Reading view

There are new articles available, click to refresh the page.

Raspberry Pi 500 and Raspberry Pi Monitor on sale now

Just in time for Christmas, we’re delighted to announce the release of two hotly anticipated products that we think will look great under the tree. One of them might even fit in a stocking if you push hard enough. Introducing Raspberry Pi 500, available now at $90, and the Raspberry Pi Monitor, on sale at $100: together, they’re your complete Raspberry Pi desktop setup.

With Raspberry Pi, your desk can look this good

Integral calculus

Our original mission at Raspberry Pi was to put affordable, programmable personal computers in the hands of young people all over the world. And while we’ve taken some detours along the way – becoming one of the world’s largest manufacturers of industrial and embedded computers – this mission remains at the heart of almost everything we do. It drives us to make lower-cost products like the $15 Raspberry Pi Zero 2 W, and more powerful products, like our flagship Raspberry Pi 5 SBC. These products provide just the essential processing element of a computer, which can be combined with the family television, and second-hand peripherals, to build a complete and cost-effective system.

But over time we have come to understand the benefits of integration: some people are better served by a system that is ready to use straight out of the box. This need was dramatized during the early days of the COVID pandemic, when we worked with the Raspberry Pi Foundation to deliver thousands of Raspberry Pi 4 Desktop Kits and monitors to young people studying from home in the UK. Our experiences with that programme informed the development of Raspberry Pi 400, our all-in-one PC, whose form factor (and name) harks back to the great 8-bit and 16-bit computers – the BBC Micro, Sinclair Spectrum, and Commodore Amiga – of the 1980s and 1990s.

Meet Raspberry Pi 500

In the four years since it launched, Raspberry Pi 400 has become a hugely popular choice for enthusiasts and educators. And today, we’re launching its successor, Raspberry Pi 500, bringing the features and performance of the Raspberry Pi 5 platform to our all-in-one form factor:

  • 2.4GHz quad-core 64-bit Arm Cortex-A76 processor
  • 8GB LPDDR4X-4267 SDRAM
  • VideoCore VII GPU, supporting OpenGL ES 3.1 and Vulkan 1.3
  • Dual 4Kp60 HDMI® display output
  • Dual-band 802.11ac Wi-Fi® and Bluetooth 5.0
  • 2 × USB 3.0 ports, supporting simultaneous 5Gbps operation
  • 1 × USB 2.0 port
  • Gigabit Ethernet port
  • Horizontal 40-pin Raspberry Pi GPIO connector
The ultimate compact PC

Raspberry Pi 500 is priced at $90, including a 32GB Raspberry Pi-branded SD card, and is also available in a $120 Desktop Kit, which adds:

  • Raspberry Pi Mouse
  • Raspberry Pi 27W USB-C Power Supply
  • 2m micro HDMI to HDMI cable
  • Raspberry Pi Beginner’s Guide, 5th Edition

The vision thing – an official Raspberry Pi Monitor

Although it’s highly integrated, Raspberry Pi 500 is only half the story: to build a complete system, you still need a display device. Which is why we’re also launching the Raspberry Pi Monitor, available now at $100. Designed to coordinate perfectly with your Raspberry Pi 500 or cased Raspberry Pi 5, it incorporates a 15.6″ full HD IPS panel with a 45% colour gamut and an 80° viewing angle, together with a pair of 1.2W speakers, in a slender enclosure with a fold-away integrated stand and VESA mounting points.

The perfect desktop display companion for your Raspberry Pi or lesser computer

Power is provided via a USB-C connector. Cost-conscious users can power the monitor directly from their Raspberry Pi via the included USB-A to USB-C cable; in this mode display brightness is limited to 60% of maximum (still quite bright!) and volume to 50% of maximum (still quite loud!). Using a dedicated USB-C supply capable of delivering 5V/3A, like the Raspberry Pi 15W USB-C Power Supply, enables the full brightness and volume ranges.

Faster, better, cheaper: Raspberry Pi 400 price cuts

While we’re incredibly excited about Raspberry Pi 500, we need to remember that cost remains a barrier to access for many people, young and old. So we’re also taking this opportunity to cut the price of Raspberry Pi 400 from $70 to $60, and the Raspberry Pi 400 Personal Computer Kit from $100 to $80. We’re also bundling a Raspberry Pi-branded SD card with every Raspberry Pi 400, to help you get the best possible performance out of the system.

We know that quite a few of you have been eagerly awaiting both of our new products, and we hope you enjoy them now they’re here. We’ve seen Raspberry Pi 400 everywhere from retro gaming setups to university exam facilities and hospital offices; we’re really looking forward to finding out where Raspberry Pi 500 and our new Raspberry Pi Monitor end up.

The post Raspberry Pi 500 and Raspberry Pi Monitor on sale now appeared first on Raspberry Pi.

Compute Module 5 on sale now from $45

Today we’re happy to announce the much-anticipated launch of Raspberry Pi Compute Module 5, the modular version of our flagship Raspberry Pi 5 single-board computer, priced from just $45.

An unexpected journey

We founded the Raspberry Pi Foundation back in 2008 with a mission to give today’s young people access to the sort of approachable, programmable, affordable computing experience that I benefitted from back in the 1980s. The Raspberry Pi computer was, in our minds, a spiritual successor to the BBC Micro, itself the product of the BBC’s Computer Literacy Project.

But just as the initially education-focused BBC Micro quickly found a place in the wider commercial computing marketplace, so Raspberry Pi became a platform around which countless companies, from startups to multi-billion-dollar corporations, chose to innovate. Today, between seventy and eighty percent of Raspberry Pi units go into industrial and embedded applications.

While many of our commercial customers continue to use the “classic” single-board Raspberry Pi form factor, there are those whose needs aren’t met by that form factor, or by the default set of peripherals that we choose to include on the SBC product. So, in 2014 we released the first Raspberry Pi Compute Module, providing just the core functionality of Raspberry Pi 1 – processor, memory, non-volatile storage and power regulation – in an easy-to-integrate SODIMM module.

Compute Modules make it easier than ever for embedded customers to build custom products which benefit from our enormous investments in the Raspberry Pi hardware and software platform. Every subsequent generation of Raspberry Pi, except for Raspberry Pi 2, has spawned a Compute Module derivative. And today, we’re happy to announce the launch of Compute Module 5, the modular version of our flagship Raspberry Pi 5 SBC.

Meet Compute Module 5

Compute Module 5 gives you everything you love about Raspberry Pi 5, but in a smaller package:

  • A 2.4GHz quad-core 64-bit Arm Cortex-A76 CPU
  • A VideoCore VII GPU, supporting OpenGL ES 3.1 and Vulkan 1.3
  • Dual 4Kp60 HDMI® display output
  • A 4Kp60 HEVC decoder
  • Optional dual-band 802.11ac Wi-Fi® and Bluetooth 5.0
  • 2 × USB 3.0 interfaces, supporting simultaneous 5Gbps operation
  • Gigabit Ethernet, with IEEE 1588 support
  • 2 × 4-lane MIPI camera/display transceivers
  • A PCIe 2.0 x1 interface for fast peripherals
  • 30 GPIOs, supporting 1.8V or 3.3V operation
  • A rich selection of peripherals (UART, SPI, I2C, I2S, SDIO, and PWM)

It is available with 2GB, 4GB, or 8GB of LPDDR4X-4267 SDRAM, and with 16GB, 32GB, or 64GB of MLC eMMC non-volatile memory. 16GB SDRAM variants are expected to follow in 2025.

Compute Module 5 is mechanically compatible with its predecessor, Compute Module 4, exposing all signals through a pair of high-density perpendicular connectors, which attach to corresponding parts on the customer’s carrier board. Additional stability is provided by four M2.5 mounting holes arranged at the corners of the board.

There are a small number of changes to the pin-out and electrical behaviour of the module, mostly associated with the removal of the two two-lane MIPI interfaces, and the addition of two USB 3.0 interfaces. A detailed summary of these changes can be found in the Compute Module 5 datasheet.

Accessories accessorise

But Compute Module 5 is only part of the story. Alongside it, we’re offering a range of new accessories to help you get the most out of our new modular platform.

IO Board

Every generation of Compute Module has been accompanied by an IO board, and Compute Module 5 is no exception.

The Raspberry Pi Compute Module 5 IO Board breaks out every interface from a Compute Module 5. It serves both as a development platform and as reference baseboard (with design files in KiCad format), reducing the time to market for your Compute Module 5-based designs.

The IO Board features:

  • A standard 40-pin GPIO connector
  • 2 × full-size HDMI 2.0 connectors
  • 2 × 4-lane MIPI DSI/CSI-2 FPC connectors (22-pin, 0.5mm pitch cable)
  • 2 × USB 3.0 connectors
  • A Gigabit Ethernet jack with PoE+ support (requires a separate Raspberry Pi PoE+ HAT+)
  • An M.2 M-key PCIe socket (for 2230, 2242, 2260 and 2280 modules)
  • A microSD card socket (for use with Lite modules)
  • An RTC battery socket
  • A 4-pin fan connector

Power is provided by a USB-C power supply (sold separately).

IO Case

As in previous generations, we expect some users to deploy the IO Board and Compute Module combination as a finished product in its own right: effectively an alternative Raspberry Pi form factor with all the connectors on one side. To support this, we are offering a metal case which turns the IO Board into a complete encapsulated industrial-grade computer. The Raspberry Pi IO Case for Raspberry Pi Compute Module 5 includes an integrated fan, which can be connected to the 4-pin fan connector on the IO Board to improve thermal performance.

Cooler

While Compute Module 5 is our most efficient modular product yet in terms of energy consumed per instruction executed, like all electronic products it gets warm under load. The Raspberry Pi Cooler for Raspberry Pi Compute Module 5 is a finned aluminium heatsink, designed to fit on a Compute Module 5, and including thermal pads to optimise heat transfer from the CPU, memory, wireless module and eMMC.

Antenna Kit

Wireless-enabled variants of Compute Module 5 provide both an onboard PCB antenna, and a UFL connector for an external antenna. Use of the Raspberry Pi Antenna Kit (identical to that already offered for use with Compute Module 4) with Compute Module 5 is covered by our FCC modular compliance.

Development Kit

The Raspberry Pi Development Kit for Raspberry Pi Compute Module 5 comprises a Compute Module 5, an IO Board, and all the other accessories you need to start building your own design:

  • CM5104032 (Compute Module 5, with wireless, 4GB RAM, 32GB eMMC storage)
  • IO Case for Compute Module 5
  • Compute Module 5 IO Board
  • Cooler for Compute Module 5
  • Raspberry Pi 27W USB-C PD Power Supply (local variant as applicable)
  • Antenna Kit
  • 2 × Raspberry Pi standard HDMI to HDMI Cable
  • Raspberry Pi USB-A to USB-C Cable

Early adopters

Today’s launch is accompanied by announcements of Compute Module 5-based products from our friends at KUNBUS and TBS, who have built successful products on previous Raspberry Pi Compute Modules and whom we have supported to integrate our new module into their latest designs. Other customers are preparing to announce their own Compute Module 5-powered solutions over the next weeks and months. The world is full of innovative engineering companies of every scale, and we’re excited to discover the uses to which they’ll put our powerful new module. Try Compute Module 5 for yourself and let us know what you build with it.

The post Compute Module 5 on sale now from $45 appeared first on Raspberry Pi.

Raspberry Pi Pico 2 W on sale now at $7

Update: In advance of official MicroPython support for Pico 2 W, you can download our unofficial MicroPython build here; you’ll find the README here.

Today our epic autumn of product launches continues with Raspberry Pi Pico 2 W, the wireless-enabled variant of this summer’s Pico 2. Built around our brand new RP2350 microcontroller, featuring the tried and tested wireless modem from the original Pico W, and priced at just $7, it’s the perfect centrepiece for your connected Internet of Things projects.

raspberry pi pico 2 w hero

RP2350: the connoisseur’s microcontroller, redux

When we launched our debut microcontroller, RP2040, way back in 2021, we couldn’t have imagined the incredible range of products that would be built around it, or the uses that the community would put them to. Combining a symmetric pair of fast integer cores; a large, banked, on-chip memory; rich support for high-level languages; and our patented programmable I/O (PIO) subsystem, it quickly became the go-to device for enthusiasts and professional engineers seeking high-performance, deterministic interfacing at a low price point.

close up raspberry pi pico 2 w

RP2350 builds on this legacy, offering faster cores, more memory, floating point support, on-chip OTP, optimised power consumption, and a rich security model built around Arm’s TrustZone for Cortex-M. It debuted in August on Pico 2, on the DEF CON 32 badge (designed by our friends at Entropic Engineering, with firmware and a gonzo sidewalk badge presentation by the redoubtable Dmitry Grinberg), and on a wide variety of development boards and other products from our early-access partners.

Wireless things

Many of the projects and products that people build on top of our platforms — whether that’s our Linux-capable Raspberry Pi computers, our microcontroller boards, or our silicon products — answer to the general description “Internet of Things”. They combine local compute, storage, and interfacing to the real world with connectivity back to the cloud.

Raspberry Pi Pico 2 W brings all the power of RP2350 to these IoT projects. The on-board CYW43439 modem from our friends at Infineon provides 2.4GHz 802.11n wireless LAN and Bluetooth 5.2 connectivity, and is supported by C and MicroPython libraries. Enthusiasts benefit from the breadboard-friendly Pico form factor, while our upcoming RM2 radio module (already in use on Pimoroni’s Pico Plus 2 W) provides a route to scale for professional products which have been prototyped on the platform.

lifestyle raspberry pi pico 2 w

More to come

We’re very pleased with how Pico 2 W has turned out. And, where the Pico 1 series ended with Pico W, we have a few more ideas in mind for the Pico 2 series. Keep an eye out for more news in early 2025.

The post Raspberry Pi Pico 2 W on sale now at $7 appeared first on Raspberry Pi.

Raspberry Pi USB 3 Hub on sale now at $12

Most Raspberry Pi single-board computers, with the exception of the Raspberry Pi Zero and A+ form factors, incorporate an on-board USB hub to fan out a single USB connection from the core silicon, and provide multiple downstream USB Type-A ports. But no matter how many ports we provide, sometimes you just need more peripherals than we have ports. And with that in mind, today we’re launching the official Raspberry Pi USB 3 Hub, a high-quality four-way USB 3.0 hub for use with your Raspberry Pi or other, lesser, computer.

Key features include:

  • A single upstream USB 3.0 Type-A connector on an 8 cm captive cable
  • Four downstream USB 3.0 Type-A ports
  • Aggregate data transfer speeds up to 5 Gbps
  • USB-C socket for optional external 3A power supply (sold separately)

Race you to the bottom

Why design our own hub? Well, we’d become frustrated with the quality and price of the hubs available online. Either you pay a lot of money for a nicely designed and reliable product, which works well with a broad range of hosts and peripherals; or you cheap out and get something much less compatible, or unreliable, or ugly, or all three. Sometimes you spend a lot of money and still get a lousy product.

It felt like we were trapped in a race to the bottom, where bad quality drives out good, and marketplaces like Amazon end up dominated by the cheapest thing that can just about answer to the name “hub”.

So, we worked with our partners at Infineon to source a great piece of hub silicon, CYUSB3304, set Dominic to work on the electronics and John to work on the industrial design, and applied our manufacturing and distribution capabilities to make it available at the lowest possible price. The resulting product works perfectly with all models of Raspberry Pi computer, and it bears our logo because we’re proud of it: we believe it’s the best USB 3.0 hub on the market today.

Grab one and have a play: we think you’ll like it.

The post Raspberry Pi USB 3 Hub on sale now at $12 appeared first on Raspberry Pi.

Raspberry Pi Touch Display 2 on sale now at $60

Way back in 2015, we launched the Raspberry Pi Touch Display, a 7″ 800×480-pixel LCD panel supporting multi-point capacitive touch. It remains one of our most popular accessories, finding a home in countless maker projects and embedded products. Today, we’re excited to announce Raspberry Pi Touch Display 2, at the same low price of $60, offering both a higher 720×1280-pixel resolution and a slimmer form factor.

A Raspberry Pi Touch Display 2 lying on a flat surface, displaying the Raspberry Pi OS Desktop

Key features of Raspberry Pi Touch Display 2 include:

  • 7″ diagonal display
  • 88mm × 155mm active area
  • 720 (RGB) × 1280 pixels
  • True multi-touch capacitive panel, supporting five-finger touch
  • Fully supported by Raspberry Pi OS
  • Powered from the host Raspberry Pi

Simple setup

Touch Display 2 is powered from your Raspberry Pi, and is compatible with all Raspberry Pi computers from Raspberry Pi 1B+ onwards, except for the Raspberry Pi Zero series which lack the necessary DSI port. It attaches securely to your Raspberry Pi with four screws, and ships with power and data cables compatible with both standard and mini FPC connector formats. Unlike its predecessor, Touch Display 2 integrates the display driver PCB into the display enclosure itself, delivering a much slimmer form factor.

A Raspberry Pi Touch Display 2 upright on a blue cutting board on a bench, facing away from the viewer so the reverse of the display with the host Raspberry Pi 5, ribbon data cable, and power cables are visible. A soldering iron and a benchtop multimeter with crocodile leads are also on the bench.

Like its predecessor, Touch Display 2 is fully supported by Raspberry Pi OS, which provides drivers to support five-finger touch and an on-screen keyboard. This gives you full functionality without the need for a keyboard or mouse. While it is a native portrait-format 720×1280-pixel panel, Raspberry Pi OS supports screen rotation for users who would prefer to use it in landscape orientation.

Consistent with our commitment to long product availability lifetimes, the original Touch Display will remain in production for the foreseeable future, though it is no longer recommended for new designs. Touch Display 2 will remain in production until 2030 at the earliest, allowing our embedded and industrial customers to build it into their products and installations with confidence.

We’ve never gone nine years between refreshes of a significant accessory before. But we took the time to get this one just right, and are looking forward to seeing how you use Touch Display 2 in your projects and products over the next nine years and beyond.

The post Raspberry Pi Touch Display 2 on sale now at $60 appeared first on Raspberry Pi.

Raspberry Pi SSDs and SSD Kits on sale now

To help you get the best out of your Raspberry Pi 5, today we’re launching a range of Raspberry Pi-branded NVMe SSDs. They are available both on their own and bundled with our M.2 HAT+ as ready-to-use SSD Kits.

The image depicts a Raspberry Pi single-board computer with an M.2 HAT attached. The HAT (Hardware Attached on Top) is labeled "Raspberry Pi M.2 HAT," and it supports an M.2 key slot, which is a standardized slot for attaching M.2 SSDs or other compatible devices.

In the image, there is an M.2 module connected to the HAT, likely providing additional storage or interfacing with specific hardware for performance enhancements. This setup is often used to expand storage capabilities or add custom hardware accelerators for applications like fast booting, large file storage, or computational purposes when connected to a Raspberry Pi. The M.2 module can be seen secured to the HAT via screws and has various regulatory markings visible.

The Raspberry Pi itself, underneath the HAT, is partially obscured, but you can see key features such as the HDMI ports, USB ports, and Ethernet jack. This combination is useful for those looking to boost their Raspberry Pi's storage capacity or performance through M.2 SSDs.

When we launched Raspberry Pi 5, almost exactly a year ago, I thought the thing people would get most excited about was the three-fold increase in performance over 2019’s Raspberry Pi 4. But very quickly it became clear that it was the other new features – the power button (!), and the PCI Express port – that had captured people’s imagination.

We’ve seen everything from Ethernet adapters, to AI accelerators, to regular PC graphics cards attached to the PCI Express port. We offer our own low-cost M.2 HAT+, which converts from our FPC standard to the standard M.2 M-key format, and there are a wide variety of third-party adapters which do basically the same thing. We’ve also released an AI Kit, which bundles the M.2 HAT+ with an AI inference accelerator from our friends at Hailo.

512GB variant
256GB variant

But the most popular use case for the PCI Express port on Raspberry Pi 5 is to attach an NVMe solid-state disk (SSD). SSDs are fast; faster even than our branded A2-class SD cards. If no-compromises performance is your goal, you’ll want to run Raspberry Pi OS from an SSD, and Raspberry Pi SSDs are the perfect choice.

This image shows a Raspberry Pi setup on a wooden surface, with a Raspberry Pi connected to an M.2 HAT (labeled "Raspberry Pi M.2 HAT M Key") and an attached M.2 SSD module. The Raspberry Pi is powered via a red USB cable, plugged into one of the ports.

The setup includes a white Raspberry Pi keyboard and a matching red and white mouse, connected to the Raspberry Pi, suggesting this is a complete desktop computing setup. The keyboard and mouse are placed on the desk next to the Raspberry Pi, and the mouse sits on a mousepad featuring a bright red and blue design that complements the color scheme of the peripherals.

The setup is wired with multiple connections, including two white USB cables going into the Raspberry Pi, likely connecting other peripherals like the keyboard and mouse, and a red Ethernet or power cable.

This configuration is typically used for light computing tasks, educational purposes, and experimenting with hardware or software using a Raspberry Pi with expandable M.2 storage for enhanced functionality.

The entry-level 256GB drive is priced at $30 on its own, or $40 as a kit; its 512GB big brother is priced at $45 on its own, or $55 as a kit. Both densities offer minimum 4KB random read and write performance of 40k IOPS and 70k IOPS respectively. The 256GB SSD and SSD Kit are available to buy today, while the 512GB variants are available to pre-order now for shipping by the end of November.

So, there you have it: a cost-effective way to squeeze even more performance out of your Raspberry Pi 5. Enjoy!

The post Raspberry Pi SSDs and SSD Kits on sale now appeared first on Raspberry Pi.

❌