelligence and machine learning capabilities to Raspberry Pi projects. Built specifically for the Raspberry Pi 5, this HAT+ integrates a dedicated neural network accelerator, allowing complex AI workloads to run efficiently on the edge—without relying on cloud processing.

Ideal for education, prototyping, and embedded applications, the AI HAT+ 2 enables fast inference for computer vision, object detection, audio analysis, and other ML tasks while keeping power consumption low. It connects via the Raspberry Pi 5’s PCIe interface, delivering significantly higher performance than USB-based AI accelerators.

Designed with ease of use in mind, the Raspberry Pi AI HAT+ 2 supports popular AI frameworks and works seamlessly with Raspberry Pi OS, making it accessible for students, educators, and developers exploring AI at the edge.

Dedicated neural network accelerator for fast, efficient AI inference

Optimised for Raspberry Pi 5 via high-speed PCIe connection

Ideal for computer vision, image recognition, and edge AI projects

Low-power design suitable for continuous operation

Supports common AI and machine learning frameworks

HAT+ form factor for reliable fit and compatibility

The Raspberry Pi AI HAT+ 2 is an excellent choice for anyone looking to take Raspberry Pi projects beyond traditional computing and into real-time, on-device AI.

Take your Raspberry Pi 5 to the next level with the Raspberry Pi M.2 HAT+ (Compact) — a streamlined adapter that lets you connect M.2 devices (like NVMe SSDs or even AI accelerators) via the Pi’s built-in PCIe interface. This compact version preserves space and lets you maintain a sleek setup while unlocking high-speed storage and peripheral options.

The Raspberry Pi Power over Ethernet HAT is a small accessory for the Raspberry Pi computer. It can only be used with the Raspberry Pi 4 Model B (launched June 2019) and the Raspberry Pi 3 Model B+ (launched March 2018). The PoE HAT allows you to power your Raspberry Pi using Power over Ethernet–enabled networks; for this product to be used, the network it is connected to needs to have power-sourcing equipment installed.

Supplied with this product:

Raspberry Pi PoE HAT

Mechanical spacers

Other hardware needed:

A Raspberry Pi 4 Model B or Raspberry Pi 3 Model B+

An Ethernet cable

Power-sourcing equipment for a 802.3af Power over Ethernet network

Make the Raspberry Pi Pico the core of your new buggy project with the Kitronik Compact Motor Driver Board for Raspberry Pi Pico.

This board allows the Raspberry Pi Pico (connected via pin header) to drive two motors simultaneously with full forward, reverse & stop control, making it ideal for Pico-controlled buggy projects. Alternatively, the board can be used to power a stepper motor. The board features the DRV8833 motor driver IC, which has built-in short circuit, over current and thermal protection. Please note, when used with a stepper motor, half-stepping is supported - but not micro-stepping.

The board has 4 external connections to GPIO pins and a 3V and GND supply from the Pico. This allows for additional IO options for your buggy builds that can be read or controlled by the Pico. In addition, there is an on/off switch and power status LED, allowing you to see at a glance if the board is powered up and save your batteries when your project is not in use.

To use the motor driver board, the Pico should have a soldered pin header and be inserted firmly into the connector. The board produces a regulated supply that is fed into the 40-way connector to power the Pico, removing the need to power the Pico directly. The motor driver board is powered via either screw terminals or a servo-style connector.

Note Due to the additional current draw of a Pico W's wireless features it is not recommended to use the wireless functionality with this board. The Pico's W standard functionality will work as normal only the wireless functions are affected.

Features:

A compact yet feature-packed board designed to sit at the heart of your Raspberry Pi Pico robot buggy projects.

The board can drive 2 motors simultaneously with full forward, reverse, and stop control.

It features the DRV8833 motor driver IC, which has built-in short circuit, over current and thermal protection.

Additionally, the board features an on/off switch and power status LED.

Power the board via a terminal block-style connector.

The 3V and GND pins are also broken out, allowing external devices to be powered.

Code it with MicroPython via an editor such as the Thonny editor.

When used with a stepper motor, half-stepping is supported - but not micro-stepping.

Dimensions:

Length: 63mm.

Width: 35mm.

Height: 11.6mm.

PCB Thickness: 1.6mm

Mounting Holes (Diameter): 3mm.

Compatible with:

Raspberry Pi Pico

Make the RiPi Pico the brains of your next robotics project with the Kitronik Simply Servos for Raspberry Pi Pico.

The compact Simply Servo board for Raspberry Pi Pico allows for up to 8 servos to be controlled simultaneously, making it ideal for advanced robotics projects with the RiPi Pico. The board should be used with a Pico that has soldered pin headers, the Pico can then slot straight into the board. A Pico with pin headers already attached can be obtained separately here. The board features standard 3-pin servo connectors which allow for servos to be plugged straight in without the need for adaptors or soldering.

As well as supporting 8 servos, the board also features 5 external connections to GPIO pins and a 3V and GND supply from the Pico. This IO breakout the 3 ADC pins and GP0 and GP1. This allows additional IO to be connected to the board and the state of these can then be read or controlled by the Pico.

Power is provided via a terminal block connector, the supply is then controlled by an on/off power switch to the board. There is a green power LED to indicate when the board is turned on. The board produces a regulated 3V supply that is fed into the 40-way connector to power the Pico, removing the need to power the Pico directly. The board's power connections are reverse polarity protected.

Note: This board is capable of continuous use at high currents. During such use, it may become hot. Also due to the additional current draw of a Pico W's wireless features it is not recommended to use the wireless functionality with this board. The Pico's W standard functionality will work as normal only the wireless functions are affected.

Features:

Control up 8 servos simultaneously with the Raspberry Pi Pico.

Ample IO for advanced robotics projects.

The board features standard 3 pin servo connectors.

The board also features 5 external connections to GPIO pins and a 3V and GND supply from the Pico. These IO breakout the 3 ADC pins and GP0 and GP1.

The board features a terminal block power input connector, with on/off switch and power status LED.

The board will power all of the attached servos and provide the attached Pico with a regulated 3V supply.

Additionally, there is built-in reverse polarity protection.

Kitronik has developed a MicroPython module & sample code.

Compatible with:

Raspberry Pi Pico

Add super-fast storage to your Raspberry Pi 5 allowing for lightning fast boots, NAS use, and snappy applications! NVMe Base is a PCIe extension board for Raspberry Pi 5. Simply populate it with an M-key NVMe SSD (2230 to 2280 sizes supported) and mount it under your Pi for a compact and fast storage solution - It even comes with rubber feet!

It's the perfect solution for turning your Raspberry Pi 5 into a file server, media centre, reverse proxy, etc. - really any task that benefits from large amounts of fast storage, especially with random high operations per second (IOPS) workloads. In short it's a game changer!

NVMe base follows the new "PIP" design guidelines provided by Raspberry Pi ensuring that it will be easy to use and be supported long term by updates to Raspberry Pi OS - though it is very early days and things are improving rapidly there!

Base Kit

NVMe Base PCB with M.2 Slot (M-Key)

'PCIe Pipe' Flat Flex Cable

4x Rubber feet

M2 bolt and 2x nuts for SSD mounting

4x 7mm M2.5 standoffs for base mounting

8x short M2.5 bolts for base mounting

4x long M2.5 bolts for 'pass-thru' mounting with a HAT

Compatible with:

Raspberry Pi 5

SSD card for use is the Verbatim Vi3000 PCIe NVMe M.2 SSD 256GB

Expand your Raspberry Pi 5’s storage and performance with the Pimoroni NVMe Base Duo. This clever add-on lets you connect two M.2 NVMe SSDs to your Pi 5 for fast, reliable data access—ideal for advanced projects and servers.

The Pimoroni NVMe Base Duo is a high-performance add-on board designed exclusively for the Raspberry Pi 5. It connects via the Pi 5’s PCIe FPC connector, enabling direct, high-speed NVMe SSD storage. With support for two M.2 NVMe drives, you can easily expand storage capacity, improve data throughput, or set up mirrored configurations for resilience.

A built-in power management circuit and efficient thermal design ensure stable operation, even under sustained load. The board mounts neatly underneath your Raspberry Pi 5 using supplied hardware, keeping your setup compact and tidy.

Perfect for:

File and media servers

Databases or network storage

AI and data-logging applications

Fast-boot Raspberry Pi desktops

A low-energy, high-falutin, electronic paper (ePaper / eInk / EPD) display for your Pi, in black/white!

Inky pHAT's beautiful, high contrast display is ideal for displaying simple graphics and crisply-rendered text and, because it's like paper, it's readable in bright sunlight. You could use Inky pHAT as a cute little clock, display tweets on it, the weather, news headlines, sports scores, and more. It's also ideal for graphing data from remote sensors, CPU load or temperature, or stock prices.

Features:

2.13" EPD display

Inky pHAT pinout

Compatible with all 40-pin header Raspberry Pi models

Python library

Comes fully assembled

Compatible with:

Raspberry Pi 5

Raspberry Pi 4

Raspberry Pi Zero(but needs Male 40-pin 2x20 HAT Header for Pi Zero)

Keep track of your surroundings using Enviro for Raspberry Pi! Equipped with a variety of advanced environmental sensors, these boards feature a beautiful full-color LCD screen to showcase your data. They offer an ideal introduction to citizen science and environmental monitoring!

Enviro is designed for indoor monitoring, letting you measure temperature, pressure, humidity, light, and noise level. It's great for keeping tabs on what's going on in rooms in your house, office, or elsewhere. Push the data to server and you can view the data remotely from anywhere.

BME280 temperature, pressure, humidity sensor (datasheet)

LTR-559 light and proximity sensor (datasheet)

MEMS microphone (datasheet)

0.96" colour LCD (160x80)

Pimoroni breakout-compatible pin header

pHAT-format board

Fully-assembled

Compatible with all 40-pin header Raspberry Pi models

Python library

Dimensions: 65x30x8.5mm

Compatible with:

Raspberry Pi 5

Raspberry Pi 4

Raspberry Pi Zero (but needs Male 40-pin 2x20 HAT Header for Pi Zero)

The Raspberry Pi Sense HAT gives your Raspberry Pi an array of sensing capabilities. The on-board sensors allow you to monitor pressure, humidity, temperature, colour, orientation, and movement. The bright 8x8 RGB LED matrix allows you to visualise data from the sensors, and the five-button joystick lets users interact with your projects.

The Sense HAT was originally developed for use on the International Space Station, as part of the educational Astro Pi programme run by the Raspberry Pi Foundation in partnership with the European Space Agency. It is well suited to many projects that require position, motion, orientation, or environmental sensing. The Sense HAT is powered by the Raspberry Pi computer to which it is connected.

An officially supported Python library gives you easy access to all on-board sensors, the LED matrix, and the joystick. The Sense HAT is compatible with any Raspberry Pi model featuring a 40-pin GPIO header.

The sensors enable you to read:

Gyroscope

Accelerometer

Magnetometer

Temperature

Barometric pressure

Humidity

Colour and brightness

Documents:

Sense HAT Product Brief

Compatible with:

Raspberry Pi 4

Raspberry Pi 5

Raspberry Pi Zero

Unlock a world of possibilities with the Raspberry Pi Pimoroni Explorer's Hat Pro for 40 Pin. Seamlessly integrate sensors, buttons, and LEDs into your Raspberry Pi projects, transforming them into interactive experiences. Whether you're building robots, IoT devices, or custom interfaces, this Hat delivers unparalleled control and functionality. Its compact form factor and easy-to-use design make it the ideal choice for makers of all skill levels. Elevate your Raspberry Pi projects with the Pimoroni Explorer's Hat Pro and explore the endless potential of your creations.

Four buffered 5V tolerant inputs (perfect for Arduino compatibility)

Four powered 5V outputs (up to 500mA total across all four channels)

Four capacitive touch pads (labelled 1, 2, 3, 4)

Four capacitive crocodile clip pads (labelled 5, 6, 7, 8)

Four coloured LEDs (red, green, blue, and yellow)

Four analog inputs

Two H-bridge motor drivers (up to 200mA per channel; soft PWM control)

A heap of useful (unprotected) 3v3 goodies from the GPIO

A mini breadboard on top!

Explorer HAT Pro pinout

Compatible with all 40-pin header Raspberry Pi models/li>

Python library

Comes fully assembled

Notes

The inputs use a 5-channel buffer that will accept anything from 2V-5V as logic high

Mini breadboard had 170 points, 17x5 per half of the breadboard

Compatible with:

Raspberry Pi 4

Raspberry Pi 5

Raspberry Pi Zero(but needs Male 40-pin 2x20 HAT Header for Pi Zero)

The Pimoroni Enviro+ Air Quality for Raspberry Pi is a powerful environmental monitoring add-on that allows students to measure and analyse air quality and environmental conditions using real sensor data. Designed to work seamlessly with Raspberry Pi, this board is ideal for STEM education, data science projects, and real-world environmental investigations.

Enviro+ combines multiple sensors to measure air quality (gas), temperature, humidity, atmospheric pressure, light, and noise levels, making it perfect for projects exploring indoor environments, pollution, climate, and sustainability. Students can collect, visualise, and log data using Python, supporting skills in coding, data analysis, and scientific enquiry.

This board is particularly well suited to project-based learning, including long-term monitoring in classrooms, homes, or outdoor enclosures, and aligns strongly with environmental themes in computing, science, and geography curricula.

Key features:

Environmental sensing add-on for Raspberry Pi

Measures air quality, temperature, humidity, pressure, light and noise

Ideal for STEM, computing, science and environmental monitoring projects

Supports Python programming

Compact format suitable for classroom and student projects

Bring music and sound projects to life with the Pimoroni Pirate Audio Headphone Amp for Raspberry Pi. This compact add-on board combines a high-quality headphone amplifier with a vivid colour display, perfect for creating your own media player or interactive audio project.

The Pirate Audio Headphone Amp from Pimoroni is a clever add-on board designed to deliver excellent sound quality straight from your Raspberry Pi. It includes a built-in 24-bit DAC and 3.5mm stereo headphone output, ensuring crystal-clear audio for your custom music or podcast projects.

The board also features a bright 1.3" IPS colour display and four tactile control buttons, letting you view album artwork, track details, or system info directly from your Pi. It connects neatly via the 40-pin GPIO header, keeping your setup compact and tidy.

Ideal for creating:

Raspberry Pi-based music players and jukeboxes

Portable headphone amplifiers

Interactive sound installations

Educational audio projects

Dimensions: Approx. 65mm x 30mm

These headers will give your HAT or pHAT a real lift! We all love playing with the latest Pi accessories, but sometimes we've found that these wonderful add-on boards could do with just a little more clearance from the top of the Raspberry Pi.

That's where these little headers come in! They're standard 2x20 GPIO headers so are suitable for all 40-pin versions of the Raspberry Pi, but they have 5mm pins to make sure they mate securely with the female headers on your add-on board.

Datasheet

Compatible with:

Raspberry Pi 5

Raspberry Pi 4

The Kitronik Autonomous Robotics Platform Pico, a fun and hands-on introduction to Robotics with the Raspberry Pi Pico. The Kitronik Autonomous Robotics Platform for Raspberry Pi Pico is a fun and hands-on introduction to buggy robotics. The easy to follow booklet provided with the kit guides you through all of the steps required for you to take control of your robot. The Robotics Platform has been designed to grow with you and provided additional servo and ultrasonic sensor connectors for more advanced projects. This buggy requires a Raspberry Pi Pico with pin headers attached.

The kit is supplied with the autonomous robotics platform chassis, 2 wheels and tyres, a Kitronik line-following sensor board, and an ultrasonic sensor. The kit requires no soldering and only minimal mechanical assembly. Fit the tyres to the wheels, push the wheels onto the pre-mounted motors and both the line following sensor and ultrasonic distance sensor plug straight into the board. Once put together, push the Raspberry Pi Pico into the onboard connector, add 4 x Alkaline AA batteries to the battery holders underneath and you are done. Your robot buggy is ready for instruction.

The included booklet guides you through every step of getting to know your robot. It contains a detailed assembly guide, info on preparing the Raspberry Pi Pico, instructions for installing an editor (Thonny), and instructions on how to write code for every feature of the Robotics Platform. No corner of the board is left unexplained. As well as the easy-to-follow getting started guide, Kitronik have also produced online tutorials which go into more detail on coding the key features of the board. The links to the tutorials can be found in the resources section at the foot of this page.

For those that like to modify their robot buggies, the buggy has 4 x threaded mounting points added to the chassis, 3 x M3 & 1 x M4. These mechanical fixing locations enable the addition of user-designed features, such as cosmetic chassis parts and/or additional robotic features, such as appendages. Kitronik have produced a dxf file showing the location and thread size of each of these mechanical fixing locations, it can be downloaded in the resources section below. The zip file also contains a jpg for those that don't have access to CAD or viewing software.

To help make programming the robot as simple as possible, Kitronik has developed a set of Micropython modules, which can be found here. More information on this can be found in the booklet supplied with the kit. If you aren't familiar with GIT, we've created an online beginners' guide to help you get up to speed. You can find the guide here (https://kitronik.co.uk/GitGuide).

Features:

A fun and hands-on introduction to buggy robotics.

The Robotics Platform has been designed to grow with you, start small then add complexity later.

The kit ships with a detailed guide booklet backed up with freely available online tutorials.

The autonomous robotics platform introduces the user to light, movement, and sensing so the robot can be as hands-on or hands-off as want it to be.

Program your buggy to react to the world around it.

Learn to code with MicroPython, using our simple-to-follow guides and the beginner-friendly Thonny editor.

Just add the Raspberry Pi Pico, some alkaline batteries, and some code and watch your buggy come to life!

This buggy is not supplied with a Pico, you can obtain a Raspberry Pi Pico here.

It also features 4 x threaded mounting points added to the chassis, 3 x M3 & 1 x M4.

Contents:

1 x Autonomous robotics buggy chassis PCB.

2 x Kitronik 5 spoke wheels and tyres.

1 x Kitronik line following sensor board.

1 x Ultrasonic Sensor.

Dimensions:

PCB Length: 126mm.

PCB Width: 80mm.

Wheel Diameter (with tire): 67.5mm.

Compatible with:

Raspberry Pi Pico

The Kitronik Pin Breakout for the Raspberry Pi Pico has been designed to offer an easy way of connecting additional circuitry and devices to the Pico. It also allows for moving the Pico between projects without the need to remove all of the jumper cables.

The Pico plugs into the two inner rows of sockets. The remaining two outer rows can then be used for connecting to external devices/circuits. The board has clear markings for each pin and the correct orientation for inserting the Pico is also clearly marked.

In order to use this board, the Pico should have soldered pin headers, it can then be firmly inserted into the board. Additionally, the board features 4 x M3 mounting holes to allow for fixing the board to projects/prototyping setups. Care was taken when designing the Pico Pin Breakout to maintain as small a footprint as possible.

Features:

It offers a convenient interface for controlling additional circuitry with the Raspberry Pi Pico.

The board features 2 x rows of sockets that a Pico with soldered pin headers can slot straight into.

The outer rows of sockets can be used to connect any of the Pico i/o pins to a project/prototype.

Use jumper wires, soldering is not required.

Raspberry Pi Pico prototyping made easy.

Dimensions:

Length: 65mm.

Width: 37mm.

Height: 11.2mm.

Compatible with:

Raspberry Pi Pico

Develop your coding skills with the Kitronik ZIP96 Retro Gamer for Pico, 'the' all-in-one handheld solution for Pico gaming!

The Kitronik ZIP96 is a fully programmable feature-packed retro-styled handheld gaming solution for the Raspberry Pi Pico. It's fully loaded with awesome features, including a 96 LED display, that can be fully controlled with code for a complete gaming experience. Kitronik has developed a set of lesson plans for this product, that enables successful Computing lessons at KS3/4 (US equivalent - Grades 6-8/9-10). Though developed for use in the classroom, the ZIP96 Retro Gamer is ideal for anyone who already has a Pico or sees a Pico in their immediate future.

The ZIP96 features 96 colour fully addressable LEDs arranged in a 12 x 8 display, a buzzer for audio feedback, a vibration motor for haptic feedback, and 6 input buttons (typical use; 4 x directional buttons and 2 x action buttons). It also breaks out GP1, GP11, ADC1 and ADC2, along with a set of 3.3V and GND for each, to standard 0.1” footprints. GP18 to 21 are also broken out on a 0.1” footprint underneath the Pico. The Pico is connected via low-profile 20-way pin sockets.

To use the ZIP96 Gamer the Pico should have a soldered pin header and be inserted firmly into the connector. The ZIP96 does not ship with a Pico. Power is provided via the built-in 3 individual AA battery holders which have been ergonomically placed on the underside of the board to act as hand grips, which makes the ZIP96 comfortable to hold and play.

Features:

A feature-packed all-in-one retro-styled handheld gaming solution for the Raspberry Pi Pico.

Packed with awesome features that can be controlled with code for the ultimate handheld pico gaming experience.

The ZIP96 features 96 colour fully addressable LEDs arranged in a 12 x 8 display.

The board features a built-in buzzer for audio feedback and a vibration motor for haptic feedback.

There are 6 input buttons (typical use; 4 x directional buttons and 2 x fire buttons).

It also breaks out GP1, GP11, ADC1 and ADC2, along with a set of 3.3V and GND for each, to standard 0.1” footprints. GP18 to 21 are also broken out on a 0.1” footprint underneath the Pico.

The Pico is connected via pre-fitted low-profile 20-way pin sockets.

Ergonomically placed AA battery holders that power the board AND function as comfortable handgrips.

Kitronik has a Github repo containing MicroPython module and sample code to support using the ZIP96 Gamer with the Raspberry Pi Pico.

Kitronik has produced a set of lesson plans to enable successful Computing lessons at KS3/4 (US equivalent - Grades 6-8/9-10). The Datasheet provides additional usage information, electrical specifications, and dimensions.

Compatible with:

Raspberry Pi Pico

These 40-pin 2x20 male headers can be used on a Pi Zero or a pHAT to break out the pins.

Add one to a Pi Zero for compatibility with HATs (which use a female header). Can be used to solder a Pi Zero and pHAT permanently together.

Compatible with:

Raspberry Pi Zero

The MonkMakes Amplified Speaker is an easy to use amplified speaker on a circuit board. The board needs a 3.3 to 6V power supply that can be provided by a Raspberry Pi or Arduino. Audio input will normally be to the 3.5mm stereo audio jack socket, which is mixed to a mono signal.

The product includes a separate input with low-pass filter for use with PWM/PCM audio.
Compatible with:

Raspberry Pi Pico

The Monk Makes solderless breadboard labelled for the Raspberry Pi Pico is the perfect prototyping solution for the Pico. Each of the Picos pins is labelled on the breadboard. When used in conjunction with a Pico with pin headers already attached, finding the right hole for your jumper lead couldn't be more simple.

The board has 400 tie points, 2 power buses and features an adhesive backing for securing your projects/prototypes. The board accepts wires, legs and male jumper connectors and allows you to build complex solderless circuits easily. The point spacing is a standard 2.54mm, making it compatible with any components/devices with a pin pitch of 2.54mm.

This RoHS compliant breadboard is rated for low voltage, low current only. Maximum for the Breadboard being 50V at 2A.

Features:

A solderless breadboard labelled for the Raspberry Pi Pico.

Each of pins on the Pico is labelled on the breadboard.

When used in conjunction with a Pico with pin headers already attached, finding the right hole for your jumper lead couldn't be more simple.

The board has 400 tie points, 2 power buses and features an adhesive backing for securing your projects/prototypes.

Standard 2.54mm point spacing.

RoHS compliant.

Compatible with:

Raspberry Pi Pico

The MonkMakes Controller for Raspberry Pi Pico is an all-in-one interface board designed to make electronics and programming engaging and accessible. It connects directly to your Raspberry Pi Pico (or Pico W) and provides a variety of built-in inputs and outputs — ideal for beginners learning to code in MicroPython or C/C++.

With no need for soldering or additional components, users can instantly start creating interactive projects such as games, counters, and data displays. Perfect for STEM classrooms, after-school clubs, and hobbyists who want a ready-to-use control board for the Pico.

A prototyping board designed for the Raspberry Pi Pico with the Pico pinout marked on the PCB. If you liked the Breadboard for Pico and are ready to take your prototype to solder, you will love this board! This prototyping board is inspired by the MonkMakes Breadboard for Pico and has all the Pico's pin names on the PCB making it easy to make your project more permanent and robust.

You can solder the Pico to the prototyping board using the castellations around the edge of the board, or using header pins, or even solder header sockets onto the Pico Proto PCB so that you can easily swap out the Pico. There are also solder bridges to connect power busses.

The layout of the Pico Proto PCB is modelled on a 400-point breadboard, and after the Pico is soldered to the PCB, there are 10 more rows that can be used for your own through-hole components. Once complete, fit the project into your enclosure using the M2.5 mounting holes.

Compatible with:

Raspberry Pi Pico

A generous 2.0" (320 x 240) IPS LCD display for Raspberry Pi with lots of tasty baked in functionality.

Display HAT Mini features a bright 18-bit capable 320x240 pixel display with vibrant colours and formidable IPS viewing angles, connected via SPI. It's got four tactile buttons for interacting with your Pi with your digits and a RGB LED for notifications. Pimoroni have also squeezed in a QwST connector (Qwiic / STEMMA QT) and a Breakout Garden header so it's a doddle to connect up different kinds of breakouts.

It will work with any model of Pi with a 40 pin header, it goes with the Raspberry Pi Zero particularly well - Pimoroni have included a pair of standoffs so you can use to bolt HAT and Pi together to make a sturdy little unit. To accommodate the screen Display HAT Mini is a bit bigger than a standard mini HAT or pHAT - it's around 5mm taller than a Pi Zero (so a Mini HAT XL or a Mini HAT Pro, if you will).

Display HAT Mini lets you turn a Raspberry Pi into a convenient IoT control panel, a tiny photo frame, digital art display or gif-box, or a desktop display for news headlines, tweets, or other info from online APIs. This screen is a handy 3:2 ratio, useful for retro gaming purposes!

Features:

2.0” 320x240 pixel IPS LCD screen, connected via SPI (~220 PPI, 65K colours)

4 x tactile buttons

RGB LED

Qw/ST (Qwiic/STEMMA QT) connector

Breakout Garden / I2C header

Pre-soldered socket header for attaching to Raspberry Pi

Compatible with all models of Raspberry Pi with a 40 pin header.

Fully assembled

No soldering required (as long as your Pi has header pins attached).

Dimensions: approx 65.5mm x 35mm x 9mm (W x H x D, includes header and display). With a Pi Zero attached with standoffs, the total depth is 17mm.

Screen usable area: 40.8mm x 30.6mm (L x W)

Pinout

Schematic

Dimensional drawing

Display HAT Mini Python library

ST7789 Python library

Includes

Display HAT Mini

2 x 10mm standoffs

Compatible with:

Raspberry Pi 5

Raspberry Pi 4

Raspberry Pi Zero(but needs Male 40-pin 2x20 HAT Header for Pi Zero)

A 128x64 pixel, 2.15" LCD display with snazzy six-zone RGB backlight and six capacitive touch buttons. GFX HAT makes an ideal display and interface for your headless Pi projects.

GFX HAT riffs off the previous Display-O-Tron HAT (now discontinued), but gives you the flexibility of individual pixels, letting you display more complex graphics and real typefaces, while retaining the handy capacitive touch buttons for input/navigation.

Features:

128x64 pixel, 2.15" LCD display

Integrated diffuser/reflector assembly

Six-zone RGB LED backlight

SN3218 LED driver chip (I2C address 0x54)

Six capacitive touch buttons with white LEDs

Microchip CAP1166 capacitive touch/LED driver chip ((I2C address 0x2c)

Compatible with all 40-pin header Raspberry Pi models

Python library

Comes fully assembled

Compatible with:

Raspberry Pi 5

Raspberry Pi 4

Plug Pirate Audio Line-out for Raspberry Pi into your hi-fi amp or powered speakers, then sit back, relax, and soak in the rich, digital audio. It has a high-quality I2S DAC, high-res colour display, and playback control buttons.

This board is perfect for upgrading an existing hi-fi amp and speakers, or a set of powered monitors, with digital audio from local audio files (MP3, FLAC, etc.) or from streaming services. The DAC on Pirate Audio Line-out gives you crisp 24-bit / 192KHz digital audio through its 3.5mm stereo jack.

Pirate Audio is a range of all-in-one audio boards for Raspberry Pi, with high-quality digital audio, beautifully-crisp IPS displays for album art, tactile buttons for playback control, and our custom Pirate Audio software and installer to make setting it all up a breeze.

Features:

Line-level digital audio (24-bit / 192KHz) over I2S

PCM5100A DAC chip (datasheet)

3.5mm stereo jack

1.3" IPS colour LCD (240x240px) (ST7789 driver)

Four tactile buttons

Mini HAT-format board

Fully-assembled

Compatible with all 40-pin header Raspberry Pi models

Pirate Audio software

Dimensions: 65x30.5x9.5mm

Compatible with:

Raspberry Pi 5

Raspberry Pi 4

Raspberry Pi Zero(but needs Male 40-pin 2x20 HAT Header for Pi Zero)