Yearly Archives: 2017

A map of the United States showing the path of totality for the August 21, 2017 total solar eclipse. (Source: NASA)

Many thanks to SWLing Post contributor, Bob LaRose (W6ACU), for the following guest post:

Eclipse 2017 Propagation Observations

by Bob LaRose (W6ACU)

DXers know that the reception of overseas Shortwave Broadcast stations offers one of the best ways to immediately gauge shortwave radio propagation conditions from your location to distant areas of the world. For the eclipse of 2017 I decided to see how reception of SW broadcast stations on lower shortwave broadcast frequencies (and to a smaller extent medium wave AM) reacted to the short term effects of the eclipse.

Going into this experiment I suspected that since the eclipse should temporarily reduce ionization to D-layer of the ionosphere, there might be some reduction in corresponding typical D-layer daytime absorption on lower frequencies. The hope was that this would enhance lower frequency propagation, particularly on the path between Asia and Western North America, which is normally totally absorbed at that time of day. I also monitored for propagation on other HF stations such as WWV as well as US-based SW Broadcast Stations in Alaska and Tennessee, and to a lesser extent AM MW broadcast stations. Here are the results of my experiment.

EQUIPMENT:

The Icom -IC-7300

For these tests I was using an ICOM IC-7300 Transceiver as a receiver connected to my standard antenna for lower frequency use – a Carolina Windom with the center about twenty feet off the ground. The antenna works reasonably well over a wide frequency range, including the lower SW and the medium wave AM broadcast bands. Because of my high local electrical noise level and proximity to several local AM broadcast transmitters, I turned off the built-in RF amplifier of the IC-7300 for all the tests. I used the uncalibrated S Meter of the radio to measure relative signal strengths in S units and dB above S-9.

BASELINE TESTS

The day before the eclipse I took baseline measurements at about the time of the eclipse. Because of normal summer daylight absorption, there were no signals present on either the 49 or 41 meter SW broadcast bands. At this time of year signals on those two bands generally fade below the local noise level at my QTH San Diego by about 1500 UTC.

I also checked the reliable daily beacons on SW at that time are the WWV frequencies of 5 and 10 MHz, The baseline for WWV was a signal strength of S5 on 5 MHz and S7-9 on 10Mhz.

I also took some baseline measurements of AM broadcast stations in Los Angeles (KFI 640 and KNX 1070). I was not able to receive any of the San Francisco, Sacramento, Las Vegas stations or points further North.

THE DAY OF THE ECLIPSE

According the Internet sources the eclipse began in San Diego at 1607 UTC, peaked at 1723 UTC and ended at 1846 UTC. It reached 66% of totality.

My first observation was at 1550 UTC. The strength of all signals were at the nominal readings from the day before. At 1630 I still did not hear any SW broadcast stations above the local noise level.

By 1640 the HF broadcast stations had begun to break through the noise. Here is a chart of my reception observations during the observation period:

Freq KHz	Station and Location	Time in UTC vs. Relative Signal Strength (S Units)
		1550	1630	1640	1650	1710	1725	1745	1800	1815	1830
640	KFI Los Angeles	9	9	9	9	9	9	9	9	9	9
1530	KFBK Sacramento, CA	0	0	0	0	3	6	2	0	0	0
5000	WWV Ft Collins, CO	5	5	7	9	9	9	6-7	7	5	5
5845	BBC Singapore (ends at 1700)	0	0	0	9	0	0	0	0	0	0
5995	Korea – Echo of Hope (presumed)	0	0	0	0	6	0	0	0	0	0
6015	Korea (presumed)	0	0	0	5	0	0	0	0	0	0
6045	Korea (presumed)	0	0	0	6	0	0	0	0	0	0
6125	China National radio	0	0	0	6	0	0	0	0	0	0
6155	Taiwan (1700-1730)	0	0	0	0	S9+10	5-7	0	0	0	0
6165	Yamata Japan for Korea (1600-1700)	0	0	6	7-9	0	0	0	0	0	0
6175	China National Radio	0	0	0	0	5-7	7-9	7-9	0	0	0
6195	BBC Singapore (open carrier – presumed tune-up for next morning	0	0	0	0	S9+10-20	0	0	0	0	0
7300	Radio Taiwan	0	0	7	0	0	0	0	0	0	0
7385	China National Radio	0	0	9	0	0	0	0	0	0	0
7465	BBC Singapore (ends at 1700)	0	0	S7-8	0	0	0	0	0	0	0
7485	VOA Thailand (started 1700)	0	0	0	0	7-8	3	0	0	0	0
7540	VOA Thailand (started at 1700)	0	0	0	0	0	S5-7	0	0	0	0
9355	Radio Free Asia (Marianas Islds, starts at 1700)	0	0	0	0	5-7	0	0	0	0	0
9475	WTWW Lebanon, TN	0	0	0	0	0	0	7-9	7	4-6	0
9655	KLNS Anchor Point, AK	0	0	9	6-7	7-8	0	0	0	0	0
9965	Radio Free Asia (Marianas Islds, starts at 1700)	0	0	0	0	9	5-7	0	0	0	0
9980	WWCR Nashville, TN	8	7-9	7-8	7-8	7-8	7-8	7-8	9	7-9	7-8
10000	WWV Ft Collins, CO	7	S9+10	9	9	9	5-7	9	9	6-8	7-9
12160	WWCR Nashville, TN	S9+20	S9+10	S9+10	N/R	N/R	N/R	N/R	S9+10	S9+20	N/R

N/R = Not recorded

REVIEW OF RESULTS

As the results show, there was a very significant improvement in lower frequency shortwave propagation between San Diego and Asia during the eclipse. The 49 and 41 meter SW broadcast bands in particular went from below the noise level to providing good reception of a number of Asian and Pacific broadcast stations, starting at around 1640 UTC. Stations were received from China, Korea, Mariana islands, Taiwan, and Singapore. All stations fell back below the noise level by 1745UTC.

Reception of WWV Ft Collins, CO on 5 MHz also greatly improved around 1700 UTC. The 10 MHz signal was not significantly affected.

As the eclipse moved East, Reception of WTWW on 9475 kHz and WWCR on 9980 kHz from Tennessee peaked at around 1745 UTC. There was no major effect to the WWCR transmission on 12160 kHz.

On mediumwave AM the only long distance station that I could hear was KFBK Sacramento,1530kHz. The distance is roughly 475 miles. It went from below the noise to an S-6 at peak at 1725 UTC. (Note – I tried the clear channel stations in the Bay Area, Portland, Boise, etc. but none of them were heard. Many of these frequencies have either low power daytime stations or are right next to high power local stations here in Southern California). Reception of KFI 640 kHz Los Angeles (about 90 miles) was unchanged with no sign of typical nighttime selective fading.

This was an interesting once-in-a-lifetime opportunity for this propagation experiment and the results show that the eclipse conditions can significantly improve certain types of radio propagation over long distances!

Fascinating results! Thank you so much for sharing your report of shortwave radio propagation during the 2017 Solar Eclipse, Bob!

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A photo tour of the 2017 Shelby Hamfest

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My Labor Day weekend was free of travel again this year, so I was able to make another pilgrimage to the Shelby (North Carolina) hamfest with my good buddy, Vlado (N3CZ).

The Shelby Hamfest–referred to, locally, as “The Grand-Daddy of them All”–has long been regarded as one of the largest hamfests in the southeast US. This is the third year I’ve made a concerted effort to publish a photo tour of the event.

I sold both my Hammarlund SP-600 and Hallicrafters SX-99.

Like last year, we set up a table in the flea market to sell a few items along with other good friends from the NCDXCC. In other words, once again, I was in selling mode, not buying mode, as I need to downsize some of my collection and use the money to offset costs of review radios, and some of the conferences I’m attending this year (including the Radio Preservation Task Force Meeting in Washington DC on behalf of our Shortwave Radio Audio Archive).

Overall turnout was a little less than last year, I believe. No doubt, this was due to the possibility of rain that never materialized. By lunch time the sun was out and the foot traffic increased.

Shelby Photo Gallery

Click on the thumbnails below to enlarge or comment on the photos:

Note that if you’re viewing this post via our email newsletter, the embedded gallery (above) might not be viewable. Click here to view via web browser.

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SDRs processing Fast Radio Bursts from distant universe

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The Green Bank Telescope (Source: NRAO)

Many thanks to SWLing Post contributor, Ed, who shares a link to the following article at Breakthrough Initiatives:

Green Bank Telescope observations of a dwarf galaxy three billion light years away reveal 15 bursts of radio emission. This is the first time bursts from this source have been seen at these frequencies.

San Francisco – August 29, 2017 – Breakthrough Listen – the initiative to find signs of intelligent life in the universe – has detected 15 fast radio bursts emanating from the mysterious “repeater” FRB 121102. Fast radio bursts, or FRBs, are brief, bright pulses of radio emission from distant galaxies. First detected with the Parkes Telescope in Australia, FRBs have now been seen by several radio telescopes around the world. FRB 121102 was discovered in 2012, on November 2nd (hence its name). In 2015, it was the first FRB seen to repeat, ruling out theories of the bursts’ origins that involved the catastrophic destruction of the progenitor (at least in this particular instance). And in 2016, the repeater was the first FRB to have its location pinpointed with sufficient precision to allow its host galaxy to be identified. It resides in a dwarf galaxy about 3 billion light years away from Earth.

Attempts to understand the mechanism that generates FRBs have made this galaxy a target of ongoing monitoring campaigns by instruments across the globe. Possible explanations for FRBs range from outbursts from rotating neutron stars with extremely strong magnetic fields, to more speculative ideas that they are directed energy sources used by extraterrestrial civilizations to power spacecraft.

Breakthrough Listen is a global astronomical initiative launched in 2015 by Internet investor and philanthropist Yuri Milner and cosmologist Stephen Hawking. As part of their program to observe nearby stars and galaxies for signatures of extraterrestrial technology, the Listen science team at UC Berkeley added FRB 121102 to their list of targets. In the early hours of Saturday, August 26, UC Berkeley Postdoctoral Researcher Dr. Vishal Gajjar observed the location of FRB 121102 using the Breakthrough Listen backend instrument at the Green Bank Telescope in West Virginia. The instrument accumulated 400 TB of data on the object over a five hour observation, observing the entire 4 to 8 GHz frequency band.[…]

Analysis by Dr. Gajjar and the Listen team revealed 15 new pulses from FRB 121102. As well as confirming that the source is in a newly active state, the high resolution of the data obtained by the Listen instrument will allow measurement of the properties of these mysterious bursts at a higher precision than ever possible before.

The observations also show for the first time that FRBs emit at higher frequencies (with the brightest emission occurring at around 7 GHz) than previously observed. The extraordinary capabilities of the Listen backend, which is able to record several gigahertz of bandwidth at a time, split into billions of individual channels, enable a new view of the frequency spectrum of FRBs, and should shed additional light on the processes giving rise to FRB emission.
When the recently-detected pulses left their host galaxy our entire Solar System was just 2 billion years old. […]

The new results are reported as an Astronomer’s Telegram at www.astronomerstelegram.org/?read=10675 and will be described in further detail in an upcoming scientific journal article.

Breakthrough Listen is a scientific program in search for evidence of technological life in the Universe. It aims to survey one million nearby stars, the entire galactic plane and 100 nearby galaxies at a wide range of radio and optical bands.[…]

The linked animation shows 14 of the 15 detected bursts in succession, illustrating their dispersed spectrum and extreme variability. Capturing this diverse set of bursts was made possible by the broad bandwidth that can be processed by the Breakthrough Listen backend at the Green Bank Telescope:

https://storage.googleapis.com/frb121102/FRB121102_Cband_GB.gif

Click here to read the full article at Breakthrough Initiatives.

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North Korea now broadcasting in DRM

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Many thanks to SWLing Post contributor, Mark Fahey, who writes:

A message to contacts in North Asia (Japan / Korea etc)…

North Korea is currently (right now 1430UTC) broadcasting in DRM format on 3560KHz. Listening to remote receivers in Japan I can see the signal is very strong in the Tokyo and Yokohama areas – I assume it will be strong in other parts of Japan as well. I have NOT been able to decode the DRM successfully, I have tried piping the audio to me here in my Australian location and demodulating it with a software DRM decoder – I just can’t get a lock on the signal. Do you have a DRM receiver – could you please try? If you do manage to receive the signal please don’t forget to record it!

I’m particularly interested to know if the transmissions are relays of KCBS Pyongyang, Pyongyang Pangsong or some other service. If you get a demodulated signal could you check to see if the program is parallel to KCBS Pyongyang on 2850KHz or Pyongyang Pangsong on 6400KHz.

I have a WinRadio Excalibur with DRM here in Australia, but the signal is very weak here – far too weak to lock.

Later, Mark shared the following video by “2010DFS” on YouTube:

Click here to view on YouTube.

Mark also notes that DRMNA.info is following this story very closely and suspects that the content server and or transmitter may be Chinese in origin:

NOTE: Same frequency and bitrate as the 2012 broadcasts so this may represent “Chinese assistance”. Can anyone confirm DRM equipment in Kujang?

20170902 Update: I have received anonymous details that indicate that at least the content server is of Chinese origin. Still no word on actual transmit location. Several other Japanese (and Terje in Japan) have successfully decoded these transmissions.

Click here to read full details at DRMNA.info.

Being a North Korean propaganda specialist, Mark added:

At the Freeman’s Reach monitoring station the bandwidth and microwave paths in are really being tested this afternoon with the full on activity.

All plans for the afternoon and evening now cancelled! YTN (South Korea) via Intelsat, KCTV Pyongyang via Thaicom, CNN International via Foxtel, CNN USA Domestic via Sling, Korean Central Radio and Pyongyang Pansong via KiwiSDRs – Busy!

All spectrum being captured, tonight the servers will be working hard, it will keep this place warm!

Post readers: please comment if you’re able to decode any of these North Korean DRM transmissions, and/or if you have further information about these DRM broadcasts from North Korea.

UPDATE: Mark has at least confirmed that the DRM signal is a relay of the KCBS Pyongyang national service (domestic) broadcast.

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Bob’s Backyard BBQ Radio Show: September 9, 2017 via WRMI

Poynter: “Hurricane Harvey couldn’t silence Texas radio stations”

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(Source: Poynter via Kim Elliott)

When Hurricane Harvey’s intensity became clear, employees at 93Q in Houston reserved hotel rooms across the street from the station. They were going to be very busy.

The on-air talent slept in the Cox-owned radio station for days, said Bill Tatar, digital content manager at Cox Media Group Houston. When they weren’t on-air, they did Facebook Live hits.

93Q is not normally an all-news station. But when emergencies hit, local radio stations can convey vital information: which streets are open, what shelters are taking people in and where communities can rally once the water begins to recede.

“Radio has been all over Harvey doing what radio does; immediately helping with updated information,” said Valerie Geller, a radio consultant. “Most stations dropped the format and went ‘all Harvey,’ taking calls, and across the country, stations are sending help and raising money.”[…]

Continue reading online at Poynter.

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