Talk:Television: Difference between revisions
imported>Russell Potter |
imported>Russell Potter (Broadcast development (commented out to here)) |
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I've extensively rewritten and expanded [[History of television]], so this section here is now redundant; I would suggest this article survey television at a broader level, and not repeat what's discussed much more fully elsewhere. [[User:Russell Potter|Russell Potter]] 06:34, 19 June 2007 (CDT) | I've extensively rewritten and expanded [[History of television]], so this section here is now redundant; I would suggest this article survey television at a broader level, and not repeat what's discussed much more fully elsewhere. [[User:Russell Potter|Russell Potter]] 06:34, 19 June 2007 (CDT) | ||
== Broadcast development (commented out to here) == | |||
==Broadcasting development== | |||
{{main|History of television}} | |||
In Britain, [[John Logie Baird]] demonstrated the first practical television on 26 January 1926 at his laboratory in London, and built a complete experimental broadcast system around his technology. The [[British Broadcasting Company|BBC]] transmitted regular broadcasts using Baird's 30-line mechanical-electronic system from 1930 through 1934. Work toward a higher-definition system developed along parallel lines, with Baird's eventually switching to a hybrid 240-line mechanical-electronic system, which employed scanned film as an intermediate step, while EMI-Marconi offered its 405-line "System A", which used [[Vladimir Zworykin]]'s all-electronic setup. Beginning in November of 1936,the [[British Broadcasting Company|BBC]] alternated between the Baird and EMI systems, but the Baird system tests were ended after four months. The start of the Second World War resulted in the suspension of the BBC service beginning September 1, 1939, and it was not resumed until June 7, 1946. | |||
In the [[United States]], various mechanical systems were employed in the early years, but none achieved an effective standard as had Baird's in the United Kingdom. Electronic television systems relied on the inventions of [[Philo T. Farnsworth]], Vladimir Zworykin and others to produce a system suitable for mass distribution of television programming. Farnsworth gave the world's first public demonstration of an all-electronic television system at the [[Franklin Institute]] in [[Philadelphia]] on 25 August 1934. All modern analog television systems derive directly from Farnsworth's model. | |||
[[Radio Corporation of America|RCA]], using Zworykin's patents, achieved some success, but was eventually forced in court to license the Farnsworth patents as they contained elements of "prior art." These patents, however, expired not long after broadcasts recommenced in the United States in 1945, and RCA soon dominated the market. Unlike the system in the UK, which relied upon licensing fees for receiving sets, Television in the US depended, as had radio before it, on corporate sponsorship via advertising, with the result that broadcast networks, such as CBS, NBC, and later ABC, dominated programming in "prime time," with local affiliates supplying a percentage of locally-sponsored and originated material in individual markets. |
Revision as of 07:33, 19 June 2007
Workgroup category or categories | Engineering Workgroup, Media Workgroup [Categories OK] |
Article status | Developing article: beyond a stub, but incomplete |
Underlinked article? | No |
Basic cleanup done? | Yes |
Checklist last edited by | Bruce M.Tindall |
To learn how to fill out this checklist, please see CZ:The Article Checklist.
Propose we delete "Broadcasting development" section
I've extensively rewritten and expanded History of television, so this section here is now redundant; I would suggest this article survey television at a broader level, and not repeat what's discussed much more fully elsewhere. Russell Potter 06:34, 19 June 2007 (CDT)
Broadcast development (commented out to here)
Broadcasting development
In Britain, John Logie Baird demonstrated the first practical television on 26 January 1926 at his laboratory in London, and built a complete experimental broadcast system around his technology. The BBC transmitted regular broadcasts using Baird's 30-line mechanical-electronic system from 1930 through 1934. Work toward a higher-definition system developed along parallel lines, with Baird's eventually switching to a hybrid 240-line mechanical-electronic system, which employed scanned film as an intermediate step, while EMI-Marconi offered its 405-line "System A", which used Vladimir Zworykin's all-electronic setup. Beginning in November of 1936,the BBC alternated between the Baird and EMI systems, but the Baird system tests were ended after four months. The start of the Second World War resulted in the suspension of the BBC service beginning September 1, 1939, and it was not resumed until June 7, 1946.
In the United States, various mechanical systems were employed in the early years, but none achieved an effective standard as had Baird's in the United Kingdom. Electronic television systems relied on the inventions of Philo T. Farnsworth, Vladimir Zworykin and others to produce a system suitable for mass distribution of television programming. Farnsworth gave the world's first public demonstration of an all-electronic television system at the Franklin Institute in Philadelphia on 25 August 1934. All modern analog television systems derive directly from Farnsworth's model.
RCA, using Zworykin's patents, achieved some success, but was eventually forced in court to license the Farnsworth patents as they contained elements of "prior art." These patents, however, expired not long after broadcasts recommenced in the United States in 1945, and RCA soon dominated the market. Unlike the system in the UK, which relied upon licensing fees for receiving sets, Television in the US depended, as had radio before it, on corporate sponsorship via advertising, with the result that broadcast networks, such as CBS, NBC, and later ABC, dominated programming in "prime time," with local affiliates supplying a percentage of locally-sponsored and originated material in individual markets.
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