// Laser control is used by the Muve1 3D printer and the Buildlog.net laser cutter
//
//// The following define selects how to control the laser. Please choose the one that matches your setup.
// The following define selects how to control the laser.
// Please choose the one that matches your setup.
// 1 = Single pin control - LOW when off, HIGH when on, PWM to adjust intensity
// 2 = Two pin control - A firing pin for which LOW = off, HIGH = on, and a seperate intensity pin which carries a constant PWM signal and adjusts duty cycle to control intensity
// mUVe, buildlog.net and K40 chinese machines uses 2, AMRI ablative uses 1, AMRI SLS uses 2
#define LASER_CONTROL 2
// Uncomment the following if your laser firing pin (not the PWM pin) for two pin control requires a HIGH signal to fire rather than a low (eg Red Sail M300 RS 3040)
/// #define HIGH_TO_FIRE
// If your machine has laser focuser, set this to true and it will use Z axis for focus or disable it.
#define LASER_HAS_FOCUS false
/// The following define to use the new HakanBasted laser_pulse method to fire laser. It should be more efficient, but it's less tested.
// The following define to use the new HakanBasted laser_pulse method to fire laser. It should be more efficient, but it's less tested.
// Thanks for it to HakanBastedt that has implemented it for Marlin at https://github.com/HakanBastedt/Marlin
// Uncomment to enable it *USE AT YOUR OWN RISK*, it should work but it's *NOT WELL TESTED YET*
//#define LASER_PULSE_METHOD
// If your machine has laser focuser, set this to true and it will use Z axis for focus or disable it.
#define LASER_HAS_FOCUS false
//// In the case that the laserdriver need at least a certain level "LASER_REMAP_INTENSITY"
// to give anything, the intensity can be remapped to start at "LASER_REMAP_INTENSITY"
// At least some CO2-drivers need it, not sure about laserdiode drivers.
#define LASER_REMAP_INTENSITY 7
// Uncomment the following if your laser firing pin (not the PWM pin) for two pin control requires a HIGH signal to fire rather than a low (eg Red Sail M300 RS 3040)
// #define HIGH_TO_FIRE
//// The following defines select which G codes tell the laser to fire. It's OK to uncomment more than one.
// The following defines select which G codes tell the laser to fire. It's OK to uncomment more than one.
#define LASER_FIRE_G1 10 // fire the laser on a G1 move, extinguish when the move ends
#define LASER_FIRE_SPINDLE 11 // fire the laser on M3, extinguish on M5
#define LASER_FIRE_E 12 // fire the laser when the E axis moves
//// Raster mode enables the laser to etch bitmap data at high speeds. Increases command buffer size substantially.
// Raster mode enables the laser to etch bitmap data at high speeds. Increases command buffer size substantially.
#define LASER_RASTER
#define LASER_MAX_RASTER_LINE 68 // maximum number of base64 encoded pixels per raster gcode command
#define LASER_MAX_RASTER_LINE 68 // Maximum number of base64 encoded pixels per raster gcode command
#define LASER_RASTER_ASPECT_RATIO 1 // pixels aren't square on most displays, 1.33 == 4:3 aspect ratio.
#define LASER_RASTER_MM_PER_PULSE 0.2 //Can be overridden by providing an R value in M649 command : M649 S17 B2 D0 R0.1 F4000
#define LASER_RASTER_MM_PER_PULSE 0.2 //Can be overridden by providing an R value in M649 command : M649 S17 B2 D0 R0.1 F4000
//// Uncomment the following if the laser cutter is equipped with a peripheral relay board
//// to control power to an exhaust fan, cooler pump, laser power supply, etc.
// Uncomment the following if the laser cutter is equipped with a peripheral relay board
// to control power to an exhaust fan, cooler pump, laser power supply, etc.
//#define LASER_PERIPHERALS
//#define LASER_PERIPHERALS_TIMEOUT 30000 // Number of milliseconds to wait for status signal from peripheral control board
//// Uncomment the following line to enable cubic bezier curve movement with the G5 code
// Uncomment the following line to enable cubic bezier curve movement with the G5 code
// #define G5_BEZIER
// Uncomment these options for the mUVe 1 3D printer
// #define CUSTOM_MENDEL_NAME "mUVe1 Printer"
// #define LASER_WATTS 0.05
// #define LASER_DIAMETER 0.1 // milimeters
// #define LASER_PWM 8000 // hertz
// #define MUVE_Z_PEEL // The mUVe 1 uses a special peel maneuver between each layer, it requires independent control of each Z motor
// Uncomment these options for the Buildlog.net laser cutter, and other similar models
#define CUSTOM_MENDEL_NAME "Laser Cutter"
#define LASER_WATTS 40.0
#define LASER_DIAMETER 0.1 // milimeters
#define LASER_PWM 50000 // hertz
#define LASER_FOCAL_HEIGHT 74.50 // z axis position at which the laser is focused
//Uncomment for AMRI Ablative or SLS
//#define CUSTOM_MENDEL_NAME "Laser Cutter"
//#define LASER_WATTS 40.0
//#define LASER_DIAMETER 0.1 // milimeters
//#define LASER_PWM 25000 // hertz
//#define LASER_FOCAL_HEIGHT 74.50 // z axis position at which the laser is focused
// Laser control is used by the Muve1 3D printer and the Buildlog.net laser cutter
//
//// The following define selects how to control the laser. Please choose the one that matches your setup.
// The following define selects how to control the laser.
// Please choose the one that matches your setup.
// 1 = Single pin control - LOW when off, HIGH when on, PWM to adjust intensity
// 2 = Two pin control - A firing pin for which LOW = off, HIGH = on, and a seperate intensity pin which carries a constant PWM signal and adjusts duty cycle to control intensity
// mUVe, buildlog.net and K40 chinese machines uses 2, AMRI ablative uses 1, AMRI SLS uses 2
#define LASER_CONTROL 2
// Uncomment the following if your laser firing pin (not the PWM pin) for two pin control requires a HIGH signal to fire rather than a low (eg Red Sail M300 RS 3040)
/// #define HIGH_TO_FIRE
// If your machine has laser focuser, set this to true and it will use Z axis for focus or disable it.
#define LASER_HAS_FOCUS false
/// The following define to use the new HakanBasted laser_pulse method to fire laser. It should be more efficient, but it's less tested.
// The following define to use the new HakanBasted laser_pulse method to fire laser. It should be more efficient, but it's less tested.
// Thanks for it to HakanBastedt that has implemented it for Marlin at https://github.com/HakanBastedt/Marlin
// Uncomment to enable it *USE AT YOUR OWN RISK*, it should work but it's *NOT WELL TESTED YET*
//#define LASER_PULSE_METHOD
// If your machine has laser focuser, set this to true and it will use Z axis for focus or disable it.
#define LASER_HAS_FOCUS false
//// In the case that the laserdriver need at least a certain level "LASER_REMAP_INTENSITY"
// to give anything, the intensity can be remapped to start at "LASER_REMAP_INTENSITY"
// At least some CO2-drivers need it, not sure about laserdiode drivers.
#define LASER_REMAP_INTENSITY 7
// Uncomment the following if your laser firing pin (not the PWM pin) for two pin control requires a HIGH signal to fire rather than a low (eg Red Sail M300 RS 3040)
// #define HIGH_TO_FIRE
//// The following defines select which G codes tell the laser to fire. It's OK to uncomment more than one.
// The following defines select which G codes tell the laser to fire. It's OK to uncomment more than one.
#define LASER_FIRE_G1 10 // fire the laser on a G1 move, extinguish when the move ends
#define LASER_FIRE_SPINDLE 11 // fire the laser on M3, extinguish on M5
#define LASER_FIRE_E 12 // fire the laser when the E axis moves
//// Raster mode enables the laser to etch bitmap data at high speeds. Increases command buffer size substantially.
// Raster mode enables the laser to etch bitmap data at high speeds. Increases command buffer size substantially.
#define LASER_RASTER
#define LASER_MAX_RASTER_LINE 68 // maximum number of base64 encoded pixels per raster gcode command
#define LASER_MAX_RASTER_LINE 68 // Maximum number of base64 encoded pixels per raster gcode command
#define LASER_RASTER_ASPECT_RATIO 1 // pixels aren't square on most displays, 1.33 == 4:3 aspect ratio.
#define LASER_RASTER_MM_PER_PULSE 0.2 //Can be overridden by providing an R value in M649 command : M649 S17 B2 D0 R0.1 F4000
#define LASER_RASTER_MM_PER_PULSE 0.2 //Can be overridden by providing an R value in M649 command : M649 S17 B2 D0 R0.1 F4000
//// Uncomment the following if the laser cutter is equipped with a peripheral relay board
//// to control power to an exhaust fan, cooler pump, laser power supply, etc.
// Uncomment the following if the laser cutter is equipped with a peripheral relay board
// to control power to an exhaust fan, cooler pump, laser power supply, etc.
//#define LASER_PERIPHERALS
//#define LASER_PERIPHERALS_TIMEOUT 30000 // Number of milliseconds to wait for status signal from peripheral control board
//// Uncomment the following line to enable cubic bezier curve movement with the G5 code
// Uncomment the following line to enable cubic bezier curve movement with the G5 code
// #define G5_BEZIER
// Uncomment these options for the mUVe 1 3D printer
// #define CUSTOM_MENDEL_NAME "mUVe1 Printer"
// #define LASER_WATTS 0.05
// #define LASER_DIAMETER 0.1 // milimeters
// #define LASER_PWM 8000 // hertz
// #define MUVE_Z_PEEL // The mUVe 1 uses a special peel maneuver between each layer, it requires independent control of each Z motor
// Uncomment these options for the Buildlog.net laser cutter, and other similar models
#define CUSTOM_MENDEL_NAME "Laser Cutter"
#define LASER_WATTS 40.0
#define LASER_DIAMETER 0.1 // milimeters
#define LASER_PWM 50000 // hertz
#define LASER_FOCAL_HEIGHT 74.50 // z axis position at which the laser is focused
//Uncomment for AMRI Ablative or SLS
//#define CUSTOM_MENDEL_NAME "Laser Cutter"
//#define LASER_WATTS 40.0
//#define LASER_DIAMETER 0.1 // milimeters
//#define LASER_PWM 25000 // hertz
//#define LASER_FOCAL_HEIGHT 74.50 // z axis position at which the laser is focused
