Editing Component video

{{Short description|Video signal that has been split into component channels}}
{{About|analog component video|the processing of color components in digital video|Digital video|and|Chroma subsampling|and|YCbCr}}
{{Distinguish|Composite video}}
{{More citations needed|date=October 2024}}
[[File:Component-cables.jpg|thumb|Three cables, each with [[RCA connector|RCA plug]]s at both ends, are often used to carry [[YPbPr]] analog component video.]]

'''Component video''' is an [[analog video]] signal that has been split into two or more component channels. In popular use, it refers to a type of component analog video (CAV) information that is [[Transmission (telecommunications)|transmitted]] or stored as three separate signals. Component video can be contrasted with ''[[composite video]]'' in which all the video information is combined into a single signal that is used in [[analog television]]. Like composite, component cables do not carry [[Audio signal|audio]] and are often paired with [[audio cables]].

When used without any other qualifications, the term ''component video'' usually refers to analog [[YPbPr|{{YPbPr}}]] component video with sync on luma (Y) found on analog [[high-definition television]]s and associated equipment from the 1990s through the 2000s when they were largely replaced with [[HDMI]] and other all-digital standards. Component video cables and their [[RCA jack]] connectors on equipment are normally color-coded red, green and blue, although the signal is not in [[RGB]]. YPbPr component video can be losslessly converted to the RGB signal that internally drives the monitor; the encoding is useful as the Y signal will also work on black and white monitors.

==Analog component video==
Reproducing a video signal on a display device (for example, a [[cathode-ray tube]]; CRT) is a straightforward process complicated by the multitude of signal sources. [[DVD]], [[VHS]], computers and video game consoles all store, process and transmit video signals using different methods, and often each will provide more than one signal option. One way of maintaining signal clarity is by separating the components of a video signal so that they do not interfere with each other. A signal separated in this way is called "component video". [[S-Video]], [[RGB color model#Video electronics|RGB]] and [[YPbPr|{{YPbPr}}]] signals comprise two or more separate signals and thus are all component-video signals. For most consumer-level video applications, the common three-cable system using BNC or RCA connectors [[Analog (circuit)|analog]] component video was used.  Typical formats are [[480i]] (480 lines visible, 525 full for NTSC) and [[576i]] (576 lines visible, 625 full for PAL).  For [[Computer display standard|personal computer displays]] the 15-pin DIN connector (IBM VGA) provided screen resolutions including 640×480, 800×600, 1024×768, 1152×864, 1280×1024.

===RGB analog component video===
[[File:Vga-cable.jpg|thumb|A 15-pin [[VGA connector]] for a personal computer]]
[[File:SCART 20050724 002.jpg|thumb|A 21-pin [[SCART]] or JP21 connector for a television]]

The various RGB (red, green, blue) analog component video standards (e.g., RGBS, RGBHV, RGsB) use no compression and impose no real limit on [[color depth]] or resolution, but require large [[Bandwidth (signal processing)|bandwidth]] to carry the signal and contain a lot of [[information theory|redundant data]] since each channel typically includes much of the same black-and-white image. Early personal computers such as the [[IBM PS/2]] offered this signal via a [[VGA port]]. Many televisions, especially in Europe, can utilize RGB via the [[SCART]] connector.{{Citation needed|date=October 2024}}

In addition to the red, green and blue color signals, RGB requires two additional signals to synchronize the video display. Several methods are used: 
* Composite sync, where the horizontal and vertical signals are mixed together on a separate wire (the S in RGBS)
* Separate sync, where the horizontal and vertical are each on their own wire (the H and V in RGBHV; also the acronym HD/VD, meaning ''horizontal deflection/vertical deflection'', is used)
* Sync on green, where a composite sync signal is overlaid on the wire used to transport the green signal (SoG, Sync on G, or RGsB).
* Sync on red or sync on blue, where a composite sync signal is overlaid on either the red or blue wire
* Sync on composite (not to be confused with composite sync), where the signal normally used for composite video is used alongside the RGB signal only for the purposes of sync.
* Sync on luma, where the Y signal from S-Video is used alongside the RGB signal only for the purposes of sync.

Composite sync is common in the European SCART connection scheme (using pins 17 [ground] and 19 [composite-out] or 20 [composite-in]). RGBS requires four wires – red, green, blue and sync. If separate cables are used, the sync cable is usually colored yellow (as is the standard for composite video) or white.

Separate sync is most common with [[VGA]], used worldwide for analog [[computer monitor]]s. This is sometimes known as RGBHV, as the horizontal and [[Analog television#Vertical_synchronization|vertical synchronization]] pulses are sent in separate channels. This mode requires five conductors. If separate cables are used, the sync lines are usually yellow (H) and white (V), yellow (H) and black (V), or gray (H) and black (V).

[[Component video sync|Sync on Green]] (SoG) is less common, and while some VGA monitors support it, most do not. [[Sony]] is a big proponent of SoG, and most of their monitors (and their [[PlayStation]] line of video game consoles) use it. Like devices that use composite video or S-video, SoG devices require additional circuitry to remove the sync signal from the green line. A monitor that is not equipped to handle SoG will display an image with an extreme green tint, if any image at all, when given a SoG input.

Sync on red and sync on blue are even rarer than sync on green and are typically used only in certain specialized equipment.

Sync on composite, not to be confused with composite sync, is commonly used on devices that output both composite video and RGB over SCART. The RGB signal is used for color information, while the composite video signal is only used to extract the sync information. This is generally an inferior sync method, as this often causes checkerboards to appear on an image, but the image quality is still much sharper than standalone composite video.

Sync on luma is much similar to sync on composite but uses the Y signal from S-Video instead of a composite video signal. This is sometimes used on SCART since both composite video and S-Video luma ride along the same pins. This generally does not suffer from the same checkerboard issue as sync on composite, and is generally acceptable on devices that do not feature composite sync, such as the Sony PlayStation and some modded Nintendo 64 models.

===Luma-based analog component video===
{{Main|YPbPr|l1={{YPbPr}}|S-Video}}
[[File:Component video jack.jpg|thumb|{{YPbPr}} component video out on a consumer electronics device, a Sony DVD player]]

Further types of component analog video signals do not use separate red, green and blue components but rather a colorless component, termed [[luma (video)|luma]], which provides brightness information (as in black-and-white video). This combines with one or more color-carrying components, termed [[Chrominance|chroma]], that give only color information. Both the [[S-Video]] component video output (two separate signals) and the [[YPbPr|{{YPbPr}}]] component video output (three separate signals) seen on DVD players are examples of this method.

Converting video into luma and chroma allows for [[chroma subsampling]], a method used by [[JPEG]] and [[MPEG]] compression schemes to reduce the storage requirements for images and video (respectively).

Many consumer TVs, DVD players, monitors, video projectors and other video devices at one time used {{YPbPr}} output or input.

When used for connecting a video source to a video display where both support 4:3 and 16:9 display formats, the PAL television standard provides for signaling pulses that will automatically switch the display from one format to the other.

====Connectors used====
* [[D-Terminal]]: Used mostly on Japanese electronics.
* Three [[BNC connector|BNC]] (professional) or [[RCA connector]]s ([[consumer electronics|consumer]]): Typically colored green (Y), blue (P<sub>B</sub>) and red (P<sub>R</sub>).
* [[SCART]] used in Europe.
* [[Video-in video-out]] (VIVO): [[Mini-DIN#9-pin 2|9-pin Mini-DIN]]-connectors called "TV Out" in [[Video card|computer video cards]], which usually include an adaptor for component RCA, [[Composite video|composite]] RCA and 4-pin [[S-Video]]-[[Mini-DIN]].

==Synchronization==
Component video requires an extra [[Sync pulse|synchronization signal]] to be sent along with the video. '''Component video sync''' signals can be sent in several different ways:

; Separate sync 
: Uses separate wires for horizontal and vertical synchronization. When used in RGB (i.e. [[VGA]]) connections, five separate signals are sent (red, green, blue, horizontal sync, and vertical sync).
; Composite sync 
: Combines horizontal and vertical synchronization onto one wire. When used in RGB connections, only four separate signals are sent (red, green, blue, and composite sync).
; Sync-on-green (SOG) 
: Combines composite sync with the green signal in RGB. Only three signals are sent (red, green with sync, and blue). This synchronization system is used in, among other applications, many systems by [[Silicon Graphics]] and [[Sun Microsystems]] through a [[DB13W3]] connector.
; Sync-on-luminance 
: Similar to sync-on-green, but combines sync with the [[Luma (video)|luminance signal]] (Y) of a color system such as [[YPbPr]] and [[S-Video]]. This is the synchronization system normally used in [[home theater]] systems.
; Sync-on-composite 
: The connector carries a standard [[composite video]] signal along with the RGB components, for use with devices that cannot process RGB signals. For devices that do understand RGB, the sync component of that composite signal is used along with the color information from the RGB lines. This arrangement is found in the [[SCART]] connector in common use in Europe and some other [[PAL]]/[[SECAM]] areas.

==Digital component video==
[[Digital component video]] makes use of single cables with signal lines/connector pins dedicated to digital signals, transmitting digital color space values allowing higher resolutions up to [[1080p]].<ref>{{cite web |url=https://www.lifewire.com/shared-composite-component-video-input-connections-4103732 |title=What Shared Composite/Component Video Connections on TVs Mean for You |website=LifeWire.com |access-date=21 March 2018 }}</ref>

RGB component video has largely been replaced by modern digital formats, such as [[DisplayPort]] or [[Digital Visual Interface]] (DVI) digital connections, while home theater systems increasingly favor [[High-Definition Multimedia Interface]] (HDMI), which support higher resolutions,<ref>{{Cite web |title=HDMI 2.1a Specification Overview |url=https://www.hdmi.org/spec/hdmi2_1 |access-date=2023-08-04 |website=HDMI.org }}</ref> higher dynamic range, and can be made to support [[digital rights management]]. The demise of analog is largely due to screens moving to large flat digital panels as well as the desire for having a single cable for both audio and video, but also due to a slight loss of clarity when converting from a digital media source to analog and back again for a flat digital display, particularly when used at higher resolutions where analog signals are highly susceptible to noise.

==International standards==
Examples of international component video standards are:
* [[RS-170]] RGB (525 lines, based on [[NTSC]] timings, now [[Electronic Industries Alliance|EIA]]/TIA-343)
* [[RS-343]] RGB (525, 625 or 875 lines)
* [[STANAG 3350]] Analogue Video Standard ([[NATO]] military version of RS-343 RGB, now EIA-343A)
* CEA-770.3 High Definition TV Analog Component Video Interface [[Consumer Electronics Association]]

==''Component'' versus ''composite''==
In a composite signal, such as [[NTSC]], [[PAL]] or [[SECAM]], the [[luminance]], Brightness (Y) signal and the [[chrominance]], Color (C) signals are encoded together into one signal. When the color components are kept as separate signals, the video is called component analog video (CAV), which requires three separate signals: the luminance signal (Y) and the color difference signals (R-Y and B-Y).

Since component video does not undergo the encoding process, the color quality is noticeably better than composite video.<ref>{{cite web |title=Video Signal: Composite vs. Component |url=http://support.apple.com/kb/TA21585?viewlocale=en_US |work=Apple Support |date=3 October 2008 |access-date=25 April 2011 }}</ref>

Component video connectors are not unique in that the same connectors are used for several different standards; hence, making a component video connection often does not lead to a satisfactory video signal being transferred. Many DVD players and TVs may need to be set to indicate the type of input/output being used, and if set incorrectly the image may not be properly displayed.  [[Progressive scan]], for example, is often not enabled by default, even when component video output is selected.

==See also==
* [[Coaxial cable]]
* [[F connector]]
* [[List of video connectors]]

==References==
{{Reflist}}

==Further reading==
* {{cite web |last=Poynton |first=Charles |date=November 28, 2006 |title=Color FAQ- Frequently Asked Questions about Color |url=http://www.poynton.com/ColorFAQ.html |access-date=2009-06-28}}

==External links==
* [http://www.raphnet.net/electronique/sync-on-green/sync-on-green_en.php VGA to Sync-On-Green adapter] – circuit to convert [[VGA]] sync to sync-on-green

{{AVconn}}
{{Analogvideo}}
{{Audio and video interfaces and connectors}}

[[Category:Film and video technology]]
[[Category:High-definition television]]
[[Category:Television terminology]]
[[Category:Video signal]]
[[Category:Analog video connectors]]