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10-04-2024 05:02 AM - edited 10-04-2024 05:03 AM
In my PXI (PXIe-8442 controller in PXIe-1092 chassis with Timing and Synchronization upgrade) I have a PXIe-4468 (DSA analog I/O) and a PXI-6683H (Timing module)
I'd like to use the PPS signal to trigger the start of the analog acquisition, I've built the attached VI :
so I expect the `to`indicator (coming from the acquired waveform) to be equal (or at least very close) to the `pps-start`
instead, `t0` is smaller than `pps-start`
if I set `don't send PPS`to TRUE, there's no trigger to start the acquisition and as expected I get a timeout after 8 seconds from the ai read VI
What am I missing?
We have two ears and one mouth so that we can listen twice as much as we speak.
Epictetus
10-04-2024 08:16 AM
@TiTou wrote:
What am I missing?
Not sure I completely understand the issue, but
10-04-2024 10:44 PM
Curious: how much smaller is 4468 t0 than pps-start?
from the specifications:
[4] "Digital filter delay is compensated to 0 ns by default and adjustable in software."
10-06-2024 08:42 AM
Besides the filter delay there is the following issue:
Accuracy of the Waveform Timestamp Returned by NI-DAQmx
Use the GPS to trigger at a know time; then after acquisition change the t0 in any files. Not optimal, but unless you have a TSN network and TSN supported cards, not available on PXI, then that is the only option.
10-11-2024 09:55 AM - edited 10-11-2024 09:56 AM
Thank you for your replies, indeed, I was a bit ingenuous getting the t0 from the AI Read.
I've read a lot of doc and got support from NI Tech Support on this.
It turns out it was a bit trickier than I thought.
NI-Sync has to be used to
- use "connect clock terminals.vi" to send the oscillator signal from the PXI-6683H to clockOut,
- connect physically the ClockOut of the PXI-6683H to the backplane of the PXIe
- use "connect clock terminals.vi" to send the PXI_Clock10 to BoardClock,
>> that's to send a GPS disciplined clock to the PXIe-4468
Then AI task must use PXIe_Clock100 as a ReferenceClock Source (having this option required to enable advanced option on the daqmx dropdown menu)
I'll cleanup the code and post it in case it can help anyone in the future.
I have to say I was impressed with how good the tech support from NI was on this issue.
We have two ears and one mouth so that we can listen twice as much as we speak.
Epictetus
10-11-2024 11:18 AM
@TiTou wrote:
Thank you for your replies, indeed, I was a bit ingenuous getting the t0 from the AI Read.
I've read a lot of doc and got support from NI Tech Support on this.
It turns out it was a bit trickier than I thought.
NI-Sync has to be used to
- use "connect clock terminals.vi" to send the oscillator signal from the PXI-6683H to clockOut,
- connect physically the ClockOut of the PXI-6683H to the backplane of the PXIe
- use "connect clock terminals.vi" to send the PXI_Clock10 to BoardClock,
>> that's to send a GPS disciplined clock to the PXIe-4468
Then AI task must use PXIe_Clock100 as a ReferenceClock Source (having this option required to enable advanced option on the daqmx dropdown menu)
I'll cleanup the code and post it in case it can help anyone in the future.
I have to say I was impressed with how good the tech support from NI was on this issue.
I did the same exact thing with NI-Scope. Because NI-Scope doesn't have a logging feature like DAQmx I had to write my own. That allowed me to use GPS time for my t0. You can use NI-Sync to set a time trigger on the backplane; you can then use that trigger as the real t0 of your data, this should give you the option of having not only a GPS conditioned clock, but also an accurate timestamp.
10-31-2024 11:59 AM
Actually my code is only partially working now...
Sending the start trigger on a rollover second works when the GPS board (pxi-6683) is synched
But I'm currently not able to discipline the onboard clock of the PXIe-4468 to the GPS clock, here's a simplified VI (LV2020) that I made with step by step documented intent.
The plan is to connect physically the clock-out of the GPS board to the PXIe backplane and force the DSA board (PXIe-4468) to discipline its onboard clock to the GPS.
Then Generate a pure tone (50Hz) on the ao channel, and I compensate the AO filter delay by adding a phase angle equivalent to he delay (at 50 kHz sample rate the ao filter delay is 0.00335 which correponds to 60.3° of phase angle).
I use a PMU (GPS synchronized as well) to measure the phase angle continuously and I get a steady increase :
This is over 40 minutes
Clearly, the attached VI is not reaching the goal, the PXIe-4468 is not synchronized with the GPS 😞
What have I missed? Is there a better way of doing this?
We have two ears and one mouth so that we can listen twice as much as we speak.
Epictetus
10-31-2024 01:34 PM
Try to explicitly set the reference clock rate after setting the source. For some X-Cards I believe it is 100MHz, for your DSA card it should be 10MHz. See if that helps.
Lastly, how are you measuring the phase drift?
10-31-2024 03:32 PM
One more thing to try, query the output sample rate after setting it; you may not be at exactly 20kHz like you assume.
10-31-2024 05:51 PM
@mcduff wrote:
One more thing to try, query the output sample rate after setting it; you may not be at exactly 20kHz like you assume.
Can't edit my previous post but 20kHz is allowed with a simulated instrument. However, the DAQ code has some errors in it; there is no AO filter delay, it is a 16 bit output. The Analog Input has a filter delay.