OctoprintKlipperPlugin/octoprint_klipper/goldenprinter.cfg

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# Golden printer.cfg to check against. This should contain all settings under each section that are available.
[stepper_x]
step_pin:
# Step GPIO pin (triggered high). This parameter must be provided.
dir_pin:
# Direction GPIO pin (high indicates positive direction). This
# parameter must be provided.
enable_pin:
# Enable pin (default is enable high; use ! to indicate enable
# low). If this parameter is not provided then the stepper motor
# driver must always be enabled.
rotation_distance:
# Distance (in mm) that the axis travels with one full rotation of
# the stepper motor. This parameter must be provided.
microsteps:
# The number of microsteps the stepper motor driver uses. This
# parameter must be provided.
full_steps_per_rotation: 200
# The number of full steps for one rotation of the stepper motor.
# Set this to 200 for a 1.8 degree stepper motor or set to 400 for a
# 0.9 degree motor. The default is 200.
gear_ratio:
# The gear ratio if the stepper motor is connected to the axis via a
# gearbox. For example, one may specify "5:1" if a 5 to 1 gearbox is
# in use. If the axis has multiple gearboxes one may specify a comma
# separated list of gear ratios (for example, "57:11, 2:1"). If a
# gear_ratio is specified then rotation_distance specifies the
# distance the axis travels for one full rotation of the final gear.
# The default is to not use a gear ratio.
endstop_pin:
# Endstop switch detection pin. This parameter must be provided for
# the X, Y, and Z steppers on cartesian style printers.
position_min: 0
# Minimum valid distance (in mm) the user may command the stepper to
# move to. The default is 0mm.
position_endstop:
# Location of the endstop (in mm). This parameter must be provided
# for the X, Y, and Z steppers on cartesian style printers.
position_max:
# Maximum valid distance (in mm) the user may command the stepper to
# move to. This parameter must be provided for the X, Y, and Z
# steppers on cartesian style printers.
homing_speed: 5.0
# Maximum velocity (in mm/s) of the stepper when homing. The default
# is 5mm/s.
homing_retract_dist: 5.0
# Distance to backoff (in mm) before homing a second time during
# homing. Set this to zero to disable the second home. The default
# is 5mm.
homing_retract_speed:
# Speed to use on the retract move after homing in case this should
# be different from the homing speed, which is the default for this
# parameter
second_homing_speed:
# Velocity (in mm/s) of the stepper when performing the second home.
# The default is homing_speed/2.
homing_positive_dir:
# If true, homing will cause the stepper to move in a positive
# direction (away from zero); if false, home towards zero. It is
# better to use the default than to specify this parameter. The
# default is true if position_endstop is near position_max and false
# if near position_min.
[tmc2209 stepper_x]
uart_pin: PB15
run_current: 0.580
hold_current: 0.500
stealthchop_threshold: 250
[stepper_y]
step_pin:
dir_pin:
enable_pin:
rotation_distance:
microsteps:
full_steps_per_rotation: 200
gear_ratio:
endstop_pin:
position_min: 0
position_endstop:
position_max:
homing_speed: 5.0
homing_retract_dist: 5.0
homing_retract_speed:
second_homing_speed:
homing_positive_dir:
[tmc2209 stepper_y]
uart_pin: PC6
run_current: 0.580
hold_current: 0.500
stealthchop_threshold: 250
[stepper_z]
step_pin:
dir_pin:
enable_pin:
rotation_distance:
microsteps:
full_steps_per_rotation: 200
gear_ratio:
endstop_pin:
position_min: 0
position_endstop:
position_max:
homing_speed: 5.0
homing_retract_dist: 5.0
homing_retract_speed:
second_homing_speed:
homing_positive_dir:
[tmc2209 stepper_z]
uart_pin: PC10
run_current: 0.580
hold_current: 0.500
stealthchop_threshold: 10
[safe_z_home]
home_xy_position: 70,100
speed: 50
z_hop: 10
z_hop_speed: 4
# --------------------For Delta Kinematics: --------------------------
# The stepper_a section describes the stepper controlling the front
# left tower (at 210 degrees). This section also controls the homing
# parameters (homing_speed, homing_retract_dist) for all towers.
[stepper_a]
position_endstop:
# Distance (in mm) between the nozzle and the bed when the nozzle is
# in the center of the build area and the endstop triggers. This
# parameter must be provided for stepper_a; for stepper_b and
# stepper_c this parameter defaults to the value specified for
# stepper_a.
arm_length:
# Length (in mm) of the diagonal rod that connects this tower to the
# print head. This parameter must be provided for stepper_a; for
# stepper_b and stepper_c this parameter defaults to the value
# specified for stepper_a.
#angle:
# This option specifies the angle (in degrees) that the tower is
# at. The default is 210 for stepper_a, 330 for stepper_b, and 90
# for stepper_c.
# The stepper_b section describes the stepper controlling the front
# right tower (at 330 degrees).
[stepper_b]
position_endstop:
arm_length:
# The stepper_c section describes the stepper controlling the rear
# tower (at 90 degrees).
[stepper_c]
position_endstop:
arm_length:
# The delta_calibrate section enables a DELTA_CALIBRATE extended
# g-code command that can calibrate the tower endstop positions and
# angles.
[delta_calibrate]
radius:
# Radius (in mm) of the area that may be probed. This is the radius
# of nozzle coordinates to be probed; if using an automatic probe
# with an XY offset then choose a radius small enough so that the
# probe always fits over the bed. This parameter must be provided.
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.
# -------------- For Polar Kinematics ---------------------------
# The stepper_bed section is used to describe the stepper controlling
# the bed.
[stepper_bed]
gear_ratio:
# A gear_ratio must be specified and rotation_distance may not be
# specified. For example, if the bed has an 80 toothed pulley driven
# by a stepper with a 16 toothed pulley then one would specify a
# gear ratio of "80:16". This parameter must be provided.
max_z_velocity:
# This sets the maximum velocity (in mm/s) of movement along the z
# axis. This setting can be used to restrict the maximum speed of
# the z stepper motor. The default is to use max_velocity for
# max_z_velocity.
max_z_accel:
# This sets the maximum acceleration (in mm/s^2) of movement along
# the z axis. It limits the acceleration of the z stepper motor. The
# default is to use max_accel for max_z_accel.
# The stepper_arm section is used to describe the stepper controlling
# the carriage on the arm.
[stepper_arm]
# --------------------- For
[extruder]
step_pin: PB3
dir_pin: !PB4
enable_pin: !PD2
microsteps: 16
rotation_distance: 33.400
nozzle_diameter: 0.400
filament_diameter: 1.750
heater_pin: PC8
sensor_type: EPCOS 100K B57560G104F
sensor_pin: PA0
control: pid
pid_Kp=26.049
pid_Ki=1.258
pid_Kd=134.805
min_temp: 0
max_temp: 250
pressure_advance: 0.07
pressure_advance_smooth_time: 0.040
[tmc2209 extruder]
uart_pin: PC11
run_current: 0.670
hold_current: 0.500
stealthchop_threshold: 5
[heater_bed]
heater_pin: PC9
sensor_type: ATC Semitec 104GT-2
sensor_pin: PC3
control: pid
pid_Kp=72.740
pid_Ki=1.569
pid_Kd=842.877
min_temp: 0
max_temp: 130
[fan]
pin: PA8
[mcu]
serial:
# The serial port to connect to the MCU. If unsure (or if it
# changes) see the "Where's my serial port?" section of the FAQ.
# This parameter must be provided when using a serial port.
baud: 250000
# The baud rate to use. The default is 250000.
canbus_uuid:
# If using a device connected to a CAN bus then this sets the unique
# chip identifier to connect to. This value must be provided when using
# CAN bus for communication.
canbus_interface:
# If using a device connected to a CAN bus then this sets the CAN
# network interface to use. The default is 'can0'.
pin_map:
# This option may be used to enable Arduino pin name aliases. The
# default is to not enable the aliases.
restart_method:
# This controls the mechanism the host will use to reset the
# micro-controller. The choices are 'arduino', 'cheetah', 'rpi_usb',
# and 'command'. The 'arduino' method (toggle DTR) is common on
# Arduino boards and clones. The 'cheetah' method is a special
# method needed for some Fysetc Cheetah boards. The 'rpi_usb' method
# is useful on Raspberry Pi boards with micro-controllers powered
# over USB - it briefly disables power to all USB ports to
# accomplish a micro-controller reset. The 'command' method involves
# sending a Klipper command to the micro-controller so that it can
# reset itself. The default is 'arduino' if the micro-controller
# communicates over a serial port, 'command' otherwise.
[mcu my_extra_mcu]
serial:
baud: 250000
canbus_uuid:
canbus_interface:
pin_map:
restart_method:
[printer]
kinematics:
# The type of printer in use. This option may be one of: cartesian,
# corexy, corexz, delta, rotary_delta, polar, winch, or none. This
# parameter must be specified.
max_velocity:
# Maximum velocity (in mm/s) of the toolhead (relative to the
# print). This parameter must be specified.
max_accel:
# Maximum acceleration (in mm/s^2) of the toolhead (relative to the
# print). This parameter must be specified.
max_accel_to_decel:
# A pseudo acceleration (in mm/s^2) controlling how fast the
# toolhead may go from acceleration to deceleration. It is used to
# reduce the top speed of short zig-zag moves (and thus reduce
# printer vibration from these moves). The default is half of
# max_accel.
square_corner_velocity: 5.0
# The maximum velocity (in mm/s) that the toolhead may travel a 90
# degree corner at. A non-zero value can reduce changes in extruder
# flow rates by enabling instantaneous velocity changes of the
# toolhead during cornering. This value configures the internal
# centripetal velocity cornering algorithm; corners with angles
# larger than 90 degrees will have a higher cornering velocity while
# corners with angles less than 90 degrees will have a lower
# cornering velocity. If this is set to zero then the toolhead will
# decelerate to zero at each corner. The default is 5mm/s.
#
# -----delta Kinematics:------
max_z_velocity:
# For delta printers this limits the maximum velocity (in mm/s) of
# moves with z axis movement. This setting can be used to reduce the
# maximum speed of up/down moves (which require a higher step rate
# than other moves on a delta printer). The default is to use
# max_velocity for max_z_velocity.
minimum_z_position: 0
# The minimum Z position that the user may command the head to move
# to. The default is 0.
delta_radius:
# Radius (in mm) of the horizontal circle formed by the three linear
# axis towers. This parameter may also be calculated as:
# delta_radius = smooth_rod_offset - effector_offset - carriage_offset
# This parameter must be provided.
print_radius:
# The radius (in mm) of valid toolhead XY coordinates. One may use
# this setting to customize the range checking of toolhead moves. If
# a large value is specified here then it may be possible to command
# the toolhead into a collision with a tower. The default is to use
# delta_radius for print_radius (which would normally prevent a
# tower collision).
max_z_velocity: 5
max_z_accel: 100
max_accel_to_decel: 1000
square_corner_velocity: 5.0
[bed_screws]
screw1: 30,30
screw2: 30,200
screw3: 200,30
screw4: 200,200
[bed_mesh]
speed: 50
horizontal_move_z: 5
mesh_min: 48,8
mesh_max: 200,230
probe_count: 7,7
fade_start: 1.0
fade_end: 0.0
umber of
algorithm: bicubic
[static_digital_output usb_pullup_enable]
pins: !PC13
[gcode_arcs]
resolution: 1.0
[bltouch]
sensor_pin: ^PC14
control_pin: PA1
x_offset: 48
y_offset: -2
z_offset: 1.23
pin_move_time: 0.75
speed: 1.0
lift_speed: 3.0
samples: 2
sample_retract_dist: 3
[board_pins]
aliases:
# EXP1 header
EXP1_1=PB5, EXP1_3=PA9, EXP1_5=PA10, EXP1_7=PB8, EXP1_9=<GND>,
EXP1_2=PB6, EXP1_4=<RST>, EXP1_6=PB9, EXP1_8=PB7, EXP1_10=<5V>
[display]
lcd_type: st7920
cs_pin: EXP1_7
sclk_pin: EXP1_6
sid_pin: EXP1_8
encoder_pins: ^EXP1_5, ^EXP1_3
click_pin: ^!EXP1_2
[output_pin beeper]
pin: EXP1_1
[firmware_retraction]
retract_length: 2.7
retract_speed: 25
unretract_extra_length: 0.0
unretract_speed: 25
[virtual_sdcard]
path: /home/pi/.octoprint/uploads
[gcode_macro DO_MESH]
gcode:
M140 S60
G28
M190 S60 ; Heat Bed to 60C
BED_MESH_CALIBRATE ;Mesh leveling
M140 S0 ;Turn-off bed
SAVE_CONFIG
[gcode_macro CHECK_DISTANCE]
gcode:
M140 S60
G28
M190 S60 ; Heat Bed to 60C
G1 Z15.8 F1000
[gcode_macro START_PRINT]
gcode:
M220 S100 ;Reset Feedrate
M221 S100 ;Reset Flowrate
G92 E0 ;Reset Extruder
G1 Z1.0 F3000 ;Move Z Axis up
G1 X0 Y20 Z0.3 F5000.0 ;Move to start position
G1 X0 Y200.0 Z0.3 F1500.0 E15 ;Draw the first line
G1 X0.4 Y200.0 Z0.3 F5000.0 ;Move to side a little
G1 X0.4 Y20 Z0.3 F1500.0 E27 ;Draw the second line
G1 Z1.6 F3000 ;Move Z Axis up
[gcode_macro END_PRINT]
gcode:
;MESH:ENDGCODE
G91 ;Relative positioning
G92 E0 ;Reset Extruder
G1 F2400 E-8
G1 Z0.2 F2400 ;Raise Z
G1 X5 Y5 F3000 ;Wipe out
G1 Z10 ;Raise Z more
G90 ;Absolute positionning
G1 X0 Y{machine_depth} ;Present print
M106 S0 ;Turn-off fan
M140 S0 ;Turn-off bed
M84 X Y E ;Disable all steppers but Z
[gcode_macro SET_RETRACTIONLENGTH]
gcode:
SET_RETRACTION RETRACT_LENGTH={params.LENGTH|float}
GET_RETRACTION
[pause_resume]
# M600: Filament Change. This macro will pause the printer, move the
# tool to the change position, and retract the filament 50mm. Adjust
# the retraction settings for your own extruder. After filament has
# been changed, the print can be resumed from its previous position
# with the "RESUME" gcode.
[gcode_macro PARK]
gcode:
G1 X125 Y200.0 Z200.0 F4000
[gcode_macro FILAMENT_LOAD]
gcode:
M83 ; set e to relative positioning
G92 E0.0
G1 E70 F500 ; Initially go fast
G92 E0.0
G1 E10 F200 ; then go slow
G92 E0.0
[gcode_macro FILAMENT_UNLOAD]
gcode:
M83 ; set e to relative positioning
# wiggle filament out of the nozzle
G1 E0.5 F1000
G1 E-0.5 F1000
G1 E1.0 F1000
G1 E-1.0 F1000
G1 E1.5 F1000
G1 E-1.5 F1000
G1 E2.0 F1000
G1 E-100.0 F3000 ;fully unload
G92 E0.0
[gcode_macro M600]
default_parameter_X: 0
default_parameter_Y: 0
default_parameter_Z: 50
gcode:
SAVE_GCODE_STATE NAME=M600_state
PAUSE
G91 ;relative
G1 E-.2 F2700
G1 Z{Z} ;raise nozzle
G90 ;absolute
G1 X{X} Y{Y} F3000
G91 ;relative
M300 P1000 ;beep
FILAMENT_UNLOAD ;
M300 P3000 ;beep
G90 ;absolute
RESTORE_GCODE_STATE NAME=M600_state
#*# <---------------------- SAVE_CONFIG ---------------------->
#*# DO NOT EDIT THIS BLOCK OR BELOW. The contents are auto-generated.
#*#
#*# [bed_mesh default]
#*# version = 1
#*# points =
#*# 0.087500, 0.080000, 0.068750, 0.047500, 0.075000, 0.078750, 0.085000
#*# 0.068750, 0.065000, 0.055000, 0.028750, 0.052500, 0.055000, 0.057500
#*# 0.092500, 0.091250, 0.082500, 0.048750, 0.070000, 0.063750, 0.066250
#*# 0.116250, 0.132500, 0.122500, 0.090000, 0.105000, 0.100000, 0.092500
#*# 0.128750, 0.135000, 0.130000, 0.086250, 0.096250, 0.076250, 0.076250
#*# 0.112500, 0.126250, 0.128750, 0.107500, 0.122500, 0.127500, 0.125000
#*# 0.120000, 0.133750, 0.141250, 0.097500, 0.125000, 0.106250, 0.100000
#*# tension = 0.2
#*# min_x = 48.0
#*# algo = bicubic
#*# y_count = 7
#*# mesh_y_pps = 2
#*# min_y = 8.0
#*# x_count = 7
#*# max_y = 230.0
#*# mesh_x_pps = 2
#*# max_x = 199.97