[time-nuts] Phase measurement of my GPSDO

Fri Apr 3 14:55:14 UTC 2020

Hi

If you are doing a limiter for a 5 Hz sine wave, a “normal” comparator is very much
not what you want to use. The slew rates involved are simply way to far below what
it is targeted to do. Effectively, it’s what’s in the counter input circuit that has already 
failed miserably trying to do this.  Think of this as a “slow sine to square converter”. 

For all the ugly details the discussions a few years back on the Colins style limiter
get into the this and that. Bruce did a nice write up at:

http://www.ko4bb.com/getsimple/index.php?id=bruces-zero-crossing-detectors

Bob

> On Apr 3, 2020, at 9:29 AM, Dana Whitlow <k8yumdoober at gmail.com> wrote:
> 
> Caution: opamps make terrible limiters- their overload behavior is
> generally ugly
> and unpredictable.  It's much better to use a genuine level comparator, and
> wire it
> up so that it has a modest amount of hysteresis.
> 
> Dana
> 
> 
> On Fri, Apr 3, 2020 at 6:45 AM Bob kb8tq <kb8tq at n1k.org> wrote:
> 
>> Hi
>> 
>> The quick way to do this is with a single mixer. Take something like an old
>> 10811 and use the coarse tune to set it high in frequency by 5 to 10 Hz.
>> 
>> Then feed it into an RPD-1 mixer and pull out the 5 to 10 Hz audio tone.
>> That tone is the *difference* between the 10811 and your device under
>> test.
>> If the DUT moves 1 Hz, the audio tone changes by 1 Hz.
>> 
>> If you measured the 10 MHz on the DUT, that 1 Hz would be a very small
>> shift
>> ( 0.1 ppm ). At 10 Hz it’s a 10% change. You have “amplified” the change
>> in frequency by the ratio of 10 MHz to 10 Hz ( so a million X increase ).
>> 
>> *IF* you could tack that on to the ADEV plot of your 5335 ( no, it’s not
>> that
>> simple) your 7x10^-10 at 1 second would become more 7x10^-16 at 1
>> second.
>> 
>> The reason its not quite that simple is that the input circuit on the
>> counter
>> really does not handle a 10 Hz audio tone as well as it handles a 10 MHz
>> RF signal. Instead of getting 9 digits a second, you probably will get
>> three
>> *good* digits a second and another 6 digits of noise.
>> 
>> The good news is that an op amp used as a preamp ( to get you up to maybe
>> 32 V p-p rather than a volt or so) and another op amp or three as limiters
>> will
>> get you up around 6 or 7 good digits. Toss in a cap or two as a high pass
>> and low pass filter ( DC offsets can be a problem ….) and you have a
>> working
>> device that gets into the parts in 10^-13 with your 5335.
>> 
>> It all can be done with point to point wiring. No need for a PCB layout.
>> Be
>> careful that the +/- 18V supplies to the op amp *both* go on and off at
>> the
>> same time ….
>> 
>> Bob
>> 
>>> On Apr 3, 2020, at 5:13 AM, Tobias Pluess <tpluess at ieee.org> wrote:
>>> 
>>> hi John
>>> 
>>> yes I know the DMTD method, and indeed I am planing to build my own DMTD
>>> system, something similar to the "Small DMTD system" published by Riley (
>>> https://www.wriley.com/A Small DMTD System.pdf).
>>> However I am unsure whether that will help much in this case, because all
>>> what the DMTD does is to mix the 10MHz signals down to some 1Hz Signal or
>>> so which can be measured more easily, and I already have 1Hz signals (the
>>> 1PPS) which I am comparing.
>>> Or do you suggest to use the DMTD and use a higher frequency at its
>>> outputs, say 10Hz or so, and then average for 10 samples  to increase the
>>> resolution?
>>> 
>>> Thanks
>>> Tobias
>>> HB9FSX
>>> 
>>> 
>>> On Fri, Apr 3, 2020 at 12:53 AM John Miles <john at miles.io> wrote:
>>> 
>>>>> b) if I want to measure 1e-11 or even 1e-12 at 1sec - what resolution
>>>> does
>>>>> my counter need? If the above was true, I would expect that a 1ps
>>>>> resolution (and an even better stability!) was required to measure ADEV
>>>> of
>>>>> 1e-12, The fact that the (as far as I know) world's most recent,
>>>>> rocket-science grade counter (some Keysight stuff) has "only" 20ps of
>>>>> resolution, but people are still able to measure even 1e-14 shows that
>> my
>>>>> assumption is wrong. So how are the measurement resolution and the ADEV
>>>>> related to each other? I plan to build my own TIC based on a TDC7200,
>>>> which
>>>>> would offer some 55ps of resolution, but how low could I go with that?
>>>> 
>>>> That sounds like a simple question but it's not.  There are a few
>>>> different approaches to look into:
>>>> 
>>>> 1) Use averaging with your existing counter.  Some counters can yield
>>>> readings in the 1E-12 region at t=1s even though their single-shot
>> jitter
>>>> is much worse than that.  They do this by averaging  hundreds or
>> thousands
>>>> of samples for each reading they report.  Whether (and when) this is
>>>> acceptable is a complex topic in itself, too much so to explain quickly.
>>>> Search for information on the effects of averaging and dead time on
>> Allan
>>>> deviation to find the entrance to this fork of the rabbit hole.
>>>> 
>>>> 2) Search for the term 'DMTD' and read about that.
>>>> 
>>>> 3) Search for 'direct digital phase measurement' and read about that.
>>>> 
>>>> 4) Search for 'tight PLL' and read about that.
>>>> 
>>>> Basically, while some counters can perform averaging on a post-detection
>>>> basis, that's like using the tone control on a radio to reduce static
>> and
>>>> QRM.  It works, sort of, but it's too late in the signal chain at that
>>>> point to do the job right.  You really want to limit the bandwidth
>> before
>>>> the signal is captured, but since that's almost never practical at RF,
>> the
>>>> next best thing to do is limit the bandwidth before the signal is
>>>> "demodulated" (i.e., counted.)
>>>> 
>>>> Hence items 2, 3, and 4 above.  They either limit the measurement
>>>> bandwidth prior to detection, lower the frequency itself to keep the
>>>> counter's inherent jitter from dominating the measurement, or both.
>> You'll
>>>> have to use one of these methods, or another technique along the same
>>>> lines, if you want to measure the short-term stability of a good
>> oscillator
>>>> or GPSDO.
>>>> 
>>>> -- john, KE5FX
>>>> 
>>>> 
>>>> 
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