Engineering:Shortwave radio receiver

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Short description: Shortwave radio
Modern portable shortwave radio receiver with digital frequency display and keypad for direct frequency entry.

A shortwave radio receiver is a radio receiver that can receive one or more shortwave bands, between 1.6 and 30 MHz. A shortwave radio receiver often receives other broadcast bands, such as FM radio, Longwave and Mediumwave. Shortwave radio receivers are often used by dedicated hobbyists called shortwave listeners.

Hammarlund Comet Pro shortwave receiver, circa 1931.
Zenith console radio receiver with shortwave bands, circa 1938.
One of the first portable shortwave radio receivers: Zenith Model 7G605 Trans-Oceanic 'Clipper' circa 1942.
Grundig Satellit 210 portable receiver, circa 1969–1971 featuring early solid state circuitry.

History

While home built shortwave receivers had been used by amateur radio operators and radio experimenters prior to World War I,[1][2] the first time shortwave radio reception was available to the general public was through the use of shortwave frequency converters sold as accessories to broadcast-band radio sets during the mid 1920s. Such converters were generally found unsatisfactory in performance, and so dedicated shortwave receiving sets soon appeared on the market. National Radio Company introduced the SW-2 "Thrill box" shortwave regenerative receiver in 1927, and later offered improved models, such as the highly regarded SW-3. Other notable early shortwave receivers included Pilot Radio's "Super Wasp" line of regenerative receivers.[3]

E.H. Scott Radio Laboratories offered its superheterodyne "World's Record" shortwave receiver kit in the late 1920s,[4][3] and In 1931 Hammarlund introduced the "Comet Pro", the first fully assembled commercial shortwave superheterodyne receiver.[5] Hallicrafters introduced the "Super Skyrider" in 1935, a superheterodyne shortwave receiver available in several different models that covered the broadcast band up to 30 MHz.[3] In 1936, Hammarlund introduced their "Super-Pro" superheterodyne shortwave receiver.[6]

Superheterodyne receiver circuits soon essentially replaced all previous receiver designs, and radio manufacturers such as RCA, Zenith, Philco, Emerson, and Stromberg-Carlson offered consumers table or console model "all wave" sets that could receive both mediumwave and shortwave bands. By 1936 it was estimated that 100 percent of console models and 65 percent of table model radios were able to receive shortwave broadcasts.[3]

Following development of several prototypes between 1939 and 1941, Zenith introduced the Model 7G605 Trans-Oceanic 'Clipper' in 1942, an early portable shortwave receiver marketed to consumers.[7][8] Shortwave receiver designs had traditionally employed vacuum tubes, but solid state circuit designs began to emerge in the 1950s. The Magnavox model AW-100 was introduced in 1957 and was among the first commercial fully transistorized shortwave radio receivers,[9] along with the Trans-Oceanic Royal 1000 (1957)[10][11][12] and Trans-World Portable T-9 Code 126 (1958).[13]

As shortwave receivers evolved, they gained a number of improvements over their early counterparts. Direct digital tuning eliminated the guesswork and imprecision inherent in analog tuners. Solid state components minimized frequency drift. Synchronous detection improved audio fidelity and stability. And miniaturization of components along with integrated circuits enabled the manufacture of small, portable shortwave receivers with adequate sensitivity to deliver satisfactory shortwave reception.[14]

Receiver types and features

Modern Icom RC-9500 shortwave communications receiver

Modern battery-operated portable shortwave radio receivers often called world radio or world band receivers are marketed primarily to those wishing to receive international broadcasts, and are offered in a range of compact "travel size" to smaller "pocket size" units.[15]

Shortwave receivers known as communications receivers are typically larger table top sets used in amateur radio, commercial, and military installations, and by serious hobbyists. They typically include features that enable increased sensitivity and selectivity.[16]

Radios for shortwave reception generally have higher performance than those intended for the local mediumwave, longwave or FM broadcast band, since dependable reception of shortwave signals requires a radio with increased sensitivity, selectivity, dynamic range and frequency stability. Modern shortwave radio receivers are relatively inexpensive and easily accessible, and many hobbyists use portable "world band" receivers and built-in telescopic antennas. Serious hobbyists may use communications receivers and outdoor antenna located away from electrical noise sources, such as a dipole made from wire and insulators.

The typical shortwave radio receiver design is a superheterodyne receiver. Software-defined radios replace one or more stages of a superheterodyne receiver with digital signal processing for filtering, demodulation or other processing.

Basic receiver functions

A well equipped shortwave radio receiver can receive CW and SSB modes in addition to the AM mode traditionally used by broadcasters. Some modern shortwave radio receivers can receive digital radio signals.

Some receivers only tune within frequency bands allocated by international agreement. This may be necessary in some countries where restrictive laws prevent persons from listening to non-broadcast stations. Others offer continuous tuning over the whole shortwave frequency range, allowing the user to listen to amateur radio, marine, air, and utility stations as well as broadcasters.

Tuners on analog receivers may include a bandspread control to allow accurate tuning of closely spaced frequencies. Receivers with digital tuning usually allow direct entry of frequencies with sufficient accuracy and precision so as not to require additional fine-tuning adjustment.

Typical features

A number of specialized features are typically found in shortwave receivers.[17]

Additional for superheterodyne receivers:

  • Single, double, triple or quad conversion.
  • IF filter types.
  • Image response rejection ratio

Additional for software-defined radio / digital baseband receivers:

  • Waterfall display support or not.
  • Both In-phase and Quadrature signals:
    • I-Q signal-bandwidth.
    • Number of A/D converter bits (determines the maximum achievable dynamic range within the I-Q signal-bandwidth; 10 bits approximately equals 60 dB)

Software-defined radio

PC spectrum display of a modern software-defined shortwave receiver
Main page: Software-defined radio

A feature coming into wide use in modern shortwave receivers is DSP technology, short for digital signal processing. DSP is the use of digital means to process signals, and a primary benefit in shortwave receivers is the ability to tailor the bandwidth of the receiver to current reception conditions and to the type of signal being listened to. A typical analogue-only receiver may have a limited number of fixed bandwidths, or only one, but a DSP receiver may have 40 or more individually selectable filters.[19]

Another important trend in modern shortwave listening is the use of "PC radios", or radios that are designed to be controlled by a standard personal computer.[citation needed] These radios as the name suggests are controlled by specialized PC software using a (serial) port connected to the radio. A PC radio may not have a front-panel at all, and may be designed exclusively for computer control, which reduces cost. In pure software-defined radios, all filtering, modulation and signal manipulation is done in software, usually by a PC soundcard or by a dedicated piece of DSP hardware.[20]

"Boatanchors"

Collins R-390A shortwave communications receiver

Older vacuum tube-based communications receivers are affectionately known as boatanchors for their large size and weight. Such receivers include the Collins R-390 and R-390A, the RCA AR-88, the Racal RA-17L and the Marconi Elettra. However, even modern solid-state receivers can be very large and heavy, such as the Plessey PR2250, the Redifon R551 or the Rohde & Schwarz EK070.[21]

See also

References

  1. Clinton B. DeSoto (1936). Two Hundred Meters and Down: The Story of Amateur Radio. American Radio Relay League. https://books.google.com/books?id=gtjZAAAAMAAJ. 
  2. Jerome S. Berg (20 September 2013). The Early Shortwave Stations: A Broadcasting History Through 1945. McFarland. pp. 6–. ISBN 978-0-7864-7411-0. https://books.google.com/books?id=XSWXAAAAQBAJ&pg=PA6. 
  3. 3.0 3.1 3.2 3.3 Jerome S. Berg (1999). On the Short Waves, 1923–1945: Broadcast Listening in the Pioneer Days of Radio. McFarland. pp. 52–. ISBN 978-0-7864-0506-0. https://books.google.com/books?id=BwJ7ET3erXAC&pg=PA52. 
  4. Rogers, Henry. "Floor Model Radios and Radio-Phonographs 1929 to 1939". Western Historic Radio Museum. http://www.radioblvd.com/ConsolePhoto.htm. Retrieved 28 December 2017. 
  5. shortwaveradio.ch: Comet Pro Quote: "... Im Jahre 1931 brachte Hammarlung mit dem Modell "Comet" einen der ersten Superhet - Kommunikationsempfänger heraus ...", backup
  6. Rogers, Henry. "HAMMARLUND MANUFACTURING CO.,INC. "The Incredible Pre-war 'Super-Pro' Receivers"". Western Historic Radio Museum. http://www.radioblvd.com/hammarlund_super_pro.htm. Retrieved 6 February 2018. 
  7. qsl.net, k7jar: newsletter_201408.pdf Quote: "... Screen star Myrna Loy and the Zenith model 5G401 portable radio for 1940. The chassis of the 5G401 formed the basis for the early shortwave portable prototypes which led to the Trans-Oceanic Clipper ...", backup
  8. Mar 27, 2015, wshu.org: Zenith Trans-Oceanic, The "Royalty of Radios" Quote: "... With the development of tubes in the late 1930s to support portability, McDonald came up with the concept of a portable shortwave radio that he could use while at sea on his yacht ... By this time, the popularity of international shortwave broadcasts was growing rapidly ... Starting in 1939, and continuing through the remainder of that year, no less than 20 prototypes were submitted to CEO McDonald for his approval ...", backup
  9. radiomuseum.org: Magnavox model AW-100 Quote: "... The Magnavox model AW-100 is one of the first transistor multiband consumer radios if not the first - before the well known Zenith 1000. It has broadcast and 3 SW-bands ..."
  10. radiomuseum.org: Trans-Oceanic Royal 1000 Quote: "... There is an ad in "The National Geographic Magazine" 1957, December and we believe the first Trans-Oceanic 1000 was introduced in November 1957 ..."
  11. antiqueradio.org: Zenith Model 1000 TransOceanic Radio Quote: "... Model 1000 was the first transistor-powered TransOceanic radio. Introduced in 1957, when transistors were still novel, it didn't instantly replace its tube-powered counterpart ..."
  12. cryptomuseum.com: Zenith 1000-D Portable short-wave receiver Quote: "... The Royal 1000 Trans-Oceanic was a portable solid-state LW, MW, and SW receiver (150 kHz – 22 MHz), also known as a world receiver, manufactured by Zenith in Chicago (Illinois, USA) and introduced in 1957 ..."
  13. radiomuseum.org: Trans-World Portable T-9 Code 126 Quote: "... Year: 1958–1962 ..."
  14. Christopher H. Sterling; Cary O'Dell (12 April 2010). The Concise Encyclopedia of American Radio. Routledge. pp. 2271–. ISBN 978-1-135-17683-9. https://books.google.com/books?id=IryLAgAAQBAJ&pg=PT2271. 
  15. 15.0 15.1 Lawrence Magne (19 October 2004). Passport to World Band Radio. International Broadcasting Services. ISBN 978-0-914941-85-9. https://books.google.com/books?id=RFmNuzg3ufAC. 
  16. Ulrich L. Rohde; Jerry C. Whitaker; T. T. Nelson Bucher (1997). Communications Receivers: Principles and Design. McGraw-Hill. ISBN 978-0-07-053608-1. https://books.google.com/books?id=0mCJQgAACAAJ. 
  17. Joe Pritchard (4 December 2015). Newnes Short Wave Listening Handbook. Elsevier. pp. 161–. ISBN 978-1-4831-0447-8. https://books.google.com/books?id=N4jgBAAAQBAJ&pg=PA161. 
  18. radiomuseum.org: Antennen-Diversity-Gerät Abl.127
  19. H. Ward Silver (1 June 2006). The ARRL Ham Radio License Manual: All You Need to Become an Amateur Radio Operator. Technician. Level 1. American Radio Relay League. pp. 3–. ISBN 978-0-87259-963-5. https://books.google.com/books?id=J7wUxCzf98AC&pg=SA3-PA8. Retrieved 7 May 2013. 
  20. Ziff Davis, Inc. (19 January 1999). PC Mag. Ziff Davis, Inc.. pp. 56–. https://books.google.com/books?id=3fx--tKQvWEC&pg=PA56. Retrieved 7 May 2013. 
  21. Osterman, Fred (1998). Shortwave Receivers Past & Present: Communications Receivers 1942–1997. Universal Radio Research, Reynoldsburg (USA).

External links