Guide to Marlin's Fast BLTouch Probing feature on Duet

CCS86

I should clarify, I did see a reduction in precision at higher speeds (in some tests, but not others). You have to draw the line somewhere, at what is, and is not, a change you could even notice.

Here are the results I got probing at F500 and F50:

Observations:

• The slower speed offsets the reported values in a negative direction (~0.010mm)

• The min/max spread at F500 and F50 is 0.010mm

• There appears to be a resolution of 0.005mm, even though I have 400 steps/mm on Z, which would give 0.0025mm full steps, plus x8 microstepping and interpolation

I'm curious to hear thoughts on this test. I wanted to gather larger sample sizes, but there seems to be a limitation in RRF for the number of points you can define and report via probing. Plus, I have to copy the data out of the console and manipulate it in excel to get it in a column (kind of a pain). If you have suggestions on how to improve the probing resolution, or increase the number of hits and write directly to a file, that would be awesome.

Here is my macro:

;probe testing single point  

M558 P5 C"^zprobe.in" H5 F50 T6000 
G31 P25 X12 Y-18 Z2.37                              

G91                     ; relative positioning
G1 H2 Z5 F6000          ; lift Z relative to current position
G1 H1 X-210 Y-200 F1800 ; move quickly to X and Y axis endstops and stop there (first pass)
G1 H2 X5 Y5 F6000       ; go back a few mm
G1 H1 X-210 Y-200 F360  ; move slowly to X and Y axis endstops once more (second pass)
G90                     ; absolute positioning

G1 X0 Y178 F4000        ; go to first bed probe point
G30                     ; home Z by probing the bed
G1 F2000

G30 P0 X12 Y160 Z-99999  
G30 P1 X12 Y160 Z-99999  
G30 P2 X12 Y160 Z-99999  
G30 P3 X12 Y160 Z-99999 
G30 P4 X12 Y160 Z-99999  
G30 P5 X12 Y160 Z-99999
G30 P6 X12 Y160 Z-99999  
G30 P7 X12 Y160 Z-99999  
G30 P8 X12 Y160 Z-99999  
G30 P9 X12 Y160 Z-99999  
G30 P10 X12 Y160 Z-99999 
G30 P11 X12 Y160 Z-99999 
G30 P12 X12 Y160 Z-99999 
G30 P13 X12 Y160 Z-99999 
G30 P14 X12 Y160 Z-99999 
G30 P15 X12 Y160 Z-99999 
G30 P16 X12 Y160 Z-99999 
G30 P17 X12 Y160 Z-99999 
G30 P18 X12 Y160 Z-99999 
G30 P19 X12 Y160 Z-99999 
G30 P20 X12 Y160 Z-99999 
G30 P21 X12 Y160 Z-99999 
G30 P22 X12 Y160 Z-99999 
G30 P23 X12 Y160 Z-99999 
G30 P24 X12 Y160 Z-99999 
G30 P25 X12 Y160 Z-99999 
G30 P26 X12 Y160 Z-99999 
G30 P27 X12 Y160 Z-99999 
G30 P28 X12 Y160 Z-99999 S-1


G91                     ; relative positioning
G1 H2 Z5 F6000          ; lift Z relative to current position
G1 H1 X-210 Y-200 F4000 ; move quickly to X and Y axis endstops and stop there (first pass)
G1 H2 X5 Y5 F6000       ; go back a few mm
G90                     ; absolute positioning

  
M558 P5 C"^zprobe.in" H5 F500 T6000 
G31 P25 X12 Y-18 Z2.37    


M18

CCS86

Okay, on the resolution: I was setting 400 steps/mm first (which assumes a default x16 microstepping, then I was switching to x8. That gives me 200 steps/mm. Switching to x16 doubled my resolution, but the console only reports to 3 decimal places, and I am seeing 0.003 and 0.002 values reported, which seems odd.

Re-running the same test in x16, gives this result:

I noticed the downward trend, especially in the slow probing, and wondered if the MCU/drivers heating up could be causing it. So, I kicked my board cooling fan onto full, to stabilize all board temps, and I also kicked Z into x32, to run again. Results:

Downward trend is still there, and I still see very little reason to probe slowly.

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I decided to try it out in P9 mode and see if it made a difference. I had to increase the dive distance for the fast probing, so it had enough time to recover. I left it in x32 as well:

mwolter

Interestingly, P5 appears to be more accurate in my case. Below are five deviation tests for each P5 and P9. We're talking small fractions of a millimeter, but still. Maybe because the pin does not have to reset each time? Also the probe height can be lower with P5 at 1mm and P9 has to be 2mm or it errors because the probe can't extend. Also the P5 test is easily twice as fast as P9. IMO P5 is better as long as the machine is calibrated to reduce the chance of the pin breaking.

P9

P5

Phaedrux

@mwolter What is your M558 and G31 for those tests?

mwolter

@Phaedrux
P5

M558 P5 C"^zprobe.in" H1 F120 T24000
G31 X25 Y-12.6 Z3.8 P500

Here's how I'm invoking it.

G1 Z{move.axes[2].userPosition+5} F600		; move z up 5mm
M558 P5 C"^zprobe.in" H1 F120 T24000
M401
G4 P200			; pause for 200ms
M280 P0 S60		; enable BLTouch Touch SW Mode
G30 P0 X105 Y105 Z-9999
G30 P1 X105 Y105 Z-9999
G30 P2 X105 Y105 Z-9999
G30 P3 X105 Y105 Z-9999
G30 P4 X105 Y105 Z-9999
G30 P5 X105 Y105 Z-9999
G30 P6 X105 Y105 Z-9999
G30 P7 X105 Y105 Z-9999
G30 P8 X105 Y105 Z-9999
G30 P9 X105 Y105 Z-9999 S-1
M402
M558 P9 C"^zprobe.in" H2 F120 T24000

P9

M558 P9 C"^zprobe.in" H2 F120 T24000
G31 X25 Y-12.6 Z3.8 P500

Phaedrux

@mwolter said in Guide to Marlin's Fast BLTouch Probing feature on Duet:

P500

Have you tried with P25?

mwolter

@Phaedrux said in Guide to Marlin's Fast BLTouch Probing feature on Duet:

Have you tried with P25?

Yes, didn't notice a difference. No difference with the accuracy or functionality (not needing M280 P0 S60). It has been P500 for a while, so left it there.

PastThePoint

Sorry to bring this back from the dead, but for those using a Duet 3 and Toolboards, this will NOT work. "Only Z probe types 8 and 9 are supported on expansion boards"

I wasn't paying attention when I was setting everything up. When I tried to actually do a fast probe, I got the error message quoted above.

dc42

@pastthepoint said in Guide to Marlin's Fast BLTouch Probing feature on Duet:

Sorry to bring this back from the dead, but for those using a Duet 3 and Toolboards, this will NOT work. "Only Z probe types 8 and 9 are supported on expansion boards"

I wasn't paying attention when I was setting everything up. When I tried to actually do a fast probe, I got the error message quoted above.

There is no reason why you shouldn't use P8 instead of P5. However, the fast probing method doesn't work on all machines, which is why we have the P9 option for BLTouch.

PastThePoint

@dc42 So, instead of attempting to use P5, I can use P8/P9 in it's place and this should function? With everything going on, I can't remember yesterday, let alone the exact details of why this didn't work, lol. But, if you think it will work, I'll give it another shot!

Thanks for taking the time to reply @dc42 !

Phaedrux

@pastthepoint said in Guide to Marlin's Fast BLTouch Probing feature on Duet:

@dc42 So, instead of attempting to use P5, I can use P8/P9 in it's place and this should function? With everything going on, I can't remember yesterday, let alone the exact details of why this didn't work, lol. But, if you think it will work, I'll give it another shot!

Thanks for taking the time to reply @dc42 !

I don't think that's the case. The reason this method uses P5 instead of P9 is to avoid the automatic deploy and retract commands that are inherent to P9.

oliof

@dc42 said in Guide to Marlin's Fast BLTouch Probing feature on Duet:

RRF used to keep the BLTouch deployed throughout probing sequences. Unfortunately that doesn't always work. The reason is that when the probe triggers, it retracts the pin automatically. If it is then commanded to deploy again (by using probe type P5 instead of P9), then if the print head hasn't risen enough (or the bed dropped far enough) so that the pin touches the bed and triggers again, the BLTouch enters the error state. That's why we introduced probe type 9, which keeps the pin retracted until ready to probe the next point.

Raising this thread because it came up in another context: Newer BLTouch probes do not autoretract anymore.

Phaedrux

@oliof said in Guide to Marlin's Fast BLTouch Probing feature on Duet:

Newer BLTouch probes do not autoretract anymore.

Can you point me to more details?

oliof

I don't have a source at hand, but it seems to be the case since BlTouch Smart v2.2. It definitely is in 3.1 probes (see https://github.com/MarlinFirmware/Marlin/pull/14015 -- unfortunately the originally linked video where high speed mode without stow/retract being showcased has been pulled from Youtube it seems).

ghost opened this pull request in MarlinFirmware/Marlin

closed BLTOUCH Tweaks and V3.1 new command #14015

Hernicz

@oliof They do not autoretract during a single "multi-touch" probing move or they can do an entire 441 point mesh without retraction?

oliof

@hernicz the latter.

Hernicz

@oliof Are you aware that the link of the pull request you posted is from May 2019 while I wrote this guide in Feb 2020? Also the pull request is for Marlin not for RepRap.

I've seen Marlins HS BLTouch in action back then and because RepRap didn't have this feature I figured out a workaround (basically ported the feature). As far as I know RRF still doesn't have this feature but now you can have 2 different probing speeds in M558. Since I changed my Duet2 WiFi to a Duet 3 MB6HC using the same BLTouch, I need to put "M280 P0 S60" after every deploy comand otherwise the pin gets retracted.

As far as I know this feature still only can be achieved on RepRap if you set your probe type to P5, deploy and retract manually and prevent retraction with "M280 P0 S60" if necessary.

To prevent the nozzle to ram into the heatbed or give "probe already triggered..." error during a single G30 command, by default the probe type has to be P9, only switching to P5 if necessary. This is why I wrote lenghts about modular probe config.

oliof

@hernicz yes I am aware of that, the Marlin Merge Request is only here as a reference to the fact that BLTouch has the ability to not forcibly retract after probing. This is in support of your work here, not against it (-;

Hernicz

@oliof Yes it has the ability (it had it back then as well), but if the firmware doesn't keep it deployed it will get retracted (at least after every probe point). On my Duet3 6HC it retracts even as a P5 I need servo commands to keep it deployed.

By the way I experimented with using short dive height, sliding the pin on the heatbed with very good results. Unfortunately sliding the pin on the heatbed will eventually wear it off (how fast depends on surface), so this method is definitely not advised if you want accuracy in the long run (and don'twant to change the pin).

The biggest problem with BLTouch that the pin has an unnecessary >1mm travel until it gets triggered, so @ 1mm probing speed thats 1 sec / touch. It would be nice if we would have a probe with adjustable pin deployment so we could deploy just under the trigger point of the probe and set dive height a bit more than the highest point of the heatbed (compared to Z0)

In this video the probing speed is 1mm/s, but because the dive height is so short it is really rapid.

https://youtu.be/Vq_Jz201ndw

CCS86

@hernicz said in Guide to Marlin's Fast BLTouch Probing feature on Duet:

@oliof Yes it has the ability (it had it back then as well), but if the firmware doesn't keep it deployed it will get retracted (at least after every probe point). On my Duet3 6HC it retracts even as a P5 I need servo commands to keep it deployed.

By the way I experimented with using short dive height, sliding the pin on the heatbed with very good results. Unfortunately sliding the pin on the heatbed will eventually wear it off (how fast depends on surface), so this method is definitely not advised if you want accuracy in the long run (and don'twant to change the pin).

The biggest problem with BLTouch that the pin has an unnecessary >1mm travel until it gets triggered, so @ 1mm probing speed thats 1 sec / touch. It would be nice if we would have a probe with adjustable pin deployment so we could deploy just under the trigger point of the probe and set dive height a bit more than the highest point of the heatbed (compared to Z0)

In this video the probing speed is 1mm/s, but because the dive height is so short it is really rapid.

https://youtu.be/Vq_Jz201ndw

Have you tested faster probing speeds? I didn't see a real benefit in probing so slowly.