Adjusted configure your printer section.

README.md

@@ -175,37 +175,26 @@ If you've done everything correctly, you should see no errors or warnings in you
 
 You will be pasting/typing these commands into the Mainsail/Fluidd console.
 
-1. `G28`
+1. Check to see if `X` and `Y` max positions can be reached, and adjust `position_max`, if necessary. You might be able to go further, which is great, but I recommend leaving a 2mm gap for safety.
-   1. Check to see if `X` and `Y` max positions (`G90`, `G1 X223 F3000`, `G1 Y223 F3000`) can be reached, and adjust `position_max`, if necessary. You can probably go all the way up to `225` for `X` and `Y` both, however, I would not recommend it.
-2. Do a `G34`; mechanical gantry calibration. After the controlled collision against the beam at the top, there will be a 10 second pause for you to verify that both sides of the gantry are pressed up against the `stoppers` at the top. You will hear a succession of beeps.
-   1. Figure out your `Z` `position_max` by baby stepping your way up to the beam. The range is 250 to 261 from what I've seen, could be even higher for you. Adjust `position_max`, if necessary. I can go all the way to 258, however, I would not print anything higher than 257.
-3. PID tune the bed, but first move the printhead to the center. Ideally, all PID tuning should occur at the temperatures that you print most at.
    1. `G28`
    2. `G90`
-   3. `G1 X111 Y111 Z40 F6000`
+   3. `G1 X223 F3000`
-   4. `PID_CALIBRATE HEATER=heater_bed TARGET=70`
+   4. `G1 Y223 F3000`
-   5. `SAVE_CONFIG` (once completed)
+2. Do a mechanical gantry calibration; `G34`. After the controlled collision against the beam at the top, there will be a 10 second pause for you to verify that both sides of the gantry are pressed up against the `stoppers` at the top. You will hear a succession of beeps.
+   1. Figure out your `Z` `position_max` by baby stepping your way up to the beam, and adjust `position_max`, if necessary.
+3. PID tune the bed. Ideally, all PID tuning should occur at the temperatures that you print most at.
+   1. `PID_TEST_BED`
+   2. `SAVE_CONFIG` (once completed)
 4. PID tune the extruder while part cooling fan runs at 25%.
-   1. `G28`
+   1. `PID_TEST_HOTEND`
-   2. `G90`
+   2. `SAVE_CONFIG` (once completed)
-   3. `G1 X111 Y111 Z10 F6000`
-   4. `M106 S64`
-   5. `PID_CALIBRATE HEATER=extruder TARGET=245`
-   6. `SAVE_CONFIG` (once completed)
 5. Adjust `z_offset`. Make sure your nozzle if very clean. Do the [Paper test](https://www.klipper3d.org/Bed_Level.html?h=probe_calibrate#the-paper-test).
-   1. `SET_HEATER_TEMPERATURE HEATER=heater_bed TARGET=60`
+   1. `DO_PROBE_CALIBRATE`
-   2. `SET_HEATER_TEMPERATURE HEATER=extruder TARGET=180`
+   2. Follow `z_offset` setup in Mainsail/Fluidd.
-   3. Proceed to next steps after both temperatures have been reached.
+   3. `SAVE_CONFIG` (once completed)
-   4. `G28`
-   5. `PROBE_CALIBRATE`
-   6. `SAVE_CONFIG` (once completed)
 6. Create a bed mesh.
-   1. `SET_HEATER_TEMPERATURE HEATER=heater_bed TARGET=60`
+   1. `DO_CREATE_MESH`
-   2. `SET_HEATER_TEMPERATURE HEATER=extruder TARGET=180`
+   2. `SAVE_CONFIG` (once completed)
-   3. Proceed to next steps after both temperatures have been reached.
-   4. `G28`
-   5. `BED_MESH_CALIBRATE`
-   6. `SAVE_CONFIG` (once completed)
 
 If you've made it here, then your printer has been Klipperized, and is ready to print!