HFU HF Underground

Technical Topics => Propagation => Topic started by: ChrisSmolinski on September 07, 2017, 1300 UTC

Title: MW Signal Strength vs Distance
Post by: ChrisSmolinski on September 07, 2017, 1300 UTC
The reception of Bobo and English Turn, speculation -

On p903 of  An analysis of continuous records of field intensity at broadcast frequencies (http://nistdigitalarchives.contentdm.oclc.org/cdm/compoundobject/collection/p13011coll6/id/137639/rec/5), they have a formula with max sky wave field at 580 km. And they correlate that to their graph with peaks at 500 km, 1000 km, 1500 km (read the article for further context).

Taking a look at the distance to Bobo & English Turn, 1,233 km and 1,709, respectively. That are approximately 2x and 3x 600km. Perhaps this is a coincidence and not related specifically to distance.

Will need to look for other stations within ~100km(?) of those two.


Moved here from the DGPS forum.  I read that paper as well, and found the signal maxima at 500, 1000, etc km interesting. It appears they assume there are maxima in the radiation angle pattern for the broadcast stations. Since most stations (especially at that time) likely used similar transmitting antennas, that seems reasonable. In the end it boils down to geometry, if you know the virtual height of the E layer, and the distance between stations, you know the necessary angle of radiation. (The fact that the layer has a thickness probably complicates reality slightly) If you know the pattern, you can figure out where the maxima are.

The Wallops Island plot shows a height just above 100 km as I type this, this link is the current real time plot, so it might be different when you are reading this  ;D

(https://www.ngdc.noaa.gov/stp/IONO/rt-iono/latest/WI937.png)

We could probably check this semi regularly and see how much it varies. Maybe there is tabulated data as well? It does not go below 1.5 MHz, but it looks flat around there anyway, so we can probably assume it is valid for 300 kHz.  I do not know what types of antennas DGPS stations use, I assume very short verticals?  Running a simple NEC analysis shows what you expect, a peak at around 14 degrees. The real antenna may have a bunch of peaks and nulls? As the E layer height varies, these peaks and nulls end up at varying distances away from the transmitter?
Title: Re: MW Signal Strength vs Distance
Post by: skeezix on September 07, 2017, 2311 UTC
Back in that study, I don't think they had the precision that we'd have today and they made some assumptions.

Power levels for the 39 remaining DGPS sites:
https://www.navcen.uscg.gov/?pageName=dgpsSiteInfo&All

The USCG has gone to the sites to make detailed notes of them:
https://www.navcen.uscg.gov/?pageName=ndgpsOAReports

Have yet to find models of antennas for the sites, but found that the LBA Group makes DGPS/Navtex antennas and have a picture of them doing a test at Biorka.
https://www.lbagroup.com/products/navtex-dgps-gmdss-antenna-systems

Here are some swell pictures of German DGPS stations:
http://www.wsv.de/fvt/dgps/index.html


Title: Re: MW Signal Strength vs Distance
Post by: BoomboxDX on September 19, 2017, 1432 UTC
Does the "range" in this graph mean Elevation (km's in height), or Distance from the transmitter in km?
Title: Re: MW Signal Strength vs Distance
Post by: ChrisSmolinski on September 19, 2017, 1440 UTC
Does the "range" in this graph mean Elevation (km's in height), or Distance from the transmitter in km?

Range for the graph is the height of the ionosphere layer. The brightness at that point is the intensity of the reflected signal.  In this case the transmitter and receiver are at the same location, what is being measured is the strength of the returned signal at a vertical incidence.
Title: Re: MW Signal Strength vs Distance
Post by: pinto vortando on December 14, 2017, 0005 UTC
  I do not know what types of antennas DGPS stations use, I assume very short verticals? 

DGPS radiobeacon (transmitter) antennas typically 150' - 300' tower with top loaded element and a good ground plane.  Short with respect to the frequency in use but large compared to the typical NDB antenna.