On Thu, May 25, 2017 11:16 am, Lamar Owen wrote:
[Going a bit off-topic here, and going to do a bit of a deep-dive on RF stuff, but maybe it will be useful to Chris]
Lamar, thanks a lot for very instructive write-up!!
Valeri
On 05/24/2017 12:20 PM, Valeri Galtsev wrote:
It is insightful, yet... There are a bunch of other factors that may need to be taken into account. Angular transmission pattern of satellite (horn? or is it yagi? antenna) vs ground based (monopole? or dipole? antenna - which one is used there to transmit in HF?).
WWVB uses a two-element phased array, where each element is a 400-ft top-loaded vertical monopole. The ERP is listed as 70kW, so the antenna gain is already applied to the transmitted signal's specification and thus doesn't need to be considered. (Lots of technical data can be found in NIST's report on the 1998 upgrade: http://ws680.nist.gov/publication/get_pdf.cfm?pub_id=50031 ).
Please see http://gpsinformation.net/main/gpspower.htm for the relevant data on GPS (25.6W output, 13dBi gain, EIRP 27dBW (about 500W), free space loss of 182dB, -130dBm receive signal strength (0.1 femtowatts, if I've done the calculation correctly)).
Ground effect (attenuation) along the whole path or propagation for ground based HF vs ground effect only at the receiption point, but much higher for much higher frequencies of GPS; pre-amplifier Signal to Noise ratio (S/N; which can technically be achieved to be much better at much higher GPS frequencies...).
WWVB's signal is at 60kHz, which is LF, not HF. LF signals are not significantly attenuated by ground conductivity effects, so a simple inverse-square-law free-space path loss calculation is a close approximation; the loss to a point halfway around the world (~20,000 km) is about 94dB (82dB for 5,000km); the ERP is 70kW (78.45dBm); the minimum power available anywhere on the surface of the world is -15.55dBm, or 0.03mW and the minimum power available within 5,000km is about -3.55dBm, or about 0.44mW. Half a milliwatt is quite a bit to work with, excepting the noise effects of 1/f ("pink") noise and local interference. Higher-gain receive antennas are easy at 60kHz (iron-core loopstick or a multi-turn loop). According to NIST's site, however, WWVB is currently running at half-power (35KW ERP; 75.45dBm) so cut the available power in half at the moment.
However, WWVB's signal _is_ 60kHz, and so any building of metal construction, even sparse-spaced rebar in concrete, will effectively be a very high attenuation 'waveguide-beyond-cutoff' attenuator, and so a very effective shield, even with the very high power available to the receiver.
GPS receiver module manufacturer u-Blox has an informative paper on GPS receiver antenna design that might answer some other questions: https://www.u-blox.com/sites/default/files/products/documents/GPS-Antenna_Ap...
I'm running an NTP setup here with our secondary being a CentOS box using an Agilent Z3816 GPS-disciplined OCXO with timecode and 1PPS outputs. Our primary is a Datum/Symmetricom SSU2000 modular system with a cesium PRS, a rubidium stratum 2E secondary clock, and an OCXO stratum 3E tertiary clock. The cesium PRS is down at the moment, but the rubudium is close enough for current work.
The CentOS box runs very well for this purpose, and the interface wasn't too difficult. I have not implemented the 1PPS discipline for the kernel clock as yet, however, since the SSU2000 is up.
As far as cost is concerned, I would think CDMA, GSM, or LTE timecode receivers would be a bit less expensive to integrate than GPS receivers, but u-blox and others have really gotten the cost down for GPS modules. GPS is already supported by the NTP server shipped with CentOS, where I don't think any CDMA/GSM/LTE timecode receivers are (but I reserve the right to be wrong!).
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++++++++++++++++++++++++++++++++++++++++ Valeri Galtsev Sr System Administrator Department of Astronomy and Astrophysics Kavli Institute for Cosmological Physics University of Chicago Phone: 773-702-4247 ++++++++++++++++++++++++++++++++++++++++