![]() The software I developed for my NAS is named "ArozOS". This time with huge updates to the previous one I mentioned back in 2018. (Recommend 64GB)Īs both a software and hardware developer, of course I also developed my OS for my NAS. Note that for Raspberry Pi 4, you might need to flip the board up side down and solder wires directly to the bottom test pads.īefore you close it up, install Armbian (non Raspberry Pi) or Raspberry Pi OS (for Raspberrys) on to a SD card with 32GB or above capacity. Here in the last 3 diagram, are the reference connection of my suggested SBC for this project. I also added a cap actor to prevent current surge during startup. In my case, as I don't want to solder directly to the SBC GPIO pins (the Orange Pi Zero uses the GPIO for USB2 and USB3 output, and only expose the USB1 as a physical USB-A port), I use a pref board to make myself a simple plug and play adapter to make my maintenance in the future easier. Depending on your SBC, you might need to add a USB hub inside as well (e.g. Otherwise, you can use a pair of 5V / GND cable for status LED or the back plate fan.Īfter that, connect the USB Host pins to the SBC. If you are using a power hungry SBC like the Raspberry Pi 4, you might need to use all of the 4 outputs from the power regulation board for 5V power. Stay tune and in the following sections, I will show you how to make your own NAS in less than 60 USD!Ĭonnect the 5V output from the power regulation board to the SBC. That is why I finally settle on this design. Acceptable speed, it should be able to playback 1080p video for 1 - 2 people with up/down speed of at least 100Mbps.Low dependencies, it should be with minimal dependencies of a single manufacturer.High compatibility, it should be works with parts that can be purchased all around the globe.Low cost, try to use low cost components and achieve the best performance out of the device. ![]()
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