[Repair] Creality K1 Max, and it being shipped with a different variant. A post in case anyone runs into this in the wild. - eviltoast

So I run a repair shop in Altamonte Springs, FL - Got a weird one that searching the internet only turned up 1 other instance of it happening, so I wanted to post some details on the repair in case someone else runs into it or in case Creality doesn’t admit that it’s a thing.

Creality K1 Max - Symptoms: Unable to finish initial calibration. X and Y Axis moving twice as far as commanded, auto leveling absolutely destroying the build plate.

Initial steps in fixing this were to replace the main board. Creality shipped some of these printers with some interference around the main board which could have screwed up the drivers. Many references to this across the internet.

After replacing the main board, it still would not get past the input shaping setup, so the next thing to replace was the toolhead board on the K1. It seems the accelerometer on this one was either A: Damaged by the customer in their attempts to fix, or B: Faulty from the get-go.

After replacing the toolhead board, the machine would get past the initial input shaping, but it would do it in the back left corner of the machine (from experience, this should be done in the center of the plate). So upon homing, I also noticed that it wouldn’t regularly go all the way to the front right of the machine. When commanded to go X negative, 10mm, it would go like 24mm instead.

In the end, I needed to: Replace mainboard, Replace toolhead board, let the machine crash into it self for 20+ minutes while going through Auto-leveling on the initial power on stage, connect it to your network, upgrade the firmware, DO NOT HEED the warning that you need to auto-calibrate again.

Follow this guide to root it: https://guilouz.github.io/Creality-Helper-Script-Wiki/helper-script/helper-script-installation/

THEN, after it’s rooted, install Moonraker/Nginx, Moonraker or Fluidd, then connect to one of those interfaces, edit your printer.cfg and change rotation distance to 72 for this variation of machine.

If you notice that the sensorless homing is not acting perfectly due to the different step-size of this machine, driver_SGTHRS: 55 is the configuration option you’re looking for, and you need to set it on both X and Y. 55 worked for me, but the default is 75. 0 is least sensitive, 255 is most sensitive. I had to set mine to be less sensitive to finally work.

Once you’ve made these changes, you can save/reboot and test out homing/movement once again. If everything seems okay, go ahead and run the self-test to complete the repair.