I'm getting a black screen in Open Camera. I believe they do support MJPEG capture (at least one I can choose MJPEG at 640x480 on PC and get valid input) Am not able to get any UVC devices (that were working on 18.1) going. Other things there are supposed to work include GPIO, SPI, USB-C (ADB, MTP, PTP, USB tethering), GPS using an external USB module like U-Blox 7, Ethernet, HDMI display and HDMI-CEC, I2C IR remotes using an external GPIO IR module like TSOP4838, RTC using an external GPIO I2C module like DS3231.įurthermore, sensors like accelerometer, gyroscope, humidity, magnetometer, pressure and temperature also works using an external GPIO I2C module like MPU6050, LSM6DS3, LSM303DLHC and BME280/BMP280, as well as serial console using an external GPIO serial console adapter like PL2303.Tried this out this evening, generally looks good. The built-in file manager is very useful for managing all of your files in case you want to make Android 12 your daily driver on the Raspberry Pi. Of course, you will be able to fully use a USB keyboard and mouse, as well as USB storage devices like flash drives or SSD and HDD disks. Talking about Bluetooth, Bluetooth (and Wi-Fi) tethering also works and I was able to connect with my smartphone to my Raspberry Pi without effort. Hifiberry DAC+, as well as USB microphones. Audio DAC should also work using GPIO DACs e.g. What I can confirm is that audio is working very well via bluetooth headsets, but it doesn’t work for me via the 3.5mm audio jack of the Raspberry Pi 4.Īccording to the developer, audio should work via HDMI, the 3.5mm audio jack, and Bluetooth. I don’t have a touchscreen, so I cannot confirm that it’s working. What also works is support for touchscreens with multi-touch, including USB touchscreens and Waveshare SPI touchscreens. The developer is still working on enabling hardware video decoding and encoding, but for now you’ll have to settle with hardware accelerated graphics (V3D, OpenGL and Vulkan), as well as software decoding and encoding. Web browsing works well too, and you can even play YouTube videos, but not in HD or FullHD formats, yet. Of course, you can even enable a dark mode, which looks really cool. Swiping up on the home screen will reveal all installed apps (Files, Calculator, Calendar, Contacts, Clock, Recorder, Gallery, Music, Browser, Camera), including the Settings app, from where you can set up your entire Android OS. Further swiping down will reveal more quick settings. Once connected, they will be remembered after reboot and you can easily turn them on and off if you swipe down the screen from the top with the left mouse click. There are two workspaces (home screens) available by default and you can easily customize widgets or the wallpaper by long-pressing the left mouse click anywhere on the home screen.Ĭonnecting to Wi-Fi (both 2.4Ghz and 5Ghz networks are supported) and Bluetooth is quite easy from settings. There’s no initial setup of a Google account or anything, so once you boot the operating system from the microSD card, you’ll enter the desktop session immediately. The image is distributed in the same format as any other Raspberry Pi operating system, which means that after you’ve downloaded the image (see direct download link at the end of the article), you’ll be able to easily write it on a microSD card with the official Raspberry Pi Imager utility or a similar tool. Here’s my first look!Ĭreated by renowned XDA member KonstaT (KonstaKANG), there’s now an unofficial LineageOS 19.0 build for Raspberry Pi 4 Model B, Raspberry P 400, and Raspberry P Compute Module 4 (CM4) computers, based on the Android 12 mobile operating system and, to my surprise, it runs quite well. Even if your smartphone doesn’t run Android 12 yet, you can now use Google’s latest mobile operating system on a Raspberry Pi 4, 400 or CM4 computer.
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