[time-nuts] What is the best counter for a Time Nuts?

Bruce Griffiths bruce.griffiths at xtra.co.nz
Wed Oct 8 21:02:44 UTC 2008


Tom Van Baak wrote:
>> Big question: If the single shot resolution is only 3-4 times better
>> that that of the 53131 and much inferior to the 20 ps of my SR620, how
>> does the 53132 manage to be THAT GOOD A PERFORMER? Magic? Black art? 
>>     
>
> Hi Ulrich,
>
> My understanding is that 1) the 53132A has a single-shot
> resolution of about 150 ps, but also 2) it can do something like
> 200,000 phase measurement per second for CW RF inputs.
>
> In frequency mode, the frequency computed and displayed
> each second is the result of internal statistics on those
> 200,000 samples, which in general is much better than two
> single TI measurements made 1 second apart.
>
> In the best case of no correlation between input and timebase
> the frequency resolution would be 150 ps / sqrt(200 000), which
> is sub-ps.
>
> In reality, depending on the numerical character of the input RF
> frequency, you don't get the full sqrt(200000) factor. Page 3-13
> of the 53132A user manual tries to explain this. But for most
> input frequencies it is in the low picoseconds, which is why it
> can be called a 12-digit per second counter. Google for
> 53132a user manual for a copy of the manual.
>
> (As an aside, if you use a 53132A on a slowly warming OCXO
> you can see the display resolution change when the magic n/m
> threshold, mentioned in the back of the manual, is crossed).
>
> The bottom line is that the SR 620 or hp 5370 is a better counter
> for TI (single-shot) measurements (e.g., comparing 1 PPS ticks).
> But for CW frequency measurements, the 53132A is much quicker
> due to this extreme internal oversampling. To be fair, I'm pretty
> sure that other modern counters (e.g., Philips, Pendulum) also
> use this frequency resolution trick.
>
> /tvb
>
>   
The Australian IEEE paper details are:

/Considerations on the Measurement of the Stability of Oscillators with 
Frequency Counters, /Samuel T. Dawkins, John J. McFerran, Andre N Luiten.

All authors are from the School of Physics, university of Western Australia.

Bruce



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