S-Video
A standard
4-pin S-Video cable connector, with each signal pin paired with its own ground
pin.
Type Analog video connector
General
specifications
Hot
pluggable Yes
External Yes
Video signal NTSC, PAL, or SECAM video
Pins 4, 7, or 9
Connector Mini-DIN connector
Pin out
Looking at
the female connector
Pin 1 GND Ground
(Y)
Pin 2 GND Ground
(C)
Pin 3 Y Intensity
(Luminance)
Pin 4 C Color
(Chrominance)
The shells should
be connected together by an overall screen/shield. However, the shield is often
absent in low-end cables, which can result in picture degradation.
Separate
Video,[1] commonly termed S-Video, Super-Video andY/C, is a signaling standard
for standard definition video, typically480i or 576i. By separating the
black-and-white and coloring signals, it achieves better image quality than
composite video, but has lower color resolution than component video.
Contents
1 Signal
2 Use
3 Physical connectors
3.1 Non-4-pin variants
3.1.1 7-pin mini-DIN
4 Gallery
5 See also
6 Notes
7 References
Signal
The S-video
cable carries video using two synchronized signal and ground pairs, termed Y
and C.
Y is the
luma signal, which carries the luminance - or black-and-white - of the picture,
including synchronization pulses.
C is the
chroma signal, which carries the chrominance - or coloring-in - of the picture.
This signal contains both the saturation and the hue of the video.
The
luminance signal carries horizontal and vertical sync pulses in the same way as
a composite video signal. Luma is a signal carrying luminance after gamma
correction, and is therefore termed "Y" because of the similarity to
the lower-case Greek letter gamma.
In composite
video, the signals co-exist on different frequencies. To achieve this, the
luminance signal must be low-pass filtered, dulling the image. As S-Video
maintains the two as separate signals, such detrimental low-pass filtering for
luminance is unnecessary, although the chrominance signal still has limited
bandwidth relative to component video.
Compared
with component video, which carries the identical luminance signal but
separates the color-difference signals into Cb/Pb and Cr/Pr, the color
resolution of S-Video is limited by the modulation on a subcarrier frequency of
3.57 to 4.43 Megahertz, depending on the standard. It is worth noting that this
difference is meaningless on consumer videotape systems, as the chrominance is
already severely constrained by both VHS and Betamax.
Carrying the
color information as one signal means that the color has to be encoded in some
way, typically in accord with NTSC, PAL, or SECAM, depending on the applicable
local standard.
Also, S-Video
suffers from low color resolution. NTSC S-Video color resolution is typically
120 lines horizontal (approximately 160 pixels edge-to-edge),[citation needed]
versus 250 lines horizontal for the Rec. 601-encoded signal of a DVD, or 30
lines horizontal for standard VCRs.
Use
In many
European Union countries, S-Video is less common because of the dominance of
SCART, usually fitted to every TV. It is not usual to find S-Video outputs on
video equipment, although the player may output S-Video over SCART, but even
then the TV may not be compatible with S-Video wired this way, and as such it
would just show a monochrome image.[2] In this case it is sometimes possible to
modify the SCART adapter cable to make it work.
In PAL
territories, games consoles usually do not output S-Video, and although the
majority of TVs featured SCART sockets, no console ever came with an RGB SCART
cable packed in (it had to be purchased separately) generally coming with RF
adapters at first, and the equally uncommon composite video using the classic
RCA type video jack. Sony's game systems were provided with a composite to
scart adapter which just like VHS, only outputs composite video over SCART,
(RGB cables had to be purchased separately). In the US and some other NTSC
countries, S-Video was provided but no RGB. In Japan instead a special type of
RGB cable similar to SCART in the looks, but with different pin out, was often
available (Sony's games systems also had a special RGB cable available to
connect the systems to selected Sony TVs). The Nintendo 64 was a special case –
NTSC models could output S-Video, but only with modification they would output
RGB. PAL Nintendo 64 models could output S-Video but not RGB, despite that
being the easiest way to connect if done via SCART.
Physical
connectors
The four-pin
mini-DIN connector is the most common of several S-Video connector types. Other
connector variants include seven-pin locking "dub" connectors used on
many professional S-VHS machines, and dual "Y" and "C" BNC
connectors, often used for S-Video patch panels. Early Y/C video monitors often
used phono (RCA connector) that were switchable between Y/C and composite video
input. Though the connectors are different, the Y/C signals for all types are
compatible.
JVC
introduced the DIN-connector as both an S-VHS connector[3] and as Super
Video.[4]
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 the pin breaking off.
Non-4-pin
variants
These plugs
are usually made to be plug-compatible with S-video, and include optional
features, such as component video using an adapter. They are not necessarily
S-video, although they can be operated in that mode.
7-pin
mini-DIN
Non-standard
7-pin mini-DIN connectors (termed "7P") are used in some computer
equipment (PCs and Macs). A 7-pin socket accepts, and is pin compatible, with a
standard 4-pin S-Video plug.[5] The three extra sockets may be used to supply
composite (CVBS), an RGB or YPbPr video signal, or an I²C interface. Thepinout
usage varies among manufacturers.[5][6] In some implementations, the remaining
pin must be grounded to enable the composite output or disable the S-Video
output.
Some Dell
laptops have a digital audio output in a 7-pin socket.[7]
9-pin Video
In/Video Out
9-pin
connectors are used in graphics systems that feature the ability to input video
as well as output it.[8][9] Again, there is no standardization between
manufacturers as to which pin does what, and there are two known variants of
the connector in use. As can be seen from the diagram above, although the
S-Video signals are available on the corresponding pins, neither variant of the
connector will accept an unmodified 4-pin S-Video plug, though they can be made
to fit by removing the key from the plug. In the latter case, it becomes all
too easy to misalign the plug when inserting it with consequent damage to the
small pins.
See also
• Audio and video connector
• RF connector
• Composite monitor
• List of video connectors
• Video In Video Out (VIVO)
No comments:
Post a Comment