Re: [time-nuts] 10 MHz over optical fiber?
Hi everyone,
In message 20081124152247.DCDB0E91529@mail.ebirds.it, Marco IK1ODO -2
writes:
Hi all,
I have to carry a 10 MHz standard frequency signal inside an EMC
screened room via fiber optic cable.
Not willing to re-invent the wheel, do something like an optical
standard frequency link exist on the market?
I think it is possible to use standard 100MB LAN transceivers, and
POF. Phase noise requirements
are not very stringent, and the distance is in the order of some tens
of meters.
I'm looking into something similar: transmitting an H-Maser signal
(probably 10MHz) over some 34km using CWDM SFPs. At first glance this
seems fairly uncomplicated: get some SFPs, and SFP connector + cage. Use
a fast opamp/differential driver to drive the transmitting SFP, and use
a similar setup at the other end to transform the received data back to
50 ohm unbalanced. How feasible would such a setup be?
Possible problems might be that a 10MHz squarewave is simply too 'slow'
to be transmitted by an SFP, which expects 1.25Gb/s 8/10 encoded data.
Another interesting question would be how much jitter/noise such a setup
would add?
Regards, Paul Boven.
In looking at the off-the-shelf boxes, jitter seemed to vary from ps range
to tens of ns. Also, how stable is the 34km of fiber... One of the
manufacturers I looked at had a 1550nm option, so it's probably not a stretch
to get it on a 100GHz ITU grid channel or other CWDM channel.
Scott
Paul Boven wrote:
Hi everyone,
In message 20081124152247.DCDB0E91529@mail.ebirds.it, Marco IK1ODO -2
writes:
Hi all,
I have to carry a 10 MHz standard frequency signal inside an EMC
screened room via fiber optic cable.
Not willing to re-invent the wheel, do something like an optical
standard frequency link exist on the market?
I think it is possible to use standard 100MB LAN transceivers, and
POF. Phase noise requirements
are not very stringent, and the distance is in the order of some tens
of meters.
I'm looking into something similar: transmitting an H-Maser signal
(probably 10MHz) over some 34km using CWDM SFPs. At first glance this
seems fairly uncomplicated: get some SFPs, and SFP connector + cage. Use
a fast opamp/differential driver to drive the transmitting SFP, and use
a similar setup at the other end to transform the received data back to
50 ohm unbalanced. How feasible would such a setup be?
Possible problems might be that a 10MHz squarewave is simply too 'slow'
to be transmitted by an SFP, which expects 1.25Gb/s 8/10 encoded data.
Another interesting question would be how much jitter/noise such a setup
would add?
Regards, Paul Boven.
time-nuts mailing list -- time-nuts@febo.com
To unsubscribe, go to https://www.febo.com/cgi-bin/mailman/listinfo/time-nuts
and follow the instructions there.
I'm looking into something similar: transmitting an H-Maser signal
(probably 10MHz) over some 34km using CWDM SFPs. At first
glance this
seems fairly uncomplicated: get some SFPs, and SFP
connector + cage.
Use a fast opamp/differential driver to drive the transmitting SFP,
and use a similar setup at the other end to transform the received
data back to 50 ohm unbalanced. How feasible would such a setup be?
Possible problems might be that a 10MHz squarewave is
simply too 'slow'
to be transmitted by an SFP, which expects 1.25Gb/s 8/10
encoded data.
Another interesting question would be how much jitter/noise such a
setup would add?
Regards, Paul Boven.
Presumably, you're using a maser because you need good stability over significant time spans (seconds or greater)? Then you probably need some way to compensate for the changes in propagation through the fiber. That's what the JPL boxes do. They send signals both ways (I don't have it in front of me, but it's possible it's on the same fiber, or at the least, two fibers in close contact, so they're in the same environment) and measure the round trip time.
By the time you get the signal from the maser through 34 km of fiber optic,
what you get at the end might be not better than a decent GPSDO...
Make sure you go through your drift and jitter budget before commiting.
Didier
-----Original Message-----
From: time-nuts-bounces@febo.com
[mailto:time-nuts-bounces@febo.com] On Behalf Of Scott Mace
Sent: Tuesday, November 25, 2008 1:42 PM
To: Discussion of precise time and frequency measurement
Subject: Re: [time-nuts] 10 MHz over optical fiber?
In looking at the off-the-shelf boxes, jitter seemed to vary
from ps range to tens of ns. Also, how stable is the 34km of
fiber... One of the manufacturers I looked at had a 1550nm
option, so it's probably not a stretch to get it on a 100GHz
ITU grid channel or other CWDM channel.
Scott
Paul Boven wrote:
Marco IK1ODO
-2
writes:
Hi all,
I have to carry a 10 MHz standard frequency signal inside an EMC
screened room via fiber optic cable.
Not willing to re-invent the wheel, do something like an optical
standard frequency link exist on the market?
I think it is possible to use standard 100MB LAN transceivers, and
POF. Phase noise requirements are not very stringent, and the
distance is in the order of some tens of meters.
I'm looking into something similar: transmitting an H-Maser signal
(probably 10MHz) over some 34km using CWDM SFPs. At first
glance this
seems fairly uncomplicated: get some SFPs, and SFP
connector + cage.
Use a fast opamp/differential driver to drive the transmitting SFP,
and use a similar setup at the other end to transform the received
data back to 50 ohm unbalanced. How feasible would such a setup be?
Possible problems might be that a 10MHz squarewave is
simply too 'slow'
to be transmitted by an SFP, which expects 1.25Gb/s 8/10
encoded data.
Another interesting question would be how much jitter/noise such a
setup would add?
Regards, Paul Boven.
time-nuts mailing list -- time-nuts@febo.com To unsubscribe, go to
https://www.febo.com/cgi-bin/mailman/listinfo/time-nuts
and follow the instructions there.
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and follow the instructions there.
Hi Didier, everyone,
Didier wrote:
By the time you get the signal from the maser through 34 km of fiber optic,
what you get at the end might be not better than a decent GPSDO...
That's exactly what I'm trying to work out before I'll actually start
building something like that. The JPL device (thanks for the hint, James
P. Lux) is very interesting, see:
http://tycho.usno.navy.mil/ptti/1988/Vol%2020_02.pdf
The JPL system aims to achieve better than 1E17 in 1000s, whereas the
H-maser in their publication is quoted as 1E15 in the same averaging
time. They also state that: 'when stabilities higher than 1E15 are
required the link must be actively stabilized'. So, in a nutshell - If I
were to build such a system, the first incarnation would be without such
a compensation system.
If such a compensation does turn out to be necessary I'd probably not
use a 50% mirror but simply loop the received data back to the
trasmitter of the SFP at the receiving end, and use a fiber pair instead
of a single fiber.
Regards, Paul Boven.
All: Sorry for jumping in abruptly on this ongoing thread. I have been meaning to chime in ever since the discussion got started.
I apologize in advance if I am dragging up an issue that has already been discussed and put to rest.
That being said, have you given consideration to the effects of chromatic dispersion in the fiber?
A good, telcom grade, dispersion shifted (designed for the 1550nm wavelength band, where absorption of the light by water is small), single mode fiber has a chromatic dispersion of approximately 1 to 10 ps/nm/km. The concern therefore is changes in timing induced by changing wavelength content of the laser or LED used to drive the fiber - for example, due to temperature changes, etc.
If you've already considered this, then please ignore this. Otherwise, it would be interesting to work through a "what if"?
jeff
Jeffrey K. Okamitsu, PhD, MBA
+1-609-638-5402
--- On Wed, 11/26/08, Paul Boven p.boven@xs4all.nl wrote:
From: Paul Boven p.boven@xs4all.nl
Subject: Re: [time-nuts] 10 MHz over optical fiber?
To: "Discussion of precise time and frequency measurement" time-nuts@febo.com
Date: Wednesday, November 26, 2008, 12:02 PM
Hi Didier, everyone,
Didier wrote:
By the time you get the signal from the maser through 34 km of fiber
optic,
what you get at the end might be not better than a decent GPSDO...
That's exactly what I'm trying to work out before I'll actually
start
building something like that. The JPL device (thanks for the hint, James
P. Lux) is very interesting, see:
http://tycho.usno.navy.mil/ptti/1988/Vol%2020_02.pdf
The JPL system aims to achieve better than 1E17 in 1000s, whereas the
H-maser in their publication is quoted as 1E15 in the same averaging
time. They also state that: 'when stabilities higher than 1E15 are
required the link must be actively stabilized'. So, in a nutshell - If I
were to build such a system, the first incarnation would be without such
a compensation system.
If such a compensation does turn out to be necessary I'd probably not
use a 50% mirror but simply loop the received data back to the
trasmitter of the SFP at the receiving end, and use a fiber pair instead
of a single fiber.
Regards, Paul Boven.
time-nuts mailing list -- time-nuts@febo.com
To unsubscribe, go to https://www.febo.com/cgi-bin/mailman/listinfo/time-nuts
and follow the instructions there.
w3kl@w3kl.com wrote:
All: Sorry for jumping in abruptly on this ongoing thread. I have been meaning to chime in ever since the discussion got started.
I apologize in advance if I am dragging up an issue that has already been discussed and put to rest.
That being said, have you given consideration to the effects of chromatic dispersion in the fiber?
A good, telcom grade, dispersion shifted (designed for the 1550nm wavelength band, where absorption of the light by water is small), single mode fiber has a chromatic dispersion of approximately 1 to 10 ps/nm/km. The concern therefore is changes in timing induced by changing wavelength content of the laser or LED used to drive the fiber - for example, due to temperature changes, etc.
If you've already considered this, then please ignore this. Otherwise, it would be interesting to work through a "what if"?
jeff
Jeffrey K. Okamitsu, PhD, MBA
+1-609-638-5402
Without compensation, the delay tempco of 34 km of fiber will be
somewhat more problematic unless the temperature of the entire run is
constant and/or expensive low delay tempco fiber is used.
Bruce
The biggest concern with temperature effects in the fiber would be thermal expansion. Potentially, as well, changes in waveguide shape, which could add more waveguide dispersion as well as potential polarization mode dispersion.
Jeff
Jeffrey K. Okamitsu, PhD, MBA
+1-609-638-5402
--- On Wed, 11/26/08, Bruce Griffiths bruce.griffiths@xtra.co.nz wrote:
From: Bruce Griffiths bruce.griffiths@xtra.co.nz
Subject: Re: [time-nuts] 10 MHz over optical fiber?
To: "Discussion of precise time and frequency measurement" time-nuts@febo.com
Date: Wednesday, November 26, 2008, 2:13 PM
w3kl@w3kl.com wrote:
All: Sorry for jumping in abruptly on this ongoing thread. I have been
meaning to chime in ever since the discussion got started.
I apologize in advance if I am dragging up an issue that has already been
discussed and put to rest.
That being said, have you given consideration to the effects of chromatic
dispersion in the fiber?
A good, telcom grade, dispersion shifted (designed for the 1550nm
wavelength band, where absorption of the light by water is small), single mode
fiber has a chromatic dispersion of approximately 1 to 10 ps/nm/km. The concern
therefore is changes in timing induced by changing wavelength content of the
laser or LED used to drive the fiber - for example, due to temperature changes,
etc.
If you've already considered this, then please ignore this.
Otherwise, it would be interesting to work through a "what if"?
jeff
Jeffrey K. Okamitsu, PhD, MBA
+1-609-638-5402
Without compensation, the delay tempco of 34 km of fiber will be
somewhat more problematic unless the temperature of the entire run is
constant and/or expensive low delay tempco fiber is used.
Bruce
time-nuts mailing list -- time-nuts@febo.com
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and follow the instructions there.
Hi Group;
It seems to me that the increase in noise introduced with an
optoelectronic device would not matter in most applications if a
cleanup oscillator is added.
Best Wishes;
Thomas Knox
NIST
4475 Whitney Place
Boulder Colorado 80305
1-303-554-0307
tomknox@nist.gov
Quoting "Paul Boven" p.boven@xs4all.nl:
Hi everyone,
In message 20081124152247.DCDB0E91529@mail.ebirds.it, Marco IK1ODO -2
writes:
Hi all,
I have to carry a 10 MHz standard frequency signal inside an EMC
screened room via fiber optic cable.
Not willing to re-invent the wheel, do something like an optical
standard frequency link exist on the market?
I think it is possible to use standard 100MB LAN transceivers, and
POF. Phase noise requirements
are not very stringent, and the distance is in the order of some tens
of meters.
I'm looking into something similar: transmitting an H-Maser signal
(probably 10MHz) over some 34km using CWDM SFPs. At first glance this
seems fairly uncomplicated: get some SFPs, and SFP connector + cage. Use
a fast opamp/differential driver to drive the transmitting SFP, and use
a similar setup at the other end to transform the received data back to
50 ohm unbalanced. How feasible would such a setup be?
Possible problems might be that a 10MHz squarewave is simply too 'slow'
to be transmitted by an SFP, which expects 1.25Gb/s 8/10 encoded data.
Another interesting question would be how much jitter/noise such a setup
would add?
Regards, Paul Boven.
time-nuts mailing list -- time-nuts@febo.com
To unsubscribe, go to https://www.febo.com/cgi-bin/mailman/listinfo/time-nuts
and follow the instructions there.
If your concern is simply a stable frequency reference, that's true, even
though I am not sure what kind of cleanup oscillator would match the short
term stability of a maser. But also if you want to use it as a time
standard, the phase shift in the fiber has to be compensated, and it's
variations over temperature/humidity/gravity and whatnot must be accounted
for.
This is time-nuts, we don't simply want to make things work, we want to make
them work good :-)
Didier
-----Original Message-----
From: time-nuts-bounces@febo.com
[mailto:time-nuts-bounces@febo.com] On Behalf Of tomknox@nist.gov
Sent: Wednesday, November 26, 2008 2:50 PM
To: Discussion of precise time and frequency measurement
Subject: Re: [time-nuts] 10 MHz over optical fiber?
Hi Group;
It seems to me that the increase in noise introduced with an
optoelectronic device would not matter in most applications
if a cleanup oscillator is added.
Best Wishes;
Thomas Knox
NIST
4475 Whitney Place
Boulder Colorado 80305
1-303-554-0307
tomknox@nist.gov
Quoting "Paul Boven" p.boven@xs4all.nl:
Marco IK1ODO
-2
writes:
Hi all,
I have to carry a 10 MHz standard frequency signal inside an EMC
screened room via fiber optic cable.
Not willing to re-invent the wheel, do something like an optical
standard frequency link exist on the market?
I think it is possible to use standard 100MB LAN transceivers, and
POF. Phase noise requirements are not very stringent, and the
distance is in the order of some tens of meters.
I'm looking into something similar: transmitting an H-Maser signal
(probably 10MHz) over some 34km using CWDM SFPs. At first
glance this
seems fairly uncomplicated: get some SFPs, and SFP
connector + cage.
Use a fast opamp/differential driver to drive the transmitting SFP,
and use a similar setup at the other end to transform the received
data back to 50 ohm unbalanced. How feasible would such a setup be?
Possible problems might be that a 10MHz squarewave is
simply too 'slow'
to be transmitted by an SFP, which expects 1.25Gb/s 8/10
encoded data.
Another interesting question would be how much jitter/noise such a
setup would add?
Regards, Paul Boven.
time-nuts mailing list -- time-nuts@febo.com To unsubscribe, go to
https://www.febo.com/cgi-bin/mailman/listinfo/time-nuts
and follow the instructions there.
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go to https://www.febo.com/cgi-bin/mailman/listinfo/time-nuts
and follow the instructions there.