Broadcast-safe

Not to be confused with Safe area (television).

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]

Common name = 625/50i (576i)^[4]
Commonly used digital SD SDI baseband signal = SMPTE 259M-C, 270 Mbit/s bitrate
Commonly used No. of Vertical Lines = 625 (576 visible active video)
Commonly used Frame rate = 25 Hz (25 interlaced frame/s)
Commonly used TV Resolution = 720 x 576 (576i)
Black levels = 0 mV or 0 IRE
White levels (Chrominance amplitude):
- 700 mV p-p or 100 IRE - 100% intensity setting which corresponds to 100.0.100.0 color bars.
- 75% intensity corresponding to 100.0.75.0 color bars, also referred to as EBU Bars.

Variants

Resolution		Aspect ratio	Pixel aspect ratio	Form of scanning	Framerate (Hz)
Vertical	Horizontal	Aspect ratio	Pixel aspect ratio	Form of scanning	Framerate (Hz)
576	352	4:3 or 16:9	non-square	interlaced	25 (50 fields/s)
	352	4:3 or 16:9	non-square	progressive	25
	480	4:3 or 16:9	non-square	interlaced	25 (50 fields/s)
	480	4:3 or 16:9	non-square	progressive	25
	544	4:3 or 16:9	non-square	interlaced	25 (50 fields/s)
	544	4:3 or 16:9	non-square	progressive	25
	720	4:3 or 16:9	non-square	interlaced	25 (50 fields/s)
	720	4:3 or 16:9	non-square	progressive	25 50

Broadcast safe 525 video

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

Common name = 525/60i (480i)^[4]
Commonly used digital SD SDI baseband signal = SMPTE 259M-C, 270 Mbit/s bitrate
Commonly used Frame rate = 30 frame/s black and white, 29.97 interlaced frame/s color
Black level = 7.5 IRE for NTSC in the US, 0 IRE in Japan.
Blanking level = 0 IRE
White levels = 100 IRE, 714 mV
Maximum signal level = 120 IRE
Minimum signal level = -20 IRE

Variants

Resolution		Aspect ratio	Pixel aspect ratio	Form of scanning	Framerate (Hz)
Vertical	Horizontal	Aspect ratio	Pixel aspect ratio	Form of scanning	Framerate (Hz)
480	640	4:3	square	interlaced	29.97 (59.94 fields/s) 30 (60 fields/s)
	640	4:3	square	progressive	23.976 24 29.97 30 59.94 60
	720	4:3 or 16:9	non-square	interlaced	29.97 (59.94 fields/s) 30 (60 fields/s)
	720	4:3 or 16:9	non-square	progressive	23.976 24 29.97 30 59.94 60

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.

Resolution		Aspect ratio	Pixel aspect ratio	Form of scanning	Framerate (Hz)
Vertical	Horizontal	Aspect ratio	Pixel aspect ratio	Form of scanning	Framerate (Hz)
720	1280	16:9	square	progressive	23.976 24 25 29.97 30 50 59.94 60
1080	1920	16:9	square	interlaced	25 (50 fields/s) 29.97 (59.94 fields/s) 30 (60 fields/s)
1080	1920	16:9	square	progressive	23.976 24 25 29.97 30

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. Potential flaws exist with:

VHS and 8 mm: Consumer devices generally lack time base correction that may cause problems with genlock and sync with some analogue and digital broadcast equipment. Consumer analogue video systems have greater system noise and lower chrominance and luminance than is normal for standard definition TV. As a general broadcast engineering rule all analogue videotape origin material should be genlocked before transmission, but this is not mandatory or necessary for all conditions. All analogue videotape by default is broadcast safe under normal playing conditions.
Older videogame systems: Video game consoles before the sixth generation and 8-bit home computers generated a video signal lacking the half scan line needed to make interlace happen. This subtle simplification caused NTSC sets to scan 240p/60 instead of 480i60, with similar results for PAL. While this actually improved picture quality for the kind of low-definition images that videogames of this era generated, such a signal modification could cause problems in a broadcast environment as the signal behaviour is outside the original television system specifications. Genlocking—but not timebase correction—are the recommended broadcast engineering solutions.
Computer video signals: Computer video can be set up to run at many different frame or field rates, ranging 50 frame/s to more than 240 frame/s. Computer video is generally progressive by default, but many interlaced modes exist. A scan converter is typically needed to convert these signals to one of the many acceptable broadcast standards, such as 59.97 Hz or 50 Hz. This type of conversion typically degrades the quality of the broadcast image, usually resulting with either "motion artifacts" or a lower resolution. It is recommended that the display rate be set to equal the target television rate if possible.

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.

References

↑ "Learn". Retrieved 22 March 2015.
↑ Matrox - Composite video measurements Archived January 7, 2008, at the Wayback Machine.
↑ "VideoUniversity.com - PAL Colour Bars". Retrieved 22 March 2015.
1 2 "Digital Video Encoding (DV, DVCAM, DVCPRO)". Retrieved 22 March 2015.
↑ "VideoUniversity.com - Engineering Primer". Archived from the original on 3 March 2016. Retrieved 22 March 2015.
↑ Tektronix - The Color Bars Signal -- Why and How
↑ "7.5 IRE Setup". Retrieved 22 March 2015.
↑ "Final Cut Pro, Avid Media Composer, and Premiere Training". Retrieved 22 March 2015.
↑ "VideoUniversity.com - Broadcast Requirements for Commercials and Informercials". Retrieved 22 March 2015.
↑ "Shure Tech Tip: VU and PPM Audio Meters – An Elementary Explanation". Retrieved 22 March 2015.

Broadcasting

Medium	Radio (Radio program Cable Satellite) Telephone Teletext Television (Television program Cable Satellite) Internet television and radio (Webcast Streaming media Web television Peer-to-peer television BitTorrent television and movies)

Broadcasting niche	Campus radio Commercial broadcasting Community radio News broadcasting Pirate radio / Pirate television Public broadcasting Religious broadcasting Talk radio

Specialty channels	Adult television channels Children's interest channel / Children's television series Documentary channel Men's interest channel Movie television channels Music radio / Music television Quiz channel Shopping channel News broadcasting Business channels Public affairs Sports television channels Women's interest channel

Production and funding	Broadcast designer Broadcast license Broadcast network Broadcast-safe Broadcast television systems Digital on-screen graphic Lower third Network affiliate News ticker Score bug Television news screen layout Television licence Television studio Press box Press pool on-screen display

Broadcast video formats

Television

Analog

525 lines	System M NTSC NTSC-J PAL-M

625 lines	PAL System B System D System G System H System I System K PAL-N PALplus SECAM System B System D System G System K System L (SECAM-L)

Audio	BTSC (MTS) EIAJ NICAM SAP Sound-in-Syncs Zweikanalton (A2/IGR)

Hidden signals	Captioning CGMS-A EPG GCR PDC Teletext VBI VEIL VIT VITC WSS XDS

Historical	Pre-1940 Mechanical television 180-line 405-line System A 441-line 819-line MAC MUSE

Digital

Interlaced	SDTV 480i 576i HDTV 1080i

Progressive	LDTV 1seg 240p 288p EDTV 480p 576p HDTV 720p 1080p UHDTV 2160p 4320p

MPEG-2 standards	ATSC DVB ISDB DTMB DVB 3D-TV

MPEG-4 AVC standards	ATSC A/72 DMB DTMB DVB SBTVD 1seg

HEVC standards	ATSC 3.0

Audio	AC-3 (5.1) DTS MPEG-1 Audio Layer II MPEG Multichannel PCM LPCM AAC HE-AAC

Hidden signals	AFD Broadcast flag Captioning CPCM EPG Teletext

Technical issues

14:9 compromise Broadcast-safe Digital cinema (DCI) Display motion blur Moving image formats MPEG transport stream Reverse Standards Conversion Standards conversion Television transmitter Video on demand Video processing Widescreen signaling Templates (Analogue TV Topics)

Digital video resolutions

Designation

Usage examples	Definition (lines)	Rate (Hz)
Usage examples	Definition (lines)	Interlaced (fields)	Progressive (frames)

Low,
MP@LL

LDTV, VCD, HTV

240, 288 (SIF)

24, 30; 25

Standard,
MP@ML

SDTV, SVCD, DVD, DV

480 (NTSC), 576 (PAL)

60, 50

24, 30; 25

Enhanced,
HMP@HML

EDTV

480 (NTSC-HQ), 576

60, 50

High,
MP@HL

HDTV, BD, HD DVD, HDV	720		24, 30, 60; 25, 50
HDTV, BD, HD DVD, HDV	1080	25, 30	24, 50, 60

Ultra-high

UHDTV

2160, 4320

60, 120,180

SMPTE standards

Standards	SMPTE 259M SMPTE 292M SMPTE 296M SMPTE 344M SMPTE 356M SMPTE 367M SMPTE 372M SMPTE 274M SMPTE 424M SMPTE 2022 SMPTE ST 2071 SMPTE color bars SMPTE timecode Digital Picture Exchange Material Exchange Format Unique Material Identifier

Related articles	Broadcast-safe Broadcast television systems

Related standards organizations	National Television System Committee Moving Picture Experts Group ITU Radiocommunication Sector (formerly CCIR) ITU Telecommunication Sector (formerly CCITT) Digital Video Broadcasting European Broadcasting Union BBC Research NHK Science & Technology Research Laboratories

Telecommunications

History	Beacon Broadcasting Cable TV Communications satellite Computer network Drums Electrical telegraph Fax Heliographs Hydraulic telegraph Internet Mass media Mobile phone Optical telecommunication Optical telegraphy Photophone Prepaid mobile phone Radio Radiotelephone Satellite communications Semaphore Smartphone Smoke signals Telecommunications history Telautograph Telegraphy Teleprinter (teletype) Telephone The Telephone Cases Television Timeline of communication technology Undersea telegraph line Videoconferencing Videophone Videotelephony

Pioneers	Edwin Howard Armstrong John Logie Baird Paul Baran Alexander Graham Bell Tim Berners-Lee Jagadish Chandra Bose Vint Cerf Claude Chappe Donald Davies Lee de Forest Philo Farnsworth Reginald Fessenden Elisha Gray Innocenzo Manzetti Guglielmo Marconi Antonio Meucci Alexander Stepanovich Popov Johann Philipp Reis Nikola Tesla Camille Tissot Alfred Vail Charles Wheatstone Vladimir K. Zworykin

Transmission media	Electromagnetic radiation Electrical cable Free-space optical communication Molecular communication Optical fiber

Network topology and switching	Links Nodes Terminal node Network switching (circuit packet) Telephone exchange

Multiplexing	Space-division Frequency-division Time-division Polarization-division Orbital angular-momentum Code-division

Networks	ARPANET BITNET Cellular network Computer CYCLADES Ethernet FidoNet Internet ISDN LAN Mobile NGN NPL network Public Switched Telephone Radio Telecommunications equipment Television Telex WAN Wireless World Wide Web

Category Portal

This article is issued from Wikipedia - version of the 11/18/2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.

Broadcast-safe

Broadcast safe video

Broadcast safe Standard Definition video

Broadcast safe 625 video

Variants

Broadcast safe 525 video

Variants

Broadcast safe High Definition video

Broadcast safe audio

Non-Standard Video

In digital television only environments

See also

References