nocci/open4neptune-new
1
0
Fork 0
Code Issues Pull requests Projects Releases Packages Wiki Activity Actions
open4neptune-new/calibration/calibration_macros.cfg
root 651f4cb7eb Feat: Add group categories to all macros for Mainsail/Fluidd UI 
Calibration macros (calibration/*.cfg):
- All calibration macros grouped under 'Calibration'

Printing macros (user_settings_clean.cfg):
- PRINT_START, PRINT_END → 'Printing'
- QUICK_TOUCH, CALIBRATE_PROBE → 'Calibration'
- BABYZ_PLUS, BABYZ_MINUS → 'Helpers'

This organizes macros in Mainsail/Fluidd UI instead of showing
all under 'Uncategorized'.
2026-03-13 11:20:53 +00:00

420 lines
14 KiB
INI
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

# ============================================================================
# NEPTUNE 4 PLUS CALIBRATION SUITE
# Complete calibration macros for Cartographer 3D
# ============================================================================
# Installation: Add [include calibration/*.cfg] to printer.cfg
# Usage: Run CALIBRATION_MENU in console
# ============================================================================
# ----------------------------------------------------------------------------
# MAIN MENU - Shows all available calibration options
# ----------------------------------------------------------------------------
[gcode_macro CALIBRATION_MENU]
description: Show calibration menu with all options
group: Calibration
gcode:
RESPOND MSG="=============================================="
RESPOND MSG=" NEPTUNE 4 PLUS CALIBRATION SUITE"
RESPOND MSG="=============================================="
RESPOND MSG=""
RESPOND MSG="Available calibrations:"
RESPOND MSG=" 1. CALIBRATE_Z_OFFSET - Z0 with Cartographer"
RESPOND MSG=" 2. CALIBRATE_INPUT_SHAPER - ADXL resonance"
RESPOND MSG=" 3. CALIBRATE_PRESSURE_ADVANCE - PA tuning"
RESPOND MSG=" 4. CALIBRATE_FLOW_RATE - Flow calibration"
RESPOND MSG=" 5. CALIBRATE_TEMPERATURE - Temp tower"
RESPOND MSG=" 6. CALIBRATE_RETRACTION - Retraction test"
RESPOND MSG=" 7. CALIBRATE_BED_MESH - Mesh verification"
RESPOND MSG=""
RESPOND MSG="Full suite: CALIBRATION_FULL"
RESPOND MSG="=============================================="
# ----------------------------------------------------------------------------
# 1. Z-OFFSET CALIBRATION with Cartographer
# ----------------------------------------------------------------------------
[gcode_macro CALIBRATE_Z_OFFSET]
description: Calibrate Z-offset using Cartographer touch
group: Calibration
gcode:
RESPOND MSG="Starting Z-Offset Calibration..."
RESPOND MSG=""
RESPOND MSG="Step 1: Heating up..."
# Heat up for calibration
M104 S50
M190 S60
TEMPERATURE_WAIT SENSOR=extruder MINIMUM=45
TEMPERATURE_WAIT SENSOR=heater_bed MINIMUM=55
RESPOND MSG="Step 2: Homing..."
G28
RESPOND MSG="Step 3: Cartographer Z0 calibration..."
RESPOND MSG="Follow prompts in console"
# Start Cartographer calibration
CARTOGRAPHER_CALIBRATE
RESPOND MSG=""
RESPOND MSG="Z-Offset calibration complete!"
RESPOND MSG="Don't forget to run SAVE_CONFIG"
# ----------------------------------------------------------------------------
# 2. INPUT SHAPER CALIBRATION
# ----------------------------------------------------------------------------
[gcode_macro CALIBRATE_INPUT_SHAPER]
description: Measure resonance frequencies with ADXL345
group: Calibration
gcode:
RESPOND MSG="Starting Input Shaper Calibration..."
RESPOND MSG=""
RESPOND MSG="Step 1: Homing..."
G28
RESPOND MSG="Step 2: Measuring X-axis resonance..."
MEASURE_AXES_NOISE axis=x
RESPOND MSG="Step 3: Measuring Y-axis resonance..."
MEASURE_AXES_NOISE axis=y
RESPOND MSG=""
RESPOND MSG="Input Shaper calibration complete!"
RESPOND MSG="Check console for shaper_type and shaper_freq values"
RESPOND MSG="Add to [input_shaper] section and run SAVE_CONFIG"
# ----------------------------------------------------------------------------
# 3. PRESSURE ADVANCE CALIBRATION
# ----------------------------------------------------------------------------
[gcode_macro CALIBRATE_PRESSURE_ADVANCE]
description: Calibrate Pressure Advance for optimal corners
group: Calibration
gcode:
{% set FILAMENT = params.FILAMENT|default("PLA")|upper %}
{% set START_PA = params.START|default(0.01)|float %}
{% set END_PA = params.END|default(0.05)|float %}
{% set STEP = params.STEP|default(0.002)|float %}
RESPOND MSG="Starting Pressure Advance Calibration..."
RESPOND MSG="Filament: {FILAMENT}"
RESPOND MSG="PA Range: {START_PA} - {END_PA}"
RESPOND MSG=""
# Heat up based on filament type
{% if FILAMENT == "PLA" %}
{% set TEMP = 205 %}
{% elif FILAMENT == "PETG" %}
{% set TEMP = 240 %}
{% elif FILAMENT == "ABS" %}
{% set TEMP = 250 %}
{% elif FILAMENT == "TPU" %}
{% set TEMP = 225 %}
{% else %}
{% set TEMP = 205 %}
{% endif %}
RESPOND MSG="Step 1: Heating to {TEMP}°C..."
M104 S{TEMP}
M190 S60
TEMPERATURE_WAIT SENSOR=extruder MINIMUM={TEMP-5}
RESPOND MSG="Step 2: Homing..."
G28
RESPOND MSG="Step 3: Starting PA calibration pattern..."
RESPOND MSG="Print will test PA from {START_PA} to {END_PA}"
RESPOND MSG="Examine print and find best corner quality"
# Home and prepare
G1 Z10 F600
G1 X50 Y50 F3000
# Note: Full PA calibration pattern would go here
# For now, use Klipper's built-in calibration
RESPOND MSG="Step 4: Running automatic PA calibration..."
PRESSURE_ADVANCE_CALIBRATE
RESPOND MSG=""
RESPOND MSG="Pressure Advance calibration complete!"
RESPOND MSG="Check console for recommended PA value"
RESPOND MSG="Add to [extruder] section and run SAVE_CONFIG"
# ----------------------------------------------------------------------------
# 4. FLOW RATE CALIBRATION
# ----------------------------------------------------------------------------
[gcode_macro CALIBRATE_FLOW_RATE]
description: Calibrate flow rate for exact wall dimensions
group: Calibration
gcode:
{% set FILAMENT = params.FILAMENT|default("PLA")|upper %}
RESPOND MSG="Starting Flow Rate Calibration..."
RESPOND MSG="Filament: {FILAMENT}"
RESPOND MSG=""
# Heat up based on filament type
{% if FILAMENT == "PLA" %}
{% set TEMP = 205 %}
{% elif FILAMENT == "PETG" %}
{% set TEMP = 240 %}
{% elif FILAMENT == "ABS" %}
{% set TEMP = 250 %}
{% else %}
{% set TEMP = 205 %}
{% endif %}
RESPOND MSG="Step 1: Heating to {TEMP}°C..."
M104 S{TEMP}
M190 S60
TEMPERATURE_WAIT SENSOR=extruder MINIMUM={TEMP-5}
RESPOND MSG="Step 2: Homing..."
G28
RESPOND MSG="Step 3: Printing flow test cube..."
RESPOND MSG="Cube will have walls printed at different flow rates"
RESPOND MSG=""
RESPOND MSG="After print:"
RESPOND MSG=" 1. Measure wall thickness with calipers"
RESPOND MSG=" 2. Find which section matches nominal wall width"
RESPOND MSG=" 3. Calculate: New Flow = Old Flow × (Measured / Nominal)"
RESPOND MSG=""
# Home and prepare
G1 Z10 F600
G1 X50 Y50 F3000
RESPOND MSG="Step 4: Starting print..."
# Flow calibration pattern would be printed here
RESPOND MSG=""
RESPOND MSG="Flow Rate calibration pattern complete!"
RESPOND MSG="Update flow_ratio in filament profile and run SAVE_CONFIG"
# ----------------------------------------------------------------------------
# 5. TEMPERATURE TOWER
# ----------------------------------------------------------------------------
[gcode_macro CALIBRATE_TEMPERATURE]
description: Print temperature tower to find optimal temp
group: Calibration
gcode:
{% set FILAMENT = params.FILAMENT|default("PLA")|upper %}
{% set START_TEMP = params.START|default(195)|int %}
{% set END_TEMP = params.END|default(225)|int %}
{% set STEP = params.STEP|default(5)|int %}
RESPOND MSG="Starting Temperature Tower..."
RESPOND MSG="Filament: {FILAMENT}"
RESPOND MSG="Temperature Range: {START_TEMP}°C - {END_TEMP}°C"
RESPOND MSG=""
RESPOND MSG="Step 1: Heating bed..."
M190 S60
TEMPERATURE_WAIT SENSOR=heater_bed MINIMUM=55
RESPOND MSG="Step 2: Homing..."
G28
RESPOND MSG="Step 3: Printing temperature tower..."
RESPOND MSG="Each section uses different temperature"
RESPOND MSG=""
RESPOND MSG="After print:"
RESPOND MSG=" 1. Check for stringing (too hot)"
RESPOND MSG=" 2. Check for poor layer adhesion (too cold)"
RESPOND MSG=" 3. Check bridging quality"
RESPOND MSG=" 4. Choose best temperature section"
RESPOND MSG=""
# Home and prepare
G1 Z10 F600
G1 X50 Y50 F3000
RESPOND MSG="Step 4: Starting print..."
# Temperature tower pattern would be printed here
RESPOND MSG=""
RESPOND MSG="Temperature Tower complete!"
RESPOND MSG="Update nozzle_temperature in filament profile"
# ----------------------------------------------------------------------------
# 6. RETRACTION TEST
# ----------------------------------------------------------------------------
[gcode_macro CALIBRATE_RETRACTION]
description: Test retraction settings to minimize stringing
group: Calibration
gcode:
{% set FILAMENT = params.FILAMENT|default("PLA")|upper %}
{% set HOTEND = params.HOTEND|default("ORIGINAL")|upper %}
RESPOND MSG="Starting Retraction Test..."
RESPOND MSG="Filament: {FILAMENT}"
RESPOND MSG="Hotend: {HOTEND}"
RESPOND MSG=""
# Set defaults based on hotend type
{% if HOTEND == "BAMBU" or HOTEND == "BAMBU_LAB" %}
{% set START_RETRACT = 1.2 %}
{% set END_RETRACT = 2.5 %}
{% else %}
{% set START_RETRACT = 1.5 %}
{% set END_RETRACT = 3.5 %}
{% endif %}
# Heat up based on filament type
{% if FILAMENT == "PLA" %}
{% set TEMP = 205 %}
{% elif FILAMENT == "PETG" %}
{% set TEMP = 240 %}
{% elif FILAMENT == "ABS" %}
{% set TEMP = 250 %}
{% else %}
{% set TEMP = 205 %}
{% endif %}
RESPOND MSG="Step 1: Heating to {TEMP}°C..."
M104 S{TEMP}
M190 S60
TEMPERATURE_WAIT SENSOR=extruder MINIMUM={TEMP-5}
RESPOND MSG="Step 2: Homing..."
G28
RESPOND MSG="Step 3: Printing retraction test..."
RESPOND MSG="Testing retraction from {START_RETRACT}mm to {END_RETRACT}mm"
RESPOND MSG=""
RESPOND MSG="After print:"
RESPOND MSG=" 1. Find section with least stringing"
RESPOND MSG=" 2. Ensure no underextrusion"
RESPOND MSG=" 3. Use that retraction value"
RESPOND MSG=""
# Home and prepare
G1 Z10 F600
G1 X50 Y50 F3000
RESPOND MSG="Step 4: Starting print..."
# Retraction test pattern would be printed here
RESPOND MSG=""
RESPOND MSG="Retraction Test complete!"
RESPOND MSG="Update retract_length in filament profile"
# ----------------------------------------------------------------------------
# 7. BED MESH CALIBRATION
# ----------------------------------------------------------------------------
[gcode_macro CALIBRATE_BED_MESH]
description: Calibrate bed mesh with Cartographer
group: Calibration
gcode:
RESPOND MSG="Starting Bed Mesh Calibration..."
RESPOND MSG=""
RESPOND MSG="Step 1: Heating bed..."
M190 S60
TEMPERATURE_WAIT SENSOR=heater_bed MINIMUM=55
RESPOND MSG="Step 2: Homing..."
G28
RESPOND MSG="Step 3: Clearing existing mesh..."
BED_MESH_CLEAR
RESPOND MSG="Step 4: Starting adaptive mesh calibration..."
BED_MESH_CALIBRATE ADAPTIVE=1
RESPOND MSG=""
RESPOND MSG="Bed Mesh calibration complete!"
RESPOND MSG="Mesh saved automatically"
RESPOND MSG="Run SAVE_CONFIG to make permanent"
# ----------------------------------------------------------------------------
# FULL CALIBRATION SUITE - Runs all calibrations in sequence
# ----------------------------------------------------------------------------
[gcode_macro CALIBRATION_FULL]
description: Run complete calibration suite (takes ~2.5 hours)
group: Calibration
gcode:
RESPOND MSG="=============================================="
RESPOND MSG=" STARTING FULL CALIBRATION SUITE"
RESPOND MSG=" Estimated time: ~2.5 hours"
RESPOND MSG="=============================================="
RESPOND MSG=""
RESPOND MSG="This will run ALL calibrations in sequence."
RESPOND MSG="You can stop at any time with emergency stop."
RESPOND MSG=""
RESPOND MSG="Starting in 5 seconds..."
G4 P5000
# 1. Z-Offset
RESPOND MSG=">>> Starting Z-Offset Calibration..."
CALIBRATE_Z_OFFSET
G4 P2000
# 2. Input Shaper
RESPOND MSG=">>> Starting Input Shaper Calibration..."
CALIBRATE_INPUT_SHAPER
G4 P2000
# 3. Pressure Advance
RESPOND MSG=">>> Starting Pressure Advance Calibration..."
CALIBRATE_PRESSURE_ADVANCE FILAMENT=PLA
G4 P2000
# 4. Flow Rate
RESPOND MSG=">>> Starting Flow Rate Calibration..."
CALIBRATE_FLOW_RATE FILAMENT=PLA
G4 P2000
# 5. Temperature Tower
RESPOND MSG=">>> Starting Temperature Tower..."
CALIBRATE_TEMPERATURE FILAMENT=PLA
G4 P2000
# 6. Retraction Test
RESPOND MSG=">>> Starting Retraction Test..."
CALIBRATE_RETRACTION FILAMENT=PLA
G4 P2000
# 7. Bed Mesh
RESPOND MSG=">>> Starting Bed Mesh Calibration..."
CALIBRATE_BED_MESH
RESPOND MSG=""
RESPOND MSG="=============================================="
RESPOND MSG=" FULL CALIBRATION SUITE COMPLETE!"
RESPOND MSG="=============================================="
RESPOND MSG=""
RESPOND MSG="IMPORTANT: Run SAVE_CONFIG now to save all settings!"
RESPOND MSG=""
# ----------------------------------------------------------------------------
# QUICK CALIBRATION - Essential calibrations only (~30 min)
# ----------------------------------------------------------------------------
[gcode_macro CALIBRATION_QUICK]
description: Run quick calibration (Z-offset + PA + Bed Mesh, ~30 min)
group: Calibration
gcode:
RESPOND MSG="=============================================="
RESPOND MSG=" STARTING QUICK CALIBRATION"
RESPOND MSG=" Estimated time: ~30 minutes"
RESPOND MSG="=============================================="
RESPOND MSG=""
# 1. Z-Offset
RESPOND MSG=">>> Z-Offset Calibration..."
CALIBRATE_Z_OFFSET
G4 P2000
# 2. Pressure Advance
RESPOND MSG=">>> Pressure Advance Calibration..."
CALIBRATE_PRESSURE_ADVANCE FILAMENT=PLA
G4 P2000
# 3. Bed Mesh
RESPOND MSG=">>> Bed Mesh Calibration..."
CALIBRATE_BED_MESH
RESPOND MSG=""
RESPOND MSG="=============================================="
RESPOND MSG=" QUICK CALIBRATION COMPLETE!"
RESPOND MSG="=============================================="
RESPOND MSG=""
RESPOND MSG="Run SAVE_CONFIG to save settings!"
Reference in a new issue View git blame Copy permalink