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The National Television System Committee, NTSC, standard was the analog television system that was used in most of the Americas from 1941 until the mandatory cutover to ATSC in 2009. However, low-power TV stations are still permitted to operate with NTSC, for now, but many have since converted to ATSC. The ''Second NTSC Standard'' (525/30, 1941 and later) anticipated that the extant monochrome TV system would eventually incorporate a provision for monochrome-compatible color television. The ''First NTSC Standard'' (441/30, pre-1941) had no such expectation, as even the extant motion picture 3-color system, "Three-Strip" Technicolor, was then only five years old. The ''Second NTSC Standard'', as revised for color, sometimes called ''EIA RS-170a'', was operational in North America and elsewhere from 1953 until this standard was replaced by ATSC in the early 21st century. Central to this revised standard was a mandate for an information stream, at the transmitter, and broadcast to TV sets (receivers), which was independent of whether the signal was monochrome (already in existence since 1941) or color (adopted in 1953). This significant mandate was satisfied by an encoding device which came to be known as a Colorplexer. Colorplexer (a portmanteau of "color" and "multiplexer") was the RCA trade name for its complex electronic device which encoded discrete red, green and blue 3-color images, as from a color camera, into a composite monochrome-compatible color information stream. In RCA's recommendation for monochrome-compatible color TV, generally called "NTSC color", each color TV source (as, from a CCU) incorporated its own colorplexer, thereby providing the remaining equipment, all of which was presumed to have originated as a monochrome equipment system, with a signal which could be managed (received, switched, transmitted, etcetera) as if the signal was not color at all, but was an ordinary composite monochrome signal. This was a strategic decision on RCA's part, and this "one Colorplexer per color source" concept became part of RCA's color TV equipment marketing recommendations. While it made each color source significantly more complicated, hence more expensive, it also obviated the need for major changes to a TV station's signal management system, and the cost of signal management (particularly for networks involving widely separated sources and destinations, such as RCA's wholly owned NBC-TV network) was seen as considerably higher in cost than the color signal sources themselves, as otherwise it would have had to be changed from a (composite) Y-only management system into a (component) R-, G- and B-management system (thereby effectively tripling the cost of color signal distribution). Using today's three-phase electrical system in an analogy, imposing an R-, G- and B-color TV signal management system on an existing monochrome TV signal management system would be analogous to requiring public power users to convert from three-phase to nine-phase electricity, an insurmountable cost penalty. The ''Second NTSC Standard'' did not specifically mandate RCA's "one Colorplexer per color source" recommendation, as long as the signal actually transmitted to the signal's ''end user'' was monochrome-compatible, and this could have been satisfied by an R, G and B signal management system, and a single Colorplexer at the transmitter, and this would have been adequate for small-market TV stations, particularly those with video sources which were co-located at the station's transmitter site. However, the obvious high cost of R-, G- and B-signal management within a large-market TV station, with separate studio and transmitter sites (sources and destinations separated by perhaps one to tens of miles), or particularly within a TV network, with geographically widely separated sources and destinations (sources and destinations separated by perhaps hundreds to thousands of miles), resulted in adoption of RCA's "one Colorplexer per color source" recommendation almost universally, and ''particularly'' after Ampex's introduction of color videotape in 1958 (which was ''never'' component color at all, but was ''always'' inherently composite color), and Ampex's (and, later, RCA's) color videotape systems became ''essential'' subsystems of multi-time-zone (national, or, indeed, international) network color TV distribution and transmission. Initially, the instability of the early Colorplexers caused many operational problems as no two Colorplexers were adjusted alike, and these had to be constantly "tweaked", as did the video sources themselves. Eventually, Colorplexer stability improved, as did the stability of the video sources, and NTSC color would go on to provide consistently good color, and it did so until 2009, nearly 56 years, a remarkable technological achievement, as, compared with "Three-Strip" Technicolor, perhaps the "exemplar" for color motion pictures, which lasted only 19 years (from 1936 to 1955). ==Generation== The R, G and B primary color signals are passed through a "matrix" to derive the luminance signal, Y, which is the monochrome equivalent of the three primary colors. With the addition of inputs from the synchronizing generator, which supplies the blanking and composite synch signals, and inputs from the color burst generator, which supplies the 3.579545 MHz color burst and the "burst gate" signals, the colorplexer, using an "encoder", synthesizes a compatible signal which includes luminance (described earlier) and chrominance (an amplitude-modulated suppressed-carrier signal with "I" and "Q" in quadrature, and which represents the differences between the color signal and the monochrome signal), the combination of which produces a monochrome-compatible color information stream. The "burst gate" admits eight cycles of the 3.579545 MHz "color burst" and applies this to the "back porch" of each horizontal synch pulse (the vertical synch is unaffected). These eight cycles are just enough to supply a color TV receiver with a reference with which it can correct its own 3.579545 MHz local oscillator as to frequency and phase, phase being the most significant aspect of the process of recovering the "I" and "Q" signals. The "matrix" adopted by RCA was Y = 0.30R + 0.59G + 0.11B; the three weighing factors were selected such that their sum was 1.0. As with "prior art" two-color systems, such as pre-1932 Technicolor, the G signal predominates the R signal; and, as with "prior art" three-color systems, such as 1932 and later "Three-Strip" Technicolor, the G and R signals predominate the B signal. RCA's color system was developed while "Three-Strip" Technicolor was the "gold standard", and Eastman Kodak's Eastmancolor would not completely displace "Three-Strip" Technicolor for another half-decade. Indeed, RCA's P22 CRT phosphor was intended to mimic Technicolor's dramatic color palette. In most practical color systems, including RCA's, the G signal is taken to be the reference as it has the highest in resolution. Indeed, in 1932 to 1944 "Three-Strip" Technicolor, the image was enhanced by printing a monochrome image which was taken from a 0.5G negative (called the "key" image, and hence that color system was really an RGBK system, not unlike graphic arts' YCMK system) on the film's "blank receiver" before the color dyes were applied, as an edge enhancement measure. Edge enhancement is now a part of many electronically based color systems, but in "Three-Strip" Technicolor's day, it was accomplished photographically from the G image, the sharpest of the three. 抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)』 ■ウィキペディアで「colorplexer」の詳細全文を読む スポンサード リンク
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