“Broadcast-safe”的意思、由来-开放百科全书

Broadcast-safe video (broadcast legal or legal signal) is a term used in the broadcast industry to define video and audio compliant with the technical or regulatory broadcast requirements of the target area or region the feed might be broadcasting to.^[1] In the United States, the Federal Communications Commission (FCC) is the regulatory authority; in most of Europe, standards are set by the European Broadcasting Union (EBU).

Broadcast safe video

Broadcast safe Standard Definition video

Broadcast safe 625 video

Broadcast safe standards for 625 lines of Standard Definition (Inaccurately referred to as PAL, a colour encoding that is usually used with such systems) video are:^[2]^[3]

Variants

Broadcast safe 525 video

Broadcast safe standards for 525 lines of Standard Definition (System M, NTSC) video are:^[5]^[6]^[7]^[8]^[9]

Variants

Broadcast safe High Definition video

Digital broadcasting is very different from analog. The NTSC and PAL standards describe both transmission of the signal and how the electrical signal is converted into an image. In digital, there is a separation between the subject of how data is to be transmitted from tower to TV, and the subject of what content that data might contain. While data transmission is likely to be a fixed and consistent affair, the content could vary from High Definition video one hour, to SD multicasting the next, and even to non-video datacasting. In the US, 8VSB transmits the data, while MPEG-2 encodes pictures and sound.

Broadcast safe audio

Broadcast engineers in North America usually line up their audio gear to nominal reference level of 0 dB on a VU meter aligned to +4dBu or -20dBFs, in Europe equating to roughly +4 dBm or -18 dBFS. Peak signal levels must not exceed the nominal level by more than +10 dB.^[10]

Broadcast audio as a rule must be as free as possible of Gaussian noise, that is to say, it must be as close to the noise floor, as is reasonably possible, considering the storage or transmission medium.

Broadcast audio must have a good signal-to-noise ratio, where speech or music is a bare minimum of 16db above the noise of the recording or transmission system. For audio that has a much poorer signal-to-noise ratio (like cockpit voice recorders), sonic enhancement is recommended.

Non-Standard Video

Although almost any video gear can create problems when broadcast, equipment aimed at consumers sometimes produces video signals which are not broadcast safe. Usually this is to reduce the cost of the gear, since a non-standard video signal in the home might not create the problems that one might find in a broadcast facility.

In digital television only environments

In nations that have fully converted to digital television, broadcast safe analogue television takes on a slightly different meaning. All broadcasting systems will have been mostly converted to digital only outputs, leaving fewer entry points for analogue television signals.

What this means is that all devices that feed to the television transmitter must take in and feed standard analogue television signals into the transmission chain. Mostly it is up to the switcher to notify if there is non-broadcast safe video to the programmer. However, due to the limitations of many switchers for DTV and HDTV it ultimately is up to the automation systems to alert the programmer of non-broadcast safe video inputs.

As a matter of broadcast engineering practice, 4:3 analogue television signals will always pose the most problems with broadcast safe compliance. The use of portable and cheap timebase-genlock systems for analogue television inputs in the digital television studio will be clearly mandatory for the next 50 years.{{OR|date=November 2013}}

See also

References

1. ^{{cite web|url=http://livedocs.adobe.com/en_US/AfterEffects/8.0/help.html?content=WSE0A9B424-9673-4fd0-BED7-2ED4E1EB1E8D.html|title=Learn|publisher=|accessdate=22 March 2015}}
2. ^Matrox - Composite video measurements {{webarchive |url=https://web.archive.org/web/20080107040955/http://www.matrox.com/video/support/ds/specs/ds_video/composite_video_measurements.cfm |date=January 7, 2008 }}
3. ^{{cite web|url=http://www.videouniversity.com/palbars.htm|title=VideoUniversity.com - PAL Colour Bars|publisher=|accessdate=22 March 2015|deadurl=yes|archiveurl=https://web.archive.org/web/20120208172150/http://www.videouniversity.com/palbars.htm|archivedate=8 February 2012|df=}}
4. ^¹{{cite web|url=http://www.digitalpreservation.gov/formats/fdd/fdd000183.shtml|title=Digital Video Encoding (DV, DVCAM, DVCPRO)|publisher=|accessdate=22 March 2015}}
5. ^{{cite web|url=http://www.videouniversity.com/engineer.htm |title=VideoUniversity.com - Engineering Primer |publisher= |accessdate=22 March 2015 |deadurl=yes |archiveurl=https://web.archive.org/web/20160303190049/http://www.videouniversity.com/engineer.htm |archivedate=3 March 2016 |df= }}
6. ^Tektronix - The Color Bars Signal -- Why and How
7. ^{{cite web|url=http://www.glennchan.info/articles/technical/setup/75IREsetup.html|title=7.5 IRE Setup|publisher=|accessdate=22 March 2015}}
8. ^{{cite web|url=http://www.geniusdv.com/weblog/archives/adobe_photoshop_and_ntsc_color_safe.php|title=Final Cut Pro, Avid Media Composer, and Premiere Training|publisher=|accessdate=22 March 2015}}
9. ^{{cite web|url=http://www.videouniversity.com/bcstreq.htm|title=VideoUniversity.com - Broadcast Requirements for Commercials and Informercials|publisher=|accessdate=22 March 2015|deadurl=yes|archiveurl=https://web.archive.org/web/20160304171837/http://videouniversity.com/bcstreq.htm|archivedate=4 March 2016|df=}}
10. ^{{cite web|url=http://blog.shure.com/shure-notes/shure-tech-tip-vu-and-ppm-audio-meters-an-elementary-explanation/|title=Shure Tech Tip: VU and PPM Audio Meters – An Elementary Explanation|publisher=|accessdate=22 March 2015}}