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# ifndef CONFIGURATION_ADV_H
# define CONFIGURATION_ADV_H
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# include "Conditionals.h"
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// @section temperature
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//===========================================================================
//=============================Thermal Settings ============================
//===========================================================================
# ifdef BED_LIMIT_SWITCHING
# define BED_HYSTERESIS 2 //only disable heating if T>target+BED_HYSTERESIS and enable heating if T>target-BED_HYSTERESIS
# endif
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# define BED_CHECK_INTERVAL 5000 //ms between checks in bang-bang control
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//// Heating sanity check:
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// This waits for the watch period in milliseconds whenever an M104 or M109 increases the target temperature
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// If the temperature has not increased at the end of that period, the target temperature is set to zero.
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// It can be reset with another M104/M109. This check is also only triggered if the target temperature and the current temperature
// differ by at least 2x WATCH_TEMP_INCREASE
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//#define WATCH_TEMP_PERIOD 40000 //40 seconds
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//#define WATCH_TEMP_INCREASE 10 //Heat up at least 10 degree in 20 seconds
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# ifdef PIDTEMP
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// this adds an experimental additional term to the heating power, proportional to the extrusion speed.
// if Kc is chosen well, the additional required power due to increased melting should be compensated.
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# define PID_ADD_EXTRUSION_RATE
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# ifdef PID_ADD_EXTRUSION_RATE
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# define DEFAULT_Kc (1) //heating power=Kc*(e_speed)
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# endif
# endif
//automatic temperature: The hot end target temperature is calculated by all the buffered lines of gcode.
//The maximum buffered steps/sec of the extruder motor are called "se".
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//You enter the autotemp mode by a M109 S<mintemp> B<maxtemp> F<factor>
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// the target temperature is set to mintemp+factor*se[steps/sec] and limited by mintemp and maxtemp
// you exit the value by any M109 without F*
// Also, if the temperature is set to a value <mintemp, it is not changed by autotemp.
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// on an Ultimaker, some initial testing worked with M109 S215 B260 F1 in the start.gcode
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# define AUTOTEMP
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# ifdef AUTOTEMP
# define AUTOTEMP_OLDWEIGHT 0.98
# endif
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//Show Temperature ADC value
//The M105 command return, besides traditional information, the ADC value read from temperature sensors.
//#define SHOW_TEMP_ADC_VALUES
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// @section extruder
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// extruder run-out prevention.
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//if the machine is idle, and the temperature over MINTEMP, every couple of SECONDS some filament is extruded
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//#define EXTRUDER_RUNOUT_PREVENT
# define EXTRUDER_RUNOUT_MINTEMP 190
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# define EXTRUDER_RUNOUT_SECONDS 30.
# define EXTRUDER_RUNOUT_ESTEPS 14. //mm filament
# define EXTRUDER_RUNOUT_SPEED 1500. //extrusion speed
# define EXTRUDER_RUNOUT_EXTRUDE 100
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// @section temperature
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//These defines help to calibrate the AD595 sensor in case you get wrong temperature measurements.
//The measured temperature is defined as "actualTemp = (measuredTemp * TEMP_SENSOR_AD595_GAIN) + TEMP_SENSOR_AD595_OFFSET"
# define TEMP_SENSOR_AD595_OFFSET 0.0
# define TEMP_SENSOR_AD595_GAIN 1.0
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//This is for controlling a fan to cool down the stepper drivers
//it will turn on when any driver is enabled
//and turn off after the set amount of seconds from last driver being disabled again
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# define CONTROLLERFAN_PIN -1 //Pin used for the fan to cool controller (-1 to disable)
# define CONTROLLERFAN_SECS 60 //How many seconds, after all motors were disabled, the fan should run
# define CONTROLLERFAN_SPEED 255 // == full speed
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// When first starting the main fan, run it at full speed for the
// given number of milliseconds. This gets the fan spinning reliably
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// before setting a PWM value. (Does not work with software PWM for fan on Sanguinololu)
//#define FAN_KICKSTART_TIME 100
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// @section extruder
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// Extruder cooling fans
// Configure fan pin outputs to automatically turn on/off when the associated
// extruder temperature is above/below EXTRUDER_AUTO_FAN_TEMPERATURE.
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// Multiple extruders can be assigned to the same pin in which case
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// the fan will turn on when any selected extruder is above the threshold.
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# define EXTRUDER_0_AUTO_FAN_PIN -1
# define EXTRUDER_1_AUTO_FAN_PIN -1
# define EXTRUDER_2_AUTO_FAN_PIN -1
# define EXTRUDER_3_AUTO_FAN_PIN -1
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# define EXTRUDER_AUTO_FAN_TEMPERATURE 50
# define EXTRUDER_AUTO_FAN_SPEED 255 // == full speed
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//===========================================================================
//=============================Mechanical Settings===========================
//===========================================================================
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// @section homing
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# define ENDSTOPS_ONLY_FOR_HOMING // If defined the endstops will only be used for homing
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// @section extras
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//#define Z_LATE_ENABLE // Enable Z the last moment. Needed if your Z driver overheats.
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// A single Z stepper driver is usually used to drive 2 stepper motors.
// Uncomment this define to utilize a separate stepper driver for each Z axis motor.
// Only a few motherboards support this, like RAMPS, which have dual extruder support (the 2nd, often unused, extruder driver is used
// to control the 2nd Z axis stepper motor). The pins are currently only defined for a RAMPS motherboards.
// On a RAMPS (or other 5 driver) motherboard, using this feature will limit you to using 1 extruder.
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//#define Z_DUAL_STEPPER_DRIVERS
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# ifdef Z_DUAL_STEPPER_DRIVERS
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// Z_DUAL_ENDSTOPS is a feature to enable the use of 2 endstops for both Z steppers - Let's call them Z stepper and Z2 stepper.
// That way the machine is capable to align the bed during home, since both Z steppers are homed.
// There is also an implementation of M666 (software endstops adjustment) to this feature.
// After Z homing, this adjustment is applied to just one of the steppers in order to align the bed.
// One just need to home the Z axis and measure the distance difference between both Z axis and apply the math: Z adjust = Z - Z2.
// If the Z stepper axis is closer to the bed, the measure Z > Z2 (yes, it is.. think about it) and the Z adjust would be positive.
// Play a little bit with small adjustments (0.5mm) and check the behaviour.
// The M119 (endstops report) will start reporting the Z2 Endstop as well.
# define Z_DUAL_ENDSTOPS
# ifdef Z_DUAL_ENDSTOPS
# define Z2_STEP_PIN E2_STEP_PIN // Stepper to be used to Z2 axis.
# define Z2_DIR_PIN E2_DIR_PIN
# define Z2_ENABLE_PIN E2_ENABLE_PIN
# define Z2_MAX_PIN 36 //Endstop used for Z2 axis. In this case I'm using XMAX in a Rumba Board (pin 36)
const bool Z2_MAX_ENDSTOP_INVERTING = false ;
# define DISABLE_XMAX_ENDSTOP //Better to disable the XMAX to avoid conflict. Just rename "XMAX_ENDSTOP" by the endstop you are using for Z2 axis.
# endif
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# endif // Z_DUAL_STEPPER_DRIVERS
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// Same again but for Y Axis.
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//#define Y_DUAL_STEPPER_DRIVERS
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// Define if the two Y drives need to rotate in opposite directions
# define INVERT_Y2_VS_Y_DIR true
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// Enable this for dual x-carriage printers.
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// A dual x-carriage design has the advantage that the inactive extruder can be parked which
// prevents hot-end ooze contaminating the print. It also reduces the weight of each x-carriage
// allowing faster printing speeds.
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//#define DUAL_X_CARRIAGE
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# ifdef DUAL_X_CARRIAGE
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// Configuration for second X-carriage
// Note: the first x-carriage is defined as the x-carriage which homes to the minimum endstop;
// the second x-carriage always homes to the maximum endstop.
# define X2_MIN_POS 80 // set minimum to ensure second x-carriage doesn't hit the parked first X-carriage
# define X2_MAX_POS 353 // set maximum to the distance between toolheads when both heads are homed
# define X2_HOME_DIR 1 // the second X-carriage always homes to the maximum endstop position
# define X2_HOME_POS X2_MAX_POS // default home position is the maximum carriage position
// However: In this mode the EXTRUDER_OFFSET_X value for the second extruder provides a software
// override for X2_HOME_POS. This also allow recalibration of the distance between the two endstops
// without modifying the firmware (through the "M218 T1 X???" command).
// Remember: you should set the second extruder x-offset to 0 in your slicer.
// Pins for second x-carriage stepper driver (defined here to avoid further complicating pins.h)
# define X2_ENABLE_PIN 29
# define X2_STEP_PIN 25
# define X2_DIR_PIN 23
// There are a few selectable movement modes for dual x-carriages using M605 S<mode>
// Mode 0: Full control. The slicer has full control over both x-carriages and can achieve optimal travel results
// as long as it supports dual x-carriages. (M605 S0)
// Mode 1: Auto-park mode. The firmware will automatically park and unpark the x-carriages on tool changes so
// that additional slicer support is not required. (M605 S1)
// Mode 2: Duplication mode. The firmware will transparently make the second x-carriage and extruder copy all
// actions of the first x-carriage. This allows the printer to print 2 arbitrary items at
// once. (2nd extruder x offset and temp offset are set using: M605 S2 [Xnnn] [Rmmm])
// This is the default power-up mode which can be later using M605.
# define DEFAULT_DUAL_X_CARRIAGE_MODE 0
// Default settings in "Auto-park Mode"
# define TOOLCHANGE_PARK_ZLIFT 0.2 // the distance to raise Z axis when parking an extruder
# define TOOLCHANGE_UNPARK_ZLIFT 1 // the distance to raise Z axis when unparking an extruder
// Default x offset in duplication mode (typically set to half print bed width)
# define DEFAULT_DUPLICATION_X_OFFSET 100
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# endif //DUAL_X_CARRIAGE
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// @section homing
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//homing hits the endstop, then retracts by this distance, before it tries to slowly bump again:
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# define X_HOME_BUMP_MM 5
# define Y_HOME_BUMP_MM 5
# define Z_HOME_BUMP_MM 2
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# define HOMING_BUMP_DIVISOR {2, 2, 4} // Re-Bump Speed Divisor (Divides the Homing Feedrate)
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//#define QUICK_HOME //if this is defined, if both x and y are to be homed, a diagonal move will be performed initially.
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// @section machine
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# define AXIS_RELATIVE_MODES {false, false, false, false}
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// @section machine
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//By default pololu step drivers require an active high signal. However, some high power drivers require an active low signal as step.
# define INVERT_X_STEP_PIN false
# define INVERT_Y_STEP_PIN false
# define INVERT_Z_STEP_PIN false
# define INVERT_E_STEP_PIN false
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// Default stepper release if idle. Set to 0 to deactivate.
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# define DEFAULT_STEPPER_DEACTIVE_TIME 60
# define DEFAULT_MINIMUMFEEDRATE 0.0 // minimum feedrate
# define DEFAULT_MINTRAVELFEEDRATE 0.0
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// @section lcd
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# ifdef ULTIPANEL
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# define MANUAL_FEEDRATE {50*60, 50*60, 4*60, 60} // Feedrates for manual moves along X, Y, Z, E from panel
# define ULTIPANEL_FEEDMULTIPLY // Comment to disable setting feedrate multiplier via encoder
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# endif
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// @section extras
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// minimum time in microseconds that a movement needs to take if the buffer is emptied.
# define DEFAULT_MINSEGMENTTIME 20000
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// If defined the movements slow down when the look ahead buffer is only half full
# define SLOWDOWN
// Frequency limit
// See nophead's blog for more info
// Not working O
//#define XY_FREQUENCY_LIMIT 15
// Minimum planner junction speed. Sets the default minimum speed the planner plans for at the end
// of the buffer and all stops. This should not be much greater than zero and should only be changed
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
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# define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
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// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
# define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
// Motor Current setting (Only functional when motor driver current ref pins are connected to a digital trimpot on supported boards)
# define DIGIPOT_MOTOR_CURRENT {135,135,135,135,135} // Values 0-255 (RAMBO 135 = ~0.75A, 185 = ~1A)
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// uncomment to enable an I2C based DIGIPOT like on the Azteeg X3 Pro
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//#define DIGIPOT_I2C
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// Number of channels available for I2C digipot, For Azteeg X3 Pro we have 8
# define DIGIPOT_I2C_NUM_CHANNELS 8
// actual motor currents in Amps, need as many here as DIGIPOT_I2C_NUM_CHANNELS
# define DIGIPOT_I2C_MOTOR_CURRENTS {1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0}
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//===========================================================================
//=============================Additional Features===========================
//===========================================================================
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# define ENCODER_RATE_MULTIPLIER // If defined, certain menu edit operations automatically multiply the steps when the encoder is moved quickly
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# define ENCODER_10X_STEPS_PER_SEC 75 // If the encoder steps per sec exceeds this value, multiply steps moved x10 to quickly advance the value
# define ENCODER_100X_STEPS_PER_SEC 160 // If the encoder steps per sec exceeds this value, multiply steps moved x100 to really quickly advance the value
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//#define ENCODER_RATE_MULTIPLIER_DEBUG // If defined, output the encoder steps per second value
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//#define CHDK 4 //Pin for triggering CHDK to take a picture see how to use it here http://captain-slow.dk/2014/03/09/3d-printing-timelapses/
# define CHDK_DELAY 50 //How long in ms the pin should stay HIGH before going LOW again
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// @section lcd
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# ifdef SDSUPPORT
// If you are using a RAMPS board or cheap E-bay purchased boards that do not detect when an SD card is inserted
// You can get round this by connecting a push button or single throw switch to the pin defined as SDCARDCARDDETECT
// in the pins.h file. When using a push button pulling the pin to ground this will need inverted. This setting should
// be commented out otherwise
# define SDCARDDETECTINVERTED
# define SD_FINISHED_STEPPERRELEASE true //if sd support and the file is finished: disable steppers?
# define SD_FINISHED_RELEASECOMMAND "M84 X Y Z E" // You might want to keep the z enabled so your bed stays in place.
# define SDCARD_RATHERRECENTFIRST //reverse file order of sd card menu display. Its sorted practically after the file system block order.
// if a file is deleted, it frees a block. hence, the order is not purely chronological. To still have auto0.g accessible, there is again the option to do that.
// using:
//#define MENU_ADDAUTOSTART
// Show a progress bar on HD44780 LCDs for SD printing
//#define LCD_PROGRESS_BAR
# ifdef LCD_PROGRESS_BAR
// Amount of time (ms) to show the bar
# define PROGRESS_BAR_BAR_TIME 2000
// Amount of time (ms) to show the status message
# define PROGRESS_BAR_MSG_TIME 3000
// Amount of time (ms) to retain the status message (0=forever)
# define PROGRESS_MSG_EXPIRE 0
// Enable this to show messages for MSG_TIME then hide them
//#define PROGRESS_MSG_ONCE
# endif
# endif // SDSUPPORT
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// @section more
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// The hardware watchdog should reset the microcontroller disabling all outputs, in case the firmware gets stuck and doesn't do temperature regulation.
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//#define USE_WATCHDOG
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# ifdef USE_WATCHDOG
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// If you have a watchdog reboot in an ArduinoMega2560 then the device will hang forever, as a watchdog reset will leave the watchdog on.
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// The "WATCHDOG_RESET_MANUAL" goes around this by not using the hardware reset.
// However, THIS FEATURE IS UNSAFE!, as it will only work if interrupts are disabled. And the code could hang in an interrupt routine with interrupts disabled.
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//#define WATCHDOG_RESET_MANUAL
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# endif
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// Enable the option to stop SD printing when hitting and endstops, needs to be enabled from the LCD menu when this option is enabled.
//#define ABORT_ON_ENDSTOP_HIT_FEATURE_ENABLED
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// @section lcd
Add the socalled "Babystepping" feature.
It is a realtime control over the head position via the LCD menu system that works _while_ printing.
Using it, one can e.g. tune the z-position in realtime, while printing the first layer.
Also, lost steps can be manually added/removed, but thats not the prime feature.
Stuff is placed into the Tune->Babystep *
It is not possible to have realtime control via gcode sending due to the buffering, so I did not include a gcode yet. However, it could be added, but it movements will not be realtime then.
Historically, a very similar thing was implemented for the "Kaamermaker" project, while Joris was babysitting his offspring, hence the name.
say goodby to fuddling around with the z-axis.
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// Babystepping enables the user to control the axis in tiny amounts, independently from the normal printing process
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// it can e.g. be used to change z-positions in the print startup phase in real-time
Add the socalled "Babystepping" feature.
It is a realtime control over the head position via the LCD menu system that works _while_ printing.
Using it, one can e.g. tune the z-position in realtime, while printing the first layer.
Also, lost steps can be manually added/removed, but thats not the prime feature.
Stuff is placed into the Tune->Babystep *
It is not possible to have realtime control via gcode sending due to the buffering, so I did not include a gcode yet. However, it could be added, but it movements will not be realtime then.
Historically, a very similar thing was implemented for the "Kaamermaker" project, while Joris was babysitting his offspring, hence the name.
say goodby to fuddling around with the z-axis.
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// does not respect endstops!
//#define BABYSTEPPING
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# ifdef BABYSTEPPING
# define BABYSTEP_XY //not only z, but also XY in the menu. more clutter, more functions
# define BABYSTEP_INVERT_Z false //true for inverse movements in Z
# define BABYSTEP_Z_MULTIPLICATOR 2 //faster z movements
Add the socalled "Babystepping" feature.
It is a realtime control over the head position via the LCD menu system that works _while_ printing.
Using it, one can e.g. tune the z-position in realtime, while printing the first layer.
Also, lost steps can be manually added/removed, but thats not the prime feature.
Stuff is placed into the Tune->Babystep *
It is not possible to have realtime control via gcode sending due to the buffering, so I did not include a gcode yet. However, it could be added, but it movements will not be realtime then.
Historically, a very similar thing was implemented for the "Kaamermaker" project, while Joris was babysitting his offspring, hence the name.
say goodby to fuddling around with the z-axis.
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# endif
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// @section extruder
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// extruder advance constant (s2/mm3)
//
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// advance (steps) = STEPS_PER_CUBIC_MM_E * EXTRUDER_ADVANCE_K * cubic mm per second ^ 2
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//
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// Hooke's law says: force = k * distance
// Bernoulli's principle says: v ^ 2 / 2 + g . h + pressure / density = constant
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// so: v ^ 2 is proportional to number of steps we advance the extruder
//#define ADVANCE
# ifdef ADVANCE
# define EXTRUDER_ADVANCE_K .0
# define D_FILAMENT 2.85
# define STEPS_MM_E 836
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# endif
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// @section extras
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// Arc interpretation settings:
# define MM_PER_ARC_SEGMENT 1
# define N_ARC_CORRECTION 25
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const unsigned int dropsegments = 5 ; //everything with less than this number of steps will be ignored as move and joined with the next movement
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// @section temperature
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// Control heater 0 and heater 1 in parallel.
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//#define HEATERS_PARALLEL
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//===========================================================================
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//================================= Buffers =================================
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//===========================================================================
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// @section hidden
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// The number of linear motions that can be in the plan at any give time.
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// THE BLOCK_BUFFER_SIZE NEEDS TO BE A POWER OF 2, i.g. 8,16,32 because shifts and ors are used to do the ring-buffering.
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# ifdef SDSUPPORT
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# define BLOCK_BUFFER_SIZE 16 // SD,LCD,Buttons take more memory, block buffer needs to be smaller
# else
# define BLOCK_BUFFER_SIZE 16 // maximize block buffer
# endif
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// @section more
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//The ASCII buffer for receiving from the serial:
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# define MAX_CMD_SIZE 96
# define BUFSIZE 4
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// @section fwretract
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// Firmware based and LCD controlled retract
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// M207 and M208 can be used to define parameters for the retraction.
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// The retraction can be called by the slicer using G10 and G11
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// until then, intended retractions can be detected by moves that only extrude and the direction.
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// the moves are than replaced by the firmware controlled ones.
// #define FWRETRACT //ONLY PARTIALLY TESTED
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# ifdef FWRETRACT
# define MIN_RETRACT 0.1 //minimum extruded mm to accept a automatic gcode retraction attempt
# define RETRACT_LENGTH 3 //default retract length (positive mm)
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# define RETRACT_LENGTH_SWAP 13 //default swap retract length (positive mm), for extruder change
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# define RETRACT_FEEDRATE 45 //default feedrate for retracting (mm/s)
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# define RETRACT_ZLIFT 0 //default retract Z-lift
# define RETRACT_RECOVER_LENGTH 0 //default additional recover length (mm, added to retract length when recovering)
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# define RETRACT_RECOVER_LENGTH_SWAP 0 //default additional swap recover length (mm, added to retract length when recovering from extruder change)
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# define RETRACT_RECOVER_FEEDRATE 8 //default feedrate for recovering from retraction (mm/s)
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# endif
Added a feature to have filament change by gcode or display trigger.
[default off for now]
syntax: M600 X[pos] Y[pos] Z[relative lift] E[initial retract] L[later retract distance for removal]
if enabled, after a M600, the printer will retract by E, lift by Z, move to XY, retract even more filament.
Oh, and it will display "remove filament" and beep like crazy.
You are then supposed to insert a new filament (other color, e.g.) and click the display to continue.
After having the nozzle cleaned manually, aided by the disabled e-steppers.
After clicking, the printer will then go back the whole shebang, and continue printing with a fancy new color.
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// Add support for experimental filament exchange support M600; requires display
Added a feature to have filament change by gcode or display trigger.
[default off for now]
syntax: M600 X[pos] Y[pos] Z[relative lift] E[initial retract] L[later retract distance for removal]
if enabled, after a M600, the printer will retract by E, lift by Z, move to XY, retract even more filament.
Oh, and it will display "remove filament" and beep like crazy.
You are then supposed to insert a new filament (other color, e.g.) and click the display to continue.
After having the nozzle cleaned manually, aided by the disabled e-steppers.
After clicking, the printer will then go back the whole shebang, and continue printing with a fancy new color.
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# ifdef ULTIPANEL
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//#define FILAMENTCHANGEENABLE
Added a feature to have filament change by gcode or display trigger.
[default off for now]
syntax: M600 X[pos] Y[pos] Z[relative lift] E[initial retract] L[later retract distance for removal]
if enabled, after a M600, the printer will retract by E, lift by Z, move to XY, retract even more filament.
Oh, and it will display "remove filament" and beep like crazy.
You are then supposed to insert a new filament (other color, e.g.) and click the display to continue.
After having the nozzle cleaned manually, aided by the disabled e-steppers.
After clicking, the printer will then go back the whole shebang, and continue printing with a fancy new color.
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# ifdef FILAMENTCHANGEENABLE
# define FILAMENTCHANGE_XPOS 3
# define FILAMENTCHANGE_YPOS 3
# define FILAMENTCHANGE_ZADD 10
# define FILAMENTCHANGE_FIRSTRETRACT -2
# define FILAMENTCHANGE_FINALRETRACT -100
# endif
# endif
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/******************************************************************************\
* enable this section if you have TMC26X motor drivers .
* you need to import the TMC26XStepper library into the arduino IDE for this
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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// @section tmc
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//#define HAVE_TMCDRIVER
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# ifdef HAVE_TMCDRIVER
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// #define X_IS_TMC
# define X_MAX_CURRENT 1000 //in mA
# define X_SENSE_RESISTOR 91 //in mOhms
# define X_MICROSTEPS 16 //number of microsteps
// #define X2_IS_TMC
# define X2_MAX_CURRENT 1000 //in mA
# define X2_SENSE_RESISTOR 91 //in mOhms
# define X2_MICROSTEPS 16 //number of microsteps
// #define Y_IS_TMC
# define Y_MAX_CURRENT 1000 //in mA
# define Y_SENSE_RESISTOR 91 //in mOhms
# define Y_MICROSTEPS 16 //number of microsteps
// #define Y2_IS_TMC
# define Y2_MAX_CURRENT 1000 //in mA
# define Y2_SENSE_RESISTOR 91 //in mOhms
# define Y2_MICROSTEPS 16 //number of microsteps
// #define Z_IS_TMC
# define Z_MAX_CURRENT 1000 //in mA
# define Z_SENSE_RESISTOR 91 //in mOhms
# define Z_MICROSTEPS 16 //number of microsteps
// #define Z2_IS_TMC
# define Z2_MAX_CURRENT 1000 //in mA
# define Z2_SENSE_RESISTOR 91 //in mOhms
# define Z2_MICROSTEPS 16 //number of microsteps
// #define E0_IS_TMC
# define E0_MAX_CURRENT 1000 //in mA
# define E0_SENSE_RESISTOR 91 //in mOhms
# define E0_MICROSTEPS 16 //number of microsteps
// #define E1_IS_TMC
# define E1_MAX_CURRENT 1000 //in mA
# define E1_SENSE_RESISTOR 91 //in mOhms
# define E1_MICROSTEPS 16 //number of microsteps
// #define E2_IS_TMC
# define E2_MAX_CURRENT 1000 //in mA
# define E2_SENSE_RESISTOR 91 //in mOhms
# define E2_MICROSTEPS 16 //number of microsteps
// #define E3_IS_TMC
# define E3_MAX_CURRENT 1000 //in mA
# define E3_SENSE_RESISTOR 91 //in mOhms
# define E3_MICROSTEPS 16 //number of microsteps
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# endif
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/******************************************************************************\
* enable this section if you have L6470 motor drivers .
* you need to import the L6470 library into the arduino IDE for this
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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// @section l6470
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//#define HAVE_L6470DRIVER
# ifdef HAVE_L6470DRIVER
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// #define X_IS_L6470
# define X_MICROSTEPS 16 //number of microsteps
# define X_K_VAL 50 // 0 - 255, Higher values, are higher power. Be carefull not to go too high
# define X_OVERCURRENT 2000 //maxc current in mA. If the current goes over this value, the driver will switch off
# define X_STALLCURRENT 1500 //current in mA where the driver will detect a stall
// #define X2_IS_L6470
# define X2_MICROSTEPS 16 //number of microsteps
# define X2_K_VAL 50 // 0 - 255, Higher values, are higher power. Be carefull not to go too high
# define X2_OVERCURRENT 2000 //maxc current in mA. If the current goes over this value, the driver will switch off
# define X2_STALLCURRENT 1500 //current in mA where the driver will detect a stall
// #define Y_IS_L6470
# define Y_MICROSTEPS 16 //number of microsteps
# define Y_K_VAL 50 // 0 - 255, Higher values, are higher power. Be carefull not to go too high
# define Y_OVERCURRENT 2000 //maxc current in mA. If the current goes over this value, the driver will switch off
# define Y_STALLCURRENT 1500 //current in mA where the driver will detect a stall
// #define Y2_IS_L6470
# define Y2_MICROSTEPS 16 //number of microsteps
# define Y2_K_VAL 50 // 0 - 255, Higher values, are higher power. Be carefull not to go too high
# define Y2_OVERCURRENT 2000 //maxc current in mA. If the current goes over this value, the driver will switch off
# define Y2_STALLCURRENT 1500 //current in mA where the driver will detect a stall
// #define Z_IS_L6470
# define Z_MICROSTEPS 16 //number of microsteps
# define Z_K_VAL 50 // 0 - 255, Higher values, are higher power. Be carefull not to go too high
# define Z_OVERCURRENT 2000 //maxc current in mA. If the current goes over this value, the driver will switch off
# define Z_STALLCURRENT 1500 //current in mA where the driver will detect a stall
// #define Z2_IS_L6470
# define Z2_MICROSTEPS 16 //number of microsteps
# define Z2_K_VAL 50 // 0 - 255, Higher values, are higher power. Be carefull not to go too high
# define Z2_OVERCURRENT 2000 //maxc current in mA. If the current goes over this value, the driver will switch off
# define Z2_STALLCURRENT 1500 //current in mA where the driver will detect a stall
// #define E0_IS_L6470
# define E0_MICROSTEPS 16 //number of microsteps
# define E0_K_VAL 50 // 0 - 255, Higher values, are higher power. Be carefull not to go too high
# define E0_OVERCURRENT 2000 //maxc current in mA. If the current goes over this value, the driver will switch off
# define E0_STALLCURRENT 1500 //current in mA where the driver will detect a stall
// #define E1_IS_L6470
# define E1_MICROSTEPS 16 //number of microsteps
# define E1_MICROSTEPS 16 //number of microsteps
# define E1_K_VAL 50 // 0 - 255, Higher values, are higher power. Be carefull not to go too high
# define E1_OVERCURRENT 2000 //maxc current in mA. If the current goes over this value, the driver will switch off
# define E1_STALLCURRENT 1500 //current in mA where the driver will detect a stall
// #define E2_IS_L6470
# define E2_MICROSTEPS 16 //number of microsteps
# define E2_MICROSTEPS 16 //number of microsteps
# define E2_K_VAL 50 // 0 - 255, Higher values, are higher power. Be carefull not to go too high
# define E2_OVERCURRENT 2000 //maxc current in mA. If the current goes over this value, the driver will switch off
# define E2_STALLCURRENT 1500 //current in mA where the driver will detect a stall
// #define E3_IS_L6470
# define E3_MICROSTEPS 16 //number of microsteps
# define E3_MICROSTEPS 16 //number of microsteps
# define E3_K_VAL 50 // 0 - 255, Higher values, are higher power. Be carefull not to go too high
# define E3_OVERCURRENT 2000 //maxc current in mA. If the current goes over this value, the driver will switch off
# define E3_STALLCURRENT 1500 //current in mA where the driver will detect a stall
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# endif
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# include "Conditionals.h"
# include "SanityCheck.h"
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# endif //CONFIGURATION_ADV_H