Audio connectors and video connectors are electrical or optical connectors for carrying audio and video signals. Audio interfaces and video interfaces define physical parameters and interpretation of signals. For digital audio and digital video, this can be thought of as defining the physical layer, data link layer, and most or all of the application layer. For analog audio and analog video these functions are all represented in a single signal specification like NTSC or the direct speaker-driving signal of analog audio. Physical characteristics of the electrical or optical equipment includes the types and numbers of wires required, voltages, frequencies, optical intensity, and the physical design of the connectors. Any data link layer details define how application data is encapsulated (for example for synchronization or error-correction). Application layer details define the actual audio or video format being transmitted, often incorporating a codecs not specific to the interface, such as PCM, MPEG-2, or the DTS Coherent Acoustics codec. In some cases, the application layer is left open; for example, HDMI contains an Ethernet channel for general data transmission.
Some types of connectors are used by multiple hardware interfaces; for example, RCA connectors are defined both by the composite video and component video interfaces, but DVI is the only interface that uses the DVI connector. This means that in some cases not all components with physically compatible connectors will actually work together.
Some of these connectors, and other types of connectors, are also used at radio frequency (RF) to connect a radio or television receiver to an antenna or to a cable system; RF connector applications are not further described here. Analog A/V connectors often use shielded cables to inhibit radio frequency interference (RFI) and noise.
For efficiency and simplicity, the same codec or signal convention is used by the storage medium. For example, VHS tapes can store a magnetic representation of an NTSC signal, and the specification for Blu-ray Discs incorporates PCM, MPEG-2, and DTS. Some playback devices can re-encode audio or video so that the format used for storage does not have to be the same as the format transmitted over the A/V interface (which is helpful if a projector or monitor cannot handle a newer codec).
|Audio or video||Digital or analog||Description|
|Audio only||Analog||Often unmarked on consumer audio equipment since it is so common, or labelled with headphones symbol or as "line out". Computers and other equipment sometimes use Microsoft-Intel color coding scheme, especially when there are multiple input/output plugs.||3.5 mm TRS minijack|
|Balanced audio||6.35 mm TRS audio jack (shielded twisted pair),|
XLR (shielded twisted pair)
|Digital||S/PDIF (Sony/Philips Digital Interconnect Format). Via coaxial or optical cables.||RCA Jack (coaxial),|
|AES3 (also known as AES/EBU)||RCA Jack (coaxial),|
XLR (shielded twisted pair),
|Video only||Analog||Video Graphics Array (VGA)||D-subminiature 15-pin|
|Composite. Often designated by the CVBS acronym, meaning "Color, Video, Blank and Sync".||RCA jack, normally yellow (often accompanied with red and white for right and left audio channels respectively)|
|S-Video (Separate Video). Carries standard definition video and does not carry audio on the same cable.||Mini-DIN 4-pin|
|Component. In popular use, it refers to a type of analog video information that is transmitted or stored as three separate signals. Either RGB interfaces or YPbPr||3 RCA Jacks|
|Composite, S-Video, and Component||VIVO = Mini-DIN 9-pin with breakout cable.|
|Digital and analog||Digital Visual Interface (DVI)||DVI connector|
|Video and audio||Analog||SCART (Peritel)||SCART|
|Digital||High-Definition Multimedia Interface (HDMI),BNC||HDMI connector|
|IEEE 1394 "FireWire"||FireWire or i.LINK connectors|
Several generic digital data connection standards are designed to carry audio/video data along with other data and power:
Some digital connection standards were designed from the beginning to primarily carry audio and video signals simultaneously:
Many analog connectors carry both:
Note that there are no differences in the signals transmitted over optical or coaxial S/PDIF connectors--both carry exactly the same information. Selection of one over the other rests mainly on the availability of appropriate connectors on the chosen equipment and the preference and convenience of the user. Connections longer than 6 meters or so, or those requiring tight bends, should use coaxial cable, since the high light signal attenuation of TOSLINK cables limits its effective range.
High-Definition Multimedia Interface (HDMI) is a compact audio/video standard for transmitting uncompressed digital data.
There are three HDMI connector types. Type A and Type B were defined by the HDMI 1.0 specification. Type C was defined by the HDMI 1.3 specification. Type A is electrically compatible with single link DVI-D. Type B is electrically compatible with dual link DVI-D but has not yet been used in any products.
Unlike Point-to-Point connections listed above, IEEE 1394 is able to host several signals on the same wire, with the data delivered and shown on the destination set. It is also fully bi-directional, with its full bandwidth used in one direction or the other, or split directions up to its maximum.
DisplayPort is a digital display interface standard (approved May 2006, current version 1.4 published on March 1 2016). It defines a new license-free, royalty-free, digital audio/video interconnect, intended to be used primarily between a computer and its display monitor, or a computer and a home-theater system.
The video signal is not compatible with DVI or HDMI, but a DisplayPort connector can pass these signals through. DisplayPort is a competitor to the HDMI connector, the de facto digital connection for high-definition consumer electronics devices.
Single-wire connectors used frequently for analog audio include:
A phone connector (tip, ring, sleeve) also called an audio jack, phone plug, jack plug, stereo plug, mini-jack, or mini-stereo. This includes the original 6.35mm (quarter inch) jack and the more recent 3.5mm (miniature or 1/8 inch) and 2.5mm (subminiature) jacks, both mono and stereo versions.
TOSLINK or Optical Cable is a standardized optical fiber connection system.
XLR connector plugs and sockets are used mostly in professional audio and video electronics cabling applications. XLR connector are also known as Cannon plugs after their original manufacturer. They are used for analog or digital balanced audio with a balanced line
Digital audio interfaces and interconnects with the AES/EBU interface also normally use an XLR connector.
RCA connectors, also known as phono connectors or phono plugs, are used for analog or digital audio or analog video. These were first used inside pre-World War II radio-phonographs to connect the turntable pickup to the radio chassis. They were not intended to be disconnected and reconnected frequently, and their retaining friction was quite sufficient for their original purpose. Furthermore, the design of both cable and chassis connectors was for minimum cost. Initially intended for audio-frequency connections only, the RCA plug was also used for analog composite video and non-critical radio-frequency applications.
Video connectors carry only video signals. Common video-only connectors include:
The Mini-DIN connectors are a family of multi-pin electrical connectors used in a variety of applications. Mini-DIN is similar to the larger, older DIN connector. Both are standards of the Deutsches Institut für Normung, the German standards body.
D-subminiature or D-sub is a common type of electrical connector used particularly in computers. Calling them "sub-miniature" was appropriate when they were first introduced, but today they are among the largest common connectors used in computers. The DB25 is used for multi-track recording and other multi-channel audio, analog or digital (ADAT interface (DB25)), and was the standard connector for IBM compatible PC printer connection before USB and other connections became popular. It offered 8 simultaneous data pathways to the printer.
Video In Video Out, usually seen as the acronym VIVO (commonly pronounced vee-voh), is a graphics card port which enables some video cards to have bidirectional (input and output) video transfer through a Mini-DIN, usually of the 9-pin variety, and a specialised splitter cable (which can sometimes also transfer sound).
VIVO is found predominantly on high-end ATI video cards, although a few high-end NVIDIA video cards also have this port. VIVO on these graphics cards typically supports Composite, S-Video, and Component as outputs, and composite and S-Video as inputs. Many other video cards only support component and/or S-Video outputs to complement Video Graphics Array or DVI, typically using a component breakout cable and an S-Video cable.
The Digital Visual Interface (DVI) is a video interface standard designed to maximize the visual quality of digital display devices such as flat panel LCD computer displays and digital projectors. It is designed for carrying uncompressed digital video data to a display.
There are four basic connectors:
The connector also includes provision for a second data link for high resolution displays, though many devices do not implement this. In those that do, the connector is sometimes referred to as DVI-DL (dual link).
So we need to know two things about the connector:
There are exceptions to the above:
Older sound cards had no common standard color codes until after PC 99. The PC System Design Guide (also known as the PC 97, PC 98, PC 99, or PC 2001 specification) is a series of hardware design requirements and recommendations for IBM PC compatible personal computers, compiled by Microsoft and Intel Corporation during 1997-2001. PC 99 introduced a color code for the various standard types of plugs and connectors used on PCs.
The color codes for audio plugs follow:
|yellow RCA/BNC||composite video|
|red RCA/BNC||red or Pr/Cr chrominance|
|green RCA/BNC||green or luminance|
|blue RCA/BNC||blue or Pb/Cb chrominance|
|white BNC||horizontal sync|
|black BNC||vertical sync|
Newer connectors are identified by their shape and not their colour.