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Voron2.4-1102-Klipper/printer-20251130_142558.cfg
Sebastien Plante a48263dc6d Autocommit from 2025-11-30 18:00:05 
Klipper version: v0.13.0-411-g938300f3

Moonraker version: v0.9.3-128-g960e933

Mainsail version: v2.15.0
2025-11-30 18:00:05 -05:00

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## Voron Design VORON2 250/300/350mm SKR 1.4 TMC2209 UART config
## Made for V2.1102 with Beacon3D and Orbitool.
## *** THINGS TO CHANGE/CHECK: ***
## MCU paths [mcu] section
## Thermistor types [extruder] and [heater_bed] sections - See https://www.klipper3d.org/Config_Reference.html#common-thermistors for common thermistor types
## Z Endstop Switch location [safe_z_home] section
## Homing end position [gcode_macro G32] section
## Z Endstop Switch offset for Z0 [stepper_z] section
## Probe points [quad_gantry_level] section
## Min & Max gantry corner postions [quad_gantry_level] section
## PID tune [extruder] and [heater_bed] sections
## Fine tune E steps [extruder] section
##========================== Pin Definitions ========================
## X_STEP_PIN 2.2
## X_DIR_PIN 2.6
## X_ENABLE_PIN 2.1
## X_STOP_PIN 1.29
## E0_DET_PIN 1.26
## X_UART_PIN 1.10
## Y_STEP_PIN 0.19
## Y_DIR_PIN 0.20
## Y_ENABLE_PIN 2.8
## Y_STOP_PIN 1.28
## E1_DET_PIN 1.26
## Y_UART_RX 1.9
## Z_STEP_PIN 0.22
## Z_DIR_PIN 2.11
## Z_ENABLE_PIN 0.21
## Z_STOP_PIN 1.27
## PWR_DET_PIN 1.0
## Z_UART 1.8
## E0_STEP_PIN 2.13
## E0_DIR_PIN 0.11
## E0_ENABLE_PIN 2.12
## E0_UART 1.4
## E1_STEP_PIN 1.15
## E1_DIR_PIN 1.14
## E1_ENABLE_PIN 1.16
## E1_UART_RX 1.1
## HE1 2.4
## HE0 2.7
## BED 2.5
## TH1 (H1 Temp) 0.23
## TH0 (H0 Temp) 0.24
## TB (Bed Temp) 0.25
## FAN 2.3
## SERVO 2.0
## PROBE 0.10
##===================================================================
## MCU for X/Y/E steppers main MCU
## [X in X] - B Motor
## [Y in Y] - A Motor
## [E in E0] - Extruder
[mcu]
## Obtain definition by "ls /dev/serial/by-id/*" then unplug to verify
##--------------------------------------------------------------------
serial: /dev/serial/by-id/usb-Klipper_lpc1769_0D70FF0F871C4AAF53417C5DC42000F5-if00
##--------------------------------------------------------------------
## MCU for Z steppers
## [Z in X] - Front Left
## [Z1 in Y] - Rear Left
## [Z2 in Z] - Rear Right
## [Z3 in E0]- Front Right
[mcu z]
## Obtain definition by "ls /dev/serial/by-id/*" then unplug to verify
##--------------------------------------------------------------------
serial: /dev/serial/by-id/usb-Klipper_lpc1769_00A00004A49869AFEAD93E5EC02000F5-if00
##--------------------------------------------------------------------
[printer]
kinematics: corexy
max_velocity: 300
max_accel: 6000 #Max 4000
#max_accel: 10000 #Only there for input shaper
#minimum_cruise_ratio: 0.5 #[OLD] not enabled.
max_z_velocity: 30 #Max 15 for 12V TMC Drivers, can increase for 24V
max_z_accel: 350
square_corner_velocity: 5.0
#####################################################################
# X/Y Stepper Settings
#####################################################################
## Connected to X on mcu_xye (B Motor)
[stepper_x]
step_pin: P2.2
dir_pin: !P2.6
enable_pin: !P2.1
rotation_distance: 40
microsteps: 32 # [OLD] was 16
full_steps_per_rotation:200 #set to 400 for 0.9 degree stepper
endstop_pin: P1.29
position_min: 0
##--------------------------------------------------------------------
## Uncomment below for 250mm build
#position_endstop: 250
#position_max: 250
## Uncomment for 300mm build
#position_endstop: 300
#position_max: 300
## Uncomment for 350mm build
position_endstop: 350
position_max: 350
##--------------------------------------------------------------------
homing_speed: 100 #Max 100
homing_retract_dist: 10
homing_positive_dir: true
## Make sure to update below for your relevant driver (2208 or 2209)
[tmc2209 stepper_x]
uart_pin: P1.10
interpolate: False #[OLD] True
run_current: 0.8
sense_resistor: 0.110
stealthchop_threshold: 0
## Connected to Y on mcu_xye (A Motor)
[stepper_y]
step_pin: P0.19
dir_pin: !P0.20
enable_pin: !P2.8
rotation_distance: 40
microsteps: 32 #[OLD] 16
full_steps_per_rotation:200 #set to 400 for 0.9 degree stepper
endstop_pin: P1.28
position_min: 0
##--------------------------------------------------------------------
## Uncomment for 250mm build
#position_endstop: 250
#position_max: 250
## Uncomment for 300mm build
#position_endstop: 300
#position_max: 300
## Uncomment for 350mm build
position_endstop: 350
position_max: 350
##--------------------------------------------------------------------
homing_speed: 100 #Max 100
homing_retract_dist: 10
homing_positive_dir: true
## Make sure to update below for your relevant driver (2208 or 2209)
[tmc2209 stepper_y]
uart_pin: P1.9
interpolate: False #[OLD] True
run_current: 0.8
sense_resistor: 0.110
stealthchop_threshold: 0
#####################################################################
# Z Stepper Settings
#####################################################################
## Z MCU - In X Position
## Z0 Stepper - Front Left
[stepper_z]
step_pin: z:P2.2
dir_pin: !z:P2.6
enable_pin: !z:P2.1
rotation_distance: 40
gear_ratio: 80:16
microsteps: 32 #[OLD] 16
#endstop_pin: z:P1.27
endstop_pin: probe:z_virtual_endstop #Beacon3D
## Z-position of nozzle (in mm) to z-endstop trigger point relative to print surface (Z0)
## (+) value = endstop above Z0, (-) value = endstop below
## Increasing position_endstop brings nozzle closer to the bed
## After you run Z_ENDSTOP_CALIBRATE, position_endstop will be stored at the very end of your config
#position_endstop: -0.5
##--------------------------------------------------------------------
## Uncomment below for 250mm build
#position_max: 210
## Uncomment below for 300mm build
#position_max: 260
## Uncomment below for 350mm build
position_max: 310 #[OLD] 340
##--------------------------------------------------------------------
position_min: -5 #[OLD] -35
homing_speed: 3
homing_retract_dist: 0
## Make sure to update below for your relevant driver (2208 or 2209)
[tmc2209 stepper_z]
uart_pin: z:P1.10
interpolate: False #[OLD] True
run_current: 0.8
sense_resistor: 0.110
stealthchop_threshold: 0
## Z MCU - In Y Position
## Z1 Stepper - Rear Left
[stepper_z1]
step_pin: z:P0.19
dir_pin: z:P0.20
enable_pin: !z:P2.8
rotation_distance: 40
gear_ratio: 80:16
microsteps: 32 #[OLD] 16
## Make sure to update below for your relevant driver (2208 or 2209)
[tmc2209 stepper_z1]
uart_pin: z:P1.9
interpolate: False #[OLD] True
run_current: 0.8
sense_resistor: 0.110
stealthchop_threshold: 0
## Z MCU - In Z Position
## Z2 Stepper - Rear Right
[stepper_z2]
step_pin: z:P0.22
dir_pin: !z:P2.11
enable_pin: !z:P0.21
rotation_distance: 40
gear_ratio: 80:16
microsteps: 32 #[OLD] 16
## Make sure to update below for your relevant driver (2208 or 2209)
[tmc2209 stepper_z2]
uart_pin: z:P1.8
interpolate: False #[OLD] True
run_current: 0.8
sense_resistor: 0.110
stealthchop_threshold: 0
## Z MCU - In E0 Position
## Z3 Stepper - Front Right
[stepper_z3]
step_pin: z:P2.13
dir_pin: z:P0.11
enable_pin: !z:P2.12
rotation_distance: 40
gear_ratio: 80:16
microsteps: 32 #[OLD] 16
## Make sure to update below for your relevant driver (2208 or 2209)
[tmc2209 stepper_z3]
uart_pin: z:P1.4
interpolate: False #[OLD] True
run_current: 0.8
sense_resistor: 0.110
stealthchop_threshold: 0
#####################################################################
# Extruder
#####################################################################
# E0 on MCU X/Y
#[extruder]
#step_pin: P2.13
#dir_pin: P0.11
#enable_pin: !P2.12
## Update value below when you perform extruder calibration
## If you ask for 100mm of filament, but in reality it is 98mm:
## rotation_distance = <previous_rotation_distance> * <actual_extrude_distance> / 100
## 22.6789511 is a good starting point
#rotation_distance: 22.6789511 #Bondtech 5mm Drive Gears
#rotation_distance: 12.849 #CW2 Stealthburner
## Update Gear Ratio depending on your Extruder Type
## Use 50:10 for Stealthburner/Clockwork 2
## Use 50:17 for Afterburner/Clockwork (BMG Gear Ratio)
## Use 80:20 for M4, M3.1
#gear_ratio: 50:17 #BMG Gear Ratio
#microsteps: 32 #[OLD] 16
#full_steps_per_rotation: 200 #200 for 1.8 degree, 400 for 0.9 degree
#nozzle_diameter: 0.400
#filament_diameter: 1.75
#heater_pin: P2.7
## Check what thermistor type you have. See https://www.klipper3d.org/Config_Reference.html#common-thermistors for common thermistor types.
## Use "Generic 3950" for NTC 100k 3950 thermistors
#sensor_type: ATC Semitec 104GT-2
#sensor_pin: P0.24
#min_temp: 10
#max_temp: 270
#max_power: 1.0
#min_extrude_temp: 170
#control = pid
#pid_kp = 26.213
#pid_ki = 1.304
#pid_kd = 131.721
## Try to keep pressure_advance below 1.0
#pressure_advance: 0.05
## Default is 0.040, leave stock
#pressure_advance_smooth_time: 0.040
## E0 on MCU X/Y
## Make sure to update below for your relevant driver (2208 or 2209)
#[tmc2209 extruder]
#uart_pin: P1.4
#interpolate: false
#run_current: 0.5
#sense_resistor: 0.110
#stealthchop_threshold: 0
[extruder]
step_pin = orbitoolO2S:PB3
dir_pin = !orbitoolO2S:PB4
enable_pin = !orbitoolO2S:PC14
microsteps = 32
rotation_distance = 4.50 # Orbiter v2.5 4.69
full_steps_per_rotation = 200
nozzle_diameter = 0.400
filament_diameter = 1.750
heater_pin = orbitoolO2S:PB9
sensor_pin = orbitoolO2S:PA1
pullup_resistor = 2200
sensor_type = ATC Semitec 104GT-2 # update with correct sensor type PT1000 sensor are also suported
#sensor_type: PT1000
min_temp = 0
max_temp = 300 # increase in case your hottend suports higher operating temperature
pressure_advance = 0.015 # user calibration needed
pressure_advance_smooth_time = 0.03 # user calibration needed
max_extrude_only_distance = 500.0
max_extrude_cross_section = 20
min_extrude_temp = 170
smooth_time = 0.5
max_power: 0.995 # limit heater power to 99.5% to enable autorecovery from short detection
#control = pid # user calibration needed
#pid_Kp=30.477
#pid_Ki=1.600
#pid_Kd=145.141
#####################################################################
# Bed Heater
#####################################################################
## SSR Pin - Z board, Fan Pin
[heater_bed]
heater_pin: z:P2.3
## Check what thermistor type you have. See https://www.klipper3d.org/Config_Reference.html#common-thermistors for common thermistor types.
## Use "Generic 3950" for Keenovo heaters
sensor_type: Generic 3950
sensor_pin: z:P0.25
## Adjust max_power so it doesn't exceed the SSR rating. The Omron G3NA-210B-DC5 SSR is rated at 4 amps without a heatsink.
## The formula is "4 / (Wattage_of_bed_heater / Mains_voltage) = max_power"
## If max_power is greater than 1.0, use 1.0
max_power: 0.6
min_temp: 0
max_temp: 120
#control: pid
#pid_kp: 58.437
#pid_ki: 2.347
#pid_kd: 363.769
#####################################################################
# Probe
#####################################################################
## Inductive Probe
## This probe is not used for Z height, only Quad Gantry Leveling
## Z_MAX on mcu_z
#[probe]
## If your probe is NO instead of NC, change pin to ^!z:P0.10
#Klicky-Probe
#pin: ^z:P0.10
#x_offset: 0
#y_offset: 19.75
#z_offset: 0
#speed: 10.0
#samples: 3
#samples_result: median
#sample_retract_dist: 3.0
#samples_tolerance: 0.006
#samples_tolerance_retries: 3
#####################################################################
# Fan Control
#####################################################################
## Hotend Fan - XYE board, HE1 Connector
#[heater_fan hotend_fan]
#pin: P2.4
#max_power: 1.0
#kick_start_time: 0.5
#heater: extruder
#heater_temp: 50.0
## If you are experiencing back flow, you can reduce fan_speed
#fan_speed: 1.0
## Print Cooling Fan - XYE board, Fan Pin
# Used for hour_counter_signal
#[fan]
#pin: P2.3
#kick_start_time: 0.5
## Depending on your fan, you may need to increase this value
## if your fan will not start. Can change cycle_time (increase)
## if your fan is not able to slow down effectively
#off_below: 0.10
[output_pin hour_counter_signal]
pin: P2.3
value: 0
## Controller fan - Z board, HE1 Connector
[heater_fan controller_fan]
pin: z:P2.4
kick_start_time: 0.5
heater: heater_bed
heater_temp: 45.0
## Exhaust fan - Z board, HE0 Connector
[heater_fan exhaust_fan]
pin: z:P2.7
max_power: 1.0
shutdown_speed: 0.0
kick_start_time: 5.0
heater: heater_bed
heater_temp: 60
fan_speed: 1.0
#####################################################################
# LED Control
#####################################################################
# Chamber Lighting - Bed Connector (Optional)
#[output_pin caselight]
#pin: P2.5
#pwm:true
#shutdown_value: 0
#value:1
#cycle_time: 0.01
#####################################################################
# Homing and Gantry Adjustment Routines
#####################################################################
#[safe_z_home]
## XY Location of the Z Endstop Switch
## Update -10,-10 to the XY coordinates of your endstop pin
## (such as 157,305) after going through Z Endstop Pin
## Location Definition step.
#home_xy_position:175,175
#speed:30
#z_hop:3 #[OLD] 10
## Use QUAD_GANTRY_LEVEL to level a gantry.
## Min & Max gantry corners - measure from nozzle at MIN (0,0) and
## MAX (250, 250), (300,300), or (350,350) depending on your printer size
## to respective belt positions
[quad_gantry_level]
#--------------------------------------------------------------------
## Gantry Corners for 250mm Build
## Uncomment for 250mm build
#gantry_corners:
# -60,-10
# 310, 320
## Probe points
#points:
# 50,25
# 50,175
# 200,175
# 200,25
## Gantry Corners for 300mm Build
## Uncomment for 300mm build
#gantry_corners:
# -60,-10
# 360,370
## Probe points
#points:
# 50,25
# 50,225
# 250,225
# 250,25
## Gantry Corners for 350mm Build
## Uncomment for 350mm build
gantry_corners:
-60,-10
410,420
## Probe points
points:
50,25
50,275
300,275
300,25
#--------------------------------------------------------------------
speed: 150 #[OLD] 150
horizontal_move_z: 15
retries: 5
retry_tolerance: 0.0075
max_adjust: 10
#####################################################################
# Displays
#####################################################################
## Uncomment the display that you have. Display connects to Z MCU
#--------------------------------------------------------------------
## RepRapDiscount 128x64 Full Graphic Smart Controller
#[display]
#lcd_type: st7920
#cs_pin: z:P1.19
#sclk_pin: z:P1.20
#sid_pin: z:P1.18
#menu_timeout: 40
#encoder_pins: ^z:P3.26, ^z:P3.25
#click_pin: ^!z:P0.28
#[output_pin beeper]
#pin: z:P1.30
#--------------------------------------------------------------------
## mini12864 LCD Display
#[display]
#lcd_type: uc1701
#cs_pin: z:P1.18
#a0_pin: z:P1.19
#encoder_pins: ^z:P3.25,^z:P3.26
#click_pin: ^!z:P0.28
#contrast: 63
## To control Neopixel RGB in mini12864 display
#[neopixel fysetc_mini12864]
#pin: z:P1.21
#chain_count: 3
#initial_RED: 0.1
#initial_GREEN: 0.5
#initial_BLUE: 0.0
#color_order: RGB
## Set RGB values on boot up for each Neopixel.
## Index 1 = display, Index 2 and 3 = Knob
#[delayed_gcode setdisplayneopixel]
#initial_duration: 1
#gcode:
# SET_LED LED=fysetc_mini12864 RED=1 GREEN=1 BLUE=1 INDEX=1 TRANSMIT=0
# SET_LED LED=fysetc_mini12864 RED=1 GREEN=0 BLUE=0 INDEX=2 TRANSMIT=0
# SET_LED LED=fysetc_mini12864 RED=1 GREEN=0 BLUE=0 INDEX=3
#--------------------------------------------------------------------
#[neopixel stealthburner]
# To control Neopixel RGB in stealthburner
#pin: z:P1.24
#chain_count: 3
#initial_RED: 1
#initial_GREEN: 0
#initial_BLUE: 0
#initial_WHITE: 0.0
#color_order: GRBW
# Set RGB values on boot up for each Neopixel.
# Index 1 = logo, Index 2 and 3 = print bed light
#[delayed_gcode setstealthburnerneopixel]
#initial_duration: 1
#gcode:
# SET_LED LED=stealthburner RED=0.25490 GREEN=0.71372 BLUE=0.901962 INDEX=1 TRANSMIT=0
# SET_LED LED=stealthburner RED=0 GREEN=0 BLUE=0 WHITE=1 INDEX=2 TRANSMIT=0
# SET_LED LED=stealthburner RED=0 GREEN=0 BLUE=0 WHITE=1 INDEX=3 TRANSMIT=1
#--------------------------------------------------------------------
#####################################################################
# Macros
#####################################################################
[gcode_macro PARK]
gcode:
#{% set th = printer.toolhead %}
#G0 X{th.axis_maximum.x//2} Y{th.axis_maximum.y//2} Z30
# Park on wipe pad.
G0 X12
G0 Y349
G0 X17
[gcode_macro G32]
gcode:
{% set th = printer.toolhead %}
SAVE_GCODE_STATE NAME=STATE_G32
G90
G28
QUAD_GANTRY_LEVEL
G28
#PARK on the middle of the bed
G0 X{th.axis_maximum.x//2} Y{th.axis_maximum.y//2} Z30
RESTORE_GCODE_STATE NAME=STATE_G32
[gcode_macro PRINT_START]
# Use PRINT_START for the slicer starting script - please customise for your slicer of choice
gcode:
#G32 ; home all axes
#G90 ; absolute positioning
#G1 Z20 F3000 ; move nozzle away from bed
{% set EXTRUDER = params.EXTRUDER|int %}
{% set BED = params.BED|int %}
SET_LED LED="OrbiLED" RED=1 GREEN=1 BLUE=0 WHITE=0 SYNC=0 INDEX=1 TRANSMIT=1; Yellow
M117 Starting hour counter
SET_PIN PIN=hour_counter_signal VALUE=1
M117 Clearing BED Mesh
BED_MESH_CLEAR
SET_GCODE_OFFSET Z=0
M117 Make sure nozzle is a probing temp
M109 S150
M117 Homing axes (cold)
G28
M117 Position beacon at 2mm for heat soak
G0 Z2
M117 Start heating bed
M140 S{BED}
M117 Preheat nozzle to probing temp
M109 S150
M117 Wait on bed temperature
M190 S{BED}
M117 Wait 1 minute to let temp settle
G4 P60000 ; optional, let temps settle for 1 min
M117 Clean Nozzle
CLEAN_NOZZLE
M117 Calibrate Beacon Z offset (Contact-HOT)
G28 Z METHOD=CONTACT CALIBRATE=1
M117 Quad Grantry Leveling
QUAD_GANTRY_LEVEL
M117 Bed Mesh in Scan Mode
BED_MESH_CALIBRATE RUNS=2
M117 Clean Nozzle
CLEAN_NOZZLE
M117 Calibrate Beacon Z offset after Mesh
G28 Z METHOD=CONTACT CALIBRATE=0 ; calibrate z offset only after tilt/mesh
M117 Wait on nozzle printing temperature
M109 S{EXTRUDER} ; wait for extruder temp
M117 Add a little offset for hotend thermal expansion
SET_GCODE_OFFSET Z=0.06 ; add a little offset for hotend thermal expansion
; needs fine tuning, long meltzones require more
#SET_GCODE_OFFSET Z_ADJUST={OFFSET} ; apply optional material squish via slicer
M117 Prime Nozzle
PRIME_NOZZLE ; call another macro to purge or prime nozzle
SET_LED LED="OrbiLED" RED=0 GREEN=1 BLUE=0 WHITE=0 SYNC=0 INDEX=1 TRANSMIT=1; Yellow
M117 Printing...
; start printing
[gcode_macro PRINT_END]
# Use PRINT_END for the slicer ending script - please customise for your slicer of choice
gcode:
# safe anti-stringing move coords
{% set th = printer.toolhead %}
{% set x_safe = th.position.x + 20 * (1 if th.axis_maximum.x - th.position.x > 20 else -1) %}
{% set y_safe = th.position.y + 20 * (1 if th.axis_maximum.y - th.position.y > 20 else -1) %}
{% set z_safe = [th.position.z + 2, th.axis_maximum.z]|min %}
SAVE_GCODE_STATE NAME=STATE_PRINT_END
M117 Print has ended
M400 ; wait for buffer to clear
G92 E0 ; zero the extruder
G1 E-5.0 F1800 ; retract filament
M117 Turn Off Heaters
TURN_OFF_HEATERS
G90 ; absolute positioning
G0 X{x_safe} Y{y_safe} Z{z_safe} F20000 ; move nozzle to remove stringing
#G0 X{th.axis_maximum.x//2} Y{th.axis_maximum.y - 2} F3600 ; park nozzle at rear
PARK ; PARK on the wipe pad
M107 ; turn off fan
M117 Bed Mesh Clear
BED_MESH_CLEAR
# The purpose of the SAVE_GCODE_STATE/RESTORE_GCODE_STATE
# command pair is to restore the printer's coordinate system
# and speed settings since the commands above change them.
# However, to prevent any accidental, unintentional toolhead
# moves when restoring the state, explicitly set MOVE=0.
RESTORE_GCODE_STATE NAME=STATE_PRINT_END MOVE=0
M117 Turn hours counter off
SET_PIN PIN=hour_counter_signal VALUE=0
SET_LED LED="OrbiLED" RED=0.25490 GREEN=0.71372 BLUE=0.901962 WHITE=0 SYNC=0 INDEX=1 TRANSMIT=1 ; Turquoise
M117 Print done. Idle...
[gcode_macro CLEAN_NOZZLE]
variable_x_wipe_min: 25
variable_x_wipe_max: 57
variable_y_wipe: 349
gcode:
{% set x_min = params.X|default(printer["gcode_macro CLEAN_NOZZLE"].x_wipe_min)|float %}
{% set x_max = params.X2|default(printer["gcode_macro CLEAN_NOZZLE"].x_wipe_max)|float %}
{% set y_wipe = params.Y|default(printer["gcode_macro CLEAN_NOZZLE"].y_wipe)|float %}
SAVE_GCODE_STATE NAME=clean_nozzle_gantry
G90
G1 X{x_max} F12000
G1 Y{y_wipe} F12000
G1 X{x_min} F12000
G1 X{x_max} F12000
G1 X{x_min} F12000
G1 X{x_max} F12000
RESTORE_GCODE_STATE NAME=clean_nozzle_gantry
[gcode_macro PRIME_NOZZLE]
variable_x_blob: 10
variable_y_blob: 10
variable_z_height: 0.3
variable_blob_extrude: 15
variable_line_length: 50
variable_line_extrusion: 10
gcode:
{% set x_blob = printer["gcode_macro PRIME_NOZZLE"].x_blob %}
{% set y_blob = printer["gcode_macro PRIME_NOZZLE"].y_blob %}
{% set z_height = printer["gcode_macro PRIME_NOZZLE"].z_height %}
{% set blob_extrude = printer["gcode_macro PRIME_NOZZLE"].blob_extrude %}
{% set line_length = printer["gcode_macro PRIME_NOZZLE"].line_length %}
{% set line_extrusion = printer["gcode_macro PRIME_NOZZLE"].line_extrusion %}
SAVE_GCODE_STATE NAME=prime_state
G90
; Purge blob
G1 X{x_blob} Y{y_blob} F12000
G1 Z{z_height} F3000
G92 E0
G1 E{blob_extrude} F300
; Long purge line
G92 E0
G1 X{ x_blob + line_length } E{line_extrusion} F600
G92 E0
RESTORE_GCODE_STATE NAME=prime_state
[gcode_macro PRINTER_OFF]
gcode:
{action_call_remote_method("set_device_power",
device="printer_psu",
state="off")}
[idle_timeout]
timeout: 1800
gcode:
M84; TURN_OFF_MOTORS
TURN_OFF_HEATERS
UPDATE_DELAYED_GCODE ID=delayed_printer_off DURATION=60
[delayed_gcode delayed_printer_off]
initial_duration: 0.
gcode:
{% if printer.idle_timeout.state == "Idle" %}
PRINTER_OFF
{% endif %}
[exclude_object]
[include mainsail.cfg]
[include Orbitool_O2S.cfg]
[include Orbiter2_SmartSensor.cfg]
[include beacon3d.cfg]
#*# <---------------------- SAVE_CONFIG ---------------------->
#*# DO NOT EDIT THIS BLOCK OR BELOW. The contents are auto-generated.
#*#
#*# [beacon model default]
#*# model_coef = 1.4952403602340907,
#*# 1.8656605487245284,
#*# 0.7758837444105147,
#*# 0.2338499148883277,
#*# 0.2538302898654481,
#*# 0.359354056245091,
#*# -0.16099562977240284,
#*# -0.19513617935485192,
#*# 0.23115190966388482,
#*# 0.1423188524375016
#*# model_domain = 1.825441207876964e-07,1.928381480708496e-07
#*# model_range = 0.200000,5.000000
#*# model_temp = 32.414554
#*# model_offset = 0.00000
#*#
#*# [bed_mesh default]
#*# version = 1
#*# points =
#*# 0.040603, 0.060812, 0.077484, 0.063208, 0.035083
#*# 0.010789, 0.002650, 0.023569, 0.030275, 0.008437
#*# -0.005587, -0.017298, 0.006790, 0.008916, -0.006198
#*# 0.003364, -0.011489, 0.011971, 0.019618, 0.009951
#*# 0.032870, 0.026835, 0.051747, 0.059173, 0.034837
#*# x_count = 5
#*# y_count = 5
#*# mesh_x_pps = 2
#*# mesh_y_pps = 2
#*# algo = bicubic
#*# tension = 0.2
#*# min_x = 40.0
#*# max_x = 310.0
#*# min_y = 40.0
#*# max_y = 310.0
#*#
#*# [heater_bed]
#*# control = pid
#*# pid_kp = 40.680
#*# pid_ki = 1.349
#*# pid_kd = 306.625
#*#
#*# [extruder]
#*# control = pid
#*# pid_kp = 30.317
#*# pid_ki = 1.357
#*# pid_kd = 169.395
#*#
#*# [input_shaper]
#*# shaper_type_x = 3hump_ei
#*# shaper_freq_x = 80.8
#*# shaper_type_y = mzv
#*# shaper_freq_y = 37.0
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