@dc42 That was the problem. Thank you very much!
Posts made by CR-34T3R
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RE: Can't select tools/activate heaters after updating to 3.3RC3
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Can't select tools/activate heaters after updating to 3.3RC3
I have an E3D Tool Changer that was working fine on an earlier RRF3.2 revision and now I can't select any of my tools or activate any heaters. Every time I run T0-4 and follow up with T it tells me no tool is selected.
I'm not getting any errors when loading config.g or during any of my manual run of tpre, tpost, and tfree macros aside from extruding without a tool selected, as you might expect. Running T0-4 or attempting to activate a heater seems to just run tpre and then nothing happens.
I've tried erasing the fw from the board and reloading via Bossa but I'm right back where I was.
I have no issues with kinematics or homing and my sensors are working normally.
I'm hoping I just missed something in the documentation but the Gcode reference doesn't seem to mention anything.
Any help is appreciated. Thank you.
; General preferences G90; send absolute coordinates... M83; ...but relative extruder moves M550 P"Tool Changer"; set printer name M667 S1; select CoreXY mode ; Network M552 S1 ; Enable WiFi Networking M586 P0 S1 ; enable HTTP M586 P1 S1 ; enable FTP M586 P2 S1 ; enable Telnet ; Drives M569 P0 S0 ; Drive 0 X M569 P1 S0 ; Drive 1 Y M569 P2 S1 ; Drive 2 Z M569 P3 S0 ; Drive 3 E0 M569 P4 S1 ; Drive 4 E1 M569 P5 S0 ; Drive 5 E2 M569 P6 S0 ; Drive 6 E3 M569 P7 S0 ; Drive 7 COUPLER M569 P8 S0 ; Drive 8 UNUSED M569 P9 S0 ; Drive 9 UNUSED M584 X0 Y1 Z2 C7 E3:4:5:6 ; set drive mapping M350 C8 E64:8:8:8 I0 ; configure microstepping without interpolation M350 X64 Y64 Z64 I0 ; configure microstepping with interpolation M92 X400 Y400 Z6419.2 C100.00 E1588:207.5:207.5:207.5 ; set steps per mm M205 X30 Y30 Z2.5 C2 E25:25:25:25 ; Set maximum instantaneous speed changes (mm/s) M203 X27000 Y27000 Z800 C5000 E6000:6000:6000:6000 ; Set maximum speeds (mm/min) M201 X10000 Y10000 Z1000 C500 E3000:3000:3000:3000 ; Set accelerations (mm/s^2) M204 P800 T10000 ; Set print and travel accellerations (mm/s^2) M906 X1800 Y1800 Z1500 C600 E1100:1400:1400:1400 I25 ; set motor currents (mA) and motor idle factor in per cent M84 S30 ; Set idle timeout ; Axis Limits M208 X-31.6:332 Y-49.5:247 Z0:290 C0:250 ; Set axis maxima & minima ; Endstops M574 X1 S3 ; configure sensorless endstop for low end on X M574 Y1 S3 ; configure sensorless endstop for low end on Y M574 Z1 S2 ; configure Z-probe endstop for low end on Z ; Z-Probe M558 P5 C"zprobe.in+zprobe.mod" H1 F100 T24000 A20 S.005 ; set Z probe type to switch and the dive height + speeds G31 P200 X0 Y0 Z-0.05 ; set Z probe trigger value, offset and trigger height M557 X10:290 Y10:190 S30 ; define mesh grid ; Heaters M308 S0 P"bedtemp" Y"thermistor" T100000 B4138 ; configure sensor 0 as thermistor on pin bedtemp M950 H0 C"bedheat" T0 ; create bed heater output on bedheat and map it to sensor 0 M143 H0 S120 ; set temperature limit for heater 0 to 120C M307 H0 B0 S1.00 ; disable bang-bang mode for the bed heater and set PWM limit M140 H0 ; map heated bed to heater 0 M308 S1 P"spi.cs1" Y"rtd-max31865" ; configure sensor 1 as thermocouple via CS pin spi.cs1 M950 H1 C"e0heat" T1 ; create nozzle heater output on e0heat and map it to sensor 1 M143 H1 S320 ; set temperature limit for heater 1 to 280C M307 H1 B0 S1.00 ; disable bang-bang mode for heaterand set PWM limit M308 S2 P"spi.cs2" Y"rtd-max31865" ; configure sensor 2 as thermocouple via CS pin spi.cs2 M950 H2 C"e1heat" T2 ; create nozzle heater output on e1heat and map it to sensor 2 M143 H2 S320 ; set temperature limit for heater 2 to 280C M307 H2 B0 S1.00 ; disable bang-bang mode for heaterand set PWM limit M308 S3 P"spi.cs3" Y"rtd-max31865" ; configure sensor 3 as thermocouple via CS pin spi.cs3 M950 H3 C"duex.e2heat" T3 ; create nozzle heater output on duex.e2heat and map it to sensor 3 M143 H3 S320 ; set temperature limit for heater 3 to 280C M307 H3 B0 S1.00 ; disable bang-bang mode for heaterand set PWM limit M308 S4 P"spi.cs4" Y"rtd-max31865" ; configure sensor 4 as thermocouple via CS pin spi.cs4 M950 H4 C"duex.e3heat" T4 ; create nozzle heater output on duex.e3heat and map it to sensor 4 M143 H4 S320 ; set temperature limit for heater 4 to 280C M307 H4 B0 S1.00 ; disable bang-bang mode for heaterand set PWM limit ; Fans M950 F0 C"fan0" Q25000 ; create fan 0 on pin fan0 and set its frequency M106 P0 C"Unused" S0 H0 ; set fan 0 name and value. Thermostatic control is turned on M950 F1 C"fan1" Q25000 ; create fan 1 on pin fan1 and set its frequency M106 P1 C"T0 HS" S1 H1 T45 ; set fan 1 name and value. Thermostatic control is turned on M950 F2 C"fan2" Q25000 ; create fan 2 on pin fan2 and set its frequency M106 P2 C"T0 PCF" S0 H-1 ; set fan 2 name and value. Thermostatic control is turned off M950 F3 C"duex.fan3" Q25000 ; create fan 3 on pin duex.fan3 and set its frequency M106 P3 C"T1 HS" S1 H2 T45 ; set fan 3 name and value. Thermostatic control is turned on M950 F4 C"duex.fan4" Q9000 ; create fan 4 on pin duex.fan4 and set its frequency M106 P4 C"T1 PCF" S0 H-1 ; set fan 4 name and value. Thermostatic control is turned off M950 F5 C"duex.fan5" Q25000 ; create fan 5 on pin duex.fan5 and set its frequency M106 P5 C"T2 HS" S1 H3 T45 ; set fan 5 name and value. Thermostatic control is turned on M950 F6 C"duex.fan6" Q25000 ; create fan 6 on pin duex.fan6 and set its frequency M106 P6 C"T2 PCF" S0 H-1 ; set fan 6 name and value. Thermostatic control is turned off M950 F7 C"duex.fan7" Q25000 ; create fan 7 on pin duex.fan7 and set its frequency M106 P7 C"T3 HS" S1 H4 T45 ; set fan 7 name and value. Thermostatic control is turned on M950 F8 C"duex.fan8" Q25000 ; create fan 8 on pin duex.fan8 and set its frequency M106 P8 C"T3 PCF" S0 H-1 ; set fan 8 name and value. Thermostatic control is turned off ; Tools ;M207 S0.0 F1800 R0 Z0.00 ; Firmware retraction M563 P0 S"T0" D0 H1 F2 ; define tool 0 M568 P0 R0 S0 ; set initial tool 0 active and standby temperatures to 0C M563 P1 S"T1" D1 H2 F4 ; define tool 1 M568 P1 R0 S0 ; set initial tool 1 active and standby temperatures to 0C M563 P2 S"T2" D2 H3 F6 ; define tool 2 M568 P2 R0 S0 ; set initial tool 2 active and standby temperatures to 0C M563 P3 S"T3" D3 H4 F8 ; define tool 3 M568 P3 R0 S0 ; set initial tool 3 active and standby temperatures to 0C ;Tool offsets G10 P0 X20.8 Y43.4 Z-5.30 ; T0 G10 P1 X-8.5 Y39 Z-4.95 ; T1 G10 P2 X-8 Y39.2 Z-4.75 ; T2 G10 P3 X-8 Y39 Z-4.85 ; T3 ;Pressure advance M572 D0 S0.06 ; pressure advance T0 M572 D0 S0.0 ; pressure advance T0 M572 D1 S0.0 ; pressure advance T1 M572 D2 S0.0 ; pressure advance T2 M572 D3 S0.0 ; pressure advance T3 ; Custom settings M302 P0 ; Allow/Disable cold extrudes ;M593 F50 ; cancel ringing at 50Hz (https://forum.e3d-online.com/threads/accelerometer-and-resonance-measurements-of-the-motion-system.3445/) M564 H1 S1 ; Disllow movement without homing, stay within limits when homed M501 ; load saved parameters from non-volatile memory M911 S23.5 R24 P"M913 X0 Y0 G91 M83 G1 Z3 E-5 F1000" ; set voltage thresholds and actions to run on power loss ;T-1 ; select first tool
tpre0:
; tpre0.g ; called before tool 0 is selected ;Ensure no tool is selected T-1 ;Unlock Coupler M98 P"/macros/Coupler - Unlock" G1 X-9 Y200 F50000 G1 X-9 Y220 F50000 G1 X-9 Y228 F2500 ;Close Coupler M98 P"/macros/Coupler - Lock" ;WARNING! WARNING! WARNING! WARNING! WARNING! WARNING! WARNING! WARNING! WARNING! WARNING! WARNING! WARNING! ;if you are using non-standard length hotends ensure the bed is lowered enough BEFORE undocking the tool! G91 G1 Z10 F1000 G90 ;Move Out G1 X-9 Y150 F4000 M208 X-31.8:320.5
tpost0:
; tpost0.g ; called after tool 0 has been selected ;heatup M116 P0 ;prime nozzle ;M302 P1 S50 R50 M98 P"prime.g" ;M302 P0 ;mesh levelling on G29 S1 ;PCF fan on ;M106 P2 S127
tfree0:
; tfree0.g ; called when tool 0 is freed ;Drop the bed G91 G1 Z4 F1000 G90 ;mesh levelling off G29 S2 ;Purge nozzle ;M302 P0 S50 R50 M98 P"purge.g" ;M302 P1 ;Move In G53 G1 X-9 Y150 F50000 G53 G1 X-9 Y200 F50000 G53 G1 X-9 Y220 F50000 G53 G1 X-9 Y228 F5000 ;Open Coupler M98 P"/macros/Coupler - Unlock" ;fan off M106 P2 S0 ;Move Out G53 G1 X-9 Y175 F5000 M208 X-31.8:332
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RE: Filament sensor feedback instead of M592 correction?
Did you ever get any traction with this? I'm contemplating these issues right now and finding myself perplexed why this hasn't been implemented yet. I made a post recently about merging the IR-based filament width monitoring feature from Marlin and was basically shot out of the sky. I could see combining that with this idea could be a powerful combination.
Devs, hear my prayers!
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Filament Width Sensor/Monitor Implementation?
Did a fair bit of searching for this and didn't come up with anything so please let me know if your Google-fu is stronger than mine and I just missed it.
I'd like to make use of this filament width sensor I found on Thingiverse designed by user "flipper" but don't see anything in the Duet documentation that talks about doing this. I'm using a DuetWifi2 and Duex5 if that matters.
Conceptually, I don't think it would be that difficult to program. The board outputs a DC voltage that can be monitored and, depending on the calibration, have the software monitoring that voltage trigger G-Code to set the filament width to the new value. Marlin has this built in, apparently. I was initially thinking of putting it on my Anet but it would be way more badass on my Duet machine. Any chance of this happening?
Thanks!
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RE: Duet wifi S3D
For anyone still looking through this thread, the following S3D script will upload the file to your printer (with a timestamp) and tell it to start printing that file much like Slic3r would do:
curl -F "file=@[output_filepath]" "http://XXX.XXX.XXX.XXX/rr_upload?name=gcodes/[output_filename].gcode&time=YYY" curl "http://XXX.XXX.XXX.XXX/rr_gcode?gcode=M32[output_filename].gcode"
Copy and paste into "Additional terminal commands for post processing" under the Scripts tab and replace XXX.XXX.XXX.XXX with your printer's IP address or hostname if applicable. As mentioned above, DWC will throw a couple of errors but doesn't seem to impact the print in any way. Happy printing!
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RE: Non-Linear Extrusion
Mathematically inept person here. I get the principle behind M592 but, despite spending the last 2hrs reviewing vague G-Code documentation and a slew of forum posts, I still don't understand where these A and B values are coming from/how they are being calculated from the measurements you're taking. Can you help me, please?