I have also tested the firmware and am very satisfied with the improved quality. I haven’t been able to make any fine adjustments yet, but I have increased the speed by 50mm/s as well.
Best posts made by Proschi3D
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RE: RepRapFirmware 3.6.0-alpha.2 for Duet main boards availableposted in Beta Firmware
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RE: U Axis not movingposted in General Discussion
@SonnyD1 this is my setting of the limit switches with an Idex printer
; Endstops M574 Y1 S1 P"io1.in" M574 X1 S1 P"io2.in" M574 U2 S1 P"io4.in" M574 Z2 S1 P"io6.in"I think U2 S1 would be correct right?
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RE: U Axis not movingposted in General Discussion
; Configuration file for Duet 3 Mini 5+ (firmware version 3.3) ; executed by the firmware on start-up ; ; generated by RepRapFirmware Configuration Tool v3.3.15 on Sat Nov 26 2022 13:27:47 GMT+0100 (Mitteleuropäische Normalzeit) ; General preferences M575 P1 S1 B57600 ; enable support for PanelDue G90 ; send absolute coordinates... M83 ; ...but relative extruder moves M550 P"Proschi 3D E2" ; set printer name ; Network M552 S1 ; enable network M586 P0 S1 ; enable HTTP M586 P1 S0 ; disable FTP M586 P2 S1 ; enable Telnet ; Drives M569 P0.0 S0 D3 H50 V30 ; physical drive 0.0 goes forwards M915 P0.0 T50 M569 P0.1 S1 D3 H50 V30 ; physical drive 0.1 goes forwards M915 P0.1 T30 M569 P0.2 S0 D3 H50 V30 ; physical drive 0.2 goes forwards M915 P0.2 T50 M569 P0.3 S1 D3 H50 V30 ; physical drive 0.3 goes forwards M915 P0.3 T50 M569 P0.4 S0 D3 H50 V30 ; physical drive 0.4 goes forwards M915 P0.4 T50 M569 P0.5 S1 D3 H50 V30 ; physical drive 0.5 goes forwards M915 P0.5 T50 M584 X0.0 Y0.1 Z0.2 E3:5 U4 ; set drive mapping M350 X16 Y16 U16 Z16 E16:16 I1 ; configure microstepping without interpolation M92 X80 Y80 U80 Z800 E286.216 :286.216 ; set steps per mm M566 X480 Y300 U480 Z24 E300:300 ; set maximum instantaneous speed changes (mm/min) M203 X12000 U12000 Y10000 Z600 E3000:3000 ; set maximum speeds (mm/min) M201 X1000 U1000 Y500 Z100 E3000:3000 ; set accelerations (mm/s^2) M906 X850 U850 Y850 Z800 E800:800 I30 ; set motor currents (mA) and motor idle factor in per cent M84 S30 ; Set idle timeout ; Axis Limits M208 X10 Y-3 Z0 U35 S1 ; set axis minima M208 X335 Y255 Z240 U355 S0 ; set axis maxima ; Endstops ; configure switch-type (e.g. microswitch) endstop for high end on Z via pin null M574 Y1 S1 P"io1.in" M574 X1 S1 P"io2.in" M574 U2 S1 P"Io4.in" ;M915 X S-63 H10 R1 ; Set very sensitive stall detect ;M574 X1 S3 ; configure endstop for stall detection ;M915 X S20 H140 R0 ; Set very sensitive stall detect ;M915 X S-63 H10 R1 ; Set very sensitive stall detect ; Filament Sensoren M591 D1 P1 C"io5.in" S1 M591 D0 P1 C"io6.in" S1 ; Z-Probe M558 P1 C"io3.in" H5 A5 S0.005 F150 T6000 ; set Z probe type to unmodulated and the dive height + speeds G31 P500 X10 Y20 Z0.5 ;0.55 Simplify set Z probe trigger value, offset and trigger height M557 X30:330 Y50:210 P3 ; define mesh grid ; Heaters M308 S0 P"Temp0" Y"thermistor" T100000 B4138 ; configure sensor 0 as thermistor on pin temp0 M950 H0 C"out0" T0 ; create bed heater output on out0 and map it to sensor 0 M307 H0 B1 S1.00 ; enable bang-bang mode for the bed heater and set PWM limit M140 H0 ; map heated bed to heater 0 M143 H0 S120 ; set temperature limit for heater 0 to 120C M308 S1 P"Temp1" Y"thermistor" T100000 B4725 C7.06e-8 ; configure sensor 1 as thermistor on pin temp1 M950 H1 C"out1" T2 ; create nozzle heater output on out1 and map it to sensor 1 M307 H1 B0 S1.00 ; disable bang-bang mode for heater and set PWM limit M143 H1 S340 ; set temperature limit for heater 1 to 340C M308 S2 P"Temp2" Y"thermistor" T100000 B4725 C7.06e-8 ; configure sensor 2 as thermistor on pin temp2 M950 H2 C"out2" T1 ; create nozzle heater output on out2 and map it to sensor 2 M307 H2 B0 S1.00 ; disable bang-bang mode for heater and set PWM limit M143 H2 S340 ; set temperature limit for heater 2 to 340C ; Temp Sensoren M308 S10 Y"mcu-temp" A"MCU" ; defines sensor 10 as MCU temperature sensor M308 S11 Y"drivers" A"Duet stepper drivers" ; defines sensor 11 as stepper driver temperature sensor ;M950 F5 C"out6" Q500 ; create fan 2 on pin fan2 and set its frequency ;M106 P5 H3 T40:70 ; set fan 2 value ; Fans M950 F0 C"vfd" Q500 ; create fan 0 on pin out4 and set its frequency M106 P0 C"Extruder&Bauteile" S0 H-1 ;M950 F5 C"out6" Q500 ;M106 P5 C"Board" S0 H-1 M950 F2 C"out3" Q500 ; create fan 0 on pin out4 and set its frequency M106 P2 C"Filter Lüfter" S0 H-1 Q25000 ; set fan 0 value. Thermostatic control is turned off ; set fan 1 value. Thermostatic control is turned off M950 F3 C"out5" Q500 ; create fan 2 on pin vfd and set its frequency M106 P3 C"LED" S150 H-1 ; set fan 2 value. Thermostatic control is turned off M950 F4 C"out4+out4.tach" Q25000 M106 P4 C"Aktiv Kühlung" S0 H-1 ; Create a tool that uses the low end (X) carriage M563 P0 D0 H1 F0 S"linker Extruder" ; tool 0 uses extruder 0, heater 1 and fan 0 G10 P0 X0 Y0 Z0 S0 R0 ; set tool 0 offsets and temperatures ; Create a tool that uses the high end (U) carriage M563 P1 D1 H2 X3 F0 S"rechter Extruder" ; tool 1 uses extruder 1, heater 2, fan 2, and maps X to U G10 P1 Y-0.4 U26.6 Z-0.10 R0 ; set tool 1 offsets and temperatures ; Create a tool that prints 2 copies of the object using both carriages M563 P2 D0:1 H1:2 X0:3 F0:0 S"Duplicate"; tool 2 uses both extruders, hot end heaters and fans, and maps X to both X and U G10 P2 X-25 Y0 U-176.3 Z0 S0 R0 ; set tool offsets and temperatures G10 P2 R0 S0 M567 P2 E1:1 ; set mix ratio 100% on both extruders ;Create a tool that Prints in Mirrior Mode M563 P3 S"Mirror" H1:2 D0:1 X0:3 F0:0 G10 P3 X-25 Y0 U-176.3 Z0 S0 R0 G10 P3 R0 S-2 ; Custom settings are not defined ;Temperatur anpassung MCU M912 P0 S2 ; Miscellaneous M501 ; load saved parameters from non-volatile memory M911 S10 R11 P"M913 X0 Y0 G91 M83 G1 Z3 E-5 F1000" ; set voltage thresholds and actions to run on power loss -
RE: Simplify3d and Filament Timingsposted in General Discussion
@markz post processing script:
{REPLACE "Material Length" "Filament length"} -
RE: Sensorless homing with an Idex printerposted in Tuning and tweaking
@oliof OK thank you.
then it is better to apply it only on the y low and z high axis.
and to work with limit switches on the x and u axis -
RE: fan connection on the duet 3 miniposted in Duet Hardware and wiring
The conversion to the duet 3 mini is complete. Just a few things to adjust. Thank you for your help, you are great
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RE: Duet2 WiFi Firmware on Raise 3d E2 ?posted in Firmware installation
Hello everyone here who helped me. I was able to successfully install a version that was before 2.02. Then the printer could be updated via the Raise software. The whole thing was worth it for me, because now I have the possibility to control it via octoprint for whatever reason. thank you again
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RE: Your start.gposted in General Discussion
M291 P"Start.g wird ausgeführt" S0 M98 P"/Macros/SUB/CheckDoor" ;Door open or closed M561 M106 P3 S0 G4 S1 M106 P3 S25 G4 S1 M106 P3 S0 G4 S1 M106 P3 S25 ;dimme LED for IR Probe M98 P"/Macros/SUB/Preheat" ;Preheat for Loaded Filament if !move.axes[0].homed || !move.axes[1].homed || !move.axes[2].homed G28 G28 Z0 M98 P"/Macros/Buildplate" ;Load Hightmap for Buildplate and Filament M98 P"config_probe.g"
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Latest posts made by Proschi3D
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RE: Orca slicer start code Idexposted in Gcode meta commands
@oliof As mentioned, it works really well, but I want the print to start after the variable for Mirror has been processed. And not continue with the subsequent gcode.
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Orca slicer start code Idexposted in Gcode meta commands
Hello everyone.
I have created a start code for my IDEX printer for the Orca slicer. Everything works very well, except for the mirror mode. Here, I want it to perform a separate nozzle cleaning as specified in the code, and then start printing without executing the rest of the code. Does anyone have an idea?
; Model: Proschi3d({nozzle_diameter[0]}/{nozzle_diameter[1]}) ; Printer : [printer_preset] ; Profile : [print_preset] ; Plate : [plate_name] ; --- initial_extruder: [initial_extruder] ; --- has_wipe_tower: [has_wipe_tower] ; --- total_toolchanges: [total_toolchanges] ; --- T0: {is_extruder_used[(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - 1, 0))]} ; --- T1: {is_extruder_used[(initial_extruder % 2 == 0 ? min(initial_extruder + 1, 63) : max(initial_extruder - 0, 0))]} T[initial_extruder] {if plate_name =~/.*IDEXDupl.*/ || plate_name =~/.*IDEXCopy.*/ } T2 {elsif plate_name =~/.*IDEXMirr.*/} M140 S{first_layer_bed_temperature[initial_extruder]} M557 X{adaptive_bed_mesh_min[0]}:{adaptive_bed_mesh_max[0]} Y{adaptive_bed_mesh_min[1]}:{adaptive_bed_mesh_max[1]} P{bed_mesh_probe_count[0]}:{bed_mesh_probe_count[1]} ; Mesh-Bett-Nivellierung G28 X0 Y0 U0 T3 ; Eigener Düsenreinigungsprozess G0 Z10 F3000 ; Hebe die Düse an G0 X5 Y10 F6000 ; Bewege die Düse zur Reinigungsposition M109 S{max(230, min(290, nozzle_temperature_initial_layer[(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - (1-0), 0))] + 15))} C2 W1 G0 Z1.6 G1 E10 Z5 F100 ; Extrudiere etwas Filament, um die Düse zu reinigen M104 S{nozzle_temperature_initial_layer[(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - (1-0), 0))] + 5} G0 X15 Y10 F3000 G0 Z0.4 G0 E8 X70 Y10 G0 X70 Y20 Z10 G92 E0 ; Setze den Extruderzähler zurück ; Starte den Druckprozess M117 ; Starte den Druckprozess {else} M140 S{first_layer_bed_temperature[initial_extruder]} ; you can clean the nozzle {if is_extruder_used[(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - (1-0), 0))]} M104 T{(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - (1-0), 0))} S165 {endif} {if is_extruder_used[(initial_extruder % 2 == 0 ? min(initial_extruder + 1, 63) : max(initial_extruder - (1-1), 0))]} M104 T{(initial_extruder % 2 == 0 ? min(initial_extruder + 1, 63) : max(initial_extruder - (1-1), 0))} S165 {endif} G28 F5000 M557 X{adaptive_bed_mesh_min[0]}:{adaptive_bed_mesh_max[0]} Y{adaptive_bed_mesh_min[1]}:{adaptive_bed_mesh_max[1]} P{bed_mesh_probe_count[0]}:{bed_mesh_probe_count[1]} G29 S0 G28 X0 U0 F6000 G0 Z5 F6000 {if is_extruder_used[(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - (1-0), 0))]} T{(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - (1-0), 0))} G0 X{if 0 == 0}80{else}240{endif} Y0 F7000 {endif} {if is_extruder_used[(initial_extruder % 2 == 0 ? min(initial_extruder + 1, 63) : max(initial_extruder - (1-1), 0))]} T{(initial_extruder % 2 == 0 ? min(initial_extruder + 1, 63) : max(initial_extruder - (1-1), 0))} G0 X{if 1 == 0}80{else}240{endif} Y0 F7000 {endif} M190 R{first_layer_bed_temperature[initial_extruder]} G28 X Y f6000 M83 {if 1==1 && max(hot_plate_temp_initial_layer[initial_extruder], hot_plate_temp[initial_extruder]) >= 90} G0 Z0.06 G92 Z0 ;reset z {endif} {if is_extruder_used[(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - (1-0), 0))]} ; preheat 0 M104 T{(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - (1-0), 0))} S{max(230, min(290, nozzle_temperature_initial_layer[(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - (1-0), 0))] + 15))} {endif} {if is_extruder_used[(initial_extruder % 2 == 0 ? min(initial_extruder + 1, 63) : max(initial_extruder - (1-1), 0))]} ; preheat 1 M104 T{(initial_extruder % 2 == 0 ? min(initial_extruder + 1, 63) : max(initial_extruder - (1-1), 0))} S{max(230, min(290, nozzle_temperature_initial_layer[(initial_extruder % 2 == 0 ? min(initial_extruder + 1, 63) : max(initial_extruder - (1-1), 0))] + 15))} {endif} {if is_extruder_used[(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - (1-0), 0))] and (initial_extruder % 2) != 0} ; flush nozzle 0 T{(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - (1-0), 0))} M104 S{max(230, min(290, nozzle_temperature_initial_layer[(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - (1-0), 0))] + 15))}; common flush temp G0 Z1.6 F2000 G0 X{( 0 % 2 == 0 ? 167.0 : 197.0 )} F7000 G0 Y0 F7000 M109 S{max(230, min(290, nozzle_temperature_initial_layer[(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - (1-0), 0))] + 15))} C2 W1 G1 E20 F80.0 G92 E0 M106 S{min(255, (fan_max_speed[(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - (1-0), 0))] + 10) * 2.55)} M104 S{nozzle_temperature_initial_layer[(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - (1-0), 0))] + 5} G1 E12.0 F200 G92 E0 G1 E8.0 Z4.6 F200 G92 E0 G0 Z5.6 F200 M107 G0 X{( 0 % 2 == 0 ? 137.0 : 187.0 )} F7000 G0 Z0.3 F240.0 M109 S{nozzle_temperature_initial_layer[(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - (1-0), 0))]} C3 W1 G1 E3 F200 G92 E0 G1 X{( 0 % 2 == 0 ? 0 : 324 )} E8.5437 F7000 G92 E0 G1 E-{retract_length_toolchange[0]} F200 G92 E0 G0 Y20 F7000 M104 S{temperature_vitrification[(initial_extruder % 2 == 0 ? min(initial_extruder + 0, 63) : max(initial_extruder - (1-0), 0))]} {endif} {if is_extruder_used[(initial_extruder % 2 == 0 ? min(initial_extruder + 1, 63) : max(initial_extruder - (1-1), 0))] and (initial_extruder % 2) != 1} ; flush nozzle 1 T{(initial_extruder % 2 == 0 ? min(initial_extruder + 1, 63) : max(initial_extruder - (1-1), 0))} M104 S{max(230, min(290, nozzle_temperature_initial_layer[(initial_extruder % 2 == 0 ? min(initial_extruder + 1, 63) : max(initial_extruder - (1-1), 0))] + 15))}; common flush temp G0 Z1.6 F240.0 G0 X{( 1 % 2 == 0 ? 167.0 : 197.0 )} F7000 G0 Y0 F7000 M109 S{max(230, min(290, nozzle_temperature_initial_layer[(initial_extruder % 2 == 0 ? min(initial_extruder + 1, 63) : max(initial_extruder - (1-1), 0))] + 15))} C2 W1 G1 E20 F80.0 G92 E0 M106 S{min(255, (fan_max_speed[(initial_extruder % 2 == 0 ? min(initial_extruder + 1, 63) : max(initial_extruder - (1-1), 0))] + 10) * 2.55)} M104 S{nozzle_temperature_initial_layer[(initial_extruder % 2 == 0 ? min(initial_extruder + 1, 63) : max(initial_extruder - (1-1), 0))] + 5} G1 E12.0 F200 G92 E0 G1 E8.0 Z4.6 F200 G92 E0 G0 Z5.6 F200 M107 G0 X{( 1 % 2 == 0 ? 157.0 : 207.0 )} F6840.0 G0 Z0.3 F240.0 M109 S{nozzle_temperature_initial_layer[(initial_extruder % 2 == 0 ? min(initial_extruder + 1, 63) : max(initial_extruder - (1-1), 0))]} C3 W1 G1 E3 F200 G92 E0 G1 X{( 1 % 2 == 0 ? 0 : 324 )} E8.5437 F7000 G92 E0 G1 E-{retract_length_toolchange[1]} F200 G92 E0 G0 Y20 F6840.0 M104 S{temperature_vitrification[(initial_extruder % 2 == 0 ? min(initial_extruder + 1, 63) : max(initial_extruder - (1-1), 0))]} {endif} ; flush initial nozzle T[initial_extruder] M104 S{max(230, min(290, nozzle_temperature_initial_layer[(initial_extruder % 2 == 0 ? min(initial_extruder + initial_extruder, 63) : max(initial_extruder - (1-initial_extruder), 0))] + 15))}; common flush temp G0 Z1.6 F240.0 G0 X{( initial_extruder % 2 == 0 ? 167.0 : 197.0 )} F7000 G0 Y0 F7000 M109 S{max(230, min(290, nozzle_temperature_initial_layer[(initial_extruder % 2 == 0 ? min(initial_extruder + initial_extruder, 63) : max(initial_extruder - (1-initial_extruder), 0))] + 15))} C2 W1 G1 E20 F80.0 G92 E0 M106 S{min(255, (fan_max_speed[(initial_extruder % 2 == 0 ? min(initial_extruder + initial_extruder, 63) : max(initial_extruder - (1-initial_extruder), 0))] + 10) * 2.55)} M104 S{nozzle_temperature_initial_layer[(initial_extruder % 2 == 0 ? min(initial_extruder + initial_extruder, 63) : max(initial_extruder - (1-initial_extruder), 0))] + 5} G1 E12.0 F200 G92 E0 G1 E8.0 Z4.6 F200 G92 E0 G0 Z5.6 F200 M107 G0 X{( initial_extruder % 2 == 0 ? 157.0 : 207.0 )} F6840.0 G0 Z0.3 F240.0 M109 S{nozzle_temperature_initial_layer[(initial_extruder % 2 == 0 ? min(initial_extruder + initial_extruder, 63) : max(initial_extruder - (1-initial_extruder), 0))]} C3 W1 G1 E3 F200 G92 E0 G1 X{( initial_extruder % 2 == 0 ? 0 : 324 )} E8.5437 F6840.0 G92 E0 G1 E-{retraction_length[initial_extruder]} F200 G92 E0 G0 Y20 F7000 ; ready [plate_name] -
RE: RepRapFirmware 3.6.0-alpha.2 for Duet main boards availableposted in Beta Firmware
I have also tested the firmware and am very satisfied with the improved quality. I haven’t been able to make any fine adjustments yet, but I have increased the speed by 50mm/s as well.
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RE: SFS V2.0 to Duet 3 Miniposted in General Discussion
@SonnyD1 With version 3.5.2, it works perfectly. I mean my filament sensors on the Duet3 Mini and use two tool boards. Before version 3.5.2, I also got an error message unknown pin name.
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RE: Neopixel not working after install komponentsposted in Duet Hardware and wiring
@droftarts Thanks first of all. I will try it this way, with an external power supply.
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RE: Neopixel not working after install komponentsposted in Duet Hardware and wiring
@Phaedrux
I have now connected a new neopixel, without success. I cannot explain why it no longer works. Neither on one duet mini nor on the other.Perhaps someone here who operates the neopixel on the duet3 mini with firmware 5.1.2 rc1 can post the config.g and the M150 commands?
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RE: Neopixel not working after install komponentsposted in Duet Hardware and wiring
@Phaedrux I’ve ordered some new ones again that I will test. But actually, I can’t imagine that all of them have broken down together. We will see.
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RE: Neopixel not working after install komponentsposted in Duet Hardware and wiring
@Phaedrux
I connected them to the Neopixel output on the Duet Mini, and it worked until I connected the other hardware. I connected the first Duet to the tool distribution board, then the two tool boards, and on the tool distribution board’s CAN out, a second Duet Mini. They also don’t work on the second Duet, I’ve already tried that.M950 E1 C"led" T1 U16 -
RE: Neopixel not working after install komponentsposted in Duet Hardware and wiring
I just tried it with the firmware that was installed before, unfortunately without success, the LED does not turn on.