| High-Definition Multimedia Interface | |
| Type: | Digital audio/video connector |
| Designer: | The HDMI group |
| Design Date: | December 2002 |
| Manufacturer: | Various |
| Production Date: | 2003 |
| External: | Yes |
| Hotplug: | 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. |
| Data Bandwidth: | 10.2 Gbit/s at 340 Mpixel/s |
| Num Pins: | 19 |
| Pinout Caption: | Type A (Female) HDMI |
| Pin1 Name: | TMDS Data2+ |
| Pin2 Name: | TMDS Data2 Shield |
| Pin3 Name: | TMDS Data2– |
| Pin4 Name: | TMDS Data1+ |
| Pin5 Name: | TMDS Data1 Shield |
| Pin6 Name: | TMDS Data1– |
| Pin7 Name: | TMDS Data0+ |
| Pin8 Name: | TMDS Data0 Shield |
| Pin9 Name: | TMDS Data0– |
| Pin10 Name: | TMDS Clock+ |
| Pin11 Name: | TMDS Clock Shield |
| Pin12 Name: | TMDS Clock– |
| Pin13 Name: | CEC |
| Pin14 Name: | Reserved (N.C. on device) |
| Pin15 Name: | SCL |
| Pin16 Name: | SDA |
| Pin17 Name: | DDC/CEC Ground |
| Pin18 Name: | +5 V Power (max 50 mA) |
| Pin19 Name: | Hot Plug Detect |
The High-Definition Multimedia Interface (HDMI) is a licensable compact audio/video connector interface for transmitting uncompressed digital streams. It represents the DRM alternative to consumer analog standards such as RF (coaxial cable), composite video, S-Video, SCART, component video and VGA, and digital standards such as DVI (DVI-D and DVI-I).
HDMI connects DRM-enforcing digital audio/video sources such as a set-top box, an HD DVD disc player, a Blu-ray Disc player, a personal computer, a video game console, or an AV receiver to a compatible digital audio device and/or video monitor such as a digital television (DTV). HDMI began to appear in 2006 on consumer HDTV camcorders and high-end digital still cameras.[1][2] Shipments of HDMI are expected to exceed that of Digital Visual Interface (DVI) in 2008, driven primarily by the Consumer Electronics (CE) Market. [3]
HDMI supports, on a single cable, any TV or PC video format, including standard, enhanced or high-definition video, plus multi-channel digital audio. 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 subsequent 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 165 MHz, sufficient for supporting 1080p at 60 Hz or WUXGA (1920x1200), but HDMI 1.3 increased that to 340 MHz, providing support for WQXGA (2560x1600) and beyond across a single digital link. See also: HDMI Versions.
HDMI also includes support for 8-channel uncompressed digital audio at 192 kHz 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 Super Audio CD. With version 1.3, HDMI now also supports 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 recording certain restricted content.
PCs with hardware HDMI output may require software support from Operating Systems such as Windows Vista. Linux currently supports video output through backward-compatibility with DVI.
In the US, HDCP-support is a standard feature on digital TVs with built-in digital (ATSC) tuners. Among the PC-display industry, where computer displays rarely contain built-in tuners, HDCP support is absent from many models. For example, the first LCD monitors with HDMI connectors did not support HDCP, and few compact-LCD monitors (17" or smaller) support HDCP.
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.
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.
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 13.9 mm wide by 4.45 mm high. Type A is electrically compatible with single-link DVI-D.
A higher resolution version called Type B is defined in HDMI 1.0. Type B has 29 pins (21.2 mm 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-D, but is not in general use.
The Type C mini-connector is intended for portable devices. It is smaller than Type A (10.42 mm by 2.42 mm) but has the same 19-pin configuration.
The HDMI cable can be used to carry video, audio, and/or device-controlling signals (CEC). Adaptor cables, from Type A to Type C, are also available.
There are revisions in HDMI cabling specifications relevant to data throughput, of which all HDMI cables are backwards compatible, with HDMI 1.3 being the latest and Category 2 being the highest (greater than HDTV or Category 1). Typically HDMI cables are significantly more expensive than other cabling standards, not because of the cable’s manufacturing cost, but at a price most consumers are willing to pay, being still relatively high-end boutique. Many on-line retailers and auction sites are now offering high-end HDMI cables at prices similar to coaxial and RCA cabling, fractions of what most retailers are currently charging.
The Transition Minimized Differential Signaling (TMDS) channel:
The Consumer Electronics Control (CEC) channel is optional to implement, but wiring is mandatory. The channel:
This feature is used in two ways:
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. For example, if it is later than 11:00 p.m., 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.
Alternative names for CEC are Anynet (Samsung), Aquos Link (Sharp), BRAVIA Theatre Sync (Sony), Regza Link (Toshiba), RIHD (Onkyo), Simplink (LG), Viera Link/EZ-Sync (Panasonic/JVC), Easylink (Philips) and NetCommand for HDMI (Mitsubishi).
According to High-bandwidth Digital Content Protection (HDCP) Specification 1.2:
Devices are manufactured to adhere to various versions of the specification, where each version is given a revision number. Each subsequent 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 an HDMI rating). The main thing to consider is if any current cable would be able to handle the increased bandwidth—for example the 10.2 Gbit/s 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).
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 color standard. This means if you have bought a camcorder that supports the wide color space (which for example is branded by Sony as "x.v.Color") you have to specifically check that the display supports both HDMI v1.3 and the xvYCC wide color standard.
Released December 2002.
Released May 2004.
Released August 2005.
Released December 2005.
Released 10 November 2006.[11]
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 ft) 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 ft). 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.
Both introduced in 2006, Blu-ray Disc and HD DVD offer new high-fidelity audio features that require HDMI for best results. Dolby Digital Plus (DD+), Dolby TrueHD and DTS-HD Master Audio use bitrates exceeding TOSLINK's capacity. HDMI 1.3 can transport DD+, TrueHD, and DTS-HD bitstreams in compressed form. This capability would allow a preprocessor or audio/video receiver with the necessary decoder to decode the data itself, but has limited usefulness for Blu-ray and HD DVD.
Blu-ray and HD DVD permit "interactive audio", where the disc-content tells the player to mix multiple audio sources together, before final output. Consequently, most players will handle audio-decoding internally, and simply output LPCM audio all the time. Multichannel LPCM can be transported over an HDMI 1.1 (or higher) connection. As long as the audio/video receiver (or preprocessor) supports multi-channel LPCM audio over HDMI, and supports HDCP, the audio reproduction is equal in resolution to HDMI 1.3. However, many of the cheapest AV receivers do not support audio over HDMI and are often labeled as "HDMI passthrough" devices.
Note that not all of the features of an HDMI version may be implemented in products adhering to that version since certain features of HDMI, such as Deep Color and xvYCC support, are optional.
| HDMI revision | 1.0 | 1.1 | 1.2/1.2a | 1.3/1.3a/1.3b |
|---|---|---|---|---|
| Maximum signal bandwidth (MHz) | 165 | 165 | 165 | |
| Maximum TMDS bandwidth (Gbit/s) | 4.95 | 4.95 | 4.95 | |
| Maximum video bandwidth (Gbit/s) | 3.96 | 3.96 | 3.96 | |
| Maximum audio bandwidth (Mbit/s) | 36.86 | 36.86 | 36.86 | 36.86 |
| Resolutions possible over single link HDMI at 24bits per pixel | 1920x1080p60 | 1920x1080p60 | 1920x1080p60 | |
| RGB | ||||
| YCbCr | ||||
| xvYCC | ||||
| Deep Color | ||||
| Maximum Color Depth (bits per pixel) | 24 | 24 | 24 | |
| Consumer Electronic Control (CEC)** | ||||
| Updated list of CEC commands*** | ||||
| Auto lip-sync | ||||
| 8channel/192 kHz/24-bit audio capability | ||||
| DVD-A support | ||||
| SACD (DSD) support **** | ||||
| TrueHD bitstream capable | ||||
| DTS-HD Master Audio bitstream capable | ||||
| Blu-ray/HD DVD video and audio at full resolution***** |
* = 36-bit support is mandatory for Deep Color compatible CE devices with 48-bit support being optional.
** = CEC has been in the HDMI specification since version 1.0 but has only begun to be used in CE products with HDMI version 1.3.
*** = Large number of additions and clarifications for CEC commands. One addition is CEC command allowing for volume control of an AV receiver.
**** = Playback of SACD may be possible for older revisions if the signal source (such as the Oppo 970) converts to LPCM. For those receivers that have only PCM DAC converters and not DSD, this means that no additional resolution loss occurs.
***** = Even for audio bitstream formats that a given HDMI revision can not transport, it may still be possible to decode the bitstream in the player and transmit the audio as LPCM.
One recent competitor to HDMI is the DisplayPort standard which had version 1.0 approved in May 2006 and is currently supported in a few computer monitors. As of yet no CE displays or AV receivers have been released that support DisplayPort though Samsung has said that they may release such a display sometime in 2008.
There are a few advantages that HDMI has over DisplayPort such as support for the xvYCC color space, Dolby TrueHD and DTS-HD MA bitstream support, CE control signals, and compatibility with DVI. DisplayPort has an advantage that at the moment the technology is royalty and license free which might allow it to be cheaper to implement. So far though DisplayPort has increased costs for the few computers monitors that have used it since they included support for both DisplayPort and HDMI. Most of the backers of DisplayPort are computer companies with its largest supporter being Dell which in January of 2008 released a computer monitor that supported both DisplayPort and HDMI. There has been criticism that DisplayPort is unneeded and that it is folly for Dell to continue to support DisplayPort when HDMI has become the de facto standard for the CE industry.[12]