Radio Waves: DRM Part of BBC Story, Antennas and Smith Charts, Shortwave “Hot Debate,” Carrington Event, and “Deep Freeze”

Radio Waves:  Stories Making Waves in the World of Radio

Welcome to the SWLing Post’s Radio Waves, a collection of links to interesting stories making waves in the world of radio. Enjoy!


DRM Is Part of the BBC World Service Story (Radio World)

The iconic broadcaster has been supportive of the standard for over 20 years

The author is chairman of the DRM Consortium. Her commentaries appear regularly at radioworld.com.

Our old friend James Careless studiously ignores DRM once more in his well-researched, but to our minds incomplete article “BBC World Service Turns 90” in the March 30 issue.

As an ex-BBC senior manager, I would like to complete the story now that the hectic NAB Show is over.

Having lived through and experienced at close quarters the decision to reduce the BBC shortwave about 20 years ago, I can confirm that the BBC World Service decision to cut back on its shortwave footprint — especially in North America, where reliable, easy-to-receive daily broadcasts ceased — has generated much listener unhappiness over the years.

In hindsight, the decision was probably right, especially in view of the many rebroadcasting deals with public FM and medium-wave stations in the U.S. (and later other parts of the world like Africa and Europe) that would carry news and programs of interest to the wide public.

But BBC World Service in its long history never underestimated the great advantages of shortwave: wide coverage, excellent audio in some important and populous key BBC markets (like Nigeria) and the anonymity of shortwave, an essential attribute in countries with undemocratic regimes.

BBC World Service still enjoys today about 40 million listeners worldwide nowadays. [Continue reading…]

The Magic of Antennas (Nuts & Volts)

If you really want to know what makes any wireless application work, it is the antenna. Most people working with wireless — radio to those of you who prefer that term — tend to take antennas for granted. It is just something you have to add on to a wireless application at the last minute. Well, boy, do I have news for you. Without a good antenna, radio just doesn’t work too well. In this age of store/online-bought shortwave receivers, scanners, and amateur radio transceivers, your main job in getting your money’s worth out of these high-ticket purchases is to invest a little bit more and put up a really good antenna. In this article, I want to summarize some of the most common types and make you aware of what an antenna really is and how it works.

TRANSDUCER TO THE ETHER
In every wireless application, there is a transmitter and a receiver. They communicate via free space or what is often called the ether. At the transmitter, a radio signal is developed and then amplified to a specific power level. Then it is connected to an antenna. The antenna is the physical “thing” that converts the voltage from the transmitter into a radio signal. The radio signal is launched from the antenna toward the receiver.

A radio signal is the combination of a magnetic field and an electric field. Recall that a magnetic field is generated any time a current flows in a conductor. It is that invisible force field that can attract metal objects and cause compass needles to move. An electric field is another type of invisible force field that appears between conductors across which a voltage is applied. You have experienced an electric field if you have ever built up a charge by shuffling your feet across a carpet then touching something metal … zaaapp. A charged capacitor encloses an electric field between its plates.

Anyway, a radio wave is just a combination of the electric and magnetic fields at a right angle to one another. We call this an electromagnetic wave. This is what the antenna produces. It translates the voltage of the signal to be transmitted into these fields. The pair of fields are launched into space by the antenna, at which time they propagate at the speed of light through space (300,000,000 meters per second or about 186,000 miles per second). The two fields hang together and in effect, support and regenerate one another along the way. [Continue reading…]

Smith Chart Fundamentals (Nuts & Volts)

The Smith Chart is one of the most useful tools in radio communications, but it is often misunderstood. The purpose of this article is to introduce you to the basics of the Smith Chart. After reading this, you will have a better understanding of impedance matching and VSWR — common parameters in a radio station.

THE INVENTOR
The Smith Chart was invented by Phillip Smith, who was born in Lexington, MA on April 29, 1905. Smith attended Tufts College and was an active amateur radio operator with the callsign 1ANB. In 1928, he joined Bell Labs, where he became involved in the design of antennas for commercial AM broadcasting. Although Smith did a great deal of work with antennas, his expertise and passion focused on transmission lines. He relished the problem of matching the transmission line to the antenna; a component he considered matched the line to space.

Smith developed the first graphical solution in the form of a rectangular plot from his measurements of the maxima and minima voltages along the transmission line. He used a thermocouple bridge and voltmeter to make the measurements. The first graphical chart was limited by the range of data so he came up with a polar plot that was a scaled version of the first plot. According to his biography, his impedance coordinates were not orthogonal — which means perpendicular — and there were no true circles, but the standing wave ratio was linear. This chart closely resembles the chart we see today.

WHAT IS A SMITH CHART?
Although there are many computer programs2, 3 and network analyzers that can solve impedance matching problems for you, a complete understanding of the Smith Chart is highly beneficial in understanding the nature of transmission lines. There is some algebra involved in understanding the basic transmission line equations, but — once you understand how to move on the graph — you can forget the math and just read the chart. [Continue reading…]

Hot Debate on Shortwave Revival Continues (Radio World)

Does it make sense to resume shortwave (SW) radio broadcasts to Russia and Ukraine, decades after international SW broadcasters cut back their services and people turned to the internet for information? Or does Russia’s blocking of online western news sources for its citizens, plus the millions of Ukrainian refugees lacking such access as they flee the war zone and millions more living in place without power and internet, make SW radio a viable option?

The first position was recently argued in our recent guest commentary, “Why Reviving Shortwave is a Non-Starter”, which was written by SW broadcast veterans Keith Perron and Daniel Robinson. The second case was advanced in rebuttal by RW readers in a succeeding posting, “‘Why Reviving Shortwave is a Non-Starter’ Sure Got Our Readers Started!”.

It is worth noting that both sides of this debate advocate providing Russia and Ukraine with better access to Western news and views. What’s at issue is the best way to do it.

Anyway, more detailed commentaries arguing for and against SW broadcasts to Russia and Ukraine have since been received by Radio World. [Continue reading…]

When Our Star Erupts – The 1859 Solar Storm And More (Short Wave NPR)

In 1859, astronomer Richard Carrington was studying the Sun when he witnessed the most intense geomagnetic storm recorded in history. The storm, triggered by a giant solar flare, sent brilliant auroral displays across the globe and causing electrical sparking and fires in telegraph stations.

Two Teens, a Ham Radio, and Operation Deep Freeze (YouTube)

The eleven nations included in the Antarctic portion of the 1957-1958 International Geophysical Year created several permanent research stations, including the first permanent station at the South Pole. The effort to create a permanent scientific presence at, literally, the end of the earth required enormous effort of scientists and military personnel. Aided, uniquely, by a couple of teenagers from New Jersey.


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5 thoughts on “Radio Waves: DRM Part of BBC Story, Antennas and Smith Charts, Shortwave “Hot Debate,” Carrington Event, and “Deep Freeze”

  1. Michael Black

    Operation Deep Freeze kept on going. The first ham magazine I ever saw, QST for April 1971, had a cover photo of a ham in Antarctica. He did a lot of phone patches for personel in Antarctica, helping them talk to family and friends at home. It certainly mattered at a time when radio was the only means of communication. Anyway, since the ham had helped so.juch, they gave him a trip to Antarctica.

    I guess it’s different now. Likely done by satellite and high bandwidth so there’s internet and nobody has to wait their turn.

    Reply
  2. Jock Elliott

    Thanks so much for sharing “Two teens, a ham radio, and operation Deep Freeze!”

    It was certainly one of the most inspirational documentaries that involved amateur radio that I have ever seen.

    Well worth the time.

    https://youtu.be/uaTm_LUifUI

    Cheers, Jock

    Reply

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