kopia lustrzana https://github.com/gnea/grbl
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| gcode | ||
| legacy | ||
| script | ||
| .gitignore | ||
| COPYING | ||
| Makefile | ||
| config.h | ||
| gcode.c | ||
| gcode.h | ||
| main.c | ||
| motion_control.c | ||
| motion_control.h | ||
| nuts_bolts.h | ||
| readme.txt | ||
| serial_protocol.c | ||
| serial_protocol.h | ||
| spindle_control.c | ||
| spindle_control.h | ||
| stepper.c | ||
| stepper.h | ||
| todo.txt | ||
| wiring_private.h | ||
| wiring_serial.c | ||
| wiring_serial.h | ||
readme.txt
Grbl - An embedded rs274/ngc (g-code) integrater interpreter and motion-controller for the Arduino/AVR328 microcontroller Goal: A no-compromise, high performance, low cost alternative to parallel-port based motion control for CNC milling Status: * Ready for production, but probably rough around the edges still * Highly optimized C utilizing the hardware-timers of the AVR-chip for all critical timing * Able to maintain more than 30kHz step rate, generating an ultra clean, jitter free step-signal * G-code interpreter complete, tested with output from several CAM tools * Standards-compliant g-code arcs/circles fully supported * Buffered, non blocking, asynchronous step generation so the rest of the system is free to process g-code while the steppers are steppin' * Tested on very few (two) CNC rigs Pending: * Battle hardening in the field * Documentation and web-site * Simpler configuration (w/o recompilation) * Optional support for a alphanumeric LCD readout, a joystick and a few buttons for program control * Support "headless" fabrication by buffering all code to SD-card or similar * Easing of feed rate * Spindle control Limitations by design: * Limited GCode-support. Focus on the kind of GCode produced by CAM tools. Leave human GCoders frustrated. * No support for tool offsets (typically handled by CAM-tool) * No rotation axes, only x, y and z. The project was initially inspired by the Arduino GCode Interpreter by Mike Ellery