klipper-dgus/config/example-extras.cfg

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# This file serves as documentation for config parameters of
# additional devices that may be configured on a printer. The snippets
# in this file may be copied into the main printer.cfg file. See the
# "example.cfg" file for description of common config parameters.
#
# Note, where an extra config section creates additional pins, the
# section defining the pins must be listed in the config file before
# any sections using those pins.
# Z height probe. One may define this section to enable Z height
# probing hardware. When this section is enabled, PROBE and
# QUERY_PROBE extended g-code commands become available. The probe
# section also creates a virtual probe:z_virtual_endstop pin. One may
# set the stepper_z endstop_pin to this virtual pin on cartesian style
# printers that use the probe in place of a z endstop.
#[probe]
#pin: ar15
# Probe detection pin. This parameter must be provided.
#z_offset:
# The distance (in mm) between the bed and the nozzle when the probe
# triggers. This parameter must be provided.
#speed: 5.0
# Speed (in mm/s) of the Z axis when probing. The default is 5mm/s.
#activate_gcode:
# A list of G-Code commands (one per line) to execute prior to each
# probe attempt. This may be useful if the probe needs to be
# activated in some way. The default is to not run any special
# G-Code commands on activation.
#deactivate_gcode:
# A list of G-Code commands (one per line) to execute after each
# probe attempt completes. The default is to not run any special
# G-Code commands on deactivation.
# Bed tilt compensation. One may define a [bed_tilt] config section to
# enable move transformations that account for a tilted bed.
#[bed_tilt]
#x_adjust: 0
# The amount to add to each move's Z height for each mm on the X
# axis. The default is 0.
#y_adjust: 0
# The amount to add to each move's Z height for each mm on the Y
# axis. The default is 0.
# The remaining parameters control a BED_TILT_CALIBRATE extended
# g-code command that may be used to calibrate appropriate x and y
# adjustment parameters.
#points:
# A newline separated list of X,Y points that should be probed
# during a BED_TILT_CALIBRATE command. The default is to not enable
# the command.
#speed: 50
# The speed (in mm/s) of non-probing moves during the
# calibration. The default is 50.
#horizontal_move_z: 5
# The height (in mm) that the head should be commanded to move to
# just prior to starting a probe operation. The default is 5.
#manual_probe:
# If true, then BED_TILT_CALIBRATE will perform manual probing. If
# false, then a PROBE command will be run at each probe
# point. Manual probing is accomplished by manually jogging the Z
# position of the print head at each probe point and then issuing a
# NEXT extended g-code command to record the position at that
# point. The default is false if a [probe] config section is present
# and true otherwise.
# Multiple Z stepper tilt adjustment. This feature enables independent
# adjustment of multiple z steppers (see stepper_z1 section below) to
# adjust for tilt. If this section is present then a Z_TILT_ADJUST
# extended G-Code command becomes available.
#[z_tilt]
#z_positions:
# A newline separated list of X,Y coordinates describing the
# location of each Z stepper. The first entry corresponds to
# stepper_z, the second to stepper_z1, the third to stepper_z2,
# etc. This parameter must be provided.
#points:
# A newline separated list of X,Y points that should be probed
# during a Z_TILT_ADJUST command. The default is to use the same
# positions described in z_positions.
#speed: 50
# The speed (in mm/s) of non-probing moves during the calibration.
# The default is 50.
#horizontal_move_z: 5
# The height (in mm) that the head should be commanded to move to
# just prior to starting a probe operation. The default is 5.
# In a multi-extruder printer add an additional extruder section for
# each additional extruder. The additional extruder sections should be
# named "extruder1", "extruder2", "extruder3", and so on. See the
# "extruder" section in example.cfg for a description of available
# parameters.
#[extruder1]
#step_pin: ar36
#dir_pin: ar34
#...
#shared_heater:
# If this extruder uses the same heater already defined for another
# extruder then place the name of that extruder here. For example,
# should extruder3 and extruder4 share a heater then the extruder3
# config section should define the heater and the extruder4 section
# should specify "shared_heater: extruder3". The default is to not
# reuse an existing heater.
#deactivate_gcode:
# A list of G-Code commands (one per line) to execute on a G-Code
# tool change command (eg, "T1") that deactivates this extruder and
# activates some other extruder. It only makes sense to define this
# section on multi-extruder printers. The default is to not run any
# special G-Code commands on deactivation.
#activate_gcode:
# A list of G-Code commands (one per line) to execute on a G-Code
# tool change command (eg, "T0") that activates this extruder. It
# only makes sense to define this section on multi-extruder
# printers. The default is to not run any special G-Code commands on
# activation.
# Support for cartesian printers with dual carriages on a single
# axis. The active carriage is set via the SET_DUAL_CARRIAGE extended
# g-code command. The "SET_DUAL_CARRIAGE CARRIAGE=1" command will
# activate the carriage defined in this section (CARRIAGE=0 will
# return activation to the primary carriage). Dual carriage support is
# typically combined with extra extruders - use the SET_DUAL_CARRIAGE
# command in the activate_gcode / deactivate_gcode section of the
# appropriate extruder. Be sure to also use that mechanism to park the
# carriages during deactivation.
#[dual_carriage]
#axis:
# The axis this extra carriage is on (either x or y). This parameter
# must be provided.
#step_pin:
#dir_pin:
#enable_pin:
#step_distance:
#endstop_pin:
#position_endstop:
#position_min:
#position_max:
# See the example.cfg for the definition of the above parameters.
# Heater and temperature sensor verification. Heater verification is
# automatically enabled for each heater that is configured on the
# printer. Use verify_heater sections to change the default settings.
#[verify_heater heater_config_name]
#heating_gain: 2
# The minimum temperature (in Celsius) that the heater must increase
# by when approaching a new target temperature. The default is 2.
#check_gain_time:
# The amount of time (in seconds) that the heating_gain must be met
# in before an error is raised. The default is 20 seconds for
# extruders and 60 seconds for heater_bed.
#hysteresis: 5
# The difference between the target temperature and the current
# temperature for the heater to be considered within range of the
# target temperature. The default is 5.
#max_error: 120
# The maximum temperature difference a heater that falls outside the
# target temperature range may accumulate before an error is
# raised. For example, if the target temperature is 200, the
# hysteresis is 5, the max_error is 120, and the temperature is
# reported at 185 degrees for 12 seconds then an error would be
# raised (or 24 seconds at 190, or 120 seconds at 194, etc.). The
# default is 120.
# Multi-stepper axes. On a cartesian style printer, the stepper
# controlling a given axis may have additional config blocks defining
# steppers that should be stepped in concert with the primary
# stepper. One may define any number of sections with a numeric suffix
# starting at 1 (for example, "stepper_z1", "stepper_z2", etc.).
#[stepper_z1]
#step_pin: ar36
#dir_pin: ar34
#enable_pin: !ar30
#step_distance: .005
# See the example.cfg for the definition of the above parameters.
#endstop_pin: ^ar19
# If an endstop_pin is defined for the additional stepper then the
# stepper will home until the endstop is triggered. Otherwise, the
# endstop will home until the endstop on the primary stepper for the
# axis is triggered.
# Stepper phase adjusted endstops. The following additional parameters
# may be added to a stepper axis definition to improve the accuracy of
# endstop switches.
#[stepper_z]
#homing_stepper_phases:
# One may set this to the number of phases of the stepper motor
# driver (which is the number of micro-steps multiplied by
# four). This parameter must be provided if using stepper phase
# adjustments.
#homing_endstop_accuracy: 0.200
# Sets the expected accuracy (in mm) of the endstop. This represents
# the maximum error distance the endstop may trigger (eg, if an
# endstop may occasionally trigger 100um early or up to 100um late
# then set this to 0.200 for 200um). The default is
# homing_stepper_phases*step_distance.
#homing_endstop_phase:
# This specifies the phase of the stepper motor driver to expect
# when hitting the endstop. Only set this value if one is sure the
# stepper motor driver is reset every time the mcu is reset. If this
# is not set, then the stepper phase will be detected on the first
# home and that phase will be used on all subsequent homes.
#homing_endstop_align_zero: False
# If true then the code will arrange for the zero position on the
# axis to occur at a full step on the stepper motor. (If used on the
# Z axis and the print layer height is a multiple of a full step
# distance then every layer will occur on a full step.) The default
# is False.
# Heater cooling fans (one may define any number of sections with a
# "heater_fan" prefix). A "heater fan" is a fan that will be enabled
# whenever its associated heater is active. By default, a heater_fan
# has a shutdown_speed equal to max_power.
#[heater_fan my_nozzle_fan]
#pin:
#max_power:
#shutdown_speed:
#cycle_time:
#hardware_pwm:
#kick_start_time:
# See the "fan" section in example.cfg for a description of the
# above parameters.
#heater: extruder
# Name of the config section defining the heater that this fan is
# associated with. The default is "extruder".
#heater_temp: 50.0
# A temperature (in Celsius) that the heater must drop below before
# the fan is disabled. The default is 50 Celsius.
#fan_speed: 1.0
# The fan speed (expressed as a value from 0.0 to 1.0) that the fan
# will be set to when its associated heater is enabled. The default
# is 1.0
# Temperature-triggered cooling fans (one may define any number of
# sections with a "temperature_fan" prefix). A "temperature fan" is a
# fan that will be enabled whenever its associated sensor is above a
# set temperature. By default, a temperature_fan has a shutdown_speed
# equal to max_power.
#[temperature_fan my_temp_fan]
#pin:
#max_power:
#shutdown_speed:
#cycle_time:
#hardware_pwm:
#kick_start_time:
# See the "fan" section in example.cfg for a description of the
# above parameters.
#sensor_type: EPCOS 100K B57560G104F
#sensor_pin: analog13
# See the "heater" section for details about the sensor_type and
# sensor_pin parameters.
#min_temp: 0
#max_temp: 100
# The maximum range of valid temperatures (in Celsius) that the
# sensor must remain within. This controls a safety feature
# implemented in the micro-controller code - should the measured
# temperature ever fall outside this range then the micro-controller
# will go into a shutdown state. Set this range just wide enough so
# that reasonable temperatures do not result in an error. These
# parameters must be provided.
#target_temp: 40.0
# A temperature (in Celsius) that will be the target temperature.
# The default is 40 degrees.
#max_speed: 1.0
# The fan speed (expressed as a value from 0.0 to 1.0) that the fan
# will be set to when the sensor temperature exceeds the set value.
# The default is 1.0.
#min_speed: 0.3
# The minimum fan speed (expressed as a value from 0.0 to 1.0) that
# the fan will be set to when the sensor temperature is the set
# value. The default is 0.3.
#control: watermark
# Control algorithm (either watermark or pid). This parameter must
# be provided.
#pid_Kp: 40
# Kp is the "proportional" constant for the pid. This parameter must
# be provided for PID heaters.
#pid_Ki: 0.2
# Ki is the "integral" constant for the pid. This parameter must be
# provided for PID heaters.
#pid_Kd: 0.1
# Kd is the "derivative" constant for the pid. This parameter must
# be provided for PID heaters.
#pid_deriv_time: 2.0
# A time value (in seconds) over which the derivative in the pid
# will be smoothed to reduce the impact of measurement noise. The
# default is 2 seconds.
#pid_integral_max:
# The maximum "windup" the integral term may accumulate. The default
# is to use the same value as max_power.
# Additional micro-controllers (one may define any number of sections
# with an "mcu" prefix). Additional micro-controllers introduce
# additional pins that may be configured as heaters, steppers, fans,
# etc.. For example, if an "[mcu extra_mcu]" section is introduced,
# then pins such as "extra_mcu:ar9" may then be used elsewhere in the
# config (where "ar9" is a hardware pin name or alias name on the
# given mcu).
#[mcu my_extra_mcu]
# See the "mcu" section in example.cfg for configuration parameters.
# Servos (one may define any number of sections with a "servo"
# prefix). The servos may be controlled using the SET_SERVO g-code
# command. For example: SET_SERVO SERVO=my_servo ANGLE=180
#[servo my_servo]
#pin: ar7
# PWM output pin controlling the servo. This parameter must be
# provided.
#maximum_servo_angle: 180
# The maximum angle (in degrees) that this servo can be set to. The
# default is 180 degrees.
#minimum_pulse_width: 0.001
# The minimum pulse width time (in seconds). This should correspond
# with an angle of 0 degrees. The default is 0.001 seconds.
#maximum_pulse_width: 0.002
# The maximum pulse width time (in seconds). This should correspond
# with an angle of maximum_servo_angle. The default is 0.002
# seconds.
# Statically configured digital output pins (one may define any number
# of sections with a "static_digital_output" prefix). Pins configured
# here will be setup as a GPIO output during MCU configuration. They
# can not be changed at run-time.
#[static_digital_output my_output_pins]
#pins:
# A comma separated list of pins to be set as GPIO output pins. The
# pin will be set to a high level unless the pin name is prefaced
# with "!". This parameter must be provided.
# Run-time configurable output pins (one may define any number of
# sections with an "output_pin" prefix). Pins configured here will be
# setup as output pins and one may modify them at run-time using the
# "SET_PIN PIN=my_pin VALUE=.1" extended g-code command.
#[output_pin my_pin]
#pin:
# The pin to configure as an output. This parameter must be
# provided.
#pwm: False
# Set if the output pin should be capable of pulse-width-modulation.
# If this is true, the value fields should be between 0 and 1; if it
# is false the value fields should be either 0 or 1. The default is
# False.
#static_value:
# If this is set, then the pin is assigned to this value at startup
# and the pin can not be changed during runtime. A static pin uses
# slightly less ram in the micro-controller. The default is to use
# runtime configuration of pins.
#value:
# The value to initially set the pin to during MCU
# configuration. The default is 0 (for low voltage).
#shutdown_value:
# The value to set the pin to on an MCU shutdown event. The default
# is 0 (for low voltage).
#cycle_time: 0.100
# The amount of time (in seconds) per PWM cycle. It is recommended
# this be 10 milliseconds or greater when using software based
# PWM. The default is 0.100 seconds for pwm pins.
#hardware_pwm: False
# Enable this to use hardware PWM instead of software PWM. The
# default is False.
#scale:
# This parameter can be used to alter how the 'value' and
# 'shutdown_value' parameters are interpreted for pwm pins. If
# provided, then the 'value' parameter should be between 0.0 and
# 'scale'. This may be useful when configuring a PWM pin that
# controls a stepper voltage reference. The 'scale' can be set to
# the equivalent stepper amperage if the PWM were fully enabled, and
# then the 'value' parameter can be specified using the desired
# amperage for the stepper. The default is to not scale the 'value'
# parameter.
# Multiple pin outputs (one may define any number of sections with a
# "multi_pin" prefix). A multi_pin output creates an internal pin
# alias that can modify multiple output pins each time the alias pin
# is set. For example, one could define a "[multi_pin my_fan]" object
# containing two pins and then set "pin=multi_pin:my_fan" in the
# "[fan]" section - on each fan change both output pins would be
# updated. These aliases may not be used with stepper motor pins.
#[multi_pin my_multi_pin]
#pins:
# A comma separated list of pins associated with this alias. This
# parameter must be provided.
# Statically configured AD5206 digipots connected via SPI bus (one may
# define any number of sections with an "ad5206" prefix).
#[ad5206 my_digipot]
#enable_pin:
# The pin corresponding to the AD5206 chip select line. This pin
# will be set to low at the start of SPI messages and raised to high
# after the message completes. This parameter must be provided.
#channel_1:
#channel_2:
#channel_3:
#channel_4:
#channel_5:
#channel_6:
# The value to statically set the given AD5206 channel to. This is
# typically set to a number between 0.0 and 1.0 with 1.0 being the
# highest resistance and 0.0 being the lowest resistance. However,
# the range may be changed with the 'scale' parameter (see
# below). If a channel is not specified then it is left
# unconfigured.
#scale:
# This parameter can be used to alter how the 'channel_x' parameters
# are interpreted. If provided, then the 'channel_x' parameters
# should be between 0.0 and 'scale'. This may be useful when the
# AD5206 is used to set stepper voltage references. The 'scale' can
# be set to the equivalent stepper amperage if the AD5206 were at
# its highest resistance, and then the 'channel_x' parameters can be
# specified using the desired amperage value for the stepper. The
# default is to not scale the 'channel_x' parameters.
# Statically configured MCP4451 digipot connected via I2C bus (one may
# define any number of sections with an "mcp4451" prefix).
#[mcp4451 my_digipot]
#mcu: mcu
# The name of the micro-controller that the MCP4451 chip is
# connected to. The default is "mcu".
#i2c_address:
# The i2c address that the chip is using on the i2c bus. This
# parameter must be provided.
#wiper_0:
#wiper_1:
#wiper_2:
#wiper_3:
# The value to statically set the given MCP4451 "wiper" to. This is
# typically set to a number between 0.0 and 1.0 with 1.0 being the
# highest resistance and 0.0 being the lowest resistance. However,
# the range may be changed with the 'scale' parameter (see
# below). If a wiper is not specified then it is left unconfigured.
#scale:
# This parameter can be used to alter how the 'wiper_x' parameters
# are interpreted. If provided, then the 'wiper_x' parameters should
# be between 0.0 and 'scale'. This may be useful when the MCP4451 is
# used to set stepper voltage references. The 'scale' can be set to
# the equivalent stepper amperage if the MCP4451 were at its highest
# resistance, and then the 'wiper_x' parameters can be specified
# using the desired amperage value for the stepper. The default is
# to not scale the 'wiper_x' parameters.
# Configure a TMC2130 stepper motor driver via SPI bus. To use this
# feature, define a config section with a "tmc2130" prefix followed by
# the name of the corresponding stepper config section (for example,
# "[tmc2130 stepper_x]").
#[tmc2130 stepper_x]
#cs_pin:
# The pin corresponding to the TMC2130 chip select line. This pin
# will be set to low at the start of SPI messages and raised to high
# after the message completes. This parameter must be provided.
#microsteps:
# The number of microsteps to configure the driver to use. Valid
# values are 1, 2, 4, 8, 16, 32, 64, 128, 256. This parameter must
# be provided.
#interpolate: True
# If true, enable TMC2130 step interpolation (the driver will
# interally step at a rate of 256 micro-steps). The default is True.
#run_current:
# The amount of current (in amps) to configure the driver to use
# during stepper movement. This parameter must be provided.
#hold_current:
# The amount of current (in amps) to configure the driver to use
# when the stepper is not moving. The default is to use the same
# value as run_current.
#sense_resistor: 0.110
# The resistance (in ohms) of the motor sense resistor. The default
# is 0.110 ohms.
#stealthchop_threshold: 0
# The velocity (in mm/s) to set the "stealthChop" threshold to. When
# set, "stealthChop" mode will be enabled if the stepper motor
# velocity is below this value. The default is 0, which disables
# "stealthChop" mode.
#driver_IHOLDDELAY: 8
#driver_TPOWERDOWN: 0
#driver_BLANK_TIME_SELECT: 1
#driver_TOFF: 4
#driver_HEND: 7
#driver_HSTRT: 0
#driver_PWM_AUTOSCALE: True
#driver_PWM_FREQ: 1
#driver_PWM_GRAD: 4
#driver_PWM_AMPL: 128
#driver_SGT: 0
# Set the given register during the configuration of the TMC2130
# chip. This may be used to set custom motor parameters. The
# defaults for each parameter are next to the parameter name in the
# above list.
#diag1_pin:
# The micro-controller pin attached to the DIAG1 line of the TMC2130
# chip. Setting this creates a "tmc2130_stepper_x:virtual_endstop"
# virtual pin which may be used as the stepper's endstop_pin. Doing
# this enables "sensorless homing". (Be sure to also set driver_SGT
# to an appropriate sensitivity value.) The default is to not enable
# sensorless homing.
# Homing override. One may use this mechanism to run a series of
# g-code commands in place of a G28 found in the normal g-code input.
# This may be useful on printers that require a specific procedure to
# home the machine.
#[homing_override]
#gcode:
# A list of G-Code commands (one per line) to execute in place of
# G28 commands found in the normal g-code input. If a G28 is
# contained in this list of commands then it will invoke the normal
# homing procedure for the printer. The commands listed here must
# home all axes. This parameter must be provided.
#axes: xyz
# The axes to override. For example, if this is set to "z" then the
# override script will only be run when the z axis is homed (eg, via
# a "G28" or "G28 Z0" command). Note, the override script should
# still home all axes. The default is "xyz" which causes the
# override script to be run in place of all G28 commands.
#set_position_x:
#set_position_y:
#set_position_z:
# If specified, the printer will assume the axis is at the specified
# position prior to running the above g-code commands. Setting this
# disables homing checks for that axis. This may be useful if the
# head must move prior to invoking the normal G28 mechanism for an
# axis. The default is to not force a position for an axis.
# A virtual sdcard may be useful if the host machine is not fast
# enough to run OctoPrint well. It allows the Klipper host software to
# directly print gcode files stored in a directory on the host using
# standard sdcard G-Code commands (eg, M24).
#[virtual_sdcard]
#path: ~/.octoprint/uploads/
# The path of the local directory on the host machine to look for
# g-code files. This is a read-only directory (sdcard file writes
# are not supported). One may point this to OctoPrint's upload
# directory (generally ~/.octoprint/uploads/ ). This parameter must
# be provided.
# Support for a display attached to the micro-controller.
#[display]
#lcd_type:
# The type of LCD chip in use. This may be "hd44780" (which is
# used in "RepRapDiscount 2004 Smart Controller" type displays),
# "st7920" (which is used in "RepRapDiscount 12864 Full Graphic
# Smart Controller" type displays) or "uc1701" (which is used in
# "MKS Mini 12864 type" displays). This parameter must be provided.
#rs_pin:
#e_pin:
#d4_pin:
#d5_pin:
#d6_pin:
#d7_pin:
# The pins connected to an hd44780 type lcd. These parameters must
# be provided when using an hd44780 display.
#cs_pin:
#sclk_pin:
#sid_pin:
# The pins connected to an st7920 type lcd. These parameters must be
# provided when using an st7920 display.
#cs_pin:
#a0_pin
# The pins connected to an uc1701 type lcd. These parameters must be
# provided when using an uc1701 display.
# Custom thermistors (one may define any number of sections with a
# "thermistor" prefix). A custom thermistor may be used in the
# sensor_type field of a heater config section. (For example, if one
# defines a "[thermistor my_thermistor]" section then one may use a
# "sensor_type: my_thermistor" when defining a heater.) Be sure to
# place the thermistor section in the config file above its first use
# in a heater section.
#[thermistor my_thermistor]
#temperature1:
#resistance1:
#temperature2:
#resistance2:
#temperature3:
#resistance3:
# Three resistance measurements (in Ohms) at the given temperatures
# (in Celsius). The three measurements will be used to calculate the
# Steinhart-Hart coefficients for the thermistor. These parameters
# must be provided when using Steinhart-Hart to define the
# thermistor.
#beta:
# Alternatively, one may define temperature1, resistance1, and beta
# to define the thermistor parameters. This parameter must be
# provided when using "beta" to define the thermistor.
# Custom ADC temperature sensors (one may define any number of
# sections with an "adc_temperature" prefix). This allows one to
# define a custom temperature sensor that measures a voltage on an
# Analog to Digital Converter (ADC) pin and uses linear interpolation
# between a set of configured temperature/voltage measurements to
# determine the temperature. The resulting sensor can be used as a
# sensor_type in a heater section. (For example, if one defines a
# "[adc_temperature my_sensor]" section then one may use a
# "sensor_type: my_sensor" when defining a heater.) Be sure to place
# the sensor section in the config file above its first use in a
# heater section.
#[adc_temperature my_sensor]
#temperature1:
#voltage1:
#temperature2:
#voltage2:
#...
# A set of temperatures (in Celsius) and voltages (in Volts) to use
# as reference when converting a temperature. At least two
# measurements must be provided.
# G-Code macros (one may define any number of sections with a
# "gcode_macro" prefix).
#[gcode_macro my_cmd]
#gcode:
# A list of G-Code commands (one per line) to execute in place of
# "my_cmd". This parameter must be provided.
# Replicape support - see the generic-replicape.cfg file for further
# details.
#[replicape]