bjensen · May 3, 2023 12:43
diff --git a/cfg b/cfg
 # This file contains pin mappings for the LDO Kit using BigTreeTech Octopus V1 as the main controller.
 # To use this config, the firmware should be compiled for the STM32F446 with a "32KiB bootloader"
 # Enable "extra low-level configuration options" and select the "12MHz crystal" as clock reference

 # after running "make", copy the generated "klipper/out/klipper.bin" file to a
 # file named "firmware.bin" on an SD card and then restart the Octopus with that SD card.

 # See docs/Config_Reference.md for a description of parameters.

 ## Voron Design VORON2 250/300/350mm BigTreeTech Octopus V1 TMC2209 UART config

 ## *** THINGS TO CHANGE/CHECK: ***
 ## MCU paths                            [mcu] section
 ## Thermistor types                     [extruder] and [heater_bed] sections - See 'sensor types' list at end of file
 ## 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
 ## Thermistor types                     [extruder] and [heater_bed] sections
 ## Probe pin                            [probe] section
 ## Fine tune E steps                    [extruder] section


 #[include Adaptive_Mesh.cfg]
 #[include Adaptive_Purge.cfg]

 [bed_mesh]
 speed: 300
 horizontal_move_z: 10

 ##	Uncomment for 300mm build
 mesh_min: 40, 40
 mesh_max: 260,260
 ##--------------------------------------------------------------------

 fade_start: 0.6
 fade_end: 10.0
 probe_count: 7,7
 algorithm: bicubic
 relative_reference_index: 12

 [mcu]
 ##  Obtain definition by "ls -l /dev/serial/by-id/" then unplug to verify
 ##--------------------------------------------------------------------
 serial: /dev/serial/by-id/usb-Klipper_stm32f446xx_240003000750314D35323820-if00
 restart_method: command
 ##--------------------------------------------------------------------

 [mcu rpi]
 serial: /tmp/klipper_host_mcu

 [exclude_object]

 [adxl345]
 cs_pin: rpi:None

 [resonance_tester]
 accel_chip: adxl345
 probe_points:
    150, 150, 20  # an example

 [include mainsail.cfg]
 [include stealthburner_leds.cfg]

 [printer]
 kinematics: corexy
 max_velocity: 500  
 max_accel: 10000
 max_z_velocity: 15          #Max 15 for 12V TMC Drivers, can increase for 24V
 max_z_accel: 350
 square_corner_velocity: 5.0

 #####################################################################
 #   X/Y Stepper Settings
 #####################################################################

 ##  B Stepper - Left
 ##  Connected to MOTOR0
 ##  Endstop connected to DIAG0
 [stepper_x]
 step_pin: PF13
 dir_pin: PF12
 enable_pin: !PF14
 rotation_distance: 40
 microsteps: 32
 full_steps_per_rotation:400  #set to 200 for 1.8 degree stepper
 endstop_pin: PG6
 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: 25   #Max 100
 homing_retract_dist: 5
 homing_positive_dir: true

 ##  Make sure to update below for your relevant driver (2208 or 2209)
 [tmc2209 stepper_x]
 uart_pin: PC4
 interpolate: false
 run_current: 0.8
 sense_resistor: 0.110
 stealthchop_threshold: 0

 ##  A Stepper - Right
 ##  Connected to MOTOR1
 ##  Endstop connected to DIAG1
 [stepper_y]
 step_pin: PG0
 dir_pin: PG1
 enable_pin: !PF15
 rotation_distance: 40
 microsteps: 32
 full_steps_per_rotation:400  #set to 200 for 1.8 degree stepper
 endstop_pin: PG9
 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: 25  #Max 100
 homing_retract_dist: 5
 homing_positive_dir: true

 ##  Make sure to update below for your relevant driver (2208 or 2209)
 [tmc2209 stepper_y]
 uart_pin: PD11
 interpolate: false
 run_current: 0.8
 sense_resistor: 0.110
 stealthchop_threshold: 0
 
 #####################################################################
 #   Z Stepper Settings
 #####################################################################

 ## Z0 Stepper - Front Left
 ##  Connected to MOTOR2_1
 ##  Endstop connected to DIAG_2
 [stepper_z]
 step_pin: PF11
 dir_pin: PG3
 enable_pin: !PG5
 rotation_distance: 40
 gear_ratio: 80:16
 microsteps: 32
 endstop_pin: PG10
 ##  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

 ##--------------------------------------------------------------------
 position_min: -10
 homing_speed: 8
 second_homing_speed: 3
 homing_retract_dist: 3

 ##  Make sure to update below for your relevant driver (2208 or 2209)
 [tmc2209 stepper_z]
 uart_pin: PC6
 interpolate: false
 run_current: 0.8
 sense_resistor: 0.110
 stealthchop_threshold: 999999

 ##  Z1 Stepper - Rear Left
 ##  Connected to MOTOR3
 [stepper_z1]
 step_pin: PG4
 dir_pin: !PC1
 enable_pin: !PA0
 rotation_distance: 40
 gear_ratio: 80:16
 microsteps: 32

 ##  Make sure to update below for your relevant driver (2208 or 2209)
 [tmc2209 stepper_z1]
 uart_pin: PC7
 interpolate: false
 run_current: 0.8
 sense_resistor: 0.110
 stealthchop_threshold: 999999

 ##  Z2 Stepper - Rear Right
 ##  Connected to MOTOR4
 [stepper_z2]
 step_pin: PF9
 dir_pin: PF10
 enable_pin: !PG2
 rotation_distance: 40
 gear_ratio: 80:16
 microsteps: 32

 ##  Make sure to update below for your relevant driver (2208 or 2209)
 [tmc2209 stepper_z2]
 uart_pin: PF2
 interpolate: false
 run_current: 0.8
 sense_resistor: 0.110
 stealthchop_threshold: 999999

 ##  Z3 Stepper - Front Right
 ##  Connected to MOTOR5
 [stepper_z3]
 step_pin: PC13
 dir_pin: !PF0
 enable_pin: !PF1
 rotation_distance: 40
 gear_ratio: 80:16
 microsteps: 32

 ##  Make sure to update below for your relevant driver (2208 or 2209)
 [tmc2209 stepper_z3]
 uart_pin: PE4
 interpolate: false
 run_current: 0.8
 sense_resistor: 0.110
 stealthchop_threshold: 999999


 #####################################################################
 #   Extruder
 #####################################################################

 ##  Connected to MOTOR_6
 ##  Heater - HE0
 ##  Thermistor - T0
 [extruder]
 step_pin: PE2
 dir_pin: !PE3
 enable_pin: !PD4
 ##  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
 ##  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: 50:10               #BMG Gear Ratio
 microsteps: 32
 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: PA1
 ##  Validate the following thermistor type to make sure it is correct
 ##  See https://www.klipper3d.org/Config_Reference.html#common-thermistors for additional options
 sensor_type: ATC Semitec 104NT-4-R025H42G
 sensor_pin: PF4
 min_temp: 0
 max_temp: 300
 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: 0.04
 ##  Default is 0.040, leave stock
 #pressure_advance_smooth_time: 0.040

 # from Ellis guide 
 max_extrude_only_distance: 101 

 ##  E0 on MOTOR6
 ##  Make sure to update below for your relevant driver (2208 or 2209)
 [tmc2209 extruder]
 uart_pin: PE1
 interpolate: false
 run_current: 0.6
 sense_resistor: 0.110
 stealthchop_threshold: 0


 #####################################################################
 #   Bed Heater
 #####################################################################

 [heater_bed]
 ##  SSR Pin - HE1
 ##  Thermistor - TB
 heater_pin: PA2
 ##  Validate the following thermistor type to make sure it is correct
 ##  Keenovo branded bed heaters should use Generic 3950
 ##  LDO branded bed heaters will have the sensor type labelled on the heater
 ##  See https://www.klipper3d.org/Config_Reference.html#common-thermistors for additional options
 sensor_type: Generic 3950 
 sensor_pin: PF3
 ##  Adjust Max Power so your heater doesn't warp your bed. Rule of thumb is 0.4 watts / cm^2 .
 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
 #####################################################################

 [probe]
 ##  Inductive Probe - DIAG7
 ##  This probe is not used for Z height, only Quad Gantry Leveling
 pin: PG15
 x_offset: 0
 y_offset: 25.0
 z_offset: 0
 speed: 10.0
 samples: 5
 samples_result: median
 sample_retract_dist: 3.0
 samples_tolerance: 0.010
 samples_tolerance_retries: 3

 #####################################################################
 #   Fan Control
 #####################################################################

 [fan]
 ##  Print Cooling Fan - CNC_FAN0
 pin: PA8
 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

 [heater_fan hotend_fan]
 ##  Hotend Fan - CNC_FAN1
 pin: PE5
 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

 [controller_fan controller_fan]
 ##  Controller fan - CNC_FAN2
 pin: PD12
 kick_start_time: 0.5
 heater: heater_bed
 fan_speed: 0.5

 # [heater_fan nevermore]
 # #  Exhaust fan - CNC_FAN3
 # pin: PD13
 # max_power: 1.0
 # shutdown_speed: 0.0
 # kick_start_time: 5.0
 # heater: heater_bed
 # heater_temp: 60
 # fan_speed: 1.0

 [output_pin nevermore]
 pin: PD13
 value: 0
 shutdown_value: 0

 #####################################################################
 #   LED Control
 #####################################################################

 [output_pin caselight]
 ## Chamber Lighting - CNC_FAN5
 pin: PD15
 pwm:true
 shutdown_value: 0
 value:0
 cycle_time: 0.01

 #####################################################################
 #   Additional Sensors
 #####################################################################

 [thermistor CMFB103F3950FANT]
 temperature1: 0.0
 resistance1: 32116.0
 temperature2: 40.0
 resistance2: 5309.0
 temperature3: 80.0
 resistance3: 1228.0

 [temperature_sensor chamber]
 ## Chamber Temperature - T1
 sensor_type: CMFB103F3950FANT
 sensor_pin: PF5
 min_temp: 0
 max_temp: 100
 gcode_id: chamber

 #####################################################################
 # 	Homing and Gantry Adjustment Routines
 #####################################################################

 [idle_timeout]
 timeout: 1800

 [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:207,300
 speed:100
 z_hop:10
 z_hop_speed:10

 [quad_gantry_level]
 ##  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

 #--------------------------------------------------------------------
 ##  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: 100
 horizontal_move_z: 10
 retries: 5
 retry_tolerance: 0.0075
 max_adjust: 10

 ########################################
 # EXP1 / EXP2 (display) pins
 ########################################

 [board_pins]
 aliases:
    # EXP1 header
    EXP1_1=PE8, EXP1_2=PE7,
    EXP1_3=PE9, EXP1_4=PE10,
    EXP1_5=PE12, EXP1_6=PE13,    # Slot in the socket on this side
    EXP1_7=PE14, EXP1_8=PE15,
    EXP1_9=<GND>, EXP1_10=<5V>,

    # EXP2 header
    EXP2_1=PA6, EXP2_2=PA5,
    EXP2_3=PB1, EXP2_4=PA4,
    EXP2_5=PB2, EXP2_6=PA7,      # Slot in the socket on this side
    EXP2_7=PC15, EXP2_8=<RST>,
    EXP2_9=<GND>, EXP2_10=<5V>

 #####################################################################
 #   Displays
 #####################################################################

 [display]
 #  mini12864 LCD Display
 lcd_type: uc1701
 cs_pin: EXP1_3
 a0_pin: EXP1_4
 rst_pin: EXP1_5
 encoder_pins: ^EXP2_5, ^EXP2_3
 click_pin: ^!EXP1_2
 contrast: 63
 spi_software_miso_pin: EXP2_1
 spi_software_mosi_pin: EXP2_6
 spi_software_sclk_pin: EXP2_2

 [neopixel btt_mini12864]
 #  To control Neopixel RGB in mini12864 display
 pin: EXP1_6
 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=btt_mini12864 RED=1 GREEN=1 BLUE=1 INDEX=1 TRANSMIT=0
        SET_LED LED=btt_mini12864 RED=1 GREEN=0 BLUE=0 INDEX=2 TRANSMIT=0
        SET_LED LED=btt_mini12864 RED=1 GREEN=0 BLUE=0 INDEX=3 

 #--------------------------------------------------------------------


 #####################################################################
 #   Macros
 #####################################################################

 [gcode_macro G32]
 gcode:
    G28
    QUAD_GANTRY_LEVEL
    G28
    ##  Uncomment for for your size printer:
    #--------------------------------------------------------------------
    ##  Uncomment for 250mm build
    #G0 X125 Y125 Z30 F3600
    
    #  Uncomment for 300 build
    G0 X150 Y150 Z30 F3600
    
    ##  Uncomment for 350mm build
    #G0 X175 Y175 Z30 F3600
    #--------------------------------------------------------------------
   
 #####################################################################
 #   print_start macro
 #####################################################################

 ## *** THINGS TO UNCOMMENT: ***
 ## Bed mesh (2 lines at 2 locations)
 ## Screw_tilt_adjust if your printer is a Trident
 ## Quad gantry level if your printer is a V2
 ## Nevermore - if you have one

 [gcode_macro PRINT_START]
 gcode:
  # This part fetches data from your slicer. Such as bed temp, extruder temp, chamber temp and size of your printer.
  {% set target_bed = params.BED|int %}
  {% set target_extruder = params.EXTRUDER|int %}
  {% set target_chamber = params.CHAMBER|default("51")|int %}
  {% set x_wait = printer.toolhead.axis_maximum.x|float / 2 %}
  {% set y_wait = printer.toolhead.axis_maximum.y|float / 2 %}

  # Homes the printer, sets absolute positioning and updates the Stealthburner leds.
  STATUS_HOMING         # Sets SB-leds to homing-mode
  G28                   # Full home (XYZ)
  G90                   # Absolut position

  ##  Uncomment for bed mesh (1 of 2)
  BED_MESH_CLEAR       # Clears old saved bed mesh (if any)

  # Checks if the bed temp is higher than 90c - if so then trigger a heatsoak.
  {% if params.BED|int > 90 %}
    SET_DISPLAY_TEXT MSG="Bed: {target_bed}c"           # Displays info
    STATUS_HEATING                                      # Sets SB-leds to heating-mode
    M106 S255                                           # Turns on the PT-fan

    ##  Uncomment if you have a Nevermore.
    SET_PIN PIN=nevermore VALUE=1                      # Turns on the nevermore

    G1 X{x_wait} Y{y_wait} Z15 F9000                    # Goes to center of the bed
    M190 S{target_bed}                                  # Sets the target temp for the bed
    SET_DISPLAY_TEXT MSG="Heatsoak: {target_chamber}c"  # Displays info
    TEMPERATURE_WAIT SENSOR="temperature_sensor chamber" MINIMUM={target_chamber}   # Waits for chamber to reach desired temp

  # If the bed temp is not over 90c, then it skips the heatsoak and just heats up to set temp with a 5min soak
  {% else %}
    SET_DISPLAY_TEXT MSG="Bed: {target_bed}c"           # Displays info
    STATUS_HEATING                                      # Sets SB-leds to heating-mode
    G1 X{x_wait} Y{y_wait} Z15 F9000                    # Goes to center of the bed
    M190 S{target_bed}                                  # Sets the target temp for the bed
    SET_DISPLAY_TEXT MSG="Soak for 5min"                # Displays info
    G4 P300000                                          # Waits 5 min for the bedtemp to stabilize
  {% endif %}

  # Heating nozzle to 150 degrees. This helps with getting a correct Z-home
  SET_DISPLAY_TEXT MSG="Hotend: 150c"          # Displays info
  M109 S150                                    # Heats the nozzle to 150c

  ##  Uncomment for V2 (Quad gantry level AKA QGL)
  SET_DISPLAY_TEXT MSG="QGL"      # Displays info
  STATUS_LEVELING                 # Sets SB-leds to leveling-mode
  quad_gantry_level               # Levels the buildplate via QGL
  G28 Z                           # Homes Z again after QGL

  ##  Uncomment for Klicky auto-z
  #CALIBRATE_Z                                 # Calibrates Z-offset with klicky
  #SET_DISPLAY_TEXT MSG="Z-offset"             # Displays info

  ##  Uncomment for bed mesh (2 of 2)
  SET_DISPLAY_TEXT MSG="Bed mesh"    # Displays info
  STATUS_MESHING                     # Sets SB-leds to bed mesh-mode
  bed_mesh_calibrate                 # Starts bed mesh

  # Heats up the nozzle up to target via data from slicer
  SET_DISPLAY_TEXT MSG="Hotend: {target_extruder}c"             # Displays info
  STATUS_HEATING                                                # Sets SB-leds to heating-mode
  G1 X{x_wait} Y{y_wait} Z15 F9000                              # Goes to center of the bed
  M107                                                          # Turns off partcooling fan
  M109 S{target_extruder}                                       # Heats the nozzle to printing temp

  # Gets ready to print by doing a purge line and updating the SB-leds
  SET_DISPLAY_TEXT MSG="Printer goes brr"          # Displays info
  STATUS_PRINTING                                  # Sets SB-leds to printing-mode
  G0 X{x_wait - 50} Y4 F10000                      # Moves to starting point
  G0 Z0.4                                          # Raises Z to 0.4
  G91                                              # Incremental positioning 
  G1 X100 E20 F1000                                # Purge line
  #ADAPTIVE_PURGE
  G90                                              # Absolut position

 [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
    
    M400                           ; wait for buffer to clear
    G92 E0                         ; zero the extruder
    G1 E-5.0 F1800                 ; retract filament
    
    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
    M107                                     ; turn off fan
    
    BED_MESH_CLEAR
    RESTORE_GCODE_STATE NAME=STATE_PRINT_END
    SET_PIN PIN=nevermore VALUE=0

 #*# <---------------------- SAVE_CONFIG ---------------------->
 #*# DO NOT EDIT THIS BLOCK OR BELOW. The contents are auto-generated.
 #*#
 #*# [heater_bed]
 #*# control = pid
 #*# pid_kp = 40.056
 #*# pid_ki = 1.492
 #*# pid_kd = 268.874
 #*#
 #*# [extruder]
 #*# control = pid
 #*# pid_kp = 34.896
 #*# pid_ki = 4.653
 #*# pid_kd = 65.431
 #*#
 #*# [stepper_z]
 #*# position_endstop = -1.470
 #*#
 #*# [input_shaper]
 #*# shaper_type_x = 2hump_ei
 #*# shaper_freq_x = 63.0
 #*# shaper_type_y = 2hump_ei
 #*# shaper_freq_y = 41.2
 #*#
 #*# [bed_mesh default]
 #*# version = 1
 #*# points =
 #*# 	0.077500, 0.057500, 0.067500, 0.077500, 0.078750
 #*# 	0.045000, 0.023750, 0.026250, 0.027500, 0.020000
 #*# 	0.025000, -0.003750, 0.000000, -0.005000, -0.015000
 #*# 	0.020000, -0.016250, -0.001250, -0.003750, -0.008750
 #*# 	0.087500, 0.051250, 0.063750, 0.066250, 0.066250
 #*# 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 = 260.0
 #*# min_y = 40.0
 #*# max_y = 260.0
	# This file contains pin mappings for the LDO Kit using BigTreeTech Octopus V1 as the main controller.
	# To use this config, the firmware should be compiled for the STM32F446 with a "32KiB bootloader"
	# Enable "extra low-level configuration options" and select the "12MHz crystal" as clock reference

	# after running "make", copy the generated "klipper/out/klipper.bin" file to a
	# file named "firmware.bin" on an SD card and then restart the Octopus with that SD card.

	# See docs/Config_Reference.md for a description of parameters.

	## Voron Design VORON2 250/300/350mm BigTreeTech Octopus V1 TMC2209 UART config

	## * THINGS TO CHANGE/CHECK: *
	## MCU paths [mcu] section
	## Thermistor types [extruder] and [heater_bed] sections - See 'sensor types' list at end of file
	## 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
	## Thermistor types [extruder] and [heater_bed] sections
	## Probe pin [probe] section
	## Fine tune E steps [extruder] section


	#[include Adaptive_Mesh.cfg]
	#[include Adaptive_Purge.cfg]

	[bed_mesh]
	speed: 300
	horizontal_move_z: 10

	## Uncomment for 300mm build
	mesh_min: 40, 40
	mesh_max: 260,260
	##--------------------------------------------------------------------

	fade_start: 0.6
	fade_end: 10.0
	probe_count: 7,7
	algorithm: bicubic
	relative_reference_index: 12

	[mcu]
	## Obtain definition by "ls -l /dev/serial/by-id/" then unplug to verify
	##--------------------------------------------------------------------
	serial: /dev/serial/by-id/usb-Klipper_stm32f446xx_240003000750314D35323820-if00
	restart_method: command
	##--------------------------------------------------------------------

	[mcu rpi]
	serial: /tmp/klipper_host_mcu

	[exclude_object]

	[adxl345]
	cs_pin: rpi:None

	[resonance_tester]
	accel_chip: adxl345
	probe_points:
	150, 150, 20 # an example

	[include mainsail.cfg]
	[include stealthburner_leds.cfg]

	[printer]
	kinematics: corexy
	max_velocity: 500
	max_accel: 10000
	max_z_velocity: 15 #Max 15 for 12V TMC Drivers, can increase for 24V
	max_z_accel: 350
	square_corner_velocity: 5.0

	#####################################################################
	# X/Y Stepper Settings
	#####################################################################

	## B Stepper - Left
	## Connected to MOTOR0
	## Endstop connected to DIAG0
	[stepper_x]
	step_pin: PF13
	dir_pin: PF12
	enable_pin: !PF14
	rotation_distance: 40
	microsteps: 32
	full_steps_per_rotation:400 #set to 200 for 1.8 degree stepper
	endstop_pin: PG6
	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: 25 #Max 100
	homing_retract_dist: 5
	homing_positive_dir: true

	## Make sure to update below for your relevant driver (2208 or 2209)
	[tmc2209 stepper_x]
	uart_pin: PC4
	interpolate: false
	run_current: 0.8
	sense_resistor: 0.110
	stealthchop_threshold: 0

	## A Stepper - Right
	## Connected to MOTOR1
	## Endstop connected to DIAG1
	[stepper_y]
	step_pin: PG0
	dir_pin: PG1
	enable_pin: !PF15
	rotation_distance: 40
	microsteps: 32
	full_steps_per_rotation:400 #set to 200 for 1.8 degree stepper
	endstop_pin: PG9
	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: 25 #Max 100
	homing_retract_dist: 5
	homing_positive_dir: true

	## Make sure to update below for your relevant driver (2208 or 2209)
	[tmc2209 stepper_y]
	uart_pin: PD11
	interpolate: false
	run_current: 0.8
	sense_resistor: 0.110
	stealthchop_threshold: 0

	#####################################################################
	# Z Stepper Settings
	#####################################################################

	## Z0 Stepper - Front Left
	## Connected to MOTOR2_1
	## Endstop connected to DIAG_2
	[stepper_z]
	step_pin: PF11
	dir_pin: PG3
	enable_pin: !PG5
	rotation_distance: 40
	gear_ratio: 80:16
	microsteps: 32
	endstop_pin: PG10
	## 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

	##--------------------------------------------------------------------
	position_min: -10
	homing_speed: 8
	second_homing_speed: 3
	homing_retract_dist: 3

	## Make sure to update below for your relevant driver (2208 or 2209)
	[tmc2209 stepper_z]
	uart_pin: PC6
	interpolate: false
	run_current: 0.8
	sense_resistor: 0.110
	stealthchop_threshold: 999999

	## Z1 Stepper - Rear Left
	## Connected to MOTOR3
	[stepper_z1]
	step_pin: PG4
	dir_pin: !PC1
	enable_pin: !PA0
	rotation_distance: 40
	gear_ratio: 80:16
	microsteps: 32

	## Make sure to update below for your relevant driver (2208 or 2209)
	[tmc2209 stepper_z1]
	uart_pin: PC7
	interpolate: false
	run_current: 0.8
	sense_resistor: 0.110
	stealthchop_threshold: 999999

	## Z2 Stepper - Rear Right
	## Connected to MOTOR4
	[stepper_z2]
	step_pin: PF9
	dir_pin: PF10
	enable_pin: !PG2
	rotation_distance: 40
	gear_ratio: 80:16
	microsteps: 32

	## Make sure to update below for your relevant driver (2208 or 2209)
	[tmc2209 stepper_z2]
	uart_pin: PF2
	interpolate: false
	run_current: 0.8
	sense_resistor: 0.110
	stealthchop_threshold: 999999

	## Z3 Stepper - Front Right
	## Connected to MOTOR5
	[stepper_z3]
	step_pin: PC13
	dir_pin: !PF0
	enable_pin: !PF1
	rotation_distance: 40
	gear_ratio: 80:16
	microsteps: 32

	## Make sure to update below for your relevant driver (2208 or 2209)
	[tmc2209 stepper_z3]
	uart_pin: PE4
	interpolate: false
	run_current: 0.8
	sense_resistor: 0.110
	stealthchop_threshold: 999999


	#####################################################################
	# Extruder
	#####################################################################

	## Connected to MOTOR_6
	## Heater - HE0
	## Thermistor - T0
	[extruder]
	step_pin: PE2
	dir_pin: !PE3
	enable_pin: !PD4
	## 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
	## 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: 50:10 #BMG Gear Ratio
	microsteps: 32
	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: PA1
	## Validate the following thermistor type to make sure it is correct
	## See https://www.klipper3d.org/Config_Reference.html#common-thermistors for additional options
	sensor_type: ATC Semitec 104NT-4-R025H42G
	sensor_pin: PF4
	min_temp: 0
	max_temp: 300
	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: 0.04
	## Default is 0.040, leave stock
	#pressure_advance_smooth_time: 0.040

	# from Ellis guide
	max_extrude_only_distance: 101

	## E0 on MOTOR6
	## Make sure to update below for your relevant driver (2208 or 2209)
	[tmc2209 extruder]
	uart_pin: PE1
	interpolate: false
	run_current: 0.6
	sense_resistor: 0.110
	stealthchop_threshold: 0


	#####################################################################
	# Bed Heater
	#####################################################################

	[heater_bed]
	## SSR Pin - HE1
	## Thermistor - TB
	heater_pin: PA2
	## Validate the following thermistor type to make sure it is correct
	## Keenovo branded bed heaters should use Generic 3950
	## LDO branded bed heaters will have the sensor type labelled on the heater
	## See https://www.klipper3d.org/Config_Reference.html#common-thermistors for additional options
	sensor_type: Generic 3950
	sensor_pin: PF3
	## Adjust Max Power so your heater doesn't warp your bed. Rule of thumb is 0.4 watts / cm^2 .
	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
	#####################################################################

	[probe]
	## Inductive Probe - DIAG7
	## This probe is not used for Z height, only Quad Gantry Leveling
	pin: PG15
	x_offset: 0
	y_offset: 25.0
	z_offset: 0
	speed: 10.0
	samples: 5
	samples_result: median
	sample_retract_dist: 3.0
	samples_tolerance: 0.010
	samples_tolerance_retries: 3

	#####################################################################
	# Fan Control
	#####################################################################

	[fan]
	## Print Cooling Fan - CNC_FAN0
	pin: PA8
	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

	[heater_fan hotend_fan]
	## Hotend Fan - CNC_FAN1
	pin: PE5
	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

	[controller_fan controller_fan]
	## Controller fan - CNC_FAN2
	pin: PD12
	kick_start_time: 0.5
	heater: heater_bed
	fan_speed: 0.5

	# [heater_fan nevermore]
	# # Exhaust fan - CNC_FAN3
	# pin: PD13
	# max_power: 1.0
	# shutdown_speed: 0.0
	# kick_start_time: 5.0
	# heater: heater_bed
	# heater_temp: 60
	# fan_speed: 1.0

	[output_pin nevermore]
	pin: PD13
	value: 0
	shutdown_value: 0

	#####################################################################
	# LED Control
	#####################################################################

	[output_pin caselight]
	## Chamber Lighting - CNC_FAN5
	pin: PD15
	pwm:true
	shutdown_value: 0
	value:0
	cycle_time: 0.01

	#####################################################################
	# Additional Sensors
	#####################################################################

	[thermistor CMFB103F3950FANT]
	temperature1: 0.0
	resistance1: 32116.0
	temperature2: 40.0
	resistance2: 5309.0
	temperature3: 80.0
	resistance3: 1228.0

	[temperature_sensor chamber]
	## Chamber Temperature - T1
	sensor_type: CMFB103F3950FANT
	sensor_pin: PF5
	min_temp: 0
	max_temp: 100
	gcode_id: chamber

	#####################################################################
	# Homing and Gantry Adjustment Routines
	#####################################################################

	[idle_timeout]
	timeout: 1800

	[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:207,300
	speed:100
	z_hop:10
	z_hop_speed:10

	[quad_gantry_level]
	## 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

	#--------------------------------------------------------------------
	## 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: 100
	horizontal_move_z: 10
	retries: 5
	retry_tolerance: 0.0075
	max_adjust: 10

	########################################
	# EXP1 / EXP2 (display) pins
	########################################

	[board_pins]
	aliases:
	# EXP1 header
	EXP1_1=PE8, EXP1_2=PE7,
	EXP1_3=PE9, EXP1_4=PE10,
	EXP1_5=PE12, EXP1_6=PE13, # Slot in the socket on this side
	EXP1_7=PE14, EXP1_8=PE15,
	EXP1_9=<GND>, EXP1_10=<5V>,

	# EXP2 header
	EXP2_1=PA6, EXP2_2=PA5,
	EXP2_3=PB1, EXP2_4=PA4,
	EXP2_5=PB2, EXP2_6=PA7, # Slot in the socket on this side
	EXP2_7=PC15, EXP2_8=<RST>,
	EXP2_9=<GND>, EXP2_10=<5V>

	#####################################################################
	# Displays
	#####################################################################

	[display]
	# mini12864 LCD Display
	lcd_type: uc1701
	cs_pin: EXP1_3
	a0_pin: EXP1_4
	rst_pin: EXP1_5
	encoder_pins: ^EXP2_5, ^EXP2_3
	click_pin: ^!EXP1_2
	contrast: 63
	spi_software_miso_pin: EXP2_1
	spi_software_mosi_pin: EXP2_6
	spi_software_sclk_pin: EXP2_2

	[neopixel btt_mini12864]
	# To control Neopixel RGB in mini12864 display
	pin: EXP1_6
	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=btt_mini12864 RED=1 GREEN=1 BLUE=1 INDEX=1 TRANSMIT=0
	SET_LED LED=btt_mini12864 RED=1 GREEN=0 BLUE=0 INDEX=2 TRANSMIT=0
	SET_LED LED=btt_mini12864 RED=1 GREEN=0 BLUE=0 INDEX=3

	#--------------------------------------------------------------------


	#####################################################################
	# Macros
	#####################################################################

	[gcode_macro G32]
	gcode:
	G28
	QUAD_GANTRY_LEVEL
	G28
	## Uncomment for for your size printer:
	#--------------------------------------------------------------------
	## Uncomment for 250mm build
	#G0 X125 Y125 Z30 F3600

	# Uncomment for 300 build
	G0 X150 Y150 Z30 F3600

	## Uncomment for 350mm build
	#G0 X175 Y175 Z30 F3600
	#--------------------------------------------------------------------

	#####################################################################
	# print_start macro
	#####################################################################

	## * THINGS TO UNCOMMENT: *
	## Bed mesh (2 lines at 2 locations)
	## Screw_tilt_adjust if your printer is a Trident
	## Quad gantry level if your printer is a V2
	## Nevermore - if you have one

	[gcode_macro PRINT_START]
	gcode:
	# This part fetches data from your slicer. Such as bed temp, extruder temp, chamber temp and size of your printer.
	{% set target_bed = params.BED\|int %}
	{% set target_extruder = params.EXTRUDER\|int %}
	{% set target_chamber = params.CHAMBER\|default("51")\|int %}
	{% set x_wait = printer.toolhead.axis_maximum.x\|float / 2 %}
	{% set y_wait = printer.toolhead.axis_maximum.y\|float / 2 %}

	# Homes the printer, sets absolute positioning and updates the Stealthburner leds.
	STATUS_HOMING # Sets SB-leds to homing-mode
	G28 # Full home (XYZ)
	G90 # Absolut position

	## Uncomment for bed mesh (1 of 2)
	BED_MESH_CLEAR # Clears old saved bed mesh (if any)

	# Checks if the bed temp is higher than 90c - if so then trigger a heatsoak.
	{% if params.BED\|int > 90 %}
	SET_DISPLAY_TEXT MSG="Bed: {target_bed}c" # Displays info
	STATUS_HEATING # Sets SB-leds to heating-mode
	M106 S255 # Turns on the PT-fan

	## Uncomment if you have a Nevermore.
	SET_PIN PIN=nevermore VALUE=1 # Turns on the nevermore

	G1 X{x_wait} Y{y_wait} Z15 F9000 # Goes to center of the bed
	M190 S{target_bed} # Sets the target temp for the bed
	SET_DISPLAY_TEXT MSG="Heatsoak: {target_chamber}c" # Displays info
	TEMPERATURE_WAIT SENSOR="temperature_sensor chamber" MINIMUM={target_chamber} # Waits for chamber to reach desired temp

	# If the bed temp is not over 90c, then it skips the heatsoak and just heats up to set temp with a 5min soak
	{% else %}
	SET_DISPLAY_TEXT MSG="Bed: {target_bed}c" # Displays info
	STATUS_HEATING # Sets SB-leds to heating-mode
	G1 X{x_wait} Y{y_wait} Z15 F9000 # Goes to center of the bed
	M190 S{target_bed} # Sets the target temp for the bed
	SET_DISPLAY_TEXT MSG="Soak for 5min" # Displays info
	G4 P300000 # Waits 5 min for the bedtemp to stabilize
	{% endif %}

	# Heating nozzle to 150 degrees. This helps with getting a correct Z-home
	SET_DISPLAY_TEXT MSG="Hotend: 150c" # Displays info
	M109 S150 # Heats the nozzle to 150c

	## Uncomment for V2 (Quad gantry level AKA QGL)
	SET_DISPLAY_TEXT MSG="QGL" # Displays info
	STATUS_LEVELING # Sets SB-leds to leveling-mode
	quad_gantry_level # Levels the buildplate via QGL
	G28 Z # Homes Z again after QGL

	## Uncomment for Klicky auto-z
	#CALIBRATE_Z # Calibrates Z-offset with klicky
	#SET_DISPLAY_TEXT MSG="Z-offset" # Displays info

	## Uncomment for bed mesh (2 of 2)
	SET_DISPLAY_TEXT MSG="Bed mesh" # Displays info
	STATUS_MESHING # Sets SB-leds to bed mesh-mode
	bed_mesh_calibrate # Starts bed mesh

	# Heats up the nozzle up to target via data from slicer
	SET_DISPLAY_TEXT MSG="Hotend: {target_extruder}c" # Displays info
	STATUS_HEATING # Sets SB-leds to heating-mode
	G1 X{x_wait} Y{y_wait} Z15 F9000 # Goes to center of the bed
	M107 # Turns off partcooling fan
	M109 S{target_extruder} # Heats the nozzle to printing temp

	# Gets ready to print by doing a purge line and updating the SB-leds
	SET_DISPLAY_TEXT MSG="Printer goes brr" # Displays info
	STATUS_PRINTING # Sets SB-leds to printing-mode
	G0 X{x_wait - 50} Y4 F10000 # Moves to starting point
	G0 Z0.4 # Raises Z to 0.4
	G91 # Incremental positioning
	G1 X100 E20 F1000 # Purge line
	#ADAPTIVE_PURGE
	G90 # Absolut position

	[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

	M400 ; wait for buffer to clear
	G92 E0 ; zero the extruder
	G1 E-5.0 F1800 ; retract filament

	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
	M107 ; turn off fan

	BED_MESH_CLEAR
	RESTORE_GCODE_STATE NAME=STATE_PRINT_END
	SET_PIN PIN=nevermore VALUE=0

	#*# <---------------------- SAVE_CONFIG ---------------------->
	#*# DO NOT EDIT THIS BLOCK OR BELOW. The contents are auto-generated.
	#*#
	#*# [heater_bed]
	#*# control = pid
	#*# pid_kp = 40.056
	#*# pid_ki = 1.492
	#*# pid_kd = 268.874
	#*#
	#*# [extruder]
	#*# control = pid
	#*# pid_kp = 34.896
	#*# pid_ki = 4.653
	#*# pid_kd = 65.431
	#*#
	#*# [stepper_z]
	#*# position_endstop = -1.470
	#*#
	#*# [input_shaper]
	#*# shaper_type_x = 2hump_ei
	#*# shaper_freq_x = 63.0
	#*# shaper_type_y = 2hump_ei
	#*# shaper_freq_y = 41.2
	#*#
	#*# [bed_mesh default]
	#*# version = 1
	#*# points =
	#*# 0.077500, 0.057500, 0.067500, 0.077500, 0.078750
	#*# 0.045000, 0.023750, 0.026250, 0.027500, 0.020000
	#*# 0.025000, -0.003750, 0.000000, -0.005000, -0.015000
	#*# 0.020000, -0.016250, -0.001250, -0.003750, -0.008750
	#*# 0.087500, 0.051250, 0.063750, 0.066250, 0.066250
	#*# 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 = 260.0
	#*# min_y = 40.0
	#*# max_y = 260.0