BLTouch does not deploy for a print
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If the heater is the cause, you can add B1 to your M558 command to temporarily disable heaters during probing.
Otherwise, please share your config.g and homing files along with an example sliced gcode file. Also what firmware version are you using?
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I'm not certain what the cause is. Right after I posted the original post I did some testing where I would manually put on the heater then run a M401 followed by the M402 and both worked. Then I tried the various PWM fans and was still able to run the M401 and M402. To take it one step further I added the M401 into my starting script before and after each PWM item was turned on, and it still worked.
Now after that print completed three days ago I tested the M401 and M402 and they still worked a few hours after the print completed. I have waited now two days and I just tried the M401 and M402 and M280 commands and the BLTouch is not responding.
Here is my firmware config
Board: Duet 3 MB6HC (MB6HC)
DSF Version: 1.2.4.0
Firmware: RepRapFirmware for Duet 3 MB6HC v0.6 or 1.0 3.0 (2020-01-03b3Here is the probe portion of my config.g
; Z-Probe
M950 S0 C"io4.out" ; Set pin4 out as servo out 0
M558 P9 C"^io4.in" H3 F200 T12000 ; set Z probe type to BL touch and the dive height + speeds
G31 P500 X55 Y48 Z2.776 ; set Z probe trigger value, offset and trigger height
M557 X-115:185 Y-120:120 S60 ; define mesh grid
M280 P0 S160 I1 ; Reset Probe just in case
M402 ; Retract probe just in caseHere is the starting script of my slicer
M401 ; Deploy probe
G4 S2 ; Wait 2 seconds
M402 ; Retract probeM106 P4 S100 ;Turn on chamber circ fan
M401 ; Deploy probe
G4 S2 ; Wait 2 seconds
M402 ; Retract probeM104 S[extruder0_temperature] T0 ; Set nozzle 1 to temp
M104 S[extruder1_temperature] T1 ; Set nozzle 2 to tempM401 ; Deploy probe
G4 S2 ; Wait 2 seconds
M402 ; Retract probeM140 S[bed0_temperature] ; Set bed to temp
M141 S[extruder2_temperature] ; Chamber heatersM401 ; Deploy probe
G4 S2 ; Wait 2 seconds
M402 ; Retract probeG28 ; Home all
G0 Z10 F700 ; Bring up Z
G1 X-55 Y-48 F12000 ;Move probe to center of bedG30 ;Probe bed single point and set offset of Z
M400 ; wait until all gcode is executed to proceed
G29 ;Bed mesh probe
G1 Z25 F400 ;Lower bed while heating
G1 X-185 Y-175 F12000 ;move head out of the way while heating
M400M109 T0 S[extruder0_temperature] ; Hold until nozzle 1 at temp
M109 T1 S[extruder1_temperature] ; Hold until nozzle 2 at temp
M190 S[bed0_temperature] ; Hold until bed at tempT0 ; First nozzle
G21 ; Metric values
G90 ; Absolute positioning
G92 E0 ; Set extruder to 0T1 ; First nozzle
G21 ; Metric values
G90 ; Absolute positioning
G92 E0 ; Set extruder to 0M106 P4 S[extruder3_temperature] ; Turn set chamber fan speed (speed depends on Filament)
G0 Z0.5 F900 ; Raise nozzle to .5mm over bed
;M201 X600 Y600 Z100 E10000 ; Set acceleration
;M207 X5 ; Set Jerk
M400There really seems like there is actually a glitch in the firmware, or some combination of commands is affecting the servo action of the pin I'm trying to use. The BLTouch works fine until either a print is started, at which point it stops working, or if a print is started right after a reboot it works fine for the print and then stops working sometime after the print is completed. This really doesn't seem like a configuration gcode issue but more of a glitch in the firmware.
I'll be back in the office tomorrow and with any luck there won't be a power outage so I will be able to connect an oscilloscope to the servo pin and see if there is a problem withe the signal wire.
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So this entire section is your starting script?
Here is the starting script of my slicer M401 ; Deploy probe G4 S2 ; Wait 2 seconds M402 ; Retract probe M106 P4 S100 ;Turn on chamber circ fan M401 ; Deploy probe G4 S2 ; Wait 2 seconds M402 ; Retract probe M104 S[extruder0_temperature] T0 ; Set nozzle 1 to temp M104 S[extruder1_temperature] T1 ; Set nozzle 2 to temp M401 ; Deploy probe G4 S2 ; Wait 2 seconds M402 ; Retract probe M140 S[bed0_temperature] ; Set bed to temp M141 S[extruder2_temperature] ; Chamber heaters M401 ; Deploy probe G4 S2 ; Wait 2 seconds M402 ; Retract probe G28 ; Home all G0 Z10 F700 ; Bring up Z G1 X-55 Y-48 F12000 ;Move probe to center of bed G30 ;Probe bed single point and set offset of Z M400 ; wait until all gcode is executed to proceed G29 ;Bed mesh probe G1 Z25 F400 ;Lower bed while heating G1 X-185 Y-175 F12000 ;move head out of the way while heating M400 M109 T0 S[extruder0_temperature] ; Hold until nozzle 1 at temp M109 T1 S[extruder1_temperature] ; Hold until nozzle 2 at temp M190 S[bed0_temperature] ; Hold until bed at temp T0 ; First nozzle G21 ; Metric values G90 ; Absolute positioning G92 E0 ; Set extruder to 0 T1 ; First nozzle G21 ; Metric values G90 ; Absolute positioning G92 E0 ; Set extruder to 0 M106 P4 S[extruder3_temperature] ; Turn set chamber fan speed (speed depends on Filament) G0 Z0.5 F900 ; Raise nozzle to .5mm over bed ;M201 X600 Y600 Z100 E10000 ; Set acceleration ;M207 X5 ; Set Jerk M400
Can you post your full config.g and homeall as well as a sample sliced gcode file?
It also looks like you are on FW version 3.0. Please update to 3.1.1
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Is it also worth mentioning that there isn't blue light on my BLTouch ever. I'm not sure if there is supposed to be or not but I have read that the blue LED indicates if the servo line is active.
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The fact that it seems to be intermittent makes me think wiring. BLTouch wiring and crimps are a very common cause of issues. Double and triple check.
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@Phaedrux Yes that is the starting script from my slicer. The M401 G4 S2 and M402 was just thrown in for diagnostics so that I could see if the probe was going to work or if it is related to the some other output channel being active.
It doesn't appear to be the case and I will eventually remove all those. Some of it is pointless and left over from the printer manufacturer that built the printer originally. I have since modified it heavily and moved to the Duet 3 board.
I popped into the office to have a look at the BLTouch and I tried disconnecting the BLTouch and reconnecting it. When I reconnected it, it did the two probe deploy and retract that it does when it powers up. But I could still not deploy or retract manually with the M401 and M402 respectively. I then connected my oscilloscope to the servo wire and I could see that there was a signal being generated and the signal was different for the M401 and the M402, so the servo pin seems to be functioning. The BLTouch however did not respond to the servo signals, even though I did a power cycle to the BLTouch.
I then reset the Duet 3. After everything homed and the config.g finished executing I was then able to send the M401 and M402 command and they worked correctly. I still had the oscilloscope connected and the signals were the same as before I power cycled.
This makes no sense. If it was the BLTouch you would think that the power cycle to it would have gotten it working. If it was the Duet 3 board then I should have seen some difference in the servo signal as that should be the only thing that the BLTouch can see with respect to the board.
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@Phaedrux I'm not using any of the BLtouch factory crimps. I removed the dupont connectors and added my own Molex connectors and the crimps are tight.
I agree that he issue is intermittent but it is not intermittent in a way that would indicate loose wires. It seems to be time sensitive, the longer the duet has been running (and so too the BLTouch) the greater the probablity that the probe will not deploy or retract. Additionally once it fails to deploy or retract there is no bringing it back without a Duet 3 restart.
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Before we can do much other troubleshooting the obvious thing to do is update the firmware to 3.1.1 and see if the behaviour is persisting.
What version of BLtouch is it?
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Here is the whole config.g that you requested in case there is something in here. I had everything working with an IR sensor before I switched to the BLTouch, so perhaps I missed something when I changed the Z probe type.
Duet 3 Send code... Status Idle Mode: FFF Tool Position X 0.0 Y 0.0 Z 458.10 Extruder Drives Drive 0 0.0 Drive 1 0.0 Speeds Requested Speed 0 mm/s Top Speed 0 mm/s Sensors Vin 24.9 V MCU Temperature 40.0 C Z-Probe 0 Tools Extra Control All Tool Heater Current Active Standby Primary T0 - PLA Heater 1 active 24.8 C 0 0 Secondary T1 - Load Filament Heater 2 off 24.8 C 0 0 Bed Heater 0 off 25.6 C 0 0 Chamber Heater 3 off 26.9 C 0 0 Temperature Chart System Directory 0:/sys/config.g ; Configuration file for Duet 3 (firmware version 3) ; executed by the firmware on start-up ; ; generated by RepRapFirmware Configuration Tool v2.1.8 on Fri Apr 24 2020 14:40:15 GMT-0600 (Central Standard Time) ; General preferences G90 ; send absolute coordinates... M83 ; ...but relative extruder moves M550 P"Duet 3" ; set printer name M667 S1 ; select CoreXY mode ; Drives M569 P0.0 S1 ; physical drive 0.0 goes backwards M569 P0.1 S0 ; physical drive 0.1 goes backwards M569 P0.2 S0 ; physical drive 0.2 goes backwards M569 P0.4 S0 ; physical drive 0.4 goes backwards M569 P0.5 S0 ; physical drive 0.5 goes forwards M584 X0.2 Y0.1 Z0.4 E0.5:0.0 ; set drive mapping M350 X32 Y32 Z32 E16:16 I1 ; configure microstepping with interpolation M92 X200.00 Y200.00 Z1600.00 E837:837 ; set steps per mm M566 X800.00 Y800.00 Z100.00 E240.00:240.00 ; set maximum instantaneous speed changes (mm/min) M203 X15000.00 Y15000.00 Z1200.00 E2400.00:2400.00 ; set maximum speeds (mm/min) M201 X800.00 Y800.00 Z40.00 E300.00:300.00 ; set accelerations (mm/s^2) M906 X1800 Y1800 Z1200 E1000:1000 I30 ; set motor currents (mA) and motor idle factor in per cent M84 S30 ; Set idle timeout ; Axis Limits M208 X-186.5 Y-175 Z-2.8 S1 ; set axis minima M208 X186.5 Y175 Z583.1 S0 ; set axis maxima ; Endstops M574 X1 S1 P"io0.in" ; configure active-high endstop for low end on X via pin io0.in use a NC switch M574 Y1 S1 P"io1.in" ; configure active-high endstop for low end on Y via pin io1.in use a NC switch M574 Z2 S1 P"io2.in" ; configure active-high endstop for high end on Z via pin io2.in use a NC switch ; Z-Probe M950 S0 C"io4.out" ; Set pin4 out as servo out 0 M558 P9 C"^io4.in" H3 F200 T12000 ; set Z probe type to BL touch and the dive height + speeds G31 P500 X55 Y48 Z2.776 ; set Z probe trigger value, offset and trigger height M557 X-115:185 Y-120:120 S60 ; define mesh grid M280 P0 S160 I1 ; Reset Probe just in case M402 ; Retract probe just in case ; 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 M143 H0 S165 ; set temperature limit for heater 0 to 165C 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 M308 S1 P"temp1" Y"pt1000" R2200 ; configure sensor 1 as PT1000 on pin temp1 M950 H1 C"out1" T1 ; create nozzle heater output on out1 and map it to sensor 1 M143 H1 S340 ; set temperature limit for heater 1 to 340C M307 H1 B0 S1.00 ; disable bang-bang mode for heater and set PWM limit M308 S2 P"temp2" Y"pt1000" R2200 ; configure sensor 2 as PT1000 on pin temp2 M950 H2 C"out2" T2 ; create nozzle heater output on out2 and map it to sensor 2 M143 H2 S340 ; set temperature limit for heater 2 to 340C M307 H2 B0 S1.00 ; disable bang-bang mode for heater and set PWM limit M308 S3 P"temp3" Y"thermistor" T100000 B4138 ; configure sensor 3 as thermistor on pin temp0 M950 H3 C"out3" T3 ; create chamber heater output on out3 and map it to sensor 3 M143 H3 S75 ; set temperature limit for heater 3 to 75C M307 H3 B1 ; disable bang-bang mode for heater and set PWM limit M141 H3 ; map heated chamber to heater 3 ;Heater Tuning parameters M307 H0 A253.1 C685.6 D0.7 V24.9 B0 ; PID model for Heater 0 M307 H1 A529.2 C249.3 D5.7 V24.8 B0 ; PID model for heater 1 M307 H2 A418.3 C213.8 D3.6 V24.8 B0 ; PID model for heater 2 M307 H3 A90 C1500 D600 V24.8 B1 ; BANG-BANG model for heater 3 ;Virtual Heaters M308 S4 P"MCU" Y"mcu-temp" ; create mcu temperature M308 S5 P"Stepper driver" Y"drivers" ; create driver temperatures ; Fans M950 F0 C"out7" Q500 ; create fan 0 on pin out4 and set its frequency used for Radiator cooler fan M106 P0 T85 S1 H1:2 ; set fan 0 value. Thermostatic control is turned on M950 F1 C"out8" Q500 ; create fan 1 on pin out5 and set its frequency used for Water circ pump M106 P1 T45 S1 H1:2 ; set fan 1 value. Thermostatic control is turned on M950 F2 C"out4" Q500 ; create fan 2 on pin out7 and set its frequency used for Part cooling fan M106 P2 S0.0 ; set fan 2 value. Thermostatic control is turned off M950 F3 C"out5" Q500 ; create fan 3 on pin out8 and set its frequency used for board cooling fan M106 P3 T35:55 H4:5 ; set fan 3 value. Thermostatic control is proportional to the CPU or driver temps M950 F4 C"out6" Q500 ; create fan 4 on pin out 6 and set its frequency used. for bed cooling fan M106 P4 S0.0 ; set fan 4 value. Thermostatic control is turned off. Controlled by Gcode only ; Tools M563 P0 S"Primary" D0 H1 F2 ; define tool 0 G10 P0 X0 Y0 Z0 ; set tool 0 axis offsets G10 P0 R0 S0 ; set initial tool 0 active and standby temperatures to 0C M563 P1 S"Secondary" D1 H2 F2 ; define tool 1 G10 P1 X25.25 Y0 Z0 ; set tool 1 axis offsets G10 P1 R0 S0 ; set initial tool 1 active and standby temperatures to 0C ; Custom settings M572 D0:1 S0.03:0.03 ; Set Pressure advance settings G28 Z ; Home Z G28 X Y ; Home X and Y M280 P0 S120 I1 ; Probe Self test T0 ; Set tool 0 active G1 X0 Y0 F12000 ; Move print head to middle of bed ; Miscellaneous M911 S22.0 R24.0 P"M913 X50 Y50 G91 M83 G1 Z3 E-5 F1000 ; Set the power loss resume parameters
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I would recommend removing the homing commands from your config.g. Definitely not best practice to have movement commands executed at startup.
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@Phaedrux it is the Smart 3.1 BLTouch, I think that is the newest version.
I will try the update to 3.1.1 for the Duet.
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@Phaedrux That is sound advice, I will do that.
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@baird1fa if the update doesnt help:
I read in another thread that the heater disturbed the bltouch. One solution was to assemble the bltouch at a different position. The other means was to protect the cables with a shield, which can be bought separately and is around the cable.
It looked similar like the shielded cable on the left here in this link https://www.antclabs.com/wiring
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@Phaedrux I have completed the upgrade to the latest version of the firmware. I tested the BL touch and after the update I was still able to deploy and retract the probe, so I started a print and the probe did not deploy. I hit the E-stop and then started the print again and the probe worked fine.
Now that the print has completed, I cannot activate the probe. I'm going to replace the BLTouch with a spare one and see if that has any effect.
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@baird1fa said in BLTouch does not deploy for a print:
I'm going to replace the BLTouch with a spare one and see if that has any effect.
Good next step. Redo the wiring if possible as well if just changing the probe doesn't help. The intermittency really seems like a wiring fault.
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@Phaedrux It really seems like something other than wiring. I can do exactly one print before it the servo signal doesn’t work. It really makes me think it is something that is in my slicer code but I don’t have anything strange there.
I have noticed since my upgrade to firmware 3.1.1 that I have a termination error at line 106 of my config.g macro. Line 106 is the latest line of my config.g
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Ok that's something worth looking into.
Send M98 P"config.g" and report the results.
Maybe include your current config.g as well.
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@Phaedrux
I’m just in the middle of a print so I will do that once it’s done. Also the config is the same as previously posted.Regards.
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@Phaedrux I found that issue, It was my M911 command, I seem to have forgotten to close the quotations (") and so it wasn't understanding that command. So I'm pretty sure that is a completely unrelated issue.
But back to the matter at hand. The BLTouch will not deploy after I start a print job.
; G-Code generated by Simplify3D(R) Version 4.1.2 ; Jun 27, 2020 at 4:19:50 PM ; Settings Summary ; processName,Process1 ; applyToModels,Float switch Jbox cover,Float switch Jbox cover(2) ; profileName,Custom 22 (modified) ; profileVersion,2020-06-23 08:44:31 ; baseProfile,Default ; printMaterial,PC ; printQuality,Medium ; printExtruders,Extruder 2 Only ; extruderName,Extruder 1,Extruder 2 ; extruderToolheadNumber,0,1 ; extruderDiameter,0.8,0.4 ; extruderAutoWidth,1,1 ; extruderWidth,0.96,0.48 ; extrusionMultiplier,1,1.05 ; extruderUseRetract,1,1 ; extruderRetractionDistance,1,2 ; extruderExtraRestartDistance,0,0 ; extruderRetractionZLift,0.4,0.6 ; extruderRetractionSpeed,2400,2400 ; extruderUseCoasting,0,1 ; extruderCoastingDistance,0.2,0.2 ; extruderUseWipe,1,1 ; extruderWipeDistance,1,1 ; primaryExtruder,1 ; layerHeight,0.25 ; topSolidLayers,4 ; bottomSolidLayers,3 ; perimeterOutlines,3 ; printPerimetersInsideOut,1 ; startPointOption,2 ; startPointOriginX,0 ; startPointOriginY,0 ; sequentialIslands,0 ; spiralVaseMode,0 ; firstLayerHeightPercentage,120 ; firstLayerWidthPercentage,100 ; firstLayerUnderspeed,0.65 ; useRaft,0 ; raftExtruder,1 ; raftTopLayers,3 ; raftBaseLayers,2 ; raftOffset,3 ; raftSeparationDistance,0.14 ; raftTopInfill,100 ; aboveRaftSpeedMultiplier,0.3 ; useSkirt,1 ; skirtExtruder,1 ; skirtLayers,1 ; skirtOutlines,1 ; skirtOffset,2 ; usePrimePillar,0 ; primePillarExtruder,999 ; primePillarWidth,12 ; primePillarLocation,7 ; primePillarSpeedMultiplier,1 ; useOozeShield,0 ; oozeShieldExtruder,999 ; oozeShieldOffset,2 ; oozeShieldOutlines,1 ; oozeShieldSidewallShape,1 ; oozeShieldSidewallAngle,30 ; oozeShieldSpeedMultiplier,1 ; infillExtruder,1 ; internalInfillPattern,Fast Honeycomb ; externalInfillPattern,Rectilinear ; infillPercentage,30 ; outlineOverlapPercentage,40 ; infillExtrusionWidthPercentage,100 ; minInfillLength,5 ; infillLayerInterval,1 ; internalInfillAngles,0 ; overlapInternalInfillAngles,0 ; externalInfillAngles,45,-45,0,90 ; generateSupport,0 ; supportExtruder,1 ; supportInfillPercentage,45 ; supportExtraInflation,2 ; supportBaseLayers,2 ; denseSupportExtruder,1 ; denseSupportLayers,3 ; denseSupportInfillPercentage,70 ; supportLayerInterval,1 ; supportHorizontalPartOffset,0.8 ; supportUpperSeparationLayers,1 ; supportLowerSeparationLayers,1 ; supportType,0 ; supportGridSpacing,4 ; maxOverhangAngle,45 ; supportAngles,0 ; temperatureName,Extruder 1,Extruder 2,Heated Bed,Chamber circ fan,Chamber heater,Standby temp ; temperatureNumber,0,1,0,3,2,4 ; temperatureSetpointCount,1,1,1,1,1,1 ; temperatureSetpointLayers,1,1,1,1,1,1 ; temperatureSetpointTemperatures,0,300,120,200,60,0 ; temperatureStabilizeAtStartup,0,1,1,1,1,1 ; temperatureHeatedBed,0,0,1,0,0,0 ; fanLayers,1,5,10,30,40 ; fanSpeeds,0,10,15,20,25 ; blipFanToFullPower,0 ; adjustSpeedForCooling,1 ; minSpeedLayerTime,15 ; minCoolingSpeedSlowdown,50 ; increaseFanForCooling,0 ; minFanLayerTime,45 ; maxCoolingFanSpeed,100 ; increaseFanForBridging,1 ; bridgingFanSpeed,40 ; use5D,1 ; relativeEdistances,0 ; allowEaxisZeroing,1 ; independentExtruderAxes,0 ; includeM10123,0 ; stickySupport,1 ; applyToolheadOffsets,0 ; gcodeXoffset,0 ; gcodeYoffset,0 ; gcodeZoffset,0 ; overrideMachineDefinition,1 ; machineTypeOverride,0 ; strokeXoverride,355 ; strokeYoverride,334 ; strokeZoverride,578 ; originOffsetXoverride,177.5 ; originOffsetYoverride,175 ; originOffsetZoverride,0 ; homeXdirOverride,-1 ; homeYdirOverride,-1 ; homeZdirOverride,1 ; flipXoverride,1 ; flipYoverride,-1 ; flipZoverride,1 ; toolheadOffsets,0,0|0,0|0,0|0,0|0,0|0,0 ; overrideFirmwareConfiguration,1 ; firmwareTypeOverride,RepRap (Marlin/Repetier/Sprinter) ; GPXconfigOverride,r2 ; baudRateOverride,250000 ; overridePrinterModels,0 ; printerModelsOverride ; startingGcode,M106 P4 S100 ;Turn on chamber circ fan,,M104 S[extruder0_temperature] T0 ; Set nozzle 1 to temp,M104 S[extruder1_temperature] T1 ; Set nozzle 2 to temp,M140 S[bed0_temperature] ; Set bed to temp,M141 S[extruder2_temperature] ; Chamber heaters,,G28 ; Home all,M401,G0 Z10 F700 ; Bring up Z,M402,G1 X-55 Y-48 F12000,,G30 ;Probe bed single point and set offset of Z,M400,G29 ;Bed mesh probe,G1 Z25 F400 ;Lower bed while heating ,G1 X-185 Y-175 F12000 ;move head out of the way while heating,M400,,M109 T0 S[extruder0_temperature] ; Hold until nozzle 1 at temp,M109 T1 S[extruder1_temperature] ; Hold until nozzle 2 at temp,M190 S[bed0_temperature] ; Hold until bed at temp,,T0 ; First nozzle,G21 ; Metric values,G90 ; Absolute positioning,G92 E0 ; Set extruder to 0,,T1 ; First nozzle,G21 ; Metric values,G90 ; Absolute positioning,G92 E0 ; Set extruder to 0,,M106 P4 S[extruder3_temperature] ; Turn set chamber fan speed (speed depends on Filament),,G0 Z0.5 F900 ; Raise nozzle to .5mm over bed,,;M201 X600 Y600 Z100 E10000 ; Set acceleration,;M207 X5 ; Set Jerk,M400, ; layerChangeGcode, ; retractionGcode, ; toolChangeGcode, ; endingGcode,G28 Z,G28 X Y,M106 S0 ; Turn off cooling fan,M98 P"0/macros/Slow_cool.g" ;Slowly cools the bed and build chamber *comment for non PC or ABS parts,M104 S0 ; turn off extruder,M140 S0 ; turn off bed,M141 S0 ; Turn off chamber heater, ; exportFileFormat,gcode ; celebration,0 ; celebrationSong,Random Song ; postProcessing, ; defaultSpeed,2700 ; outlineUnderspeed,0.7 ; solidInfillUnderspeed,0.9 ; supportUnderspeed,0.9 ; rapidXYspeed,12000 ; rapidZspeed,1200 ; minBridgingArea,5 ; bridgingExtraInflation,1 ; bridgingExtrusionMultiplier,1.1 ; bridgingSpeedMultiplier,0.75 ; useFixedBridgingAngle,0 ; fixedBridgingAngle,0 ; applyBridgingToPerimeters,1 ; filamentDiameters,2.88|2.88|1.75|1.75|1.75|1.75 ; filamentPricesPerKg,46|46|46|46|46|46 ; filamentDensities,1.04|1.25|1.25|1.25|1.25|1.25 ; useMinPrintHeight,0 ; minPrintHeight,0 ; useMaxPrintHeight,0 ; maxPrintHeight,60.1 ; useDiaphragm,0 ; diaphragmLayerInterval,20 ; robustSlicing,1 ; mergeAllIntoSolid,0 ; onlyRetractWhenCrossingOutline,0 ; retractBetweenLayers,1 ; useRetractionMinTravel,1 ; retractionMinTravel,3 ; retractWhileWiping,1 ; onlyWipeOutlines,0 ; avoidCrossingOutline,0 ; maxMovementDetourFactor,5 ; toolChangeRetractionDistance,12 ; toolChangeExtraRestartDistance,-0.5 ; toolChangeRetractionSpeed,600 ; externalThinWallType,1 ; internalThinWallType,1 ; thinWallAllowedOverlapPercentage,25 ; singleExtrusionMinLength,3 ; singleExtrusionMinPrintingWidthPercentage,50 ; singleExtrusionMaxPrintingWidthPercentage,200 ; singleExtrusionEndpointExtension,0.2 ; horizontalSizeCompensation,0 G90 M82 M106 S0 M106 P4 S100 ;Turn on chamber circ fan M104 S0 T0 ; Set nozzle 1 to temp M104 S300 T1 ; Set nozzle 2 to temp M140 S120 ; Set bed to temp M141 S60 ; Chamber heaters G28 ; Home all M401 G0 Z10 F700 ; Bring up Z M402 G1 X-55 Y-48 F12000 G30 ;Probe bed single point and set offset of Z M400 G29 ;Bed mesh probe G1 Z25 F400 ;Lower bed while heating G1 X-185 Y-175 F12000 ;move head out of the way while heating M400 M109 T0 S0 ; Hold until nozzle 1 at temp M109 T1 S300 ; Hold until nozzle 2 at temp M190 S120 ; Hold until bed at temp T0 ; First nozzle G21 ; Metric values G90 ; Absolute positioning G92 E0 ; Set extruder to 0 T1 ; First nozzle G21 ; Metric values G90 ; Absolute positioning G92 E0 ; Set extruder to 0 M106 P4 S200 ; Turn set chamber fan speed (speed depends on Filament) G0 Z0.5 F900 ; Raise nozzle to .5mm over bed ;M201 X600 Y600 Z100 E10000 ; Set acceleration ;M207 X5 ; Set Jerk M400 ; process Process1 ; layer 1, Z = 0.300 T1 G92 E0.0000 G1 E-2.0000 F2400 ; feature skirt ; tool H0.300 W0.480 Just regular Gcode for the tool paths here that I removed ; layer end G28 Z G28 X Y M106 S0 ; Turn off cooling fan M98 P"0/macros/Slow_cool.g" ;Slowly cools the bed and build chamber *comment for non PC or ABS parts M104 S0 ; turn off extruder M140 S0 ; turn off bed M141 S0 ; Turn off chamber heater ; Build Summary ; Build time: 0 hours 41 minutes ; Filament length: 1726.4 mm (1.73 m) ; Plastic volume: 11246.52 mm^3 (11.25 cc) ; Plastic weight: 14.06 g (0.03 lb) ; Material cost: 0.65
Here is a sample file that I just printed.
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I still haven't seen your homeall.
G28 ; Home all M401 G0 Z10 F700 ; Bring up Z M402 G1 X-55 Y-48 F12000 G30 ;Probe bed single point and set offset of Z
I don't know what's in your homeall, but it should be homing Z with the probe already, so you should remove everything after G28.
M401 G0 Z10 F700 ; Bring up Z M402
I'm not sure what that's trying to accomplish.