I'm not 100% certain what effect it may have but I noticed the "hm2_XiXX.N.encoder.timer−number" pin is missing. According to the man pages, this pin should be available if hm2 has a dpll module, which it does unless the encoder module "does not support it". Stepgen does have the "timer-number" as it should.
the encoder.timer-number pin selects which hm2dpll tiimer to use to synchronize reads offset of the thread rate. Since it's unavailable I'd assume it would be the same as -1, or not used. Not something I use with my other machines but it looks like using a timer with a negative value helps account for latency issues in hm2 reads. Probably won't help with the index thing but the encoder velocity feedback tends to be all over the place below 100rpms, figured it may help with that. On Saturday, September 14, 2019 at 5:41:06 PM UTC-4, justin White wrote: > > > Forgot the picture > > > > > > > On Saturday, September 14, 2019 at 5:40:14 PM UTC-4, justin White wrote: >> >> Actually this is a better example because I do the exact same thing on >> this gizmo but in real use. The encoder is driven by a 2" diameter roller >> and the web driving it is running at 900fpm. That means the roller is >> spinning at ~1700 RPMs. That machine is using a much more complicated hal >> file, it counts index pulses (using updown) then triggers the an output on >> the comparator component. It's the same encoder, a 7i96 and a LinuxCNC PC @ >> ~2ghz with not great latencies, but it never really misses an index count. >> That machine runs a fairly huge Python file but all the logic is done in >> hal. >> >> Point is that all things being equal I probably shouldn't have an issue >> seeing an index pulse in the same manner at 1/100th the speed at 900MHz. >> But like I said, I do alot of monkeying around, maybe I damaged this >> encoder in some way. >> >> >> >> On Saturday, September 14, 2019 at 5:21:32 PM UTC-4, justin White wrote: >>> >>> The "GUI" isn't counting the pulses. As I said/ I'm using the hal >>> component "updown" which is a RT component as any other. That component >>> outputs an unsigned integer that I just push to a gladevcp hal label. So >>> it's being "counted" at the servo thread rate of 1ms or the .5ms that I >>> briefly tried. I don't do any python coding or anything like that other >>> than a very simple Python file to load the GUI as you typically would. The >>> whole GUI is Hal files with a gladevcp interface, all it's doing is >>> printing the number on the updown count pin. >>> >>> The 900MHz CPU in and of itself can't possibly be the issue. The HM2 >>> encoder core runs at the same speed as it does on any of my Mesa ETH cards, >>> and being ETH cards it means I use a Preempt-RT kernel on those PCs as >>> well. An encoder spinning at 3000rpms and not missing a single pulse has >>> that index pulse state in several orders of magnitude less FPGA cycles than >>> me sitting here spinning an encoder by hand. A 2GHz x86 CPU with almost >>> equal latency has far less opportunity to recognize that hm2 pin state than >>> the Nano does at 900mhz with me spinning it by hand. >>> >>> On Saturday, September 14, 2019 at 5:01:39 PM UTC-4, [email protected] >>> wrote: >>>> >>>> Sep 14, 2019, 20:04 by [email protected]: >>>> >>>> > Doing a little testing on my hardware I noticed there is an issue >>>> with encoder indexes being missed while trying to count them. It's >>>> difficult in hal to see the index pin change state on an encoder with >>>> reasonable resolution because the change in state is very short. So I >>>> added >>>> the function in my GUI to count up the encoder index pulses because it's >>>> obviously more visible when a number increments up vs trying to catch a >>>> small blip in halshow or halcmd. I noticed the index pulses are missed >>>> spinning the encoder at anything other than a very slow speed. I'm not >>>> really sure what communication method mksocfpga uses between the fpga and >>>> the cpu but I figured I'd try running a few non-fp components in a 0.2ms >>>> base thread to see if it helped. Didn't really seem to help at all >>>> > >>>> > I first tried this by routing the hm2<board>index-input hal pin into >>>> the updown component and sending the counts to a hal label in my gui. My >>>> first thought is that the state change is too short for the servo-thread >>>> to >>>> catch at 1ms, so I added the "edge" component to extend the length of the >>>> index-input on it's output but that didn't really help. The output of edge >>>> obviously only get's extended if it catches the input state change which >>>> it >>>> does no better than updown. >>>> > >>>> > The conclusion I'm drawing is that the RT behavior of the CPU or the >>>> communication between the FPGA and CPU cores is too slow for whatever >>>> reason, that or there's some issue with the encoder module in mksocfpga's >>>> hm2. I'm using 3 channels of a quad differential receiver chip for each >>>> encoder input. There is no difference between the index channel and A-B >>>> channels hardware wise, and this is the same on 6 identical instances of >>>> encoder inputs. The only difference is that hm2 counts the A-B channels in >>>> the FPGA while the index is not. I haven't seen any indication of missed >>>> counts on the A-B channels counting 4000 edges in quadrature. I've messed >>>> with the hm2 encoder sample-frequency too which also did not help. The >>>> only >>>> thing that helped somewhat is running a 0.5ms servo-thread but it still >>>> missed quite a few index's, and this is with me spinning the encoder by >>>> hand. >>>> > >>>> > I use this same model of encoder on a LinuxCNC machine with a Mesa >>>> 7i96 and again on a 7i76e and I've never really seen an index missed on >>>> those spindle motors at ~3000rpms. If this isn't an issue with the hm2 >>>> encoder module itself I'd expect to see the same issue with a normal GPIO >>>> input missing short/fast pulses but I would think that someone else would >>>> have noticed that issue by now? >>>> > >>>> > Thoughts? >>>> > >>>> Stupid question, but how exactly are you counting the Z pulses in your >>>> GUI? Are taking into account the non-RT nature of the GUI? >>>> >>>> I don't remember how exactly is the communication done in HostMot2, but >>>> I remember that you have to "compute" the index signal from A/B registers >>>> if you were to catch the sampling message (request and response from FPGA >>>> layer) outside the index occurrence. >>>> >>>> Cern. >>>> >>> -- website: http://www.machinekit.io blog: http://blog.machinekit.io github: https://github.com/machinekit --- You received this message because you are subscribed to the Google Groups "Machinekit" group. To unsubscribe from this group and stop receiving emails from it, send an email to [email protected]. To view this discussion on the web visit https://groups.google.com/d/msgid/machinekit/0e6bd847-5412-44b5-b6e2-8fef04ad4694%40googlegroups.com.
