S-Video

S-Video

Infobox connector
name=S-Video
type=Analog video connector


logo=
caption=A standard 4-pin S-Video cable connector, with each signal pin paired with its own ground pin.
designer=
design_date=
manufacturer=
production_date=
superseded=
superseded_by=
superseded_by_date=
external=yes
hotplug=yes
length=
width=
height=
electrical=
ground=
maximum_voltage=
maximum_current=
audio_signal=
video_signal=NTSC, PAL or SECAM video
data_signal=
data_bit_width=
data_bandwidth=
data_devices=
data_style=
cable=
physical_connector=Mini-DIN connector
num_pins=4 or 7
pinout_col1_name=
pinout_col2_name=
pinout_

pinout_caption= Female Connector
pin1=Ground (Y)
pin1_name=GND
pin2=Ground (C)
pin2_name=GND
pin3=Intensity (Luminance)
pin3_name=Y
pin4=Colour (Chrominance)
pin4_name=C
pinout_notes=

Super Video or Separated Video abbreviated S-Video [ [http://www.webopedia.com/TERM/S/S_Video.html What is S-Video?] Webopedia.com] and also known as Y/C is an analog video signal that carries the video data as two separate signals, "luma" (luminance) and "chroma" (colour), unlike composite video which carries picture information as a single lower-quality signal, or component video which carries picture information as three separate higher-quality signals — typically "luma" and two "chroma" components. S-Video, as most commonly implemented, carries 480i or 576i resolution video, i.e., standard definition video, but does not carry audio on the same cable.

The 4-pin mini-DIN connector (shown at right) is the most common of several S-Video connector types. Other S-Video connector variants include 7-pin locking "dub" connectors used on many professional S-VHS machines, and dual "Y" and "C" BNC connectors, often used for S-Video patch bays. Early Y/C video monitors often used RCA connectors that were switchable between Y/C and composite video input. Though the connectors are different, the Y/C signals for all types are compatible.

Overview

The luminance (Y; gray-scale) signal and modulated chrominance (C; colour) information are carried on separate synchronised signal and ground pairs.

In composite video, the luminance signal is low-pass filtered to prevent crosstalk between high-frequency luminance information and the colour sub-carrier. S-Video separates the two, and detrimental low-pass filtering is unnecessary. This increases bandwidth for the luminance information, and also subdues the colour crosstalk problem. The infamous dot crawl is eliminated. This means that S-Video leaves more information from the original video intact; thus, it offers an improved image reproduction compared to composite video.

Due to the separation of the video into brightness and colour components, S-Video is sometimes considered a type of component video signal; however, it is also the poorest quality-wise, being far surpassed by the more complex component video schemes (like RGB). What differentiates S-Video from these higher component video schemes is that S-Video carries the colour information as one signal. This means that the colour has to be encoded in some way, and as such, NTSC, PAL and SECAM signals are all decidedly different through S-Video. Thus, for full compatibility, the used devices not only have to be S-Video compatible but also compatible in terms of colour encoding. In addition, S-Video suffers from reduced colour resolution. NTSC S-Video colour resolution is typically 120 lines horizontal (approximately 160 pixels edge-to-edge), versus 250 lines horizontal for a DVD-encoded signal, or 30 lines horizontal for standard VCRs.

To summarize (for PAL formats substitute 576 pixels instead of 486 pixels):
*RF modulating to channel 3 or 4 leads to interference from other electronics, in addition to modulation noise and distortion
*Compositing chroma/luma leads to blurry and low-resolution (approximately 420×486 pixels edge-to-edge) due to C/Y crosstalk
*S-Video leads to sharp images (approximately 700×486 pixels edge-to-edge when using a clean DVD source)

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. The S-video connection transparently supports this operation. The S-Video connection also has general provision for widescreen signaling through a DC offset applied to the chrominance signal; however, this is a more recent development, and is not widely supported.

History

Although being present in professional market since early 80s, the S-Video cable standard was introduced in home consumer market with the release of S-VHS by JVC in 1987. JVC claimed that only with S-Video cables the new standard can play with its full potential, despite the cable not bundled in early S-VHS VCRs releases due to low penetration TVs with S-Video ports. The S-VHS format never obtained mainstream success although it has been adopted in the Home Theater segment.

In the late 90s bigger TVs (> 25") started releasing the S-Video port as default bringing other devices supporting it such as Videocassette recorders, DVD players, Satellite receivers, Video game consoles and computer Video cards. The format gained some popularity in early 2000s. With the introduction of the Component video the S-Video began to be abandoned by the Home Video market but is still a default in modern video devices as a better alternative to Composite video in older TVs, and to output the video signal from a computer or notebook to a TV.

There is some controversy around what the S letter means. JVC named "Super Video" in accordance to "Super VHS". Others manufacturers named "Separated Video" and some others referred to the format as "S-VHS cable".

Connector

An S-Video signal is generally connected using a cable with 4-pin mini-DIN connectors using a 75 ohm characteristic impedance. Apart from the impedance requirement, these cables are equivalent to regular mini-DIN cables (like Apple's ADB); these cables can be used for S-Video transfer if no other cable is available, but picture quality may not be as good. Due to the wide use of S-Video connections for DVD players, S-Video cables are fairly inexpensive compared to component or digital connector cables, and are routinely available in places where the higher-bandwidth cables are not.

The mini-DIN pins, being weak, sometimes bend. This can result in the loss of colour, or other corruption (or loss) in the signal. A bent pin can be forced back into shape, but this carries the risk of further damage, or even the pin breaking off.

Before the mini-DIN plug became standard, S-Video signals were often carried through different types of plugs. For example, the Commodore 64 home computer of the 1980s, one of the first widely available devices to feature S-Video output, used an 8-pin DIN connector on the computer end and a pair of RCA plugs on the monitor end. (Also available via third-party vendors is an 8-pin DIN to 4-pin mini-DIN to connect the Commodore directly to a television.) The S-Video connector is the most common video-out connector on laptop computers, however many devices with S-Video outputs also have composite outputs.

The Atari 800 home computer featured S-Video outputs three years before the Commodore 64, in 1979, via a 5-pin DIN plug. Both S-Video and audio (mono or stereo) signals can be transferred through SCART connections as well. However, it was not part of the original SCART standard, and not every SCART-compatible device supports it for this reason. Also, S-Video and RGB are mutually exclusive through SCART, due to the S-Video implementation using the pins allocated for RGB. Most SCART-equipped televisions or VCRs (and almost all of the older ones) do not actually support S-Video, resulting in a monochrome picture if such a connection is attempted, as only the luminance signal portion is usable. Generally, a monochrome picture in itself can also be a sign of incompatible color encoding — for example NTSC material viewed through a PAL-only device.

Another incompatibility due to S-Video not being part of the original SCART standard is when connecting a SCART output device such as a cable TV box to a TV with a mini-DIN S-Video input. In many cases if this connection is made the result will be a predominantly black and white picture with most of the color (chrominance signal) washed out. An example of this is when connecting a SCART output of a FOXTEL Digital Box (Australia) to a mini-DIN S-Video input of a TV. An impedance mismatch between the SCART and mini-DIN interfaces causes the signal levels to be reduced to the TV resulting in the poor picture. This problem can be overcome by terminating the chrominance line of the SCART plug with a 75 ohm resistor correcting the mismatch. Many high end sets do support this connection however (without the termination), due to their inputs having a larger dynamic range.

pecifications

General

* The 4-pin mini-DIN connectors are common on TVs, VCRs, and DVD players. Pinout mapping information can be found [http://www.tkk.fi/Misc/Electronics/circuits/svideo2cvideo.html here]

7 pin mini-DIN

"(plug or male connector shown, as visible when unplugged; female sockets appear left-right reversed)"
* Non-standard 7-pin mini-DIN connectors are used on laptops and video cards. The 7-pin socket accepts the 4-pin plug (unlike the standard 7-pin socket) and the S-video signals are available on the matching pins. When a 7-pin plug is inserted, one of the extra pins carries a CVBS composite video signal for non S-video displays.
* Some graphics cards require the remaining two pins to be shorted together to enable the CVBS mode. Many newer cards (especially those with inputs and outputs) will also require the 7+ pin connector and will not take the s-video cable directly. The 7-pin plug has a longer locating lug making it difficult (but not impossible) to insert it in a 4-pin socket. Damage to the plug and socket is inevitable if the plug is forced into the socket.
* A 7-pin connector can also transmit YPbPr or RGB component video, though the outputs are usually 3 RCA jacks for YPbPr and 5 BNC connectors or SCART for RGB. Such cables are often provided with video cards. Another type of Y/C signal is to be found on the Sony U-Matic series with a 7-pin connector.

9 pin Video In Video Out

* Two variations of the 9-pin din connector are used by video cards with Video In Video Out (VIVO) capability. Pinout mapping information for the first version can be found [http://babelfish.altavista.com/babelfish/trurl_pagecontent?lp=fr_en&url=http%3A%2F%2Fwww.zebulon.fr%2Fbidouilles%2Fvivo.php here] .

Other

S-video uses 2 parallel monochrome composite video signals to represent the chroma and luma subcarriers respectively.

Usage

S-Video is commonly used throughout the world. It is found on consumer TVs, DVD players, high-end video cassette recorders, Digital TV receivers, DVRs, and game consoles. Almost all TV-out connectors on graphics cards can support S-Video.

S-Video cables are used for computer-to-TV output for business or home usage. Because it is very simple to convert S-Video to composite signal (just the logical merging of the two through a filter capacitor is required), many electronics retailers offer converter adaptors for signal conversion. Conversion will not improve image quality, but will allow connecting to otherwise-incompatible devices. Converting composite signal to S-Video is harder, because once Luminance and Color are merged it is hard to separate them while minimizing loss.

Due to a lack of bandwidth, S-Video connections are generally not considered suitable for high-definition video signals. As a result, HD sources are generally connected to a monitor by way of analog component video or wideband digital methods (usually HDMI or DVI). However, on the older monitors with S-Video but without HDMI and DVI, some graphics cards have full display (including bootup display) with HDMI, DVI and S-Video and partial full display (displaying only after the OS boots up) with component and composite. So in this case, a good connection will be the S-Video connection as it allows the user to see the display in the event that they need to adjust settings in the CMOS.

The situation with VCRs is a bit unusual: the common S-Video connector was designed for Super VHS and Hi8 VCRs as a high-bandwidth video connection, and has been used for the same purpose on a great number of other consumer devices, coming into greatest prominence with the rise of the DVD format. Many digital, and all Hi-8, and S-VHS-C camcorders support S-Video out as well. Standard VHS VCRs do not put out a high enough resolution signal to saturate an S-Video connection, and therefore most such units, even those in combination units with DVD players (which commonly use S-Video or component outputs), require the output from the VHS deck to go through a composite video or RF connection.

ee also

* Audio and video connector
* S-VHS
* RCA connector
* RF connector
* S-video monitor
* mini-DIN connector
* List of display interfaces
* Video In Video Out (VIVO)

References


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