Raspberry Pi Boards

It features:
• Dual-core Arm Cortex-M0 @ 133MHz
• 264KB of on-chip RAM
• Support for up to 16MB of off-chip Flash memory via a QSPI bus
• DMA controller
• Interpolator and integer divider peripherals
• 30 GPIO pins, 4 of which can be used as analogue inputs
• 2 × UARTs, 2 × SPI controllers, and 2 × I2C controllers
• 16 × PWM channels
• 1 × USB 1.1 controller and PHY, with host and device support
• 8 × Raspberry Pi Programmable I/O (PIO) state machines
• USB mass-storage boot mode with UF2 support, for drag-and-drop programming
Please see the RP2040 datasheet for more details
and Hardware Design with RP2040
To date, RP2040 has only been available on Raspberry Pi Pico, and as a component to a limited number of partners. We now cover the availability of RP2040 as a component to the broad market in single-unit quantities. Bulk quantities on reels of 500.
Description:
The Raspberry Pi Build HAT combines the power of Raspberry Pi computing with LEGO® hands-on learning to enable a fun and creative learning experience for students, teachers and makers.
The Build HAT is compatible with the most recent generation of LEGO® Technic™ motors, and with sensors included in the LEGO® Education SPIKE™ Prime portfolio.
The Build HAT is the second Raspberry Pi product, after Raspberry Pi Pico, to be powered by the Raspberry Pi RP2040 microcontroller.

Specifications:
• Controls up to 4 motors and sensors.
• Powers the Raspberry Pi (when used with a suitable external PSU).
• Easy to use from Python on the Raspberry Pi.
What's in the box?
1 x Raspberry Pi Build HAT for LEGO
Build HAT Links
- Raspberry Pi Build HAT Website
- Getting started with the Raspberry Pi Build HAT
- Raspberry Pi Build HAT Projects
- Raspberry Pi Build HAT Documentation and Python Library
- LEGO Device compatibility
- Build HAT Announcement Article
LEGO Links

Description:
This is an official Raspberry Pico that has had headers professionally pre-soldered on by a South African electronic manufacturing company.
Raspberry Pi Pico, a microcontroller board built on silicon designed by Raspberry Pi.
Whether you choose to use our C/C SDK, or the official MicroPython port, everything you need to get started is here. You’ll also find links to the technical documentation for both the Raspberry Pi Pico microcontroller board and our RP2040 microcontroller chip.

Board Specifications:
- RP2040 microcontroller chip designed by Raspberry Pi in the United Kingdom
- Dual-core ARM Cortex M0 processor, flexible clock running up to 133 MHz
- 264kB of SRAM, and 2MB of on-board Flash memory
- Castellated module allows soldering direct to carrier boards
- USB 1.1 Host and Device support
- Low-power sleep and dormant modes
- Drag & drop programming using mass storage over USB
- 26 multi-function GPIO pins
- 2×SPI, 2×I2C, 2×UART, 3×12-bit ADC, 16×controllable PWM channels
- Accurate clock and timer on-chip
- Temperature sensor
- Accelerated floating point libraries on-chip
- 8×Programmable IO (PIO) state machines for custom peripheral support
Download Pinout Diagram

Documentation
Documentation for the Raspberry Pi Pico board and the RP2040 microcontroller:
Raspberry Pi Pico Datasheet
An RP2040-based microcontroller board
RP2040 Datasheet
A microcontroller by Raspberry Pi
Hardware design with the RP2040
Using the RP2040 microcontroller to build boards and products
Getting Started with Raspberry Pi Pico
C/C development with the Pico and other RP2040-based microcontroller boards
Pico C/C SDK
Libraries and tools for C/C development on the RP2040 microcontroller
Pico Python SDK
A MicroPython environment for the RP2040 microcontroller
The API level Doxygen documentation for the Raspberry Pi Pico C/C SDK is available as a micro-site.
Resources:
https://www.raspberrypi.org/blog/raspberry-pi-silicon-pico-now-on-sale/
https://www.raspberrypi.org/products/raspberry-pi-pico/
https://www.youtube.com/watch?v=ZY-HrRGCQ4w
Add wifi to Pico using Cricket
https://www.thingsonedge.com/post/pico-cricket-blynk-phone-alerts
YouTube video on Pico by Jeff Geerling
https://projects.raspberrypi.org/en/projects/getting-started-with-the-pico/1
Raspberry Pi RP2040 is the first microcontroller designed in-house at Raspberry Pi (“Raspberry Silicon”).
It features:
• Dual-core Arm Cortex-M0 @ 133MHz
• 264KB of on-chip RAM
• Support for up to 16MB of off-chip Flash memory via a QSPI bus
• DMA controller
• Interpolator and integer divider peripherals
• 30 GPIO pins, 4 of which can be used as analogue inputs
• 2 × UARTs, 2 × SPI controllers, and 2 × I2C controllers
• 16 × PWM channels
• 1 × USB 1.1 controller and PHY, with host and device support
• 8 × Raspberry Pi Programmable I/O (PIO) state machines
• USB mass-storage boot mode with UF2 support, for drag-and-drop programming
Please see the RP2040 datasheet for more details
and Hardware Design with RP2040
To date, RP2040 has only been available on Raspberry Pi Pico, and as a component to a limited number of partners. We now cover the availability of RP2040 as a component to the broad market in single-unit quantities. Bulk quantities on reels of 500 and more available soon.

The Raspberry Pi PoE HAT is an add-on board for Raspberry Pi computers with PoE pins, including Raspberry Pi 3B and Raspberry Pi 4. It is used to power Raspberry Pi via an Ethernet cable, provided that power-sourcing equipment is installed on the Ethernet network. The HAT also includes a fan that will cool the Raspberry Pi processor.
Specifications:
Standard: IEEE 802.3at-2003 PoE
Input voltage: 37–57 V DC, Class 4 device
Output power: 5 V DC/4 A
Cooling: 25 mm × 25 mm brushless fan delivering 2.2 CFM for processor cooling
Features:
- Fully isolated switched-mode power supply
- Fan control
Operating temperature: 0 °C to 50 °C
Production lifetime: The Raspberry Pi PoE HAT will remain in production until at least January 2027
Compliance: For a full list of local and regional product approvals, please visit www.raspberrypi.org/compliance
Physical specifications

What's in the box?:
1 x Power over Ethernet Plus (POE ) HAT
WARNINGS
• This product shall only be connected to a Raspberry Pi via the four PoE pins.
• Any external power-sourcing equipment/power injector used to enable an Ethernet network shall comply with relevant regulations and standards applicable in the country of intended use.
• This product should be operated in a well ventilated environment, and if used inside a case, the case should not be covered.
• The connection of incompatible devices to the GPIO connection of a Raspberry Pi computer may affect compliance and result in damage to the unit and invalidate the warranty.
• All peripherals used with this product should comply with relevant standards for the country of
use and be marked accordingly to ensure that safety and performance requirements are met.
These articles include but are not limited to keyboards, monitors and mice when used in conjunction with Raspberry Pi computers.
• Where peripherals are connected that do not include the cable or connector, the cable or connector must offer adequate insulation and operation in order that the relevant performance and safety requirements are met.
SAFETY INSTRUCTIONS
To avoid malfunction or damage to this product, please observe the following:
• Do not expose to water or moisture, or place on a conductive surface whilst in operation.
• Do not expose to heat from any source. Raspberry Pi computers and the Raspberry Pi PoE HAT are designed for reliable operation at normal ambient room temperatures.
• Take care whilst handling to avoid mechanical or electrical damage to the printed circuit board
and connectors.
• Avoid handling the printed circuit board whilst it is powered, and handle it only by the edges to minimise the risk of electrostatic discharge damage.

https://www.raspberrypi.org/blog/raspberry-pi-silicon-pico-now-on-sale/
https://www.raspberrypi.org/products/raspberry-pi-pico/
https://www.youtube.com/watch?v=ZY-HrRGCQ4w
Add wifi to Pico using Cricket
https://www.thingsonedge.com/post/pico-cricket-blynk-phone-alerts
YouTube video on Pico by Jeff Geerling
Raspberry Pi Pico, a microcontroller board built on silicon designed here at Raspberry Pi.
Whether you choose to use our C/C++ SDK, or the official MicroPython port, everything you need to get started is here. You’ll also find links to the technical documentation for both the Raspberry Pi Pico microcontroller board and our RP2040 microcontroller chip.

Board Specifications
- RP2040 microcontroller chip designed by Raspberry Pi in the United Kingdom
- Dual-core ARM Cortex M0+ processor, flexible clock running up to 133 MHz
- 264kB of SRAM, and 2MB of on-board Flash memory
- Castellated module allows soldering direct to carrier boards
- USB 1.1 Host and Device support
- Low-power sleep and dormant modes
- Drag & drop programming using mass storage over USB
- 26 multi-function GPIO pins
- 2×SPI, 2×I2C, 2×UART, 3×12-bit ADC, 16×controllable PWM channels
- Accurate clock and timer on-chip
- Temperature sensor
- Accelerated floating point libraries on-chip
- 8×Programmable IO (PIO) state machines for custom peripheral support
Download Pinout Diagram

Documentation
Documentation for the Raspberry Pi Pico board and the RP2040 microcontroller:
Raspberry Pi Pico Datasheet
An RP2040-based microcontroller board
RP2040 Datasheet
A microcontroller by Raspberry Pi
Hardware design with the RP2040
Using the RP2040 microcontroller to build boards and products
Getting Started with Raspberry Pi Pico
C/C++ development with the Pico and other RP2040-based microcontroller boards
Pico C/C++ SDK
Libraries and tools for C/C++ development on the RP2040 microcontroller
Pico Python SDK
A MicroPython environment for the RP2040 microcontroller
The API level Doxygen documentation for the Raspberry Pi Pico C/C++ SDK is available as a micro-site.
Overview
The Raspberry Pi High Quality Camera is the latest camera accessory from Raspberry Pi. It offers higher resolution (12 megapixels, compared to 8 megapixels), and sensitivity (approximately 50% greater area per pixel for improved low-light performance) than the existing Camera Module v2, and
is designed to work with interchangeable lenses in both C- and CS-mount form factors. Other lens form factors can be accommodated using third-party lens adapters.
The High Quality Camera provides an alternative to the Camera Module v2 for industrial and consumer applications, including security cameras, which require the highest levels of visual fidelity and/or integration with specialist optics. It is compatible with all models of Raspberry Pi computer from Raspberry Pi 1 Model B onwards, using the latest software release from www.raspberrypi.org.(1)
The package comprises a circuit board carrying a Sony IMX477 sensor, an FPC cable for connection to a Raspberry Pi computer, a milled aluminium lens mount with integrated tripod mount and focus adjustment ring, and a C- to CS-mount adapter.
(1) Excluding early Raspberry Pi Zero models, which lack the necessary FPC connector. Later Raspberry Pi Zero models require an adapter FPC, sold separately.
Specifications
Sensor: | Sony IMX477R stacked, back-illuminated sensor 12.3 megapixels 7.9 mm sensor diagonal 1.55 μm × 1.55 μm pixel size |
Output: | RAW12/10/8, COMP8 |
Back focus: | Adjustable (12.5 mm–22.4 mm) |
Lens standards: | C-mount CS-mount (C-CS adapter included) |
IR cut filter: | Integrated(2) |
Ribbon cable length: | 200 mm |
Tripod mount: | 1/4”-20 |
Compliance: | FCC 47 CFR Part 15, Subpart B, Class B Digital Device Electromagnetic Compatibility Directive (EMC) 2014/30/EU Restriction of Hazardous Substances (RoHS) Directive 2011/65/EU |
Production lifetime: | The Raspberry Pi High Quality Camera will remain in production until at least January 2026 |
(2) Can be removed to enable IR sensitivity. Modification is irreversible.
Physical specifications

SAFETY INSTRUCTIONS
To avoid malfunction or damage to this product, please observe the following:
• Before connecting the device, shut down your Raspberry Pi computer and disconnect it from
external power.
• If the cable becomes detached, pull the locking mechanism forward on the connector, insert the ribbon
cable ensuring the metal contacts face towards the circuit board, then push the locking mechanism back into place.
• This device should be operated in a dry environment at 0–50°C.
• Do not expose it to water or moisture, or place on a conductive surface whilst in operation.
• Do not expose it to excessive heat from any source.
• Care should be taken not to fold or strain the ribbon cable.
• Care should be taken when screwing in parts or fitting a tripod. A cross-thread can cause irreparable damage and void the warranty.
• Take care whilst handling to avoid mechanical or electrical damage to the printed circuit board
and connectors.
• Avoid handling the printed circuit board whilst it is powered and only handle by the edges to minimise the risk of electrostatic discharge damage.
• Store in a cool, dry location.
• Avoid rapid changes of temperature, which can cause moisture build up in the device, affecting
image quality.

How to use this camera: https://www.youtube.com/watch?v=sAXDgByhcJU
and another video by ETA PRIME: https://www.youtube.com/watch?v=VDWORgW31Sw
The Sense HAT is an add-on board for Raspberry Pi, made especially for the Astro Pi mission! It’s going to the International Space Station in December 2015 – and is now available to buy from PiShop.
The Sense HAT has an 8×8 RGB LED matrix, a five-button joystick and includes the following sensors:
- 3D Gyroscope
- Accelerometer (Yaw, Pitch & Roll)
- Magnetometer
- Temperature
- Barometric Pressure
- Humidity
The Raspberry Pi Foundation have also created a Python library providing easy access to everything on the board.
Sensing Elements Technical Specification:
Pressure / Temperature (ST Micro LPS25H)
– 24-bit pressure measurement resolution (260hPa to 1260hPa)
– 16-bit temperature measurement resolution (0-125°C)
Datasheet
Humidity / Temperature (ST Micro HTS221)
– 16-bit humidity measurement resolution (0-100% relative humidity)
– 16-bit temperature measurement resolution (0-60°C)
Datasheet
Acceleration/Gyroscope/Magnetic field (ST Micro LSM9DS1)
– 9 degrees of freedom (X, Y, Z independent axes for all sensors)
– ±16 g acceleration measurement range
– ±16 gauss magnetometer measurement range
– ±2000 dps (degrees per second) gyroscope measurement range
Each of these measurement channels has 16 bits of resolution.
Datasheet
All of these sensors have features for periodic sampling of sensor values, complete with internal FIFO storage. The LPS25H and HTS221 have maximum sample rates of 25 per second, the LSM9DS1 has a maximum sample rate of 952Hz
LED Matrix
The LED matrix is driven by a combination of a constant-current LED driver and an Atmel ATTiny88 running a custom firmware that delivers an 8×8 display with 15-bit resolution RGB colour. If you want to get into the gory details, the AVR firmware is available on Github.
Joystick
The Atmel is responsible for sampling the joystick. We didn’t have enough pins left on the Atmel to dedicate the five that we needed to sample the joystick axes independently, so they’ve been spliced into the LED matrix row selects. The joystick gets updated at approximately 80Hz, which is the scan rate of the LED matrix.
All of the sensors (and the base firmware for the Atmel) are accessible from the Pi over I2C. As a fun bonus mode, the SPI peripheral on the Atmel has been hooked up to the Pi’s SPI interface – you can reprogram your HAT in the field! We use this method to get the firmware into the Atmel during production test – and we leave it unprotected so you can substitute the stock firmware to get it to do whatever you want. Seriously. First person to turn this sensor HAT into a quadcopter controller HAT wins a cookie from me.
What's in the box?:
1 x Sens HAT
standoffs and screws
Resources:
Connect your Sense HAT to the Raspberry Pi via the 40 GPIO Pins.You will then need to install the software:
Open up a terminal and run the following command:
wget -O - http://www.raspberrypi.org/files/astro-pi/astro-pi-install.sh --no-check-certificate
When the install has finished you will need to reboot your Raspberry Pi!
Getting started with the Raspberry Pi Sense HAT
How to use Picamera with Raspberry Pi OS Bullseye: https://www.youtube.com/watch?v=E7KPSc_Xr24&list=WL&index=2
Description:
The Raspberry Pi Camera Module V2 is the new and improved official camera board from the Raspberry Pi Foundation! Custom designed and manufactured by the Raspberry Pi Foundation in the UK, the Raspberry Pi Camera Board V2 features an ultra-high quality 8 megapixel Sony IMX219 image sensor (up from 5MP on the V1 camera board), and a fixed focus camera lens. The V2 camera module is capable of 3280 x 2464 pixel static images, and also supports 1080p30, 720p60 and 640x480p90 video.
The module attaches to Raspberry Pi by way of a 15 Pin Ribbon Cable, to the dedicated 15-pin MIPI Camera Serial Interface (CSI), which was designed especially for interfacing to cameras. The CSI bus is capable of extremely high data rates, and it exclusively carries pixel data to the BCM2835 processor. A 150mm CSI cable is included with every camera.
The board itself is tiny, at around 25mm x 23mm x 9mm, and weighs just over 3g, making it perfect for mobile or other applications where size and weight are important.
The Raspberry Pi Camera Board V2 Features:
- Fixed focus lens on-board
- 150mm CSI camera cable included
- 8 megapixel native resolution sensor-capable of 3280 x 2464 pixel static images
- Supports 1080p30, 720p60 and 640x480p90 video
- Size 25mm x 23mm x 9mm
- Weight just over 3g
- Connects to the Raspberry Pi board via a short ribbon cable (supplied)
- Camera v2 is supported in the latest version of Raspbian, Raspberry Pi's preferred operating system
Note: to use the camera with Raspberry Zero, you need to buy a specific cable: Raspberry Pi Zero Camera Cable
Getting started with PiCamera
How to use Picamera with Raspberry Pi OS Bullseye: https://www.youtube.com/watch?v=E7KPSc_Xr24&list=WL&index=2
The NoIR Camera V2 is the “night vision” version of the official camera board released by the Raspberry Pi Foundation. The Raspberry Pi NoIR Camera Board V2 has no Infrared filter, which makes it perfect for taking Infrared photographs or photographing objects in low light (twilight) conditions! Custom designed and manufactured by the Raspberry Pi Foundation in the UK, the Raspberry Pi NoIR Camera Board V2 features an ultra-high quality 8 megapixel Sony IMX219 image sensor (up from 5MP on the V1 camera board), and a fixed focus camera lens. The V2 camera module is capable of 3280 x 2464 pixel static images, and also supports 1080p30, 720p60 and 640x480p90 video.
The module attaches to Raspberry Pi by way of a 15 Pin Ribbon Cable, to the dedicated 15-pin MIPI Camera Serial Interface (CSI), which was designed especially for interfacing to cameras. The CSI bus is capable of extremely high data rates, and it exclusively carries pixel data to the BCM2835 processor.
The board itself is tiny, at around 25mm x 23mm x 9mm, and weighs just over 3g, making it perfect for mobile or other applications where size and weight are important.
The Raspberry Pi NoIR Camera Board V2 Features:
- No IR Filter - Great for Low Light Conditions
- Includes Blue Filter
- Fixed focus lens on-board
- 150mm CSI camera cable included
- 8 megapixel native resolution sensor-capable of 3280 x 2464 pixel static images
- Supports 1080p30, 720p60 and 640x480p90 video
- Size 25mm x 23mm x 9mm
- Weight just over 3g
- Connects to the Raspberry Pi board via a short ribbon cable (supplied)
- NoIR Camera v2 is supported in the latest version of Raspbian, Raspberry Pi's preferred operating system
Note: to use the camera with Raspberry Zero v1.3, you need to buy a specific cable: Raspberry Pi Zero v1.3 Camera Cable

Overview
Featuring a quad-core 64-bit processor, wireless networking, dual-display output and 4K video playback, Raspberry Pi 400 is a complete personal computer, built into a compact keyboard.
Raspberry Pi 400 is ideal for surfing the web, creating and editing documents, watching videos, and learning to program using the Raspberry Pi OS desktop environment.
Raspberry Pi 400 is available in a number of different regional variants and as either a computer kit, containing everything you need to get started (except for a TV or monitor), or a computer unit only.
Raspberry Pi 400 for working and learning at home

Specifications
Processor: Broadcom BCM2711 quad-core Cortex-A72 (ARM v8) 64-bit SoC @ 1.8GHz
RAM: 4GB LPDDR4-3200
Connectivity: Dual-band (2.4GHz and 5.0GHz) IEEE 802.11b/g/n/ac wireless LAN, Bluetooth 5.0, BLE Gigabit Ethernet
2 × USB 3.0 and 1 × USB 2.0 ports
GPIO Horizontal 40-pin GPIO header
Video & sound: 2 × micro HDMI ports (supports up to 4Kp60)
Multimedia: H.265 (4Kp60 decode);
H.264 (1080p60 decode, 1080p30 encode);
OpenGL ES 3.0 graphics
SD card support: MicroSD card slot for operating system and data storage
Keyboard: 78- or 79-key compact keyboard (depending on
regional variant)
Power: 5V DC via USB connector
Operating temperature: 0°C to 50°C
Dimensions: 286 mm × 122 mm × 23 mm (maximum)
Compliance: For a full list of local and regional product approvals, please visit
www.raspberrypi.org/documentation/hardware/raspberrypi/conformity.md

WARNINGS
• Any external power supply used with Raspberry Pi 400 shall comply with relevant regulations and
standards applicable in the country of intended use.
• This product should be operated in a well-ventilated environment and should not be covered when
being operated.
• The connection of incompatible devices to Raspberry Pi 400 may affect compliance, result in damage to the unit, and invalidate the warranty.
• There are no user-serviceable parts inside Raspberry Pi 400, and opening the unit is likely to damage the product and will invalidate the warranty.
• All peripherals used with this product should comply with relevant standards for the country of use
and be marked accordingly to ensure that safety and performance requirements are met. These
articles include, but are not limited to, mice, monitors and cables when used in conjunction with
Raspberry Pi 400.
• The cables and connectors of all peripherals used with this product must have adequate insulation so that relevant safety requirements are met.
• Prolonged exposure to direct sunlight may cause discoloration.
SAFETY INSTRUCTIONS
To avoid malfunction or damage to this product please observe the following:
• Do not expose to water or moisture whilst in operation.
• Do not expose to heat from any source; Raspberry Pi 400 is designed for reliable operation at normal ambient temperatures.
• Take care whilst handling to avoid mechanical or electrical damage to the computer.
Accreditation

Description:
PGA2040 is a compact RP2040 breakout intended for the most svelte and embeddable of projects. It contains only the components necessary to run the RP2040 (that's the crystal, flash, regulator and essential support circuits) and it has no fripperies like LEDs, buttons and USB connectors - you'll need to attach your own USB connector to be able to program it.
The benefits of all this drastic pruning are a tiny, 21mm square footprint and lots of exposed RP2040 pins to play with! 30 of them can be used as general purpose I/O (that's four more I/O than on a Raspberry Pi Pico) and 4 are ADC-equipped. It also has the cutest little pin labels in the known 'verse, because space is tight on this board.
Header pins are sold separately - you can solder it to standard Pico pin headers (though bear in mind you'll need 48 pins if you want to populate it fully).
Like our other RP2040 boards, PGA2040 is programmable with C , MicroPython or CircuitPython - choose your fighter!
Specifications:
- Powered by RP2040
- Dual ARM Cortex M0 running at up to 133Mhz
- 264kB of SRAM
- 8MB of QSPI flash supporting XiP
- Crystal oscillator
- On-board 3V3 regulator (max regulator current output 300mA)
- 48 pins, arranged with 2.54mm (0.1") spacing in a Pin Grid Array
- 30 multi-function General Purpose IO (4 can be used for ADC)
- 8 GND pins
- Input voltage range 3V - 5.5V (on VB pin only)
- Measurements: approx 21mm x 21mm x 3mm (L x W x H)
- Schematic
- Eagle CAD part
What's in the box ?
1 x PGA2040


Getting Started :
PGA2040 is firmware agnostic! You can program it with C/C or MicroPython in the same way as you would a Raspberry Pi Pico. You can find (lots) more information on how to do that (as well as download links for the firmware/SDK) on the RP2040 landing page.
You can also use CircuitPython on your PGA2040! CircuitPython is an easy to use, well-established ecosystem with lots of example code and drivers for interfacing with different kinds of hardware. Click here to download the CircuitPython firmware for PGA2040 and click here for a getting started guide.
To program PGA2040 via USB you will need to hook wires up to VB, GND, U and U-. Make sure that the 5v only goes to VB on PGA2040, if it ends up elsewhere it will result in a bad time. A USB breakout board is a convenient way of getting at the wires in your USB cable, check out the extras tab for some options!
To get into BOOTSEL mode so you can flash firmware to your PGA2040, connect the BS pin to ground whilst plugging the USB into your computer.
About RP2040
Raspberry Pi's RP2040 microcontroller is a dual core ARM Cortex M0 running at up to 133Mhz. It bundles in 264kB of SRAM, 30 multifunction GPIO pins (including a four channel 12-bit ADC), a heap of standard peripherals (I2C, SPI, UART, PWM, clocks, etc), and USB support.
One very exciting feature of RP2040 is the programmable IOs which allow you to execute custom programs that can manipulate GPIO pins and transfer data between peripherals - they can offload tasks that require high data transfer rates or precise timing that traditionally would have required a lot of heavy lifting from the CPU.

Please Note: You will need the newest version of NOOBS or Raspbian for the Pi4, a USB type C power supply or adapter and a micro HDMI cable or adapter
Raspberry Pi 4 Model B is the latest product in the popular Raspberry Pi range of computers. It offers ground-breaking increases in processor speed, multimedia performance, memory, and connectivity compared to the prior-generation Raspberry Pi 3 Model B , while retaining backwards compatibility and similar power consumption. For the end user, Raspberry Pi 4 Model B provides desktop performance comparable to entry-level x86 PC systems.
This product’s key features include a high-performance 64-bit quad-core processor, dual-display support at resolutions up to 4K via a pair of micro-HDMI ports, hardware video decode at up to 4Kp60, up to 4GB of RAM, dual-band 2.4/5.0 GHz wireless LAN, Bluetooth 5.0, Gigabit Ethernet, USB 3.0, and PoE capability (via a separate PoE HAT add-on).
The dual-band wireless LAN and Bluetooth have modular compliance certification, allowing the board to be designed into end products with significantly reduced compliance testing, improving both cost and time to market.
Specifications
- Processor: Broadcom BCM2711, quad-core Cortex-A72 (ARM v8) 64-bit SoC @ 1.5GHz
- Memory: 2GB, 4GB or 8GB LPDDR4 (depending on model)
- Connectivity: 2.4 GHz and 5.0 GHz IEEE 802.11b/g/n/ac wireless
- LAN, Bluetooth 5.0, BLE Gigabit Ethernet, 2 × USB 3.0 ports, 2 × USB 2.0 ports.
- GPIO: Standard 40-pin GPIO header (fully backwards-compatible with previous boards)
- Video & sound: 2 × micro HDMI ports (up to 4Kp60 supported), 2-lane MIPI DSI display port, 2-lane MIPI CSI camera port, 4-pole stereo audio and composite video port
- Multimedia: H.265 (4Kp60 decode); H.264 (1080p60 decode, 1080p30 encode); OpenGL ES, 3.0 graphics
- SD card support: Micro SD card slot for loading operating system and data storage
- Input power: 5V DC via USB-C connector (minimum 3A1), 5V DC via GPIO header (minimum 3A1)
- Power over Ethernet (PoE)–enabled (requires separate PoE HAT)
- Environment: Operating temperature 0–50oC
- Compliance: For a full list of local and regional product approvals, please visit https://www.raspberrypi.org/documentation/hardware/raspberrypi/conformity.md
- Production lifetime: The Raspberry Pi 4 Model B will remain in production until at least January 2026.
If your new Raspberry Pi 4 is not displaying anything, but is booting:
Please change the following settings in the /boot/config.txt setting. You can access these settings in a few ways.
1. Using another display to access the file: sudo nano /boot/config.txt
2. Insert the SD card into a computer/laptop and open the boot partition
Uncomment and change or add to the bottom of the file:
hdmi_safe=1
hdmi_force_hotplug=1
hdmi_ignore_edid=0xa5000080
hdmi_group=2
hdmi_mode=81 (or 39 this will depend on the type of display)
config_hdmi_boost=9
dtoverlay=vc4-fkms-v3d
max_framebuffers=2
Not all of these settings may be necessary, this will again depend on your type of display, however adding them all and removing one by one will help find the ones you may need.
WARNINGS
• This product should only be connected to an external power supply rated at 5V/3A DC or 5.1V/ 3A DC minimum. A good quality 2.5A power supply can be used if downstream USB peripherals consume less than 500mA in total. Any external power supply used with the Raspberry Pi 4 Model B shall comply with relevant regulations and standards applicable in the country of intended use.
• This product should be operated in a well-ventilated environment and, if used inside a case, the case should not be covered.
• This product should be placed on a stable, flat, non-conductive surface in use and should not be contacted by conductive items.
• The connection of incompatible devices to the GPIO connection may affect compliance and result in damage to the unit and invalidate the warranty.
• All peripherals used with this product should comply with relevant standards for the country of use and be marked accordingly to ensure that safety and performance requirements are met. These articles include but are not limited to keyboards, monitors and mice when used in conjunction with the Raspberry Pi.
• Where peripherals are connected that do not include the cable or connector, the cable or connector must offer adequate insulation and operation in order that the relevant performance and safety requirements are met.
SAFETY INSTRUCTIONS
To avoid malfunction or damage to this product please observe the following:
• Do not expose to water, moisture or place on a conductive surface whilst in operation.
• Do not expose it to heat from any source; Raspberry Pi 4 Model B is designed for reliable operation at normal ambient room temperatures.
• Take care whilst handling to avoid mechanical or electrical damage to the printed circuit board and connectors.
• Avoid handling the printed circuit board whilst it is powered and only handle by the edges to minimise the risk of electrostatic discharge damage.

This is an official Raspberry Pi 2 W that has had a header professionally pre-soldered on by a South African electronic manufacturing company.
Description:
Raspberry Pi Zero 2 W is the latest product in our most affordable range of single-board computers. The successor to the breakthrough Raspberry Pi Zero W, Raspberry Pi Zero 2 W is a form factor–compatible drop-in replacement for the original board.
The board incorporates a quad-core 64-bit Arm Cortex-A53 CPU, clocked at 1GHz. At its heart is a Raspberry Pi RP3A0 system-in-package (SiP), integrating a Broadcom BCM2710A1 die with 512MB of LPDDR2 SDRAM. The upgraded processor provides Raspberry Pi Zero 2 W with 40% more single-threaded performance, and five times more multi-threaded performance, than the original single-core Raspberry Pi Zero.
Raspberry Pi Zero 2 W offers 2.4GHz 802.11 b/g/n wireless LAN and Bluetooth 4.2, along with support for Bluetooth Low Energy (BLE), and modular compliance certification.
The board has a microSD card slot, a CSI-2 camera connector, a USB On-The-Go (OTG) port, and an unpopulated footprint for a HAT-compatible 40-pin GPIO header. It is powered via a micro USB socket. Video output is via a mini HDMI port; composite video output can easily be made available via test points if needed.
Sharing the same form factor as the original Raspberry Pi Zero, Raspberry Pi Zero 2 W fits inside most existing Raspberry Pi Zero cases.

Specifications:
Form factor: 65mm × 30mm
Processor: Broadcom BCM2710A1, quad-core 64-bit SoC (Arm Cortex-A53 @ 1GHz)
Memory: 512MB LPDDR2
Connectivity:
• 2.4GHz IEEE 802.11b/g/n wireless LAN, Bluetooth 4.2, BLE, onboard antenna
• 1 × USB 2.0 interface with OTG
• HAT-compatible 40-pin I/O header footprint
• microSD card slot
• Mini HDMI port
• CSI-2 camera connector
Video:
• HDMI interface
• Composite video
Multimedia:
• H.264, MPEG-4 decode (1080p30)
• H.264 encode (1080p30)
• OpenGL ES 1.1, 2.0 graphics
Input power: 5V DC 2.5A
Operating temperature: -20°C to 70°C
Production lifetime: Raspberry Pi Zero 2 W will remain in production until at least January 2028
Compliance: For a full list of local and regional product approvals,
please visit pip.raspberrypi.com
WARNINGS
• Any external power supply used with Raspberry Pi Zero 2 W shall comply with relevant regulations and standards applicable in the country of intended use.
• This product should be operated in a well-ventilated environment, and if used inside a case, the case should not be covered.
• Whilst in use, this product should be placed on a stable, flat, non-conductive surface, and should not be contacted by conductive items.
• The connection of incompatible devices to Raspberry Pi Zero 2 W may affect compliance, result in damage to the unit, and invalidate the warranty.
• All peripherals used with this product should comply with relevant standards for the country of use and be marked accordingly to ensure that safety and performance requirements are met. These articles include but are not limited to
keyboards, monitors, and mice when used in conjunction with Raspberry Pi Zero 2 W.
• The cables and connectors of all peripherals used with this product must have adequate insulation so that relevant safety requirements are met.
SAFETY INSTRUCTIONS
To avoid malfunction or damage to this product, please observe the following:
• Do not expose to water or moisture, or place on a conductive surface whilst in operation.
• Do not expose to heat from any source; Raspberry Pi Zero 2 W is designed for reliable operation at normal ambient temperatures.
• Take care whilst handling to avoid mechanical or electrical damage to the printed circuit board and connectors.
• Whilst it is powered, avoid handling

Description:
Raspberry Pi Zero 2 W is the latest product in our most affordable range of single-board computers. The successor to the breakthrough Raspberry Pi Zero W, Raspberry Pi Zero 2 W is a form factor–compatible drop-in replacement for the original board.
The board incorporates a quad-core 64-bit Arm Cortex-A53 CPU, clocked at 1GHz. At its heart is a Raspberry Pi RP3A0 system-in-package (SiP), integrating a Broadcom BCM2710A1 die with 512MB of LPDDR2 SDRAM. The upgraded processor provides Raspberry Pi Zero 2 W with 40% more single-threaded performance, and five times more multi-threaded performance, than the original single-core Raspberry Pi Zero.
Raspberry Pi Zero 2 W offers 2.4GHz 802.11 b/g/n wireless LAN and Bluetooth 4.2, along with support for Bluetooth Low Energy (BLE), and modular compliance certification.
The board has a microSD card slot, a CSI-2 camera connector, a USB On-The-Go (OTG) port, and an unpopulated footprint for a HAT-compatible 40-pin GPIO header. It is powered via a micro USB socket. Video output is via a mini HDMI port; composite video output can easily be made available via test points if needed.
Sharing the same form factor as the original Raspberry Pi Zero, Raspberry Pi Zero 2 W fits inside most existing Raspberry Pi Zero cases.

Specifications:
Form factor: 65mm × 30mm
Processor: Broadcom BCM2710A1, quad-core 64-bit SoC (Arm Cortex-A53 @ 1GHz)
Memory: 512MB LPDDR2
Connectivity:
• 2.4GHz IEEE 802.11b/g/n wireless LAN, Bluetooth 4.2, BLE, onboard antenna
• 1 × USB 2.0 interface with OTG
• HAT-compatible 40-pin I/O header footprint
• microSD card slot
• Mini HDMI port
• CSI-2 camera connector
Video:
• HDMI interface
• Composite video
Multimedia:
• H.264, MPEG-4 decode (1080p30)
• H.264 encode (1080p30)
• OpenGL ES 1.1, 2.0 graphics
Input power: 5V DC 2.5A
Operating temperature: -20°C to 70°C
Production lifetime: Raspberry Pi Zero 2 W will remain in production until at least January 2028
Compliance: For a full list of local and regional product approvals,
please visit pip.raspberrypi.com
WARNINGS
• Any external power supply used with Raspberry Pi Zero 2 W shall comply with relevant regulations and standards applicable in the country of intended use.
• This product should be operated in a well-ventilated environment, and if used inside a case, the case should not be covered.
• Whilst in use, this product should be placed on a stable, flat, non-conductive surface, and should not be contacted by conductive items.
• The connection of incompatible devices to Raspberry Pi Zero 2 W may affect compliance, result in damage to the unit, and invalidate the warranty.
• All peripherals used with this product should comply with relevant standards for the country of use and be marked accordingly to ensure that safety and performance requirements are met. These articles include but are not limited to
keyboards, monitors, and mice when used in conjunction with Raspberry Pi Zero 2 W.
• The cables and connectors of all peripherals used with this product must have adequate insulation so that relevant safety requirements are met.
SAFETY INSTRUCTIONS
To avoid malfunction or damage to this product, please observe the following:
• Do not expose to water or moisture, or place on a conductive surface whilst in operation.
• Do not expose to heat from any source; Raspberry Pi Zero 2 W is designed for reliable operation at normal ambient temperatures.
• Take care whilst handling to avoid mechanical or electrical damage to the printed circuit board and connectors.
• Whilst it is powered, avoid handling

Please Note: You will need the newest version of NOOBS or Raspbian for the Pi4, a USB type C power supply or adapter and a micro HDMI cable or adapter
Raspberry Pi 4 Model B is the latest product in the popular Raspberry Pi range of computers. It offers ground-breaking increases in processor speed, multimedia performance, memory, and connectivity compared to the prior-generation Raspberry Pi 3 Model B+, while retaining backwards compatibility and similar power consumption. For the end user, Raspberry Pi 4 Model B provides desktop performance comparable to entry-level x86 PC systems.
This product’s key features include a high-performance 64-bit quad-core processor, dual-display support at resolutions up to 4K via a pair of micro-HDMI ports, hardware video decode at up to 4Kp60, up to 8GB of RAM, dual-band 2.4/5.0 GHz wireless LAN, Bluetooth 5.0, Gigabit Ethernet, USB 3.0, and PoE capability (via a separate PoE HAT add-on).
The dual-band wireless LAN and Bluetooth have modular compliance certification, allowing the board to be designed into end products with significantly reduced compliance testing, improving both cost and time to market.
Specifications
- Processor: Broadcom BCM2711, quad-core Cortex-A72 (ARM v8) 64-bit SoC @ 1.5GHz
- Memory: 2GB, 4GB or 8GB LPDDR4 (depending on model)
- Connectivity: 2.4 GHz and 5.0 GHz IEEE 802.11b/g/n/ac wireless
- LAN, Bluetooth 5.0, BLE Gigabit Ethernet, 2 × USB 3.0 ports, 2 × USB 2.0 ports.
- GPIO: Standard 40-pin GPIO header (fully backwards-compatible with previous boards)
- Video & sound: 2 × micro HDMI ports (up to 4Kp60 supported), 2-lane MIPI DSI display port, 2-lane MIPI CSI camera port, 4-pole stereo audio and composite video port
- Multimedia: H.265 (4Kp60 decode); H.264 (1080p60 decode, 1080p30 encode); OpenGL ES, 3.0 graphics
- SD card support: Micro SD card slot for loading operating system and data storage
- Input power: 5V DC via USB-C connector (minimum 3A1), 5V DC via GPIO header (minimum 3A1)
- Power over Ethernet (PoE)–enabled (requires separate PoE HAT)
- Environment: Operating temperature 0–50oC
- Compliance: For a full list of local and regional product approvals, please visit https://www.raspberrypi.org/documentation/hardware/raspberrypi/conformity.md
- Production lifetime: The Raspberry Pi 4 Model B will remain in production until at least January 2026.
If your new Raspberry Pi 4 is not displaying anything, but is booting:
Please change the following settings in the /boot/config.txt setting. You can access these settings in a few ways.
1. Using another display to access the file: sudo nano /boot/config.txt
2. Insert the SD card into a computer/laptop and open the boot partition
Uncomment and change or add to the bottom of the file:
hdmi_safe=1
hdmi_force_hotplug=1
hdmi_ignore_edid=0xa5000080
hdmi_group=2
hdmi_mode=81 (or 39 this will depend on the type of display)
config_hdmi_boost=9
dtoverlay=vc4-fkms-v3d
max_framebuffers=2
Not all of these settings may be necessary, this will again depend on your type of display, however adding them all and removing one by one will help find the ones you may need.
WARNINGS
• This product should only be connected to an external power supply rated at 5V/3A DC or 5.1V/ 3A DC minimum. A good quality 2.5A power supply can be used if downstream USB peripherals consume less than 500mA in total. Any external power supply used with the Raspberry Pi 4 Model B shall comply with relevant regulations and standards applicable in the country of intended use.
• This product should be operated in a well-ventilated environment and, if used inside a case, the case should not be covered.
• This product should be placed on a stable, flat, non-conductive surface in use and should not be contacted by conductive items.
• The connection of incompatible devices to the GPIO connection may affect compliance and result in damage to the unit and invalidate the warranty.
• All peripherals used with this product should comply with relevant standards for the country of use and be marked accordingly to ensure that safety and performance requirements are met. These articles include but are not limited to keyboards, monitors and mice when used in conjunction with the Raspberry Pi.
• Where peripherals are connected that do not include the cable or connector, the cable or connector must offer adequate insulation and operation in order that the relevant performance and safety requirements are met.
SAFETY INSTRUCTIONS
To avoid malfunction or damage to this product please observe the following:
• Do not expose to water, moisture or place on a conductive surface whilst in operation.
• Do not expose it to heat from any source; Raspberry Pi 4 Model B is designed for reliable operation at normal ambient room temperatures.
• Take care whilst handling to avoid mechanical or electrical damage to the printed circuit board and connectors.
• Avoid handling the printed circuit board whilst it is powered and only handle by the edges to minimise the risk of electrostatic discharge damage.

Please Note: You will need the newest version of NOOBS or Raspbian for the Pi4, a USB type C power supply or adapter and a micro HDMI cable or adapter
Raspberry Pi 4 Model B is the latest product in the popular Raspberry Pi range of computers. It offers ground-breaking increases in processor speed, multimedia performance, memory, and connectivity compared to the prior-generation Raspberry Pi 3 Model B , while retaining backwards compatibility and similar power consumption. For the end user, Raspberry Pi 4 Model B provides desktop performance comparable to entry-level x86 PC systems.
This product’s key features include a high-performance 64-bit quad-core processor, dual-display support at resolutions up to 4K via a pair of micro-HDMI ports, hardware video decode at up to 4Kp60, up to 4GB of RAM, dual-band 2.4/5.0 GHz wireless LAN, Bluetooth 5.0, Gigabit Ethernet, USB 3.0, and PoE capability (via a separate PoE HAT add-on).
The dual-band wireless LAN and Bluetooth have modular compliance certification, allowing the board to be designed into end products with significantly reduced compliance testing, improving both cost and time to market.
Specifications
- Processor: Broadcom BCM2711, quad-core Cortex-A72 (ARM v8) 64-bit SoC @ 1.5GHz
- Memory: 2GB, 4GB or 8GB LPDDR4 (depending on model)
- Connectivity: 2.4 GHz and 5.0 GHz IEEE 802.11b/g/n/ac wireless
- LAN, Bluetooth 5.0, BLE Gigabit Ethernet, 2 × USB 3.0 ports, 2 × USB 2.0 ports.
- GPIO: Standard 40-pin GPIO header (fully backwards-compatible with previous boards)
- Video & sound: 2 × micro HDMI ports (up to 4Kp60 supported), 2-lane MIPI DSI display port, 2-lane MIPI CSI camera port, 4-pole stereo audio and composite video port
- Multimedia: H.265 (4Kp60 decode); H.264 (1080p60 decode, 1080p30 encode); OpenGL ES, 3.0 graphics
- SD card support: Micro SD card slot for loading operating system and data storage
- Input power: 5V DC via USB-C connector (minimum 3A1), 5V DC via GPIO header (minimum 3A1)
- Power over Ethernet (PoE)–enabled (requires separate PoE HAT)
- Environment: Operating temperature 0–50oC
- Compliance: For a full list of local and regional product approvals, please visit https://www.raspberrypi.org/documentation/hardware/raspberrypi/conformity.md
- Production lifetime: The Raspberry Pi 4 Model B will remain in production until at least January 2026.
If your new Raspberry Pi 4 is not displaying anything, but is booting:
Please change the following settings in the /boot/config.txt setting. You can access these settings in a few ways.
1. Using another display to access the file: sudo nano /boot/config.txt
2. Insert the SD card into a computer/laptop and open the boot partition
Uncomment and change or add to the bottom of the file:
hdmi_safe=1
hdmi_force_hotplug=1
hdmi_ignore_edid=0xa5000080
hdmi_group=2
hdmi_mode=81 (or 39 this will depend on the type of display)
config_hdmi_boost=9
dtoverlay=vc4-fkms-v3d
max_framebuffers=2
Not all of these settings may be necessary, this will again depend on your type of display, however adding them all and removing one by one will help find the ones you may need.
WARNINGS
• This product should only be connected to an external power supply rated at 5V/3A DC or 5.1V/ 3A DC minimum. A good quality 2.5A power supply can be used if downstream USB peripherals consume less than 500mA in total. Any external power supply used with the Raspberry Pi 4 Model B shall comply with relevant regulations and standards applicable in the country of intended use.
• This product should be operated in a well-ventilated environment and, if used inside a case, the case should not be covered.
• This product should be placed on a stable, flat, non-conductive surface in use and should not be contacted by conductive items.
• The connection of incompatible devices to the GPIO connection may affect compliance and result in damage to the unit and invalidate the warranty.
• All peripherals used with this product should comply with relevant standards for the country of use and be marked accordingly to ensure that safety and performance requirements are met. These articles include but are not limited to keyboards, monitors and mice when used in conjunction with the Raspberry Pi.
• Where peripherals are connected that do not include the cable or connector, the cable or connector must offer adequate insulation and operation in order that the relevant performance and safety requirements are met.
SAFETY INSTRUCTIONS
To avoid malfunction or damage to this product please observe the following:
• Do not expose to water, moisture or place on a conductive surface whilst in operation.
• Do not expose it to heat from any source; Raspberry Pi 4 Model B is designed for reliable operation at normal ambient room temperatures.
• Take care whilst handling to avoid mechanical or electrical damage to the printed circuit board and connectors.
• Avoid handling the printed circuit board whilst it is powered and only handle by the edges to minimise the risk of electrostatic discharge damage.
Raspberry Pi 4 Model B is the latest product in the popular Raspberry Pi range of computers. It offers ground-breaking increases in processor speed, multimedia performance, memory, and connectivity compared to the prior-generation Raspberry Pi 3 Model B , while retaining backwards compatibility and similar power consumption. For the end user, Raspberry Pi 4 Model B provides desktop performance comparable to entry-level x86 PC systems.
This product’s key features include a high-performance 64-bit quad-core processor, dual-display support at resolutions up to 4K via a pair of micro-HDMI ports, hardware video decode at up to 4Kp60, up to 4GB of RAM, dual-band 2.4/5.0 GHz wireless LAN, Bluetooth 5.0, Gigabit Ethernet, USB 3.0, and PoE capability (via a separate PoE HAT add-on).
The dual-band wireless LAN and Bluetooth have modular compliance certification, allowing the board to be designed into end products with significantly reduced compliance testing, improving both cost and time to market.
Specifications
- Processor: Broadcom BCM2711, quad-core Cortex-A72 (ARM v8) 64-bit SoC @ 1.5GHz
- Memory: 1GB, 2GB or 4GB LPDDR4 (depending on model)
- Connectivity: 2.4 GHz and 5.0 GHz IEEE 802.11b/g/n/ac wireless
- LAN, Bluetooth 5.0, BLE Gigabit Ethernet, 2 × USB 3.0 ports, 2 × USB 2.0 ports.
- GPIO: Standard 40-pin GPIO header (fully backwards-compatible with previous boards)
- Video & sound: 2 × micro HDMI ports (up to 4Kp60 supported), 2-lane MIPI DSI display port, 2-lane MIPI CSI camera port, 4-pole stereo audio and composite video port
- Multimedia: H.265 (4Kp60 decode); H.264 (1080p60 decode, 1080p30 encode); OpenGL ES, 3.0 graphics
- SD card support: Micro SD card slot for loading operating system and data storage
- Input power: 5V DC via USB-C connector (minimum 3A1), 5V DC via GPIO header (minimum 3A1)
- Power over Ethernet (PoE)–enabled (requires separate PoE HAT)
- Environment: Operating temperature 0–50oC
- Compliance: For a full list of local and regional product approvals, please visit https://www.raspberrypi.org/documentation/hardware/raspberrypi/conformity.md
- Production lifetime: The Raspberry Pi 4 Model B will remain in production until at least January 2026.
If your new Raspberry Pi 4 is not displaying anything, but is booting:
Please change the following settings in the /boot/config.txt setting. You can access these settings in a few ways.
1. Using another display to access the file: sudo nano /boot/config.txt
2. Insert the SD card into a computer/laptop and open the boot partition
Uncomment and change or add to the bottom of the file:
hdmi_safe=1
hdmi_force_hotplug=1
hdmi_ignore_edid=0xa5000080
hdmi_group=2
hdmi_mode=81 (or 39 this will depend on the type of display)
config_hdmi_boost=9
dtoverlay=vc4-fkms-v3d
max_framebuffers=2
Not all of these settings may be necessary, this will again depend on your type of display, however adding them all and removing one by one will help find the ones you may need.
WARNINGS
• This product should only be connected to an external power supply rated at 5V/3A DC or 5.1V/ 3A DC minimum. A good quality 2.5A power supply can be used if downstream USB peripherals consume less than 500mA in total. Any external power supply used with the Raspberry Pi 4 Model B shall comply with relevant regulations and standards applicable in the country of intended use.
• This product should be operated in a well-ventilated environment and, if used inside a case, the case should not be covered.
• This product should be placed on a stable, flat, non-conductive surface in use and should not be contacted by conductive items.
• The connection of incompatible devices to the GPIO connection may affect compliance and result in damage to the unit and invalidate the warranty.
• All peripherals used with this product should comply with relevant standards for the country of use and be marked accordingly to ensure that safety and performance requirements are met. These articles include but are not limited to keyboards, monitors and mice when used in conjunction with the Raspberry Pi.
• Where peripherals are connected that do not include the cable or connector, the cable or connector must offer adequate insulation and operation in order that the relevant performance and safety requirements are met.
SAFETY INSTRUCTIONS
To avoid malfunction or damage to this product please observe the following:
• Do not expose to water, moisture or place on a conductive surface whilst in operation.
• Do not expose it to heat from any source; Raspberry Pi 4 Model B is designed for reliable operation at normal ambient room temperatures.
• Take care whilst handling to avoid mechanical or electrical damage to the printed circuit board and connectors.
• Avoid handling the printed circuit board whilst it is powered and only handle by the edges to minimise the risk of electrostatic discharge damage.
Like the Raspberry Pi 3 Model B , the Pi 3 Model A plus boasts a 64-bit quad core processor running at 1.4 GHz, dual-band 2.4 GHz and 5 GHz wireless LAN, and Bluetooth 4.2/BLE. The dual-band wireless LAN comes with modular compliance certification, allowing the board to be designed into end products with significantly reduced wireless LAN compliance testing, improving both cost and time to market.
The Raspberry Pi 3 Model A features 512mb SDRAM (over the Pi 3 B 's 1GB), has no Ethernet port or function, and includes only one USB port. The Raspberry Pi 3 Model A has the same mechanical footprint as the Raspberry Pi 1 Model A .
Please Note. It is recommended to use a 2.5A Power Supply with the Raspberry Pi 3A plus. This purchase is for the Raspberry Pi 3 Model A plus Board only.
Specifications
- Processor
- Broadcom BCM2837B0 chipset.
- 1.4GHz Quad-Core ARM Cortex-A53 (64Bit)
- Connectivity
- 2.4GHz and 5GHz IEEE 802.11.b/g/n/ac wireless LAN, Bluetooth 4.2, BLE
- 1 × USB 2.0 ports
- GPU
- Dual Core VideoCore IV® Multimedia Co-Processor. Provides Open GL ES 2.0, hardware-accelerated OpenVG, and 1080p30 H.264 high-profile decode.
- Capable of 1Gpixel/s, 1.5Gtexel/s or 24GFLOPs with texture filtering and DMA infrastructure
- Memory
- 512mb LPDDR2
- Operating System
- Boots from Micro SD card, running a version of the Linux operating system or Windows 10 IoT
- Dimensions
- 65 x 56 x 8.5mm
- Power
- 5V/2.5A DC via Micro USB Connector
- 5V DC via GPIO Header
Connectors
- Video Output
- HDMI (rev 1.3 & 1.4)
- Composite RCA (PAL and NTSC)
- Audio Output
- Audio Output 3.5mm jack
- HDMI
- USB 1 x USB 2.0 Connector
- GPIO Connector
- 40-pin 2.54 mm (100 mil) expansion header: 2x20 strip
- Providing 27 GPIO pins as well as 3.3 V, 5 V and GND supply lines
- Camera Connector
- 15-pin MIPI Camera Serial Interface (CSI-2)
- Display Connector
- Display Serial Interface (DSI) 15 way flat flex cable connector with two data lanes and a clock lane
- Memory Card Slot
- Push/Pull Micro SDIO
Getting Started with Raspberry Pi
Description:
The Raspberry Pi Zero WH has landed at PiShop! The Raspberry Pi Zero is an ultra low cost and ultra small variant of the original Raspberry Pi. It's tiny, measuring just 65mm x 30mm, and is perfectly designed for embedded applications, wearables, prototyping and any other Pi based tinkering you can think of, on a micro scale! The Raspberry Pi Zero Wireless features on board Wireless Internet & Bluetooth for all your connectivity needs!
The Raspberry Pi Zero features a BCM2835 chipset, overclocked to 1Ghz with 512MB RAM, and the same 1080p video output, so there's plenty of oomph in that little board. It also features the same 40 pin GPIO layout as the Raspberry Pi 2/B /A , with a pre-soldered male header. With it's small form factor and reduction in connectors, the Raspberry Pi Zero only uses ~ 140mA at 5V!
Unlike it's larger brothers and sisters, the Raspberry Pi Zero has an unpopulated composite (RCA) header and an unpopulated reset header. There's also no DSI screen port, no ethernet, no analogue audio and no full sized USB ports. Instead, the Pi Zero features a micro-USB power port, a micro USB OTG host port (for peripherals e.g. WiFi dongle), and a mini HDMI port for video.
HAT Compatibility Note: The Pi Zero is fully compatible with all HAT breakout boards, as it features the same 40 Pin GPIO as the Raspberry Pi 2/B /A
Raspberry Pi Zero Wireless Features:
- BCM2835 chipset, Overclocked to 1Ghz
- 512MB RAM
- Tiny Form Factor: 65mm x 30mm x 5mm
- Fully HAT compatible
- 40pin GPIO with pre-soldered header
- Stream and watch Hi-definition video output at 1080P
- Micro SD Slot for OS
- Tiny Current Draw ~ 140mA at 5V!
- Mini-HDMI for Video
- Micro-USB OTG Host for Data
- Micro-USB for Power
- Micro-CSI Camera Port
- On-Board WiFi
- On-Board Bluetooth
What's in the box?:
1 x Raspberry Pi Zero WH
Resources:
Raspberry Pi Operating System Downloads: https://www.raspberrypi.org/downloads/
Getting Started with Raspberry Pi