Jump to content

Satellite radio

From Wikipedia, the free encyclopedia

This is an old revision of this page, as edited by 204.128.73.49 (talk) at 18:03, 11 September 2019 (dawd). The present address (URL) is a permanent link to this revision, which may differ significantly from the current revision.

Satellite radio is defined by the International Telecommunication Union (ITU)'s ITU Radio Regulations (RR) as a broadcasting-satellite service.[1] The satellite's signals are broadcast nationwide, across a much wider geographical area than terrestrial radio stations, and the service is primarily intended for the occupants of motor vehicles.[2][3] It is available by subscription, mostly commercial free, and offers subscribers more stations and a wider variety of programming options than terrestrial radio.[4]

Satellite radio technology was inducted into the Space Foundation Space Technology Hall of Fame in 2002.[5] Satellite radio uses the 2.3 GHz S band in North America for nationwide digital radio broadcasting.[6] In other parts of the world, satellite radio uses the 1.4 GHz L band allocated for DAB.[7]

Ondas Media was a Spanish company which had proposed to launch a subscription-based satellite radio system to serve Spain and much of Western Europe, but failed to acquire licenses throughout Europe.[citation needed]

Onde Numérique was a French company which had proposed to launch a subscription-based satellite radio system to serve France and several other countries in Western Europe but has suspended its plans indefinitely, effective December, 2016.[citation needed]

United States

Sirius Satellite Radio was founded by Martine Rothblatt, David Margolese and Robert Briskman.[8][9] In June 1990, Rothblatt's shell company, Satellite CD Radio, Inc., petitioned the Federal Communications Commission (FCC) to assign new frequencies for satellites to broadcast digital sound to homes and cars.[2] The company identified and argued in favor of the use of the S-band frequencies that the FCC subsequently decided to allocate to digital audio broadcasting. The National Association of Broadcasters contended that satellite radio would harm local radio stations.[3]

In April 1992, Rothblatt resigned as CEO of Satellite CD Radio;[8] former NASA engineer Robert Briskman, who designed the company's satellite technology, was then appointed chairman and CEO.[10][11] Six months later, Rogers Wireless co-founder David Margolese, who had provided financial backing for the venture, acquired control of the company and succeeded Briskman. Margolese renamed the company CD Radio, and spent the next five years lobbying the FCC to allow satellite radio to be deployed, and the following five years raising $1.6 billion, which was used to build and launch three satellites into elliptical orbit from Kazakhstan in July 2000.[11][12][13][14] In 1997, after Margolese had obtained regulatory clearance and "effectively created the industry," the FCC also sold a license to the American Mobile Radio Corporation,[15] which changed its name to XM Satellite Radio in October 1998.[16] XM was founded by Lon Levin and Gary Parsons, who served as chairman until November 2009.[17][18]

CD Radio purchased their license for $83.3 million, and American Mobile Radio Corporation bought theirs for $89.9 million. Digital Satellite Broadcasting Corporation and Primosphere were unsuccessful in their bids for licenses.[19] Sky Highway Radio Corporation had also expressed interest in creating a satellite radio network, before being bought out by CD Radio in 1993 for $2 million.[20] In November 1999, Margolese changed the name of CD Radio to Sirius Satellite Radio.[9] In November 2001, Margolese stepped down as CEO, remaining as chairman until November 2003, with Sirius issuing a statement thanking him "for his great vision, leadership and dedication in creating both Sirius and the satellite radio industry."[21]

XM’s first satellite was launched on March 18, 2001 and its second on May 8, 2001.[7] Its first broadcast occurred on September 25, 2001, nearly four months before Sirius.[22] Sirius launched the initial phase of its service in four cities on February 14, 2002,[23] expanding to the rest of the contiguous United States on July 1, 2002.[22] The two companies spent over $3 billion combined to develop satellite radio technology, build and launch the satellites, and for various other business expenses.[5] Stating that it was the only way satellite radio could survive, Sirius and XM announced their merger on February 19, 2007, becoming Sirius XM Satellite Radio.[24][25] The FCC approved the merger on July 25, 2008, concluding that it was not a monopoly, primarily due to Internet audio-streaming competition.[26]

Japan

MobaHo! was a mobile satellite digital audio/video broadcasting service in Japan whose services began on October 20, 2004, and ended on March 31, 2009.[27]

Canada

XM satellite radio was launched in Canada on November 29, 2005. Sirius followed two days later on December 1, 2005. Sirius Canada and XM Radio Canada announced their merger into SiriusXM Canada on November 24, 2010.[28] It was approved by the Canadian Radio-television and Telecommunications Commission on April 12, 2011.[29]

System design

Satellite radio uses the 2.3 GHz S band in North America for nationwide digital radio broadcasting.[6] MobaHO! operated at 2.6 GHz. In other parts of the world, satellite radio uses part of the 1.4 GHz L band allocated for DAB.[7]

Satellite radio subscribers purchase a receiver and pay a monthly subscription fee to listen to programming. They can listen through built-in or portable receivers in automobiles; in the home and office with a portable or tabletop receiver equipped to connect the receiver to a stereo system; or on the Internet.[30]

Ground stations transmit signals to the satellites which are 35,786 kilometers (22,236 miles) above the Equator in Clarke belt orbits. The satellites send the signals back down to radio receivers in cars and homes. This signal contains scrambled broadcasts, along with meta data about each specific broadcast. The signals are unscrambled by the radio receiver modules, which display the broadcast information. In urban areas, ground repeaters enable signals to be available even if the satellite signal is blocked. The technology allows for nationwide broadcasting, so that, for instance US listeners can hear the same stations anywhere in the country.[7][31]

Content, availability and market penetration

Satellite radio in the US offers commercial-free music stations, as well as news, sports, and talk, some of which include commercials.[32] In 2004, satellite radio companies in the United States began providing background music to hotels, retail chains, restaurants, airlines and other businesses.[33][34] On April 30, 2013, Sirius XM CEO Jim Meyer stated that the company would be pursuing opportunities over the next few years to provide in-car services through their existing satellites, including telematics (automated security and safety, such as stolen vehicle tracking and roadside assistance) and entertainment (such as weather and gas prices).[35]

As of Q3 2016, SiriusXM had 31 million subscribers.[36] This was primarily due to the company’s partnerships with automakers and car dealers. Roughly 60% of new cars sold come equipped with Sirius XM, and just under half of those units gain paid subscriptions. The company has long-term deals with General Motors, Ford, Toyota, Kia, Bentley, BMW, Volkswagen, Nissan, Hyundai and Mitsubishi.[37] The presence of Howard Stern, whose show attracts over 12 million listeners per week, has also been a factor in the company’s steady growth.[37][38] As of 2013, the main competition to satellite radio is streaming Internet services, such as Pandora and Spotify, as well as FM and AM Radio.[35]

Satellite radio vs. other formats

Satellite radio differs from AM, FM radio, and digital television radio (DTR) in the following ways (the table applies primarily to the United States):

Radio format Satellite radio AM/FM Digital television radio (DTR)
Monthly fees US$10.99 and up Free Free for terrestrial. Very low for cable television or satellite—DTR represents a small portion of the total monthly television fee.
Portability Available Prominent None—a typical set consists of a stereo attached to a television set-top box (the primary function of the set top-box is normally designed for viewing digital television on an analogue set).
Listening availability Very high—a satellite signal's footprint covers millions of square kilometres. Low to moderate[citation needed] — implementation of FM service requires moderate to high population densities and is thus not practical in rural and/or remote locales; AM travels great distances at night. Very high
Sound quality Varies[a] AM: Usually very low
FM: Usually Moderate, but can be very high
Varies[a]
Variety and depth of programming Highest Variable—highly dependent upon economic/demographic factors Variable—dependent on location and the television provider for cable and satellite, dependent on the various packages they provide and on the user's subscription.
Frequency of programming interruptions (by DJs or commercial advertising)[b] None to high—mostly dependent on the channels, some of which have DJs; most channels are advertisement-free because of the paid subscription model of satellite radio. Highest[c] None to low—dependent on the provider; however, it is common that some stations will have DJs. Usually no advertisements on subscription services (DirecTV and Dish Network both claim to provide advertisement-free content).
Governmental regulation Yes[d] (minimal) Yes—significant governmental regulations regarding content[e] Yes for terrestrial. For cable and satellite, low to none[d]
  1. ^ a b The sound quality with both satellite radio providers and DTR providers varies with each channel. Some channels have near CD-quality audio, and others use low-bandwidth audio suitable only for speech. Since only a certain amount of bandwidth is available within the licenses available, adding more channels means that the quality on some channels must be reduced. Both the frequency response and the dynamic range of satellite channels can be superior to most, but not all AM or FM radio stations, as most AM and FM stations clip the audio peaks to sound louder; even the worst channels are still superior to most AM radios, but a very few AM tuners are equal to or better than the best FM or satellite broadcasts when tuned to a local station, even if not capable of stereo. The use of HD Radio technology can allow AM and FM broadcasts to exceed the quality of satellite. AM does not suffer from multipath distortion or flutter in a moving vehicle like FM, nor does it become silent as you go behind a big hill like satellite radio.
  2. ^ Some satellite radio services and DTR services act as in situ repeaters for local AM/FM stations and thus feature a high frequency of interruption.
  3. ^ Nonprofit stations and public radio networks such as PRI-affiliated stations and the BBC are commercial-free. In the US, all stations are required to have periodic station identifications and public service announcements.
  4. ^ a b In the United States, the FCC regulates technical broadcast spectrum only. Program content is unregulated. However, the FCC has tried in the past to expand its reach to regulate content to satellite radio and cable television, and its options are still open to attempt such in the future. The FCC does issue licenses to SiriusXM, the satellite radio provider, and controls who holds these licenses to broadcast.[39] Many of their channels, including the pop music ones, are self-regulated.
  5. ^ Degree of content regulation varies by country; however, the majority of industrialized nations have regulations regarding obscene and/or objectionable content.

See also

References

  1. ^ International Telecommunication Union. Definition: Broadcasting-satellite service. {{cite book}}: |work= ignored (help)
  2. ^ a b Andrews, Edmund L. (October 8, 1992). "F.C.C. Plan For Radio By Satellite". The New York Times.
  3. ^ a b Belsie, Laurent (March 9, 1992). "Digital Audio Broadcasting Plays to Global Audience". Christian Science Monitor.
  4. ^ Jain, Anita (October 29, 2002). "Sirius Satellite Moves". New York Sun. p. 11.
  5. ^ a b "Satellite Radio Technology". spacefoundation.org. 2002. Retrieved May 1, 2013.
  6. ^ a b "Satellite S Band Radio Frequency Table". CSG Network. August 15, 2011. Retrieved April 23, 2013.
  7. ^ a b c d Bonsor, Kevin. "How Satellite Radio Works". HowStuffWorks. Retrieved May 1, 2013.
  8. ^ a b Herper, Matthew (April 22, 2010). "From Satellites to Pharmaceuticals". Forbes.
  9. ^ a b Warren, Steve (2004). Radio: The Book. Focal Press. p. 166. ISBN 9780240806969.
  10. ^ "Robert Briskman appointed chairman and CEO". Satellite News. June 1, 1992. Archived from the original on October 31, 2013. {{cite news}}: Unknown parameter |dead-url= ignored (|url-status= suggested) (help)
  11. ^ a b McLean, Bethany (January 22, 2001). "Satellite Killed The Radio Star". Fortune. pp. 94–100.
  12. ^ Dillon, Nancy (June 5, 2000). "Beaming Radio Into High-Tech Fast Lane". New York Daily News.
  13. ^ Sterling, Christopher H. (2003). Encyclopedia of Radio, Volume 1. Taylor & Francis. p. 750. ISBN 9780203484289.
  14. ^ Romero, Simon (July 10, 2000). "XM Satellite Radio Completes Its Financing". New York Times.
  15. ^ Houpt, Simon. "Radio Flyer" (PDF). Report on Business. No. September 2001. pp. 14–16.
  16. ^ XM Satellite Radio (November 16, 1998). "AMRC changes name to XM Satellite Radio" (Press release). New York: BBC Archive.
  17. ^ Beiser, Vince (October 23, 2007). "Hotel Biz Zillionaire's Next Venture? Inflatable Space Pods". Wired.
  18. ^ Shwiff, Kathy (November 12, 2009). "Parsons Resigns as Chairman of Sirius XM Radio". Wall Street Journal.
  19. ^ "Revolutions in Radio". PBS Newshour. May 4, 2005.
  20. ^ "Sirius Satellite Radio, Inc. History". fundinguniverse.com. Retrieved May 7, 2013.
  21. ^ "David Margolese Steps Down as Sirius CEO". PRNewswire. October 16, 2001.
  22. ^ a b Parker, Steve (July 24, 2008). "XM plus Sirius = Satellite Radio Monopoly". Huffington Post.
  23. ^ "Sirius Begins Satellite Service". Radio. February 14, 2002. Archived from the original on June 7, 2017. {{cite news}}: Unknown parameter |deadurl= ignored (|url-status= suggested) (help)
  24. ^ Hart, Kim (July 26, 2008). "Satellite Radio Merger Approved". Washington Post.
  25. ^ Siklos, Richard; Sorkin, Andrew Ross (February 20, 2007). "Merger Would End Satellite Radio's Rivalry". New York Times.
  26. ^ Kharif, Olga (July 25, 2008). "The FCC Approves the XM-Sirius Merger". Bloomberg Businessweek.
  27. ^ Conneally, Tim (July 30, 2008). "Toshiba to shut down mobile broadcast TV service". betanews.com.
  28. ^ Protalinski, Emil (November 25, 2010). "XM and Sirius to finally merge in Canada". techspot.com.
  29. ^ "CRTC Approves Sirius XM Merger In Canada". All Access. April 12, 2011.
  30. ^ "Sirius XM: Shop". Siriusxm.com.
  31. ^ Kingsbury, Kathleen (August 4, 2004). "Satellite radio captures ears of millions". CNN.
  32. ^ "Channel Lineup". Siriusxm.com.
  33. ^ Bunkley, Nick (January 5, 2005). "Satellite radio scores with exclusive programming, in-car deals". USA Today.
  34. ^ Feder, Barnaby J. (February 16, 2004). "Tuning In to Music That People Tune Out". New York Times.
  35. ^ a b Baker, Liana B. (April 30, 2013). "New CEO to expand Sirius beyond satellite radio in cars". Reuters.
  36. ^ Szalai, Georg (April 30, 2013). "Sirius XM Names Jim Meyer Permanent CEO, Boosts Subs, Profit in First Quarter". The Hollywood Reporter.
  37. ^ a b Trefis Team (April 12, 2013). "Can Sirius XM Tune In Big Subscriber Growth This Year?". Forbes.
  38. ^ Bercovici, Jeff (April 3, 2012). "Sirius XM's Mel Karmazin: 'I'm One of the Most Underpaid Executives in the History of Executive Payment". Forbes. {{cite news}}: Italic or bold markup not allowed in: |work= (help)
  39. ^ Erskine, Daniel H. (2007-05-20). "Satellite Digital Audio Radio Searching for Novel Theories of Action". Rochester, NY. SSRN 987358. {{cite journal}}: Cite journal requires |journal= (help)

Further reading

  • Navis, Chad & Glynn, Mary Ann (2010). "How new market categories emerge: Temporal dynamics of legitimacy, identity, and entrepreneurship in satellite radio, 1990–2005". Administrative Science Quarterly. 55 (3): 439–471. doi:10.2189/asqu.2010.55.3.439.{{cite journal}}: CS1 maint: multiple names: authors list (link)