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Overscan

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{{Main|wikipedia:Overscan}}'''Overscan''' is the term used to describe the situation when not all of a televised image is present on a viewing screen. It exists because [[television]] sets from the 1930s through the 1990s were highly variable in how the video image was positioned within the borders of the [[cathode ray tube]] (CRT) screen. The solution was to have the monitor show less than the full image i.e. with the edges "outside" the viewing area of the tube. In this way the image seen never showed black borders caused by either improper centering or non-linearity in the scanning circuits or variations in power supply voltage all of which could cause the image to "shrink" in size and reveal the edge of the picture. With the ending of CRT displays, this issue has largely (but not completely) disappeared.
==Origins==
Early analogue televisions varied in the displayed image because of manufacturing tolerance problems. There were also effects from the early design limitations of power supplies, whose DC voltage was not regulated as well as in later power supplies. This could cause the image size to change with normal variations in the AC line voltage, as well as a process called blooming, where the image size increased slightly when a brighter overall picture was displayed due to the increased electron beam current causing the CRT anode voltage to drop. Because of this, TV producers could not be certain where the visible edges of the image would be. In order to compensate, they defined three areas:<ref>{{cite web|last=Biggs |first=Billy |title=Overscan and broadcast television |url=http://scanline.ca/overscan/ |accessdate=2012-02-09 }}</ref>
* [[Title safe]]: An area visible by all reasonably maintained sets, where text was certain not to be cut off.* [[Title safe#Action safe area|Action safe]]: A larger area that represented where a "perfect" set (with high precision to allow less overscanning) would cut the image off.
* Underscan: The full image area to the electronic edge of the signal.
==Modern sets==
{{wide image|Effects of overscan on fixed-pixel displays.png|400px|The effects of overscan on fixed-pixel displays. <br/> <small>(View at full size to see the effects portrayed accurately.)</small>|300px|right}}Today's TV sets are based on newer fixed-pixel technology like [[liquid crystal display]]s displays (LCDs). As overscan reduces picture quality, it is undesirable for 1080i and 1080p sets;<ref>{{cite web|title='HD ready 1080p' License Agreement |url= http://www.digitaleurope.org/fileadmin/user_upload/document/HD_ready_1080p_1188470475.pdf |publisher=www.digitaleurope.org |archiveurl=http://web.archive.org/web/20110725235152/http://www.digitaleurope.org/fileadmin/user_upload/document/HD_ready_1080p_1188470475.pdf |archivedate=2011-07-25 |accessdate=2012-05-01 }}</ref> therefore, [[1:1 pixel mapping]] is preferred.<ref>{{cite web|url=https://web.archive.org/web/20121105194531/http://hd.engadget.com/2010/05/27/hd-101-overscan-and-why-all-tvs-do-it/ |title=HD 101: Overscan and why all TVs do it |first=Ben |last=Drawbaugh |date=2010-05-27 |publisher=engadget.com |accessdate=2012-05-01 }}</ref>
==In computers==
On LCDs driven from a digital signal, no adjustment is necessary because all pixels are in fixed positions. Thus all modern computers can safely assume that every last pixel is visible to the viewer. Analog video signals such as [[VGA]], however, are subject to timing variations and even when using an LCD panel do not have this exactness. When video or animation content is designed to be viewed on computers (for example, [[Adobe Flash|Flash]] movies), it is not necessary to keep critical content away from the edge.
CRTs made for computer display are set to underscan with an adjustable border, usually colored black.<ref>Some 1980s home computers could change the border color: for example, see [[Apple IIGS#Technical specifications]].</ref> The border will change size and shape if required to allow for the tolerance of low precision (although later models allow for precise calibration to minimise or eliminate the border). As such, computer CRTs use less physical screen area than TVs, to allow all information to be shown at all times.
Computer CRT monitors usually have a black border (unless they are fine-tuned by a user to minimize it)—these can be seen in the video card timings, which have more lines than are used by the desktop. When a computer CRT is advertised as 17-inch (16-inch viewable), it will have a diagonal inch of the tube covered by the plastic cabinet; this black border will occupy this missing inch (or more) when its geometry calibrations are set to default (LCDs with analog input need to deliberately identify and ignore this part of the signal, from all four sides).
{{Citation needed|date=February 2007}}
[[Video game]] [[Video game console|systems]] have been designed to keep important game action in the title safe area. Older systems did this with borders for example, the [[Super Nintendo emulators|Super Nintendo Entertainment System]] [[windowbox (film)|windowboxed]] the image with a black border, visible on some NTSC television sets and all PAL television sets. Newer systems frame content much as live action does, with the overscan area filled with extraneous details.<ref name="caminos">{{cite web|url= https://web.archive.org/web/20111219084409/http://www.gamasutra.com/gdc2004/features/20040326/caminos_01.shtml |title=GDC 2004: Cross-Platform User Interface Development |publisher=Gamasutra |year=2004 |accessdate=2012-02-09 }}</ref>
Within the wide diversity of home computers that arose during the 1980s and early 1990s, many machines such as the Sinclair [[Sinclair Research Ltd.ZX Spectrum emulators|Sinclair]] [[ZX Spectrum]] or [[Commodore 64 emulators|Commodore 64]] (C64) had borders around their screen, which worked as a frame for the display area. Some other computers such as the Commodore [[Commodore InternationalAmiga emulators|Commodore]] [[Amiga]] allowed the video signal timing to be changed to produce overscan. In the cases of the C64 and [[Atari ST emulators|Atari ST]] it has proved possible to remove apparently fixed borders with special coding tricks. This effect was called overscan or fullscreen within the [[16-bit]] Atari [[demoscene]] and allowed the development of a [[central processing unit|CPU]]-saving scrolling technique called sync-scrolling a bit later.
==Datacasting==
Analog TV overscan can also be used for [[datacasting]]. The simplest form of this is [[closed captioning]] and [[teletext]], both sent in the [[vertical blanking interval]] (VBI). [[Electronic program guide]]sguides, such as [[TV Guide On Screen]], are also sent in this manner. [[Microsoft]]'s HOS uses the horizontal overscan instead of the vertical to transmit low-speed [[program-associated data]] at 6.4 [[kbit/s]], which is slow enough to be recorded on a [[VCR]] without [[data corruption]].<ref>{{cite web|url=http://www.microsoft.com/about/legal/intellectualproperty/search/details.mspx?ip_id=IDAEQMXD&techType=&ipCat=Any&feeStructure=Any&keywords=&ipVenture=true |title=Microsoft Intellectual Property and Licensing |publisher=Microsoft.com |date=2011-10-27 |accessdate=2012-01-04}}</ref> In the [[United States|U.S.]], [[National Datacast]] used [[Public Broadcasting Service|PBS]] [[TV network|network]] stations for overscan and other datacasting, but they [[Digital television transition|migrated]] to [[digital TV]] due to the [[analog switchoff|digital television transition]] in 2009.
==Overscan amounts==
[[File:overscan examples.svg|thumb|500px|Illustration of Action Safe and Title Safe areas for 4:3 and 16:9 aspect ratios according to the BBC.]]
There is no hard technical specification for overscan amounts for the low definition formats. Some say 5%, some say 10%, and the figure can be doubled for title safe, which needs more margin compared to action safe. The overscan amounts are specified for the high definition formats as specified above.
Different video and [[broadcast television systems]] require differing amounts of overscan. Most figures serve as recommendations or typical summaries, as the nature of overscan is to overcome a variable limitation in older technologies such as [[cathode ray tube]]stubes.
However the [[European Broadcasting Union]] has safe area recommendations regarding Television Production for 16:9 Widescreen.<ref>{{cite web|url=http://tech.ebu.ch/docs/r/r095.pdf |title=Safe areas for 16:9 television production |publisher=EBU – Recommendation R95 |date=September 2008 |accessdate=2012-05-01}}</ref>
The official BBC suggestions<ref>{{cite web|url=http://www.bbc.co.uk/guidelines/dq/pdf/tv/tv_standards_london.pdf |title=BBC Technical Standards for Network Television Delivery |publisher=BBC |date=November 2009 |archiveurl=http://web.archive.org/web/20100331085936/http://www.bbc.co.uk/guidelines/dq/pdf/tv/tv_standards_london.pdf |archivedate=2010-03-11 |accessdate=2012-05-01 }}</ref> actually say 3.5% / 5% per side (see p21, p19). The following is a summary:
====720 vs. 702 or 704====
The sampling (digitising) of standard definition video was defined in [[Rec. 601]] in 1982. In this standard, the existing analogue video signals are sampled at 13.5&nbsp;MHz. Thus the number of ''active'' video pixels per line is equal to the sample rate multiplied by the active line duration (the part of each analogue video line which contains active video, i.e. does not contain sync pulses, blanking etc.).
* For 625-line 50&nbsp;Hz video (usually, though incorrectly, called "PAL"), the active line duration is 52 µs,<ref>{{cite web|author=brweb |url=http://www.itu.int/rec/R-REC-BT.470/e |title=ITU-R BT.470-6 |publisher=Itu.int |date=2000-05-01 |accessdate=2012-01-04}}</ref> giving 702 pixels per line.
* 625-line analogue video contains 575 active video lines<ref>ITU-R BT.470-6</ref> (this includes two half lines). When the half lines are rounded up to whole lines for ease of digital representation, this gives 576 lines, which is also the nearest mod(16) value to 575. To maintain the same picture aspect ratio, the number of active pixels could be increased to 703.2, which can be rounded up to 704.
* 525-line analogue video contains 485 active video lines<ref name="SMPTE 170M"/> (this include two half lines, though typically only 483 picture lines are present due to [[Closed Captions]] data taking up the first "active picture" line on each field). The nearest mod(16) value is 480. To maintain the same picture aspect ratio, the number of active pixels could be decreased to 706.2, which can be rounded down to 704 for mod(16).
The "standard" [[pixel aspect ratio]] data found in video editors, certain ITU standards, MPEG etc. is usually based on an approximation of the above, fudged to allow either 704 or 720 pixels to equate to the full 4x3 or 16x9 picture at the whim of the author.<ref>{{cite web|url=http://forum.doom9.org/showthread.php?p=1110419#post1110419 |author=facialz |title=Table of PAL PARs - DVD conversion |page=2 |publisher=Doom9's Forum |date=2008-03-09 |accessdate=2012-05-01}}</ref>
Although standards-compliant video processing software should never fill all 720 pixels with active picture (only the center 704 pixels must contain the actual image, and the remaining 8 pixels on the sides of the image should constitute vertical black bars), recent digitally generated content (e.g. DVDs of recent movies) often disregards this rule. This makes it difficult to tell whether these pixels represent wider than 4x3 or 16x9 (as they would do if following Rec.601), or represent exactly 4x3 or 16x9 (as they would do if created using one of the fudged 720-referenced pixel aspect ratios).
====625 / 525 or 576 / 480====
In [[broadcasting]], analogue system descriptions include the lines ''not used'' for the visible picture, whereas the digital systems only 'number' and encode signals that contain something to see.
The 625 (''PAL'') and 525 (''NTSC'') frame areas therefore contain even more overscan, which can be seen when vertical hold is lost and the picture rolls.{{Citation needed|date=August 2009}}
A portion of this interval available in analogue, known as the [[vertical blanking interval]], can be used for older forms of analogue [[datacasting]] such as [[Teletext]] services (like [[Ceefax]] and subtitling in the UK). The equivalent service on Digital television does not use this method and instead often uses [[MHEG-5|MHEG]].{{Citation needed|date=August 2009}}
Horizontally, the difference between 702/704 and 720 pixels/line is referred to as [[nominal analogue blanking]].
====480 vs 486====
The 525-line system originally contained 486 lines of picture, not 480.
Digital foundations to most storage and transmission systems since the early 1990s have meant that analogue NTSC has only been expected to have 480 lines of picture{{Citation needed|date=August 2009}} – see [[SDTV]], [[EDTV]], and [[DVD-Video]].
How this affects the interpretation of "the 4:3 ratio" as equal to 704x480 or 704x486 is unclear, but the VGA standard of 640x480 has had a large impact.
==Notes==
{{reflist|2}}
 
==External links==
{{Wiktionary}}
{{Analogue TV transmitter topics}}
[[Category:Wikipedia copies]]
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