Monthly Archives: August 2021

The new SIHUADON D-808 portable shortwave radio

Many thanks to SWLing Post contributor, Adid, who writes:

Hi Thomas,

Yesterday I found this short animation:

So I went to their website to look at this nice black and amber screen new model.

https://xhdata.com.cn/ (strangely enough, they sell there Tecsun stuff also)

I don’t plan on buying it any time soon as I don’t think they added “memories scroll” as there is in the R108.

So any of the members here can comment on the Black SIHUADON D-808 ?

Regards, Adi

Thank you for sharing this, Adid!

I’m also very curious if any SWLing Post readers have purchased the SIHUADON D-808 and could comment on any differences (other than the superficial ones) with it and the XHADATA D-808. 

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German radio museum sheds light on the WWII era Zeesen transmitting station

Many thanks to SWLing Post contributor, Jonathan Marks, who shares the following article and notes in response to our previous post regarding WWII German broadcasts into Australia. Jonathan writes:

[F]ound the attached on a German radio history site. Zeesen was well heard around the world, especially once the power was boosted to 50kW. Bearing in mind the broadcast bands were much quieter, I would expect signals to be heard in Australia/NZ.

The following article is a machine translation into English. Click here to read the full, original piece at Radio-Museum.de.


Shortwave transmitter Zeesen

Zeesen was an independent municipality until 2003, today it is a district of Königs Wusterhausen. In 1927, the German “shortwave transmitter”, the “Weltrundfunksender Zeesen”, was inaugurated in Zeesen. It was in operation until 1945. Then the facilities were dismantled by the Russians and the broadcasting houses were blown up.

Source: FunkAmateur 4/94; pp. 268-270)

From the history of German shortwave broadcasting: The “World Radio Station” Zeesen

GERHARD DAMM – DL1RWD

From 1929 to 1945, one of the most powerful shortwave radio stations of the time worked in Zeesen, on the southeastern outskirts of Berlin. Our article informs you about the prehistory, technical equipment and development of this “wide-range radio station” as well as about its political significance.

The official opening of the shortwave broadcasting service in Germany in 1929 was preceded by numerous activities to explore the usefulness of shortwaves for international operations.
This exploration also included the work of individual internationally renowned scientists, but also that of radio amateurs, primarily from the USA. The industry, including national postal administrations, including the German one, only showed interest in the use of shortwaves after their usefulness began to emerge as a result of the above-00 investigations. Until then, frequencies in the long and medium wave range were used. Fortunately for the radio amateurs, who had been granted the “useless” short waves. Who knows whether there would otherwise be shortwave amateur radio today and thus worldwide radio traffic.

Marconi conducted his first experiments with directional shortwaves in 1916, followed by Franklin in England, who experimented with shortwave voice transmissions in 1919. On the part of the radio amateurs, it was the Americans whose broadcasts were first received in Europe on 8 December 1921. Leon Deloy, a French radio amateur, bridged the Atlantic from Europe to the USA in 1923. And this without a “radio weather forecast”.

And as is so often the case in the history of technical inventions and developments, chance helped those involved to get started. On the occasion of the opening of a commercial radio station in Argentina, the reception of the German long-wave transmitter in Nauen failed due to strong atmospheric interference. A Telefunken engineer involved referred to the fact of the success of American radio amateurs in the use of shortwave. It may sound strange, but these events prompted telefunken to develop a shortwave transmitter and put it into operation in Nauen. With 800 W RF power, telegraphy connections with South America ran from July 1924.
These and other successes prompted the then Deutsche Reichspost. to deal with targeted experiments on the application of shortwaves to the broadcasting service. You have to know about that. that other European countries. e.B. in Englandthe BBC, in the mid-20s had begun with the trial broadcasting of radio programs in the shortwave range. Shortwave broadcasting therefore became not only a technical but also a national prestige issue.

From the location Königs Wusterhausen, which was previously used for radio broadcasts – the official opening of the German radio took place on 15 October 1923, the Deutschlandsender began its operation on 11 August 1925 on from 1 September 1926 radio broadcasts on shortwave.

The transmitter, built by Telefunken. radiated its power of 250 W via a simple oblique wire antenna. which was integrated into the existing antenna support masts.
Originally planned. on the then already existing central tower (popularly: the thickness) additionally put on a vertical spotlight. However, this ultimately failed due to political conditions. In the wake of the First World War, Germany was prohibited, among other things, from erecting buildings that would have exceeded the height of the Eiffel Tower. And this would have been the case in Königs Wusterhausen.

Partial view of the first KW antenna star with 70 m towers.On the far left, the 70 m wooden tower with the KW omnidirectional radiator, in the middle a 210 m mast for LW (1934)

The radio transmitter in Königs Wusterhausen was no longer expandable at that time, already the Deutschlandsender 11 (LW) had gone into operation in 1927 on the site of the aviation company SchütteLanz (airship construction and airfield) in Zeesen acquired by the Reichspost. In 1928, for example, the Reichspost commissioned the construction of a high-power shortwave transmitter on this airfield in Zeesen. The contract was awarded to Telefunken.

Telefunken built the first KW transmitter in House 4 (Houses 1 to 3 were located in Königs Wusterhausen) at the location of Deutschlandsenders 11. The power of this KW transmitter was quite respectable for those times, it was 5 kW, later 8 kW. The transmitter was built in seven stages and consisted of the crystal oscillator, followed by amplifier and multiplier stages. The power amplifier contained an RS 225 in the 5 kW version and two RS 225 in the 8 kW version, which were operated with an anode voltage of 10 kV. The modulation took place in the driver stage. The antenna part was designed for the frequency range from 3 to 20 MHz and was used to adapt the modest, 75 m long single-wire vertical antenna, which led to one of the two 210 m masts for the Deutschlandsender.

Ten machine sets (plus ten as a reserve) were required for the entire power supply of the KW transmitter. These consisted of high-voltage converters and DC generators. e.B. for heating. The end tubes were pressure-cooled with rainwater. After the official commissioning, the transmitter initially operated on two frequencies: 6.02 and 9.56 MHz. Higher frequencies were not released for broadcasting until 1932.

The wide range of the station at that time, which was in no way inferior to the stations Eindhoven (Netherlands) and Schenectady (USA), led to the naming “World Broadcasting Station” or World Broadcasting “Short Wave Transmitter” at the opening on August 26, 1929. In 1930, the antenna system underwent significant improvements. The construction of a 70 m high wooden tower(!) complemented the vertical wire spotlight. Quadruple dipoles in four directions were placed around the tower. This dipole combination achieved a favourable vertical opening angle and an elevation angle of 10′. The antenna gain is said to have been 9 dB.

The first directional antenna, commissioned for North America in January 1932, achieved a horizontal bundling of 30′. The performance gain was just under 17 dB! It consisted of a group of 24 dipoles plus reflectors. By 1934, ten such directional antennas had been attached to eleven steel lattice towers, each with a height of 70. They supplied the areas of North, Central and South America, East Asia and Africa in the frequency range from 6 to 17 MHz.

A second quartz-controlled transmitter with 5 kW was added in 1932. It was designed in eight stages, used two RS 255 tubes and was modulated like transmitter 1 with direct current.

While the stations had previously broadcast state programs of other stations, from 1933 a separate programming was carried out by the then Reichsrundfunkgesellschaft. It was specially intended for listeners abroad and was fully dedicated to the socio-political situation in Germany.

What a miracle that this also led to the further equipment of the transmitter in Zeesen. In 1935, another KW transmitter of the type “Nauen” (50 kW) with a telephony power of 12 kW began its operation. This transmitter worked in the power amplifier with two RS 257 switched in push-pull, a further development of the previously used RS 225.

As a special feature, it had a double equipment with oscillating circuits (variometers), which had to be retuned during frequency changes. Pre-tuning significantly reduced the frequency changeover period.

The switching between day and night frequencies as well as other frequency changes suitable for the most favorable propagation were already carried out on the basis of forecasts of the Reichspostzentralamt.

The broadcasting station in Zeesen experienced a special technical upswing in preparation for the 1936 Olympic Games in Berlin. In addition to the existing transmitter house 4, houses 5 and 6 were built. Among other things, they consisted of a 500 m 2 transmitter hall, which could accommodate four transmitters with 40 kW of power, which Telefunken and Lorenz built. These bore the well-known name “OlympiaSender”. A combination of parallel and push-pull switching of four RS 257 transmitter tubes made the high transmission power possible, which was later increased to 50 kW. In addition, anode BModulation was applied. The transmitters were built in seven stages and allowed quartz and VFO operation.

Olympiasender” (50kW) in Zeesen (1935/36)

In addition to the expansion of the number of transmitters, an expansion of the antenna systems was necessary. A further 13 steel lattice towers were added, which, in contrast to the existing eleven 70 m towers, had a height of 100 in. This made it possible to achieve an even stronger vertical bundling by eightfold dipole stocking.

During the first years of the war, rhombus antennas were already being built in Zeesen, which had already been tried and tested in other radio services. Compared to the frequency-dependent dipoles, these are characterized by a relatively large frequency bandwidth and good radiation bundling.

In addition, the construction with wooden poles is possible because of the low installation height, which is probably also a question of materials in times of war. The construction also did not require the technical and material effort as with the already operated 70 and 100 in high steel lattice towers.

In 1939, the realization of a technical development in antenna construction, which was certainly spectacular for the time, was added. On one of the 70 m towers of antenna star 1, an extendable vertical radiator with self-tuning was installed, which enabled radiation over a wide frequency range (5 to 30 MHz) by changing its length. This antenna was called “Pope’s Finger” in insider circles, as such a construction had previously been erected at Vatican Radio.

In its last stage of expansion, the “World Broadcasting Transmitter Zeesen” consisted of the following systems: nine 50 kW shortwave transmitters, a 12 kW shortwave transmitter, a LW Transmitter with two 210 m masts, 24 dipole walls at eleven 70 m and thirteen 100 m towers, the vertical spotlight “Papstfinger”, the 70 m wooden tower with omnidirectional radiator and four rhombus antennas. Three transmitter houses, a diesel house and a network substation completed the technical equipment on this former airfield.

On April 26, 1945, the “Weltrundfunksender Zeesen” ceased its broadcasts. The operator removed important individual parts on command. The plants remained undamaged in order to be able to put them back into operation in the event of a “reconquest”, which, as is well known, did not come of anything. The Soviet troops dismantled the transmitters and antenna systems in the summer of 1945 and blew up the buildings.

After the founding of the GDR, a military KW broadcasting station began operation on part of the former broadcasting site, the part of the former location of sender house 4 for the long-wave Germany transmitter and the first KW antenna star, which is currently also being dismantled. The rest of the site was and is used economically.

In addition to this purely technical consideration of the world radio station of the Zeesen, by the way, a short political consideration should not be missing. While the shortwave broadcasting service and the establishment of the transmitter in Zeesen (there were also KWS broadcasting centers in Elmshorn near Hamburg, Ismaning near Munich and Oebisfelde west of Berlin) were first a technical and national prestige question – as I said, other countries within and outside Europe had already begun with the introduction of shortwave broadcasting for foreign broadcasts – it became more and more a worldwide propaganda instrument with the seizure of power by the National Socialists in 1933. Especially during the Second World War, this importance grew. All the belligerent states had recognized the role of foreign broadcasting. The international etheric war arose.

Before the Second World War, the main task was to bind Germans to their homeland abroad? thus the “German shortwave transmitter” developed into the so-called ranged gun in the ether”. One spoke of the “wave artillery of radio and its transmitter batteries”. The “Deutsche Kurzwellensender/ Weltrundfunksender Zeesen since 1936 world top performance in technical terms, was ideally suited for this political task. Some insiders I know even spoke of the “V 3″.
Reactions abroad ranged widely. They were enough, for example.B from Germans abroad: _’Do you know how a German feels. when in the evening greetings from home. from our dear fatherland, flooding through a German house in the African bush…” or: During the day we are in Brazil. but when the call sign of the German shortwave transmitter sounds, then we feel like in our heirnat” or: .. Through these broadcasts I have gained an indestructible faith in the new Germany and its leader … – up to: “This shortwave system represents the greatest potential propaganda weapon. that the world has ever seen…”

Despite all the jubilation for technical progress, it is important to consider. how it can be abused. In the case of the former “dreamy fishing village of Zeesen” south of Berlin in connection with Schütte-Lanz and airship and aircraft construction in the First World War, followed by the “world radio transmitter Zeesen- as a ranged gun” in the Second World War

Literature
(1) Archive of the author (information provided by former employees)(2) 50 Jahre Kurzwellen-Rundfunk, Sonderdruck 1979 [3] Wortschlacht im Äther, Morgen die ganze Welt, Deutsche Welle

Click here to read this and more articles on Radio-Museum.de.

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Radio Waves: Solar Cycle 25 Looking Up, Vintage Radio Flea Market Finds, the SBITX SDR, and More Power to Radio Caroline

Radio Waves:  Stories Making Waves in the World of Radio

Because I keep my ear to the waves, as well as receive many tips from others who do the same, I find myself privy to radio-related stories that might interest SWLing Post readers.  To that end: Welcome to the SWLing Post’s Radio Waves, a collection of links to interesting stories making waves in the world of radio. Enjoy!

Many thanks to SWLing Post contributors Eric McFadden, Ken Carr, Mike Terry, Pete Eaton, and the Southgate ARC for the following tips:


Revised prediction for Solarcycle 25 (Southgate ARC)

A revised prediction from the NASA High Altitude Observatory based at the University Of Colorado.

NASA Heliophysicists have released a revised prediction for Solar Cycle 25.
The report generated by Ricky Egeland a Solar Physicist working in the NASA Space Radiation Analysis Group now calls for the peak of Solar Cycle 25 to top out at a value of 195 ± 17 based upon the new scale for calculating Smoothed Sun Spot Number. For reference Solar Cycle 21 peaked at an SSN 233 (new scale) while Solarcycle 23 peaked at an SSN of 180 (new scale). If this predictions holds up Ham Radio will see Excellent Worldwide F Layer Conditions on 10 Meters for several years around Solar Max. 6 Meters conditions should be good in the Equinox Periods before and after Solar Max with consistent openings on Medium Haul Polar Routes. 6 Meter routes traversing the equator should experience consistent openings ± 9 months from Solar Max.

Ricky Egeland is a particpating member in the group headed up by Scott McIntosh and Bob Leamon that published a paper 9 months ago outlining the existance magnetic bands within the Sun that govern the Sunspot and Hale Cycles. At the time of its publishing the paper went on to predict the peak of Solar Cycle 25 could be as high Solarcycle 21. Today’s released is a revised prediction based upon data observed since the original paper was published. To be sure we are still in early days.

The Solar Rotation Cycle as marked by Sunspot Activity was established on April 19, 2021 so we are only 90 Days into actually observing Cycle 25 Activity. It is now agreed the dramactic run-up in Sunspot Activity we experienced late Last Fall while tied to Cycle 25 was an outlier. When asked directly about whether they can declare if the Terminator Event they wrote about in the Fall 2020 Paper has occurred Scott McIntosh stated “We can’t be sure just yet but we are very very close”. It also should be noted that while it has been over a year since the sun produced a Cycle 24 Region with a Sunspot worthy of a NASA Classification the Sun has been steadily producing Spotless SC 24 Active Regions the last of which formed right on the Solar Equator at N00-W54 on July 24,2021 as recorded by Jan Alvestad’s Solar Terrestial Activity Report Website. These Active Regions being part of a Solarcycle in its final stages of existence produce no spots and only last for a few hours before they dissipate away. The previous SC24 Active Region formed on June 28, 2021. Once the SC24 active regions cease forming Solar Cycle 25 will take off in earnest.

Bob Marston AA6XE

Bob Marston AA6XE email – [email protected]
Ricky Egeland email – [email protected]
Scott McIntosh email – [email protected]
Bob Leamon via Twitter – https://twitter.com/leamonrj

Flea Market Finds at the Vintage Radio & Communications Museum of Connecticut (KE1RI)

I have an addiction to old radios, especially anything that was manufactured in the 1923-1950 period. That may seem like a long time to some folks but when you gain senior citizen status 25 years is a blink of the eye. This love of old radios is tempered by the limited display space that I have in my home. I am at the point where I am very selective when it comes to buying a new radio. Although there is always room for another ‘small’ radio I am somehow attracted to the larger models. A rough count of the full-size consoles in this house (and garage and shed) comes to about 11. Just in this room (second floor radio shack) there are 5 console radios, two of which reside in the closet. The only surprise is that my wife has not tossed the radios and me out by now.

So, it is no surprise that I enjoy attending radio flea markets. Most of the events I frequent are either in Connecticut or Massachusetts. Rhode Island has very little in the way of antique radio flea markets (although we do have a great wireless and steam museum). And you can forget about eBay. Radios on eBay usually have inflated prices and descriptions. Even if you do find something reasonable the shipping for anything bigger than an All American Five table model is very costly and hazardous (many are damaged during shipping).

This is where the Vintage Radio & Communications Museum of Connecticut (VRCMC) comes in. This is a wonderful museum that has an enormous collection of radios and other communication-related technological wonders. They also hold regular flea markets to help raise funds needed to run the museum. During the cold months the events are inside (limited space) and during warm seasons (April, June, September) they are outside (plenty of space). This year I attended the first Spring event that was held on April 13, 2021. It was a great success! [Click here to continue reading…]

SBITX: Hackable HF SDR for the Raspberry Pi (Hackaday)

Cheap, easy to use SDR dongles are an immensely powerful tool for learning about radio technology. However, building your own SDR is not something too many hackers are confident to tackle. [Ashhar Farhan, VU2ESE] hopes to change this with the sBITX, a hackable HF SDR transceiver designed around the Raspberry Pi.

[Ashhar] introduced the project in talk at the virtual “Four Days In May” annual conference of the QRP Amateur Radio Club International. Watch the full talk in the video after the break. He first goes over the available open source SDR radios, and then delves into his design decisions for the sBITX. One of the primary goals of the project was to lower the barrier of entry. To do this, he chose the Raspberry Pi as base, and wrote C code that that anyone who has done a bit of Arduino programming should be able to understand and modify. The hardware is designed to be as simple as possible. On the receive side, a simple superheterodyne architecture is used to feed a 25 kHz wide slice of RF spectrum to an audio codec, which send the digitized audio to the Raspberry Pi. The signal is then demodulated in software using FFT. For transmit, the signal is generated in software, and then upconverted to the desired RF frequency. [Ashhar] also created a GUI for the 7? Raspberry Pi screen.[]

Ofcom agrees for Radio Caroline to turn up the power (Community Radio Today)

A power increase has been agreed for Radio Caroline to extend its coverage area from Suffolk and Essex to include Kent as East Sussex.

The station is broadcasting under a community radio licence and was originally granted 1kW of power on 648 AM in 2018. The actual power increase amount has not been announced.

Ofcom says a power increase was agreed to combat man made noise and interference in the existing coverage area, and to extend coverage to adjoining areas.

While the subsequent increase in the licensed area was considered to be significant, the decision-maker deemed there to be exceptional circumstances in order to approve this request, saying the service has experienced high levels of background noise and interference, particularly in urban areas.

The licensee also serves a ‘community of interest’ as opposed to a defined geographic community meaning the service is positioned to be accessible to the community of interest in the proposed extended areas.[]

 


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Dan watches record-setting vintage JRC receiver auction prices

Many thanks to SWLing Post contributor, Dan Robinson, who writes:

The question is, will it go even higher than the two NRD-240s a few months ago?

https://buyee.jp/item/yahoo/auction/j1000312853?conversionType=item_browsing_history

As collectors of premium receivers know, the Japan Radio Corporation (JRC) NRD-630 is among the rarest of radios.

NRD-630s are almost never seen on the used market and when they do appear, they sell usually for over $5,000 U.S.

This NRD-630, with only a few hours to go, appears on the Japan Buyee (Yahoo Auctions) site, and the receiver appears to be in like new condition.

The last JRC receivers to bring over $5,000 were two NRD-240 receivers, both of those also in like new condition.

Click here to see the results of this auction.

Thanks, Dan! It’s so fascinating to see how prices for these vintage JRC receivers change with time!

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The Sullivans: Could WWII German broadcasts be easily received in Australia?

Many thanks to SWLing Post contributor, Ray Robinson, who writes:

Hi, Thomas. I have recently been re-watching the Australian soap serial ‘The Sullivans’, which ran on Channel 9 from 1976-1983. I used to watch it on ITV in England, and also for awhile on the Tempo cable & satellite channel here in the States in the late 80’s. It is set in Melbourne during the second World War and after, and begins in September 1939. In the episodes covering the early part of 1940, much is made of one of the character’s abilities to listen to Nazi German broadcasts via shortwave, in both English and German (and they play clips of actual audio in the episodes). My question is, how realistic is this?

Were German broadcasts at that time able to be heard with good quality in Australia? Does anyone have a transmission schedule from that era? I know that German broadcasts were well heard throughout Europe and in North America, but I don’t have any details of broadcasts targeting Australia. Might they have been relayed via some Axis transmitter in the Far East? If any of your SWLing Post readers can shed any light on this, I’d be very grateful. Thank you.

Ray Robinson

Great question, Ray. This is certainly an inquiry for radio enthusiasts and WWII buffs in Australia and New Zealand. I’m sure there are accounts out there that could verify how easily and frequently Axis broadcasts could be heard in Australia and NZ. My guess would be that propaganda would have certainly targeted Australia and New Zealand during WWII.

Please comment if you can provide some insight and/or evidence for Ray!

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Summer FM DX: Drive-by Sporadic E

Many thanks to SWLing Post contributor, TomL, who shares the following guest post:


Summer DX – Sporadic E, FM band

“Sporadic E” DXing is a specialty of some DXers.  I have never dabbled in it being content with mediumwave or shortwave listening.  However, it was truly fun to spontaneously hear this happen while driving on the Interstate highway, Wednesday August 4 around 6pm Central Time.

To quote from an ARRL propagation article:

“As frequency increases still further, signals will eventually pass through the F1 layer to the F2 layer. Because this is the highest reflecting layer, the distance spanned by signals reflecting from it is the greatest. The maximum skip distance for the E layer is about 2000 km. For the F2 layer that increases to about 4000 km—a significant gain.”

I was listening to the local classical music station WNIU in DeKalb, IL which is a good 50 kW transmitter about 10 miles behind me near the Interstate highway.  A different station was breaking through. Eventually, I heard a familiar Christian song “You Make Me Brave” swamp the classical music. I noticed it was a remake of a song made about 10+ years earlier. The two signals fought it out and then I heard the station ID “Spirit FM” and a short humorous segment called “Attitude Adjustment”, then more music.  Finally the local classical music station won out and I thought I would look up the station ID of that contentious station later.

When I googled “90.5 Spirit FM”, it came up with a station in Tampa Bay, FL called WBVM. Cool!  Just to be sure, I went to the station web site and looked up their playlist and this confirms what I heard:

Curious about the transmitter, Radio Locator said it was a 100kW station and gave the Long/Lat coordinates.  I then went to Google Earth and mapped an approximate distance of 977 miles (1572km), give or take 10 miles:

I did not have time to get on the shortwave radio to see if the 10 meter band was busy since I had things to do.  But it is a very nice surprise to hear in my old car radio an FM station almost 1000 miles away. For one thing, Analog radio is still fun.  Secondly, things are busy this summer if you are at the right frequency and time!

Happy Listening,

TomL

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Wanted: Quality 18650 3.7V rechargeable cells

Many thanks to SWLing Post contributor, Mike Hansgen, who recently mentioned that he’s on the hunt for quality 18650 Li-Ion cells.

Like Mike, I’ve a number of shortwave portables that use 18650 cells, so I understand where he’s coming from: he’d like 18650 cells that are both safe and have a long life. Even though most radios that use 18650 cells have internal chargers, I also assume he’d welcome quality external charger recommendations.

Mike said he’s willing to pay a premium for quality cells but frankly, I’m not sure what to suggest because it seems most of the ones I find are the average eBay and Amazon variety (ie. pretty darn cheap).

I know there are some here in the SWLing Post community who are flashlight enthusiasts and others who are well-versed in the world of rechargeable batteries.

If you have any suggestions, please share them in a comment! Thank you in advance as I’m also keen to hear your comments!

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