High-Definition Multimedia Interface

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High-Definition Multimedia Interface


HDMI Cable & HDMI official logo
Type Digital audio/video connector
Production history
Designer The HDMI group
Designed December 2002
Produced 2003
Specifications
Hot plugable Yes
External Yes
Audio signal PCM, DVD-Audio, Super Audio CD, Dolby TrueHD, DTS-HD Master Audio
Video signal 480i, 480p, 576i, 576p, 720p, 1080i, 1080p, 1440p, etc.
Bandwidth 10.2 Gbps at 340 Mpixels/sec
Pins 19
Pin out

Type A (Receptacle) HDMI
Pin 1 TMDS Data2+
Pin 2 TMDS Data2 Shield
Pin 3 TMDS Data2–
Pin 4 TMDS Data1+
Pin 5 TMDS Data1 Shield
Pin 6 TMDS Data1–
Pin 7 TMDS Data0+
Pin 8 TMDS Data0 Shield
Pin 9 TMDS Data0–
Pin 10 TMDS Clock+
Pin 11 TMDS Clock Shield
Pin 12 TMDS Clock–
Pin 13 CEC
Pin 14 Reserved (N.C. on device)
Pin 15 SCL
Pin 16 SDA
Pin 17 DDC/CEC Ground
Pin 18 +5 V Power
Pin 19 Hot Plug Detect

The High-Definition Multimedia Interface (HDMI) is an all-digital audio/video interface capable of transmitting uncompressed streams. HDMI is compatible with High-bandwidth Digital Content Protection (HDCP) Digital Rights Management technology. HDMI provides an interface between any compatible digital audio/video source, such as a set-top box, a DVD player, a PC, a video game system, or an AV receiver and a compatible digital audio and/or video monitor, such as a digital television (DTV). In 2006, HDMI began to appear as a feature on prosumer, HDTV camcorders and even high-end digital still cameras.[1][2][3]

It is a modern replacement for older analogue standards such as RF - Coax, SCART, Composite Video, Component Video, VGA, DVI-A, and RCA connectors, and the consumer electronics replacement for older digital standards such as DVI (DVI-D & DVI-I). In the computer world, HDMI is already found on many peripherals and a few newer video cards, with adoption rapidly increasing.

Contents

[edit] General notes

HDMI supports any TV or PC video format, including standard, enhanced, or high-definition video, plus multi-channel digital audio on a single cable. It is independent of the various DTV standards such as ATSC, and DVB (-T,-S,-C), as these are encapsulations of the MPEG movie data streams, which are passed off to a decoder, and output as uncompressed video data on HDMI. HDMI encodes the video data into TMDS for transmission digitally over HDMI.

Devices are manufactured to adhere to various versions of the specification, where each version is given a number, such as 1.0 or 1.3. Each concurrent version of the specification uses the same cables, but increases the throughput and/or capabilities of what can be transmitted over the cable. For example, previously, the maximum pixel clock rate of the interface was 165MHz, sufficient for supporting 1080p at 60Hz or WUXGA (1920x1200), but HDMI 1.3 increased that to 340MHz, providing support beyond the highest resolution of computer monitors available today. See the Versions section for details.

HDMI also includes support for 8-channel uncompressed digital audio at 192kHz sample rate with 24 bits/sample as well as any compressed stream such as Dolby Digital, or DTS. HDMI supports up to 8 channels of one-bit audio, such as that used on Super Audio CDs at rates up to 4x that used by SuperAudio CD. With version 1.3, HDMI now also supports very high bitrate lossless compressed streams such as Dolby TrueHD and DTS-HD Master Audio.

HDMI is backward-compatible with the single-link Digital Visual Interface carrying digital video (DVI-D or DVI-I, but not DVI-A) used on modern computer monitors and graphics cards. This means that a DVI-D source can drive an HDMI monitor, or vice versa, by means of a suitable adapter or cable, but the audio and remote control features of HDMI will not be available. Additionally, without support for High-bandwidth Digital Content Protection (HDCP) on the display, the signal source may prevent the end user from viewing or especially copying certain restricted content. (While all HDMI displays currently support HDCP, most DVI PC-style displays do not.)

The HDMI Founders include consumer electronics manufacturers Hitachi, Matsushita Electric Industrial (Panasonic/National/Quasar), Philips, Sony, Thomson (RCA), Toshiba, and Silicon Image. Digital Content Protection, LLC (a subsidiary of Intel) is providing HDCP for HDMI. In addition, HDMI has the support of major motion picture producers Fox, Universal, Warner Bros., and Disney, and system operators DirecTV and EchoStar (Dish Network) as well as CableLabs and Samsung.

[edit] HDMI and high-definition optical media players

In 2006, two competing high definition optical disc formats were released: Blu-ray Disc and HD DVD. These formats support higher-fidelity audio than the DVD format. These audio formats include Dolby Digital Plus, Dolby TrueHD and DTS-HD Master Audio. Not all of these are mandated by the Blu-ray Disc and HD DVD formats. High definition players provide a number of ways to transmit this audio. Currently, the best fidelity is available when the player is set to output LPCM over HDMI when using one of the higher fidelity formats. This requires a preprocessor or audio/video receiver capable of handling multi-channel LPCM over HDMI. While this has been allowed by the HDMI spec since 1.0, not all devices supporting HDMI 1.1 support this feature. In the future, it is likely that most devices claiming HDMI 1.1 as a feature will support at least 5.1 LPCM over HDMI.

HDMI 1.3 provides for sending TrueHD and DTS-HD over bitstream rather than LPCM. This would allow a preprocessor or audio/video receiver with the necessary decoder to decode the data. It is unclear how this will be useful, as all current players are decoding the audio stream — this is required for advanced content (interactive audio). The players would either have to forgo mixing of interactive audio, or encode the mixed audio to one of these formats before sending it over HDMI.

[edit] Specifications

HDMI defines the protocol and electrical specifications for the signaling, as well as the pin-out, electrical and mechanical requirements of the cable and connectors.

[edit] Connectors

The HDMI Specification has expanded to include three connectors, each intended for different markets.

The standard Type A HDMI connector has 19 pins, with bandwidth to support all SDTV, EDTV and HDTV modes and more. The plug outside dimensions are 13.9mm wide by 4.45mm high. Type A is electrically compatible with single-link DVI-I.

A higher resolution version called Type B is defined in HDMI 1.0. Type B has 29 pins (21.2mm wide), allowing it to carry an expanded video channel for use with very high-resolution future displays, such as WQSXGA (3200x2048). Type B is electrically compatible with dual-link DVI-I, but is not in general use.

The Type C mini-connector is intended for portable devices. It is smaller than Type A (10.42mm by 2.42mm) but has the same 19-pin configuration.

[edit] Cable

Each channel in HDMI can be purposed to carry audio, video, multimedia, or device-controlling signals, or a combination of these signals.

Adaptor cables - from Type A to Type C - are available.

[edit] TMDS channel

The Transition Minimized Differential Signaling (TMDS) channel:

  • Carries video, audio, and auxiliary data via one of three modes called the Video Data Period, the Data Island Period, and the Control Period. During the Video Data Period, the pixels of an active video line are transmitted. During the Data Island period (which occurs during the horizontal and vertical blanking intervals), audio and auxiliary data are transmitted within a series of packets. The Control Period occurs between Video and Data Island periods.
  • Signaling method: Formerly according to DVI 1.0 spec. Single-link (Type A HDMI) or dual-link (Type B HDMI).
  • Video pixel rate: 25 MHz to 340 MHz (Type A, as of 1.3) or to 680 MHz (Type B). Video formats with rates below 25 MHz (e.g. 13.5 MHz for 480i/NTSC) transmitted using a pixel-repetition scheme. From 24 to 48 bits per pixel can be transferred, regardless of rate. Supports 1080p at rates up to 120Hz and WQSXGA [4].
  • Pixel encodings: RGB 4:4:4, YCbCr 4:4:4 (8-16 bits per component); YCbCr 4:2:2 (12 bits per component)
  • Audio sample rates: 32 kHz, 44.1 kHz, 48 kHz, 88.2 kHz, 96 kHz, 176.4 kHz, 192 kHz.
  • Audio channels: up to 8.
  • Audio streams: any IEC61937-compliant stream, including high bitrate (lossless) streams (Dolby TrueHD, DTS-HD Master Audio).

[edit] Consumer Electronics Control channel

The Consumer Electronics Control (CEC) channel is optional to implement, but wiring is mandatory. The channel:

  • Uses the industry standard AV Link protocol
  • Used for remote control functions.
  • One-wire bidirectional serial bus.
  • Defined in HDMI Specification 1.0, updated in HDMI 1.2a, and again in 1.3a (Added timer and audio commands).

This feature is used in two ways:

  • To allow the user to command and control multiple CEC-enabled boxes with one remote control, and
  • To allow individual CEC-enabled boxes to command and control each other, without user intervention.

An example of the latter is to allow the DVD player, when the drawer closes with a disk, to command the TV and the intervening A/V Receiver (all with CEC) to power-up, select the appropriate HDMI ports, and auto-negotiate the proper video mode and audio mode. No remote control command is needed. Similarly, this *type* of equipment can be programmed to return to sleep mode when the movie ends, perhaps by checking the real-time clock. If it is later than 11:00pm, and the user does not specifically command the systems with the remote control, then the systems all turn off at the command from the DVD player.

[edit] Content protection

  • According to High-bandwidth Digital Content Protection (HDCP) Specification 1.2.
  • Beginning with HDMI CTS 1.3a, any system which implements HDCP must do so in a fully-compliant manner. HDCP compliance is itself part of the requirements for HDMI compliance.[5][6]
  • The Hdmi repeater bit controls the authentication and distribution from a single source to multiple displays.

[edit] Versions

Devices are manufactured to adhere to various versions of the specification, where each version is given a revision number. Each concurrent version of the specification uses the same cables, but increases the throughput and capabilities of what can be transmitted over that cable. The need for a new HDMI cable if you already have one really depends on the cable (which also has a HDMI rating). The main thing to consider is if any current cable would be able to handle the increased bandwidth - for example (10.2GBPS) that comes with version 1.3. Cable compliance testing is included in the HDMI Compliance Test Specification (see TESTID 5-3), with "Category 1" and "Category 2" defined in the HDMI Specification 1.3a (Section 4.2.6).

It should further be noted that a product listed as having an HDMI version does not necessarily mean that it will have all of the features listed under the version classification, indeed some of the features are optional. For example in HDMI v1.3 it is optional to support the xvYCC wide colour standard. This means if you have bought a camcorder that supports the wide colour space (which for example is branded by Sony as "x.v.Color") you have to specifically check that the display supports both HDMI v.3 and the xvYCC wide colour standard.

[edit] HDMI 1.0

Released December 2002.

  • Single-cable digital audio/video connection with a maximum bitrate of 4.9Gbps. Supports up to 165Mpixels/sec video (1080p60Hz or UXGA) and 8-channel/192kHz/24-bit audio.

[edit] HDMI 1.1

Released May 2004.

[edit] HDMI 1.2

Released August 2005.

  • Added support for One Bit Audio, used on Super Audio CDs, up to 8 channels.
  • Availability of HDMI Type A connector for PC sources.
  • Ability for PC sources to use native RGB color-space while retaining the option to support the YCbCr CE color space.
  • Requirement for HDMI 1.2 and later displays to support low-voltage sources.

[edit] HDMI 1.2a

Released December 2005.

  • Fully specifies Consumer Electronic Control (CEC) features, command sets, and CEC compliance tests.

[edit] HDMI 1.3

Released 22 June 2006.[7] [8]

  • Increases single-link bandwidth to 340 MHz (10.2 Gbps)
  • Optionally supports 30-bit, 36-bit, and 48-bit xvYCC with Deep Color or over one billion colors, up from 24-bit sRGB or YCbCr in previous versions.
  • Incorporates automatic audio syncing (lip sync) capability.
  • Supports output of Dolby TrueHD and DTS-HD Master Audio streams for external decoding by AV receivers.[9] TrueHD and DTS-HD are lossless audio codec formats used on HD DVDs and Blu-ray Discs. If the disc player can decode these streams into uncompressed audio, then HDMI 1.3 is not necessary, as all versions of HDMI can transport uncompressed audio.
  • Availability of a new mini connector for devices such as camcorders.[10]
  • The Sony PlayStation 3 is the first product available on consumer market with HDMI 1.3.[11]
  • Epson has released the EMP-TW1000 as the first display supporting 30-bit deep color.[12]

[edit] HDMI 1.3a

Released 10 November 2006.[13]

  • Cable and Sink modifications for Type C
  • Source termination recommendation
  • Removed undershoot and maximum rise/fall time limits.
  • CEC capacitance limits changed
  • RGB video quantization range clarification
  • CEC commands for timer control brought back in an altered form, audio control commands added.
  • Concurrently released compliance test specification included.

[edit] Cable length

The HDMI specification does not define a maximum cable length. As with all cables, signal attenuation becomes too high at a certain length. Instead, HDMI specifies a minimum performance standard. Any cable meeting that specification is compliant. Different construction quality and materials will enable cables of different lengths. In addition, higher performance requirements must be met to support video formats with higher resolutions and/or frame rates than the standard HDTV formats.

The signal attenuation and intersymbol interference caused by the cables can be compensated by using Adaptive Equalization.

HDMI 1.3 defined two categories of cables: Category 1 (standard or HDTV) and Category 2 (high-speed or greater than HDTV) to reduce the confusion about which cables support which video formats. Using 28 AWG, a cable of about 5 metres (~16 feet) can be manufactured easily and inexpensively to Category 1 specifications. Higher-quality construction (24 AWG, tighter construction tolerances, etc.) can reach lengths of 12 to 15 metres (~39 to 49 feet). In addition, active cables (fiber optic or dual Cat-5 cables instead of standard copper) can be used to extend HDMI to 100 metres or more. Some companies also offer amplifiers, equalizers and repeaters that can string several standard (non-active) HDMI cables together.

[edit] Criticism

HDMI has been criticized for implementing part of a growing DRM process in home audio/video. See, for instance:

[edit] See also

[edit] References and Notes

  1. ^ "Samsung announces digital still camera with HDMI" [1] February 23, 2006.
  2. ^ Sanyo camcorder with HDMI [2] January 11, 2007
  3. ^ Canon HV20 camcorder with HDMI [3] January 31, 2007
  4. ^ HDMI FAQ
  5. ^ Read |HDMI 1.3a Specification 1.3a Section 9.2.
  6. ^ Read HDMI CTS 1.3a Section 10.
  7. ^ HDMI 1.3 Press Release.
  8. ^ Joseph Palenchar (2006-06-19). HDMI 1.3 Connections Due By Year End.
  9. ^ HDMI Part 5 - Audio in HDMI Versions (2006-08-09).
  10. ^ Pics of the HDMI-mini connector.
  11. ^ HDMI.org. HDMI 1.3 Preview the future of HD. October 27, 2006.
  12. ^ HDMI.org. HDMI Licensing Launches HDMI 1.3 World Tour. October 26, 2006.
  13. ^ Allion HDMI Licensing, LLC announced the release of version 1.3a of both HDMI Spec and Compliance Test Spec. November 24, 2006.
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