round lcd display raspberry pi pricelist

HyperPixel 2.1 Round has all the great features of our other HyperPixels - crisp, brilliant IPS display, touchscreen, and high-speed DPI interface—it"s just rounder! You can use it with any Raspberry Pi with a 40 pin header* but it works particularly nicely with the Pi Zero footprint - we"ve designed it so you can mount a Zero neatly behind it, so you can"t see the Pi when you look at it from the front.

This version of HyperPixel would be great for custom interfaces and control panels - mounted on a wall it would make a really neat, minimalist smart home controller or a stylish "what"s playing" display for your sound system. Everything is pre-soldered and ready to go, just pop it onto your Pi, install our software, and away you go!

* Please note that standoffs and booster headers are not included with Hyperpixel Round - scroll down or check out the extras tabs for some links. You will need a booster header if you want to use Hyperpixel Round with a full size Pi!

HyperPixel 2.1 Round uses a high-speed DPI interface, allowing it to shift 5x more pixel data than the usual SPI interface that these small Pi displays normally use. It has a 60 FPS frame rate and a resolution of approximately 229 pixels per inch (480x480px) on its 2.1" display. The display can show 18-bits of colour (262,144 colours).

The touchscreen variant is capacitive touch, that"s more sensitive and responsive to touch than a resistive touch display, and it"s capable of multi-touch!**

Hyperpixel Round will work with any 40-pin version of the Pi, including Pi Zero and Pi Zero W. If you"re using it with a full-size Pi then you"ll need a booster header to raise it up over the Pi"s USB ports and extended standoffs if you"d like to bolt it in place. If you"re using a Pi Zero or Pi Zero W you won"t need a booster header, but we have some special short standoffs that will let you attach everything securely together in an extra slim package.

If you"re using standoffs to fasten your Hyperpixel and your Pi together, just screw them into the posts on the underside of the HyperPixel PCB and then secure with screws through the mounting holes on your Pi.

Please note: when installing HyperPixel 2.1 Round onto your Pi make sure not to press down on the screen surface. We recommend putting the screen face down on a soft surface and gently wiggling the Pi to mate with the extended header (or GPIO header). If you need to remove your Hyperpixel, take care not to pull on the edges of the glass display - it"s best to hold on to the rectangular PCB. As the glass edges of this display overhang the PCB they"re quite exposed, so it"s worth being extra careful with them.

With this version of HyperPixel, we"ve separated the display drivers and touch drivers which should hopefully make it easier to incorporate touch interfaces into your own programs. To download and install the display drivers:

Note that you"ll need another display, keyboard, and mouse to install the software, or you could do it remotely over SSH if you set your Pi up headlessly.

HyperPixel uses basically all of the GPIO pins o communicate with the Pi (including the standard I2C pins) so it"s not generally possible to use it with other HATs and devices that connect via the GPIO...

...but we have provided an alternate I2C interface broken out on the back that will let you use I2C devices (like sensor breakouts) at the same time as HyperPixel. There are instructions how to set this up in our Hyperpixel 4.0 tutorial (scroll down to the bottom).

Raspberry Pi OS Bullseye includes major changes to how DPI display drivers work - a quick hack to get the screen working (with some loss of rotation/touch functionality) is to comment out dtoverlay=vc4-kms-v3d in boot/config.txt. We"re working on full support for Bullseye, but if you"re after an easy, fully featured Hyperpixel experience you should probably stick with Buster for now:

The driver used in this LCD is GC9A01, with a resolution of 240RGB×240 dots and 129600 bytes of GRAM inside. This LCD supports 12-bits/16-bits/18-bits data bus by MCU interface, which are RGB444, RGB565, RGB666.

For most LCD controllers, the communication method of the controller can be configured, they are usually using 8080 parallel interface, 3-line SPI, 4-line SPI, and other communication methods. This LCD uses a 4-line SPI interface for reducing GPIO and fast speed.LCD

If you are wondering which point is the first pixel of the screen (because the screen is round), you can understand it as a square screen with an inscribed circle drawn in it, and it only displays the content in this inscribed circle. The pixels in other locations are simply discarded (just like most round smartwatches on the market)

Inky wHAT is a 400x300 pixel electronic paper (ePaper / eInk / EPD) display for Raspberry Pi, a larger version of our popular Inky pHAT display, with more than 5x the number of pixels, and available in three colour schemes - red/black/white,...

A high-resolution 8", IPS, 1024x768, HDMI display, with Pimoroni-made display driver board and keypad, that"s perfect for building into projects like arcade cabinets, or just use it as a handy display for your Raspberry Pi!

Build a full-featured media center capable of playing nearly all of your digital media using any 40 pin Raspberry Pi and the Media Center HAT Raspberry Pi touchscreen display. Native support in...

Inky wHAT is a 400x300 pixel electronic paper (ePaper / eInk / EPD) display for Raspberry Pi, a larger version of our popular Inky pHAT display, with more than 5x the number of pixels - red/black/white version.

If you"re looking for the most compact li"l color display for a Raspberry Pi B+, Pi 2, & Pi 3 (most likely a Pi Zero) project, this might be just the thing you need!

In honour of Raspberry Pi"s 10th birthday, we"ve fused a RP2040 microcontroller with an EPD display to make a stylishly monochrome, maker friendly, e-paper badge(r)...

Pico Inky Pack features the speedy 2.9" e-paper display that you can find on Badger 2040, coupled with three handy buttons for interfacing. Equip it to the back of your...

The 3.4 inch Module Named DT034-CL is a TFT-Lcd Module,which the type of transmissive. It is consisted of TFT-LCD Panel, Driver IC, FPC and Back-Light unit.

This unconventional round display is ideally shaped for things like watch faces, speedometers and displaying data in interesting circular ways like pie charts and polar area graphs. You could also use it to add animated eyes to cosplay masks, build a moon phase tracker or just for displaying all the best round GIFs of pizzas, hypnotic spirals and chonky animals.

It"s an IPS display so it has great viewing angles and it"s super-crisp and bright. It"s driven by SPI and you should be able to run it at up to ~60FPS, although anywhere from 10FPS looks good for most uses.

This breakout uses the same ST7789 library as the square version from Pimoroni. The library makes it straightforward to display images, text or graphics, and even display animated GIFs! If you"re using a Raspberry Pi, you can install it with:

Pimoroni"s Python library is set up to use SPI 0 by default on the Pi (BCM 7 for CS, BCM 11 for SCK, and BCM 10 for MOSI), BCM 9 for DC, and BCM 19 for the backlight.

The easiest way to use Pimoroni"s SPI breakouts with a Raspberry Pi Pico is by plugging them into aPico Breakout Garden Base or aPico Breakout Garden Pack.

The module with a round, color IPS 1.28" LCD display and a resolution of 240x240 px, designed to work with the Raspberry Pi Pico. It has a built-in GC9A01 controller that communicates via the SPI interface. 4-way joystick at the user"s disposal. The module is compatible with 3.3 V systems. Full documentation with examples is available on the product Wiki page.