Log in using the display and USB keyboard (pi/raspberry), and type this command to determine the kernel version. The version and the number will be important in the next step. I use the below wpa_nf setup: ctrl_interface=DIR=/var/run/wpa_supplicant GROUP=netdevĪfter the wpa_nf is created, put the microSD card into the Pi Zero, then give it power to boot up.įirst we need to determine the kernel version, which will be used to download the proper version of the 8188eu driver. In Raspbian Stretch you need these lines in wpa_nf Explained here in the Raspberry Pi Forums. This will be important at the end of the tutorial, but we do it now to take care of it. This wpa_nf contains all the settings and credentials which allow the Pi to connect to your WiFi router. What do I need to do before I install the driver?īurn the latest Raspbian Lite image on the microSD card, and before you boot it for the first time, create the wpa_nf file on the boot partition. The driver files are uploaded to his website, and the file’s naming convention for the necessary kernel is explained here in the corresponding Raspberry Pi forum post. MrEngman is the developer of this solution, and he’s regularly uploading new drivers as new kernels come out. You’ll also need a microSD card (at least 2GB), and and a microUSB power source (at least 2A). You need to connect the Pi to a display via miniHDMI adapter and HDMI cable, you also need a USB-OTG adapter to connect the USB keyboard to the microUSB port of the Pi Zero. After successful connection to WiFi, you don’t need the keyboard and display anymore, and you’ll be able to use an SSH client on your computer to connect to the Pi. Unfortunately, you need a keyboard and a display connected to the Pi Zero to setup this, so you can’t go completely headless during the setup process. Zaxis=5.0 // Move speed in mm/s for manual movesĮaxisExtrude=2.0 // Move speed in mm/s for manual movesĮaxisRetract=20.Last Updated on Sep 2, 2020The RTL8188eu WiFi chip is not supported in Raspbian Lite out of the box, so we need a few things to make it work, but I’ll show you how. Yaxis=50.0 // Move speed in mm/s for manual moves Xaxis=50.0 // Move speed in mm/s for manual moves Zhome=0.0 // Coordinates after homing x axis Yhome=150.0 // Coordinates after homing x axis Xhome=159.0 // Coordinates after homing x axis OkAfterResend=true // Does your firmware send a ok after sending a resend $ * Communication protocol used to communicate with this printer:Ġ = ascii protocol - works with all reprap firmwaresġ = Repetier-Protocol V1 - requires Repetier-FirmwareĢ = Repetier-Protocol V2 - requires Repetier-Firmware 0.80 or higher */ ReadCacheSize=63 // Size of the printer cache. PingPong=false // Allow sending more then one command if it fits into prin$ SlugName="Solidoodle2" // Unique name with ascii chars without space,tab. Here is what went into the solidoodle2.cfg file that I mentioned: That combined with a pass through port on my router and a connection (also setup the Raspberry Pi as a VPN server), and I can now print things at home from work all via the web :-) Works on my 512Mb Raspberry Pi, though I did have to create a profile to connect to the solidoodle2, and recompile Marlin with the serial link set to 115200 baud. repetier/Repetier-Server - not enough posts to post a link apparently.
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