Monthly Archives: November 2016

Nicholas uses Android phone and $18 receiver to decode VOA Radiogram

voa-radiogram-decode-app

Many thanks to Nicholas Pospishil, who shares this photo and notes:

“VOA Radiogram on 5745 kHz. No fancy equipment needed.”

No kidding! Mobile phones and tablets now have more than enough horsepower to decode most VOA Radiograms.

Nicholas uses the free AndFlmsg app for Android to decode. Note that AndFlmsg is not available in the Google Play store, you must manually install it using these directions.

The Kaito WRX911 is an $18 US receiver and AndFlmsg is free. That’s a pretty inexpensive and accessible combo!

Nicholas originally posted this image on Gary J. Cohen’s Shortwave Listeners Global.

Thanks for sharing, Nicholas!

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Mark’s Global Spectrum Project MK2

mark-fahey-beagle-kiwi-sdr

Many thanks to SWLing Post contributor, Mark Fahey, who shares the following:

It’s been a fun weekend getting the first two remote modules for the Spectrum Project MK2 together. These modules tune into and then digitally preserve broadcasted human communication; music, discussion, culture for future generations to study and ponder.

This initial version of the hardware provides 0-30MHz with four (simultaneous) independently configured receivers that are controlled remotely from anywhere on the planet. The first of the modules will be installed near Vladivostok in Russia’s far east and the second is planned to go to one of the “stans” in Central Asia, most likely Kazakhstan.

markfahey-kiwisdr

The hardware includes a KiwiSDR 0-30MHz SDR 4 channel receiver AM LSB USB CW FM plus GPS for precision timing and location information. A BeagleBone Green is the CPU and the compact 100KHz-30MHz active antennas we are using are precision built by RA0SMS in Irkutsk, Siberia, Russia.

(Note to fellow SDR geeks – the WinRadio Excalibur running on the iMac [above] is not part of the remote system – it just happens to live on my assembly bench).

markfahey-sdr-module1

Remote Module #1 prior to sealing.

This first generation is built to connect to a wired internet connection and power supply. The hardware includes a KiwiSDR 0-30MHz SDR 4 channel receiver AM LSB USB CW FM plus GPS for precision timing and location information. A BeagleBone Green is the CPU and the compact 100KHz-30MHz active antennas we are using are precision built by RA0SMS in Irkutsk, Siberia.

Remote Module #3 and later will support solar power and a 4G/ LTE connection so the devices can be located anywhere on the planet that has reasonable cell phone coverage.

Remote Module #2

Remote Module #2

This is Remote Module #2 sealed and ready for connection to a network and power supply. The hardware includes a KiwiSDR 0-30MHz SDR 4 channel receiver AM LSB USB CW FM plus GPS for precision timing and location information. A BeagleBone Green is the CPU and the compact 100KHz-30MHz active antennas we are using are precision built by RA0SMS in Irkutsk, Siberia.

Remote Module #3 and later will support solar power and a 4G/ LTE connection so the devices can be located anywhere on the planet that has reasonable cell phone coverage.

Don’t forget you can tune into the prototype system now up and running near Sydney Australia. Point your browser to http://mediaexplorer.ddns.net:8073

This is simply amazing, Mark. I can’t wait to try out the receivers in your Spectrum Project MK2 once they’ve been deployed and implemented. We’ve talked about this concept before, but what I love about Mark is he simply pulls the trigger and makes it happen as soon as technology has made it possible to implement.

Mark: please keep us posted with your updates!

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Foreign Affairs Committee believe “government should fund BBC Monitoring”

(Source: Parliment.UK via Andy Sennitt on PCJ Media’s Facebook Page)

Government should fund BBC Monitoring, not the licence fee payer

bbc-monitoring29 October 2016

It was a mistake to end Government funding for BBC Monitoring in 2013 and that change should be reversed, say MPs on the Foreign Affairs Committee.

Report findings

The Foreign Affairs Committee says BBC Monitoring is vital to the FCO’s scrutiny of developing events across the world. Highly valued by the Government, the service translates and analyses news and information from freely available media sources in 100 different languages and covering 150 countries.

Triggered by a shortfall of £4m in funding, the BBC now proposes an extensive restructure of the service, which would mean the closure of 40% of BBC Monitoring posts in the UK and 20% of posts abroad, and relocation of the service from Caversham to London.

The Government is the prime customer for the service. The Foreign Affairs Committee believes Government should restore funding for open source monitoring of media sources overseas, whether they pay BBC Monitoring or carry out the work themselves.

Chair’s comments

Chair of the Committee, Crispin Blunt MP, commented:

“BBC Monitoring is a highly regarded organisation whose work is more important than ever.

These cuts to BBC Monitoring, proposed by the BBC, are simply not in the interest of the UK Government. They will not help the FCO improve its performance in detecting trends and undercurrents overseas that have implications for UK policy – something it notably failed to do in Libya, for instance. Given the vast increase in social media output, this kind of monitoring is more important than ever.

Other countries with similar operations fund them from central Government. The principal benefit of the output of BBC Monitoring is better-informed Government policy, which is why the Government should fund it, not the licence fee payer. It’s notable that in the face of these cuts, government departments are in the process of recreating this capability internally. This should not be necessary and we should be bolstering the work of BBC Monitoring, not cutting it.”

Further information

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Kickstarter: The $239 RS-HFIQ 5 Watt General Coverage Transceiver

rs-hfiq-sdr

Many thanks to Jim Veatch (WA2EUJ) who shares the following:

HobbyPCB is offering their RS-HFIQ 5W SDR on Kickstarter starting at $239. Check it out here:

https://www.kickstarter.com/projects/hobbypcb/rs-hfiq-5w-software-defined-radio-sdr-tranceiver

Thanks, Jim-I wish you success in this campaign (though it appears you’ve met your base goal and are now into stretch goals).

While there are a fair amount of SDRs in the $200-300 price range, there are few that are actually transceivers.  I’m also impressed with the level of filtering on both the RX and TX stages and the fact that the baseband and digital section have separate and isolated grounds. The RS-HFIQ could potentially have a low noise floor and a decent front end.

If you back the RS-HFIQ, please consider sending us your review to publish here on the SWLing Post!

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DXtreme Station Log 12

dxtreme-station-log-12

(Source: DXtreme Press Release)

Product Announcement: DXtreme Station Log 12

DXtreme Software™ has released a new version of its popular logging program for

Amateur Radio operators: DXtreme Station Log 12™.

New Features in DXtreme Station Log 12

  • Automatic LoTW Upload Users can set Station Log 12 so it uploads each log entry to LoTW automatically when added, capturing and saving QSO Record Status from the LoTW server as part of the process. Modified log entries can be uploaded as well. If desired, users can disable automatic uploading and can upload log entries to LoTW semiautomatically and manually in batches whenever they want to.
  • LoTW Reporting Users can perform searches and run reports filtered by LoTW QSO Record Status, which indicates whether log entries are On, or Not On, the LoTW server following upload or QSL-updating. Users can also perform searches and run reports filtered by LoTW QSL Record Status, which indicates the date of each LoTW QSL record processed by DXtreme’s LoTW QSL Update Utility.
  • JT65A and JT9 Contact Pre-fill Right-clicking the New button presents a shortcut menu that lets users pre-fill the Station Log window with log information from a JT65A or JT9 contact completed on WSJT-X or JT65-HF-HB9HQX Edition.
  • Afreet Ham CAP Integration Expansion Station Log 12 now integrates with optional Afreet Ham CAP throughout the program. Users activate Ham CAP by requesting short- or long-path propagation predictions on spotted and logged stations and entities.
  • Quick Find A box on the Station Log toolbar lets users type a call sign and press Enter to search quickly for a station in their log. If the call is in the log, a list of QSOs with it appears on a popup window. If desired, the list of log entries can be loaded into the Station Log window for viewing or editing, one log entry at a time.
  • Improv Imaging™ — Lets users associate adhoc images with their log entries. This feature is like, but separate from, our popular QSL Imaging™ facility. Users can capture, scan, or paste any image and save it as a single-page .jpg, or single- or multi-page .tif. Improv images popular with users include signals on a spectrum analyzer or waterfall, QSOs conducted on Amateur Television and data applications, and rigs and antennas used during contacts.
  • Other Imaging Enhancements The QSL image previewer on the Station Log window is larger, as is the QSL Image Explorer, which also lets users call-up, in the Station Log window, the log entry associated with each QSL image, making the Explorer act like a Search window. Improv Imaging has its own, dedicated previewer and explorer.
  • UX Improvements Users can apply foreground and background colors and font attributes to grid headings and data rows throughout the program.

Standard Features in DXtreme Station Log 12

DXtreme Station Log 12 lets hams log their contacts and import ADIF files from other programs. It supports major call sign subscription services, and offers the following multimedia and advanced functions:

  • DX Spot Checker™ Receives DX spots from Telnet-based servers, and determines whether QSOs are needed for new or verified DXCC® entities, band-entities, mode-entities, or VUCC grids.
  • DX Atlas Integration Performs DX Atlas azimuth plots from the user’s location to that of a spotted or logged station. Also creates maps for a variety of reports.
  • Band Master Integration Afreet Band Master can be invoked with needed band and IOTA lists based on the user’s Station Log 12 database.
  • Rig Control Tunes/retrieves frequencies and modes from supported rigs through integration with Afreet Omni-Rig.
  • QSL Processing Creates QSL and address labels for physical QSLs, and supports the ARRL’s LoTW facility, including capturing LoTW QSL records as digital images.
  • Audio Facility Records and plays QSOs.
  • Reports Provides a wide range of performance and station reports to let users see how well they’re doing. Reports can be filtered and sorted. Includes DXCC® and WAS Analytics™ tools for analyzing and enhancing DXCC and WAS standing.

Operating System and Requirements

DXtreme Station Log 12 runs in 32- and 64-bit versions of Microsoft® Windows® 10, Windows 8.1, Windows 8, Windows 7, Windows Vista®, and Windows XP.

Pricing and Support

DXtreme Station Log 12 retails for $89.95 USD worldwide for Internet distribution. Reduced pricing is available for upgrading users, and CD shipment is available at a nominal surcharge. All prices include product support by Internet e-mail.

About DXtreme Software

Based in Nashua, NH, DXtreme Software produces powerful and easy-to-use logging applications for all kinds of radio enthusiasts — from short-wave and medium-wave listeners and DXers to Amateur Radio operators. For more information about DXtreme Station Log 12, visit www.dxtreme.com or contact Bob Raymond, NE1I, at [email protected].

DXCC® is a registered trademark of the American Radio Relay League, Inc.

Microsoft®, Windows®, and Vista® are registered trademarks of Microsoft Corporation.

Band Master, DX Atlas, Ham CAP, and Omni-Rig are owned by Afreet Software, Inc. A purchased software license for Band Master and DX Atlas are required to use them.

JT65-HF HB9HQX Edition is owned by Beat Oehrli, HB9HQX. WSJT-X is owned by Joe Taylor, K1JT.

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Oxford Shortwave Log: DXing in the tropical rainforest of Pará, Brazil – part 2

img_9956pl-680

Hi there, here is part 2 of my reception videos taken in the tropical rainforest of Pará, Northern Brazil. As I mentioned in my previous post, I took a Tecsun PL-680 with me on the trip because I didn’t want to risk losing or trashing one of my precious vintage portables but also because of the following:

  • It can handle a longwire very well without overloading (I actually only used a 5 metre wire)
  • An excellent synchronous detection circuit and audio bandwidth filtering options
  • Excellent sensitivity, as demonstrated by the many DX reception videos on YouTube
  • If it got lost or damaged it would be a pain, but not difficult to replace

So, what can you hear in the jungle? Part 2 of my group of reception videos follow below – I hope you enjoy them.


Tropical rainforest DX in Pará, Brazil: RMI Overcomer Ministry 11530 kHz

 

Tropical rainforest DX in Pará, Brazil: Radio Tamazuj 11650 kHz, Madagascar

 

Tropical rainforest SW in Pará, Brazil: Radio Nacional Brasilia 11780 khz

 

Tropical rainforest DX in Pará, Brazil: R Aparecida 11855 khz (TX distance 2430 km)

 

Tropical rainforest SW in Pará, Brazil: R Brasil Central 11815 kHz, Goiania

 

Tropical rainforest DX in Pará, Brazil: Voice of Turkey 11980 kHz

 

Tropical rainforest DX in Pará, Brazil: Radio Dabanga 13800 kHz, Madagascar

 

Clint Gouveia is the author of this post and a regular contributor to the SWLing Post. Clint actively publishes videos of his shortwave radio excursions on his YouTube channel: Oxford Shortwave Log. Clint is based in Oxfordshire, England.

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How to Identify Changes in Station Schedules

The shortwave bands are in a constant state of flux. And radio reception varies with the seasons. As a result, radio stations often need to alter their frequencies and times for best all-year-round reception at the listener’s location. There are two seasonal changeovers: the “A” transmission period coincides with the northern hemisphere summer (March to October), and the “B” transmission schedule for the winter period (October to March). Leading up to these changeovers, broadcasters plan their schedules for the coming season. The B16 transmission season began last weekend.

Want to improve your understanding of shortwave propagation characteristics? Study a few of the strategies employed by broadcast engineers at international radio stations during the twice yearly schedule changeovers. You’ll quickly learn much about how it all works!

Frequency changes by international broadcasters allow you the opportunity to observe the factors that come into play at BOTH the transmitter site and the reception target zone in another part of the world. Broadly speaking, we know that when winter arrives reception of the higher frequencies declines and the lower frequencies provide better reception. The reverse applies in summer – reception on the higher frequencies are enhanced and ionospheric absorption of signals increases at lower frequencies.

In addition, these characteristics change for both daytime and nighttime reception in summer and winter. Furthermore, some interesting reception opportunities occur in certain regions of the world during the summer and winter equinoxes. On top of this, factor in the 11-year sunspot cycle and the current monthly smoothed sunspot number (SSN). So, station engineers have quite a few variables to consider while selecting their preferred shortwave bands when targeting their signals to the listener’s location in some other part of the world! Perhaps one could even consider that these calculations as both a science and an art!

hfcc-big-logo

Next, the engineers representing each station have to sit down with their colleagues (competitors?) from other broadcasters and negotiate suitable frequency allocations in each of the preferred bands. This is why we have the existence of the High Frequency Coordination Committee (HFCC). Working together to find and register suitable frequencies that don’t interfere with other transmissions is an important part of successfully ensuring that everyone “wins”. The HFCC describes its role this way:

The main objective of the HFCC is to provide the representation and services for the promotion of an efficient and economical use of the short-wave radio spectrum, and the improvement of radio reception of shortwave broadcast transmissions worldwide……

HFCC’s main activity is a direct coordination of frequencies among frequency managers and specialists of broadcasters, administrations, transmission service providers and other organisations with the aim to facilitate the resolution or minimisation of mutual interference on short waves…..

Membership of the HFCC is open to all individuals and organisations that provide frequency management and planning for recognised shortwave broadcasters.

And it has to be said that the HFCC does a very good job at trying to resolve potential conflicts and clashes in frequency registration. But we didn’t always have this informal governing body. HFCC was only formed in 1990. Prior to that, there was much “rough and tumble” as stations tried to sort it out for themselves and avoid getting in each others way. Remember also, in the 1970s and 80’s there were many more shortwave broadcasters than there are today, each with very large operating schedules. For younger readers here, imagine the international bands being six or seven times busier than they are today!

Understanding propagation characteristics, frequency allocation, antenna beam headings, different time zones and many other aspects of international broadcasting have been a source of fascination for me, both as a shortwave listener and as an amateur (ham) radio operator.

Here are some things to consider when monitoring the change in transmission seasons:

    • Learn the basics of shortwave propagation and the characteristics on display over a 24-hour period, seasonally, annually, and within the sunspot cycle. It’s a big topic and takes a while to really absorb it all!
  • Familiarise yourself with which part of the spectrum the broadcaster can be expected to successfully utilise during a certain season.
    • When finding a station on a new frequency (NF), try to locate and note down the formerly used frequency. Sometimes, that same station will return to the deleted frequency at the start of the next season (the next half of the year).
    • Noting the deleted frequency often reveals that another station has taken up position on that channel.
    • Check to see if the same transmitter site is used for the NF. With so many stations using a variety of relay sites these days, you cannot just assume that the same relay is being used for the NF as it was for the old frequency.
    • Some station schedules are complicated and can be hard to decipher. Time changes, language changes, an increase or decrease in the number of frequencies the station employs for a particular service, daily broadcasts, weekends only, weekdays only, or only certains days of the week can make it tricky to reveal how the NF relates to the old frequency. Expect that you might sometimes get it wrong!
    • A few stations (e.g. China Radio International or Radio Free Asia) use so many outlets for some broadcasts that it can be too hard to tell what was the replaced frequency. In those cases, I just throw up my hands and move on!
  • Maybe the target location of the broadcast has changed. Checking the transmitter’s azimuth beam headings can help here.

Like other “old dudes”, I have spent many years observing and documenting the schedule changes of shortwave broadcasters. This is a part of the hobby that I personally find quite absorbing. However, I’m aware that it’s probably NOT something that some others might enjoy quite so much!

Since the B16 changes came in one week ago, I have been busy monitoring the bands to find the NFs and the deleted frequencies (the ex’s) and any other variations to the broadcasting schedules of each station.

There are HUNDREDS of changes to discover. But I can’t find them all – I also have to eat, sleep, and get on with life!

However, here is a list of the 93 observations I have made over just the past few days:

NOTE: Frequencies in kHz, Times in UTC
ABBREVIATIONS: NF = New Frequency, ex = deleted frequency, QRM = interference, // = another or parallel frequency used at the same time, As = Asia, SEAs = South East Asia, etc. Af = Africa, WAf = West Africa, etc. Eu = Europe, EEu = Eastern Europe, etc. NAm = Nth America, ENAm = Eastern Nth America, etc. Oc = Oceania
FORMAT: Freq – Country of Transmitter site – Station Name – Transmitter Location – comments.

5885 NTH MARIANA IS. RFA – Tinian. Korean to EAs at 1710, NF and good signal, Nov 4.

5910 OMAN. BBC – Al Seela. S/on 1700 in Dari to SEAs, NF, good signal, Nov 4.

5955 ROMANIA. RRI – Tiganesti. Italian to SEu, 1715, NF (ex 5910) and fair signal, Nov 4.

5965 NTH MARIANA IS. RFA – Tinian. Mandarin at 2030, NF and heavy jamming, Oct 31.

5970 TURKEY. VoT – Emirler. French to Eu, 2035, NF (ex 9635), fair signal Oct 31.

5980 TURKEY. VoT – Emirler. Turkish to Eu 2005, NF (ex 9460), good signal, Oct 31.

5990 ROMANIA. RRI – Galbeni. Romanian to Eu, 2040 to s/off 2100, NF (Believed to be ex 9500), good signal, Oct 31.

6010 CHINA. CRI – Urumqi. S/on 1800 in Amoy (Min Nan Chinese), NF (ex 13700) fair signal but QRM from Korean jamming on 6015, Nov 4.

6025 IRAN. VOIRI – Sirjan. German to Eu at s/on 1720, NF (ex 9660), good signal, Nov. 4

6040 CHINA. CRI – Urumqi. Russian to EEu at 1745 to s/off 1757, NF (possibly ex 11875 for this txer site) and excellent signal Nov 4.

6050 TURKEY. VoT – Emirler. English to Eu at 2015 to s/off 2025, NF (ex 9785), fair signal, Oct 31.

6060 IRAN. VOIRI – Zhaedan. Arabic to NAf at 1802, NF (ex 7285), fair signal, Nov 4.

6070 CHINA. CRI – Beijing. Russian to EEu at 1815, NF (ex 9560), very good signal Nov 4.

6090 OMAN. BBC – Al Seela. English WS to CAs and ME, 1820, NF (ex 7375), good signal and // 6195 also heard via Al Seela, Nov 4.

6100 CHINA. CRI – Beijing. English to Eu at 1800-1900, NF (ex 9600), excellent signal and // 7405 (via Beijing) which is also a NF and well heard on Nov 4.

Click here to continue reading the remaining 78 new frequency observations

 

2016-shack-part-shot-3

Part of Rob’s shack. Top Row: Two power supplies. Middle Row: Bose powered speaker, Kenwood R5000 receiver. Bottom Row: Kenwood TS2000 transceiver, Yaesu FRG100 receiver.

Rob Wagner, VK3BVW, is the author of this post and a regular contributor to the SWLing Post. He also blogs at the Mount Evelyn DX Report.

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