micro3d

• http://micro3dfans.com/viewtopic.php?f=11&t=215&sid=4794fde495311e3792fd8e2dc65986b0&start=10

• https://printm3d.com/portal/forum/index#/discussion/27/open-g-code/p1

• https://printm3d.com/portal/forum/index#/discussion/27/open-g-code/p2

• http://wiki.micro3dfans.com/index.php?title=M3D_Software_-_The_official_Slicer

• https://printm3d.com/portal/forum/index#/discussion/893/where-is-the-open-source-software-support/p1

• https://printm3d.com/portal/forum/index#/discussion/893/where-is-the-open-source-software-support/p2

• https://github.com/repetier/Repetier-Firmware/blob/master/repetier%20communication%20protocol.txt

• https://github.com/repetier/Repetier-Host/blob/master/src/RepetierHost/model/GCode.cs

• communicates over Virtual COM/Serial with 115200 bps.

• collected info by using JetBrains dotPeek.

• sending S (0x53) returns 768 bytes of data stored in the Atmega EEPROM:

  ç··x>·PE!Ô··ffÊ>‚ˇb?ˆ·°æÿ8\>é"î晥Nø"···Bn·················································································································································································································································································································································································································································································································································································································································································±Ó√··)\7A····································Ù·ûWôC·GR15051501100055·

  The seemingly raw data contains some interesting settings. You can see your serial number at the end. The list below contains the start position of the variable in the EEPROM followed by it's meaning (they are mostly 4 byte integers).

  0: FirmwareVersion
  4: FirmwareCRC
  8: LastRecordedZValue
  12: BacklashX
  16: BacklashY
  20: BedCompensationBackRight
  24: BedCompensationBackLeft
  28: BedCompensationFrontLeft
  32: BedCompensationFrontRight
  36: SpoolRecordID
  40: FilimentTypeID
  41: FilimentTemperature
  42: FilamentAmount
  46: BacklashExpansionXPlus
  50: BacklashExpansionYLPlus
  54: BacklashExpansionYRPlus
  58: BacklashExpansionYRMinus
  62: BacklashExpansionZ
  66: BacklashExpansionE
  70: ZCalibrationBLO
  74: ZCalibrationBRO
  78: ZCalibrationFRO
  82: ZCalibrationFLO
  86: ZCalibrationZO
  689: HeaterCalibrationMode
  690: XMotorCurrent
  692: YMotorCurrent
  694: ZMotorCurrent
  696: HardwareStatus
  698: HeaterTemperatureMeasurement_B
  704: HoursCounterSpooler
  726: XAxisStepsPerMM
  730: YAxisStepsPerMM
  734: ZAxisStepsPerMM
  738: EAxisStepsPerMM
  742: SavedZState
  744: ExtruderCurrent
  746: HeaterResistance_M
  751: SerialNumber

• send 'M115 ' (or other M codes) returns 'B004'.

• looking at the sourcecode 'B001' and 'B5' are also possible return values.

• looking at the source the Micro3D seems to have 2 modes: Bootloader-mode and Firmware-mode.

• GetCRCFromChip: sending 'CA' returns 4 bytes (0x45 0x50 0x1A 0x3E) which is some kind of CRC check of the chip. These 4 bytes are parsed to an Integer: 1162877502

• EraseChip: sending 'E' erases the EEPROM.

• SetAddress: sending 'A' followed by two bytes sets some kind of address.

• according to the sourcecode the printer uses the following microcontroller: ATxmega32C4

• WriteFirmwareToFlash: When a firmware update is done by the M3D software multiple packets are send in the following form: 'B' + byte1 + byte2 + payload.

• to check if the controller is in 'Bootloader' mode the software sends an 'M115 '. If the result is 'B' followed by 3 numeric characters then it's in Bootloader mode otherwise it's in 'Firmware/Application' mode.

• sending 'Q' (0x51) leaves the 'Bootloader' mode and goes into 'Firmware/Application' mode. However, sometimes it seems to Disconnect/Connect the serial port and then comes back in 'Bootloader' mode.

• when you receive 'wait' messages you know that you're in 'Application' mode. Sending a gcode command like 'M115 ' returns 'e1' which is an error message meaning "Process parser returned not supported protocol.". I guess this is because the microcontroller expects a binary format (in the form of Repetier binary gcode?)

• btw: the software contains some hardcoded serial numbers (BK=black, GR=green, OR=orange, SL=silver). Possibly followed by some date/time stamp: YYMMDD0hhmm: BK15033001100, BK15040201050, BK15040301050, BK15040602050, BK15040801050, BK15040802100, GR15032702100, GR15033101100, GR15040601100, GR15040701100, OR15032701100, SL15032601050.

• Based on the experiments of evanchsa on the M3D forum I guess '0x82 0x10 0x00 0x00 0x73 0x00 0x06 0x46' is the binary version of M115 since it indeed returns the following when I send it to my Micro3D.

  ok REPETIER_PROTOCOL:2 FIRMWARE_NAME:Micro3D FIRMWARE_VERSION:2015042701 MACHINE_TYPE:The_Micro X-SERIAL_NUMBER:GR150515011000550

• You can see mine is green and seems to be installed/shipped at May 15th 2015. The firmware version on the machine dates from 2015-04-27 which is weird since it should have been updated two days ago by the M3D software. Anyway, we're getting somewhere.