Delta Rail Friction Detection - A Challenge

A major cause of print failures on my Delta is a build up of debris in the carriage rails causing friction and eventually jamming.

I could possibly use stall detect and a lot of current tuning to detect this but that would still only tell me that a problem has already occurred which, whilst better than nothing, still results in a lost print.

Regular cleaning helps but the cheap Chinese linear rails I have seem to be dust magnets and can go from perfectly smooth to head smashingly rough almost overnight. There is also the issue of debris inside the carriages, stripping them down before each print just in case would be a nightmare.

What would be really helpful, therefore, would be a way to profile the motor current whilst moving each axis to detect roughness before it becomes a problem.

From other threads I think that directly monitoring the motor current might not be possible however the overall system current is available so could be used as a rough guide.

basically the way I envisage it working is that the printer is homed and then each axis is moved in turn whilst monitoring the system current to both spot spikes and obtain a current profile.

On a delta the movement would need to be split into smaller chunks to avoid moving the head outside of the print area but that should be fairly straightforward.

Though my interest is primarily my Delta printer this feature would also be useful for more traditional arrangements as well.

As usual, apologies if this has already been requested - I'll learn how to search properly one day - I promise.

As my post mentions this is a busy forum and spotting a valid release post can be tricky.

I can’t find the previous discussions but I can say that, for me, the forum is definitely not the best (or even a good) option.

Because of the way the forum works announcement posts quickly get swamped and older ones resurface.

I haven’t been able to get the atom feed to work but I suspect that would probably send me ext a notifications when interim checkins occur.

I’m not asking for anything complex, just a folder/thread where only DC can post that only has release notifications. Anyone who’s interested can then subscribe to that thread and only receive release notifications without a side order of FTP settings, M25 errors and and Raspberry Pi.

Is there any way to subscribe for notifications when new releases of Duet/PanelDue firmware occur?

Subscribing to the Firmware installation thread would work but it is quite a busy thread and, much as I love hearing about problems with CNC machines and routing issues, I'd rather just know that, for example RC5 has been released.

@dc42:

@Markdnd:

Has current layer been removed from DWC in 1.21RC3?

I can’t see it anywhere just a very inaccurate completion percentage where it used to be.

(It claims I am 57.5% of the way through but the print has only 2mm to go of a 30mm print and is, in reality, at least 90% complete)

Was the GCode file sliced by Cura? There is an issue with displaying the current layer when printing files generated by Cura.

No, it was Simplify3D

Not as user friendly as the old “Layer x of y” but hopefully I’ll get used to it.

Having said that can I put in a vote for the the old layer information format to be brought back, if only as an option.

It was, after all, the only thing on that line that was accurate and definitely something I used on a regular basis.

Has current layer been removed from DWC in 1.21RC3?

I can’t see it anywhere just a very inaccurate completion percentage where it used to be.

(It claims I am 57.5% of the way through but the print has only 2mm to go of a 30mm print and is, in reality, at least 90% complete)

Sorry it was me being stupid.

My xy move speed was set to 300mm/s which was causing missed steps.

This could be my setup or possibly a slicer bug (S3D) but I've noticed that on a couple prints now that the head will frequently drag through the work rather than over it when doing a long transit move. (On one occasion I'm sure I heard it hit the glass bed!)

It's at least 0.2mm low, possibly more and hit hard enough on one occasion to mess up the print alignment requiring a home to get back in sync.

Everything is levelled, calibrated and tuned up though I don't think it could be calibration since, if that were the case, it would follow the same track when laying down the filament in the first place.

I'm running a delta configuration on 1.21RC3 though I think I first saw it just after I updated to 1.20. (Though that may be a red herring because I did a lot of slicer tweaks around the same time.)

Transit moves are set to the S3

I'm sure it's probably something stupid I've done but can't think what it might be at the moment.

Has anyone else come across this behaviour on a Delta?

I know you’ve checked the wiring but is there any possibility at all that one of your endstops has a short to the frame of your printer. A single stray strand or a bit of nicked insulation is easy to miss and hard to spot without putting a meter on it.

From from your description of the initial incident it sounds like you have a metal (or at least conductive) work surface. If this is the case and you had a short from the power or signal line of an enstop to the frame there could have briefly been a direct route from the 24V supply to the 3.3V circuitry via the printer frame.

Qdeathstars suggestion of disconnecting everything is a good one. It sounds like your board is terminal but testing it in isolation may yield some unexpected good news.

That’s where the cluster size makes a big difference though presumably you don’t have enough spare RAM to hold even one 64k cluster let alone the 2 or 3 you’d need to cache the cluster table for an 8Gb drive.

Working with tablets and desktops I’ve been spoiled and almost forgotten the joys of trying to cram an operating system and application into what is basically a glorified oven timer.

Might just be my weakish WiFi signal but after updating from 1.20 to 1.21RC3 I seem to be getting more random disconnections than I did prior to the upgrade.

Hitting connect usually gets me straight back in though there have been a couple of occasions where I struggled a bit.

Relevant bit of M122 diags in case there's anything in there that's of any use (as you can see the signal strength is weak but not that bad):

• WiFi -
  Network state is running
  WiFi module is connected to access point
  Failed messages: pending 0, notready 0, noresp 0
  WiFi firmware version 1.21RC3(28b1)
  WiFi MAC address ec:fa:bc:0b:f7:33
  WiFi Vcc 3.47, reset reason Turned on by main processor
  WiFi flash size 4194304, free heap 14952
  WiFi IP address 192.168.0.25
  WiFi signal strength -71dBm, reconnections 0, sleep mode modem
  Socket states: 2 0 0 0 0 0 0 0

I'm thinking of putting my Y-Splitter upstream of a remote direct drive extruder mounted on my effector (I have a delta) then using secondary extruders to handle the changes and let the RDD to do the precision printing work.

This would allow the long retractions needed for a splitter without the downsides of a Bowden arrangement.

The other thing I'm considering is the prime cup up high, maybe with a wiper on the edge - with a delta, Z is just another direction and Z moves are as quick and accurate as X and Y ones. No need to waste material building layers of a tower with no changes.

Has anybody had any success with either of these ideas?
[edited for spelling and clarification]

Don't worry, a quick search turned it up:

https://www.duet3d.com/forum/thread.php?id=1010#p28993

@DjDemonD:

It's worth reading kraegars thread on 2in1 splitters and filament shaping to retract back out of the hotend automatically without jams and tails. He used a retract, pause, reinsert almost as far as he retracted, then pull back as fast as the extruder could go. Claimed several thousands of swaps with no feed issues.

Sounds interesting - do you have a link ?

DC will probably clarify this but, as I understand it:

The firmware probes repeatedly until either two consecutive results are within tolerance (i.e. their difference is less than or equal to the value in the S parameter of M558) or the number of attempts specified in the A parameter have been made.

In the latter case the average of the probe attempts is used. (I'm not sure if any additional processing is performed to discard outliers such as using the two closest readings or using a geometric mean)

It's probably just greed on my part but I found myself asking "Is two taps really enough?".

In all probability two is fine but a third would significantly reduce the chances of a glitched match.

Unfortunately it would also slow down the probing procedure so what I am proposing is an additional M558 parameter that specifies the number of sequential matches required.

This could actually be a double parameter in the form M558 L3:5 which would specify that three out of the last five results need to be within tolerance.

The double parameter would allow the current behaviour to be simulated for a quicker probe or more rigorous probing to be performed for a noisy environment.

Anybody got any views on the matter (positive or negative)?

I have a delta configuration so hopefully no changes are needed.

I checked my SD card and, as you suspected, the block size was 4KB.

Since this is the card that was supplied with the Duet and hadn't been reformatted, I thought I'd better let you know in case any stock needs reformatting.

As for fragmentation, is this even an issue any more?

Back in the stone age, when I was repairing computers made out of rocks and sharpened sticks, shifting from one track to another involved physically moving the read head and took forever (relatively speaking). Fragmentation that split sequential blocks throughout multiple tracks would cause significant performance issues.

SD cards, on the other hand, have no moving parts and generally speaking retrieving one block takes pretty much the same amount of time as any other regardless of the logical track it might be located on. Caching and fault recovery by substitution of redundant tracks makes the actual location of the block even less relevant (or even predictable)

This means that, in theory, defragmentation is unnecessary and may actually reduce the life of the card by performing additional write operations (as you know they can only do a limited number).

Caching, of course, might struggle a little though I suspect most algorithms are intelligent enough to predict the next block needed.

Small block sizes on the other hand would increase communications overhead significantly - many flash cards and SSDs are specifically tuned to perform far better with sequential reads than individual 4kb reads.

I can see that having the potential to impact performance and cause timeouts. Anyone who's ever tried to back up large numbers of files to a memory stick will have seen how massive files transfer in a matter of seconds whereas folders containing a large number of small files can takes minutes or even hours. Increasing the block size will help here.

It should be noted that large block sizes will reduce the maximum number of small files than can be stored; though I doubt most of us will actually run into that problem even with a 4GB card.

A quick suggestion for when you clone yourself or invent a time machine…

Would it be possible to create a small utility that is run as part of the firmware upgrade process that, in addition to logging the success (or otherwise) of the upgrade, scans the config files and reports any lines that may (or definitely will) need changing as a result of the upgrade?

In it's most basic form this could simply scan for G codes that have been affected by the upgrade and list them out with a note at the bottom referring the user to the online documentation and change notes.

A more advanced utility could only report if specific parameters are present (or absent) to avoid highlighting irrelevant issues. it could also provide links to notes on specific G code changes (e.g. the need to add an S2 parameter to some G0 and G1 moves for Cartesian and CoreXY printers after upgrading to V1.21)

I realise that a log file is no replacement for actually reading the documentation but there are plenty of us out there who only refer to the instructions as a last resort. (Which is probably why my IKEA bookcase seems to have come out as a fish tank...)

Additionally could I request that the release notes include machine configuration specific executive summaries of updates (Delta, CoreXY, Cartesian, CNC, etc) that highlight specific enhancements and required changes as relevant to that operation mode.

Apologies for asking this, especially since the release notes are perfectly clear, but my brain is refusing to accept the obvious this morning…

I'd just like to confirm that the new "home before move" restrictions on G0 and G1 only relate to Cartesian and CoreXY printers and do not apply to Delta printers and so no modification is needed to homedelta.g after installing 1.21RC3

Thanks - I’ll take a look at the SD card.

Is it worth waiting for the stable release or is 1.21RC3 pretty much free of print killing bugs?