Amateur Radio Weekly – Issue 337

Amateur Radio Weekly

Experimenting during Field Day 2024
Running solo for Field Day in the backcountry of Kananaskis Country.
VE6LK

Amateur Radio for aspiring professionals
So much of what I do in other classes is coding on a computer, which made the hands-on aspect of this class very appealing.
Carnegie Mellon University College of Engineering

Here’s how Starlink satellites weathered May’s major solar storm
The average Starlink user experienced less than one minute of disruption.
PCMag

Decoding Meshtastic with GNU Radio
The GNU blocks send and receive data via TCP port, so using the radio as a data connection is simple.
Hackaday

Lithium batteries: Where we came from, where we’re going
Lithium batteries have changed the world the same way transistors did back in the 1950s and 1960s.
Off Grid Ham

Meme Appreciation Month is on the air
A way to spread joy & cheer to all the good little Hams on the RF spectrum.
Meme Appreciation Month

APRSDroid and dual port Direwolf
Running a Direwolf instance with two ports (VHF and HF) on an Orange Pi Zero.
F4FXL

CQ CQ
Ham Radios are an extremely complex hobby.
The North Star Monthly

World Radio History
An archive of magazines, books, and more, related to the history of broadcast radio.
World Radio History

Video

Field Day 2024 at Blue Mountain Park
The Coquitlam Amateur Radio Club was joined by the New Westminster Amateur Radio Club and the 39 signal regiment.
Coquitlam Amateur Radio Emergency Services Society

Build a Raspberry Pi Pico APRS tracker
Use a Pi Zero, a Digirg Lite, and a Baofeng to build an APRS tracker.
KM4ACK

SDR: View all HF bands at the same time
Receiving 64 MHz of bandwidth using the RX888 Mk2 SDR Receiver and SDR Console.
Tech Minds

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Amateur Radio Weekly is curated by Cale Mooth K4HCK. Sign up free to receive ham radio's most relevant news, projects, technology and events by e-mail each week at http://www.hamweekly.com.

German Teletype (RTTY) Weather on HF (Shortwave) Radio

This is a video of the German Weather Broadcast from DWD, Hamburg, on shortwave (HF), using teletype (RTTY). I demonstrate two decoding software options: JWcomm32 (older), and, FLdigi. Note the in FLdigi, the “Reverse” feather is selected to properly decode the signal (in either USB or LSB, you still need to select, “Reverse”).

The radio used to receive these weather bulletins is an Icom IC-7610, using an antenna designed for 160 Meters.

RTTY is a system for broadcasting text over radio. The technology dates back to the late 1950s and seems somewhat anachronistic. Speeds are slow, even slower than NAVTEX. A similar service is the USCG service, SITOR (Simplex Teletype Over Radio) providing offshore and coastal forecasts over very wide and remote areas from the tropics to the polar regions.

There is dedicated equipment to receive RTTY and SITOR but we can receive both using a standard HF/SSB receiver with software packages such as TRUETTY and SEATTY to decode the signals.

The main advantage of RTTY/SITOR is the reception of information over an entire ocean area. The USCG also shares frequencies across multiple transmitters according to a schedule, rather like NAVTEX. The system is available over the Atlantic and Pacific including polar regions not served. For more about SITOR see the Monitoring Times link or the USCG site.

Around Western Europe and the Mediterranean, the Deutscher Wetterdienst (DWD) , the German Weather Service has accepted the responsibility to broadcast weather information for mariners on RTTY. Frequencies are in the table on the webpage at:
https://weather.mailasail.com/Franks-Weather/Radio-Teletype-Weather-Broadcasts

This video captures the RTTY transmission on 14467.3 kHz (with adjustment in the passband to center on Mark and Space as seen in the video).

DWD (Hamburg) Broadcast Content:

Some broadcasts are of raw weather observations in a WMO coded form. Otherwise, for the broadcasts include,

  • Strong wind, gale and storm warnings for German Bight, Western and Southern Baltic Sea, German North Sea and Baltic Sea coast
  • Weather forecast for the North Sea and Baltic Sea, Weather situation, forecast valid for 12 hours and outlook valid for another 12 hours
  • Weather report German North Sea and Baltic Sea coast, Weather situation and forecast valid for 12 hours.
  • Navigational warnings for North Sea, Baltic Sea and German coast
  • Weather report Norwegian Sea and Baltic Sea Route North Cape – Shetlands, The Quark – Gulf of Finland. Weather situation and time series forecast for 2 days
  • Weather report North Atlantic. Route Pentlands – Southwest Greenland. Weather situation and time series forecast for 2 days
  • Station reports North Sea and Baltic Sea
  • Weather report Western European Sea. Route Southern Ireland – Area Canarias. Weather situation and time series forecast for 2 days
  • Medium range weather report North Sea, Weather situation and time series forecast for 5 days
  • For the Mediterranean there are Station reports Mediterranean Sea
  • Weather report Mediterranean Sea (in German), Weather situation and forecast valid for 24 hours.
  • Alborán – Tunis. Weather situation and time series forecast for 2 days
  • Weather report Eastern Mediterranean Sea (in German). Route Eastern Tunis – Rhodes/Cyprus. Weather situation and time series forecast for 2 days
  • Medium range weather report Mediterranean Sea (in English), Weather situation and time series forecast for 5 days
  • Around the North Sea and the Baltic this service is a useful supplement to NAVTEX. Particularly so are the 5 day outlooks, These give wind forecast every 12 hours for the 5 day period. The values are straight from the DWD NWP model at a few grid points although these are sufficient to give an overall view and much quicker to receive than synoptic charts on radio fax.

In the Mediterranean, most valuable is the 5 day forecast which seems to be used and very highly regarded by the majority of serious cruising yachtsmen. It is a most valuable service for predicting the major strong wind systems such as Mistrals, Libeccios, Tramontanes, etc. Such winds are usually well predicted 4 and often 5 days ahead. Conversely, I have never found the 24 hour forecast to be much use. For this period, the French, Spanish and even the Italian NAVTEX broadcasts are to be preferred.


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Modern Amateur Radio Hobby – An Introduction

This video is an introduction to an international public-service and technology hobby known as ‘amateur radio’ (or ‘ham radio’).

Amateur radio (also called ham radio) describes the use of radio frequency spectrum for purposes of non-commercial exchange of messages, wireless experimentation, self-training, private recreation, radiosport, contesting, and emergency communication. The term “amateur” is used to specify “a duly-authorized person interested in radioelectric practice with a purely personal aim and without pecuniary interest;” (either direct monetary or other similar rewards) and to differentiate it from commercial broadcasting, public safety (such as police and fire), or professional two-way radio services (such as maritime, aviation, taxis, etc.).

The amateur radio service (amateur service and amateur-satellite service) is established by the International Telecommunication Union (ITU) through the Radio Regulations. National governments regulate technical and operational characteristics of transmissions and issue individual stations licenses with an identifying call sign. Prospective amateur operators are tested for their understanding of key concepts in electronics and the host government’s radio regulations. Radio amateurs use a variety of voice, text, image, and data communications modes and have access to frequency allocations throughout the RF spectrum to enable communication across a city, region, country, continent, the world, or even into space.

Amateur radio is officially represented and coordinated by the International Amateur Radio Union (IARU), which is organized in three regions and has as its members the national amateur radio societies which exist in most countries. According to an estimate made in 2011 by the American Radio Relay League, two million people throughout the world are regularly involved with amateur radio. About 830,000 amateur radio stations are located in IARU Region 2 (the Americas) followed by IARU Region 3 (South and East Asia and the Pacific Ocean) with about 750,000 stations. A significantly smaller number, about 400,000, are located in IARU Region 1 (Europe, Middle East, CIS, Africa).

Activities and practices

The expansive diversity found in the amateur radio hobby attracts practitioners who have a wide range of interests. Many hams begin with a fascination of radio communication and then combine other personal interests to make the pursuit of the hobby rewarding. Some of the focal areas amateurs pursue include radio contesting, radio propagation study, public service communication, technical experimentation, and computer networking. But, that is just a sampling of interest areas found in the hobby.

Amateur radio operators use various modes of transmission to communicate. The two most common modes for voice transmissions are frequency modulation (FM) and single sideband (SSB). The FM mode offers high-quality audio signals, while SSB is better at long distance communication when bandwidth is restricted.

Modern personal computers have encouraged the use of digital modes such as radioteletype (RTTY) which previously required cumbersome mechanical equipment. Hams led the development of packet radio in the 1970s, which has employed protocols such as AX.25 and TCP/IP. Specialized digital modes such as PSK31 allow real-time, low-power communications on the shortwave bands. More robust digital modes have been invented and improved, including such modes as Olivia, JT65, and WSPR.

NASA astronaut Col. Doug Wheelock, KF5BOC, Expedition 24 flight engineer, operates the NA1SS ham radio station in the Zvezda Service Module of the International Space Station. Equipment is a Kenwood TM-D700E transceiver.

Amateur radio operators, using battery- or generator-powered equipment, often provide essential communications services when regular channels are unavailable due to natural disasters or other disruptive events.

This video comes to us via Canada, and is used by permission from Bernard Bouchard – / ve2sms – The original video was published on Feb 28, 2013.- Website is https://www.ve2cwq.ca/amateur-radio-club-ve2cwq/

Voici maintenant, la version complète du documentaire «La radioamateur» d’une durée de 11 minutes. On y aborde toutes les activités sur le monde de la radioamateur. Ce vidéo a été produit par le Club Radioamateur VE2CWQ / Canwarn-Québec. Pour information: https://www.ve2cwq.ca/

Connect with me at https://NW7US.us

USA Amateur Radio information: http://ARRL.org


Visit, subscribe: NW7US Radio Communications and Propagation YouTube Channel

1939 Film: Morse Code on HF in New Zealand (Historical)

Before modern radio broadcasting, the trails were being blazed both in public broadcast, but also critical links out of the local area. Here’s a side-look back in time…. in this 1939 Film: New Zealand Shortwave Communications; Morse code (CW)

The romance of the radiotelegraph service (in this video, the service in New Zealand) is a fascinating aspect of communication history. The use of shortwave, longwave, and medium frequency spectrum for communication, particularly through Morse code, played a significant role in connecting people across vast distances. This service utilized the high-frequency spectrum known as “shortwave” (from 3 MHz up to 30 MHz) as well as the longwave (30 kHz to 300 kHz) and medium frequency spectrum (300 kHz to 3 MHz).

This short film is from 1939, and captures the essence of communication at that time in history, to and from New Zealand using shortwaves and Morse code. It showcases the importance of the radiotelegraph service in enabling long-distance communication during that era. The transition from Morse code via spark-gap communications to continuous wave (CW) modulation marked a significant advancement in the technology and efficiency of radio communication.

It’s incredible to see how technology has evolved over the years, transforming the way we communicate and connect with each other globally. Films like these provide a glimpse into the past and remind us of the ingenuity and dedication of those who worked in the radiotelegraph service to ensure effective communication across the seas.

This film is a 1939 Government film scanned to 2K from a 16mm combined B/W reduction print.


Visit, subscribe: NW7US Radio Communications and Propagation YouTube Channel

New to Amateur Radio? What is a Repeater?

If you have not yet explored ham radio repeaters, this might be interesting to you.

What is an amateur radio repeater and how do they work?

In this video, with a non-amateur-radio viewer in mind, I chat about the very basic concepts of a repeater.

It is filmed in a relaxed, “ride along with me,” format.

Want to learn more about ham radio (amateur radio)?
Visit: http://nw7us.us/arrl


Visit, subscribe: NW7US Radio Communications and Propagation YouTube Channel

Changing it up

 

The old setup

As an avid contester, I find myself sitting at the radio for long periods and I am no longer a spring chicken my body is not as forgiving as it used to be. Some of the changes in the past I made were getting a proper desk chair, and making sure the monitors I look at for long periods are at eye level. Also getting up each hour and doing a little walking around also helps.
As I became more involved in my love of contesting, meaning I extended my operating times I then found other issues regarding age and repetitive moments that hindered my contesting time. To continue to enjoy my contesting adventure some changes needed to be made at the station. 


During a CW contest when your QSO count is over a thousand plus imagine how many times your baby finger hits the "enter" key on your keyboard. Let me tell you it is  TONS of times. I found some tendons in my right hand became very sore.  The problem was it did not go away after the contest it affected me for close to a month off and on. I changed it up by daily stretches for my hands, during a contest not hitting enter all the time but also using the F1 key. Both keys send "CQ TEST VE9KK" and I also added a wrist support to my keyboard and my mice for my right hand. 

Keyboard support.

During a contest many times, I would be spinning the VFO and changing RF gain to name a  few things. My radio was far back on my radio desk which meant I had to lean forward each time to play with the radio controls. After some time my back and shoulders would get very sore. Most times I noticed this the next day and not right away. To solve this I moved my Icom 7610 forward on the desk, this way there is no more stretching or leaning forward to make radio changes. 

Mouse support.

The next change I made was my Begali Key and it had nothing to do with my body aches and pains but the placement of it was just very awkward. During a contest, I may use my key to send a partial call, repeat my call or send my exchange again. Where the key was I had to monkey my hand around the radio to get to it. I now have the key on my pull-out desk shelf. I have it held in place with 2 sided  Gorilla tape. It now is a simple movement off the keyboard and then back again.


The next change was dual mice for my desktop using a free software program called Either Mouse. Why 2 mice you ask.....well on my desktop during a contest I have N1MM+ contest logging program on the go and Win4icom radio control software running. During a contest, I  may need to change filter settings, adjust the audio peak filter (APF)  and so on. While doing this during a contest contact in the past meant moving my mouse off N1MM+ program and over to Win4icom program and then back. The "and back" part most of the time gave me an issue. In the heat of battle, I would move the mouse too fast and lose track of it or accidentally click the mouse let's say on a macro and send something that just confuses the contact....you get the picture. 


During a contest, I have one mouse pointer on Win4icom program and the other on  N1MM+ contest logging program. This way I can click on either program. I also am using wireless mice as I found the corded mice were affected by RFI. 

The new setup.


Well, that's if for changes here and all for the love of contesting!


Mike Weir, VE9KK, is a regular contributor to AmateurRadio.com and writes from New Brunswick, Canada. Contact him at [email protected].

FRS3 For Colorado Backcountry

The Colorado Search and Rescue Association is promoting FRS (Family Radio Service) Channel 3 as “the default during backcountry search and rescue (backcountry SAR) emergencies.” FRS channel 3 is the same as GMRS (General Mobile Radio Service) channel 3. There is more GMRS info here. To keep things simple, no CTCSS (“privacy code”) is used…carrier squelch only.  See the CSAR announcement here: FRS Radio Use for Backcountry.

For backcountry exploring, it is important to emphasize self-sufficiency and to avoid reliance on electronic gizmos that may fail. Avoiding an emergency situation is way better than having a device to call for help, which may be many hours away. See this article for a discussion of The Ten Essentials for Hiking.

Still, the FRS3 concept has merit. Many backcountry hikers already carry FRS or GMRS radios, so designating a preferred channel makes sense. My read on this is that randomly calling for help on FRS3 will not be very effective due to the limited range of FRS radios. However, it does not hurt to try. More likely, FRS3 can be used for local comms once Search and Rescue crews have been deployed and are within a few miles of the party in distress.

Ham radio operators may want to carry a handheld transceiver capable of transmitting on 462.6125 MHz. For emergency use only, of course.

73 Bob K0NR

The post FRS3 For Colorado Backcountry appeared first on The KØNR Radio Site.


Bob Witte, KØNR, is a regular contributor to AmateurRadio.com and writes from Colorado, USA. Contact him at [email protected].

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