DS90UH949-Q1 Datasheet, PDF(18/87 Page) Texas Instruments – 1080p HDMI to FPD-Link III Bridge Serializer with HDCP

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DS90UH949-Q1 Datasheet, PDF (18/87 Pages) Texas Instruments – 1080p HDMI to FPD-Link III Bridge Serializer with HDCP

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DS90UH949-Q1

SNLS453 â NOVEMBER 2014

www.ti.com

8.3 Feature Description

8.3.1 High-Definition Multimedia Interface (HDMI)

HDMI is a leading interface standard used to transmit digital video and audio from sources (such as a DVD

player) to sinks (such as an LCD display). The interface is capable of transmitting high-definition video, audio,

and also supports HDCP. Other HDMI signals consist of various control and status data that travel bidirectionally.

8.3.1.1 HDMI Receive Controller

The HDMI Receiver is an HDMI version 1.4b compliant receiver. The HDMI receiver is capable of operation at

greater than 1080p resolutions. The configuration used in the DS90UH949-Q1does not include version 1.4b

features such as the ethernet channel (HEC) or Audio Return Channel (ARC).

8.3.2 Transition Minimized Differential Signaling

HDMI uses Transition Minimized Differential Signaling (TMDS) over four differential pairs (3 TMDS channels and

1 TMDS clock) to transmit video and audio data. TMDS is widely used to transmit high-speed serial data. The

technology incorporates a form of 8b/10b encoding and its differential signaling allows it to reduce

electromagnetic interference (EMI) and achieve high skew tolerance.

8.3.3 Enhanced Display Data Channel

The Display Data Channel or DDC is a collection of digital communication protocols between a computer display

and a graphics adapter that enables the display to communicate its supported display modes to the adapter and

allow the computer host to adjust monitor parameters, such as brightness and contrast.

8.3.4 Extended Display Identification Data (EDID)

EDID is a data structure provided by a digital display to describe its capabilities to a video source. By providing

this information, the video source can then send video data with proper timing and resolution that the display

supports. The DS90UH949-Q1 supports several options for delivering display identification (EDID) information to

the HDMI graphics source. The EDID information is accessible via the DDC interface and comply with the DDC

and EDID requirements given in the HDMI v1.4b specification.

The EDID configurations supported are as follows:

â¢ External local EDID (EEPROM)

â¢ Internal EDID loaded into device memory

â¢ Remote EDID connected to I2C bus at deserializer side

â¢ Internal pre-programmed EDID

The EDID mode selected should be configurable from the MODE_SEL pins, or from internal control registers. For

all modes, the EDID information should be accessible at the default address of 0xA0.

8.3.4.1 External Local EDID (EEPROM)

The DS90UH949-Q1 can be configured to allow a local EEPROM EDID device. The local EDID device may

implement any EDID configuration allowable by the HDMI v1.4b and DVI 1.0 standards, including multiple

extension blocks up to 32KB.

8.3.4.2 Internal EDID (SRAM)

The DS90UH949-Q1 also allows internal loading of an EDID profile up to 256 bytes. This SRAM storage is

volatile and requires loading from an external I2C master (local or remote). The internal EDID is reloadable and

readable (local/remote) from control registers during normal operation.

8.3.4.3 External Remote EDID

The serializer copies the remote EDID connected to the I2C bus of the remote deserializer into its internal

SRAM. The remote EDID device can be a standalone I2C EEPROM, or integrated into the digital display panel.

In this mode, the serializer automatically accesses the Bidirectional Control Channel to search for the EDID

information at the default address 0xA0. Once found, the serializer copies the remote EDID into local SRAM.

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