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Looping Binary Counter, Stable 32768 oscillator

G

GMV

Jan 1, 1970
0
I am in need of a circuit that will place minute mark
,second 59 or second zero of UTC, into my homebuilt circuit
for calibration purposes. I have thought of possibly building
a 32768Hz oscillator and using a looping binary counter that can be
calibrated using WWV or WWVB but this all sounds silly to me
since there must be calibration clocks already out there.
I need either one with a TTL output or even better an FET switch or something
like that with a mark I can feed directly into the back end of my
circuit just before the signal hits the A/D converter.
The stability of the oscillator would be most important
not to deviate more than +/-0.03 Hz.
My laptop has a RTC that looses one second of time every four point five hours
so it is completely unsuitable for anything other than getting the time
close enough to understand what the calibration mark means.

Could someone who is an engineer provide me with
a schematic to do this ?
The basic idea seems simple for those educated in the EE field.
It is the stable oscillator that eludes me.

Any help here is appreciated.
Sincerely;
[email protected]
 
G

GMV

Jan 1, 1970
0
I think you might be from another country so i just
want to say here in the usa we have a time signal at
60KHz that keeps cheap maybe $20.00 clocks in sync
with the atomic one in colorado and if only some
genius would include an output on the back of one of those
clocks for second zero from the beginning to end of
second zero on the minute mark UTC that is all any amateur should need.
The GPS alternative is maybe 10 times more expensive then
necessary if you live in the USA.
But thanks for the input i will download and read it even
though I am pretty sure they are not producing the device I seek.
The accuracy of the time loop I am talking about will be set manually
or electrically by listening to WWV or WWVB broadcasts.
We are not talking millisends here but only +/- 0.2 seconds or
the human reaction time.

GMV
 
C

Charles Jean

Jan 1, 1970
0
I am in need of a circuit that will place minute mark
,second 59 or second zero of UTC, into my homebuilt circuit
for calibration purposes. I have thought of possibly building
a 32768Hz oscillator and using a looping binary counter that can be
calibrated using WWV or WWVB but this all sounds silly to me
since there must be calibration clocks already out there.
I need either one with a TTL output or even better an FET switch or something
like that with a mark I can feed directly into the back end of my
circuit just before the signal hits the A/D converter.
The stability of the oscillator would be most important
not to deviate more than +/-0.03 Hz.
My laptop has a RTC that looses one second of time every four point five hours
so it is completely unsuitable for anything other than getting the time
close enough to understand what the calibration mark means.

Could someone who is an engineer provide me with
a schematic to do this ?
The basic idea seems simple for those educated in the EE field.
It is the stable oscillator that eludes me.

Any help here is appreciated.
Sincerely;
[email protected]


Looks like you are after about 1 ppm stability. Dalis/Maxim makes the
DS32kHz chip which is a temperature compensated crystal oscillater.
Don't know if this will work for you, but you might want to take a
look at the data sheet. With a couple of counter chips and this chip
you could get a 1 pulse/min output. The specs say frequency
stablility from 0-40 deg C is +/- 2ppm. Several years ago I built a
clock circuit from this chip, set it to WWV time, and measured its
time vs WWV over a period of 300 days. It gradually and linearly
gained time over WWV, and the total time gained over WWV was 13.7
seconds, or about 0.7 ppm. This was done inside the house, so the
ambient temp over this period probably varied +/- 4-5 deg F. Don't
know if this meets your requirements, since you didn't mention ambient
temp, but thought I'd post this in case you could use it. If you like,
I can send you the circuit and data.

Regards,
Charlie
"Sic hoc legere scis nimium eruditionis habes."
(If you can read this, you're overeducated.)
 
J

James T. White

Jan 1, 1970
0
GMV said:
I am in need of a circuit that will place minute mark
,second 59 or second zero of UTC, into my homebuilt circuit
for calibration purposes. I have thought of possibly building
a 32768Hz oscillator and using a looping binary counter that can be
calibrated using WWV or WWVB but this all sounds silly to me
since there must be calibration clocks already out there.
I need either one with a TTL output or even better an FET switch or something
like that with a mark I can feed directly into the back end of my
circuit just before the signal hits the A/D converter.
The stability of the oscillator would be most important
not to deviate more than +/-0.03 Hz.
My laptop has a RTC that looses one second of time every four point five hours
so it is completely unsuitable for anything other than getting the time
close enough to understand what the calibration mark means.

Could someone who is an engineer provide me with
a schematic to do this ?
The basic idea seems simple for those educated in the EE field.
It is the stable oscillator that eludes me.

Any help here is appreciated.
Sincerely;
[email protected]

You might see if you can pick up a HeathKit GC-1000 cheap off eBay. The GC-1000
synchronizes the local oscillator with WWV signals at 5, 10 or 15 MHz and has a
3.6 MHz TTL output. There was an option for outputting an ASCII time stream on
an RS-232 port, too. With an external antenna in the attic, my GC-1000 stays
"synchronized" to WWV most of the time and the few times I've checked the output
with a frequency counter has been dead on 3.6 MHz.

Then all you would need is a simple TTL counter chain to divide by 3,600,000 and
you have a 1 pps signal.
 
G

GMV

Jan 1, 1970
0
Yes By all means send me your circuit.
I am interested in a +/- 0.2 second
error over a three day period at about
81F to 83F range I think there is a peltier
device that might be used to warm the crystal
using a PID loop and keep its temp pretty
steady at say 98.6 degrees.
You could cool it but that means dew
which is tripleuncool.
You are thinking much like I do here.
Yes I am interested in seeing your design.

I have just purchased a 141KIT general timer with a
12MHz clock that I hope to modify into a looping
counter but the darn thing does not provide
capacitors for adjusting the frequency of the clock
so i have my doubts about my ability to calibrate
the frequency. I intend to use my SW receiver
to verify its operation close to the correct freq.

I have no ham license to experiment with AC circuits
so I must be careful not to break transmitting laws when
dealing with these oscillators.

sincerely;
gmvoeth
 
G

GMV

Jan 1, 1970
0
Sounds like a good idea but at 4 bits per counter thats a lot of counters to use.
It would be so nice to find a single chip that would be a 20 bit counter but I know of none.
I am wary of sending 3.6MHz any distance because
of possible RFI generation.

Sincerely;
gmvoeth
 
J

James T. White

Jan 1, 1970
0
GMV said:
Sounds like a good idea but at 4 bits per counter thats a lot of counters to use.
It would be so nice to find a single chip that would be a 20 bit counter but I know of none.
I am wary of sending 3.6MHz any distance because
of possible RFI generation.

RFI shouldn't be a problem since the GC-1000 feeds the 3.6 MHz out via a BNC
connector so you would be using coaxial cable to connect it to your counter
module.

You are correct that you would need several stages of dividers if you use
standard TTL or CMOS logic parts. To be more precise, you would need two
divide-by-2 stages, two divide-by-3 stages and five divide-by-ten stages. While
you could do this with a bunch of 4-Bit binary counter stages, I would probably
use some of the devices that provide two decade counters in one package. IIRC,
there are also counters that provide a divide-by-12 counter in a single package.

To me, the better way of doing this would be to use a CPLD programmed to do all
the dividing. I would probably use something like the Xilinx XC9536-15PC44C
($3.30 from DigiKey) which has more than enough macrocells and I/O pins for
something this simple. The Xilinx ISE WebPACK is free for download and can be
used to develop the logic and program the device.
 
G

GMV

Jan 1, 1970
0
Thanks Mr. White but I just bought one of these
for a bit over $30 and intend to calibrate the
crystal if possible to within +/- 9 Hz to get
the precision and accuracy I am looking for.

http://www.crowcroft.net/kitsrus/multimodetimer.zip

That should point you to the info.
The only bad thing about the kit is it gives you no means
by which to adjust the clock.

People all over the world in industry are
terrible about calibration.

You would think they would want to be proud of their work.

Not much more effort and you can adjust the clock
but no one is designing things like that anymore.

A shortwave radio with a BFO circuit works quite well as a
freq counter for these single tone oscillators.
 
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