Most televisions feature an RF tuner and demodulator to handle RF input. The most common connector is the F-type (coax, like cable TV). Much older televisions (early 1980s and earlier) usually have two screws to fasten down a twin-lead antenna. Rarely they will have an RCA-type connector which expects RF input. Televisions with a rotary select dial usually indicates that it ''only'' supports RF input. Depending on the television, the RF tuner is usually connected to all inputs and may be designed to handle both 300 Ohm and 75 Ohm. The F-type connector is almost always expecting 75 Ohm input. Check the TV user guide or service manual to be sure. It will not harm the television to feed the wrong impedance, but the signal may be too weak to see.
Most televisions feature an RF tuner and demodulator to handle RF input. The most common connector is the F-type (coax, like cable TV). Much older televisions (early 1980s and earlier) usually have two screws to fasten down a twin-lead antenna. Rarely they will have an RCA-type connector which expects RF input. Televisions with a rotary select dial usually indicates that it ''only'' supports RF input. Depending on the television, the RF tuner is usually connected to all inputs and may be designed to handle both 300 Ohm and 75 Ohm. The F-type connector is almost always expecting 75 Ohm input. Check the TV user guide or service manual to be sure. It will not harm the television to feed the wrong impedance, but the signal may be too weak to see.
If the impedance from your console to the TV is mismatched (F-type is 75 Ohm and Twin-lead is 300 Ohm), you need a balun (transformer) – a very simple circuit and cheap to buy.
If the impedance from your console to the TV is mismatched (F-type is 75 Ohm and Twin-lead is 300 Ohm), you need a balun (transformer) – a very simple circuit and cheap to buy and works in both directions.
|-
|-
| Composite Video
| Composite Video
| placeholder
| [[File:RGBIntroComposite.jpg]]
| One RCA <br> OR <br> One BNC
| One RCA <br> OR <br> One BNC
| Luminance (Y, H, V), Chrominance (C)
| Luminance (Y, H, V), Chrominance (C)
| Composite video is very common, and comes on almost every consumer TV made after 1990. Composite, as the name implies, is a complex signal. It was designed for NTSC, PAL, and SECAM broadcasting and contains the information for chrominance (hue and saturation), luminance (brightness), horizontal sync, and vertical sync all on one wire.
| Composite video is very common, and comes on almost every consumer TV made after 1990. Composite, as the name implies, is a complex signal. It was designed for NTSC, PAL, and SECAM broadcasting and contains the information for chrominance (hue and saturation), luminance (brightness), horizontal sync, and vertical sync all on one wire.
While it is often downplayed as inferior to other video signal types, it remained a standard for which many CRTs and game consoles were designed to handle. The quirks and lossiness of the signal were sometimes exploited in games to create useful effects such as smoothed colour dithering and fake transparency. Examples [https://nerdlypleasures.blogspot.ca/2015/03/the-case-for-composite.html here on Genesis and SNES] ([https://nerdlypleasures.blogspot.ca/ nerdlypleasures.blogspot.ca]) and [https://www.youtube.com/watch?v=j-G02cjXpZ0 here with the transparent tubes in Sonic 2] ([https://www.youtube.com/ youtube.com]). On the other hand, visual defects such as [https://en.wikipedia.org/wiki/Dot_crawl dot crawl] and jitter can be a real nuisance of interference between the 5 signals. Many consumer TVs have a "comb filter" designed to eliminate interference issues, but often times professional or broadcast monitors do not have a comb filter as studios often wanted to be able to see interference issues and eliminate them during broadcast.
While it is often downplayed as inferior to other video signal types, it remained a standard for which many CRTs and game consoles were designed to handle. The quirks and lossiness of the signal were sometimes exploited in games to create useful effects such as smoothed color dithering and fake transparency. Examples [https://nerdlypleasures.blogspot.ca/2015/03/the-case-for-composite.html here on Genesis and SNES] ([https://nerdlypleasures.blogspot.ca/ nerdlypleasures.blogspot.ca]) and [https://www.youtube.com/watch?v=j-G02cjXpZ0 here with the transparent tubes in Sonic 2] ([https://www.youtube.com/ youtube.com]). On the other hand, visual defects such as [https://en.wikipedia.org/wiki/Dot_crawl dot crawl] and jitter can be a real nuisance of interference between the 5 signals. Many consumer TVs have a "comb filter" designed to eliminate interference issues, but often times professional or broadcast monitors do not have a comb filter as studios often wanted to be able to see interference issues and eliminate them during broadcast.
Composite supports up to 240p/480i resolution in NTSC and 288p/576i in PAL.
Composite supports up to 240p/480i resolution in NTSC and 288p/576i in PAL.
|-
|-
| S-Video
| S-Video
| placeholder
| [[File:RGBIntroS-Video.jpg]]
| One 4-pin Mini-DIN <br> OR <br> Two RCA <br> OR <br> Two BNC
| One 4-pin Mini-DIN <br> OR <br> Two RCA <br> OR <br> Two BNC
| Luminance (Y, H, V) <br> Chrominance (C)
| Luminance (Y, H, V) <br> Chrominance (C)
| S-Video is derived from component video where Y retains the same level of fidelity along with synchronization signals, but the U & V signals are [https://en.wikipedia.org/wiki/Quadrature_modulation quadrature modulated] and sent as one signal down the second wire.
| S-Video is derived from component video. Luma (brightness) and sync are the same as composite, but the Chroma (color) signals are split out and sent down a different wire, eliminating interference.
S-video is considered a higher quality signal and is well supported by hardware from the mid 1990s and later.
S-video is considered a higher quality signal and is well supported by hardware from the mid 1990s and later.
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| Component YPbPr
| Component YPbPr
| placeholder
| placeholder
| Three RCA
| Three RCA <br> OR <br> Three BNC
| Luminance (Y, H, V) <br> Pb (blue difference from Y) <br> Pr (red difference from Y)
| Luminance (Y, H, V) <br> Pb (blue difference from Y) <br> Pr (red difference from Y)
| YPbPr splits video out to 3 different connectors, making it better quality than S-Video. "Y" transmits brightness information (Luma) and horizontal/vertical sync, "Pb" transmits the difference between the blue color signal and Y, and "Pr" transmits the difference between the blue color signal and Y.
| YPbPr splits video out to 3 different connectors, making it better quality than S-Video. "Y" transmits brightness information (Luma) and horizontal/vertical sync, "Pb" transmits the difference between the blue color signal and Y, and "Pr" transmits the difference between the blue color signal and Y. Green information is not sent as it can be derived from the other three signals.
Component is a very high quality video signal derived from RGB. Transmission bandwidth (and storage) is reduced by a large margin via exploiting the limitations of human vision and relationships between colour attributes to its advantage. The formulae for deriving the weighted signals are as follows:
<pre>Y = 0.3R + 0.59G + 0.11B
U = 0.493(B - Y)
V = 0.877(R - Y)</pre>
Green information is not sent as it can be derived from these relationships.
Component is a very high quality video signal derived from RGB. Bandwidth (and storage) is reduced by a large margin via exploiting the limitations of human vision and how we view colors. This is managed by only sending one full-bandwidth signal (Y, or Luma) and 2 modifier signals (Pb and Pr).
There is also a similar YCbCr that is a digitally encoded.
There is also a similar YCbCr that is a digitally encoded.
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|-
|-
| RGB
| RGB
| placeholder
| [[File:RGBIntroRGB.jpg]]
| One SCART <br> OR <br> One JP-21 <br> OR <br> Three to Five RCA <br> OR <br> Three to Five BNC
| One SCART <br> OR <br> One JP-21 <br> OR <br> Three to Five RCA <br> OR <br> Three to Five BNC
| Uses different types of sync such as HV or Composite (not to be confused with composite sync!)
| Uses different [[Types of Sync|types of sync]].
| RGB is the best quality video you can get, as it requires no transcoding or changing of the color space and it is the same format that the electron gun uses to make the image displayed for CRTs. Note that the difference between the sync separation types is often not noticeable, but the more separation the less chance of interference. Choose the most separated option which your equipment supports (depending on cable availability).
| RGB is the best quality video you can get, as it requires no transcoding or changing of the color space and it is the same format that the electron gun uses to make the image displayed for CRTs. Note that the difference between the sync separation types is often not noticeable, but the more separation the less chance of interference. See the [[Types of Sync]] for in-depth information. Choose the most separated option which your equipment supports (depending on cable availability).
RGB (or RVB in France) is a shorthand for one of the following:
{| class="wikitable"
!width="25%"| Acronym
!width="25%"| Channels
!width="25%"| Description
!width="25%"| Supported Consoles
|-
| '''RGsB'''
| 3
| Sync on Green (SoG)
| PlayStation 2
|-
| '''RGBS (Composite Sync)'''
| 4
| RGB with Composite Sync (CSYNC) signal
| Mega Drive / Genesis 1 & 2, SNES (NTSC), Neo Geo AES, Jaguar, Saturn, and PlayStation (with small mod)
|-
| '''RGBS (Sync on Luma)'''
| 4
| RGB with Luma as the sync signal. A sync stripper can be used to extract CSYNC from the luma signal.
| PlayStation, PlayStation 2, Dreamcast, N64, Xbox, SNES
|-
| '''RGBcvS'''*
| 4
| CSYNC over composite video (''c''omposite ''v''ideo ''S''ync). Also known as "sync on composite". A sync stripper can be used to extract CSYNC from the composite video signal.
| Xbox, PlayStation, SNES (PAL), Saturn (PAL), and GameCube (PAL)
|-
| '''RGBHV'''
| 5
| Independent sync (horizontal & vertical)
| Dreamcast
|}
|}
|}
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|-
|-
| Coax F-Connector
| Coax F-Connector
| placeholder
| [[File:COAX.png|200px]]
| Usually used for RF. Also sometimes in the form of a brown or orange RCA jack similar to composite.
| Usually used for RF. Also sometimes in the form of a brown or orange RCA jack similar to composite.
| Most commonly used for composite but can sometimes be used for S-Video (labelled Y and C) or RF (if orange, black, or brown). Also used for component video (YPbPr or RGB).
| Most commonly used for composite (yellow) and YPbPr component (green, blue, and red) but can sometimes be used for S-Video (labelled Y and C) or RF (orange, black, or brown).
|-
|-
| BNC
| BNC
| placeholder
| [[File:BNC.png|200px]]
| Generally found on professional displays and are used as a more secure RCA jack. Also often carry RGB signals.
| Generally found on professional displays and are used as a more secure RCA jack. Also often carry RGB signals.
|-
|-
| 4-pin Mini-DIN
| [[File:Mini-DIN.png|200px]]
| Generally used to carry S-Video signals.
|-
|-
| SCART
| SCART
| placeholder
| [[File:SCART.png|200px]]
| Can carry Composite, S-Video, and RGB signals, along with audio. Very common in Europe.
| Can carry Composite, S-Video, and RGB signals, along with audio. Very common in Europe.
|-
|-
| JP-21
| JP-21
| placeholder
| [[File:SCART.png|200px]]
| Identical in appearance to SCART but the pinout is different. Generally only found in Japan or Asia. Not compatible with SCART.
| Identical in appearance to SCART but the pinout is different. Generally only found in Japan or Asia. Not compatible with SCART.
|-
|-
| VGA
| VGA
| placeholder
| [[File:VGA.png|200px]]
| VGA is an RGBHV standard that uses a 15-pin D-Sub connector, usually used on computers, PC monitors, and presentation TVs.
| VGA is an RGBHV standard that uses a DE-15 (15-pin D-Sub) connector. Usually used on computers, PC monitors, and presentation TVs.
|}
|}
== Media ==
<youtube>VtTM7nU9SMA</youtube>
* [https://i.redd.it/ykoouz8rdjg01.png Video Signal Hierarchy Diagram]
Latest revision as of 05:19, 29 July 2022
Video Signals
Video Standard
Image
Connectors
Signals Carried
Explanation
Radio Frequency (RF)
One F-type coax OR One RCA OR Two prongs
Luminance (Y, H, V), Chrominance (C), Audio Left, Audio Right
RF (Radio Frequency) is a Frequency Modulated signal in the UHF band usually incoming from an antenna or long run cable. This signal contains modulated composite video and mono/stereo audio. It does a great job of transmitting a signal over very long distances over air or wire with little loss.
Most televisions feature an RF tuner and demodulator to handle RF input. The most common connector is the F-type (coax, like cable TV). Much older televisions (early 1980s and earlier) usually have two screws to fasten down a twin-lead antenna. Rarely they will have an RCA-type connector which expects RF input. Televisions with a rotary select dial usually indicates that it only supports RF input. Depending on the television, the RF tuner is usually connected to all inputs and may be designed to handle both 300 Ohm and 75 Ohm. The F-type connector is almost always expecting 75 Ohm input. Check the TV user guide or service manual to be sure. It will not harm the television to feed the wrong impedance, but the signal may be too weak to see.
If the impedance from your console to the TV is mismatched (F-type is 75 Ohm and Twin-lead is 300 Ohm), you need a balun (transformer) – a very simple circuit and cheap to buy and works in both directions.
Composite Video
One RCA OR One BNC
Luminance (Y, H, V), Chrominance (C)
Composite video is very common, and comes on almost every consumer TV made after 1990. Composite, as the name implies, is a complex signal. It was designed for NTSC, PAL, and SECAM broadcasting and contains the information for chrominance (hue and saturation), luminance (brightness), horizontal sync, and vertical sync all on one wire.
While it is often downplayed as inferior to other video signal types, it remained a standard for which many CRTs and game consoles were designed to handle. The quirks and lossiness of the signal were sometimes exploited in games to create useful effects such as smoothed color dithering and fake transparency. Examples here on Genesis and SNES (nerdlypleasures.blogspot.ca) and here with the transparent tubes in Sonic 2 (youtube.com). On the other hand, visual defects such as dot crawl and jitter can be a real nuisance of interference between the 5 signals. Many consumer TVs have a "comb filter" designed to eliminate interference issues, but often times professional or broadcast monitors do not have a comb filter as studios often wanted to be able to see interference issues and eliminate them during broadcast.
Composite supports up to 240p/480i resolution in NTSC and 288p/576i in PAL.
S-Video
One 4-pin Mini-DIN OR Two RCA OR Two BNC
Luminance (Y, H, V) Chrominance (C)
S-Video is derived from component video. Luma (brightness) and sync are the same as composite, but the Chroma (color) signals are split out and sent down a different wire, eliminating interference.
S-video is considered a higher quality signal and is well supported by hardware from the mid 1990s and later.
Easily Modded Consoles: Master System, Genesis, 32X, SNES Mini
Component YPbPr
placeholder
Three RCA OR Three BNC
Luminance (Y, H, V) Pb (blue difference from Y) Pr (red difference from Y)
YPbPr splits video out to 3 different connectors, making it better quality than S-Video. "Y" transmits brightness information (Luma) and horizontal/vertical sync, "Pb" transmits the difference between the blue color signal and Y, and "Pr" transmits the difference between the blue color signal and Y. Green information is not sent as it can be derived from the other three signals.
Component is a very high quality video signal derived from RGB. Bandwidth (and storage) is reduced by a large margin via exploiting the limitations of human vision and how we view colors. This is managed by only sending one full-bandwidth signal (Y, or Luma) and 2 modifier signals (Pb and Pr).
There is also a similar YCbCr that is a digitally encoded.
Supported by: Xbox, GameCube, PlayStation 2, PlayStation 3, Xbox 360, Wii. HD Retrovision cables perform conversion of RGB to Component.
RGB
One SCART OR One JP-21 OR Three to Five RCA OR Three to Five BNC
RGB is the best quality video you can get, as it requires no transcoding or changing of the color space and it is the same format that the electron gun uses to make the image displayed for CRTs. Note that the difference between the sync separation types is often not noticeable, but the more separation the less chance of interference. See the Types of Sync for in-depth information. Choose the most separated option which your equipment supports (depending on cable availability).
Connectors
Video Connector
Image
Description
Coax F-Connector
Usually used for RF. Also sometimes in the form of a brown or orange RCA jack similar to composite.
RCA
Most commonly used for composite (yellow) and YPbPr component (green, blue, and red) but can sometimes be used for S-Video (labelled Y and C) or RF (orange, black, or brown).
BNC
Generally found on professional displays and are used as a more secure RCA jack. Also often carry RGB signals.
4-pin Mini-DIN
Generally used to carry S-Video signals.
SCART
Can carry Composite, S-Video, and RGB signals, along with audio. Very common in Europe.
JP-21
Identical in appearance to SCART but the pinout is different. Generally only found in Japan or Asia. Not compatible with SCART.
VGA
VGA is an RGBHV standard that uses a DE-15 (15-pin D-Sub) connector. Usually used on computers, PC monitors, and presentation TVs.
