DisplayPort

DisplayPort
Type Digital audio/video connector
Production history
Designer VESA
Designed May 2006 (2006-05)
Manufacturer Various
Produced 2008–present
Superseded DVI, VGA, SCART, RGB Component
Superseded by None
General specifications
Length Various
Hot pluggable Yes
External Yes
Audio signal Optional; 1–8 channels, 16 or 24-bit linear PCM; 32–192 kHz sampling rate; maximum bitrate 36,864 kbit/s (4,608 kB/s)
Video signal Optional, maximum resolution limited by available bandwidth
Pins 20 pins for external connectors on desktops, notebooks, graphics cards, monitors, etc. and 30/20 pins for internal connections between graphics engines and built-in flat panels.
Data
Data signal Yes
Bitrate 1.62, 2.7, 5.4, 8.1, 10, 13.5, or 20 Gbit/s data rate per lane; 1, 2, or 4 lanes; (effective total 5.184, 8.64, 17.28, 25.92, 38.69, 52.22, or 77.37 Gbit/s for 4-lane link); 2 or 720 Mbit/s (effectively 1 or 576 Mbit/s) for the auxiliary channel.
Protocol Micro-packet
Pinout
External connector (source-side) on PCB
Pin 1 ML_Lane 0 (p)[a] Lane 0 (+)
Pin 2 GND Ground
Pin 3 ML_Lane 0 (n)[a] Lane 0 (−)
Pin 4 ML_Lane 1 (p)[a] Lane 1 (+)
Pin 5 GND Ground
Pin 6 ML_Lane 1 (n)[a] Lane 1 (−)
Pin 7 ML_Lane 2 (p)[a] Lane 2 (+)
Pin 8 GND Ground
Pin 9 ML_Lane 2 (n)[a] Lane 2 (−)
Pin 10 ML_Lane 3 (p)[a] Lane 3 (+)
Pin 11 GND Ground
Pin 12 ML_Lane 3 (n)[a] Lane 3 (−)
Pin 13 CONFIG1 Connected to ground[b]
Pin 14 CONFIG2 Connected to ground[b]
Pin 15 AUX CH (p) Auxiliary channel (+)
Pin 16 GND Ground
Pin 17 AUX CH (n) Auxiliary channel (−)
Pin 18 Hot plug Hot plug detect
Pin 19 Return Return for power
Pin 20 DP_PWR Power for connector (3.3 V 500 mA)
  1. ^ a b c d e f g h This is the pinout for source-side connector, the sink-side connector pinout will have lanes 0–3 reversed in order; i.e., lane 3 will be on pin 1(n) and 3(p) while lane 0 will be on pin 10(n) and 12(p).
  2. ^ a b Pins 13 and 14 may either be directly connected to ground or connected to ground through a pulldown device.
DisplayPort connector
A DisplayPort port (top right) on a laptop from 2010, near an Ethernet port (center) and a USB port (bottom right)

DisplayPort (DP) is a proprietary[a] digital display interface developed by a consortium of PC and chip manufacturers and standardized by the Video Electronics Standards Association (VESA). It is primarily used to connect a video source to a display device such as a computer monitor. It can also carry audio, USB, and other forms of data.[1]

DisplayPort was designed to replace VGA, FPD-Link, and Digital Visual Interface (DVI). It is backward compatible with other interfaces, such as DVI and High-Definition Multimedia Interface (HDMI), through the use of either active or passive adapters.[2]

It is the first display interface to rely on packetized data transmission, a form of digital communication found in technologies such as Ethernet, USB, and PCI Express. It permits the use of internal and external display connections. Unlike legacy standards that transmit a clock signal with each output, its protocol is based on small data packets known as micro packets, which can embed the clock signal in the data stream, allowing higher resolution using fewer pins.[3] The use of data packets also makes it extensible, meaning more features can be added over time without significant changes to the physical interface.[4]

DisplayPort is able to transmit audio and video simultaneously, although each can be transmitted without the other. The video signal path can range from six to sixteen bits per color channel, and the audio path can have up to eight channels of 24-bit, 192 kHz uncompressed PCM audio.[1] A bidirectional, half-duplex auxiliary channel carries device management and device control data for the Main Link, such as VESA EDID, MCCS, and DPMS standards. The interface is also capable of carrying bidirectional USB signals.[5]

The interface uses a differential signal that is not compatible with DVI or HDMI. However, dual-mode DisplayPort ports are designed to transmit a single-link DVI or HDMI protocol (TMDS) across the interface through the use of an external passive adapter, enabling compatibility mode and converting the signal from 3.3 to 5 volts. For analog VGA/YPbPr and dual-link DVI, a powered active adapter is required for compatibility and does not rely on dual mode. Active VGA adapters are powered directly by the DisplayPort connector, while active dual-link DVI adapters typically rely on an external power source such as USB.


Cite error: There are <ref group=lower-alpha> tags or {{efn}} templates on this page, but the references will not show without a {{reflist|group=lower-alpha}} template or {{notelist}} template (see the help page).

  1. ^ a b "DisplayPort Technical Overview" (PDF). VESA.org. 10 January 2011. Retrieved 23 January 2012.
  2. ^ "DisplayPort... the End of an Era, but Beginning of a New Age". Hope Industrial Systems. 27 April 2011. Retrieved 9 March 2012.
  3. ^ "AMD's Eyefinity Technology Explained". Tom's Hardware. 28 February 2010. Retrieved 23 January 2012.
  4. ^ "An Inside Look at DisplayPort v1.2". ExtremeTech. 4 February 2011. Retrieved 28 July 2011.
  5. ^ "The Case For DisplayPort, Continued, And Bezels". Tom's Hardware. 15 April 2010. Retrieved 28 July 2011.

From Wikipedia, the free encyclopedia · View on Wikipedia

Developed by razib.in