tinyg always moves to far, by factor ~25

Home Forums TinyG TinyG Support tinyg always moves to far, by factor ~25

Viewing 5 posts - 1 through 5 (of 5 total)
  • Author
    Posts
  • #8909

    so I’m at a loss, since a couple of weeks I’m trying to get my tinyg working with on of my xcarves and no matter what I do, it always moves way to far.

    For example I tell it to to X1 in metric mode, but it seems to be always moving in inches, so it moves to 1″. If I switch to inch mode and tell it to go to X1, it seems to move > 10 inches, which is really odd.

    Anybody has any idea what the cause for this could be?

    I reset it to factory settings, etc. The only thing I haven’t done yet is update the firmware.

    thanks and kind regards,

    Gert

    –config–

    [fb] firmware build 440.14
    [fv] firmware version 0.97
    [hp] hardware platform 1.00
    [hv] hardware version 8.00
    [id] TinyG ID 3W5230-LQR
    [ja] junction acceleration 100000 mm
    [ct] chordal tolerance 0.0100 mm
    [sl] soft limit enable 0
    [st] switch type 0 [0=NO,1=NC]
    [mt] motor idle timeout 2.00 Sec
    [ej] enable json mode 0 [0=text,1=JSON]
    [jv] json verbosity 2 [0=silent,1=footer,2=messages,3=configs,4=linenum,5=verbose]
    [js] json serialize style 0 [0=relaxed,1=strict]
    [tv] text verbosity 0 [0=silent,1=verbose]
    [qv] queue report verbosity 0 [0=off,1=single,2=triple]
    [sv] status report verbosity 2 [0=off,1=filtered,2=verbose]
    [si] status interval 100 ms
    [ec] expand LF to CRLF on TX 0 [0=off,1=on]
    [ee] enable echo 0 [0=off,1=on]
    [ex] enable flow control 2 [0=off,1=XON/XOFF, 2=RTS/CTS]
    [baud] USB baud rate 5 [1=9600,2=19200,3=38400,4=57600,5=115200,6=230400]
    [net] network mode 0 [0=master]
    [gpl] default gcode plane 0 [0=G17,1=G18,2=G19]
    [gun] default gcode units mode 1 [0=G20,1=G21]
    [gco] default gcode coord system 1 [1-6 (G54-G59)]
    [gpa] default gcode path control 2 [0=G61,1=G61.1,2=G64]
    [gdi] default gcode distance mode 0 [0=G90,1=G91]
    [1ma] m1 map to axis 0 [0=X,1=Y,2=Z…]
    [1sa] m1 step angle 1.800 deg
    [1tr] m1 travel per revolution 40.0000 mm
    [1mi] m1 microsteps 1 [1,2,4,8]
    [1po] m1 polarity 1 [0=normal,1=reverse]
    [1pm] m1 power management 2 [0=disabled,1=always on,2=in cycle,3=when moving]
    [2ma] m2 map to axis 1 [0=X,1=Y,2=Z…]
    [2sa] m2 step angle 1.800 deg
    [2tr] m2 travel per revolution 40.0000 mm
    [2mi] m2 microsteps 1 [1,2,4,8]
    [2po] m2 polarity 1 [0=normal,1=reverse]
    [2pm] m2 power management 2 [0=disabled,1=always on,2=in cycle,3=when moving]
    [3ma] m3 map to axis 2 [0=X,1=Y,2=Z…]
    [3sa] m3 step angle 1.800 deg
    [3tr] m3 travel per revolution 40.0000 mm
    [3mi] m3 microsteps 1 [1,2,4,8]
    [3po] m3 polarity 1 [0=normal,1=reverse]
    [3pm] m3 power management 2 [0=disabled,1=always on,2=in cycle,3=when moving]
    [4ma] m4 map to axis 3 [0=X,1=Y,2=Z…]
    [4sa] m4 step angle 1.800 deg
    [4tr] m4 travel per revolution 360.0000 mm
    [4mi] m4 microsteps 8 [1,2,4,8]
    [4po] m4 polarity 0 [0=normal,1=reverse]
    [4pm] m4 power management 2 [0=disabled,1=always on,2=in cycle,3=when moving]
    [xam] x axis mode 1 [standard]
    [xvm] x velocity maximum 3000 mm/min
    [xfr] x feedrate maximum 3000 mm/min
    [xtn] x travel minimum 0.000 mm
    [xtm] x travel maximum 300.000 mm
    [xjm] x jerk maximum 50000 mm/min^3 * 1 million
    [xjh] x jerk homing 5000 mm/min^3 * 1 million
    [xjd] x junction deviation 0.0500 mm (larger is faster)
    [xsn] x switch min 1 [0=off,1=homing,2=limit,3=limit+homing]
    [xsx] x switch max 0 [0=off,1=homing,2=limit,3=limit+homing]
    [xsv] x search velocity 300 mm/min
    [xlv] x latch velocity 300 mm/min
    [xlb] x latch backoff 2.000 mm
    [xzb] x zero backoff 1.000 mm
    [yam] y axis mode 1 [standard]
    [yvm] y velocity maximum 3000 mm/min
    [yfr] y feedrate maximum 3000 mm/min
    [ytn] y travel minimum 0.000 mm
    [ytm] y travel maximum 300.000 mm
    [yjm] y jerk maximum 50000 mm/min^3 * 1 million
    [yjh] y jerk homing 5000 mm/min^3 * 1 million
    [yjd] y junction deviation 0.0500 mm (larger is faster)
    [ysn] y switch min 1 [0=off,1=homing,2=limit,3=limit+homing]
    [ysx] y switch max 0 [0=off,1=homing,2=limit,3=limit+homing]
    [ysv] y search velocity 300 mm/min
    [ylv] y latch velocity 300 mm/min
    [ylb] y latch backoff 2.000 mm
    [yzb] y zero backoff 1.000 mm
    [zam] z axis mode 1 [standard]
    [zvm] z velocity maximum 500 mm/min
    [zfr] z feedrate maximum 500 mm/min
    [ztn] z travel minimum 0.000 mm
    [ztm] z travel maximum 100.000 mm
    [zjm] z jerk maximum 50000 mm/min^3 * 1 million
    [zjh] z jerk homing 5000 mm/min^3 * 1 million
    [zjd] z junction deviation 0.0500 mm (larger is faster)
    [zsn] z switch min 1 [0=off,1=homing,2=limit,3=limit+homing]
    [zsx] z switch max 0 [0=off,1=homing,2=limit,3=limit+homing]
    [zsv] z search velocity 100 mm/min
    [zlv] z latch velocity 300 mm/min
    [zlb] z latch backoff 2.000 mm
    [zzb] z zero backoff 1.000 mm
    [aam] a axis mode 3 [radius]
    [avm] a velocity maximum 230400 deg/min
    [afr] a feedrate maximum 230400 deg/min
    [atn] a travel minimum -1.000 deg
    [atm] a travel maximum -1.000 deg
    [ajm] a jerk maximum 5760 deg/min^3 * 1 million
    [ajh] a jerk homing 11520 deg/min^3 * 1 million
    [ajd] a junction deviation 0.0500 deg (larger is faster)
    [ara] a radius value 0.1989 deg
    [asn] a switch min 1 [0=off,1=homing,2=limit,3=limit+homing]
    [asx] a switch max 0 [0=off,1=homing,2=limit,3=limit+homing]
    [asv] a search velocity 600 deg/min
    [alv] a latch velocity 100 deg/min
    [alb] a latch backoff 5.000 deg
    [azb] a zero backoff 2.000 deg
    [bam] b axis mode 0 [disabled]
    [bvm] b velocity maximum 3600 deg/min
    [bfr] b feedrate maximum 3600 deg/min
    [btn] b travel minimum -1.000 deg
    [btm] b travel maximum -1.000 deg
    [bjm] b jerk maximum 20 deg/min^3 * 1 million
    [bjd] b junction deviation 0.0500 deg (larger is faster)
    [bra] b radius value 1.0000 deg
    [cam] c axis mode 0 [disabled]
    [cvm] c velocity maximum 3600 deg/min
    [cfr] c feedrate maximum 3600 deg/min
    [ctn] c travel minimum -1.000 deg
    [ctm] c travel maximum -1.000 deg
    [cjm] c jerk maximum 20 deg/min^3 * 1 million
    [cjd] c junction deviation 0.0500 deg (larger is faster)
    [cra] c radius value 1.0000 deg
    [p1frq] pwm frequency 100 Hz
    [p1csl] pwm cw speed lo 1000 RPM
    [p1csh] pwm cw speed hi 2000 RPM
    [p1cpl] pwm cw phase lo 0.125 [0..1]
    [p1cph] pwm cw phase hi 0.200 [0..1]
    [p1wsl] pwm ccw speed lo 1000 RPM
    [p1wsh] pwm ccw speed hi 2000 RPM
    [p1wpl] pwm ccw phase lo 0.125 [0..1]
    [p1wph] pwm ccw phase hi 0.200 [0..1]
    [p1pof] pwm phase off 0.100 [0..1]
    [g54x] g54 x offset 0.000 mm
    [g54y] g54 y offset 0.000 mm
    [g54z] g54 z offset 0.000 mm
    [g54a] g54 a offset 0.000 deg
    [g54b] g54 b offset 0.000 deg
    [g54c] g54 c offset 0.000 deg
    [g55x] g55 x offset 75.000 mm
    [g55y] g55 y offset 75.000 mm
    [g55z] g55 z offset 0.000 mm
    [g55a] g55 a offset 0.000 deg
    [g55b] g55 b offset 0.000 deg
    [g55c] g55 c offset 0.000 deg
    [g56x] g56 x offset 0.000 mm
    [g56y] g56 y offset 0.000 mm
    [g56z] g56 z offset 0.000 mm
    [g56a] g56 a offset 0.000 deg
    [g56b] g56 b offset 0.000 deg
    [g56c] g56 c offset 0.000 deg
    [g57x] g57 x offset 0.000 mm
    [g57y] g57 y offset 0.000 mm
    [g57z] g57 z offset 0.000 mm
    [g57a] g57 a offset 0.000 deg
    [g57b] g57 b offset 0.000 deg
    [g57c] g57 c offset 0.000 deg
    [g58x] g58 x offset 0.000 mm
    [g58y] g58 y offset 0.000 mm
    [g58z] g58 z offset 0.000 mm
    [g58a] g58 a offset 0.000 deg
    [g58b] g58 b offset 0.000 deg
    [g58c] g58 c offset 0.000 deg
    [g59x] g59 x offset 0.000 mm
    [g59y] g59 y offset 0.000 mm
    [g59z] g59 z offset 0.000 mm
    [g59a] g59 a offset 0.000 deg
    [g59b] g59 b offset 0.000 deg
    [g59c] g59 c offset 0.000 deg
    [g92x] g92 x offset 0.000 mm
    [g92y] g92 y offset 0.000 mm
    [g92z] g92 z offset 0.000 mm
    [g92a] g92 a offset 0.000 deg
    [g92b] g92 b offset 0.000 deg
    [g92c] g92 c offset 0.000 deg
    [g28x] g28 x position 0.000 mm
    [g28y] g28 y position 0.000 mm
    [g28z] g28 z position 0.000 mm
    [g28a] g28 a position 0.000 deg
    [g28b] g28 b position 0.000 deg
    [g28c] g28 c position 0.000 deg
    [g30x] g30 x position 0.000 mm
    [g30y] g30 y position 0.000 mm
    [g30z] g30 z position 0.000 mm
    [g30a] g30 a position 0.000 deg
    [g30b] g30 b position 0.000 deg

    #8912
    cmcgrath5035
    Moderator

    You do need to update your FW, but 440.14 should not be behaving like this.

    >>> If you are, perchance, using tgFX, stop here.
    tgFX is no longer supported.
    We’ll have a whole different discussion on how to proceed.

    What do you use as a GUI interface (Chilipeppr, CoolTerm, ….)?
    You say you reset to factory defaults, then obviously tweaked some, but not all of your parameters.
    How did you make parameter changes? ChiliPeppr CLI, ChiliPeppr configuretinyG widget, CoolTerm,… ?

    What you posted is a somewhat unusual configuration.
    You have the Z axis set to $3tr=40mm, same as X and Y.
    You have $_mi=1, no microstepping on X,Y, and Z.
    Your motors are assigned to X,Y,Z and A.
    I believe XCarve has two Y motors, you have them both connected to a single driver (motor 2 driver)?

    What setup guidelines are you following?

    #8914

    Regarding your feedback I use coolterm, as well as a custom software I developed. But lets just sick with coolterm.

    I will attempt to update the firmware later tonight, to see if this solves these issues.

    regarding my posted configuration, it might be a bit unusual, but let’s focus just on the X and Y axis, which should behave like any normal xcarve/shapeoko 2. We just use this platform as foundation for developing a different robot.

    The setup is also based on the standard shapeokoe configuration pages and the settings should reflect this (again only for the x and y axis. ignore the z).

    This still sadly does not explain, why both the inch as well as the metric modes are so far off.

    #8915

    ok after updating the firmware, it ended up working as supposed.

    #8917
    cmcgrath5035
    Moderator

    OK, good news for you.

    It is difficult to predict the root of your original problem.
    We see, occasionally, corruption of internal constants and parameters that get cleared (reset) with a FW upgrade or when a $defa=1 command gets executed.

    I recommend that you frequently keeps backups of your $$ parameter sets.

    Also, exercise caution when coding custom software that downloads parameters to tinyG. It is best to send parameters one at a time, waiting for a tinyG acknowledgement before proceeding.

    Good luck with your project

Viewing 5 posts - 1 through 5 (of 5 total)
  • You must be logged in to reply to this topic.