From ddb2c70a7c6fcc99e5878c5b306edba08f463923 Mon Sep 17 00:00:00 2001 From: Rokin Date: Fri, 20 Jan 2023 19:12:06 +0100 Subject: [PATCH] Macro, add test_speed --- macros/test_speed.cfg | 186 ++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 186 insertions(+) create mode 100644 macros/test_speed.cfg diff --git a/macros/test_speed.cfg b/macros/test_speed.cfg new file mode 100644 index 0000000..d39f6e9 --- /dev/null +++ b/macros/test_speed.cfg @@ -0,0 +1,186 @@ +# __ ______ ___ ____ _____ +# \ \ / / ___/ _ \| _ \| ____| +# \ \ / / | | | | | |_) | _| +# \ V /| |__| |_| | _ <| |___ +# \_/ \____\___/|_| \_\_____| 3.1 +# Standalone 300 Setup. +# + + +##################################################################### +# TEST SPEED (AndrewEllis93) +##################################################################### + +# Src : https://github.com/AndrewEllis93/Print-Tuning-Guide/blob/main/articles/determining_max_speeds_accels.md#usage-of-the-test_speed-macro +# Example: TEST_SPEED SPEED=300 ACCEL=5000 ITERATIONS=10 +# This macro do Home, get position, throw around toolhead, home again. +# +# Determining if Skipping Occured +# +# 1) Inspect the g-code terminal output : +# > Compare the numbers for the X and Y steppers for the first and second homing. (mcu: stepper_x:111111 stepper_y:-22) +# > These numbers represent the microstep position of the toolhead at X/Y max position. +# +# 2) Ensure that the difference between these numbers has not exceeded a full step. +# > For example, I am running microsteps of 32 for my A and B motors. I would ensure that the values for each axis have not changed by more than 32. +# > If the number has deviated more than this, that means that the corresponding axis has likely skipped. +# > Measuring to a full step just accounts for a bit of endstop inaccuracy. It does not necessarily mean that any microsteps were lost. +# > For hall effect endstops, you may need to measure to a few full steps. They can be bit less accurate, and they thermally drift. + +[gcode_macro TEST_SPEED] +gcode: + # Speed + {% set speed = params.SPEED|default(printer.configfile.settings.printer.max_velocity)|int %} + # Iterations + {% set iterations = params.ITERATIONS|default(5)|int %} + # Acceleration + {% set accel = params.ACCEL|default(printer.configfile.settings.printer.max_accel)|int %} + # Bounding inset for large pattern (helps prevent slamming the toolhead into the sides after small skips, and helps to account for machines with imperfectly set dimensions) + {% set bound = params.BOUND|default(20)|int %} + # Size for small pattern box + {% set smallpatternsize = SMALLPATTERNSIZE|default(20)|int %} + + # Large pattern + # Max positions, inset by BOUND + {% set x_min = printer.toolhead.axis_minimum.x + bound %} + {% set x_max = printer.toolhead.axis_maximum.x - bound %} + {% set y_min = printer.toolhead.axis_minimum.y + bound %} + {% set y_max = printer.toolhead.axis_maximum.y - bound %} + + # Small pattern at center + # Find X/Y center point + {% set x_center = (printer.toolhead.axis_minimum.x|float + printer.toolhead.axis_maximum.x|float ) / 2 %} + {% set y_center = (printer.toolhead.axis_minimum.y|float + printer.toolhead.axis_maximum.y|float ) / 2 %} + + # Set small pattern box around center point + {% set x_center_min = x_center - (smallpatternsize/2) %} + {% set x_center_max = x_center + (smallpatternsize/2) %} + {% set y_center_min = y_center - (smallpatternsize/2) %} + {% set y_center_max = y_center + (smallpatternsize/2) %} + + # Save current gcode state (absolute/relative, etc) + SAVE_GCODE_STATE NAME=TEST_SPEED + + # Output parameters to g-code terminal + { action_respond_info("TEST_SPEED: starting %d iterations at speed %d, accel %d" % (iterations, speed, accel)) } + + # Home and get position for comparison later: + G28 + # QGL if not already QGLd (only if QGL section exists in config) + {% if printer.configfile.settings.quad_gantry_level %} + {% if printer.quad_gantry_level.applied == False %} + QUAD_GANTRY_LEVEL + G28 Z + {% endif %} + {% endif %} + # Move 50mm away from max position and home again (to help with hall effect endstop accuracy - https://github.com/AndrewEllis93/Print-Tuning-Guide/issues/24) + G90 + G1 X{printer.toolhead.axis_maximum.x-50} Y{printer.toolhead.axis_maximum.y-50} F{30*60} + G28 X Y + G0 X{printer.toolhead.axis_maximum.x-1} Y{printer.toolhead.axis_maximum.y-1} F{30*60} + G4 P1000 + GET_POSITION + + # Go to starting position + G0 X{x_min} Y{y_min} Z{bound + 10} F{speed*60} + + # Set new limits + SET_VELOCITY_LIMIT VELOCITY={speed} ACCEL={accel} ACCEL_TO_DECEL={accel / 2} + + {% for i in range(iterations) %} + # Large pattern + # Diagonals + G0 X{x_min} Y{y_min} F{speed*60} + G0 X{x_max} Y{y_max} F{speed*60} + G0 X{x_min} Y{y_min} F{speed*60} + G0 X{x_max} Y{y_min} F{speed*60} + G0 X{x_min} Y{y_max} F{speed*60} + G0 X{x_max} Y{y_min} F{speed*60} + + # Box + G0 X{x_min} Y{y_min} F{speed*60} + G0 X{x_min} Y{y_max} F{speed*60} + G0 X{x_max} Y{y_max} F{speed*60} + G0 X{x_max} Y{y_min} F{speed*60} + + # Small pattern + # Small diagonals + G0 X{x_center_min} Y{y_center_min} F{speed*60} + G0 X{x_center_max} Y{y_center_max} F{speed*60} + G0 X{x_center_min} Y{y_center_min} F{speed*60} + G0 X{x_center_max} Y{y_center_min} F{speed*60} + G0 X{x_center_min} Y{y_center_max} F{speed*60} + G0 X{x_center_max} Y{y_center_min} F{speed*60} + + # Small box + G0 X{x_center_min} Y{y_center_min} F{speed*60} + G0 X{x_center_min} Y{y_center_max} F{speed*60} + G0 X{x_center_max} Y{y_center_max} F{speed*60} + G0 X{x_center_max} Y{y_center_min} F{speed*60} + {% endfor %} + + # Restore max speed/accel/accel_to_decel to their configured values + SET_VELOCITY_LIMIT VELOCITY={printer.configfile.settings.printer.max_velocity} ACCEL={printer.configfile.settings.printer.max_accel} ACCEL_TO_DECEL={printer.configfile.settings.printer.max_accel_to_decel} + + # Re-home and get position again for comparison: + G28 + # Go to XY home positions (in case your homing override leaves it elsewhere) + G90 + G0 X{printer.toolhead.axis_maximum.x-1} Y{printer.toolhead.axis_maximum.y-1} F{30*60} + G4 P1000 + GET_POSITION + + # Restore previous gcode state (absolute/relative, etc) + RESTORE_GCODE_STATE NAME=TEST_SPEED + + +##################################################################### +# SPEED LOOP +##################################################################### + +[gcode_macro RESETSPEEDS] +gcode: + SET_VELOCITY_LIMIT VELOCITY={printer.configfile.settings.printer.max_velocity} + SET_VELOCITY_LIMIT ACCEL={printer.configfile.settings.printer.max_accel} + SET_VELOCITY_LIMIT ACCEL_TO_DECEL={printer.configfile.settings.printer.max_accel_to_decel} + SET_VELOCITY_LIMIT SQUARE_CORNER_VELOCITY={printer.configfile.settings.printer.square_corner_velocity} + +#-------------------------------------------------------------------- + +[gcode_macro SPEED_LOOP] +gcode: + MAYBE_HOME + {% set vel = (300,400,500) %} # set velocity values to be tested (mm/s) + {% set accel = (5000,9000,13000) %} # set accel values to be tested (mm/s^2) + {% set min = 40 %} # set the square lower left point + {% set max = 260 %} # set the square upper right corner + G1 X{min} Y{min} F5000 + {% for V in vel %} + {% set machineVel = V*60 %} + {% for A in accel %} + M118 velocity:{V}mm/s, accel:{A}mm/s^2 + SET_VELOCITY_LIMIT VELOCITY={V} + SET_VELOCITY_LIMIT ACCEL={A} + SET_VELOCITY_LIMIT ACCEL_TO_DECEL={A} + G1 X{max} Y{min} F{machineVel} + G1 X{max} Y{max} + G1 X{min} Y{min} + G1 X{min} Y{max} + G1 X{max} Y{min} + G1 X{max} Y{min} + G1 X{max} Y{max} + G1 X{min} Y{max} + G1 X{min} Y{min} + G4 P1000 + {% endfor %} + {% endfor %} + RESETSPEEDS + +#-------------------------------------------------------------------- + +[gcode_macro RESETSPEEDS] +gcode: + SET_VELOCITY_LIMIT VELOCITY={printer.configfile.settings.printer.max_velocity} + SET_VELOCITY_LIMIT ACCEL={printer.configfile.settings.printer.max_accel} + SET_VELOCITY_LIMIT ACCEL_TO_DECEL={printer.configfile.settings.printer.max_accel_to_decel} + SET_VELOCITY_LIMIT SQUARE_CORNER_VELOCITY={printer.configfile.settings.printer.square_corner_velocity}