Move out of range: 209.000 -3.000 0.200 [0.000]

Basic Information:

Voron 2.4
MCU / stm32f446xx
klippy.log

Describe your issue:

Hi All,
I’m getting this error:
Move out of range: 209.000 -3.000 0.200 [0.000]
When I hit the Upload & Print button in Mainsail the printer goes through the regular routine of heating up the bed as well as the extruder. Then homes as usual. After it homes the above error displays. I’m not sure what i have done. Any help would be much appreciated.

Thanks in advance!

# This file contains common pin mappings for the BigTreeTech Octopus V1.
# 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 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
## Probe pin                            [probe] section
## Fine tune E steps                    [extruder] section

## Mainsail settings
[include mainsail.cfg]

[mcu rpi]
serial: /tmp/klipper_host_mcu

[adxl345]
cs_pin: rpi:None

[resonance_tester]
accel_chip: adxl345
probe_points:
    100, 100, 20  # an example

[mcu]
##  Obtain definition by "ls -l /dev/serial/by-id/" then unplug to verify
##--------------------------------------------------------------------
serial: /dev/serial/by-id/usb-Klipper_stm32f446xx_3E0044000750314D35323820-if00
restart_method: command
##--------------------------------------------------------------------

[input_shaper]
shaper_freq_x: 62
shaper_type_x: mzv
shaper_freq_y: 42
shaper_type_y: mzv

[printer]
kinematics: corexy
max_velocity: 300  
max_accel: 10000             #Max 4000
max_accel_to_decel: 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 MOTOR_0
##  Endstop connected to DIAG_0
[stepper_x]
step_pin: PF13
dir_pin: PF12
enable_pin: !PF14
rotation_distance: 40
microsteps: 32
full_steps_per_rotation:200  #set to 400 for 0.9 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: 100   #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 MOTOR_1
##  Endstop connected to DIAG_1
[stepper_y]
step_pin: PG0
dir_pin: PG1
enable_pin: !PF15
rotation_distance: 40
microsteps: 32
full_steps_per_rotation:200  #set to 400 for 0.9 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: 100  #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 MOTOR_2
##  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: -5
homing_speed: 25
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: 0

##  Z1 Stepper - Rear Left
##  Connected to MOTOR_3
[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: 0

##  Z2 Stepper - Rear Right
##  Connected to MOTOR_4
[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: 0

##  Z3 Stepper - Front Right
##  Connected to MOTOR_5
[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: 0


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


[extruder]
step_pin: PE2
dir_pin: PE3
enable_pin: !PD4
rotation_distance: 20.0057  #Bondtech 5mm Drive Gears
gear_ratio: 50:10               #BMG Gear Ratio
microsteps: 16
full_steps_per_rotation: 400    #200 for 1.8 degree, 400 for 0.9 degree
nozzle_diameter: 0.600
filament_diameter: 1.75
heater_pin: PA2
sensor_type:Generic 3950
sensor_pin: PF4
min_temp: 10
max_temp: 300
max_power: 1.0
min_extrude_temp: 170
# [extruder]
# control = pid
# pid_kp = 24.514
# pid_ki = 1.329
# pid_kd = 113.073


#control = pid
#pid_kp = 24.514
#pid_ki = 1.329
#pid_kd = 113.073
#  Try to keep pressure_advance below 1.0
pressure_advance: 0.025
#  Default is 0.040, leave stock
pressure_advance_smooth_time: 0.040

##  E0 on MOTOR6
##  Make sure to update below for your relevant driver (2208 or 2209)
[tmc2209 extruder]
uart_pin: PE1
interpolate: false
run_current: 0.5
sense_resistor: 0.110
stealthchop_threshold: 0

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

##  SSR Pin - HE1
##  Thermistor - TB
[heater_bed]
##  Uncomment the following line if using the default SSR wiring from the docs site
heater_pin: PA3
##  Other wiring guides may use BED_OUT to control the SSR. Uncomment the following line for those cases
#heater_pin: PA1
## 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: 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
#####################################################################

##  Inductive Probe
##  This probe is not used for Z height, only Quad Gantry Leveling
[probe]

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

## Select the probe port by type:
## For the PROBE port. Will not work with Diode. May need pull-up resistor from signal to 24V.
#pin: ~!PB7
## For the DIAG_7 port. NEEDS BAT85 DIODE! Change to !PG15 if probe is NO.
pin: ~PG15
## For Octopus Pro PROBE port; NPN and PNP proximity switch types can be set by jumper
#pin: ~!PC5

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

x_offset: 1
y_offset: 0
z_offset: 1.60
speed: 10.0
samples: 3
samples_result: median
sample_retract_dist: 3.0
samples_tolerance: 0.006
samples_tolerance_retries: 3

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

##  Print Cooling Fan - FAN0
[fan]
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


##  Hotend Fan - FAN1
[heater_fan hotend_fan]
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 - FAN2
[controller_fan controller_fan]
pin: PD12
kick_start_time: 0.5
heater: heater_bed

##  Exhaust fan - FAN3
#[heater_fan exhaust_fan]
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

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

[neopixel panel_ring]
pin:                     PB0
chain_count:             3
#initial_RED:             1.0
#initial_GREEN:           1.0
#initial_BLUE:            1.0
#initial_WHITE:           1.0
color_order:             GRBW

## Chamber Lighting - HE2 Connector (Optional)
#[output_pin caselight]
#pin: PB10
#pwm:true
#shutdown_value: 0
#value:1
#cycle_time: 0.01

#####################################################################
#   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: 209, 300
speed:100
z_hop: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: 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
#####################################################################

##  Uncomment the display that you have
#--------------------------------------------------------------------


##  RepRapDiscount 128x64 Full Graphic Smart Controller
#[display]
#lcd_type: st7920
#cs_pin: EXP1_4
#sclk_pin: EXP1_5
#sid_pin: EXP1_3
#menu_timeout: 40
#encoder_pins: ^EXP2_5, ^EXP2_3
#click_pin: ^!EXP1_2

#[output_pin beeper]
#pin: EXP1_1

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


##  mini12864 LCD Display
#[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

##  To control Neopixel RGB in mini12864 display
#[neopixel btt_mini12864]
#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:
    SAVE_GCODE_STATE NAME=STATE_G32
    G90
    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
    #--------------------------------------------------------------------
    RESTORE_GCODE_STATE NAME=STATE_G32


#   Use PRINT_START for the slicer starting script - please customise for your slicer of choice
[gcode_macro PRINT_START]
gcode:
    G32                            ; home all axes
    G90                            ; absolute positioning
    G1 Z20 F3000                   ; move nozzle away from bed
   

#   Use PRINT_END for the slicer ending script - please customise for your slicer of choice
[gcode_macro PRINT_END]
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

#*# <---------------------- SAVE_CONFIG ---------------------->
#*# DO NOT EDIT THIS BLOCK OR BELOW. The contents are auto-generated.
#*#
#*# [heater_bed]
#*# control = pid
#*# pid_kp = 38.863
#*# pid_ki = 1.416
#*# pid_kd = 266.695
#*#
#*# [extruder]
#*# control = pid
#*# pid_kp = 32.324
#*# pid_ki = 2.014
#*# pid_kd = 129.702
#*#
#*# [probe]
#*# z_offset = 1.600
#*#
#*# [stepper_z]

Can you please share the klippy.log (here as file in your next post)

	RESTORE_GCODE_STATE NAME=STATE_PRINT_END
=======================
Extruder max_extrude_ratio=0.598682
mcu 'mcu': Starting serial connect
mcu 'mcu': Unable to open serial port: [Errno 2] could not open port /dev/serial/by-id/usb-Klipper_stm32f446xx_3E0044000750314D35323820-if00: [Errno 2] No such file or directory: '/dev/serial/by-id/usb-Klipper_stm32f446xx_3E0044000750314D35323820-if00'
webhooks client 3039607848: New connection
webhooks client 3039607848: Client info {'program': 'Moonraker', 'version': 'v0.7.1-868-g0de712e8'}
Loaded MCU 'mcu' 105 commands (v0.11.0-86-g6026a99a / gcc: (15:8-2019-q3-1+b1) 8.3.1 20190703 (release) [gcc-8-branch revision 273027] binutils: (2.34-4+rpi1+14) 2.34)
MCU 'mcu' config: ADC_MAX=4095 BUS_PINS_i2c1=PB6,PB7 BUS_PINS_i2c1a=PB8,PB9 BUS_PINS_i2c2=PB10,PB11 BUS_PINS_i2c3=PA8,PC9 BUS_PINS_spi1=PA6,PA7,PA5 BUS_PINS_spi1a=PB4,PB5,PB3 BUS_PINS_spi2=PB14,PB15,PB13 BUS_PINS_spi2a=PC2,PC3,PB10 BUS_PINS_spi3=PB4,PB5,PB3 BUS_PINS_spi3a=PC11,PC12,PC10 BUS_PINS_spi4=PE13,PE14,PE12 CLOCK_FREQ=180000000 MCU=stm32f446xx PWM_MAX=255 RESERVE_PINS_USB=PA11,PA12 RESERVE_PINS_crystal=PH0,PH1 STATS_SUMSQ_BASE=256 STEPPER_BOTH_EDGE=1
mcu 'rpi': Starting connect
Loaded MCU 'rpi' 111 commands (v0.11.0-87-g0407c24c / gcc: (Raspbian 10.2.1-6+rpi1) 10.2.1 20210110 binutils: (GNU Binutils for Raspbian) 2.35.2)
MCU 'rpi' config: ADC_MAX=4095 CLOCK_FREQ=50000000 MCU=linux PCA9685_MAX=4096 PWM_MAX=32768 STATS_SUMSQ_BASE=256
Sending MCU 'mcu' printer configuration...
Configured MCU 'mcu' (1024 moves)
Sending MCU 'rpi' printer configuration...
Configured MCU 'rpi' (1024 moves)
Starting heater checks for heater_bed
Starting heater checks for extruder
Stats 3028.6: gcodein=0  mcu: mcu_awake=0.000 mcu_task_avg=0.000000 mcu_task_stddev=0.000000 bytes_write=3161 bytes_read=6418 bytes_retransmit=9 bytes_invalid=0 send_seq=262 receive_seq=262 retransmit_seq=2 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=180013691 rpi: mcu_awake=0.000 mcu_task_avg=0.000000 mcu_task_stddev=0.000000 bytes_write=826 bytes_read=4443 bytes_retransmit=0 bytes_invalid=0 send_seq=112 receive_seq=112 retransmit_seq=0 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=50001339 adj=49994349  heater_bed: target=0 temp=0.0 pwm=0.000 sysload=0.06 cputime=113.262 memavail=3447356 print_time=0.010 buffer_time=0.000 print_stall=0 extruder: target=0 temp=0.0 pwm=0.000
webhooks: registering remote method 'shutdown_machine' for connection id: 3039607848
webhooks: registering remote method 'reboot_machine' for connection id: 3039607848
webhooks: registering remote method 'pause_job_queue' for connection id: 3039607848
webhooks: registering remote method 'start_job_queue' for connection id: 3039607848
Stats 3029.6: gcodein=0  mcu: mcu_awake=0.000 mcu_task_avg=0.000000 mcu_task_stddev=0.000000 bytes_write=3167 bytes_read=6494 bytes_retransmit=9 bytes_invalid=0 send_seq=263 receive_seq=263 retransmit_seq=2 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=180004463 rpi: mcu_awake=0.000 mcu_task_avg=0.000000 mcu_task_stddev=0.000000 bytes_write=832 bytes_read=4459 bytes_retransmit=0 bytes_invalid=0 send_seq=113 receive_seq=113 retransmit_seq=0 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=49998201 adj=49998742  heater_bed: target=0 temp=40.8 pwm=0.000 sysload=0.06 cputime=113.290 memavail=3446356 print_time=0.010 buffer_time=0.000 print_stall=0 extruder: target=0 temp=100.9 pwm=0.000
Stats 3030.6: gcodein=0  mcu: mcu_awake=0.000 mcu_task_avg=0.000000 mcu_task_stddev=0.000000 bytes_write=3189 bytes_read=6605 bytes_retransmit=9 bytes_invalid=0 send_seq=265 receive_seq=265 retransmit_seq=2 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=180002370 rpi: mcu_awake=0.000 mcu_task_avg=0.000000 mcu_task_stddev=0.000000 bytes_write=838 bytes_read=4475 bytes_retransmit=0 bytes_invalid=0 send_seq=114 receive_seq=114 retransmit_seq=0 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=49999249 adj=49998089  heater_bed: target=0 temp=40.8 pwm=0.000 sysload=0.06 cputime=113.319 memavail=3445760 print_time=0.010 buffer_time=0.000 print_stall=0 extruder: target=0 temp=100.7 pwm=0.000
Stats 3031.6: gcodein=0  mcu: mcu_awake=0.000 mcu_task_avg=0.000000 mcu_task_stddev=0.000000 bytes_write=3195 bytes_read=6726 bytes_retransmit=9 bytes_invalid=0 send_seq=266 receive_seq=266 retransmit_seq=2 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=180001556 rpi: mcu_awake=0.006 mcu_task_avg=0.000040 mcu_task_stddev=0.000030 bytes_write=844 bytes_read=4506 bytes_retransmit=0 bytes_invalid=0 send_seq=115 receive_seq=115 retransmit_seq=0 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=49999522 adj=50000651  heater_bed: target=0 temp=40.8 pwm=0.000 sysload=0.06 cputime=113.336 memavail=3447524 print_time=0.010 buffer_time=0.000 print_stall=0 extruder: target=0 temp=100.4 pwm=0.000
Stats 3032.6: gcodein=0  mcu: mcu_awake=0.007 mcu_task_avg=0.000008 mcu_task_stddev=0.000008 bytes_write=3201 bytes_read=6862 bytes_retransmit=9 bytes_invalid=0 send_seq=267 receive_seq=267 retransmit_seq=2 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=180000976 rpi: mcu_awake=0.006 mcu_task_avg=0.000040 mcu_task_stddev=0.000030 bytes_write=850 bytes_read=4522 bytes_retransmit=0 bytes_invalid=0 send_seq=116 receive_seq=116 retransmit_seq=0 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=49999627 adj=50001133  heater_bed: target=0 temp=40.8 pwm=0.000 sysload=0.06 cputime=113.353 memavail=3447524 print_time=0.010 buffer_time=0.000 print_stall=0 extruder: target=0 temp=100.1 pwm=0.000
Stats 3033.6: gcodein=0  mcu: mcu_awake=0.007 mcu_task_avg=0.000008 mcu_task_stddev=0.000008 bytes_write=3207 bytes_read=6968 bytes_retransmit=9 bytes_invalid=0 send_seq=268 receive_seq=268 retransmit_seq=2 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=180000894 rpi: mcu_awake=0.006 mcu_task_avg=0.000040 mcu_task_stddev=0.000030 bytes_write=856 bytes_read=4538 bytes_retransmit=0 bytes_invalid=0 send_seq=117 receive_seq=117 retransmit_seq=0 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=49999691 adj=50001223  heater_bed: target=0 temp=40.8 pwm=0.000 sysload=0.06 cputime=113.369 memavail=3449540 print_time=0.010 buffer_time=0.000 print_stall=0 extruder: target=0 temp=99.8 pwm=0.000
Stats 3034.6: gcodein=0  mcu: mcu_awake=0.007 mcu_task_avg=0.000008 mcu_task_stddev=0.000008 bytes_write=3213 bytes_read=7089 bytes_retransmit=9 bytes_invalid=0 send_seq=269 receive_seq=269 retransmit_seq=2 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=180000675 rpi: mcu_awake=0.006 mcu_task_avg=0.000040 mcu_task_stddev=0.000030 bytes_write=862 bytes_read=4554 bytes_retransmit=0 bytes_invalid=0 send_seq=118 receive_seq=118 retransmit_seq=0 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=49999631 adj=50000968  heater_bed: target=0 temp=40.7 pwm=0.000 sysload=0.06 cputime=113.385 memavail=3449540 print_time=0.010 buffer_time=0.000 print_stall=0 extruder: target=0 temp=99.4 pwm=0.000
Stats 3035.6: gcodein=0  mcu: mcu_awake=0.007 mcu_task_avg=0.000008 mcu_task_stddev=0.000008 bytes_write=3219 bytes_read=7210 bytes_retransmit=9 bytes_invalid=0 send_seq=270 receive_seq=270 retransmit_seq=2 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=180000500 rpi: mcu_awake=0.006 mcu_task_avg=0.000040 mcu_task_stddev=0.000030 bytes_write=868 bytes_read=4570 bytes_retransmit=0 bytes_invalid=0 send_seq=119 receive_seq=119 retransmit_seq=0 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=49999573 adj=50000594  heater_bed: target=0 temp=40.7 pwm=0.000 sysload=0.06 cputime=113.401 memavail=3449540 print_time=0.010 buffer_time=0.000 print_stall=0 extruder: target=0 temp=98.9 pwm=0.000
Stats 3036.6: gcodein=0  mcu: mcu_awake=0.007 mcu_task_avg=0.000008 mcu_task_stddev=0.000008 bytes_write=3225 bytes_read=7316 bytes_retransmit=9 bytes_invalid=0 send_seq=271 receive_seq=271 retransmit_seq=2 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=180000423 rpi: mcu_awake=0.001 mcu_task_avg=0.000010 mcu_task_stddev=0.000015 bytes_write=874 bytes_read=4599 bytes_retransmit=0 bytes_invalid=0 send_seq=120 receive_seq=120 retransmit_seq=0 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=49999537 adj=50000287  heater_bed: target=0 temp=40.7 pwm=0.000 sysload=0.05 cputime=113.417 memavail=3449296 print_time=0.010 buffer_time=0.000 print_stall=0 extruder: target=0 temp=98.6 pwm=0.000
Stats 3037.6: gcodein=0  mcu: mcu_awake=0.001 mcu_task_avg=0.000005 mcu_task_stddev=0.000004 bytes_write=3231 bytes_read=7451 bytes_retransmit=9 bytes_invalid=0 send_seq=272 receive_seq=272 retransmit_seq=2 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=180000383 rpi: mcu_awake=0.001 mcu_task_avg=0.000010 mcu_task_stddev=0.000015 bytes_write=880 bytes_read=4615 bytes_retransmit=0 bytes_invalid=0 send_seq=121 receive_seq=121 retransmit_seq=0 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=49999501 adj=50000028  heater_bed: target=0 temp=40.7 pwm=0.000 sysload=0.05 cputime=113.434 memavail=3449296 print_time=0.010 buffer_time=0.000 print_stall=0 extruder: target=0 temp=98.2 pwm=0.000
Stats 3038.6: gcodein=0  mcu: mcu_awake=0.001 mcu_task_avg=0.000005 mcu_task_stddev=0.000004 bytes_write=3237 bytes_read=7572 bytes_retransmit=9 bytes_invalid=0 send_seq=273 receive_seq=273 retransmit_seq=2 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=180000381 rpi: mcu_awake=0.001 mcu_task_avg=0.000010 mcu_task_stddev=0.000015 bytes_write=886 bytes_read=4631 bytes_retransmit=0 bytes_invalid=0 send_seq=122 receive_seq=122 retransmit_seq=0 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=49999485 adj=49999794  heater_bed: target=0 temp=40.6 pwm=0.000 sysload=0.05 cputime=113.451 memavail=3449296 print_time=0.010 buffer_time=0.000 print_stall=0 extruder: target=0 temp=97.6 pwm=0.000
Stats 3039.6: gcodein=0  mcu: mcu_awake=0.001 mcu_task_avg=0.000005 mcu_task_stddev=0.000004 bytes_write=3243 bytes_read=7678 bytes_retransmit=9 bytes_invalid=0 send_seq=274 receive_seq=274 retransmit_seq=2 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=180000523 rpi: mcu_awake=0.001 mcu_task_avg=0.000010 mcu_task_stddev=0.000015 bytes_write=892 bytes_read=4647 bytes_retransmit=0 bytes_invalid=0 send_seq=123 receive_seq=123 retransmit_seq=0 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=49999461 adj=49999642  heater_bed: target=0 temp=40.6 pwm=0.000 sysload=0.05 cputime=113.467 memavail=3449296 print_time=0.010 buffer_time=0.000 print_stall=0 extruder: target=0 temp=97.2 pwm=0.000
Stats 3040.6: gcodein=0  mcu: mcu_awake=0.001 mcu_task_avg=0.000005 mcu_task_stddev=0.000004 bytes_write=3249 bytes_read=7799 bytes_retransmit=9 bytes_invalid=0 send_seq=275 receive_seq=275 retransmit_seq=2 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=180000519 rpi: mcu_awake=0.001 mcu_task_avg=0.000010 mcu_task_stddev=0.000015 bytes_write=898 bytes_read=4663 bytes_retransmit=0 bytes_invalid=0 send_seq=124 receive_seq=124 retransmit_seq=0 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=49999464 adj=49999331  heater_bed: target=0 temp=40.6 pwm=0.000 sysload=0.05 cputime=113.485 memavail=3449300 print_time=0.010 buffer_time=0.000 print_stall=0 extruder: target=0 temp=96.8 pwm=0.000
Stats 3041.6: gcodein=0  mcu: mcu_awake=0.001 mcu_task_avg=0.000005 mcu_task_stddev=0.000004 bytes_write=3255 bytes_read=7920 bytes_retransmit=9 bytes_invalid=0 send_seq=276 receive_seq=276 retransmit_seq=2 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=180000730 rpi: mcu_awake=0.001 mcu_task_avg=0.000010 mcu_task_stddev=0.000015 bytes_write=904 bytes_read=4692 bytes_retransmit=0 bytes_invalid=0 send_seq=125 receive_seq=125 retransmit_seq=0 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=49999480 adj=49999343  heater_bed: target=0 temp=40.6 pwm=0.000 sysload=0.05 cputime=113.501 memavail=3448716 print_time=0.010 buffer_time=0.000 print_stall=0 extruder: target=0 temp=96.3 pwm=0.000
Stats 3042.6: gcodein=0  mcu: mcu_awake=0.001 mcu_task_avg=0.000005 mcu_task_stddev=0.000004 bytes_write=3261 bytes_read=8040 bytes_retransmit=9 bytes_invalid=0 send_seq=277 receive_seq=277 retransmit_seq=2 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=180000624 rpi: mcu_awake=0.001 mcu_task_avg=0.000010 mcu_task_stddev=0.000015 bytes_write=910 bytes_read=4708 bytes_retransmit=0 bytes_invalid=0 send_seq=126 receive_seq=126 retransmit_seq=0 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=49999401 adj=49999154  heater_bed: target=0 temp=40.6 pwm=0.000 sysload=0.05 cputime=113.512 memavail=3448808 print_time=0.010 buffer_time=0.000 print_stall=0 extruder: target=0 temp=95.9 pwm=0.000
Stats 3043.6: gcodein=0  mcu: mcu_awake=0.001 mcu_task_avg=0.000005 mcu_task_stddev=0.000004 bytes_write=3267 bytes_read=8161 bytes_retransmit=9 bytes_invalid=0 send_seq=278 receive_seq=278 retransmit_seq=2 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=180000547 rpi: mcu_awake=0.001 mcu_task_avg=0.000010 mcu_task_stddev=0.000015 bytes_write=916 bytes_read=4724 bytes_retransmit=0 bytes_invalid=0 send_seq=127 receive_seq=127 retransmit_seq=0 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=49999394 adj=49999071  heater_bed: target=0 temp=40.5 pwm=0.000 sysload=0.05 cputime=113.529 memavail=3448808 print_time=0.010 buffer_time=0.000 print_stall=0 extruder: target=0 temp=95.5 pwm=0.000
Stats 3044.6: gcodein=0  mcu: mcu_awake=0.001 mcu_task_avg=0.000005 mcu_task_stddev=0.000004 bytes_write=3273 bytes_read=8282 bytes_retransmit=9 bytes_invalid=0 send_seq=279 receive_seq=279 retransmit_seq=2 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=180000493 rpi: mcu_awake=0.001 mcu_task_avg=0.000010 mcu_task_stddev=0.000015 bytes_write=922 bytes_read=4740 bytes_retransmit=0 bytes_invalid=0 send_seq=128 receive_seq=128 retransmit_seq=0 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=49999390 adj=49999175  heater_bed: target=0 temp=40.5 pwm=0.000 sysload=0.05 cputime=113.545 memavail=3448808 print_time=0.010 buffer_time=0.000 print_stall=0 extruder: target=0 temp=95.0 pwm=0.000
Stats 3045.6: gcodein=0  mcu: mcu_awake=0.001 mcu_task_avg=0.000005 mcu_task_stddev=0.000004 bytes_write=3279 bytes_read=8385 bytes_retransmit=9 bytes_invalid=0 send_seq=280 receive_seq=280 retransmit_seq=2 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=180000541 rpi: mcu_awake=0.001 mcu_task_avg=0.000010 mcu_task_stddev=0.000015 bytes_write=928 bytes_read=4756 bytes_retransmit=0 bytes_invalid=0 send_seq=129 receive_seq=129 retransmit_seq=0 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=49999397 adj=49999250  heater_bed: target=0 temp=40.5 pwm=0.000 sysload=0.05 cputime=113.562 memavail=3448808 print_time=0.010 buffer_time=0.000 print_stall=0 extruder: target=0 temp=94.6 pwm=0.000
Stats 3046.6: gcodein=0  mcu: mcu_awake=0.001 mcu_task_avg=0.000005 mcu_task_stddev=0.000004 bytes_write=3285 bytes_read=8498 bytes_retransmit=9 bytes_invalid=0 send_seq=281 receive_seq=281 retransmit_seq=2 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=180000467 rpi: mcu_awake=0.000 mcu_task_avg=0.000009 mcu_task_stddev=0.000014 bytes_write=934 bytes_read=4785 bytes_retransmit=0 bytes_invalid=0 send_seq=130 receive_seq=130 retransmit_seq=0 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=49999380 adj=49999215  heater_bed: target=0 temp=40.5 pwm=0.000 sysload=0.04 cputime=113.579 memavail=3448820 print_time=0.010 buffer_time=0.000 print_stall=0 extruder: target=0 temp=94.2 pwm=0.000
Stats 3047.6: gcodein=0  mcu: mcu_awake=0.001 mcu_task_avg=0.000005 mcu_task_stddev=0.000004 bytes_write=3291 bytes_read=8633 bytes_retransmit=9 bytes_invalid=0 send_seq=282 receive_seq=282 retransmit_seq=2 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=180000400 rpi: mcu_awake=0.000 mcu_task_avg=0.000009 mcu_task_stddev=0.000014 bytes_write=940 bytes_read=4801 bytes_retransmit=0 bytes_invalid=0 send_seq=131 receive_seq=131 retransmit_seq=0 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=49999365 adj=49999245  heater_bed: target=0 temp=40.4 pwm=0.000 sysload=0.04 cputime=113.596 memavail=3448820 print_time=0.010 buffer_time=0.000 print_stall=0 extruder: target=0 temp=93.7 pwm=0.000
Stats 3048.6: gcodein=0  mcu: mcu_awake=0.001 mcu_task_avg=0.000005 mcu_task_stddev=0.000004 bytes_write=3297 bytes_read=8739 bytes_retransmit=9 bytes_invalid=0 send_seq=283 receive_seq=283 retransmit_seq=2 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=180000366 rpi: mcu_awake=0.000 mcu_task_avg=0.000009 mcu_task_stddev=0.000014 bytes_write=946 bytes_read=4817 bytes_retransmit=0 bytes_invalid=0 send_seq=132 receive_seq=132 retransmit_seq=0 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=49999370 adj=49999269  heater_bed: target=0 temp=40.4 pwm=0.000 sysload=0.04 cputime=113.613 memavail=3448820 print_time=0.010 buffer_time=0.000 print_stall=0 extruder: target=0 temp=93.3 pwm=0.000
Stats 3049.6: gcodein=0  mcu: mcu_awake=0.001 mcu_task_avg=0.000005 mcu_task_stddev=0.000004 bytes_write=3303 bytes_read=8860 bytes_retransmit=9 bytes_invalid=0 send_seq=284 receive_seq=284 retransmit_seq=2 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=180000320 rpi: mcu_awake=0.000 mcu_task_avg=0.000009 mcu_task_stddev=0.000014 bytes_write=952 bytes_read=4833 bytes_retransmit=0 bytes_invalid=0 send_seq=133 receive_seq=133 retransmit_seq=0 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=49999368 adj=49999343  heater_bed: target=0 temp=40.4 pwm=0.000 sysload=0.04 cputime=113.630 memavail=3448820 print_time=0.010 buffer_time=0.000 print_stall=0 extruder: target=0 temp=92.9 pwm=0.000
Stats 3050.6: gcodein=0  mcu: mcu_awake=0.001 mcu_task_avg=0.000005 mcu_task_stddev=0.000004 bytes_write=3309 bytes_read=8981 bytes_retransmit=9 bytes_invalid=0 send_seq=285 receive_seq=285 retransmit_seq=2 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=180000300 rpi: mcu_awake=0.000 mcu_task_avg=0.000009 mcu_task_stddev=0.000014 bytes_write=958 bytes_read=4849 bytes_retransmit=0 bytes_invalid=0 send_seq=134 receive_seq=134 retransmit_seq=0 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=49999367 adj=49999390  heater_bed: target=0 temp=40.4 pwm=0.000 sysload=0.04 cputime=113.646 memavail=3448820 print_time=0.010 buffer_time=0.000 print_stall=0 extruder: target=0 temp=92.4 pwm=0.000
Stats 3051.6: gcodein=0  mcu: mcu_awake=0.001 mcu_task_avg=0.000005 mcu_task_stddev=0.000004 bytes_write=3315 bytes_read=9087 bytes_retransmit=9 bytes_invalid=0 send_seq=286 receive_seq=286 retransmit_seq=2 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=180000407 rpi: mcu_awake=0.001 mcu_task_avg=0.000009 mcu_task_stddev=0.000014 bytes_write=964 bytes_read=4878 bytes_retransmit=0 bytes_invalid=0 send_seq=135 receive_seq=135 retransmit_seq=0 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=49999359 adj=49999389  heater_bed: target=0 temp=40.4 pwm=0.000 sysload=0.04 cputime=113.663 memavail=3448820 print_time=0.010 buffer_time=0.000 print_stall=0 extruder: target=0 temp=92.0 pwm=0.000
Stats 3052.6: gcodein=0  mcu: mcu_awake=0.001 mcu_task_avg=0.000005 mcu_task_stddev=0.000004 bytes_write=3321 bytes_read=9222 bytes_retransmit=9 bytes_invalid=0 send_seq=287 receive_seq=287 retransmit_seq=2 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=180000511 rpi: mcu_awake=0.001 mcu_task_avg=0.000009 mcu_task_stddev=0.000014 bytes_write=970 bytes_read=4894 bytes_retransmit=0 bytes_invalid=0 send_seq=136 receive_seq=136 retransmit_seq=0 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=49999357 adj=49999128  heater_bed: target=0 temp=40.4 pwm=0.000 sysload=0.04 cputime=113.681 memavail=3448820 print_time=0.010 buffer_time=0.000 print_stall=0 extruder: target=0 temp=91.6 pwm=0.000
Stats 3053.6: gcodein=0  mcu: mcu_awake=0.001 mcu_task_avg=0.000005 mcu_task_stddev=0.000004 bytes_write=3327 bytes_read=9343 bytes_retransmit=9 bytes_invalid=0 send_seq=288 receive_seq=288 retransmit_seq=2 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=180000586 rpi: mcu_awake=0.001 mcu_task_avg=0.000009 mcu_task_stddev=0.000014 bytes_write=976 bytes_read=4910 bytes_retransmit=0 bytes_invalid=0 send_seq=137 receive_seq=137 retransmit_seq=0 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=49999364 adj=49998961  heater_bed: target=0 temp=40.4 pwm=0.000 sysload=0.04 cputime=113.699 memavail=3448820 print_time=0.010 buffer_time=0.000 print_stall=0 extruder: target=0 temp=91.1 pwm=0.000
Stats 3054.6: gcodein=0  mcu: mcu_awake=0.001 mcu_task_avg=0.000005 mcu_task_stddev=0.000004 bytes_write=3333 bytes_read=9449 bytes_retransmit=9 bytes_invalid=0 send_seq=289 receive_seq=289 retransmit_seq=2 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=180000524 rpi: mcu_awake=0.001 mcu_task_avg=0.000009 mcu_task_stddev=0.000014 bytes_write=982 bytes_read=4926 bytes_retransmit=0 bytes_invalid=0 send_seq=138 receive_seq=138 retransmit_seq=0 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=49999367 adj=49998930  heater_bed: target=0 temp=40.3 pwm=0.000 sysload=0.04 cputime=113.715 memavail=3448824 print_time=0.010 buffer_time=0.000 print_stall=0 extruder: target=0 temp=90.7 pwm=0.000
Stats 3055.6: gcodein=0  mcu: mcu_awake=0.001 mcu_task_avg=0.000005 mcu_task_stddev=0.000004 bytes_write=3339 bytes_read=9570 bytes_retransmit=9 bytes_invalid=0 send_seq=290 receive_seq=290 retransmit_seq=2 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=180000522 rpi: mcu_awake=0.001 mcu_task_avg=0.000009 mcu_task_stddev=0.000014 bytes_write=988 bytes_read=4942 bytes_retransmit=0 bytes_invalid=0 send_seq=139 receive_seq=139 retransmit_seq=0 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=49999369 adj=49999134  heater_bed: target=0 temp=40.2 pwm=0.000 sysload=0.04 cputime=113.732 memavail=3448824 print_time=0.010 buffer_time=0.000 print_stall=0 extruder: target=0 temp=90.4 pwm=0.000
Stats 3056.6: gcodein=0  mcu: mcu_awake=0.001 mcu_task_avg=0.000005 mcu_task_stddev=0.000004 bytes_write=3345 bytes_read=9691 bytes_retransmit=9 bytes_invalid=0 send_seq=291 receive_seq=291 retransmit_seq=2 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=180000479 rpi: mcu_awake=0.001 mcu_task_avg=0.000012 mcu_task_stddev=0.000022 bytes_write=994 bytes_read=4971 bytes_retransmit=0 bytes_invalid=0 send_seq=140 receive_seq=140 retransmit_seq=0 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=49999370 adj=49999179  heater_bed: target=0 temp=40.3 pwm=0.000 sysload=0.04 cputime=113.749 memavail=3448632 print_time=0.010 buffer_time=0.000 print_stall=0 extruder: target=0 temp=89.9 pwm=0.000
Starting SD card print (position 0)
Unknown command:"M201"
Unknown command:"M203"
Unknown command:"M205"
Unknown command:"M205"
Unknown command:"M862.3"
Unknown command:"M862.1"
FIRMWARE_NAME:Klipper FIRMWARE_VERSION:v0.11.0-105-g1e7057e9
Heater heater_bed approaching new target of 60.000
Heater extruder approaching new target of 215.000
Stats 3057.6: gcodein=0  mcu: mcu_awake=0.001 mcu_task_avg=0.000005 mcu_task_stddev=0.000004 bytes_write=3383 bytes_read=9821 bytes_retransmit=9 bytes_invalid=0 send_seq=294 receive_seq=294 retransmit_seq=2 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=180000411 rpi: mcu_awake=0.001 mcu_task_avg=0.000012 mcu_task_stddev=0.000022 bytes_write=1000 bytes_read=4987 bytes_retransmit=0 bytes_invalid=0 send_seq=141 receive_seq=141 retransmit_seq=0 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=49999366 adj=49999280 sd_pos=933 heater_bed: target=60 temp=40.2 pwm=0.600 sysload=0.04 cputime=113.773 memavail=3439828 print_time=35.548 buffer_time=0.000 print_stall=0 extruder: target=215 temp=89.5 pwm=1.000
Stats 3058.6: gcodein=0  mcu: mcu_awake=0.001 mcu_task_avg=0.000005 mcu_task_stddev=0.000004 bytes_write=3405 bytes_read=9947 bytes_retransmit=9 bytes_invalid=0 send_seq=296 receive_seq=296 retransmit_seq=2 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=180000349 rpi: mcu_awake=0.001 mcu_task_avg=0.000012 mcu_task_stddev=0.000022 bytes_write=1006 bytes_read=5003 bytes_retransmit=0 bytes_invalid=0 send_seq=142 receive_seq=142 retransmit_seq=0 srtt=0.000 rttvar=0.000 rto=0.025 ready_bytes=0 stalled_bytes=0 freq=49999351 adj=49999075 sd_pos=933 heater_bed: target=60 temp=40.3 pwm=0.600 sysload=0.04 cputime=113.784 memavail=3434392 print_time=36.548 buffer_time=0.000 print_stall=0 extruder: target=215 temp=89.1 pwm=1.000
Stats 3059.6: gcodein=0  mcu: mcu_awake=0.001 mcu_task_avg=0.000005 mcu_task_st

Your PRINT_START macro is quite short. How is your slicer start code looking with that empty PRINT_START macro?

I’m really green to this. Not sure what i would need to change.

Normally the PRINT_START macro should look like this:

[gcode_macro PRINT_START]
#   Use PRINT_START for the slicer starting script - PLEASE CUSTOMISE THE SCRIPT
gcode:
    G21 # metric values
    G90 # absolute positioning
    M82 # set extruder to absolute mode
    M107 # start with the fan off
    Bauraumlicht VALUE=1

    M117 Homing...                 ; display message
    G28 Y0 X0 Z0

    M117 Adjusting Z-tilt...
    Z_TILT_ADJUST
    #BED_MESH_CALIBRATE
    G28 Z0
    G0 X1 Y-3.5 F12000
    G0 Z0.2 F2000

    M117 Heating bed...

    M190 S{params.BED_TEMP|default(75)|float} # heat to bed setting
    M117 Settling bed...
    G4 P210000 # wait 4 minutes for bed to reach temps - offset ~ 15 °C

    M117 Heating hotend...
    M109 S{params.HOTEND_TEMP|default(200)|float} # heat to hotend setting

And you only put PRINT_START into your slicers start code passing the respective bed and hotend temperatures like for Cura:

;Filament weight = {filament_weight}
;Nozzle diameter = {machine_nozzle_size}
;Filament type = {material_type}
;Filament name = {material_name}
PRINT_START BED_TEMP={material_bed_temperature_layer_0} HOTEND_TEMP={material_print_temperature_layer_0}

See: Slicers - Klipper documentation

So you have a crippled PRINT_START macro and hopefully some further start code in your slicer.
Could you please post the start and end code of your slicer?

How do i find the start and end code of my slicer? My apoligies.

Depending on your slicer check the settings. Google should know the answer.
However if you do not know that basic stuff you should read much before continuing the Klipper journey!

And carefully read through here:
https://www.klipper3d.org/Overview.html

Thank you, i will read up on this now.

I think there’s some kind of change which is catching a bunch of us relative newbies to Klipper. The problem is that you need to insert a “G90” into your gcode.

Here’s how I fixed the problem on my printer:

But therefore he needs to know where it has to be at all.
His PRINT_START macro is quite empty and nobody knows how the slicer start code looks like.

As the basics are yet unknown this won’t be the last wrong setting I guess.
And for us it is quite hard to help without explaining everything in detail or what we are talking about.

This is nothing personally but for the sake of success he should make himself familiar with fundamental knowledge.

Im using Prusaslicer

Start G-code
; M190 S0
; M109 S0 ; uncomment to remove set&wait temp gcode added automatically after this start gcode
print_start EXTRUDER=[first_layer_temperature[initial_tool]] BED=[first_layer_bed_temperature]

End G-code
print_end ;end script from macro

Before layer change G-code
;BEFORE_LAYER_CHANGE
;[layer_z]
G92 E0

After Layer change G-code
;AFTER_LAYER_CHANGE
;[layer_z]

Can you please share the klippy.log file
Please do not upload the contents of the file as text.

klippy(3).log (1.9 MB)

You should not just copy my PRINT_START macro. It won’t properly work with your printer.
I saw that you are heating hotend and bed directly from the slicer start code and then homing and QGLing within the PRINT_START macro (original one).

I don’t know why this isn’t all done within the macro but should not matter here.

When you just run G32 via console does it result in a similar error?
Maybe the gantry points are wrong but if you properly built your Voron and use a config from their site it should work. That isn’t a custom designed printer nobody before has built and properly configured yet.

After running the G32.
2:05 p.m.

Retries: 1/5 Probed points range: 0.001250 tolerance: 0.007500

2:05 p.m.

Making the following Z adjustments:
stepper_z = -0.002142
stepper_z1 = 0.001551
stepper_z2 = -0.000352
stepper_z3 = 0.000942

2:05 p.m.

Average: 9.992482

2:05 p.m.

Actuator Positions:
z: 9.994624 z1: 9.990931 z2: 9.992834 z3: 9.991540

2:05 p.m.

Gantry-relative probe points:
0: 9.993590 1: 9.992340 2: 9.992340 3: 9.992340

So that seems to look fine.

Just saw in your initial post that you should uncomment the following line in the G32 macro:

    ##  Uncomment for 300 build
-->    #G0 X150 Y150 Z30 F3600

I assume you have a 300 mm build?!

But this is already done when I browse your klippy.log somewhere in the middle section.
Is this done in the current G32 macro?
If so maybe @mykepredko s point could fit here to put a G90 between this line and the G28 before.

Yes it is uncommented in the G32 macro, i noticed a little after posting and changed it
it is a 300.

Ok fine.
Then please change the G32 macro so that there is a G90 before that line, save and restart and try again to reproduce the error as before.

Otherwise if you run the G32 and then command each axis to move some cm via the control field, does that work and is it always moving into the right direction?

Is this correct?

G90

[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
#-----------------------------------------------

i get This Error:
Klipper reports: ERROR

Invalid pin alias '<5V>