Personal fork of gnea-grbl (https://github.com/gnea/grbl)
| arc_algorithm | ||
| config.h | ||
| COPYING | ||
| gcode.c | ||
| gcode.h | ||
| main.c | ||
| Makefile | ||
| motion_control.c | ||
| motion_control.h | ||
| nuts_bolts.h | ||
| readme.txt | ||
| serial_protocol.c | ||
| serial_protocol.h | ||
| spindle_control.c | ||
| spindle_control.h | ||
| todo.txt | ||
| wiring_private.h | ||
| wiring_serial.c | ||
| wiring_serial.h | ||
Grbl - An embedded rs274/ngc (g-code) interpreter, cartesian bot controller, readout and exerciser for the AVR series of microcontrollers. Inspired by the Arduino GCode Interpreter by Mike Ellery Status: * Linear interpolation machine control complete (No arcs yet) * GCode interpreter complete * Basic serial protocol complete * As of yet completely untested in a real environemnt. Still waiting for my micRo kit from Lumenlab.com Goals: * Runs on the atmega168 * Runs on the Arduino boards with at least an atmega168 * Suitable for both milling and deposition fabrication * Support GCode from common free and cheap CAM-packages right out of the box * Optional support for a alphanumeric LCD readout, a joystick and a few buttons for program control * Optional support for automated cutter length calibration when milling * Support "headless" fabrication by buffering all code to SD-card or similar Limitations: * No support for Arduino software (but will run fine on an Arduino board if you program it with an ISP) * Limited GCode-support. Focus on the kind of GCode produced by automated CAM tools. Leave human GCoders frustrated.