On Fri, Oct 26, 2018 at 11:27 AM ew via time-nuts
wrote:
> It is two layer and I added an amp with two transformer outputs.
> I am not going to get in to board selling or shipping to oldBert
>
>
Although it is not the cheapest, OSHPark will let you upload your board as
gerbers and share it with
I took delivery last Thursday of 8 10X10 boards 10 each 2 days DHL from China
total cost $ 86 Bert Kehren Sent from my Galaxy Tab® A
Original message From: Bob kb8tq Date:
10/26/18 4:21 PM (GMT-05:00) To: Discussion of precise time and frequency
measurement Subject:
Hi
Well if this turns into a major enterprise …. do a second board with a
different set of
footprints. Probably better to see if this one will fly first …..
Bob
> On Oct 26, 2018, at 4:19 PM, ewkehren via time-nuts
> wrote:
>
> I have added OSA 8663 was not easy no more Please
Hi
I think what is needed is somebody to stand up and say “ok, I’ll handle all the
ordering and shipping stuff”. No, that somebody is not me …. sorry about that.
There are a *lot* more board designs than just this one floating around. This
could
turn into a fairly complex little enterprise.
I have added OSA 8663 was not easy no more Please
BertSent from my Galaxy Tab® A
Original message From: Patrick Murphy
Date: 10/26/18 3:35 PM (GMT-05:00) To: time-nuts@lists.febo.com Subject: Re:
[time-nuts] OCXO Board Not to be a "me too", but I
Ole,
> I'm simulating some noise to try to improve my somewhat sketchy
> understanding of what goes on with the various noise types as shown on an
> ADEV plot. Nothing fancy, ~3600 points of gaussian random numbers between 0
> and 1 in excel, imported into Timelab as phase data, scaled to ns.
I
I do not think you understand under no circumstances will I get in to the board
business.I do all the boards for an off list group 20 designs last week from
China.Willing to help some one to do this board it was part of last weeks
shipping Corby was first to test it so I am willing to share it
Al OCXO's have Ref outputs will look at adding EFC SMA. Send me the footprint
of the 8663 and I will take a lookBert
In a message dated 10/26/2018 2:35:35 PM Eastern Standard Time,
hol...@hotmail.com writes:
A SMA connector for EFC input would be nice. Also a footprint for the
Oscilloquartz
A search for the Navy designation O-1695A/U for the HP5062C cesium
clock leads to an interesting webpage for the history of Navy time
dissemination, http://www.navy-radio.com/freq-equip.htm . It claims
that the service manual for it is 0969-LP-171-6020 . That manual
could not be found on line.
A SMA connector for EFC input would be nice. Also a footprint for the
Oscilloquartz 8663 DOCXO... these are rather nice oscillators. They do have a
ref voltage output.
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> In case the screenshot does not make it though;
> W PM starts at 1.69e-9
For this you should expect 1.73 which is sqrt(3). For example:
C:\tvb> rand1 100 | adev4 /a 1
rand1 100(count) 1(sdev) 0(mean) 1540577979(seed)
** tau from 1 to 1 step 1
1 a 1.732671e+000 98
> W FM
I'm not up to doing the whole project, but I would certain be interested in 2 or
3 boards for sure.
Wes Stewart N7WS
On 10/26/2018 5:51 AM, Bob Martin wrote:
Bert,
That looks like a useful board. Certainly some of the oscillators I'm giving
away would fit nicely on it. Since it looks
Bert,
That looks like a useful board. Certainly some of the oscillators
I'm giving away would fit nicely on it. Since it looks like a two
layer board, a quick check at pcbway.com puts the cost at $.79
apiece at the 100 quantity exclusive of shipping.
Best,
Bob Martin
On 10/26/2018 4:17
Hi, Attila
> I see two issues here: If your random numbers are indeed between 0 and 1,
> as you write, then they are uniformly distributed, and not normally
> distributed. This will give you a slight bias when integrating.
>
You are correct, my statement was imprecise - I generate numbers
Hej Ole,
On Fri, 26 Oct 2018 11:34:41 +0200
Ole Petter Ronningen wrote:
> I'm simulating some noise to try to improve my somewhat sketchy
> understanding of what goes on with the various noise types as shown on an
> ADEV plot. Nothing fancy, ~3600 points of gaussian random numbers between 0
>
Hi, all
I'm simulating some noise to try to improve my somewhat sketchy
understanding of what goes on with the various noise types as shown on an
ADEV plot. Nothing fancy, ~3600 points of gaussian random numbers between 0
and 1 in excel, imported into Timelab as phase data, scaled to ns.
I
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