muele-marlin/Marlin/Configuration_adv.h

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/**
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* Marlin 3D Printer Firmware
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* Copyright (c) 2020 MarlinFirmware [https://github.com/MarlinFirmware/Marlin]
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*
* Based on Sprinter and grbl.
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* Copyright (c) 2011 Camiel Gubbels / Erik van der Zalm
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*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <https://www.gnu.org/licenses/>.
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*
*/
#pragma once
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/**
* Configuration_adv.h
*
* Advanced settings.
* Only change these if you know exactly what you're doing.
* Some of these settings can damage your printer if improperly set!
*
* Basic settings can be found in Configuration.h
*/
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#define CONFIGURATION_ADV_H_VERSION 02000901
//===========================================================================
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//============================= Thermal Settings ============================
//===========================================================================
// @section temperature
/**
* Thermocouple sensors are quite sensitive to noise. Any noise induced in
* the sensor wires, such as by stepper motor wires run in parallel to them,
* may result in the thermocouple sensor reporting spurious errors. This
* value is the number of errors which can occur in a row before the error
* is reported. This allows us to ignore intermittent error conditions while
* still detecting an actual failure, which should result in a continuous
* stream of errors from the sensor.
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*
* Set this value to 0 to fail on the first error to occur.
*/
#define THERMOCOUPLE_MAX_ERRORS 15
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//
// Custom Thermistor 1000 parameters
//
#if TEMP_SENSOR_0 == 1000
#define HOTEND0_PULLUP_RESISTOR_OHMS 4700 // Pullup resistor
#define HOTEND0_RESISTANCE_25C_OHMS 100000 // Resistance at 25C
#define HOTEND0_BETA 3950 // Beta value
#endif
#if TEMP_SENSOR_1 == 1000
#define HOTEND1_PULLUP_RESISTOR_OHMS 4700 // Pullup resistor
#define HOTEND1_RESISTANCE_25C_OHMS 100000 // Resistance at 25C
#define HOTEND1_BETA 3950 // Beta value
#endif
#if TEMP_SENSOR_2 == 1000
#define HOTEND2_PULLUP_RESISTOR_OHMS 4700 // Pullup resistor
#define HOTEND2_RESISTANCE_25C_OHMS 100000 // Resistance at 25C
#define HOTEND2_BETA 3950 // Beta value
#endif
#if TEMP_SENSOR_3 == 1000
#define HOTEND3_PULLUP_RESISTOR_OHMS 4700 // Pullup resistor
#define HOTEND3_RESISTANCE_25C_OHMS 100000 // Resistance at 25C
#define HOTEND3_BETA 3950 // Beta value
#endif
#if TEMP_SENSOR_4 == 1000
#define HOTEND4_PULLUP_RESISTOR_OHMS 4700 // Pullup resistor
#define HOTEND4_RESISTANCE_25C_OHMS 100000 // Resistance at 25C
#define HOTEND4_BETA 3950 // Beta value
#endif
#if TEMP_SENSOR_5 == 1000
#define HOTEND5_PULLUP_RESISTOR_OHMS 4700 // Pullup resistor
#define HOTEND5_RESISTANCE_25C_OHMS 100000 // Resistance at 25C
#define HOTEND5_BETA 3950 // Beta value
#endif
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#if TEMP_SENSOR_6 == 1000
#define HOTEND6_PULLUP_RESISTOR_OHMS 4700 // Pullup resistor
#define HOTEND6_RESISTANCE_25C_OHMS 100000 // Resistance at 25C
#define HOTEND6_BETA 3950 // Beta value
#endif
#if TEMP_SENSOR_7 == 1000
#define HOTEND7_PULLUP_RESISTOR_OHMS 4700 // Pullup resistor
#define HOTEND7_RESISTANCE_25C_OHMS 100000 // Resistance at 25C
#define HOTEND7_BETA 3950 // Beta value
#endif
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#if TEMP_SENSOR_BED == 1000
#define BED_PULLUP_RESISTOR_OHMS 4700 // Pullup resistor
#define BED_RESISTANCE_25C_OHMS 100000 // Resistance at 25C
#define BED_BETA 3950 // Beta value
#endif
#if TEMP_SENSOR_CHAMBER == 1000
#define CHAMBER_PULLUP_RESISTOR_OHMS 4700 // Pullup resistor
#define CHAMBER_RESISTANCE_25C_OHMS 100000 // Resistance at 25C
#define CHAMBER_BETA 3950 // Beta value
#endif
#if TEMP_SENSOR_COOLER == 1000
#define COOLER_PULLUP_RESISTOR_OHMS 4700 // Pullup resistor
#define COOLER_RESISTANCE_25C_OHMS 100000 // Resistance at 25C
#define COOLER_BETA 3950 // Beta value
#endif
#if TEMP_SENSOR_PROBE == 1000
#define PROBE_PULLUP_RESISTOR_OHMS 4700 // Pullup resistor
#define PROBE_RESISTANCE_25C_OHMS 100000 // Resistance at 25C
#define PROBE_BETA 3950 // Beta value
#endif
#if TEMP_SENSOR_REDUNDANT == 1000
#define REDUNDANT_PULLUP_RESISTOR_OHMS 4700 // Pullup resistor
#define REDUNDANT_RESISTANCE_25C_OHMS 100000 // Resistance at 25C
#define REDUNDANT_BETA 3950 // Beta value
#endif
//
// Hephestos 2 24V heated bed upgrade kit.
// https://store.bq.com/en/heated-bed-kit-hephestos2
//
//#define HEPHESTOS2_HEATED_BED_KIT
#if ENABLED(HEPHESTOS2_HEATED_BED_KIT)
#undef TEMP_SENSOR_BED
#define TEMP_SENSOR_BED 70
#define HEATER_BED_INVERTING true
#endif
//
// Heated Bed Bang-Bang options
//
#if DISABLED(PIDTEMPBED)
#define BED_CHECK_INTERVAL 5000 // (ms) Interval between checks in bang-bang control
#if ENABLED(BED_LIMIT_SWITCHING)
#define BED_HYSTERESIS 2 // (°C) Only set the relevant heater state when ABS(T-target) > BED_HYSTERESIS
#endif
#endif
//
// Heated Chamber options
//
#if DISABLED(PIDTEMPCHAMBER)
#define CHAMBER_CHECK_INTERVAL 5000 // (ms) Interval between checks in bang-bang control
#if ENABLED(CHAMBER_LIMIT_SWITCHING)
#define CHAMBER_HYSTERESIS 2 // (°C) Only set the relevant heater state when ABS(T-target) > CHAMBER_HYSTERESIS
#endif
#endif
#if TEMP_SENSOR_CHAMBER
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//#define HEATER_CHAMBER_PIN P2_04 // Required heater on/off pin (example: SKR 1.4 Turbo HE1 plug)
//#define HEATER_CHAMBER_INVERTING false
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//#define FAN1_PIN -1 // Remove the fan signal on pin P2_04 (example: SKR 1.4 Turbo HE1 plug)
//#define CHAMBER_FAN // Enable a fan on the chamber
#if ENABLED(CHAMBER_FAN)
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#define CHAMBER_FAN_MODE 2 // Fan control mode: 0=Static; 1=Linear increase when temp is higher than target; 2=V-shaped curve; 3=similar to 1 but fan is always on.
#if CHAMBER_FAN_MODE == 0
#define CHAMBER_FAN_BASE 255 // Chamber fan PWM (0-255)
#elif CHAMBER_FAN_MODE == 1
#define CHAMBER_FAN_BASE 128 // Base chamber fan PWM (0-255); turns on when chamber temperature is above the target
#define CHAMBER_FAN_FACTOR 25 // PWM increase per °C above target
#elif CHAMBER_FAN_MODE == 2
#define CHAMBER_FAN_BASE 128 // Minimum chamber fan PWM (0-255)
#define CHAMBER_FAN_FACTOR 25 // PWM increase per °C difference from target
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#elif CHAMBER_FAN_MODE == 3
#define CHAMBER_FAN_BASE 128 // Base chamber fan PWM (0-255)
#define CHAMBER_FAN_FACTOR 25 // PWM increase per °C above target
#endif
#endif
//#define CHAMBER_VENT // Enable a servo-controlled vent on the chamber
#if ENABLED(CHAMBER_VENT)
#define CHAMBER_VENT_SERVO_NR 1 // Index of the vent servo
#define HIGH_EXCESS_HEAT_LIMIT 5 // How much above target temp to consider there is excess heat in the chamber
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#define LOW_EXCESS_HEAT_LIMIT 3
#define MIN_COOLING_SLOPE_TIME_CHAMBER_VENT 20
#define MIN_COOLING_SLOPE_DEG_CHAMBER_VENT 1.5
#endif
#endif
//
// Laser Cooler options
//
#if TEMP_SENSOR_COOLER
#define COOLER_MINTEMP 8 // (°C)
#define COOLER_MAXTEMP 26 // (°C)
#define COOLER_DEFAULT_TEMP 16 // (°C)
#define TEMP_COOLER_HYSTERESIS 1 // (°C) Temperature proximity considered "close enough" to the target
#define COOLER_PIN 8 // Laser cooler on/off pin used to control power to the cooling element (e.g., TEC, External chiller via relay)
#define COOLER_INVERTING false
#define TEMP_COOLER_PIN 15 // Laser/Cooler temperature sensor pin. ADC is required.
#define COOLER_FAN // Enable a fan on the cooler, Fan# 0,1,2,3 etc.
#define COOLER_FAN_INDEX 0 // FAN number 0, 1, 2 etc. e.g.
#if ENABLED(COOLER_FAN)
#define COOLER_FAN_BASE 100 // Base Cooler fan PWM (0-255); turns on when Cooler temperature is above the target
#define COOLER_FAN_FACTOR 25 // PWM increase per °C above target
#endif
#endif
//
// Laser Coolant Flow Meter
//
//#define LASER_COOLANT_FLOW_METER
#if ENABLED(LASER_COOLANT_FLOW_METER)
#define FLOWMETER_PIN 20 // Requires an external interrupt-enabled pin (e.g., RAMPS 2,3,18,19,20,21)
#define FLOWMETER_PPL 5880 // (pulses/liter) Flow meter pulses-per-liter on the input pin
#define FLOWMETER_INTERVAL 1000 // (ms) Flow rate calculation interval in milliseconds
#define FLOWMETER_SAFETY // Prevent running the laser without the minimum flow rate set below
#if ENABLED(FLOWMETER_SAFETY)
#define FLOWMETER_MIN_LITERS_PER_MINUTE 1.5 // (liters/min) Minimum flow required when enabled
#endif
#endif
/**
* Thermal Protection provides additional protection to your printer from damage
* and fire. Marlin always includes safe min and max temperature ranges which
* protect against a broken or disconnected thermistor wire.
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*
* The issue: If a thermistor falls out, it will report the much lower
* temperature of the air in the room, and the the firmware will keep
* the heater on.
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*
* The solution: Once the temperature reaches the target, start observing.
* If the temperature stays too far below the target (hysteresis) for too
* long (period), the firmware will halt the machine as a safety precaution.
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*
* If you get false positives for "Thermal Runaway", increase
* THERMAL_PROTECTION_HYSTERESIS and/or THERMAL_PROTECTION_PERIOD
*/
#if ENABLED(THERMAL_PROTECTION_HOTENDS)
#define THERMAL_PROTECTION_PERIOD 40 // Seconds
#define THERMAL_PROTECTION_HYSTERESIS 4 // Degrees Celsius
//#define ADAPTIVE_FAN_SLOWING // Slow part cooling fan if temperature drops
#if BOTH(ADAPTIVE_FAN_SLOWING, PIDTEMP)
//#define NO_FAN_SLOWING_IN_PID_TUNING // Don't slow fan speed during M303
#endif
/**
* Whenever an M104, M109, or M303 increases the target temperature, the
* firmware will wait for the WATCH_TEMP_PERIOD to expire. If the temperature
* hasn't increased by WATCH_TEMP_INCREASE degrees, the machine is halted and
* requires a hard reset. This test restarts with any M104/M109/M303, but only
* if the current temperature is far enough below the target for a reliable
* test.
*
* If you get false positives for "Heating failed", increase WATCH_TEMP_PERIOD
* and/or decrease WATCH_TEMP_INCREASE. WATCH_TEMP_INCREASE should not be set
* below 2.
*/
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#define WATCH_TEMP_PERIOD 20 // Seconds
#define WATCH_TEMP_INCREASE 2 // Degrees Celsius
#endif
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/**
* Thermal Protection parameters for the bed are just as above for hotends.
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*/
#if ENABLED(THERMAL_PROTECTION_BED)
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#define THERMAL_PROTECTION_BED_PERIOD 20 // Seconds
#define THERMAL_PROTECTION_BED_HYSTERESIS 2 // Degrees Celsius
/**
* As described above, except for the bed (M140/M190/M303).
*/
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#define WATCH_BED_TEMP_PERIOD 60 // Seconds
#define WATCH_BED_TEMP_INCREASE 2 // Degrees Celsius
#endif
/**
* Thermal Protection parameters for the heated chamber.
*/
#if ENABLED(THERMAL_PROTECTION_CHAMBER)
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#define THERMAL_PROTECTION_CHAMBER_PERIOD 20 // Seconds
#define THERMAL_PROTECTION_CHAMBER_HYSTERESIS 2 // Degrees Celsius
/**
* Heated chamber watch settings (M141/M191).
*/
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#define WATCH_CHAMBER_TEMP_PERIOD 60 // Seconds
#define WATCH_CHAMBER_TEMP_INCREASE 2 // Degrees Celsius
#endif
/**
* Thermal Protection parameters for the laser cooler.
*/
#if ENABLED(THERMAL_PROTECTION_COOLER)
#define THERMAL_PROTECTION_COOLER_PERIOD 10 // Seconds
#define THERMAL_PROTECTION_COOLER_HYSTERESIS 3 // Degrees Celsius
/**
* Laser cooling watch settings (M143/M193).
*/
#define WATCH_COOLER_TEMP_PERIOD 60 // Seconds
#define WATCH_COOLER_TEMP_INCREASE 3 // Degrees Celsius
#endif
#if ENABLED(PIDTEMP)
// Add an experimental additional term to the heater power, proportional to the extrusion speed.
// A well-chosen Kc value should add just enough power to melt the increased material volume.
//#define PID_EXTRUSION_SCALING
#if ENABLED(PID_EXTRUSION_SCALING)
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#define DEFAULT_Kc (100) // heating power = Kc * e_speed
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#define LPQ_MAX_LEN 50
#endif
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/**
* Add an experimental additional term to the heater power, proportional to the fan speed.
* A well-chosen Kf value should add just enough power to compensate for power-loss from the cooling fan.
* You can either just add a constant compensation with the DEFAULT_Kf value
* or follow the instruction below to get speed-dependent compensation.
*
* Constant compensation (use only with fanspeeds of 0% and 100%)
* ---------------------------------------------------------------------
* A good starting point for the Kf-value comes from the calculation:
* kf = (power_fan * eff_fan) / power_heater * 255
* where eff_fan is between 0.0 and 1.0, based on fan-efficiency and airflow to the nozzle / heater.
*
* Example:
* Heater: 40W, Fan: 0.1A * 24V = 2.4W, eff_fan = 0.8
* Kf = (2.4W * 0.8) / 40W * 255 = 12.24
*
* Fan-speed dependent compensation
* --------------------------------
* 1. To find a good Kf value, set the hotend temperature, wait for it to settle, and enable the fan (100%).
* Make sure PID_FAN_SCALING_LIN_FACTOR is 0 and PID_FAN_SCALING_ALTERNATIVE_DEFINITION is not enabled.
* If you see the temperature drop repeat the test, increasing the Kf value slowly, until the temperature
* drop goes away. If the temperature overshoots after enabling the fan, the Kf value is too big.
* 2. Note the Kf-value for fan-speed at 100%
* 3. Determine a good value for PID_FAN_SCALING_MIN_SPEED, which is around the speed, where the fan starts moving.
* 4. Repeat step 1. and 2. for this fan speed.
* 5. Enable PID_FAN_SCALING_ALTERNATIVE_DEFINITION and enter the two identified Kf-values in
* PID_FAN_SCALING_AT_FULL_SPEED and PID_FAN_SCALING_AT_MIN_SPEED. Enter the minimum speed in PID_FAN_SCALING_MIN_SPEED
*/
//#define PID_FAN_SCALING
#if ENABLED(PID_FAN_SCALING)
//#define PID_FAN_SCALING_ALTERNATIVE_DEFINITION
#if ENABLED(PID_FAN_SCALING_ALTERNATIVE_DEFINITION)
// The alternative definition is used for an easier configuration.
// Just figure out Kf at fullspeed (255) and PID_FAN_SCALING_MIN_SPEED.
// DEFAULT_Kf and PID_FAN_SCALING_LIN_FACTOR are calculated accordingly.
#define PID_FAN_SCALING_AT_FULL_SPEED 13.0 //=PID_FAN_SCALING_LIN_FACTOR*255+DEFAULT_Kf
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#define PID_FAN_SCALING_AT_MIN_SPEED 6.0 //=PID_FAN_SCALING_LIN_FACTOR*PID_FAN_SCALING_MIN_SPEED+DEFAULT_Kf
#define PID_FAN_SCALING_MIN_SPEED 10.0 // Minimum fan speed at which to enable PID_FAN_SCALING
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#define DEFAULT_Kf (255.0*PID_FAN_SCALING_AT_MIN_SPEED-PID_FAN_SCALING_AT_FULL_SPEED*PID_FAN_SCALING_MIN_SPEED)/(255.0-PID_FAN_SCALING_MIN_SPEED)
#define PID_FAN_SCALING_LIN_FACTOR (PID_FAN_SCALING_AT_FULL_SPEED-DEFAULT_Kf)/255.0
#else
#define PID_FAN_SCALING_LIN_FACTOR (0) // Power loss due to cooling = Kf * (fan_speed)
#define DEFAULT_Kf 10 // A constant value added to the PID-tuner
#define PID_FAN_SCALING_MIN_SPEED 10 // Minimum fan speed at which to enable PID_FAN_SCALING
#endif
#endif
#endif
/**
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* Automatic Temperature Mode
*
* Dynamically adjust the hotend target temperature based on planned E moves.
*
* (Contrast with PID_EXTRUSION_SCALING, which tracks E movement and adjusts PID
* behavior using an additional kC value.)
*
* Autotemp is calculated by (mintemp + factor * mm_per_sec), capped to maxtemp.
*
* Enable Autotemp Mode with M104/M109 F<factor> S<mintemp> B<maxtemp>.
* Disable by sending M104/M109 with no F parameter (or F0 with AUTOTEMP_PROPORTIONAL).
*/
#define AUTOTEMP
#if ENABLED(AUTOTEMP)
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#define AUTOTEMP_OLDWEIGHT 0.98
// Turn on AUTOTEMP on M104/M109 by default using proportions set here
//#define AUTOTEMP_PROPORTIONAL
#if ENABLED(AUTOTEMP_PROPORTIONAL)
#define AUTOTEMP_MIN_P 0 // (°C) Added to the target temperature
#define AUTOTEMP_MAX_P 5 // (°C) Added to the target temperature
#define AUTOTEMP_FACTOR_P 1 // Apply this F parameter by default (overridden by M104/M109 F)
#endif
#endif
// Show Temperature ADC value
// Enable for M105 to include ADC values read from temperature sensors.
//#define SHOW_TEMP_ADC_VALUES
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/**
* High Temperature Thermistor Support
*
* Thermistors able to support high temperature tend to have a hard time getting
* good readings at room and lower temperatures. This means TEMP_SENSOR_X_RAW_LO_TEMP
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* will probably be caught when the heating element first turns on during the
* preheating process, which will trigger a min_temp_error as a safety measure
* and force stop everything.
* To circumvent this limitation, we allow for a preheat time (during which,
* min_temp_error won't be triggered) and add a min_temp buffer to handle
* aberrant readings.
*
* If you want to enable this feature for your hotend thermistor(s)
* uncomment and set values > 0 in the constants below
*/
// The number of consecutive low temperature errors that can occur
// before a min_temp_error is triggered. (Shouldn't be more than 10.)
//#define MAX_CONSECUTIVE_LOW_TEMPERATURE_ERROR_ALLOWED 0
// The number of milliseconds a hotend will preheat before starting to check
// the temperature. This value should NOT be set to the time it takes the
// hot end to reach the target temperature, but the time it takes to reach
// the minimum temperature your thermistor can read. The lower the better/safer.
// This shouldn't need to be more than 30 seconds (30000)
//#define MILLISECONDS_PREHEAT_TIME 0
// @section extruder
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// Extruder runout prevention.
// If the machine is idle and the temperature over MINTEMP
// then extrude some filament every couple of SECONDS.
//#define EXTRUDER_RUNOUT_PREVENT
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#if ENABLED(EXTRUDER_RUNOUT_PREVENT)
#define EXTRUDER_RUNOUT_MINTEMP 190
#define EXTRUDER_RUNOUT_SECONDS 30
#define EXTRUDER_RUNOUT_SPEED 1500 // (mm/min)
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#define EXTRUDER_RUNOUT_EXTRUDE 5 // (mm)
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#endif
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/**
* Hotend Idle Timeout
* Prevent filament in the nozzle from charring and causing a critical jam.
*/
//#define HOTEND_IDLE_TIMEOUT
#if ENABLED(HOTEND_IDLE_TIMEOUT)
#define HOTEND_IDLE_TIMEOUT_SEC (5*60) // (seconds) Time without extruder movement to trigger protection
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#define HOTEND_IDLE_MIN_TRIGGER 180 // (°C) Minimum temperature to enable hotend protection
#define HOTEND_IDLE_NOZZLE_TARGET 0 // (°C) Safe temperature for the nozzle after timeout
#define HOTEND_IDLE_BED_TARGET 0 // (°C) Safe temperature for the bed after timeout
#endif
// @section temperature
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// Calibration for AD595 / AD8495 sensor to adjust temperature measurements.
// The final temperature is calculated as (measuredTemp * GAIN) + OFFSET.
#define TEMP_SENSOR_AD595_OFFSET 0.0
#define TEMP_SENSOR_AD595_GAIN 1.0
#define TEMP_SENSOR_AD8495_OFFSET 0.0
#define TEMP_SENSOR_AD8495_GAIN 1.0
/**
* Controller Fan
* To cool down the stepper drivers and MOSFETs.
*
* The fan turns on automatically whenever any driver is enabled and turns
* off (or reduces to idle speed) shortly after drivers are turned off.
*/
//#define USE_CONTROLLER_FAN
#if ENABLED(USE_CONTROLLER_FAN)
//#define CONTROLLER_FAN_PIN -1 // Set a custom pin for the controller fan
//#define CONTROLLER_FAN_USE_Z_ONLY // With this option only the Z axis is considered
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//#define CONTROLLER_FAN_IGNORE_Z // Ignore Z stepper. Useful when stepper timeout is disabled.
#define CONTROLLERFAN_SPEED_MIN 0 // (0-255) Minimum speed. (If set below this value the fan is turned off.)
#define CONTROLLERFAN_SPEED_ACTIVE 255 // (0-255) Active speed, used when any motor is enabled
#define CONTROLLERFAN_SPEED_IDLE 0 // (0-255) Idle speed, used when motors are disabled
#define CONTROLLERFAN_IDLE_TIME 60 // (seconds) Extra time to keep the fan running after disabling motors
//#define CONTROLLER_FAN_EDITABLE // Enable M710 configurable settings
#if ENABLED(CONTROLLER_FAN_EDITABLE)
#define CONTROLLER_FAN_MENU // Enable the Controller Fan submenu
#endif
#endif
// When first starting the main fan, run it at full speed for the
// given number of milliseconds. This gets the fan spinning reliably
// before setting a PWM value. (Does not work with software PWM for fan on Sanguinololu)
//#define FAN_KICKSTART_TIME 100
// Some coolers may require a non-zero "off" state.
//#define FAN_OFF_PWM 1
/**
* PWM Fan Scaling
*
* Define the min/max speeds for PWM fans (as set with M106).
*
* With these options the M106 0-255 value range is scaled to a subset
* to ensure that the fan has enough power to spin, or to run lower
* current fans with higher current. (e.g., 5V/12V fans with 12V/24V)
* Value 0 always turns off the fan.
*
* Define one or both of these to override the default 0-255 range.
*/
//#define FAN_MIN_PWM 50
//#define FAN_MAX_PWM 128
/**
* FAST PWM FAN Settings
*
* Use to change the FAST FAN PWM frequency (if enabled in Configuration.h)
* Combinations of PWM Modes, prescale values and TOP resolutions are used internally to produce a
* frequency as close as possible to the desired frequency.
*
* FAST_PWM_FAN_FREQUENCY [undefined by default]
* Set this to your desired frequency.
* If left undefined this defaults to F = F_CPU/(2*255*1)
* i.e., F = 31.4kHz on 16MHz microcontrollers or F = 39.2kHz on 20MHz microcontrollers.
* These defaults are the same as with the old FAST_PWM_FAN implementation - no migration is required
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* NOTE: Setting very low frequencies (< 10 Hz) may result in unexpected timer behavior.
*
* USE_OCR2A_AS_TOP [undefined by default]
* Boards that use TIMER2 for PWM have limitations resulting in only a few possible frequencies on TIMER2:
* 16MHz MCUs: [62.5KHz, 31.4KHz (default), 7.8KHz, 3.92KHz, 1.95KHz, 977Hz, 488Hz, 244Hz, 60Hz, 122Hz, 30Hz]
* 20MHz MCUs: [78.1KHz, 39.2KHz (default), 9.77KHz, 4.9KHz, 2.44KHz, 1.22KHz, 610Hz, 305Hz, 153Hz, 76Hz, 38Hz]
* A greater range can be achieved by enabling USE_OCR2A_AS_TOP. But note that this option blocks the use of
* PWM on pin OC2A. Only use this option if you don't need PWM on 0C2A. (Check your schematic.)
* USE_OCR2A_AS_TOP sacrifices duty cycle control resolution to achieve this broader range of frequencies.
*/
#if ENABLED(FAST_PWM_FAN)
//#define FAST_PWM_FAN_FREQUENCY 31400
//#define USE_OCR2A_AS_TOP
#endif
/**
* Use one of the PWM fans as a redundant part-cooling fan
*/
//#define REDUNDANT_PART_COOLING_FAN 2 // Index of the fan to sync with FAN 0.
// @section extruder
/**
* Extruder cooling fans
*
* Extruder auto fans automatically turn on when their extruders'
* temperatures go above EXTRUDER_AUTO_FAN_TEMPERATURE.
*
* Your board's pins file specifies the recommended pins. Override those here
* or set to -1 to disable completely.
*
* Multiple extruders can be assigned to the same pin in which case
* the fan will turn on when any selected extruder is above the threshold.
*/
#define E0_AUTO_FAN_PIN -1
#define E1_AUTO_FAN_PIN -1
#define E2_AUTO_FAN_PIN -1
#define E3_AUTO_FAN_PIN -1
#define E4_AUTO_FAN_PIN -1
#define E5_AUTO_FAN_PIN -1
#define E6_AUTO_FAN_PIN -1
#define E7_AUTO_FAN_PIN -1
#define CHAMBER_AUTO_FAN_PIN -1
#define COOLER_AUTO_FAN_PIN -1
#define COOLER_FAN_PIN -1
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#define EXTRUDER_AUTO_FAN_TEMPERATURE 50
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#define EXTRUDER_AUTO_FAN_SPEED 255 // 255 == full speed
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#define CHAMBER_AUTO_FAN_TEMPERATURE 30
#define CHAMBER_AUTO_FAN_SPEED 255
#define COOLER_AUTO_FAN_TEMPERATURE 18
#define COOLER_AUTO_FAN_SPEED 255
/**
* Part-Cooling Fan Multiplexer
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*
* This feature allows you to digitally multiplex the fan output.
* The multiplexer is automatically switched at tool-change.
* Set FANMUX[012]_PINs below for up to 2, 4, or 8 multiplexed fans.
*/
#define FANMUX0_PIN -1
#define FANMUX1_PIN -1
#define FANMUX2_PIN -1
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/**
* M355 Case Light on-off / brightness
*/
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//#define CASE_LIGHT_ENABLE
#if ENABLED(CASE_LIGHT_ENABLE)
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//#define CASE_LIGHT_PIN 4 // Override the default pin if needed
#define INVERT_CASE_LIGHT false // Set true if Case Light is ON when pin is LOW
#define CASE_LIGHT_DEFAULT_ON true // Set default power-up state on
#define CASE_LIGHT_DEFAULT_BRIGHTNESS 105 // Set default power-up brightness (0-255, requires PWM pin)
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//#define CASE_LIGHT_NO_BRIGHTNESS // Disable brightness control. Enable for non-PWM lighting.
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//#define CASE_LIGHT_MAX_PWM 128 // Limit PWM duty cycle (0-255)
//#define CASE_LIGHT_MENU // Add Case Light options to the LCD menu
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#if ENABLED(NEOPIXEL_LED)
//#define CASE_LIGHT_USE_NEOPIXEL // Use NeoPixel LED as case light
#endif
#if EITHER(RGB_LED, RGBW_LED)
//#define CASE_LIGHT_USE_RGB_LED // Use RGB / RGBW LED as case light
#endif
#if EITHER(CASE_LIGHT_USE_NEOPIXEL, CASE_LIGHT_USE_RGB_LED)
#define CASE_LIGHT_DEFAULT_COLOR { 255, 255, 255, 255 } // { Red, Green, Blue, White }
#endif
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#endif
// @section homing
// If you want endstops to stay on (by default) even when not homing
// enable this option. Override at any time with M120, M121.
//#define ENDSTOPS_ALWAYS_ON_DEFAULT
// @section extras
//#define Z_LATE_ENABLE // Enable Z the last moment. Needed if your Z driver overheats.
// Employ an external closed loop controller. Override pins here if needed.
//#define EXTERNAL_CLOSED_LOOP_CONTROLLER
#if ENABLED(EXTERNAL_CLOSED_LOOP_CONTROLLER)
//#define CLOSED_LOOP_ENABLE_PIN -1
//#define CLOSED_LOOP_MOVE_COMPLETE_PIN -1
#endif
/**
* Dual Steppers / Dual Endstops
*
* This section will allow you to use extra E drivers to drive a second motor for X, Y, or Z axes.
*
* For example, set X_DUAL_STEPPER_DRIVERS setting to use a second motor. If the motors need to
* spin in opposite directions set INVERT_X2_VS_X_DIR. If the second motor needs its own endstop
* set X_DUAL_ENDSTOPS. This can adjust for "racking." Use X2_USE_ENDSTOP to set the endstop plug
* that should be used for the second endstop. Extra endstops will appear in the output of 'M119'.
*
* Use X_DUAL_ENDSTOP_ADJUSTMENT to adjust for mechanical imperfection. After homing both motors
* this offset is applied to the X2 motor. To find the offset home the X axis, and measure the error
* in X2. Dual endstop offsets can be set at runtime with 'M666 X<offset> Y<offset> Z<offset>'.
*/
//#define X_DUAL_STEPPER_DRIVERS
#if ENABLED(X_DUAL_STEPPER_DRIVERS)
//#define INVERT_X2_VS_X_DIR // Enable if X2 direction signal is opposite to X
//#define X_DUAL_ENDSTOPS
#if ENABLED(X_DUAL_ENDSTOPS)
#define X2_USE_ENDSTOP _XMAX_
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#define X2_ENDSTOP_ADJUSTMENT 0
#endif
#endif
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//#define Y_DUAL_STEPPER_DRIVERS
#if ENABLED(Y_DUAL_STEPPER_DRIVERS)
//#define INVERT_Y2_VS_Y_DIR // Enable if Y2 direction signal is opposite to Y
//#define Y_DUAL_ENDSTOPS
#if ENABLED(Y_DUAL_ENDSTOPS)
#define Y2_USE_ENDSTOP _YMAX_
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#define Y2_ENDSTOP_ADJUSTMENT 0
#endif
#endif
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//
// For Z set the number of stepper drivers
//
#define NUM_Z_STEPPER_DRIVERS 1 // (1-4) Z options change based on how many
#if NUM_Z_STEPPER_DRIVERS > 1
// Enable if Z motor direction signals are the opposite of Z1
//#define INVERT_Z2_VS_Z_DIR
//#define INVERT_Z3_VS_Z_DIR
//#define INVERT_Z4_VS_Z_DIR
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//#define Z_MULTI_ENDSTOPS
#if ENABLED(Z_MULTI_ENDSTOPS)
#define Z2_USE_ENDSTOP _XMAX_
#define Z2_ENDSTOP_ADJUSTMENT 0
#if NUM_Z_STEPPER_DRIVERS >= 3
#define Z3_USE_ENDSTOP _YMAX_
#define Z3_ENDSTOP_ADJUSTMENT 0
#endif
#if NUM_Z_STEPPER_DRIVERS >= 4
#define Z4_USE_ENDSTOP _ZMAX_
#define Z4_ENDSTOP_ADJUSTMENT 0
#endif
#endif
#endif
// Drive the E axis with two synchronized steppers
//#define E_DUAL_STEPPER_DRIVERS
#if ENABLED(E_DUAL_STEPPER_DRIVERS)
//#define INVERT_E1_VS_E0_DIR // Enable if the E motors need opposite DIR states
#endif
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/**
* Dual X Carriage
*
* This setup has two X carriages that can move independently, each with its own hotend.
* The carriages can be used to print an object with two colors or materials, or in
* "duplication mode" it can print two identical or X-mirrored objects simultaneously.
* The inactive carriage is parked automatically to prevent oozing.
* X1 is the left carriage, X2 the right. They park and home at opposite ends of the X axis.
* By default the X2 stepper is assigned to the first unused E plug on the board.
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*
* The following Dual X Carriage modes can be selected with M605 S<mode>:
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*
* 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)
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*
* 1 : (AUTO_PARK) The firmware automatically parks and unparks the X-carriages on tool-change so
* that additional slicer support is not required. (M605 S1)
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*
* 2 : (DUPLICATION) The firmware moves the second X-carriage and extruder in synchronization with
* the first X-carriage and extruder, to print 2 copies of the same object at the same time.
* Set the constant X-offset and temperature differential with M605 S2 X[offs] R[deg] and
* follow with M605 S2 to initiate duplicated movement.
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*
* 3 : (MIRRORED) Formbot/Vivedino-inspired mirrored mode in which the second extruder duplicates
* the movement of the first except the second extruder is reversed in the X axis.
* Set the initial X offset and temperature differential with M605 S2 X[offs] R[deg] and
* follow with M605 S3 to initiate mirrored movement.
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*/
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//#define DUAL_X_CARRIAGE
#if ENABLED(DUAL_X_CARRIAGE)
#define X1_MIN_POS X_MIN_POS // Set to X_MIN_POS
#define X1_MAX_POS X_BED_SIZE // Set a maximum so the first X-carriage can't hit the parked second X-carriage
#define X2_MIN_POS 80 // Set a minimum to ensure the second X-carriage can't hit the parked first X-carriage
#define X2_MAX_POS 353 // Set this to the distance between toolheads when both heads are homed
#define X2_HOME_DIR 1 // Set to 1. The second X-carriage always homes to the maximum endstop position
#define X2_HOME_POS X2_MAX_POS // Default X2 home position. Set to X2_MAX_POS.
// However: In this mode the HOTEND_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.
// This is the default power-up mode which can be later using M605.
#define DEFAULT_DUAL_X_CARRIAGE_MODE DXC_AUTO_PARK_MODE
// Default x offset in duplication mode (typically set to half print bed width)
#define DEFAULT_DUPLICATION_X_OFFSET 100
// Default action to execute following M605 mode change commands. Typically G28X to apply new mode.
//#define EVENT_GCODE_IDEX_AFTER_MODECHANGE "G28X"
#endif
// Activate a solenoid on the active extruder with M380. Disable all with M381.
// Define SOL0_PIN, SOL1_PIN, etc., for each extruder that has a solenoid.
//#define EXT_SOLENOID
// @section homing
/**
* Homing Procedure
* Homing (G28) does an indefinite move towards the endstops to establish
* the position of the toolhead relative to the workspace.
*/
//#define SENSORLESS_BACKOFF_MM { 2, 2, 0 } // (mm) Backoff from endstops before sensorless homing
#define HOMING_BUMP_MM { 5, 5, 2 } // (mm) Backoff from endstops after first bump
#define HOMING_BUMP_DIVISOR { 2, 2, 4 } // Re-Bump Speed Divisor (Divides the Homing Feedrate)
//#define HOMING_BACKOFF_POST_MM { 2, 2, 2 } // (mm) Backoff from endstops after homing
//#define QUICK_HOME // If G28 contains XY do a diagonal move first
//#define HOME_Y_BEFORE_X // If G28 contains XY home Y before X
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//#define HOME_Z_FIRST // Home Z first. Requires a Z-MIN endstop (not a probe).
//#define CODEPENDENT_XY_HOMING // If X/Y can't home without homing Y/X first
// @section bltouch
#if ENABLED(BLTOUCH)
/**
* Either: Use the defaults (recommended) or: For special purposes, use the following DEFINES
* Do not activate settings that the probe might not understand. Clones might misunderstand
* advanced commands.
*
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* Note: If the probe is not deploying, do a "Reset" and "Self-Test" and then check the
* wiring of the BROWN, RED and ORANGE wires.
*
* Note: If the trigger signal of your probe is not being recognized, it has been very often
* because the BLACK and WHITE wires needed to be swapped. They are not "interchangeable"
* like they would be with a real switch. So please check the wiring first.
*
* Settings for all BLTouch and clone probes:
*/
// Safety: The probe needs time to recognize the command.
// Minimum command delay (ms). Enable and increase if needed.
//#define BLTOUCH_DELAY 500
/**
* Settings for BLTOUCH Classic 1.2, 1.3 or BLTouch Smart 1.0, 2.0, 2.2, 3.0, 3.1, and most clones:
*/
// Feature: Switch into SW mode after a deploy. It makes the output pulse longer. Can be useful
// in special cases, like noisy or filtered input configurations.
//#define BLTOUCH_FORCE_SW_MODE
/**
* Settings for BLTouch Smart 3.0 and 3.1
* Summary:
* - Voltage modes: 5V and OD (open drain - "logic voltage free") output modes
* - High-Speed mode
* - Disable LCD voltage options
*/
/**
* Danger: Don't activate 5V mode unless attached to a 5V-tolerant controller!
* V3.0 or 3.1: Set default mode to 5V mode at Marlin startup.
* If disabled, OD mode is the hard-coded default on 3.0
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* On startup, Marlin will compare its eeprom to this value. If the selected mode
* differs, a mode set eeprom write will be completed at initialization.
* Use the option below to force an eeprom write to a V3.1 probe regardless.
*/
//#define BLTOUCH_SET_5V_MODE
/**
* Safety: Activate if connecting a probe with an unknown voltage mode.
* V3.0: Set a probe into mode selected above at Marlin startup. Required for 5V mode on 3.0
* V3.1: Force a probe with unknown mode into selected mode at Marlin startup ( = Probe EEPROM write )
* To preserve the life of the probe, use this once then turn it off and re-flash.
*/
//#define BLTOUCH_FORCE_MODE_SET
/**
* Use "HIGH SPEED" mode for probing.
* Danger: Disable if your probe sometimes fails. Only suitable for stable well-adjusted systems.
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* This feature was designed for Deltabots with very fast Z moves; however, higher speed Cartesians
* might be able to use it. If the machine can't raise Z fast enough the BLTouch may go into ALARM.
*/
//#define BLTOUCH_HS_MODE
// Safety: Enable voltage mode settings in the LCD menu.
//#define BLTOUCH_LCD_VOLTAGE_MENU
#endif // BLTOUCH
// @section extras
/**
* Z Steppers Auto-Alignment
* Add the G34 command to align multiple Z steppers using a bed probe.
*/
//#define Z_STEPPER_AUTO_ALIGN
#if ENABLED(Z_STEPPER_AUTO_ALIGN)
// Define probe X and Y positions for Z1, Z2 [, Z3 [, Z4]]
// If not defined, probe limits will be used.
// Override with 'M422 S<index> X<pos> Y<pos>'
//#define Z_STEPPER_ALIGN_XY { { 10, 190 }, { 100, 10 }, { 190, 190 } }
/**
* Orientation for the automatically-calculated probe positions.
* Override Z stepper align points with 'M422 S<index> X<pos> Y<pos>'
*
* 2 Steppers: (0) (1)
* | | 2 |
* | 1 2 | |
* | | 1 |
*
* 3 Steppers: (0) (1) (2) (3)
* | 3 | 1 | 2 1 | 2 |
* | | 3 | | 3 |
* | 1 2 | 2 | 3 | 1 |
*
* 4 Steppers: (0) (1) (2) (3)
* | 4 3 | 1 4 | 2 1 | 3 2 |
* | | | | |
* | 1 2 | 2 3 | 3 4 | 4 1 |
*/
#ifndef Z_STEPPER_ALIGN_XY
//#define Z_STEPPERS_ORIENTATION 0
#endif
// Provide Z stepper positions for more rapid convergence in bed alignment.
// Requires triple stepper drivers (i.e., set NUM_Z_STEPPER_DRIVERS to 3)
//#define Z_STEPPER_ALIGN_KNOWN_STEPPER_POSITIONS
#if ENABLED(Z_STEPPER_ALIGN_KNOWN_STEPPER_POSITIONS)
// Define Stepper XY positions for Z1, Z2, Z3 corresponding to
// the Z screw positions in the bed carriage.
// Define one position per Z stepper in stepper driver order.
#define Z_STEPPER_ALIGN_STEPPER_XY { { 210.7, 102.5 }, { 152.6, 220.0 }, { 94.5, 102.5 } }
#else
// Amplification factor. Used to scale the correction step up or down in case
// the stepper (spindle) position is farther out than the test point.
#define Z_STEPPER_ALIGN_AMP 1.0 // Use a value > 1.0 NOTE: This may cause instability!
#endif
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// On a 300mm bed a 5% grade would give a misalignment of ~1.5cm
#define G34_MAX_GRADE 5 // (%) Maximum incline that G34 will handle
#define Z_STEPPER_ALIGN_ITERATIONS 5 // Number of iterations to apply during alignment
#define Z_STEPPER_ALIGN_ACC 0.02 // Stop iterating early if the accuracy is better than this
#define RESTORE_LEVELING_AFTER_G34 // Restore leveling after G34 is done?
// After G34, re-home Z (G28 Z) or just calculate it from the last probe heights?
// Re-homing might be more precise in reproducing the actual 'G28 Z' homing height, especially on an uneven bed.
#define HOME_AFTER_G34
#endif
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//
// Add the G35 command to read bed corners to help adjust screws. Requires a bed probe.
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//
//#define ASSISTED_TRAMMING
#if ENABLED(ASSISTED_TRAMMING)
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// Define positions for probe points.
#define TRAMMING_POINT_XY { { 20, 20 }, { 180, 20 }, { 180, 180 }, { 20, 180 } }
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// Define position names for probe points.
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#define TRAMMING_POINT_NAME_1 "Front-Left"
#define TRAMMING_POINT_NAME_2 "Front-Right"
#define TRAMMING_POINT_NAME_3 "Back-Right"
#define TRAMMING_POINT_NAME_4 "Back-Left"
#define RESTORE_LEVELING_AFTER_G35 // Enable to restore leveling setup after operation
//#define REPORT_TRAMMING_MM // Report Z deviation (mm) for each point relative to the first
//#define ASSISTED_TRAMMING_WIZARD // Add a Tramming Wizard to the LCD menu
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//#define ASSISTED_TRAMMING_WAIT_POSITION { X_CENTER, Y_CENTER, 30 } // Move the nozzle out of the way for adjustment
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/**
* Screw thread:
* M3: 30 = Clockwise, 31 = Counter-Clockwise
* M4: 40 = Clockwise, 41 = Counter-Clockwise
* M5: 50 = Clockwise, 51 = Counter-Clockwise
*/
#define TRAMMING_SCREW_THREAD 30
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#endif
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// @section motion
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#define AXIS_RELATIVE_MODES { false, false, false, false }
// Add a Duplicate option for well-separated conjoined nozzles
//#define MULTI_NOZZLE_DUPLICATION
// 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_I_STEP_PIN false
#define INVERT_J_STEP_PIN false
#define INVERT_K_STEP_PIN false
#define INVERT_E_STEP_PIN false
/**
* Idle Stepper Shutdown
* Set DISABLE_INACTIVE_? 'true' to shut down axis steppers after an idle period.
* The Deactive Time can be overridden with M18 and M84. Set to 0 for No Timeout.
*/
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#define DEFAULT_STEPPER_DEACTIVE_TIME 120
#define DISABLE_INACTIVE_X true
#define DISABLE_INACTIVE_Y true
#define DISABLE_INACTIVE_Z true // Set 'false' if the nozzle could fall onto your printed part!
#define DISABLE_INACTIVE_I true
#define DISABLE_INACTIVE_J true
#define DISABLE_INACTIVE_K true
#define DISABLE_INACTIVE_E true
// Default Minimum Feedrates for printing and travel moves
#define DEFAULT_MINIMUMFEEDRATE 0.0 // (mm/s) Minimum feedrate. Set with M205 S.
#define DEFAULT_MINTRAVELFEEDRATE 0.0 // (mm/s) Minimum travel feedrate. Set with M205 T.
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// Minimum time that a segment needs to take as the buffer gets emptied
#define DEFAULT_MINSEGMENTTIME 20000 // (µs) Set with M205 B.
// Slow down the machine if the lookahead buffer is (by default) half full.
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// Increase the slowdown divisor for larger buffer sizes.
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#define SLOWDOWN
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#if ENABLED(SLOWDOWN)
#define SLOWDOWN_DIVISOR 2
#endif
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/**
* XY Frequency limit
* Reduce resonance by limiting the frequency of small zigzag infill moves.
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* See https://hydraraptor.blogspot.com/2010/12/frequency-limit.html
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* Use M201 F<freq> G<min%> to change limits at runtime.
*/
//#define XY_FREQUENCY_LIMIT 10 // (Hz) Maximum frequency of small zigzag infill moves. Set with M201 F<hertz>.
#ifdef XY_FREQUENCY_LIMIT
#define XY_FREQUENCY_MIN_PERCENT 5 // (percent) Minimum FR percentage to apply. Set with M201 G<min%>.
#endif
// 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/s)
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//
// Backlash Compensation
// Adds extra movement to axes on direction-changes to account for backlash.
//
//#define BACKLASH_COMPENSATION
#if ENABLED(BACKLASH_COMPENSATION)
// Define values for backlash distance and correction.
// If BACKLASH_GCODE is enabled these values are the defaults.
#define BACKLASH_DISTANCE_MM { 0, 0, 0 } // (mm) One value for each linear axis
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#define BACKLASH_CORRECTION 0.0 // 0.0 = no correction; 1.0 = full correction
// Add steps for motor direction changes on CORE kinematics
//#define CORE_BACKLASH
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// Set BACKLASH_SMOOTHING_MM to spread backlash correction over multiple segments
// to reduce print artifacts. (Enabling this is costly in memory and computation!)
//#define BACKLASH_SMOOTHING_MM 3 // (mm)
// Add runtime configuration and tuning of backlash values (M425)
//#define BACKLASH_GCODE
#if ENABLED(BACKLASH_GCODE)
// Measure the Z backlash when probing (G29) and set with "M425 Z"
#define MEASURE_BACKLASH_WHEN_PROBING
#if ENABLED(MEASURE_BACKLASH_WHEN_PROBING)
// When measuring, the probe will move up to BACKLASH_MEASUREMENT_LIMIT
// mm away from point of contact in BACKLASH_MEASUREMENT_RESOLUTION
// increments while checking for the contact to be broken.
#define BACKLASH_MEASUREMENT_LIMIT 0.5 // (mm)
#define BACKLASH_MEASUREMENT_RESOLUTION 0.005 // (mm)
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#define BACKLASH_MEASUREMENT_FEEDRATE Z_PROBE_FEEDRATE_SLOW // (mm/min)
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#endif
#endif
#endif
/**
* Automatic backlash, position and hotend offset calibration
*
* Enable G425 to run automatic calibration using an electrically-
* conductive cube, bolt, or washer mounted on the bed.
*
* G425 uses the probe to touch the top and sides of the calibration object
* on the bed and measures and/or correct positional offsets, axis backlash
* and hotend offsets.
*
* Note: HOTEND_OFFSET and CALIBRATION_OBJECT_CENTER must be set to within
* ±5mm of true values for G425 to succeed.
*/
//#define CALIBRATION_GCODE
#if ENABLED(CALIBRATION_GCODE)
//#define CALIBRATION_SCRIPT_PRE "M117 Starting Auto-Calibration\nT0\nG28\nG12\nM117 Calibrating..."
//#define CALIBRATION_SCRIPT_POST "M500\nM117 Calibration data saved"
#define CALIBRATION_MEASUREMENT_RESOLUTION 0.01 // mm
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#define CALIBRATION_FEEDRATE_SLOW 60 // mm/min
#define CALIBRATION_FEEDRATE_FAST 1200 // mm/min
#define CALIBRATION_FEEDRATE_TRAVEL 3000 // mm/min
// The following parameters refer to the conical section of the nozzle tip.
#define CALIBRATION_NOZZLE_TIP_HEIGHT 1.0 // mm
#define CALIBRATION_NOZZLE_OUTER_DIAMETER 2.0 // mm
// Uncomment to enable reporting (required for "G425 V", but consumes PROGMEM).
//#define CALIBRATION_REPORTING
// The true location and dimension the cube/bolt/washer on the bed.
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#define CALIBRATION_OBJECT_CENTER { 264.0, -22.0, -2.0 } // mm
#define CALIBRATION_OBJECT_DIMENSIONS { 10.0, 10.0, 10.0 } // mm
// Comment out any sides which are unreachable by the probe. For best
// auto-calibration results, all sides must be reachable.
#define CALIBRATION_MEASURE_RIGHT
#define CALIBRATION_MEASURE_FRONT
#define CALIBRATION_MEASURE_LEFT
#define CALIBRATION_MEASURE_BACK
//#define CALIBRATION_MEASURE_IMIN
//#define CALIBRATION_MEASURE_IMAX
//#define CALIBRATION_MEASURE_JMIN
//#define CALIBRATION_MEASURE_JMAX
//#define CALIBRATION_MEASURE_KMIN
//#define CALIBRATION_MEASURE_KMAX
// Probing at the exact top center only works if the center is flat. If
// probing on a screwhead or hollow washer, probe near the edges.
//#define CALIBRATION_MEASURE_AT_TOP_EDGES
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// Define the pin to read during calibration
#ifndef CALIBRATION_PIN
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//#define CALIBRATION_PIN -1 // Define here to override the default pin
#define CALIBRATION_PIN_INVERTING false // Set to true to invert the custom pin
//#define CALIBRATION_PIN_PULLDOWN
#define CALIBRATION_PIN_PULLUP
#endif
#endif
/**
* Adaptive Step Smoothing increases the resolution of multi-axis moves, particularly at step frequencies
* below 1kHz (for AVR) or 10kHz (for ARM), where aliasing between axes in multi-axis moves causes audible
* vibration and surface artifacts. The algorithm adapts to provide the best possible step smoothing at the
* lowest stepping frequencies.
*/
//#define ADAPTIVE_STEP_SMOOTHING
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/**
* Custom Microstepping
* Override as-needed for your setup. Up to 3 MS pins are supported.
*/
//#define MICROSTEP1 LOW,LOW,LOW
//#define MICROSTEP2 HIGH,LOW,LOW
//#define MICROSTEP4 LOW,HIGH,LOW
//#define MICROSTEP8 HIGH,HIGH,LOW
//#define MICROSTEP16 LOW,LOW,HIGH
//#define MICROSTEP32 HIGH,LOW,HIGH
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// Microstep settings (Requires a board with pins named X_MS1, X_MS2, etc.)
#define MICROSTEP_MODES { 16, 16, 16, 16, 16, 16 } // [1,2,4,8,16]
/**
* @section stepper motor current
*
* Some boards have a means of setting the stepper motor current via firmware.
*
* The power on motor currents are set by:
* PWM_MOTOR_CURRENT - used by MINIRAMBO & ULTIMAIN_2
* known compatible chips: A4982
* DIGIPOT_MOTOR_CURRENT - used by BQ_ZUM_MEGA_3D, RAMBO & SCOOVO_X9H
* known compatible chips: AD5206
* DAC_MOTOR_CURRENT_DEFAULT - used by PRINTRBOARD_REVF & RIGIDBOARD_V2
* known compatible chips: MCP4728
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* DIGIPOT_I2C_MOTOR_CURRENTS - used by 5DPRINT, AZTEEG_X3_PRO, AZTEEG_X5_MINI_WIFI, MIGHTYBOARD_REVE
* known compatible chips: MCP4451, MCP4018
*
* Motor currents can also be set by M907 - M910 and by the LCD.
* M907 - applies to all.
* M908 - BQ_ZUM_MEGA_3D, RAMBO, PRINTRBOARD_REVF, RIGIDBOARD_V2 & SCOOVO_X9H
* M909, M910 & LCD - only PRINTRBOARD_REVF & RIGIDBOARD_V2
*/
//#define PWM_MOTOR_CURRENT { 1300, 1300, 1250 } // Values in milliamps
//#define DIGIPOT_MOTOR_CURRENT { 135,135,135,135,135 } // Values 0-255 (RAMBO 135 = ~0.75A, 185 = ~1A)
//#define DAC_MOTOR_CURRENT_DEFAULT { 70, 80, 90, 80 } // Default drive percent - X, Y, Z, E axis
/**
* I2C-based DIGIPOTs (e.g., Azteeg X3 Pro)
*/
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//#define DIGIPOT_MCP4018 // Requires https://github.com/felias-fogg/SlowSoftI2CMaster
//#define DIGIPOT_MCP4451
#if EITHER(DIGIPOT_MCP4018, DIGIPOT_MCP4451)
#define DIGIPOT_I2C_NUM_CHANNELS 8 // 5DPRINT:4 AZTEEG_X3_PRO:8 MKS_SBASE:5 MIGHTYBOARD_REVE:5
// Actual motor currents in Amps. The number of entries must match DIGIPOT_I2C_NUM_CHANNELS.
// These correspond to the physical drivers, so be mindful if the order is changed.
#define DIGIPOT_I2C_MOTOR_CURRENTS { 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0 } // AZTEEG_X3_PRO
//#define DIGIPOT_USE_RAW_VALUES // Use DIGIPOT_MOTOR_CURRENT raw wiper values (instead of A4988 motor currents)
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/**
* Common slave addresses:
*
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* A (A shifted) B (B shifted) IC
* Smoothie 0x2C (0x58) 0x2D (0x5A) MCP4451
* AZTEEG_X3_PRO 0x2C (0x58) 0x2E (0x5C) MCP4451
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* AZTEEG_X5_MINI 0x2C (0x58) 0x2E (0x5C) MCP4451
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* AZTEEG_X5_MINI_WIFI 0x58 0x5C MCP4451
* MIGHTYBOARD_REVE 0x2F (0x5E) MCP4018
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*/
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//#define DIGIPOT_I2C_ADDRESS_A 0x2C // Unshifted slave address for first DIGIPOT
//#define DIGIPOT_I2C_ADDRESS_B 0x2D // Unshifted slave address for second DIGIPOT
#endif
//===========================================================================
//=============================Additional Features===========================
//===========================================================================
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// @section lcd
#if EITHER(IS_ULTIPANEL, EXTENSIBLE_UI)
#define MANUAL_FEEDRATE { 50*60, 50*60, 4*60, 2*60 } // (mm/min) Feedrates for manual moves along X, Y, Z, E from panel
#define FINE_MANUAL_MOVE 0.025 // (mm) Smallest manual move (< 0.1mm) applying to Z on most machines
#if IS_ULTIPANEL
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#define MANUAL_E_MOVES_RELATIVE // Display extruder move distance rather than "position"
#define ULTIPANEL_FEEDMULTIPLY // Encoder sets the feedrate multiplier on the Status Screen
#endif
#endif
// Change values more rapidly when the encoder is rotated faster
#define ENCODER_RATE_MULTIPLIER
#if ENABLED(ENCODER_RATE_MULTIPLIER)
#define ENCODER_10X_STEPS_PER_SEC 30 // (steps/s) Encoder rate for 10x speed
#define ENCODER_100X_STEPS_PER_SEC 80 // (steps/s) Encoder rate for 100x speed
#endif
// Play a beep when the feedrate is changed from the Status Screen
//#define BEEP_ON_FEEDRATE_CHANGE
#if ENABLED(BEEP_ON_FEEDRATE_CHANGE)
#define FEEDRATE_CHANGE_BEEP_DURATION 10
#define FEEDRATE_CHANGE_BEEP_FREQUENCY 440
#endif
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#if HAS_LCD_MENU
// Add Probe Z Offset calibration to the Z Probe Offsets menu
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#if HAS_BED_PROBE
//#define PROBE_OFFSET_WIZARD
#if ENABLED(PROBE_OFFSET_WIZARD)
//
// Enable to init the Probe Z-Offset when starting the Wizard.
// Use a height slightly above the estimated nozzle-to-probe Z offset.
// For example, with an offset of -5, consider a starting height of -4.
//
//#define PROBE_OFFSET_WIZARD_START_Z -4.0
// Set a convenient position to do the calibration (probing point and nozzle/bed-distance)
//#define PROBE_OFFSET_WIZARD_XY_POS { X_CENTER, Y_CENTER }
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#endif
#endif
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// Include a page of printer information in the LCD Main Menu
//#define LCD_INFO_MENU
#if ENABLED(LCD_INFO_MENU)
//#define LCD_PRINTER_INFO_IS_BOOTSCREEN // Show bootscreen(s) instead of Printer Info pages
#endif
// BACK menu items keep the highlight at the top
//#define TURBO_BACK_MENU_ITEM
// Add a mute option to the LCD menu
//#define SOUND_MENU_ITEM
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/**
* LED Control Menu
* Add LED Control to the LCD menu
*/
//#define LED_CONTROL_MENU
#if ENABLED(LED_CONTROL_MENU)
#define LED_COLOR_PRESETS // Enable the Preset Color menu option
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//#define NEO2_COLOR_PRESETS // Enable a second NeoPixel Preset Color menu option
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#if ENABLED(LED_COLOR_PRESETS)
#define LED_USER_PRESET_RED 255 // User defined RED value
#define LED_USER_PRESET_GREEN 128 // User defined GREEN value
#define LED_USER_PRESET_BLUE 0 // User defined BLUE value
#define LED_USER_PRESET_WHITE 255 // User defined WHITE value
#define LED_USER_PRESET_BRIGHTNESS 255 // User defined intensity
//#define LED_USER_PRESET_STARTUP // Have the printer display the user preset color on startup
#endif
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#if ENABLED(NEO2_COLOR_PRESETS)
#define NEO2_USER_PRESET_RED 255 // User defined RED value
#define NEO2_USER_PRESET_GREEN 128 // User defined GREEN value
#define NEO2_USER_PRESET_BLUE 0 // User defined BLUE value
#define NEO2_USER_PRESET_WHITE 255 // User defined WHITE value
#define NEO2_USER_PRESET_BRIGHTNESS 255 // User defined intensity
//#define NEO2_USER_PRESET_STARTUP // Have the printer display the user preset color on startup for the second strip
#endif
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#endif
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// Insert a menu for preheating at the top level to allow for quick access
//#define PREHEAT_SHORTCUT_MENU_ITEM
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#endif // HAS_LCD_MENU
#if HAS_DISPLAY
// The timeout (in ms) to return to the status screen from sub-menus
//#define LCD_TIMEOUT_TO_STATUS 15000
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#if ENABLED(SHOW_BOOTSCREEN)
#define BOOTSCREEN_TIMEOUT 4000 // (ms) Total Duration to display the boot screen(s)
#if EITHER(HAS_MARLINUI_U8GLIB, TFT_COLOR_UI)
#define BOOT_MARLIN_LOGO_SMALL // Show a smaller Marlin logo on the Boot Screen (saving lots of flash)
#endif
#endif
// Scroll a longer status message into view
//#define STATUS_MESSAGE_SCROLLING
// On the Info Screen, display XY with one decimal place when possible
//#define LCD_DECIMAL_SMALL_XY
// Add an 'M73' G-code to set the current percentage
//#define LCD_SET_PROGRESS_MANUALLY
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// Show the E position (filament used) during printing
//#define LCD_SHOW_E_TOTAL
#endif
#if EITHER(SDSUPPORT, LCD_SET_PROGRESS_MANUALLY) && ANY(HAS_MARLINUI_U8GLIB, HAS_MARLINUI_HD44780, IS_TFTGLCD_PANEL, EXTENSIBLE_UI)
//#define SHOW_REMAINING_TIME // Display estimated time to completion
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#if ENABLED(SHOW_REMAINING_TIME)
//#define USE_M73_REMAINING_TIME // Use remaining time from M73 command instead of estimation
//#define ROTATE_PROGRESS_DISPLAY // Display (P)rogress, (E)lapsed, and (R)emaining time
#endif
#if EITHER(HAS_MARLINUI_U8GLIB, EXTENSIBLE_UI)
//#define PRINT_PROGRESS_SHOW_DECIMALS // Show progress with decimal digits
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#endif
#if EITHER(HAS_MARLINUI_HD44780, IS_TFTGLCD_PANEL)
//#define LCD_PROGRESS_BAR // Show a progress bar on HD44780 LCDs for SD printing
#if ENABLED(LCD_PROGRESS_BAR)
#define PROGRESS_BAR_BAR_TIME 2000 // (ms) Amount of time to show the bar
#define PROGRESS_BAR_MSG_TIME 3000 // (ms) Amount of time to show the status message
#define PROGRESS_MSG_EXPIRE 0 // (ms) Amount of time to retain the status message (0=forever)
//#define PROGRESS_MSG_ONCE // Show the message for MSG_TIME then clear it
//#define LCD_PROGRESS_BAR_TEST // Add a menu item to test the progress bar
#endif
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#endif
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#endif
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#if ENABLED(SDSUPPORT)
/**
* SD Card SPI Speed
* May be required to resolve "volume init" errors.
*
* Enable and set to SPI_HALF_SPEED, SPI_QUARTER_SPEED, or SPI_EIGHTH_SPEED
* otherwise full speed will be applied.
*
* :['SPI_HALF_SPEED', 'SPI_QUARTER_SPEED', 'SPI_EIGHTH_SPEED']
*/
//#define SD_SPI_SPEED SPI_HALF_SPEED
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// The standard SD detect circuit reads LOW when media is inserted and HIGH when empty.
// Enable this option and set to HIGH if your SD cards are incorrectly detected.
//#define SD_DETECT_STATE HIGH
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//#define SD_IGNORE_AT_STARTUP // Don't mount the SD card when starting up
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//#define SDCARD_READONLY // Read-only SD card (to save over 2K of flash)
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//#define GCODE_REPEAT_MARKERS // Enable G-code M808 to set repeat markers and do looping
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#define SD_PROCEDURE_DEPTH 1 // Increase if you need more nested M32 calls
#define SD_FINISHED_STEPPERRELEASE true // Disable steppers when SD Print is finished
#define SD_FINISHED_RELEASECOMMAND "M84" // Use "M84XYE" to keep Z enabled so your bed stays in place
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// Reverse SD sort to show "more recent" files first, according to the card's FAT.
// Since the FAT gets out of order with usage, SDCARD_SORT_ALPHA is recommended.
#define SDCARD_RATHERRECENTFIRST
#define SD_MENU_CONFIRM_START // Confirm the selected SD file before printing
//#define NO_SD_AUTOSTART // Remove auto#.g file support completely to save some Flash, SRAM
//#define MENU_ADDAUTOSTART // Add a menu option to run auto#.g files
//#define BROWSE_MEDIA_ON_INSERT // Open the file browser when media is inserted
//#define MEDIA_MENU_AT_TOP // Force the media menu to be listed on the top of the main menu
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#define EVENT_GCODE_SD_ABORT "G28XY" // G-code to run on SD Abort Print (e.g., "G28XY" or "G27")
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#if ENABLED(PRINTER_EVENT_LEDS)
#define PE_LEDS_COMPLETED_TIME (30*60) // (seconds) Time to keep the LED "done" color before restoring normal illumination
#endif
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/**
* Continue after Power-Loss (Creality3D)
*
* Store the current state to the SD Card at the start of each layer
* during SD printing. If the recovery file is found at boot time, present
* an option on the LCD screen to continue the print from the last-known
* point in the file.
*/
//#define POWER_LOSS_RECOVERY
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#if ENABLED(POWER_LOSS_RECOVERY)
#define PLR_ENABLED_DEFAULT false // Power Loss Recovery enabled by default. (Set with 'M413 Sn' & M500)
//#define BACKUP_POWER_SUPPLY // Backup power / UPS to move the steppers on power loss
//#define POWER_LOSS_ZRAISE 2 // (mm) Z axis raise on resume (on power loss with UPS)
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//#define POWER_LOSS_PIN 44 // Pin to detect power loss. Set to -1 to disable default pin on boards without module.
//#define POWER_LOSS_STATE HIGH // State of pin indicating power loss
//#define POWER_LOSS_PULLUP // Set pullup / pulldown as appropriate for your sensor
//#define POWER_LOSS_PULLDOWN
//#define POWER_LOSS_PURGE_LEN 20 // (mm) Length of filament to purge on resume
//#define POWER_LOSS_RETRACT_LEN 10 // (mm) Length of filament to retract on fail. Requires backup power.
// Without a POWER_LOSS_PIN the following option helps reduce wear on the SD card,
// especially with "vase mode" printing. Set too high and vases cannot be continued.
#define POWER_LOSS_MIN_Z_CHANGE 0.05 // (mm) Minimum Z change before saving power-loss data
// Enable if Z homing is needed for proper recovery. 99.9% of the time this should be disabled!
//#define POWER_LOSS_RECOVER_ZHOME
#if ENABLED(POWER_LOSS_RECOVER_ZHOME)
//#define POWER_LOSS_ZHOME_POS { 0, 0 } // Safe XY position to home Z while avoiding objects on the bed
#endif
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#endif
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/**
* Sort SD file listings in alphabetical order.
*
* With this option enabled, items on SD cards will be sorted
* by name for easier navigation.
*
* By default...
*
* - Use the slowest -but safest- method for sorting.
* - Folders are sorted to the top.
* - The sort key is statically allocated.
* - No added G-code (M34) support.
* - 40 item sorting limit. (Items after the first 40 are unsorted.)
*
* SD sorting uses static allocation (as set by SDSORT_LIMIT), allowing the
* compiler to calculate the worst-case usage and throw an error if the SRAM
* limit is exceeded.
*
* - SDSORT_USES_RAM provides faster sorting via a static directory buffer.
* - SDSORT_USES_STACK does the same, but uses a local stack-based buffer.
* - SDSORT_CACHE_NAMES will retain the sorted file listing in RAM. (Expensive!)
* - SDSORT_DYNAMIC_RAM only uses RAM when the SD menu is visible. (Use with caution!)
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*/
//#define SDCARD_SORT_ALPHA
// SD Card Sorting options
#if ENABLED(SDCARD_SORT_ALPHA)
#define SDSORT_LIMIT 40 // Maximum number of sorted items (10-256). Costs 27 bytes each.
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#define FOLDER_SORTING -1 // -1=above 0=none 1=below
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#define SDSORT_GCODE false // Allow turning sorting on/off with LCD and M34 G-code.
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#define SDSORT_USES_RAM false // Pre-allocate a static array for faster pre-sorting.
#define SDSORT_USES_STACK false // Prefer the stack for pre-sorting to give back some SRAM. (Negated by next 2 options.)
#define SDSORT_CACHE_NAMES false // Keep sorted items in RAM longer for speedy performance. Most expensive option.
#define SDSORT_DYNAMIC_RAM false // Use dynamic allocation (within SD menus). Least expensive option. Set SDSORT_LIMIT before use!
#define SDSORT_CACHE_VFATS 2 // Maximum number of 13-byte VFAT entries to use for sorting.
// Note: Only affects SCROLL_LONG_FILENAMES with SDSORT_CACHE_NAMES but not SDSORT_DYNAMIC_RAM.
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#endif
// Allow international symbols in long filenames. To display correctly, the
// LCD's font must contain the characters. Check your selected LCD language.
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//#define UTF_FILENAME_SUPPORT
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// This allows hosts to request long names for files and folders with M33
//#define LONG_FILENAME_HOST_SUPPORT
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// Enable this option to scroll long filenames in the SD card menu
//#define SCROLL_LONG_FILENAMES
// Leave the heaters on after Stop Print (not recommended!)
//#define SD_ABORT_NO_COOLDOWN
/**
* This option allows you to abort SD printing when any endstop is triggered.
* This feature must be enabled with "M540 S1" or from the LCD menu.
* To have any effect, endstops must be enabled during SD printing.
*/
//#define SD_ABORT_ON_ENDSTOP_HIT
/**
* This option makes it easier to print the same SD Card file again.
* On print completion the LCD Menu will open with the file selected.
* You can just click to start the print, or navigate elsewhere.
*/
//#define SD_REPRINT_LAST_SELECTED_FILE
/**
* Auto-report SdCard status with M27 S<seconds>
*/
//#define AUTO_REPORT_SD_STATUS
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/**
* Support for USB thumb drives using an Arduino USB Host Shield or
* equivalent MAX3421E breakout board. The USB thumb drive will appear
* to Marlin as an SD card.
*
* The MAX3421E can be assigned the same pins as the SD card reader, with
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* the following pin mapping:
*
* SCLK, MOSI, MISO --> SCLK, MOSI, MISO
* INT --> SD_DETECT_PIN [1]
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* SS --> SDSS
*
* [1] On AVR an interrupt-capable pin is best for UHS3 compatibility.
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*/
//#define USB_FLASH_DRIVE_SUPPORT
#if ENABLED(USB_FLASH_DRIVE_SUPPORT)
/**
* USB Host Shield Library
*
* - UHS2 uses no interrupts and has been production-tested
* on a LulzBot TAZ Pro with a 32-bit Archim board.
*
* - UHS3 is newer code with better USB compatibility. But it
* is less tested and is known to interfere with Servos.
* [1] This requires USB_INTR_PIN to be interrupt-capable.
*/
//#define USE_UHS2_USB
//#define USE_UHS3_USB
/**
* Native USB Host supported by some boards (USB OTG)
*/
//#define USE_OTG_USB_HOST
#if DISABLED(USE_OTG_USB_HOST)
#define USB_CS_PIN SDSS
#define USB_INTR_PIN SD_DETECT_PIN
#endif
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#endif
/**
* When using a bootloader that supports SD-Firmware-Flashing,
* add a menu item to activate SD-FW-Update on the next reboot.
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*
* Requires ATMEGA2560 (Arduino Mega)
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*
* Tested with this bootloader:
* https://github.com/FleetProbe/MicroBridge-Arduino-ATMega2560
*/
//#define SD_FIRMWARE_UPDATE
#if ENABLED(SD_FIRMWARE_UPDATE)
#define SD_FIRMWARE_UPDATE_EEPROM_ADDR 0x1FF
#define SD_FIRMWARE_UPDATE_ACTIVE_VALUE 0xF0
#define SD_FIRMWARE_UPDATE_INACTIVE_VALUE 0xFF
#endif
// Add an optimized binary file transfer mode, initiated with 'M28 B1'
//#define BINARY_FILE_TRANSFER
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/**
* Set this option to one of the following (or the board's defaults apply):
*
* LCD - Use the SD drive in the external LCD controller.
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* ONBOARD - Use the SD drive on the control board.
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* CUSTOM_CABLE - Use a custom cable to access the SD (as defined in a pins file).
*
* :[ 'LCD', 'ONBOARD', 'CUSTOM_CABLE' ]
*/
//#define SDCARD_CONNECTION LCD
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// Enable if SD detect is rendered useless (e.g., by using an SD extender)
//#define NO_SD_DETECT
// Multiple volume support - EXPERIMENTAL.
//#define MULTI_VOLUME
#if ENABLED(MULTI_VOLUME)
#define VOLUME_SD_ONBOARD
#define VOLUME_USB_FLASH_DRIVE
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#define DEFAULT_VOLUME SV_SD_ONBOARD
#define DEFAULT_SHARED_VOLUME SV_USB_FLASH_DRIVE
#endif
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#endif // SDSUPPORT
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/**
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* By default an onboard SD card reader may be shared as a USB mass-
* storage device. This option hides the SD card from the host PC.
*/
//#define NO_SD_HOST_DRIVE // Disable SD Card access over USB (for security).
/**
* Additional options for Graphical Displays
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*
* Use the optimizations here to improve printing performance,
* which can be adversely affected by graphical display drawing,
* especially when doing several short moves, and when printing
* on DELTA and SCARA machines.
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*
* Some of these options may result in the display lagging behind
* controller events, as there is a trade-off between reliable
* printing performance versus fast display updates.
*/
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#if HAS_MARLINUI_U8GLIB
// Show SD percentage next to the progress bar
//#define DOGM_SD_PERCENT
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// Save many cycles by drawing a hollow frame or no frame on the Info Screen
//#define XYZ_NO_FRAME
#define XYZ_HOLLOW_FRAME
// Enable to save many cycles by drawing a hollow frame on Menu Screens
#define MENU_HOLLOW_FRAME
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// A bigger font is available for edit items. Costs 3120 bytes of PROGMEM.
// Western only. Not available for Cyrillic, Kana, Turkish, Greek, or Chinese.
//#define USE_BIG_EDIT_FONT
// A smaller font may be used on the Info Screen. Costs 2434 bytes of PROGMEM.
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// Western only. Not available for Cyrillic, Kana, Turkish, Greek, or Chinese.
//#define USE_SMALL_INFOFONT
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// Swap the CW/CCW indicators in the graphics overlay
//#define OVERLAY_GFX_REVERSE
/**
* ST7920-based LCDs can emulate a 16 x 4 character display using
* the ST7920 character-generator for very fast screen updates.
* Enable LIGHTWEIGHT_UI to use this special display mode.
*
* Since LIGHTWEIGHT_UI has limited space, the position and status
* message occupy the same line. Set STATUS_EXPIRE_SECONDS to the
* length of time to display the status message before clearing.
*
* Set STATUS_EXPIRE_SECONDS to zero to never clear the status.
* This will prevent position updates from being displayed.
*/
#if ENABLED(U8GLIB_ST7920)
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// Enable this option and reduce the value to optimize screen updates.
// The normal delay is 10µs. Use the lowest value that still gives a reliable display.
//#define DOGM_SPI_DELAY_US 5
//#define LIGHTWEIGHT_UI
#if ENABLED(LIGHTWEIGHT_UI)
#define STATUS_EXPIRE_SECONDS 20
#endif
#endif
/**
* Status (Info) Screen customizations
* These options may affect code size and screen render time.
* Custom status screens can forcibly override these settings.
*/
//#define STATUS_COMBINE_HEATERS // Use combined heater images instead of separate ones
//#define STATUS_HOTEND_NUMBERLESS // Use plain hotend icons instead of numbered ones (with 2+ hotends)
#define STATUS_HOTEND_INVERTED // Show solid nozzle bitmaps when heating (Requires STATUS_HOTEND_ANIM for numbered hotends)
#define STATUS_HOTEND_ANIM // Use a second bitmap to indicate hotend heating
#define STATUS_BED_ANIM // Use a second bitmap to indicate bed heating
#define STATUS_CHAMBER_ANIM // Use a second bitmap to indicate chamber heating
//#define STATUS_CUTTER_ANIM // Use a second bitmap to indicate spindle / laser active
//#define STATUS_COOLER_ANIM // Use a second bitmap to indicate laser cooling
//#define STATUS_FLOWMETER_ANIM // Use multiple bitmaps to indicate coolant flow
//#define STATUS_ALT_BED_BITMAP // Use the alternative bed bitmap
//#define STATUS_ALT_FAN_BITMAP // Use the alternative fan bitmap
//#define STATUS_FAN_FRAMES 3 // :[0,1,2,3,4] Number of fan animation frames
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//#define STATUS_HEAT_PERCENT // Show heating in a progress bar
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//#define BOOT_MARLIN_LOGO_ANIMATED // Animated Marlin logo. Costs ~3260 (or ~940) bytes of PROGMEM.
// Frivolous Game Options
//#define MARLIN_BRICKOUT
//#define MARLIN_INVADERS
//#define MARLIN_SNAKE
//#define GAMES_EASTER_EGG // Add extra blank lines above the "Games" sub-menu
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#endif // HAS_MARLINUI_U8GLIB
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//
// Additional options for DGUS / DWIN displays
//
#if HAS_DGUS_LCD
#define LCD_SERIAL_PORT 3
#define LCD_BAUDRATE 115200
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#define DGUS_RX_BUFFER_SIZE 128
#define DGUS_TX_BUFFER_SIZE 48
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//#define SERIAL_STATS_RX_BUFFER_OVERRUNS // Fix Rx overrun situation (Currently only for AVR)
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#define DGUS_UPDATE_INTERVAL_MS 500 // (ms) Interval between automatic screen updates
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#if ANY(DGUS_LCD_UI_FYSETC, DGUS_LCD_UI_MKS, DGUS_LCD_UI_HIPRECY)
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#define DGUS_PRINT_FILENAME // Display the filename during printing
#define DGUS_PREHEAT_UI // Display a preheat screen during heatup
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#if EITHER(DGUS_LCD_UI_FYSETC, DGUS_LCD_UI_MKS)
//#define DGUS_UI_MOVE_DIS_OPTION // Disabled by default for FYSETC and MKS
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#else
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#define DGUS_UI_MOVE_DIS_OPTION // Enabled by default for UI_HIPRECY
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#endif
#define DGUS_FILAMENT_LOADUNLOAD
#if ENABLED(DGUS_FILAMENT_LOADUNLOAD)
#define DGUS_FILAMENT_PURGE_LENGTH 10
#define DGUS_FILAMENT_LOAD_LENGTH_PER_TIME 0.5 // (mm) Adjust in proportion to DGUS_UPDATE_INTERVAL_MS
#endif
#define DGUS_UI_WAITING // Show a "waiting" screen between some screens
#if ENABLED(DGUS_UI_WAITING)
#define DGUS_UI_WAITING_STATUS 10
#define DGUS_UI_WAITING_STATUS_PERIOD 8 // Increase to slower waiting status looping
#endif
#endif
#endif // HAS_DGUS_LCD
//
// Additional options for AnyCubic Chiron TFT displays
//
#if ENABLED(ANYCUBIC_LCD_CHIRON)
// By default the type of panel is automatically detected.
// Enable one of these options if you know the panel type.
//#define CHIRON_TFT_STANDARD
//#define CHIRON_TFT_NEW
// Enable the longer Anycubic powerup startup tune
//#define AC_DEFAULT_STARTUP_TUNE
/**
* Display Folders
* By default the file browser lists all G-code files (including those in subfolders) in a flat list.
* Enable this option to display a hierarchical file browser.
*
* NOTES:
* - Without this option it helps to enable SDCARD_SORT_ALPHA so files are sorted before/after folders.
* - When used with the "new" panel, folder names will also have '.gcode' appended to their names.
* This hack is currently required to force the panel to show folders.
*/
#define AC_SD_FOLDER_VIEW
#endif
//
// Specify additional languages for the UI. Default specified by LCD_LANGUAGE.
//
#if ANY(DOGLCD, TFT_COLOR_UI, TOUCH_UI_FTDI_EVE)
//#define LCD_LANGUAGE_2 fr
//#define LCD_LANGUAGE_3 de
//#define LCD_LANGUAGE_4 es
//#define LCD_LANGUAGE_5 it
#ifdef LCD_LANGUAGE_2
//#define LCD_LANGUAGE_AUTO_SAVE // Automatically save language to EEPROM on change
#endif
#endif
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//
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// Touch UI for the FTDI Embedded Video Engine (EVE)
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//
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#if ENABLED(TOUCH_UI_FTDI_EVE)
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// Display board used
//#define LCD_FTDI_VM800B35A // FTDI 3.5" with FT800 (320x240)
//#define LCD_4DSYSTEMS_4DLCD_FT843 // 4D Systems 4.3" (480x272)
//#define LCD_HAOYU_FT800CB // Haoyu with 4.3" or 5" (480x272)
//#define LCD_HAOYU_FT810CB // Haoyu with 5" (800x480)
//#define LCD_ALEPHOBJECTS_CLCD_UI // Aleph Objects Color LCD UI
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//#define LCD_FYSETC_TFT81050 // FYSETC with 5" (800x480)
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//#define LCD_EVE3_50G // Matrix Orbital 5.0", 800x480, BT815
//#define LCD_EVE2_50G // Matrix Orbital 5.0", 800x480, FT813
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// Correct the resolution if not using the stock TFT panel.
//#define TOUCH_UI_320x240
//#define TOUCH_UI_480x272
//#define TOUCH_UI_800x480
// Mappings for boards with a standard RepRapDiscount Display connector
//#define AO_EXP1_PINMAP // AlephObjects CLCD UI EXP1 mapping
//#define AO_EXP2_PINMAP // AlephObjects CLCD UI EXP2 mapping
//#define CR10_TFT_PINMAP // Rudolph Riedel's CR10 pin mapping
//#define S6_TFT_PINMAP // FYSETC S6 pin mapping
//#define F6_TFT_PINMAP // FYSETC F6 pin mapping
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//#define OTHER_PIN_LAYOUT // Define pins manually below
#if ENABLED(OTHER_PIN_LAYOUT)
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// Pins for CS and MOD_RESET (PD) must be chosen
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#define CLCD_MOD_RESET 9
#define CLCD_SPI_CS 10
// If using software SPI, specify pins for SCLK, MOSI, MISO
//#define CLCD_USE_SOFT_SPI
#if ENABLED(CLCD_USE_SOFT_SPI)
#define CLCD_SOFT_SPI_MOSI 11
#define CLCD_SOFT_SPI_MISO 12
#define CLCD_SOFT_SPI_SCLK 13
#endif
#endif
// Display Orientation. An inverted (i.e. upside-down) display
// is supported on the FT800. The FT810 and beyond also support
// portrait and mirrored orientations.
//#define TOUCH_UI_INVERTED
//#define TOUCH_UI_PORTRAIT
//#define TOUCH_UI_MIRRORED
// UTF8 processing and rendering.
// Unsupported characters are shown as '?'.
//#define TOUCH_UI_USE_UTF8
#if ENABLED(TOUCH_UI_USE_UTF8)
// Western accents support. These accented characters use
// combined bitmaps and require relatively little storage.
#define TOUCH_UI_UTF8_WESTERN_CHARSET
#if ENABLED(TOUCH_UI_UTF8_WESTERN_CHARSET)
// Additional character groups. These characters require
// full bitmaps and take up considerable storage:
//#define TOUCH_UI_UTF8_SUPERSCRIPTS // ¹ ² ³
//#define TOUCH_UI_UTF8_COPYRIGHT // © ®
//#define TOUCH_UI_UTF8_GERMANIC // ß
//#define TOUCH_UI_UTF8_SCANDINAVIAN // Æ Ð Ø Þ æ ð ø þ
//#define TOUCH_UI_UTF8_PUNCTUATION // « » ¿ ¡
//#define TOUCH_UI_UTF8_CURRENCY // ¢ £ ¤ ¥
//#define TOUCH_UI_UTF8_ORDINALS // º ª
//#define TOUCH_UI_UTF8_MATHEMATICS // ± × ÷
//#define TOUCH_UI_UTF8_FRACTIONS // ¼ ½ ¾
//#define TOUCH_UI_UTF8_SYMBOLS // µ ¶ ¦ § ¬
#endif
// Cyrillic character set, costs about 27KiB of flash
//#define TOUCH_UI_UTF8_CYRILLIC_CHARSET
#endif
// Use a smaller font when labels don't fit buttons
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#define TOUCH_UI_FIT_TEXT
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// Use a numeric passcode for "Screen lock" keypad.
// (recommended for smaller displays)
//#define TOUCH_UI_PASSCODE
// Output extra debug info for Touch UI events
//#define TOUCH_UI_DEBUG
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// Developer menu (accessed by touching "About Printer" copyright text)
//#define TOUCH_UI_DEVELOPER_MENU
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#endif
//
TFT Refactoring (#19192) * split tft folder in two: tft for color ui; tft_io for shared tft code * after the files got moved, now the code was moved to the right place * classic ui using TFT IO init lcd codes * feature to compile tft_io when enabled * compiling fix * lvgl spi tft working with tft io init codes * there is no need for separeted fsmc and spi class in lvgl anymore, as tft io handle everything * remove debug * base for TFT rotation and mirroring API, and ILI9488 support * ST7796S rotate and mirror support * ST7789V rotate and mirror support * ST7735 rotate and mirror support * ILI9341 rotate and mirror support * ILI9328 rotate and mirror support * R61505 rotate and mirror support * MKS TFT definitions * more configs for mks tfts * update config * naming typo * to configure the user interface * ANYCUBIC_TFT35 * tft configs * support for SSD1963 * tft display types * updated conditionals lcd; first board fully working with the new code - all 3 ui! * compatiblity * changed name * move classic ui file name * rename TURN -> ROTATE * GRAPHICAL_TFT_ROTATE_180 deprecated * first fsmc board fully working - chitu v5 * mks robin nano v1.2 + tft 35 ok! * right pin name * anycubic tft tested in a TRIGORILLA_PRO * chitu v6 * nano 32 tft orientation * mks tft43 * mks tft43 rotation * fixed LONGER LK tft setup * GRAPHICAL_TFT_UPSCALE defined by the display type * better offsets defaults * Update Configuration.h * Update tft_fsmc.cpp * Update Conditionals_LCD.h * Tweak comments * update nano tests * Revert "update nano tests" This reverts commit a071ebbfad30e28855a4a5695ec8a726542a1a65. * default tft * outdated comments * to not break non-vscode builds * upscale tft 35 * support tft 180 rotation for color ui * Each TFT Driver is responsible for its default color mode. * use auto detect in mks displays, because some of them could be shipped with diferent drivers * extra s * unused code * wrong -1 * missing mirror options * Smaller regex pattern * Comment updates * Clean up old defines * Apply pins formatting * GRAPHICAL_TFT_ROTATE_180 => TFT_ROTATE_180 * MKS_ROBIN_TFT_V1_1R * merge fix * correct resolution * auto is default, dont need be there, and it will allow the user to configure it even for named displays * to not use rotation with MKS_ROBIN_TFT_V1_1R * i like () in macros * avoid sleepy commits * default for st7789 is rgb * nano follow up * to allow ili9328 rotation * default is rgb * boards merge follow up * to match bootloader orientation * HAS_TOUCH_XPT2046 is not hal specific anymore * lets not forget LPC * 180 rotation for ili9328 and R61505 * Clean up whitespace Co-authored-by: Scott Lahteine <thinkyhead@users.noreply.github.com> Co-authored-by: Scott Lahteine <github@thinkyhead.com>
2020-10-12 21:38:07 +00:00
// Classic UI Options
//
#if TFT_SCALED_DOGLCD
//#define TFT_MARLINUI_COLOR 0xFFFF // White
//#define TFT_MARLINBG_COLOR 0x0000 // Black
//#define TFT_DISABLED_COLOR 0x0003 // Almost black
//#define TFT_BTCANCEL_COLOR 0xF800 // Red
//#define TFT_BTARROWS_COLOR 0xDEE6 // 11011 110111 00110 Yellow
//#define TFT_BTOKMENU_COLOR 0x145F // 00010 100010 11111 Cyan
#endif
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//
// ADC Button Debounce
//
#if HAS_ADC_BUTTONS
#define ADC_BUTTON_DEBOUNCE_DELAY 16 // Increase if buttons bounce or repeat too fast
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#endif
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// @section safety
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/**
* The watchdog hardware timer will do a reset and disable all outputs
* if the firmware gets too overloaded to read the temperature sensors.
*
* If you find that watchdog reboot causes your AVR board to hang forever,
* enable WATCHDOG_RESET_MANUAL to use a custom timer instead of WDTO.
* NOTE: This method is less reliable as it can only catch hangups while
* interrupts are enabled.
*/
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#define USE_WATCHDOG
#if ENABLED(USE_WATCHDOG)
//#define WATCHDOG_RESET_MANUAL
#endif
// @section lcd
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/**
* Babystepping enables movement of the axes by tiny increments without changing
* the current position values. This feature is used primarily to adjust the Z
* axis in the first layer of a print in real-time.
*
* Warning: Does not respect endstops!
*/
//#define BABYSTEPPING
#if ENABLED(BABYSTEPPING)
//#define INTEGRATED_BABYSTEPPING // EXPERIMENTAL integration of babystepping into the Stepper ISR
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//#define BABYSTEP_WITHOUT_HOMING
//#define BABYSTEP_ALWAYS_AVAILABLE // Allow babystepping at all times (not just during movement).
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//#define BABYSTEP_XY // Also enable X/Y Babystepping. Not supported on DELTA!
#define BABYSTEP_INVERT_Z false // Change if Z babysteps should go the other way
//#define BABYSTEP_MILLIMETER_UNITS // Specify BABYSTEP_MULTIPLICATOR_(XY|Z) in mm instead of micro-steps
#define BABYSTEP_MULTIPLICATOR_Z 1 // (steps or mm) Steps or millimeter distance for each Z babystep
#define BABYSTEP_MULTIPLICATOR_XY 1 // (steps or mm) Steps or millimeter distance for each XY babystep
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//#define DOUBLECLICK_FOR_Z_BABYSTEPPING // Double-click on the Status Screen for Z Babystepping.
#if ENABLED(DOUBLECLICK_FOR_Z_BABYSTEPPING)
#define DOUBLECLICK_MAX_INTERVAL 1250 // Maximum interval between clicks, in milliseconds.
// Note: Extra time may be added to mitigate controller latency.
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//#define MOVE_Z_WHEN_IDLE // Jump to the move Z menu on doubleclick when printer is idle.
#if ENABLED(MOVE_Z_WHEN_IDLE)
#define MOVE_Z_IDLE_MULTIPLICATOR 1 // Multiply 1mm by this factor for the move step size.
#endif
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#endif
//#define BABYSTEP_DISPLAY_TOTAL // Display total babysteps since last G28
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//#define BABYSTEP_ZPROBE_OFFSET // Combine M851 Z and Babystepping
#if ENABLED(BABYSTEP_ZPROBE_OFFSET)
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//#define BABYSTEP_HOTEND_Z_OFFSET // For multiple hotends, babystep relative Z offsets
//#define BABYSTEP_ZPROBE_GFX_OVERLAY // Enable graphical overlay on Z-offset editor
#endif
#endif
// @section extruder
/**
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* Linear Pressure Control v1.5
*
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* Assumption: advance [steps] = k * (delta velocity [steps/s])
* K=0 means advance disabled.
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*
* NOTE: K values for LIN_ADVANCE 1.5 differ from earlier versions!
*
* Set K around 0.22 for 3mm PLA Direct Drive with ~6.5cm between the drive gear and heatbreak.
* Larger K values will be needed for flexible filament and greater distances.
* If this algorithm produces a higher speed offset than the extruder can handle (compared to E jerk)
* print acceleration will be reduced during the affected moves to keep within the limit.
*
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* See https://marlinfw.org/docs/features/lin_advance.html for full instructions.
*/
//#define LIN_ADVANCE
#if ENABLED(LIN_ADVANCE)
//#define EXTRA_LIN_ADVANCE_K // Enable for second linear advance constants
#define LIN_ADVANCE_K 0.22 // Unit: mm compression per 1mm/s extruder speed
//#define LA_DEBUG // If enabled, this will generate debug information output over USB.
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//#define EXPERIMENTAL_SCURVE // Enable this option to permit S-Curve Acceleration
#endif
// @section leveling
/**
* Points to probe for all 3-point Leveling procedures.
* Override if the automatically selected points are inadequate.
*/
#if EITHER(AUTO_BED_LEVELING_3POINT, AUTO_BED_LEVELING_UBL)
//#define PROBE_PT_1_X 15
//#define PROBE_PT_1_Y 180
//#define PROBE_PT_2_X 15
//#define PROBE_PT_2_Y 20
//#define PROBE_PT_3_X 170
//#define PROBE_PT_3_Y 20
#endif
/**
* Probing Margins
*
* Override PROBING_MARGIN for each side of the build plate
* Useful to get probe points to exact positions on targets or
* to allow leveling to avoid plate clamps on only specific
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* sides of the bed. With NOZZLE_AS_PROBE negative values are
* allowed, to permit probing outside the bed.
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*
* If you are replacing the prior *_PROBE_BED_POSITION options,
* LEFT and FRONT values in most cases will map directly over
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* RIGHT and REAR would be the inverse such as
* (X/Y_BED_SIZE - RIGHT/BACK_PROBE_BED_POSITION)
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*
* This will allow all positions to match at compilation, however
* should the probe position be modified with M851XY then the
* probe points will follow. This prevents any change from causing
* the probe to be unable to reach any points.
*/
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#if PROBE_SELECTED && !IS_KINEMATIC
//#define PROBING_MARGIN_LEFT PROBING_MARGIN
//#define PROBING_MARGIN_RIGHT PROBING_MARGIN
//#define PROBING_MARGIN_FRONT PROBING_MARGIN
//#define PROBING_MARGIN_BACK PROBING_MARGIN
#endif
#if EITHER(MESH_BED_LEVELING, AUTO_BED_LEVELING_UBL)
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// Override the mesh area if the automatic (max) area is too large
//#define MESH_MIN_X MESH_INSET
//#define MESH_MIN_Y MESH_INSET
//#define MESH_MAX_X X_BED_SIZE - (MESH_INSET)
//#define MESH_MAX_Y Y_BED_SIZE - (MESH_INSET)
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#endif
#if BOTH(AUTO_BED_LEVELING_UBL, EEPROM_SETTINGS)
//#define OPTIMIZED_MESH_STORAGE // Store mesh with less precision to save EEPROM space
#endif
/**
* Repeatedly attempt G29 leveling until it succeeds.
* Stop after G29_MAX_RETRIES attempts.
*/
//#define G29_RETRY_AND_RECOVER
#if ENABLED(G29_RETRY_AND_RECOVER)
#define G29_MAX_RETRIES 3
#define G29_HALT_ON_FAILURE
/**
* Specify the GCODE commands that will be executed when leveling succeeds,
* between attempts, and after the maximum number of retries have been tried.
*/
#define G29_SUCCESS_COMMANDS "M117 Bed leveling done."
#define G29_RECOVER_COMMANDS "M117 Probe failed. Rewiping.\nG28\nG12 P0 S12 T0"
#define G29_FAILURE_COMMANDS "M117 Bed leveling failed.\nG0 Z10\nM300 P25 S880\nM300 P50 S0\nM300 P25 S880\nM300 P50 S0\nM300 P25 S880\nM300 P50 S0\nG4 S1"
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#endif
/**
* Thermal Probe Compensation
* Probe measurements are adjusted to compensate for temperature distortion.
* Use G76 to calibrate this feature. Use M871 to set values manually.
* For a more detailed explanation of the process see G76_M871.cpp.
*/
#if HAS_BED_PROBE && TEMP_SENSOR_PROBE && TEMP_SENSOR_BED
// Enable thermal first layer compensation using bed and probe temperatures
#define PROBE_TEMP_COMPENSATION
// Add additional compensation depending on hotend temperature
// Note: this values cannot be calibrated and have to be set manually
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#if ENABLED(PROBE_TEMP_COMPENSATION)
// Park position to wait for probe cooldown
#define PTC_PARK_POS { 0, 0, 100 }
// Probe position to probe and wait for probe to reach target temperature
#define PTC_PROBE_POS { 90, 100 }
// Enable additional compensation using hotend temperature
// Note: this values cannot be calibrated automatically but have to be set manually
//#define USE_TEMP_EXT_COMPENSATION
// Probe temperature calibration generates a table of values starting at PTC_SAMPLE_START
// (e.g., 30), in steps of PTC_SAMPLE_RES (e.g., 5) with PTC_SAMPLE_COUNT (e.g., 10) samples.
//#define PTC_SAMPLE_START 30 // (°C)
//#define PTC_SAMPLE_RES 5 // (°C)
//#define PTC_SAMPLE_COUNT 10
// Bed temperature calibration builds a similar table.
//#define BTC_SAMPLE_START 60 // (°C)
//#define BTC_SAMPLE_RES 5 // (°C)
//#define BTC_SAMPLE_COUNT 10
// The temperature the probe should be at while taking measurements during bed temperature
// calibration.
//#define BTC_PROBE_TEMP 30 // (°C)
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// Height above Z=0.0 to raise the nozzle. Lowering this can help the probe to heat faster.
// Note: the Z=0.0 offset is determined by the probe offset which can be set using M851.
//#define PTC_PROBE_HEATING_OFFSET 0.5
// Height to raise the Z-probe between heating and taking the next measurement. Some probes
// may fail to untrigger if they have been triggered for a long time, which can be solved by
// increasing the height the probe is raised to.
//#define PTC_PROBE_RAISE 15
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// If the probe is outside of the defined range, use linear extrapolation using the closest
// point and the PTC_LINEAR_EXTRAPOLATION'th next point. E.g. if set to 4 it will use data[0]
// and data[4] to perform linear extrapolation for values below PTC_SAMPLE_START.
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//#define PTC_LINEAR_EXTRAPOLATION 4
#endif
#endif
// @section extras
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//
// G60/G61 Position Save and Return
//
//#define SAVED_POSITIONS 1 // Each saved position slot costs 12 bytes
//
// G2/G3 Arc Support
//
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#define ARC_SUPPORT // Disable this feature to save ~3226 bytes
#if ENABLED(ARC_SUPPORT)
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#define MM_PER_ARC_SEGMENT 1 // (mm) Length (or minimum length) of each arc segment
//#define ARC_SEGMENTS_PER_R 1 // Max segment length, MM_PER = Min
#define MIN_ARC_SEGMENTS 24 // Minimum number of segments in a complete circle
//#define ARC_SEGMENTS_PER_SEC 50 // Use feedrate to choose segment length (with MM_PER_ARC_SEGMENT as the minimum)
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#define N_ARC_CORRECTION 25 // Number of interpolated segments between corrections
//#define ARC_P_CIRCLES // Enable the 'P' parameter to specify complete circles
//#define CNC_WORKSPACE_PLANES // Allow G2/G3 to operate in XY, ZX, or YZ planes
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//#define SF_ARC_FIX // Enable only if using SkeinForge with "Arc Point" fillet procedure
#endif
// Support for G5 with XYZE destination and IJPQ offsets. Requires ~2666 bytes.
//#define BEZIER_CURVE_SUPPORT
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/**
* Direct Stepping
*
* Comparable to the method used by Klipper, G6 direct stepping significantly
* reduces motion calculations, increases top printing speeds, and results in
* less step aliasing by calculating all motions in advance.
* Preparing your G-code: https://github.com/colinrgodsey/step-daemon
*/
//#define DIRECT_STEPPING
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/**
* G38 Probe Target
*
* This option adds G38.2 and G38.3 (probe towards target)
* and optionally G38.4 and G38.5 (probe away from target).
* Set MULTIPLE_PROBING for G38 to probe more than once.
*/
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//#define G38_PROBE_TARGET
#if ENABLED(G38_PROBE_TARGET)
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//#define G38_PROBE_AWAY // Include G38.4 and G38.5 to probe away from target
#define G38_MINIMUM_MOVE 0.0275 // (mm) Minimum distance that will produce a move.
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#endif
// Moves (or segments) with fewer steps than this will be joined with the next move
#define MIN_STEPS_PER_SEGMENT 6
/**
* Minimum delay before and after setting the stepper DIR (in ns)
* 0 : No delay (Expect at least 10µS since one Stepper ISR must transpire)
* 20 : Minimum for TMC2xxx drivers
* 200 : Minimum for A4988 drivers
* 400 : Minimum for A5984 drivers
* 500 : Minimum for LV8729 drivers (guess, no info in datasheet)
* 650 : Minimum for DRV8825 drivers
* 1500 : Minimum for TB6600 drivers (guess, no info in datasheet)
* 15000 : Minimum for TB6560 drivers (guess, no info in datasheet)
*
* Override the default value based on the driver type set in Configuration.h.
*/
//#define MINIMUM_STEPPER_POST_DIR_DELAY 650
//#define MINIMUM_STEPPER_PRE_DIR_DELAY 650
/**
* Minimum stepper driver pulse width (in µs)
* 0 : Smallest possible width the MCU can produce, compatible with TMC2xxx drivers
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* 0 : Minimum 500ns for LV8729, adjusted in stepper.h
* 1 : Minimum for A4988 and A5984 stepper drivers
* 2 : Minimum for DRV8825 stepper drivers
* 3 : Minimum for TB6600 stepper drivers
* 30 : Minimum for TB6560 stepper drivers
*
* Override the default value based on the driver type set in Configuration.h.
*/
//#define MINIMUM_STEPPER_PULSE 2
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/**
* Maximum stepping rate (in Hz) the stepper driver allows
* If undefined, defaults to 1MHz / (2 * MINIMUM_STEPPER_PULSE)
* 5000000 : Maximum for TMC2xxx stepper drivers
* 1000000 : Maximum for LV8729 stepper driver
* 500000 : Maximum for A4988 stepper driver
* 250000 : Maximum for DRV8825 stepper driver
* 150000 : Maximum for TB6600 stepper driver
* 15000 : Maximum for TB6560 stepper driver
*
* Override the default value based on the driver type set in Configuration.h.
*/
//#define MAXIMUM_STEPPER_RATE 250000
// @section temperature
// Control heater 0 and heater 1 in parallel.
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//#define HEATERS_PARALLEL
//===========================================================================
//================================= Buffers =================================
//===========================================================================
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// @section motion
// The number of linear moves that can be in the planner at once.
// The value of BLOCK_BUFFER_SIZE must be a power of 2 (e.g., 8, 16, 32)
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#if BOTH(SDSUPPORT, DIRECT_STEPPING)
#define BLOCK_BUFFER_SIZE 8
#elif ENABLED(SDSUPPORT)
#define BLOCK_BUFFER_SIZE 16
#else
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#define BLOCK_BUFFER_SIZE 16
#endif
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// @section serial
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// The ASCII buffer for serial input
#define MAX_CMD_SIZE 96
#define BUFSIZE 4
// Transmission to Host Buffer Size
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// To save 386 bytes of PROGMEM (and TX_BUFFER_SIZE+3 bytes of RAM) set to 0.
// To buffer a simple "ok" you need 4 bytes.
// For ADVANCED_OK (M105) you need 32 bytes.
// For debug-echo: 128 bytes for the optimal speed.
// Other output doesn't need to be that speedy.
// :[0, 2, 4, 8, 16, 32, 64, 128, 256]
#define TX_BUFFER_SIZE 0
// Host Receive Buffer Size
// Without XON/XOFF flow control (see SERIAL_XON_XOFF below) 32 bytes should be enough.
// To use flow control, set this buffer size to at least 1024 bytes.
// :[0, 2, 4, 8, 16, 32, 64, 128, 256, 512, 1024, 2048]
//#define RX_BUFFER_SIZE 1024
#if RX_BUFFER_SIZE >= 1024
// Enable to have the controller send XON/XOFF control characters to
// the host to signal the RX buffer is becoming full.
//#define SERIAL_XON_XOFF
#endif
#if ENABLED(SDSUPPORT)
// Enable this option to collect and display the maximum
// RX queue usage after transferring a file to SD.
//#define SERIAL_STATS_MAX_RX_QUEUED
// Enable this option to collect and display the number
// of dropped bytes after a file transfer to SD.
//#define SERIAL_STATS_DROPPED_RX
#endif
// Monitor RX buffer usage
// Dump an error to the serial port if the serial receive buffer overflows.
// If you see these errors, increase the RX_BUFFER_SIZE value.
// Not supported on all platforms.
//#define RX_BUFFER_MONITOR
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/**
* Emergency Command Parser
*
* Add a low-level parser to intercept certain commands as they
* enter the serial receive buffer, so they cannot be blocked.
* Currently handles M108, M112, M410, M876
* NOTE: Not yet implemented for all platforms.
*/
//#define EMERGENCY_PARSER
/**
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* Realtime Reporting (requires EMERGENCY_PARSER)
*
* - Report position and state of the machine (like Grbl).
* - Auto-report position during long moves.
* - Useful for CNC/LASER.
*
* Adds support for commands:
* S000 : Report State and Position while moving.
* P000 : Instant Pause / Hold while moving.
* R000 : Resume from Pause / Hold.
*
* - During Hold all Emergency Parser commands are available, as usual.
* - Enable NANODLP_Z_SYNC and NANODLP_ALL_AXIS for move command end-state reports.
*/
//#define REALTIME_REPORTING_COMMANDS
#if ENABLED(REALTIME_REPORTING_COMMANDS)
//#define FULL_REPORT_TO_HOST_FEATURE // Auto-report the machine status like Grbl CNC
#endif
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// Bad Serial-connections can miss a received command by sending an 'ok'
// Therefore some clients abort after 30 seconds in a timeout.
// Some other clients start sending commands while receiving a 'wait'.
// This "wait" is only sent when the buffer is empty. 1 second is a good value here.
//#define NO_TIMEOUTS 1000 // Milliseconds
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// Some clients will have this feature soon. This could make the NO_TIMEOUTS unnecessary.
//#define ADVANCED_OK
// Printrun may have trouble receiving long strings all at once.
// This option inserts short delays between lines of serial output.
#define SERIAL_OVERRUN_PROTECTION
// For serial echo, the number of digits after the decimal point
//#define SERIAL_FLOAT_PRECISION 4
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// @section extras
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/**
* Extra Fan Speed
* Adds a secondary fan speed for each print-cooling fan.
* 'M106 P<fan> T3-255' : Set a secondary speed for <fan>
* 'M106 P<fan> T2' : Use the set secondary speed
* 'M106 P<fan> T1' : Restore the previous fan speed
*/
//#define EXTRA_FAN_SPEED
/**
* Firmware-based and LCD-controlled retract
*
* Add G10 / G11 commands for automatic firmware-based retract / recover.
* Use M207 and M208 to define parameters for retract / recover.
*
* Use M209 to enable or disable auto-retract.
* With auto-retract enabled, all G1 E moves within the set range
* will be converted to firmware-based retract/recover moves.
*
* Be sure to turn off auto-retract during filament change.
*
* Note that M207 / M208 / M209 settings are saved to EEPROM.
*/
//#define FWRETRACT
#if ENABLED(FWRETRACT)
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#define FWRETRACT_AUTORETRACT // Override slicer retractions
#if ENABLED(FWRETRACT_AUTORETRACT)
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#define MIN_AUTORETRACT 0.1 // (mm) Don't convert E moves under this length
#define MAX_AUTORETRACT 10.0 // (mm) Don't convert E moves over this length
#endif
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#define RETRACT_LENGTH 3 // (mm) Default retract length (positive value)
#define RETRACT_LENGTH_SWAP 13 // (mm) Default swap retract length (positive value)
#define RETRACT_FEEDRATE 45 // (mm/s) Default feedrate for retracting
#define RETRACT_ZRAISE 0 // (mm) Default retract Z-raise
#define RETRACT_RECOVER_LENGTH 0 // (mm) Default additional recover length (added to retract length on recover)
#define RETRACT_RECOVER_LENGTH_SWAP 0 // (mm) Default additional swap recover length (added to retract length on recover from toolchange)
#define RETRACT_RECOVER_FEEDRATE 8 // (mm/s) Default feedrate for recovering from retraction
#define RETRACT_RECOVER_FEEDRATE_SWAP 8 // (mm/s) Default feedrate for recovering from swap retraction
#if ENABLED(MIXING_EXTRUDER)
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//#define RETRACT_SYNC_MIXING // Retract and restore all mixing steppers simultaneously
#endif
#endif
/**
* Universal tool change settings.
* Applies to all types of extruders except where explicitly noted.
*/
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#if HAS_MULTI_EXTRUDER
// Z raise distance for tool-change, as needed for some extruders
#define TOOLCHANGE_ZRAISE 2 // (mm)
//#define TOOLCHANGE_ZRAISE_BEFORE_RETRACT // Apply raise before swap retraction (if enabled)
//#define TOOLCHANGE_NO_RETURN // Never return to previous position on tool-change
#if ENABLED(TOOLCHANGE_NO_RETURN)
//#define EVENT_GCODE_AFTER_TOOLCHANGE "G12X" // Extra G-code to run after tool-change
#endif
/**
* Extra G-code to run while executing tool-change commands. Can be used to use an additional
* stepper motor (I axis, see option LINEAR_AXES in Configuration.h) to drive the tool-changer.
*/
//#define EVENT_GCODE_TOOLCHANGE_T0 "G28 A\nG1 A0" // Extra G-code to run while executing tool-change command T0
//#define EVENT_GCODE_TOOLCHANGE_T1 "G1 A10" // Extra G-code to run while executing tool-change command T1
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/**
* Tool Sensors detect when tools have been picked up or dropped.
* Requires the pins TOOL_SENSOR1_PIN, TOOL_SENSOR2_PIN, etc.
*/
//#define TOOL_SENSOR
/**
* Retract and prime filament on tool-change to reduce
* ooze and stringing and to get cleaner transitions.
*/
//#define TOOLCHANGE_FILAMENT_SWAP
#if ENABLED(TOOLCHANGE_FILAMENT_SWAP)
// Load / Unload
#define TOOLCHANGE_FS_LENGTH 12 // (mm) Load / Unload length
#define TOOLCHANGE_FS_EXTRA_RESUME_LENGTH 0 // (mm) Extra length for better restart, fine tune by LCD/Gcode)
#define TOOLCHANGE_FS_RETRACT_SPEED (50*60) // (mm/min) (Unloading)
#define TOOLCHANGE_FS_UNRETRACT_SPEED (25*60) // (mm/min) (On SINGLENOZZLE or Bowden loading must be slowed down)
// Longer prime to clean out a SINGLENOZZLE
#define TOOLCHANGE_FS_EXTRA_PRIME 0 // (mm) Extra priming length
#define TOOLCHANGE_FS_PRIME_SPEED (4.6*60) // (mm/min) Extra priming feedrate
#define TOOLCHANGE_FS_WIPE_RETRACT 0 // (mm/min) Retract before cooling for less stringing, better wipe, etc.
// Cool after prime to reduce stringing
#define TOOLCHANGE_FS_FAN -1 // Fan index or -1 to skip
#define TOOLCHANGE_FS_FAN_SPEED 255 // 0-255
#define TOOLCHANGE_FS_FAN_TIME 10 // (seconds)
// Swap uninitialized extruder with TOOLCHANGE_FS_PRIME_SPEED for all lengths (recover + prime)
// (May break filament if not retracted beforehand.)
//#define TOOLCHANGE_FS_INIT_BEFORE_SWAP
// Prime on the first T0 (If other, TOOLCHANGE_FS_INIT_BEFORE_SWAP applied)
// Enable it (M217 V[0/1]) before printing, to avoid unwanted priming on host connect
//#define TOOLCHANGE_FS_PRIME_FIRST_USED
/**
* Tool Change Migration
* This feature provides G-code and LCD options to switch tools mid-print.
* All applicable tool properties are migrated so the print can continue.
* Tools must be closely matching and other restrictions may apply.
* Useful to:
* - Change filament color without interruption
* - Switch spools automatically on filament runout
* - Switch to a different nozzle on an extruder jam
*/
#define TOOLCHANGE_MIGRATION_FEATURE
#endif
/**
* Position to park head during tool change.
* Doesn't apply to SWITCHING_TOOLHEAD, DUAL_X_CARRIAGE, or PARKING_EXTRUDER
*/
//#define TOOLCHANGE_PARK
#if ENABLED(TOOLCHANGE_PARK)
#define TOOLCHANGE_PARK_XY { X_MIN_POS + 10, Y_MIN_POS + 10 }
#define TOOLCHANGE_PARK_XY_FEEDRATE 6000 // (mm/min)
//#define TOOLCHANGE_PARK_X_ONLY // X axis only move
//#define TOOLCHANGE_PARK_Y_ONLY // Y axis only move
#endif
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#endif // HAS_MULTI_EXTRUDER
/**
* Advanced Pause for Filament Change
* - Adds the G-code M600 Filament Change to initiate a filament change.
* - This feature is required for the default FILAMENT_RUNOUT_SCRIPT.
*
* Requirements:
* - For Filament Change parking enable and configure NOZZLE_PARK_FEATURE.
* - For user interaction enable an LCD display, HOST_PROMPT_SUPPORT, or EMERGENCY_PARSER.
*
* Enable PARK_HEAD_ON_PAUSE to add the G-code M125 Pause and Park.
*/
//#define ADVANCED_PAUSE_FEATURE
#if ENABLED(ADVANCED_PAUSE_FEATURE)
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#define PAUSE_PARK_RETRACT_FEEDRATE 60 // (mm/s) Initial retract feedrate.
#define PAUSE_PARK_RETRACT_LENGTH 2 // (mm) Initial retract.
// This short retract is done immediately, before parking the nozzle.
#define FILAMENT_CHANGE_UNLOAD_FEEDRATE 10 // (mm/s) Unload filament feedrate. This can be pretty fast.
#define FILAMENT_CHANGE_UNLOAD_ACCEL 25 // (mm/s^2) Lower acceleration may allow a faster feedrate.
#define FILAMENT_CHANGE_UNLOAD_LENGTH 100 // (mm) The length of filament for a complete unload.
// For Bowden, the full length of the tube and nozzle.
// For direct drive, the full length of the nozzle.
// Set to 0 for manual unloading.
#define FILAMENT_CHANGE_SLOW_LOAD_FEEDRATE 6 // (mm/s) Slow move when starting load.
#define FILAMENT_CHANGE_SLOW_LOAD_LENGTH 0 // (mm) Slow length, to allow time to insert material.
// 0 to disable start loading and skip to fast load only
#define FILAMENT_CHANGE_FAST_LOAD_FEEDRATE 6 // (mm/s) Load filament feedrate. This can be pretty fast.
#define FILAMENT_CHANGE_FAST_LOAD_ACCEL 25 // (mm/s^2) Lower acceleration may allow a faster feedrate.
#define FILAMENT_CHANGE_FAST_LOAD_LENGTH 0 // (mm) Load length of filament, from extruder gear to nozzle.
// For Bowden, the full length of the tube and nozzle.
// For direct drive, the full length of the nozzle.
//#define ADVANCED_PAUSE_CONTINUOUS_PURGE // Purge continuously up to the purge length until interrupted.
#define ADVANCED_PAUSE_PURGE_FEEDRATE 3 // (mm/s) Extrude feedrate (after loading). Should be slower than load feedrate.
#define ADVANCED_PAUSE_PURGE_LENGTH 50 // (mm) Length to extrude after loading.
// Set to 0 for manual extrusion.
// Filament can be extruded repeatedly from the Filament Change menu
// until extrusion is consistent, and to purge old filament.
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#define ADVANCED_PAUSE_RESUME_PRIME 0 // (mm) Extra distance to prime nozzle after returning from park.
//#define ADVANCED_PAUSE_FANS_PAUSE // Turn off print-cooling fans while the machine is paused.
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// Filament Unload does a Retract, Delay, and Purge first:
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#define FILAMENT_UNLOAD_PURGE_RETRACT 13 // (mm) Unload initial retract length.
#define FILAMENT_UNLOAD_PURGE_DELAY 5000 // (ms) Delay for the filament to cool after retract.
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#define FILAMENT_UNLOAD_PURGE_LENGTH 8 // (mm) An unretract is done, then this length is purged.
#define FILAMENT_UNLOAD_PURGE_FEEDRATE 25 // (mm/s) feedrate to purge before unload
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#define PAUSE_PARK_NOZZLE_TIMEOUT 45 // (seconds) Time limit before the nozzle is turned off for safety.
#define FILAMENT_CHANGE_ALERT_BEEPS 10 // Number of alert beeps to play when a response is needed.
#define PAUSE_PARK_NO_STEPPER_TIMEOUT // Enable for XYZ steppers to stay powered on during filament change.
//#define PARK_HEAD_ON_PAUSE // Park the nozzle during pause and filament change.
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//#define HOME_BEFORE_FILAMENT_CHANGE // If needed, home before parking for filament change
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//#define FILAMENT_LOAD_UNLOAD_GCODES // Add M701/M702 Load/Unload G-codes, plus Load/Unload in the LCD Prepare menu.
//#define FILAMENT_UNLOAD_ALL_EXTRUDERS // Allow M702 to unload all extruders above a minimum target temp (as set by M302)
#endif
// @section tmc
/**
* TMC26X Stepper Driver options
*
* The TMC26XStepper library is required for this stepper driver.
* https://github.com/trinamic/TMC26XStepper
*/
#if HAS_DRIVER(TMC26X)
#if AXIS_DRIVER_TYPE_X(TMC26X)
#define X_MAX_CURRENT 1000 // (mA)
#define X_SENSE_RESISTOR 91 // (mOhms)
#define X_MICROSTEPS 16 // Number of microsteps
#endif
#if AXIS_DRIVER_TYPE_X2(TMC26X)
#define X2_MAX_CURRENT 1000
#define X2_SENSE_RESISTOR 91
#define X2_MICROSTEPS X_MICROSTEPS
#endif
#if AXIS_DRIVER_TYPE_Y(TMC26X)
#define Y_MAX_CURRENT 1000
#define Y_SENSE_RESISTOR 91
#define Y_MICROSTEPS 16
#endif
#if AXIS_DRIVER_TYPE_Y2(TMC26X)
#define Y2_MAX_CURRENT 1000
#define Y2_SENSE_RESISTOR 91
#define Y2_MICROSTEPS Y_MICROSTEPS
#endif
#if AXIS_DRIVER_TYPE_Z(TMC26X)
#define Z_MAX_CURRENT 1000
#define Z_SENSE_RESISTOR 91
#define Z_MICROSTEPS 16
#endif
#if AXIS_DRIVER_TYPE_Z2(TMC26X)
#define Z2_MAX_CURRENT 1000
#define Z2_SENSE_RESISTOR 91
#define Z2_MICROSTEPS Z_MICROSTEPS
#endif
#if AXIS_DRIVER_TYPE_Z3(TMC26X)
#define Z3_MAX_CURRENT 1000
#define Z3_SENSE_RESISTOR 91
#define Z3_MICROSTEPS Z_MICROSTEPS
#endif
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#if AXIS_DRIVER_TYPE_Z4(TMC26X)
#define Z4_MAX_CURRENT 1000
#define Z4_SENSE_RESISTOR 91
#define Z4_MICROSTEPS Z_MICROSTEPS
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#endif
#if AXIS_DRIVER_TYPE_I(TMC26X)
#define I_MAX_CURRENT 1000
#define I_SENSE_RESISTOR 91
#define I_MICROSTEPS 16
#endif
#if AXIS_DRIVER_TYPE_J(TMC26X)
#define J_MAX_CURRENT 1000
#define J_SENSE_RESISTOR 91
#define J_MICROSTEPS 16
#endif
#if AXIS_DRIVER_TYPE_K(TMC26X)
#define K_MAX_CURRENT 1000
#define K_SENSE_RESISTOR 91
#define K_MICROSTEPS 16
#endif
#if AXIS_DRIVER_TYPE_E0(TMC26X)
#define E0_MAX_CURRENT 1000
#define E0_SENSE_RESISTOR 91
#define E0_MICROSTEPS 16
#endif
#if AXIS_DRIVER_TYPE_E1(TMC26X)
#define E1_MAX_CURRENT 1000
#define E1_SENSE_RESISTOR 91
#define E1_MICROSTEPS E0_MICROSTEPS
#endif
#if AXIS_DRIVER_TYPE_E2(TMC26X)
#define E2_MAX_CURRENT 1000
#define E2_SENSE_RESISTOR 91
#define E2_MICROSTEPS E0_MICROSTEPS
#endif
#if AXIS_DRIVER_TYPE_E3(TMC26X)
#define E3_MAX_CURRENT 1000
#define E3_SENSE_RESISTOR 91
#define E3_MICROSTEPS E0_MICROSTEPS
#endif
#if AXIS_DRIVER_TYPE_E4(TMC26X)
#define E4_MAX_CURRENT 1000
#define E4_SENSE_RESISTOR 91
#define E4_MICROSTEPS E0_MICROSTEPS
#endif
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#if AXIS_DRIVER_TYPE_E5(TMC26X)
#define E5_MAX_CURRENT 1000
#define E5_SENSE_RESISTOR 91
#define E5_MICROSTEPS E0_MICROSTEPS
#endif
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#if AXIS_DRIVER_TYPE_E6(TMC26X)
#define E6_MAX_CURRENT 1000
#define E6_SENSE_RESISTOR 91
#define E6_MICROSTEPS E0_MICROSTEPS
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#endif
#if AXIS_DRIVER_TYPE_E7(TMC26X)
#define E7_MAX_CURRENT 1000
#define E7_SENSE_RESISTOR 91
#define E7_MICROSTEPS E0_MICROSTEPS
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#endif
#endif // TMC26X
// @section tmc_smart
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/**
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* To use TMC2130, TMC2160, TMC2660, TMC5130, TMC5160 stepper drivers in SPI mode
* connect your SPI pins to the hardware SPI interface on your board and define
* the required CS pins in your `pins_MYBOARD.h` file. (e.g., RAMPS 1.4 uses AUX3
* pins `X_CS_PIN 53`, `Y_CS_PIN 49`, etc.).
* You may also use software SPI if you wish to use general purpose IO pins.
*
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* To use TMC2208 stepper UART-configurable stepper drivers connect #_SERIAL_TX_PIN
* to the driver side PDN_UART pin with a 1K resistor.
* To use the reading capabilities, also connect #_SERIAL_RX_PIN to PDN_UART without
* a resistor.
* The drivers can also be used with hardware serial.
*
2019-02-06 12:33:14 +00:00
* TMCStepper library is required to use TMC stepper drivers.
* https://github.com/teemuatlut/TMCStepper
*/
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#if HAS_TRINAMIC_CONFIG
#define HOLD_MULTIPLIER 0.5 // Scales down the holding current from run current
/**
* Interpolate microsteps to 256
* Override for each driver with <driver>_INTERPOLATE settings below
*/
#define INTERPOLATE true
#if AXIS_IS_TMC(X)
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#define X_CURRENT 800 // (mA) RMS current. Multiply by 1.414 for peak current.
#define X_CURRENT_HOME X_CURRENT // (mA) RMS current for sensorless homing
#define X_MICROSTEPS 16 // 0..256
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#define X_RSENSE 0.11
#define X_CHAIN_POS -1 // -1..0: Not chained. 1: MCU MOSI connected. 2: Next in chain, ...
//#define X_INTERPOLATE true // Enable to override 'INTERPOLATE' for the X axis
#endif
#if AXIS_IS_TMC(X2)
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#define X2_CURRENT 800
#define X2_CURRENT_HOME X2_CURRENT
#define X2_MICROSTEPS X_MICROSTEPS
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#define X2_RSENSE 0.11
#define X2_CHAIN_POS -1
//#define X2_INTERPOLATE true
#endif
#if AXIS_IS_TMC(Y)
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#define Y_CURRENT 800
#define Y_CURRENT_HOME Y_CURRENT
#define Y_MICROSTEPS 16
#define Y_RSENSE 0.11
#define Y_CHAIN_POS -1
//#define Y_INTERPOLATE true
#endif
#if AXIS_IS_TMC(Y2)
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#define Y2_CURRENT 800
#define Y2_CURRENT_HOME Y2_CURRENT
#define Y2_MICROSTEPS Y_MICROSTEPS
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#define Y2_RSENSE 0.11
#define Y2_CHAIN_POS -1
//#define Y2_INTERPOLATE true
#endif
#if AXIS_IS_TMC(Z)
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#define Z_CURRENT 800
#define Z_CURRENT_HOME Z_CURRENT
#define Z_MICROSTEPS 16
#define Z_RSENSE 0.11
#define Z_CHAIN_POS -1
//#define Z_INTERPOLATE true
#endif
#if AXIS_IS_TMC(Z2)
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#define Z2_CURRENT 800
#define Z2_CURRENT_HOME Z2_CURRENT
#define Z2_MICROSTEPS Z_MICROSTEPS
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#define Z2_RSENSE 0.11
#define Z2_CHAIN_POS -1
//#define Z2_INTERPOLATE true
#endif
#if AXIS_IS_TMC(Z3)
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#define Z3_CURRENT 800
#define Z3_CURRENT_HOME Z3_CURRENT
#define Z3_MICROSTEPS Z_MICROSTEPS
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#define Z3_RSENSE 0.11
#define Z3_CHAIN_POS -1
//#define Z3_INTERPOLATE true
#endif
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#if AXIS_IS_TMC(Z4)
#define Z4_CURRENT 800
#define Z4_CURRENT_HOME Z4_CURRENT
#define Z4_MICROSTEPS Z_MICROSTEPS
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#define Z4_RSENSE 0.11
#define Z4_CHAIN_POS -1
//#define Z4_INTERPOLATE true
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#endif
#if AXIS_IS_TMC(I)
#define I_CURRENT 800
#define I_CURRENT_HOME I_CURRENT
#define I_MICROSTEPS 16
#define I_RSENSE 0.11
#define I_CHAIN_POS -1
//#define I_INTERPOLATE true
#endif
#if AXIS_IS_TMC(J)
#define J_CURRENT 800
#define J_CURRENT_HOME J_CURRENT
#define J_MICROSTEPS 16
#define J_RSENSE 0.11
#define J_CHAIN_POS -1
//#define J_INTERPOLATE true
#endif
#if AXIS_IS_TMC(K)
#define K_CURRENT 800
#define K_CURRENT_HOME K_CURRENT
#define K_MICROSTEPS 16
#define K_RSENSE 0.11
#define K_CHAIN_POS -1
//#define K_INTERPOLATE true
#endif
#if AXIS_IS_TMC(E0)
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#define E0_CURRENT 800
#define E0_MICROSTEPS 16
#define E0_RSENSE 0.11
#define E0_CHAIN_POS -1
//#define E0_INTERPOLATE true
#endif
#if AXIS_IS_TMC(E1)
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#define E1_CURRENT 800
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#define E1_MICROSTEPS E0_MICROSTEPS
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#define E1_RSENSE 0.11
#define E1_CHAIN_POS -1
//#define E1_INTERPOLATE true
#endif
#if AXIS_IS_TMC(E2)
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#define E2_CURRENT 800
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#define E2_MICROSTEPS E0_MICROSTEPS
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#define E2_RSENSE 0.11
#define E2_CHAIN_POS -1
//#define E2_INTERPOLATE true
#endif
#if AXIS_IS_TMC(E3)
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#define E3_CURRENT 800
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#define E3_MICROSTEPS E0_MICROSTEPS
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#define E3_RSENSE 0.11
#define E3_CHAIN_POS -1
//#define E3_INTERPOLATE true
#endif
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#if AXIS_IS_TMC(E4)
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#define E4_CURRENT 800
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#define E4_MICROSTEPS E0_MICROSTEPS
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#define E4_RSENSE 0.11
#define E4_CHAIN_POS -1
//#define E4_INTERPOLATE true
#endif
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#if AXIS_IS_TMC(E5)
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#define E5_CURRENT 800
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#define E5_MICROSTEPS E0_MICROSTEPS
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#define E5_RSENSE 0.11
#define E5_CHAIN_POS -1
//#define E5_INTERPOLATE true
#endif
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#if AXIS_IS_TMC(E6)
#define E6_CURRENT 800
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#define E6_MICROSTEPS E0_MICROSTEPS
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#define E6_RSENSE 0.11
#define E6_CHAIN_POS -1
//#define E6_INTERPOLATE true
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#endif
#if AXIS_IS_TMC(E7)
#define E7_CURRENT 800
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#define E7_MICROSTEPS E0_MICROSTEPS
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#define E7_RSENSE 0.11
#define E7_CHAIN_POS -1
//#define E7_INTERPOLATE true
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#endif
/**
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* Override default SPI pins for TMC2130, TMC2160, TMC2660, TMC5130 and TMC5160 drivers here.
* The default pins can be found in your board's pins file.
*/
//#define X_CS_PIN -1
//#define Y_CS_PIN -1
//#define Z_CS_PIN -1
//#define X2_CS_PIN -1
//#define Y2_CS_PIN -1
//#define Z2_CS_PIN -1
//#define Z3_CS_PIN -1
//#define Z4_CS_PIN -1
//#define I_CS_PIN -1
//#define J_CS_PIN -1
//#define K_CS_PIN -1
//#define E0_CS_PIN -1
//#define E1_CS_PIN -1
//#define E2_CS_PIN -1
//#define E3_CS_PIN -1
//#define E4_CS_PIN -1
//#define E5_CS_PIN -1
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//#define E6_CS_PIN -1
//#define E7_CS_PIN -1
/**
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* Software option for SPI driven drivers (TMC2130, TMC2160, TMC2660, TMC5130 and TMC5160).
* The default SW SPI pins are defined the respective pins files,
* but you can override or define them here.
*/
//#define TMC_USE_SW_SPI
//#define TMC_SW_MOSI -1
//#define TMC_SW_MISO -1
//#define TMC_SW_SCK -1
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/**
* Four TMC2209 drivers can use the same HW/SW serial port with hardware configured addresses.
* Set the address using jumpers on pins MS1 and MS2.
* Address | MS1 | MS2
* 0 | LOW | LOW
* 1 | HIGH | LOW
* 2 | LOW | HIGH
* 3 | HIGH | HIGH
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*
* Set *_SERIAL_TX_PIN and *_SERIAL_RX_PIN to match for all drivers
* on the same serial port, either here or in your board's pins file.
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*/
//#define X_SLAVE_ADDRESS 0
//#define Y_SLAVE_ADDRESS 0
//#define Z_SLAVE_ADDRESS 0
//#define X2_SLAVE_ADDRESS 0
//#define Y2_SLAVE_ADDRESS 0
//#define Z2_SLAVE_ADDRESS 0
//#define Z3_SLAVE_ADDRESS 0
//#define Z4_SLAVE_ADDRESS 0
//#define I_SLAVE_ADDRESS 0
//#define J_SLAVE_ADDRESS 0
//#define K_SLAVE_ADDRESS 0
//#define E0_SLAVE_ADDRESS 0
//#define E1_SLAVE_ADDRESS 0
//#define E2_SLAVE_ADDRESS 0
//#define E3_SLAVE_ADDRESS 0
//#define E4_SLAVE_ADDRESS 0
//#define E5_SLAVE_ADDRESS 0
//#define E6_SLAVE_ADDRESS 0
//#define E7_SLAVE_ADDRESS 0
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/**
* Software enable
*
* Use for drivers that do not use a dedicated enable pin, but rather handle the same
* function through a communication line such as SPI or UART.
*/
//#define SOFTWARE_DRIVER_ENABLE
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/**
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* TMC2130, TMC2160, TMC2208, TMC2209, TMC5130 and TMC5160 only
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* Use Trinamic's ultra quiet stepping mode.
* When disabled, Marlin will use spreadCycle stepping mode.
*/
#define STEALTHCHOP_XY
#define STEALTHCHOP_Z
#define STEALTHCHOP_I
#define STEALTHCHOP_J
#define STEALTHCHOP_K
#define STEALTHCHOP_E
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/**
* Optimize spreadCycle chopper parameters by using predefined parameter sets
* or with the help of an example included in the library.
* Provided parameter sets are
* CHOPPER_DEFAULT_12V
* CHOPPER_DEFAULT_19V
* CHOPPER_DEFAULT_24V
* CHOPPER_DEFAULT_36V
* CHOPPER_09STEP_24V // 0.9 degree steppers (24V)
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* CHOPPER_PRUSAMK3_24V // Imported parameters from the official Průša firmware for MK3 (24V)
* CHOPPER_MARLIN_119 // Old defaults from Marlin v1.1.9
*
* Define your own with:
* { <off_time[1..15]>, <hysteresis_end[-3..12]>, hysteresis_start[1..8] }
*/
#define CHOPPER_TIMING CHOPPER_DEFAULT_12V // All axes (override below)
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//#define CHOPPER_TIMING_X CHOPPER_TIMING // For X Axes (override below)
//#define CHOPPER_TIMING_X2 CHOPPER_TIMING_X
//#define CHOPPER_TIMING_Y CHOPPER_TIMING // For Y Axes (override below)
//#define CHOPPER_TIMING_Y2 CHOPPER_TIMING_Y
//#define CHOPPER_TIMING_Z CHOPPER_TIMING // For Z Axes (override below)
//#define CHOPPER_TIMING_Z2 CHOPPER_TIMING_Z
//#define CHOPPER_TIMING_Z3 CHOPPER_TIMING_Z
//#define CHOPPER_TIMING_Z4 CHOPPER_TIMING_Z
//#define CHOPPER_TIMING_E CHOPPER_TIMING // For Extruders (override below)
//#define CHOPPER_TIMING_E1 CHOPPER_TIMING_E
//#define CHOPPER_TIMING_E2 CHOPPER_TIMING_E
//#define CHOPPER_TIMING_E3 CHOPPER_TIMING_E
//#define CHOPPER_TIMING_E4 CHOPPER_TIMING_E
//#define CHOPPER_TIMING_E5 CHOPPER_TIMING_E
//#define CHOPPER_TIMING_E6 CHOPPER_TIMING_E
//#define CHOPPER_TIMING_E7 CHOPPER_TIMING_E
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/**
* Monitor Trinamic drivers
* for error conditions like overtemperature and short to ground.
* To manage over-temp Marlin can decrease the driver current until the error condition clears.
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* Other detected conditions can be used to stop the current print.
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* Relevant G-codes:
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* M906 - Set or get motor current in milliamps using axis codes X, Y, Z, E. Report values if no axis codes given.
* M911 - Report stepper driver overtemperature pre-warn condition.
* M912 - Clear stepper driver overtemperature pre-warn condition flag.
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* M122 - Report driver parameters (Requires TMC_DEBUG)
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*/
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//#define MONITOR_DRIVER_STATUS
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#if ENABLED(MONITOR_DRIVER_STATUS)
#define CURRENT_STEP_DOWN 50 // [mA]
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#define REPORT_CURRENT_CHANGE
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#define STOP_ON_ERROR
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#endif
/**
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* TMC2130, TMC2160, TMC2208, TMC2209, TMC5130 and TMC5160 only
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* The driver will switch to spreadCycle when stepper speed is over HYBRID_THRESHOLD.
* This mode allows for faster movements at the expense of higher noise levels.
* STEALTHCHOP_(XY|Z|E) must be enabled to use HYBRID_THRESHOLD.
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* M913 X/Y/Z/E to live tune the setting
*/
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//#define HYBRID_THRESHOLD
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#define X_HYBRID_THRESHOLD 100 // [mm/s]
#define X2_HYBRID_THRESHOLD 100
#define Y_HYBRID_THRESHOLD 100
#define Y2_HYBRID_THRESHOLD 100
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#define Z_HYBRID_THRESHOLD 3
#define Z2_HYBRID_THRESHOLD 3
#define Z3_HYBRID_THRESHOLD 3
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#define Z4_HYBRID_THRESHOLD 3
#define I_HYBRID_THRESHOLD 3
#define J_HYBRID_THRESHOLD 3
#define K_HYBRID_THRESHOLD 3
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#define E0_HYBRID_THRESHOLD 30
#define E1_HYBRID_THRESHOLD 30
#define E2_HYBRID_THRESHOLD 30
#define E3_HYBRID_THRESHOLD 30
#define E4_HYBRID_THRESHOLD 30
#define E5_HYBRID_THRESHOLD 30
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#define E6_HYBRID_THRESHOLD 30
#define E7_HYBRID_THRESHOLD 30
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/**
* Use StallGuard to home / probe X, Y, Z.
*
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* TMC2130, TMC2160, TMC2209, TMC2660, TMC5130, and TMC5160 only
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* Connect the stepper driver's DIAG1 pin to the X/Y endstop pin.
* X, Y, and Z homing will always be done in spreadCycle mode.
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*
* X/Y/Z_STALL_SENSITIVITY is the default stall threshold.
* Use M914 X Y Z to set the stall threshold at runtime:
*
* Sensitivity TMC2209 Others
* HIGHEST 255 -64 (Too sensitive => False positive)
* LOWEST 0 63 (Too insensitive => No trigger)
*
* It is recommended to set HOMING_BUMP_MM to { 0, 0, 0 }.
*
* SPI_ENDSTOPS *** Beta feature! *** TMC2130/TMC5160 Only ***
* Poll the driver through SPI to determine load when homing.
* Removes the need for a wire from DIAG1 to an endstop pin.
*
* IMPROVE_HOMING_RELIABILITY tunes acceleration and jerk when
* homing and adds a guard period for endstop triggering.
*
* Comment *_STALL_SENSITIVITY to disable sensorless homing for that axis.
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*/
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//#define SENSORLESS_HOMING // StallGuard capable drivers only
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#if EITHER(SENSORLESS_HOMING, SENSORLESS_PROBING)
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// TMC2209: 0...255. TMC2130: -64...63
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#define X_STALL_SENSITIVITY 8
#define X2_STALL_SENSITIVITY X_STALL_SENSITIVITY
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#define Y_STALL_SENSITIVITY 8
#define Y2_STALL_SENSITIVITY Y_STALL_SENSITIVITY
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//#define Z_STALL_SENSITIVITY 8
//#define Z2_STALL_SENSITIVITY Z_STALL_SENSITIVITY
//#define Z3_STALL_SENSITIVITY Z_STALL_SENSITIVITY
//#define Z4_STALL_SENSITIVITY Z_STALL_SENSITIVITY
//#define I_STALL_SENSITIVITY 8
//#define J_STALL_SENSITIVITY 8
//#define K_STALL_SENSITIVITY 8
//#define SPI_ENDSTOPS // TMC2130 only
//#define IMPROVE_HOMING_RELIABILITY
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#endif
/**
* TMC Homing stepper phase.
*
* Improve homing repeatability by homing to stepper coil's nearest absolute
* phase position. Trinamic drivers use a stepper phase table with 1024 values
* spanning 4 full steps with 256 positions each (ergo, 1024 positions).
* Full step positions (128, 384, 640, 896) have the highest holding torque.
*
* Values from 0..1023, -1 to disable homing phase for that axis.
*/
//#define TMC_HOME_PHASE { 896, 896, 896 }
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/**
* Beta feature!
* Create a 50/50 square wave step pulse optimal for stepper drivers.
*/
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//#define SQUARE_WAVE_STEPPING
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/**
* Enable M122 debugging command for TMC stepper drivers.
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* M122 S0/1 will enable continuous reporting.
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*/
//#define TMC_DEBUG
/**
* You can set your own advanced settings by filling in predefined functions.
* A list of available functions can be found on the library github page
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* https://github.com/teemuatlut/TMCStepper
*
* Example:
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* #define TMC_ADV() { \
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* stepperX.diag0_otpw(1); \
* stepperY.intpol(0); \
* }
*/
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#define TMC_ADV() { }
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#endif // HAS_TRINAMIC_CONFIG
// @section L64XX
/**
* L64XX Stepper Driver options
*
* Arduino-L6470 library (0.8.0 or higher) is required.
* https://github.com/ameyer/Arduino-L6470
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*
* Requires the following to be defined in your pins_YOUR_BOARD file
* L6470_CHAIN_SCK_PIN
* L6470_CHAIN_MISO_PIN
* L6470_CHAIN_MOSI_PIN
* L6470_CHAIN_SS_PIN
* ENABLE_RESET_L64XX_CHIPS(Q) where Q is 1 to enable and 0 to reset
*/
#if HAS_L64XX
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//#define L6470_CHITCHAT // Display additional status info
#if AXIS_IS_L64XX(X)
#define X_MICROSTEPS 128 // Number of microsteps (VALID: 1, 2, 4, 8, 16, 32, 128) - L6474 max is 16
#define X_OVERCURRENT 2000 // (mA) Current where the driver detects an over current
// L6470 & L6474 - VALID: 375 x (1 - 16) - 6A max - rounds down
// POWERSTEP01: VALID: 1000 x (1 - 32) - 32A max - rounds down
#define X_STALLCURRENT 1500 // (mA) Current where the driver detects a stall (VALID: 31.25 * (1-128) - 4A max - rounds down)
// L6470 & L6474 - VALID: 31.25 * (1-128) - 4A max - rounds down
// POWERSTEP01: VALID: 200 x (1 - 32) - 6.4A max - rounds down
// L6474 - STALLCURRENT setting is used to set the nominal (TVAL) current
#define X_MAX_VOLTAGE 127 // 0-255, Maximum effective voltage seen by stepper - not used by L6474
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#define X_CHAIN_POS -1 // Position in SPI chain, 0=Not in chain, 1=Nearest MOSI
#define X_SLEW_RATE 1 // 0-3, Slew 0 is slowest, 3 is fastest
#endif
#if AXIS_IS_L64XX(X2)
#define X2_MICROSTEPS X_MICROSTEPS
#define X2_OVERCURRENT 2000
#define X2_STALLCURRENT 1500
#define X2_MAX_VOLTAGE 127
#define X2_CHAIN_POS -1
#define X2_SLEW_RATE 1
#endif
#if AXIS_IS_L64XX(Y)
#define Y_MICROSTEPS 128
#define Y_OVERCURRENT 2000
#define Y_STALLCURRENT 1500
#define Y_MAX_VOLTAGE 127
#define Y_CHAIN_POS -1
#define Y_SLEW_RATE 1
#endif
#if AXIS_IS_L64XX(Y2)
#define Y2_MICROSTEPS Y_MICROSTEPS
#define Y2_OVERCURRENT 2000
#define Y2_STALLCURRENT 1500
#define Y2_MAX_VOLTAGE 127
#define Y2_CHAIN_POS -1
#define Y2_SLEW_RATE 1
#endif
#if AXIS_IS_L64XX(Z)
#define Z_MICROSTEPS 128
#define Z_OVERCURRENT 2000
#define Z_STALLCURRENT 1500
#define Z_MAX_VOLTAGE 127
#define Z_CHAIN_POS -1
#define Z_SLEW_RATE 1
#endif
#if AXIS_IS_L64XX(Z2)
#define Z2_MICROSTEPS Z_MICROSTEPS
#define Z2_OVERCURRENT 2000
#define Z2_STALLCURRENT 1500
#define Z2_MAX_VOLTAGE 127
#define Z2_CHAIN_POS -1
#define Z2_SLEW_RATE 1
#endif
#if AXIS_IS_L64XX(Z3)
#define Z3_MICROSTEPS Z_MICROSTEPS
#define Z3_OVERCURRENT 2000
#define Z3_STALLCURRENT 1500
#define Z3_MAX_VOLTAGE 127
#define Z3_CHAIN_POS -1
#define Z3_SLEW_RATE 1
#endif
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#if AXIS_IS_L64XX(Z4)
#define Z4_MICROSTEPS Z_MICROSTEPS
#define Z4_OVERCURRENT 2000
#define Z4_STALLCURRENT 1500
#define Z4_MAX_VOLTAGE 127
#define Z4_CHAIN_POS -1
#define Z4_SLEW_RATE 1
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#endif
#if AXIS_DRIVER_TYPE_I(L6470)
#define I_MICROSTEPS 128
#define I_OVERCURRENT 2000
#define I_STALLCURRENT 1500
#define I_MAX_VOLTAGE 127
#define I_CHAIN_POS -1
#define I_SLEW_RATE 1
#endif
#if AXIS_DRIVER_TYPE_J(L6470)
#define J_MICROSTEPS 128
#define J_OVERCURRENT 2000
#define J_STALLCURRENT 1500
#define J_MAX_VOLTAGE 127
#define J_CHAIN_POS -1
#define J_SLEW_RATE 1
#endif
#if AXIS_DRIVER_TYPE_K(L6470)
#define K_MICROSTEPS 128
#define K_OVERCURRENT 2000
#define K_STALLCURRENT 1500
#define K_MAX_VOLTAGE 127
#define K_CHAIN_POS -1
#define K_SLEW_RATE 1
#endif
#if AXIS_IS_L64XX(E0)
#define E0_MICROSTEPS 128
#define E0_OVERCURRENT 2000
#define E0_STALLCURRENT 1500
#define E0_MAX_VOLTAGE 127
#define E0_CHAIN_POS -1
#define E0_SLEW_RATE 1
#endif
#if AXIS_IS_L64XX(E1)
#define E1_MICROSTEPS E0_MICROSTEPS
#define E1_OVERCURRENT 2000
#define E1_STALLCURRENT 1500
#define E1_MAX_VOLTAGE 127
#define E1_CHAIN_POS -1
#define E1_SLEW_RATE 1
#endif
#if AXIS_IS_L64XX(E2)
#define E2_MICROSTEPS E0_MICROSTEPS
#define E2_OVERCURRENT 2000
#define E2_STALLCURRENT 1500
#define E2_MAX_VOLTAGE 127
#define E2_CHAIN_POS -1
#define E2_SLEW_RATE 1
#endif
#if AXIS_IS_L64XX(E3)
#define E3_MICROSTEPS E0_MICROSTEPS
#define E3_OVERCURRENT 2000
#define E3_STALLCURRENT 1500
#define E3_MAX_VOLTAGE 127
#define E3_CHAIN_POS -1
#define E3_SLEW_RATE 1
#endif
#if AXIS_IS_L64XX(E4)
#define E4_MICROSTEPS E0_MICROSTEPS
#define E4_OVERCURRENT 2000
#define E4_STALLCURRENT 1500
#define E4_MAX_VOLTAGE 127
#define E4_CHAIN_POS -1
#define E4_SLEW_RATE 1
#endif
#if AXIS_IS_L64XX(E5)
#define E5_MICROSTEPS E0_MICROSTEPS
#define E5_OVERCURRENT 2000
#define E5_STALLCURRENT 1500
#define E5_MAX_VOLTAGE 127
#define E5_CHAIN_POS -1
#define E5_SLEW_RATE 1
#endif
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#if AXIS_IS_L64XX(E6)
#define E6_MICROSTEPS E0_MICROSTEPS
#define E6_OVERCURRENT 2000
#define E6_STALLCURRENT 1500
#define E6_MAX_VOLTAGE 127
#define E6_CHAIN_POS -1
#define E6_SLEW_RATE 1
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#endif
#if AXIS_IS_L64XX(E7)
#define E7_MICROSTEPS E0_MICROSTEPS
#define E7_OVERCURRENT 2000
#define E7_STALLCURRENT 1500
#define E7_MAX_VOLTAGE 127
#define E7_CHAIN_POS -1
#define E7_SLEW_RATE 1
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#endif
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/**
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* Monitor L6470 drivers for error conditions like over temperature and over current.
* In the case of over temperature Marlin can decrease the drive until the error condition clears.
* Other detected conditions can be used to stop the current print.
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* Relevant G-codes:
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* M906 - I1/2/3/4/5 Set or get motor drive level using axis codes X, Y, Z, E. Report values if no axis codes given.
* I not present or I0 or I1 - X, Y, Z or E0
* I2 - X2, Y2, Z2 or E1
* I3 - Z3 or E3
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* I4 - Z4 or E4
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* I5 - E5
* M916 - Increase drive level until get thermal warning
* M917 - Find minimum current thresholds
* M918 - Increase speed until max or error
* M122 S0/1 - Report driver parameters
*/
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//#define MONITOR_L6470_DRIVER_STATUS
#if ENABLED(MONITOR_L6470_DRIVER_STATUS)
#define KVAL_HOLD_STEP_DOWN 1
//#define L6470_STOP_ON_ERROR
#endif
#endif // HAS_L64XX
// @section i2cbus
//
// I2C Master ID for LPC176x LCD and Digital Current control
// Does not apply to other peripherals based on the Wire library.
//
//#define I2C_MASTER_ID 1 // Set a value from 0 to 2
/**
* TWI/I2C BUS
*
* This feature is an EXPERIMENTAL feature so it shall not be used on production
* machines. Enabling this will allow you to send and receive I2C data from slave
* devices on the bus.
*
* ; Example #1
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* ; This macro send the string "Marlin" to the slave device with address 0x63 (99)
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* ; It uses multiple M260 commands with one B<base 10> arg
* M260 A99 ; Target slave address
* M260 B77 ; M
* M260 B97 ; a
* M260 B114 ; r
* M260 B108 ; l
* M260 B105 ; i
* M260 B110 ; n
* M260 S1 ; Send the current buffer
*
* ; Example #2
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* ; Request 6 bytes from slave device with address 0x63 (99)
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* M261 A99 B5
*
* ; Example #3
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* ; Example serial output of a M261 request
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* echo:i2c-reply: from:99 bytes:5 data:hello
*/
//#define EXPERIMENTAL_I2CBUS
#if ENABLED(EXPERIMENTAL_I2CBUS)
#define I2C_SLAVE_ADDRESS 0 // Set a value from 8 to 127 to act as a slave
#endif
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// @section extras
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/**
* Photo G-code
* Add the M240 G-code to take a photo.
* The photo can be triggered by a digital pin or a physical movement.
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*/
//#define PHOTO_GCODE
#if ENABLED(PHOTO_GCODE)
// A position to move to (and raise Z) before taking the photo
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//#define PHOTO_POSITION { X_MAX_POS - 5, Y_MAX_POS, 0 } // { xpos, ypos, zraise } (M240 X Y Z)
//#define PHOTO_DELAY_MS 100 // (ms) Duration to pause before moving back (M240 P)
//#define PHOTO_RETRACT_MM 6.5 // (mm) E retract/recover for the photo move (M240 R S)
// Canon RC-1 or homebrew digital camera trigger
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// Data from: https://www.doc-diy.net/photo/rc-1_hacked/
//#define PHOTOGRAPH_PIN 23
// Canon Hack Development Kit
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// https://captain-slow.dk/2014/03/09/3d-printing-timelapses/
//#define CHDK_PIN 4
// Optional second move with delay to trigger the camera shutter
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//#define PHOTO_SWITCH_POSITION { X_MAX_POS, Y_MAX_POS } // { xpos, ypos } (M240 I J)
// Duration to hold the switch or keep CHDK_PIN high
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//#define PHOTO_SWITCH_MS 50 // (ms) (M240 D)
/**
* PHOTO_PULSES_US may need adjustment depending on board and camera model.
* Pin must be running at 48.4kHz.
* Be sure to use a PHOTOGRAPH_PIN which can rise and fall quick enough.
* (e.g., MKS SBase temp sensor pin was too slow, so used P1.23 on J8.)
*
* Example pulse data for Nikon: https://bit.ly/2FKD0Aq
* IR Wiring: https://git.io/JvJf7
*/
//#define PHOTO_PULSES_US { 2000, 27850, 400, 1580, 400, 3580, 400 } // (µs) Durations for each 48.4kHz oscillation
#ifdef PHOTO_PULSES_US
#define PHOTO_PULSE_DELAY_US 13 // (µs) Approximate duration of each HIGH and LOW pulse in the oscillation
#endif
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#endif
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/**
* Spindle & Laser control
*
* Add the M3, M4, and M5 commands to turn the spindle/laser on and off, and
* to set spindle speed, spindle direction, and laser power.
*
* SuperPid is a router/spindle speed controller used in the CNC milling community.
* Marlin can be used to turn the spindle on and off. It can also be used to set
* the spindle speed from 5,000 to 30,000 RPM.
*
* You'll need to select a pin for the ON/OFF function and optionally choose a 0-5V
* hardware PWM pin for the speed control and a pin for the rotation direction.
*
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* See https://marlinfw.org/docs/configuration/laser_spindle.html for more config details.
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*/
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//#define SPINDLE_FEATURE
//#define LASER_FEATURE
#if EITHER(SPINDLE_FEATURE, LASER_FEATURE)
#define SPINDLE_LASER_ACTIVE_STATE LOW // Set to "HIGH" if the on/off function is active HIGH
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#define SPINDLE_LASER_PWM true // Set to "true" if your controller supports setting the speed/power
#define SPINDLE_LASER_PWM_INVERT false // Set to "true" if the speed/power goes up when you want it to go slower
#define SPINDLE_LASER_FREQUENCY 2500 // (Hz) Spindle/laser frequency (only on supported HALs: AVR and LPC)
//#define AIR_EVACUATION // Cutter Vacuum / Laser Blower motor control with G-codes M10-M11
#if ENABLED(AIR_EVACUATION)
#define AIR_EVACUATION_ACTIVE LOW // Set to "HIGH" if the on/off function is active HIGH
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//#define AIR_EVACUATION_PIN 42 // Override the default Cutter Vacuum or Laser Blower pin
#endif
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//#define AIR_ASSIST // Air Assist control with G-codes M8-M9
#if ENABLED(AIR_ASSIST)
#define AIR_ASSIST_ACTIVE LOW // Active state on air assist pin
//#define AIR_ASSIST_PIN 44 // Override the default Air Assist pin
#endif
//#define SPINDLE_SERVO // A servo converting an angle to spindle power
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#ifdef SPINDLE_SERVO
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#define SPINDLE_SERVO_NR 0 // Index of servo used for spindle control
#define SPINDLE_SERVO_MIN 10 // Minimum angle for servo spindle
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#endif
/**
* Speed / Power can be set ('M3 S') and displayed in terms of:
* - PWM255 (S0 - S255)
* - PERCENT (S0 - S100)
* - RPM (S0 - S50000) Best for use with a spindle
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* - SERVO (S0 - S180)
*/
#define CUTTER_POWER_UNIT PWM255
/**
* Relative Cutter Power
* Normally, 'M3 O<power>' sets
* OCR power is relative to the range SPEED_POWER_MIN...SPEED_POWER_MAX.
* so input powers of 0...255 correspond to SPEED_POWER_MIN...SPEED_POWER_MAX
* instead of normal range (0 to SPEED_POWER_MAX).
* Best used with (e.g.) SuperPID router controller: S0 = 5,000 RPM and S255 = 30,000 RPM
*/
//#define CUTTER_POWER_RELATIVE // Set speed proportional to [SPEED_POWER_MIN...SPEED_POWER_MAX]
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#if ENABLED(SPINDLE_FEATURE)
//#define SPINDLE_CHANGE_DIR // Enable if your spindle controller can change spindle direction
#define SPINDLE_CHANGE_DIR_STOP // Enable if the spindle should stop before changing spin direction
#define SPINDLE_INVERT_DIR false // Set to "true" if the spin direction is reversed
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#define SPINDLE_LASER_POWERUP_DELAY 5000 // (ms) Delay to allow the spindle/laser to come up to speed/power
#define SPINDLE_LASER_POWERDOWN_DELAY 5000 // (ms) Delay to allow the spindle to stop
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/**
* M3/M4 Power Equation
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*
* Each tool uses different value ranges for speed / power control.
* These parameters are used to convert between tool power units and PWM.
*
* Speed/Power = (PWMDC / 255 * 100 - SPEED_POWER_INTERCEPT) / SPEED_POWER_SLOPE
* PWMDC = (spdpwr - SPEED_POWER_MIN) / (SPEED_POWER_MAX - SPEED_POWER_MIN) / SPEED_POWER_SLOPE
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*/
#define SPEED_POWER_INTERCEPT 0 // (%) 0-100 i.e., Minimum power percentage
#define SPEED_POWER_MIN 5000 // (RPM)
#define SPEED_POWER_MAX 30000 // (RPM) SuperPID router controller 0 - 30,000 RPM
#define SPEED_POWER_STARTUP 25000 // (RPM) M3/M4 speed/power default (with no arguments)
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#else
#define SPEED_POWER_INTERCEPT 0 // (%) 0-100 i.e., Minimum power percentage
#define SPEED_POWER_MIN 0 // (%) 0-100
#define SPEED_POWER_MAX 100 // (%) 0-100
#define SPEED_POWER_STARTUP 80 // (%) M3/M4 speed/power default (with no arguments)
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// Define the minimum and maximum test pulse time values for a laser test fire function
#define LASER_TEST_PULSE_MIN 1 // Used with Laser Control Menu
#define LASER_TEST_PULSE_MAX 999 // Caution: Menu may not show more than 3 characters
/**
* Enable inline laser power to be handled in the planner / stepper routines.
* Inline power is specified by the I (inline) flag in an M3 command (e.g., M3 S20 I)
* or by the 'S' parameter in G0/G1/G2/G3 moves (see LASER_MOVE_POWER).
*
* This allows the laser to keep in perfect sync with the planner and removes
* the powerup/down delay since lasers require negligible time.
*/
//#define LASER_POWER_INLINE
#if ENABLED(LASER_POWER_INLINE)
/**
* Scale the laser's power in proportion to the movement rate.
*
* - Sets the entry power proportional to the entry speed over the nominal speed.
* - Ramps the power up every N steps to approximate the speed trapezoid.
* - Due to the limited power resolution this is only approximate.
*/
#define LASER_POWER_INLINE_TRAPEZOID
/**
* Continuously calculate the current power (nominal_power * current_rate / nominal_rate).
* Required for accurate power with non-trapezoidal acceleration (e.g., S_CURVE_ACCELERATION).
* This is a costly calculation so this option is discouraged on 8-bit AVR boards.
*
* LASER_POWER_INLINE_TRAPEZOID_CONT_PER defines how many step cycles there are between power updates. If your
* board isn't able to generate steps fast enough (and you are using LASER_POWER_INLINE_TRAPEZOID_CONT), increase this.
* Note that when this is zero it means it occurs every cycle; 1 means a delay wait one cycle then run, etc.
*/
//#define LASER_POWER_INLINE_TRAPEZOID_CONT
/**
* Stepper iterations between power updates. Increase this value if the board
* can't keep up with the processing demands of LASER_POWER_INLINE_TRAPEZOID_CONT.
* Disable (or set to 0) to recalculate power on every stepper iteration.
*/
//#define LASER_POWER_INLINE_TRAPEZOID_CONT_PER 10
/**
* Include laser power in G0/G1/G2/G3/G5 commands with the 'S' parameter
*/
//#define LASER_MOVE_POWER
#if ENABLED(LASER_MOVE_POWER)
// Turn off the laser on G0 moves with no power parameter.
// If a power parameter is provided, use that instead.
//#define LASER_MOVE_G0_OFF
// Turn off the laser on G28 homing.
//#define LASER_MOVE_G28_OFF
#endif
/**
* Inline flag inverted
*
* WARNING: M5 will NOT turn off the laser unless another move
* is done (so G-code files must end with 'M5 I').
*/
//#define LASER_POWER_INLINE_INVERT
/**
* Continuously apply inline power. ('M3 S3' == 'G1 S3' == 'M3 S3 I')
*
* The laser might do some weird things, so only enable this
* feature if you understand the implications.
*/
//#define LASER_POWER_INLINE_CONTINUOUS
#else
#define SPINDLE_LASER_POWERUP_DELAY 50 // (ms) Delay to allow the spindle/laser to come up to speed/power
#define SPINDLE_LASER_POWERDOWN_DELAY 50 // (ms) Delay to allow the spindle to stop
#endif
//
// Laser I2C Ammeter (High precision INA226 low/high side module)
//
//#define I2C_AMMETER
#if ENABLED(I2C_AMMETER)
#define I2C_AMMETER_IMAX 0.1 // (Amps) Calibration value for the expected current range
#define I2C_AMMETER_SHUNT_RESISTOR 0.1 // (Ohms) Calibration shunt resistor value
#endif
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#endif
#endif // SPINDLE_FEATURE || LASER_FEATURE
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/**
* Synchronous Laser Control with M106/M107
*
* Marlin normally applies M106/M107 fan speeds at a time "soon after" processing
* a planner block. This is too inaccurate for a PWM/TTL laser attached to the fan
* header (as with some add-on laser kits). Enable this option to set fan/laser
* speeds with much more exact timing for improved print fidelity.
*
* NOTE: This option sacrifices some cooling fan speed options.
*/
//#define LASER_SYNCHRONOUS_M106_M107
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/**
* Coolant Control
*
* Add the M7, M8, and M9 commands to turn mist or flood coolant on and off.
*
* Note: COOLANT_MIST_PIN and/or COOLANT_FLOOD_PIN must also be defined.
*/
//#define COOLANT_CONTROL
#if ENABLED(COOLANT_CONTROL)
#define COOLANT_MIST // Enable if mist coolant is present
#define COOLANT_FLOOD // Enable if flood coolant is present
#define COOLANT_MIST_INVERT false // Set "true" if the on/off function is reversed
#define COOLANT_FLOOD_INVERT false // Set "true" if the on/off function is reversed
#endif
/**
* Filament Width Sensor
*
* Measures the filament width in real-time and adjusts
* flow rate to compensate for any irregularities.
*
* Also allows the measured filament diameter to set the
* extrusion rate, so the slicer only has to specify the
* volume.
*
* Only a single extruder is supported at this time.
*
* 34 RAMPS_14 : Analog input 5 on the AUX2 connector
* 81 PRINTRBOARD : Analog input 2 on the Exp1 connector (version B,C,D,E)
* 301 RAMBO : Analog input 3
*
* Note: May require analog pins to be defined for other boards.
*/
//#define FILAMENT_WIDTH_SENSOR
#if ENABLED(FILAMENT_WIDTH_SENSOR)
#define FILAMENT_SENSOR_EXTRUDER_NUM 0 // Index of the extruder that has the filament sensor. :[0,1,2,3,4]
#define MEASUREMENT_DELAY_CM 14 // (cm) The distance from the filament sensor to the melting chamber
#define FILWIDTH_ERROR_MARGIN 1.0 // (mm) If a measurement differs too much from nominal width ignore it
#define MAX_MEASUREMENT_DELAY 20 // (bytes) Buffer size for stored measurements (1 byte per cm). Must be larger than MEASUREMENT_DELAY_CM.
#define DEFAULT_MEASURED_FILAMENT_DIA DEFAULT_NOMINAL_FILAMENT_DIA // Set measured to nominal initially
// Display filament width on the LCD status line. Status messages will expire after 5 seconds.
//#define FILAMENT_LCD_DISPLAY
#endif
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/**
* Power Monitor
* Monitor voltage (V) and/or current (A), and -when possible- power (W)
*
* Read and configure with M430
*
* The current sensor feeds DC voltage (relative to the measured current) to an analog pin
* The voltage sensor feeds DC voltage (relative to the measured voltage) to an analog pin
*/
//#define POWER_MONITOR_CURRENT // Monitor the system current
//#define POWER_MONITOR_VOLTAGE // Monitor the system voltage
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#if ENABLED(POWER_MONITOR_CURRENT)
#define POWER_MONITOR_VOLTS_PER_AMP 0.05000 // Input voltage to the MCU analog pin per amp - DO NOT apply more than ADC_VREF!
#define POWER_MONITOR_CURRENT_OFFSET 0 // Offset (in amps) applied to the calculated current
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#define POWER_MONITOR_FIXED_VOLTAGE 13.6 // Voltage for a current sensor with no voltage sensor (for power display)
#endif
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#if ENABLED(POWER_MONITOR_VOLTAGE)
#define POWER_MONITOR_VOLTS_PER_VOLT 0.077933 // Input voltage to the MCU analog pin per volt - DO NOT apply more than ADC_VREF!
#define POWER_MONITOR_VOLTAGE_OFFSET 0 // Offset (in volts) applied to the calculated voltage
#endif
/**
* Stepper Driver Anti-SNAFU Protection
*
* If the SAFE_POWER_PIN is defined for your board, Marlin will check
* that stepper drivers are properly plugged in before applying power.
* Disable protection if your stepper drivers don't support the feature.
*/
//#define DISABLE_DRIVER_SAFE_POWER_PROTECT
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/**
* CNC Coordinate Systems
*
* Enables G53 and G54-G59.3 commands to select coordinate systems
* and G92.1 to reset the workspace to native machine space.
*/
//#define CNC_COORDINATE_SYSTEMS
/**
* Auto-report temperatures with M155 S<seconds>
*/
#define AUTO_REPORT_TEMPERATURES
/**
* Auto-report position with M154 S<seconds>
*/
//#define AUTO_REPORT_POSITION
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/**
* Include capabilities in M115 output
*/
#define EXTENDED_CAPABILITIES_REPORT
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#if ENABLED(EXTENDED_CAPABILITIES_REPORT)
//#define M115_GEOMETRY_REPORT
#endif
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/**
* Expected Printer Check
* Add the M16 G-code to compare a string to the MACHINE_NAME.
* M16 with a non-matching string causes the printer to halt.
*/
//#define EXPECTED_PRINTER_CHECK
/**
* Disable all Volumetric extrusion options
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*/
//#define NO_VOLUMETRICS
#if DISABLED(NO_VOLUMETRICS)
/**
* Volumetric extrusion default state
* Activate to make volumetric extrusion the default method,
* with DEFAULT_NOMINAL_FILAMENT_DIA as the default diameter.
*
* M200 D0 to disable, M200 Dn to set a new diameter (and enable volumetric).
* M200 S0/S1 to disable/enable volumetric extrusion.
*/
//#define VOLUMETRIC_DEFAULT_ON
//#define VOLUMETRIC_EXTRUDER_LIMIT
#if ENABLED(VOLUMETRIC_EXTRUDER_LIMIT)
/**
* Default volumetric extrusion limit in cubic mm per second (mm^3/sec).
* This factory setting applies to all extruders.
* Use 'M200 [T<extruder>] L<limit>' to override and 'M502' to reset.
* A non-zero value activates Volume-based Extrusion Limiting.
*/
#define DEFAULT_VOLUMETRIC_EXTRUDER_LIMIT 0.00 // (mm^3/sec)
#endif
#endif
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/**
* Enable this option for a leaner build of Marlin that removes all
* workspace offsets, simplifying coordinate transformations, leveling, etc.
*
* - M206 and M428 are disabled.
* - G92 will revert to its behavior from Marlin 1.0.
*/
//#define NO_WORKSPACE_OFFSETS
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// Extra options for the M114 "Current Position" report
//#define M114_DETAIL // Use 'M114` for details to check planner calculations
//#define M114_REALTIME // Real current position based on forward kinematics
//#define M114_LEGACY // M114 used to synchronize on every call. Enable if needed.
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//#define REPORT_FAN_CHANGE // Report the new fan speed when changed by M106 (and others)
/**
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* Set the number of proportional font spaces required to fill up a typical character space.
* This can help to better align the output of commands like `G29 O` Mesh Output.
*
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* For clients that use a fixed-width font (like OctoPrint), leave this set to 1.0.
* Otherwise, adjust according to your client and font.
*/
#define PROPORTIONAL_FONT_RATIO 1.0
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/**
* Spend 28 bytes of SRAM to optimize the G-code parser
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*/
#define FASTER_GCODE_PARSER
#if ENABLED(FASTER_GCODE_PARSER)
//#define GCODE_QUOTED_STRINGS // Support for quoted string parameters
#endif
// Support for MeatPack G-code compression (https://github.com/scottmudge/OctoPrint-MeatPack)
//#define MEATPACK_ON_SERIAL_PORT_1
//#define MEATPACK_ON_SERIAL_PORT_2
//#define GCODE_CASE_INSENSITIVE // Accept G-code sent to the firmware in lowercase
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//#define REPETIER_GCODE_M360 // Add commands originally from Repetier FW
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/**
* CNC G-code options
* Support CNC-style G-code dialects used by laser cutters, drawing machine cams, etc.
* Note that G0 feedrates should be used with care for 3D printing (if used at all).
* High feedrates may cause ringing and harm print quality.
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*/
//#define PAREN_COMMENTS // Support for parentheses-delimited comments
//#define GCODE_MOTION_MODES // Remember the motion mode (G0 G1 G2 G3 G5 G38.X) and apply for X Y Z E F, etc.
// Enable and set a (default) feedrate for all G0 moves
//#define G0_FEEDRATE 3000 // (mm/min)
#ifdef G0_FEEDRATE
//#define VARIABLE_G0_FEEDRATE // The G0 feedrate is set by F in G0 motion mode
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#endif
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/**
* Startup commands
*
* Execute certain G-code commands immediately after power-on.
*/
//#define STARTUP_COMMANDS "M17 Z"
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/**
* G-code Macros
*
* Add G-codes M810-M819 to define and run G-code macros.
* Macros are not saved to EEPROM.
*/
//#define GCODE_MACROS
#if ENABLED(GCODE_MACROS)
#define GCODE_MACROS_SLOTS 5 // Up to 10 may be used
#define GCODE_MACROS_SLOT_SIZE 50 // Maximum length of a single macro
#endif
/**
* User-defined menu items to run custom G-code.
* Up to 25 may be defined, but the actual number is LCD-dependent.
*/
// Custom Menu: Main Menu
//#define CUSTOM_MENU_MAIN
#if ENABLED(CUSTOM_MENU_MAIN)
//#define CUSTOM_MENU_MAIN_TITLE "Custom Commands"
#define CUSTOM_MENU_MAIN_SCRIPT_DONE "M117 User Script Done"
#define CUSTOM_MENU_MAIN_SCRIPT_AUDIBLE_FEEDBACK
//#define CUSTOM_MENU_MAIN_SCRIPT_RETURN // Return to status screen after a script
#define CUSTOM_MENU_MAIN_ONLY_IDLE // Only show custom menu when the machine is idle
#define MAIN_MENU_ITEM_1_DESC "Home & UBL Info"
#define MAIN_MENU_ITEM_1_GCODE "G28\nG29 W"
//#define MAIN_MENU_ITEM_1_CONFIRM // Show a confirmation dialog before this action
#define MAIN_MENU_ITEM_2_DESC "Preheat for " PREHEAT_1_LABEL
#define MAIN_MENU_ITEM_2_GCODE "M140 S" STRINGIFY(PREHEAT_1_TEMP_BED) "\nM104 S" STRINGIFY(PREHEAT_1_TEMP_HOTEND)
//#define MAIN_MENU_ITEM_2_CONFIRM
//#define MAIN_MENU_ITEM_3_DESC "Preheat for " PREHEAT_2_LABEL
//#define MAIN_MENU_ITEM_3_GCODE "M140 S" STRINGIFY(PREHEAT_2_TEMP_BED) "\nM104 S" STRINGIFY(PREHEAT_2_TEMP_HOTEND)
//#define MAIN_MENU_ITEM_3_CONFIRM
//#define MAIN_MENU_ITEM_4_DESC "Heat Bed/Home/Level"
//#define MAIN_MENU_ITEM_4_GCODE "M140 S" STRINGIFY(PREHEAT_2_TEMP_BED) "\nG28\nG29"
//#define MAIN_MENU_ITEM_4_CONFIRM
//#define MAIN_MENU_ITEM_5_DESC "Home & Info"
//#define MAIN_MENU_ITEM_5_GCODE "G28\nM503"
//#define MAIN_MENU_ITEM_5_CONFIRM
#endif
// Custom Menu: Configuration Menu
//#define CUSTOM_MENU_CONFIG
#if ENABLED(CUSTOM_MENU_CONFIG)
//#define CUSTOM_MENU_CONFIG_TITLE "Custom Commands"
#define CUSTOM_MENU_CONFIG_SCRIPT_DONE "M117 Wireless Script Done"
#define CUSTOM_MENU_CONFIG_SCRIPT_AUDIBLE_FEEDBACK
//#define CUSTOM_MENU_CONFIG_SCRIPT_RETURN // Return to status screen after a script
#define CUSTOM_MENU_CONFIG_ONLY_IDLE // Only show custom menu when the machine is idle
#define CONFIG_MENU_ITEM_1_DESC "Wifi ON"
#define CONFIG_MENU_ITEM_1_GCODE "M118 [ESP110] WIFI-STA pwd=12345678"
//#define CONFIG_MENU_ITEM_1_CONFIRM // Show a confirmation dialog before this action
#define CONFIG_MENU_ITEM_2_DESC "Bluetooth ON"
#define CONFIG_MENU_ITEM_2_GCODE "M118 [ESP110] BT pwd=12345678"
//#define CONFIG_MENU_ITEM_2_CONFIRM
//#define CONFIG_MENU_ITEM_3_DESC "Radio OFF"
//#define CONFIG_MENU_ITEM_3_GCODE "M118 [ESP110] OFF pwd=12345678"
//#define CONFIG_MENU_ITEM_3_CONFIRM
//#define CONFIG_MENU_ITEM_4_DESC "Wifi ????"
//#define CONFIG_MENU_ITEM_4_GCODE "M118 ????"
//#define CONFIG_MENU_ITEM_4_CONFIRM
//#define CONFIG_MENU_ITEM_5_DESC "Wifi ????"
//#define CONFIG_MENU_ITEM_5_GCODE "M118 ????"
//#define CONFIG_MENU_ITEM_5_CONFIRM
#endif
/**
* User-defined buttons to run custom G-code.
* Up to 25 may be defined.
*/
//#define CUSTOM_USER_BUTTONS
#if ENABLED(CUSTOM_USER_BUTTONS)
//#define BUTTON1_PIN -1
#if PIN_EXISTS(BUTTON1)
#define BUTTON1_HIT_STATE LOW // State of the triggered button. NC=LOW. NO=HIGH.
#define BUTTON1_WHEN_PRINTING false // Button allowed to trigger during printing?
#define BUTTON1_GCODE "G28"
#define BUTTON1_DESC "Homing" // Optional string to set the LCD status
#endif
//#define BUTTON2_PIN -1
#if PIN_EXISTS(BUTTON2)
#define BUTTON2_HIT_STATE LOW
#define BUTTON2_WHEN_PRINTING false
#define BUTTON2_GCODE "M140 S" STRINGIFY(PREHEAT_1_TEMP_BED) "\nM104 S" STRINGIFY(PREHEAT_1_TEMP_HOTEND)
#define BUTTON2_DESC "Preheat for " PREHEAT_1_LABEL
#endif
//#define BUTTON3_PIN -1
#if PIN_EXISTS(BUTTON3)
#define BUTTON3_HIT_STATE LOW
#define BUTTON3_WHEN_PRINTING false
#define BUTTON3_GCODE "M140 S" STRINGIFY(PREHEAT_2_TEMP_BED) "\nM104 S" STRINGIFY(PREHEAT_2_TEMP_HOTEND)
#define BUTTON3_DESC "Preheat for " PREHEAT_2_LABEL
#endif
#endif
/**
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* Host Action Commands
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*
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* Define host streamer action commands in compliance with the standard.
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*
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* See https://reprap.org/wiki/G-code#Action_commands
* Common commands ........ poweroff, pause, paused, resume, resumed, cancel
* G29_RETRY_AND_RECOVER .. probe_rewipe, probe_failed
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*
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* Some features add reason codes to extend these commands.
*
* Host Prompt Support enables Marlin to use the host for user prompts so
* filament runout and other processes can be managed from the host side.
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*/
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//#define HOST_ACTION_COMMANDS
#if ENABLED(HOST_ACTION_COMMANDS)
//#define HOST_PROMPT_SUPPORT
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//#define HOST_START_MENU_ITEM // Add a menu item that tells the host to start
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#endif
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/**
* Cancel Objects
*
* Implement M486 to allow Marlin to skip objects
*/
//#define CANCEL_OBJECTS
#if ENABLED(CANCEL_OBJECTS)
#define CANCEL_OBJECTS_REPORTING // Emit the current object as a status message
#endif
/**
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* I2C position encoders for closed loop control.
* Developed by Chris Barr at Aus3D.
*
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* Wiki: https://wiki.aus3d.com.au/Magnetic_Encoder
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* Github: https://github.com/Aus3D/MagneticEncoder
*
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* Supplier: https://aus3d.com.au/magnetic-encoder-module
* Alternative Supplier: https://reliabuild3d.com/
*
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* Reliabuild encoders have been modified to improve reliability.
*/
//#define I2C_POSITION_ENCODERS
#if ENABLED(I2C_POSITION_ENCODERS)
#define I2CPE_ENCODER_CNT 1 // The number of encoders installed; max of 5
// encoders supported currently.
#define I2CPE_ENC_1_ADDR I2CPE_PRESET_ADDR_X // I2C address of the encoder. 30-200.
#define I2CPE_ENC_1_AXIS X_AXIS // Axis the encoder module is installed on. <X|Y|Z|E>_AXIS.
#define I2CPE_ENC_1_TYPE I2CPE_ENC_TYPE_LINEAR // Type of encoder: I2CPE_ENC_TYPE_LINEAR -or-
// I2CPE_ENC_TYPE_ROTARY.
#define I2CPE_ENC_1_TICKS_UNIT 2048 // 1024 for magnetic strips with 2mm poles; 2048 for
// 1mm poles. For linear encoders this is ticks / mm,
// for rotary encoders this is ticks / revolution.
//#define I2CPE_ENC_1_TICKS_REV (16 * 200) // Only needed for rotary encoders; number of stepper
// steps per full revolution (motor steps/rev * microstepping)
//#define I2CPE_ENC_1_INVERT // Invert the direction of axis travel.
#define I2CPE_ENC_1_EC_METHOD I2CPE_ECM_MICROSTEP // Type of error error correction.
#define I2CPE_ENC_1_EC_THRESH 0.10 // Threshold size for error (in mm) above which the
// printer will attempt to correct the error; errors
// smaller than this are ignored to minimize effects of
// measurement noise / latency (filter).
#define I2CPE_ENC_2_ADDR I2CPE_PRESET_ADDR_Y // Same as above, but for encoder 2.
#define I2CPE_ENC_2_AXIS Y_AXIS
#define I2CPE_ENC_2_TYPE I2CPE_ENC_TYPE_LINEAR
#define I2CPE_ENC_2_TICKS_UNIT 2048
//#define I2CPE_ENC_2_TICKS_REV (16 * 200)
//#define I2CPE_ENC_2_INVERT
#define I2CPE_ENC_2_EC_METHOD I2CPE_ECM_MICROSTEP
#define I2CPE_ENC_2_EC_THRESH 0.10
#define I2CPE_ENC_3_ADDR I2CPE_PRESET_ADDR_Z // Encoder 3. Add additional configuration options
#define I2CPE_ENC_3_AXIS Z_AXIS // as above, or use defaults below.
#define I2CPE_ENC_4_ADDR I2CPE_PRESET_ADDR_E // Encoder 4.
#define I2CPE_ENC_4_AXIS E_AXIS
#define I2CPE_ENC_5_ADDR 34 // Encoder 5.
#define I2CPE_ENC_5_AXIS E_AXIS
// Default settings for encoders which are enabled, but without settings configured above.
#define I2CPE_DEF_TYPE I2CPE_ENC_TYPE_LINEAR
#define I2CPE_DEF_ENC_TICKS_UNIT 2048
#define I2CPE_DEF_TICKS_REV (16 * 200)
#define I2CPE_DEF_EC_METHOD I2CPE_ECM_NONE
#define I2CPE_DEF_EC_THRESH 0.1
//#define I2CPE_ERR_THRESH_ABORT 100.0 // Threshold size for error (in mm) error on any given
// axis after which the printer will abort. Comment out to
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// disable abort behavior.
#define I2CPE_TIME_TRUSTED 10000 // After an encoder fault, there must be no further fault
// for this amount of time (in ms) before the encoder
// is trusted again.
/**
* Position is checked every time a new command is executed from the buffer but during long moves,
* this setting determines the minimum update time between checks. A value of 100 works well with
* error rolling average when attempting to correct only for skips and not for vibration.
*/
#define I2CPE_MIN_UPD_TIME_MS 4 // (ms) Minimum time between encoder checks.
// Use a rolling average to identify persistant errors that indicate skips, as opposed to vibration and noise.
#define I2CPE_ERR_ROLLING_AVERAGE
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#endif // I2C_POSITION_ENCODERS
/**
* Analog Joystick(s)
*/
//#define JOYSTICK
#if ENABLED(JOYSTICK)
#define JOY_X_PIN 5 // RAMPS: Suggested pin A5 on AUX2
#define JOY_Y_PIN 10 // RAMPS: Suggested pin A10 on AUX2
#define JOY_Z_PIN 12 // RAMPS: Suggested pin A12 on AUX2
#define JOY_EN_PIN 44 // RAMPS: Suggested pin D44 on AUX2
//#define INVERT_JOY_X // Enable if X direction is reversed
//#define INVERT_JOY_Y // Enable if Y direction is reversed
//#define INVERT_JOY_Z // Enable if Z direction is reversed
// Use M119 with JOYSTICK_DEBUG to find reasonable values after connecting:
#define JOY_X_LIMITS { 5600, 8190-100, 8190+100, 10800 } // min, deadzone start, deadzone end, max
#define JOY_Y_LIMITS { 5600, 8250-100, 8250+100, 11000 }
#define JOY_Z_LIMITS { 4800, 8080-100, 8080+100, 11550 }
//#define JOYSTICK_DEBUG
#endif
/**
* Mechanical Gantry Calibration
* Modern replacement for the Prusa TMC_Z_CALIBRATION.
* Adds capability to work with any adjustable current drivers.
* Implemented as G34 because M915 is deprecated.
*/
//#define MECHANICAL_GANTRY_CALIBRATION
#if ENABLED(MECHANICAL_GANTRY_CALIBRATION)
#define GANTRY_CALIBRATION_CURRENT 600 // Default calibration current in ma
#define GANTRY_CALIBRATION_EXTRA_HEIGHT 15 // Extra distance in mm past Z_###_POS to move
#define GANTRY_CALIBRATION_FEEDRATE 500 // Feedrate for correction move
//#define GANTRY_CALIBRATION_TO_MIN // Enable to calibrate Z in the MIN direction
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//#define GANTRY_CALIBRATION_SAFE_POSITION XY_CENTER // Safe position for nozzle
//#define GANTRY_CALIBRATION_XY_PARK_FEEDRATE 3000 // XY Park Feedrate - MMM
//#define GANTRY_CALIBRATION_COMMANDS_PRE ""
#define GANTRY_CALIBRATION_COMMANDS_POST "G28" // G28 highly recommended to ensure an accurate position
#endif
/**
* Instant freeze / unfreeze functionality
* Specified pin has pullup and connecting to ground will instantly pause motion.
* Potentially useful for emergency stop that allows being resumed.
*/
//#define FREEZE_FEATURE
#if ENABLED(FREEZE_FEATURE)
//#define FREEZE_PIN 41 // Override the default (KILL) pin here
#endif
/**
* MAX7219 Debug Matrix
*
* Add support for a low-cost 8x8 LED Matrix based on the Max7219 chip as a realtime status display.
* Requires 3 signal wires. Some useful debug options are included to demonstrate its usage.
*/
//#define MAX7219_DEBUG
#if ENABLED(MAX7219_DEBUG)
#define MAX7219_CLK_PIN 64
#define MAX7219_DIN_PIN 57
#define MAX7219_LOAD_PIN 44
//#define MAX7219_GCODE // Add the M7219 G-code to control the LED matrix
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#define MAX7219_INIT_TEST 2 // Test pattern at startup: 0=none, 1=sweep, 2=spiral
#define MAX7219_NUMBER_UNITS 1 // Number of Max7219 units in chain.
#define MAX7219_ROTATE 0 // Rotate the display clockwise (in multiples of +/- 90°)
// connector at: right=0 bottom=-90 top=90 left=180
//#define MAX7219_REVERSE_ORDER // The individual LED matrix units may be in reversed order
//#define MAX7219_SIDE_BY_SIDE // Big chip+matrix boards can be chained side-by-side
/**
* Sample debug features
* If you add more debug displays, be careful to avoid conflicts!
*/
#define MAX7219_DEBUG_PRINTER_ALIVE // Blink corner LED of 8x8 matrix to show that the firmware is functioning
#define MAX7219_DEBUG_PLANNER_HEAD 3 // Show the planner queue head position on this and the next LED matrix row
#define MAX7219_DEBUG_PLANNER_TAIL 5 // Show the planner queue tail position on this and the next LED matrix row
#define MAX7219_DEBUG_PLANNER_QUEUE 0 // Show the current planner queue depth on this and the next LED matrix row
// If you experience stuttering, reboots, etc. this option can reveal how
// tweaks made to the configuration are affecting the printer in real-time.
#endif
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/**
* NanoDLP Sync support
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*
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* Support for Synchronized Z moves when used with NanoDLP. G0/G1 axis moves will
* output a "Z_move_comp" string to enable synchronization with DLP projector exposure.
* This feature allows you to use [[WaitForDoneMessage]] instead of M400 commands.
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*/
//#define NANODLP_Z_SYNC
#if ENABLED(NANODLP_Z_SYNC)
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//#define NANODLP_ALL_AXIS // Send a "Z_move_comp" report for any axis move (not just Z).
#endif
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/**
* Ethernet. Use M552 to enable and set the IP address.
*/
#if HAS_ETHERNET
#define MAC_ADDRESS { 0xDE, 0xAD, 0xBE, 0xEF, 0xF0, 0x0D } // A MAC address unique to your network
#endif
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/**
* WiFi Support (Espressif ESP32 WiFi)
*/
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//#define WIFISUPPORT // Marlin embedded WiFi managenent
//#define ESP3D_WIFISUPPORT // ESP3D Library WiFi management (https://github.com/luc-github/ESP3DLib)
#if EITHER(WIFISUPPORT, ESP3D_WIFISUPPORT)
//#define WEBSUPPORT // Start a webserver (which may include auto-discovery)
//#define OTASUPPORT // Support over-the-air firmware updates
//#define WIFI_CUSTOM_COMMAND // Accept feature config commands (e.g., WiFi ESP3D) from the host
/**
* To set a default WiFi SSID / Password, create a file called Configuration_Secure.h with
* the following defines, customized for your network. This specific file is excluded via
* .gitignore to prevent it from accidentally leaking to the public.
*
* #define WIFI_SSID "WiFi SSID"
* #define WIFI_PWD "WiFi Password"
*/
//#include "Configuration_Secure.h" // External file with WiFi SSID / Password
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#endif
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/**
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* Průša Multi-Material Unit (MMU)
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* Enable in Configuration.h
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*
* These devices allow a single stepper driver on the board to drive
* multi-material feeders with any number of stepper motors.
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*/
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#if HAS_PRUSA_MMU1
/**
* This option only allows the multiplexer to switch on tool-change.
* Additional options to configure custom E moves are pending.
*
* Override the default DIO selector pins here, if needed.
* Some pins files may provide defaults for these pins.
*/
//#define E_MUX0_PIN 40 // Always Required
//#define E_MUX1_PIN 42 // Needed for 3 to 8 inputs
//#define E_MUX2_PIN 44 // Needed for 5 to 8 inputs
#elif HAS_PRUSA_MMU2
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// Serial port used for communication with MMU2.
#define MMU2_SERIAL_PORT 2
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// Use hardware reset for MMU if a pin is defined for it
//#define MMU2_RST_PIN 23
// Enable if the MMU2 has 12V stepper motors (MMU2 Firmware 1.0.2 and up)
//#define MMU2_MODE_12V
// G-code to execute when MMU2 F.I.N.D.A. probe detects filament runout
#define MMU2_FILAMENT_RUNOUT_SCRIPT "M600"
// Add an LCD menu for MMU2
//#define MMU2_MENUS
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#if EITHER(MMU2_MENUS, HAS_PRUSA_MMU2S)
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// Settings for filament load / unload from the LCD menu.
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// This is for Průša MK3-style extruders. Customize for your hardware.
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#define MMU2_FILAMENTCHANGE_EJECT_FEED 80.0
#define MMU2_LOAD_TO_NOZZLE_SEQUENCE \
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{ 7.2, 1145 }, \
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{ 14.4, 871 }, \
{ 36.0, 1393 }, \
{ 14.4, 871 }, \
{ 50.0, 198 }
#define MMU2_RAMMING_SEQUENCE \
{ 1.0, 1000 }, \
{ 1.0, 1500 }, \
{ 2.0, 2000 }, \
{ 1.5, 3000 }, \
{ 2.5, 4000 }, \
{ -15.0, 5000 }, \
{ -14.0, 1200 }, \
{ -6.0, 600 }, \
{ 10.0, 700 }, \
{ -10.0, 400 }, \
{ -50.0, 2000 }
#endif
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/**
* Using a sensor like the MMU2S
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* This mode requires a MK3S extruder with a sensor at the extruder idler, like the MMU2S.
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* See https://help.prusa3d.com/en/guide/3b-mk3s-mk2-5s-extruder-upgrade_41560, step 11
*/
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#if HAS_PRUSA_MMU2S
#define MMU2_C0_RETRY 5 // Number of retries (total time = timeout*retries)
#define MMU2_CAN_LOAD_FEEDRATE 800 // (mm/min)
#define MMU2_CAN_LOAD_SEQUENCE \
{ 0.1, MMU2_CAN_LOAD_FEEDRATE }, \
{ 60.0, MMU2_CAN_LOAD_FEEDRATE }, \
{ -52.0, MMU2_CAN_LOAD_FEEDRATE }
#define MMU2_CAN_LOAD_RETRACT 6.0 // (mm) Keep under the distance between Load Sequence values
#define MMU2_CAN_LOAD_DEVIATION 0.8 // (mm) Acceptable deviation
#define MMU2_CAN_LOAD_INCREMENT 0.2 // (mm) To reuse within MMU2 module
#define MMU2_CAN_LOAD_INCREMENT_SEQUENCE \
{ -MMU2_CAN_LOAD_INCREMENT, MMU2_CAN_LOAD_FEEDRATE }
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#else
/**
* MMU1 Extruder Sensor
*
* Support for a Průša (or other) IR Sensor to detect filament near the extruder
* and make loading more reliable. Suitable for an extruder equipped with a filament
* sensor less than 38mm from the gears.
*
* During loading the extruder will stop when the sensor is triggered, then do a last
* move up to the gears. If no filament is detected, the MMU2 can make some more attempts.
* If all attempts fail, a filament runout will be triggered.
*/
//#define MMU_EXTRUDER_SENSOR
#if ENABLED(MMU_EXTRUDER_SENSOR)
#define MMU_LOADING_ATTEMPTS_NR 5 // max. number of attempts to load filament if first load fail
#endif
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#endif
//#define MMU2_DEBUG // Write debug info to serial output
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#endif // HAS_PRUSA_MMU2
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/**
* Advanced Print Counter settings
*/
#if ENABLED(PRINTCOUNTER)
#define SERVICE_WARNING_BUZZES 3
// Activate up to 3 service interval watchdogs
//#define SERVICE_NAME_1 "Service S"
//#define SERVICE_INTERVAL_1 100 // print hours
//#define SERVICE_NAME_2 "Service L"
//#define SERVICE_INTERVAL_2 200 // print hours
//#define SERVICE_NAME_3 "Service 3"
//#define SERVICE_INTERVAL_3 1 // print hours
#endif
// @section develop
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//
// M100 Free Memory Watcher to debug memory usage
//
//#define M100_FREE_MEMORY_WATCHER
//
// M42 - Set pin states
//
//#define DIRECT_PIN_CONTROL
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//
// M43 - display pin status, toggle pins, watch pins, watch endstops & toggle LED, test servo probe
//
//#define PINS_DEBUGGING
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// Enable Marlin dev mode which adds some special commands
//#define MARLIN_DEV_MODE
/**
* Postmortem Debugging captures misbehavior and outputs the CPU status and backtrace to serial.
* When running in the debugger it will break for debugging. This is useful to help understand
* a crash from a remote location. Requires ~400 bytes of SRAM and 5Kb of flash.
*/
//#define POSTMORTEM_DEBUGGING
/**
* Software Reset options
*/
//#define SOFT_RESET_VIA_SERIAL // 'KILL' and '^X' commands will soft-reset the controller
//#define SOFT_RESET_ON_KILL // Use a digital button to soft-reset the controller after KILL