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Working as software developer. Love 3D printers and projects using them.
  • MilanB42 commented on misan's instructable 4xiDraw2 years ago
    4xiDraw

    I figure it out! :) For my steppers I needed to set 1/16 step mode on pololu, so solution was to remove first two jumpers below drivers. Everything works ok now. I still need to figure out dimensions from InkSpace but I can use scale axis for it when exporting to gcode.

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  • MilanB42 made the instructable 4xiDraw2 years ago
    4xiDraw

    Hey!I need a little help :) Everything works fine but if I move on X or Y axis some distance, real distance is half then I set. Also if I export gcode from inkspace I have to set 7.1 scale on both axes or final result is very small. Do anyone know where could be a problem? Here is '$$' result:>>> $$$0=10 (step pulse, usec)$1=25 (step idle delay, msec)$2=0 (step port invert mask:00000000)$3=0 (dir port invert mask:00000000)$4=0 (step enable invert, bool)$5=0 (limit pins invert, bool)$6=0 (probe pin invert, bool)$10=3 (status report mask:00000011)$11=0.010 (junction deviation, mm)$12=0.002 (arc tolerance, mm)$13=0 (report inches, bool)$20=0 (soft limits, bool)$21=0 (hard limits, bool)$22=0 (homing cycle, bool)$23=0 (homing dir invert mask:00000000)$24=25.000 (homing feed, mm/min)...

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    Hey!I need a little help :) Everything works fine but if I move on X or Y axis some distance, real distance is half then I set. Also if I export gcode from inkspace I have to set 7.1 scale on both axes or final result is very small. Do anyone know where could be a problem? Here is '$$' result:>>> $$$0=10 (step pulse, usec)$1=25 (step idle delay, msec)$2=0 (step port invert mask:00000000)$3=0 (dir port invert mask:00000000)$4=0 (step enable invert, bool)$5=0 (limit pins invert, bool)$6=0 (probe pin invert, bool)$10=3 (status report mask:00000011)$11=0.010 (junction deviation, mm)$12=0.002 (arc tolerance, mm)$13=0 (report inches, bool)$20=0 (soft limits, bool)$21=0 (hard limits, bool)$22=0 (homing cycle, bool)$23=0 (homing dir invert mask:00000000)$24=25.000 (homing feed, mm/min)$25=500.000 (homing seek, mm/min)$26=250 (homing debounce, msec)$27=1.000 (homing pull-off, mm)$100=80.000 (x, step/mm)$101=80.000 (y, step/mm)$102=250.000 (z, step/mm)$110=500.000 (x max rate, mm/min)$111=500.000 (y max rate, mm/min)$112=500.000 (z max rate, mm/min)$120=10.000 (x accel, mm/sec^2)$121=10.000 (y accel, mm/sec^2)$122=10.000 (z accel, mm/sec^2)$130=200.000 (x max travel, mm)$131=200.000 (y max travel, mm)$132=200.000 (z max travel, mm)

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