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MonkeyManGuy
MemberChanging the setting to CTS is now allowing the Pi to send rtf files from Coolterm!
I will go ahead and read about Putty as well as Xon/Xoff’s current status with Pi’s just to absorb a little.
Thanks!
MemberYes Rich Text Format/RTF
$ex=2 was already set and RTS was already set to on. Its also got XON flow control set. (Both on OSX and the Pi). Should I try CTS?
You were actually helping me about a month ago about with setting up Chillipeppr on the Pi, we eventually found the problem I was having is that I hadnt realized I out in the rouge by trying to run it 100% on the Pi. I really dont want to get 2 computers & wifi involved in this if possible.
MemberWas the reply I made here deleted? I says this topic was updated by myself 1day and 5 hours ago, which is true. Although the reply is missing? Can anyone else see it?
I can retype it if need be.
MemberWhat is the maximum amount of amps the TinyG can put out?
Membercmcgrath5035 you are a genius! That was my hold up. I wouldn’t of thought to try that with such an odly low and specific velocity limit
Thanks
Member[fb] firmware build 440.20
[fv] firmware version 0.97
[hp] hardware platform 1.00
[hv] hardware version 8.00
[id] TinyG ID 7X2109-CYH
[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 0.50 Sec
[ej] enable json mode 0 [0=text,1=JSON]
[jv] json verbosity 5 [0=silent,1=footer,2=messages,3=configs,4=linenum,5=verbose]
[js] json serialize style 1 [0=relaxed,1=strict]
[tv] text verbosity 1 [0=silent,1=verbose]
[qv] queue report verbosity 2 [0=off,1=single,2=triple]
[sv] status report verbosity 1 [0=off,1=filtered,2=verbose]
[si] status interval 500 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 119.5000 mm
[1mi] m1 microsteps 4 [1,2,4,8]
[1po] m1 polarity 0 [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 3 [0=X,1=Y,2=Z…]
[2sa] m2 step angle 1.800 deg
[2tr] m2 travel per revolution 3.1400 mm
[2mi] m2 microsteps 1 [1,2,4,8]
[2po] m2 polarity 0 [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 345.0000 mm
[3mi] m3 microsteps 8 [1,2,4,8]
[3po] m3 polarity 0 [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 65000 mm/min
[xfr] x feedrate maximum 800 mm/min
[xtn] x travel minimum 0.000 mm
[xtm] x travel maximum 150.000 mm
[xjm] x jerk maximum 35000 mm/min^3 * 1 million
[xjh] x jerk homing 40 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 500 mm/min
[xlv] x latch velocity 100 mm/min
[xlb] x latch backoff 5.000 mm
[xzb] x zero backoff 1.000 mm
[yam] y axis mode 1 [standard]
[yvm] y velocity maximum 650 mm/min
[yfr] y feedrate maximum 800 mm/min
[ytn] y travel minimum 0.000 mm
[ytm] y travel maximum 150.000 mm
[yjm] y jerk maximum 1000 mm/min^3 * 1 million
[yjh] y jerk homing 40 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 500 mm/min
[ylv] y latch velocity 100 mm/min
[ylb] y latch backoff 5.000 mm
[yzb] y zero backoff 1.000 mm
[zam] z axis mode 1 [standard]
[zvm] z velocity maximum 400000 mm/min
[zfr] z feedrate maximum 800 mm/min
[ztn] z travel minimum 0.000 mm
[ztm] z travel maximum 75.000 mm
[zjm] z jerk maximum 1000000 mm/min^3 * 1 million
[zjh] z jerk homing 40 mm/min^3 * 1 million
[zjd] z junction deviation 0.0500 mm (larger is faster)
[zsn] z switch min 0 [0=off,1=homing,2=limit,3=limit+homing]
[zsx] z switch max 1 [0=off,1=homing,2=limit,3=limit+homing]
[zsv] z search velocity 400 mm/min
[zlv] z latch velocity 100 mm/min
[zlb] z latch backoff 5.000 mm
[zzb] z zero backoff 1.000 mm
[aam] a axis mode 3 [radius]
[avm] a velocity maximum 400 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 50.000 mm
[g55y] g55 y offset 50.000 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
[g30c] g30 c position 0.000 degMemberIm using Coolterm. Ive also tried typing in the G1 code manually, which may be seen identically to sending a text file as far as the TinyG is concerned.
I will post the $$ file tomorrow.
MemberThanks, Ill send an email.
MemberHow can I contact you? And thanks
MemberThe settings in both are the same as the wiki guide. I will certainly double check.
Ill try a parameter dump but nothing is appearing on the screen so Im not sure Ill be able to see anything.
MemberGenerally speaking, I would agree with your statement. It s rather easy to fracture the very fine wires connecting most steppers. It is also easy to clamp down on the insulation , rather than the wire, when inserting using the screw terminals.
Its getting direct contact with the wires. Ive tripped checked. The terminal itself is already broken. Very dissapointing.
Also, if you are adjusting the current trim pot these are easily broken. If you over torque them then you can get them into a state that is either stuck really high or really low. You can test this by getting a small screw driver and SUPER gently turn the current pot until you feel the resistance to stop. If you never feel this resistance then you have over torqued this current pot and it is broken.
I read the directions and was very careful with the pots. Its quite easy to feel their travel limits. All 4 are still intact and have not been damaged.
Membercmcgrath5035,
I am using the screw terminals with the standard 4 wire connectors that come with stepper motors. If the connectors were the issue then I believe it would have had the same issue when operating on the Zaxis, would it not?
I will try plugging (screwing) the Xaxis motor into the Yaxis to test this.
MemberZootalaws, thanks for the reply. Ill look into UGS for my Raspberry Pi.
When searching I actually didnt see any Shields that would handle the 2 amps I need for the main motor. Theres a chance Ill have to upgrade that motor even so.
Further development will involve running 2 machines from this TinyG to utilize the other 2 motor ports, as well as getting the rod to twist while traveling on the X-axis, and having this twist slowly fade away over a few thousand repititions. Until it finishes on a straight line.
Theres also a feature I built in that will allow it to sense the pressure being applied to the rod; as if it drops too low the machine must halt for an adjustment. This could allow software to develop a map of the inside the barrel, where the internal diameter begins restricting or enlarging.
More complexity is certianly in the works for this TinyG. Im taking it 1 step at a time.
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