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1. Download grbl controller 64 bit for free. System Utilities downloads - Grbl Controller by Zapmaker and many more programs are available for instant and free download.
2. We currently support most Ruida, Trocen, TopWisdom, and GCode based controllers. Supported GCode controllers,include Grbl, Smoothieware, Grbl-LPC, and Marlin. Supported Ruida controllers include the RDC6442G/S, RDC6445G, RDC6332G, RDLC-320A, and R5-DSP. Supported Trocen controllers include the AWC708C, AWC608, and TL-3120.

My machine (basically this build: https://www.thingiverse.com/thing:1514145) has GRBL 0.9 : https://github.com/grbl/grbl/wiki/Configuring-Grbl-v0.9The documents for newer version are up there too, obviously. It would definitely be good to get v1.1 working in order to learn the process of getting it on a fresh Arduino board. I'll outline the process of how to do that in the section below this one and fill in the details as I get around to figuring them out. Here's what I do know for sure though...

Sending GCode to the Machine

You can use any number of GUIs but the premise is always the same.Once the firmware is on your board, connect it via USB, power it on, and search in your /dev/ directory for your Arduino (type that into Terminal and start typing 'tty' and then hit Tab until something shows up). If you have the Arduino software, use the drop down menus to identify an address like /dev/ttyusb#### or /dev/wchusbserial####The numbers will be unique to your computer. Take note of these.If you're using the Arduino software, connect to the chip through there and open up the Serial Monitor. You can start sending GCode right there.You can also follow examples on GRBL's github source to see .ino files to upload via the Arduino software that run your GCode.

TO USE PYTHON

Get the dependency that allows python to send and receive information over your USB ports.git clone https://github.com/pyserial/pyserial.gitcd pyserial && python setup.py install
(Alternatively, pip install pyserial)
You might need a driver to make sure your computer can communicate with your Arduino.
Chinese knock-offs sometimes don't play nice with these. Use http://www.wch.cn/download/CH341SER_MAC_ZIP.html for the Nano, for example. Google around until your device is listed in /dev/.
Authentic drivers are found at http://www.ftdichip.com/Drivers/VCP.htm

Copy this to a .py file (source: https://github.com/grbl/grbl/blob/master/doc/script/simple_stream.py )

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Name this file streamGcode.py (or whatever)Create a new file named grbl.gcode and put your code in there.Now you can just run python streamGcode.py

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You can also get a sense of what is going on in the python file above and stream GCode commands one-by-one through Python using IPython but at that point, I suggest looking up how to send/receive over the Serial port directly through command-line tools.

TODO Use sys package and create an alias so that you can run a gcode file located anywhere on your computer (to run the above, you would have to be in the same directory as the two files). Throw those edits and instructions up in this tutorial, share it with others.

I think this is how they expect the wiring to be by default: https://github.com/grbl/grbl/wiki/Connecting-Grbl

Step 1 - Clone the GRBL directory

git clone https://github.com/grbl/grbl.git

Step 2 - Configure for your hardware.

TODO This is the bulk of the work. Go ahead and open config.h in the /grbl subdirectory and start editing it according to the custom thing you just built. The ports you wired need to be detailed here. I'm not sure what the default configuration is, but it's Cartesian, not CoreXY.

Step 3 - Configure Paths

DO NOTE THAT THE PATHS MAY BE QUITE DIFFERENT ON YOUR MACHINE.

• Add all those AVR compilers to your computer's $PATH.TODO How to find the compilers on your computer. Mine were in /Arduino.app/Contents/Java/hardware/tools/avr/bin So adding them to my path would look like echo 'export PATH='Arduino.app/Contents/Java/hardware/tools/avr/bin:$PATH' >> ~/.bash_add' (note the colon separating the path)

• Add $DEVPATH to .bash_aliases or .bashrc (LINUX) or .bash_profile (OSX) ... or a new file ~/.bash_add where we'll temporarily store these since we only need them for this.

There are a few ways to do this, including editing the aforementioned files in the text-editor of your choice.From the command line, this looks likeecho 'export DEVPATH='/dev/tty.usbmodem1411' >> ~/.bash_add

• Add $AVRPATH as well.echo 'export AVRPATH='~/Downloads/Arduino.app/Contents/Java/hardware/tools/avr/bin' >> ~/.bash_add

• Wrap UpRun source ~/.bash_add to make Terminal aware of where all the software we'll need to use is located.You can add the above code snippet to your ~/.bashrc file (or equivalent) if you plan to recompile in the future, or just run it each time you want to.

Step 4 - Compile GRBL

This creates a hex file that we then need to flash to the Arduino

For ease, we now add $GRBLHEX to our .bashrc file as well.echo 'export GRBLHEX='/Users/Imogen/Packages/grbl-1.1f.20170801/grbl.hex' >> ~/.bash_custom

Once all the paths and configurations are set, runmake cleanmakein the top-level directory of the GRBL version you cloned (a folder named grbl-1.1f.20170801 or something like that ). Running ls now should reveal the grbl.hex file that you're going to flash.Go to https://github.com/grbl/grbl/wiki/Compiling-Grbl if you want details for Windows or more information in general. It has instructions for flashing right from Arduino, as well as telling you where to find some examples.

Step 5 - Flash your ArduinoMy fake Arduino nano wasn't being recognized by my computer.I downloaded http://sparks.gogo.co.nz/assets/_site_/downloads/CH34x_Install_MAC_10_9_AND_ABOVE.zip and installed it.

Then run

• For v1.+ on the Uno: $AVRPATH/bin/avrdude -C$AVRPATH/etc/avrdude.conf -pm328p -carduino -P$DEVPATH -D -Uflash:w:$GRBLHEX
• For v1.+ on the Duemilanove/Nano: $AVRPATH/bin/avrdude -C$AVRPATH/etc/avrdude.conf -pm328p -carduino -P$DEVPATH -b57600 -D -Uflash:w:$GRBLHEX

_More info, including older versions:https://github.com/grbl/grbl/wiki/Flashing-Grbl-to-an-Arduino

General GRBL Usefulnesshttps://github.com/grbl/grbl/wiki/Interfacing-with-Grbl

I think this is how they expect the wiring to be by default: https://github.com/grbl/grbl/wiki/Connecting-Grbl

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LightBurn talks directly to your laser, without the use of additional software.

We currently support most Ruida, Trocen, TopWisdom, and GCode based controllers. Supported GCode controllers,include Grbl, Smoothieware, Grbl-LPC, and Marlin. Supported Ruida controllers include the RDC6442G/S, RDC6445G, RDC6332G, RDLC-320A, and R5-DSP. Supported Trocen controllers include the AWC708C, AWC608, and TL-3120. More controllers will be added soon, so if you don't see yours listed, send us a message - maybe we're already working on it!

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If your controller is GCode, Ruida, Trocen, or TopWisdom based, even if it's not listed it might be supported already - Download the free trial and try it for yourself. If it doesn't work, sometimes it only takes a day or two to make the required changes to support a new board in these existing families.

Please note that LightBurn does not support the stock M2-Nano board in the popular K40 laser. This board does not offer control of power through software - we recommend upgrading the board to take full advantage of LightBurn.