Skip to main content
    • First things first: you're going to need a copy of Repetier.

    • If you are upgrading an existing 3D printer to use a Titan, you should try to get a copy of your current firmware from your printer's manufacturer.

    • If you're building a new printer, or simply want to upgrade to the latest version of Repetier, download it at https://www.repetier.com/download-now/

    • If you download a fresh version of Repetier you'll have to configure more settings than the ones mentioned in this guide so that it will work well with your printer.

  1. Almost all printers use Arduino IDE to upload fresh firmware, so download it at https://www.arduino.cc/en/Main/Software
    • Unzip Repetier from the zip file you downloaded and put the resulting folder anywhere on your computer for safe keeping.

    • Inside this folder, navigate to the Repetier sub-folder, and open the Repetier.ino file. This should open every file in Marlin.

    • Find the Configuration.h file

    • Rather than manually editing the configuration file, you can also upload it to the online configurator.

  2. If your old extruder was ungeared, you'll notice that your new Titan extrudes backwards! Flip the folowing line in the Configuration.h file from 0 to 1, or vice versa: EXT0_INVERSE
    • If your old extruder was ungeared, you'll notice that your new Titan extrudes backwards!

    • Flip the folowing line in the Configuration.h file from 0 to 1, or vice versa: EXT0_INVERSE

    • If you're using the online configuration tool, navigate to the Tools tab and toggle the box labelled Invert Motor Direction.

  3. The next thing we'll have to update is your printer's E-steps-per-mm.
    • The next thing we'll have to update is your printer's E-steps-per-mm.

    • Your slicer will generate G-Code for your printer, which will tell it to extrude a certain length (in millimeters) of filament. Your printer takes those lengths of filament and calculates how much it should rotate your Titan's stepper motor to push out the expected amount filament. This number is used to make that conversion

    • First, we'll start with a ball-park estimate of your E-steps-per-mm, and then we'll fine-tune it.

    • If you're using the standard Titan Slimline motor, start with 837 Steps-per-mm

    • To set your new E-steps-per-mm you need to edit your firmware and EEPROM

    • EEPROM are special settings that can be changed without re-uploading new firmware to your printer. Steps-per-mm settings for each axis are included in the EEPROM. If you update your firmware, your EEPROM will overwrite any changes your firmware might have tried to make.

    • Not all printers have EEPROM settings, so if you can't update them, just update your firmware instead.

  4. With Repetier Host: Connect to your printer and go to Config → Firmware EEPROM Configuration  and edit the E-steps setting. Make sure to save afterwards. Over USB Connection without Repetier Host:
    • With Repetier Host:

    • Connect to your printer and go to Config → Firmware EEPROM Configuration and edit the E-steps setting. Make sure to save afterwards.

    • Over USB Connection without Repetier Host:

    • Use a printer control software to connect to your printer. Send the command M92 E<your number here>to your printer. Then, send M500 to store your settings

    • In the Online Configuration tool:

    • In the Tools tab, scroll down to Extruder and update the Resolution number. If you have EEPROM, go to the General tab and switch the EEPROM usage to a different EEPROM Set to overwrite your printer's settings.

    • If you don't have EEPROM, or want your firmware to be consistant with your EEPROM:

    • Update the following line with your new value: #define EXT0_STEPS_PER_MM <your number here>. Upload your firmware as normal.

  5. To get a more exact value for your E-steps-per-mm, measure the exact amount of filament that is pushed out of your extruder. Load filament into your extruder, just until it is gripped by the drive shaft (you can't pull it out without moving the large gear turning) Mark your filament at the top of the idler arm or PTFE tubing  with a pen or permanent marker .
    • To get a more exact value for your E-steps-per-mm, measure the exact amount of filament that is pushed out of your extruder.

    • Load filament into your extruder, just until it is gripped by the drive shaft (you can't pull it out without moving the large gear turning)

    • Mark your filament at the top of the idler arm or PTFE tubing with a pen or permanent marker .

    • Tell your printer to extrude 100mm of filament. Use your printer's LCD screen, or send it: G92 E0, then G1 E100 via your printer control software.

    • You may need to heat your HotEnd before your printer allows you to extrude filament. You can use M302 command to get around that.

    • Mark your filament again at the top of your idler arm or PTFE tubing

    • Eject your filament.

  6. With a ruler or calipers, measure the distance between the two marks on your filament. If the distance wasn't exactly 100mm, use a proportion to calculate a more precise E-steps-per-mm value. Enter that new value into your firmware or EEPROM as you did before.
    • With a ruler or calipers, measure the distance between the two marks on your filament.

    • If the distance wasn't exactly 100mm, use a proportion to calculate a more precise E-steps-per-mm value.

    • Enter that new value into your firmware or EEPROM as you did before.

    • Upload the new firmware to your electronics as you normally would. Typically this means plugging in your printer to your computer, selecting the correct COM port and board type, and pressing the upload button.

    • If you're unsure of how to update your printer's firmware, check with its manufacturer.

Conclusion

You're all done. Enjoy your new Titan!

One other person completed this guide.

Gabe S.

Member since: 08/08/2017

13,677 Reputation

41 Guides authored

0 Comments

Add Comment

View Statistics:

Past 24 Hours: 0

Past 7 Days: 12

Past 30 Days: 52

All Time: 2,487