Nintendo released a component (YPbPr) cable when the GameCube launched, but quickly stopped supporting it. Newer consoles don't have the "Digital A/V Out" port at all. If you have one of the original models with that port, you can try to track down the component video cable, although they tend to be rather expensive since there weren't many made. There are no cheaper, third-party alternatives for this cable.
To when connecting the system to your TV, you will also need the original composite (yellow/red/white) cable for the RL audio, since the component cable does not have its own audio plugs.
There will be no lag if the system is connected to the TV with these cables.
There are no dedicated PC inputs in the rear of this Alba LCDW16HDF model. There are, however, an HDMI, a SCART connector, Component Audio/Video Inputs (YPbPr), a S/PDIF input (digital audio input), an RF Input to connect to an antenna or a coaxial cable, and finally, there are stereo audio line outs. The HDMI input is compatible with the DVI outputs found on more modern PCs-all that is required is a simple pin adapter. Picture quality can be excellent via this method.
RGB, YPbPr is characterized by having three RCA plugs at each end.
Coaxial adapters for YPBPR cable can be found at most Radio Shack stores. This type of cable in VGA and Audio to HDMI conversions.?æ
A single cable carrying video will be carrying a composite video signal. This signal has brightness and two color signals encoded into a single signal. To generate a component signal (YPbPr)a video decoder is required. They are available from many sources from low cost domestic units to stunningly expensive broadcast models. The better the decoder, the better the resulting image. It is very important to understand that a composite signal has suffered losses because of the encoding. Decoding the signal to component does not restore that quality. Component interfaces can handle high definition as well as standard definition signals. Decoding a composite signal will result in a standard definition signal. Connecting it to a high definition input will not result in a high definition signal. Normally, the only reason to decode the signal to component is to interface to a device that only accepts component signals.
S-video is a two wire interface while ypbbr is a three wire interface. Therefore, an S-video cable cannot be used for any component signals. S-video supports only standard definition, that is, PAL or NTSC color encoding. Component signals (ypbbr) support both standard definition and high definition.
Y Pb Pr is a form of component video with three signals. Y is the brightness signal while Pb and Pr each carry color information. All three are required to produce a full color image and they do not carry audio. Audio will usually require a further two connectors for stereo audio.
I dont believe it is. YBbPr is capable of outputting High definition (1080) where as S-video is Standard Definition
Not generally no. There would be no point. The easiest is to convert the standard yellow video out to coax with an RF modulator
They are both color space video but PrPbY is analog video and CrCbY is digital video.TriviaConventionally the Y is first followed by b then r, as in YPbPr which has led to the wires being known as 'yipper' lines/cables.
As rf modulators are usually mains powered convention says the standard cabling is easier to get
An un-encoded color video signal is known as a component signal and has three separate signals, Y (brightness information) U and V (two color information signals). Component is also known as YPbPr, and Y B-Y R-Y which are similar but not identical forms of component signals. NTSC and PAL are encoding standards to encode a color video signal into a single signal called a composite signal. NTSC is used in North America while PAL is used in Europe. The resultant signal is an analog format and is used only for SD signals. Composite is the standard format used for broadcast television for SD signals. A decoder is any device that converts PAL or NTSC signals back to component. All televisions include a decoder in order to separate the colors ready for display. Video capture cards and their associated software have a decoder. Any device such as tuners that output component video after receiving a broadcast SD signal use a decoder to generate the component signal.
This is an acronym, actually YPbPr, which represents analog component video. Y stands for the Luma (luminance signal or brightness), Pb is the Blue minus Lumu (R-Y), and Pr is the Red minus Luma (R-Y). From these three signals you can recreate the additive primary colors, Red, Green and Blue. This type of encoding is used because the color signal is sent at a lower sample rate the then lumanance signal, which takes advantage of how human eye detects more detail from the brightness of an image then the color.