AD9398/PCBZ Analog Devices Inc, AD9398/PCBZ Datasheet - Page 10

AD9398/PCBZ

Manufacturer Part Number

AD9398/PCBZ

Description

Pb-freeEVALUATION Kit AD9398

Manufacturer

Analog Devices Inc

Datasheet

1.AD9398KSTZ-100.pdf (44 pages)

Specifications of AD9398/PCBZ

Main Purpose

Video, Video Processing

Utilized Ic / Part

AD9398

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Secondary Attributes

Embedded

Primary Attributes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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AD9398

TIMING

The output data clock signal is created so that its rising edge

always occurs between data transitions and can be used to latch

the output data externally.

Figure 3 shows the timing operation of the AD9398.

VSYNC FILTER AND ODD/EVEN FIELDS

The VSYNC filter is used to eliminate spurious VSYNCs, maintain

a consistent timing relationship between the VSYNC and

HSYNC output signals, and generate the odd/even field output.

The filter works by examining the placement of VSYNC

with respect to HSYNC and, if necessary, slightly shifting

it in time at the VSOUT output. The goal is to keep the

VSYNC and HSYNC leading edges from switching at the

same time, eliminating confusion as to when the first line

of a frame occurs. Enabling the VSYNC filter is done with

all cases, including interlaced video, and is required when using

the HSYNC per VSYNC counter. Figure 4 and Figure 5

illustrate even/odd field determination in two situations.

QUADRANT

DATACK

O/E FIELD

HSOUT

DATA

VSOUT

HSIN

VSIN

FIELD 1

SYNC SEPARATOR THRESHOLD

DCYCLE

SKEW

Figure 4. VSYNC Filter—Even

Figure 3. Output Timing

PER

FIELD 0

EVEN FIELD

FIELD 1

FIELD 0

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HDMI RECEIVER

The HDMI receiver section of the AD9398 allows the reception

of a digital video stream, which is backward compatible with

DVI and able to accommodate not only video of various for-

mats (RGB, YCrCb 4:4:4, 4:2:2), but also up to eight channels of

audio. Infoframes are transmitted carrying information about

the video format, audio clocks, and many other items necessary

for a monitor to use fully the information stream available.

The earlier digital visual interface (DVI) format was restricted

to an RGB 24-bit color space only. Embedded in this data

stream were HSYNCs, VSYNCs, and display enable (DE)

signals, but no audio information. The HDMI specification

allows transmission of all the DVI capabilities, but adds several

YCrCb formats that make the inclusion of a programmable

color space converter (CSC) a very desirable feature. With this,

the scaler following the AD9398 can specify that it always

wishes to receive a particular format—for instance, 4:2:2 YCrCb—

regardless of the transmitted mode. If RGB is sent, the CSC can

easily convert that to 4:2:2 YCrCb while relieving the scaler of

this task.

In addition, the HDMI specification supports the transmission

of up to eight channels of S/PDIF or I

information is packetized and transmitted during the video

blanking periods along with specific information about the

clock frequency. Part of this audio information (audio

infoframe) tells the user how many channels of audio are being

transmitted, where they should be placed, information

regarding the source (make, model), and other data.

DE GENERATOR

The AD9398 has an on-board generator for DE, for start of

active video (SAV), and for end of active video (EAV), all of

which are necessary for describing the complete data stream for

a BT656-compatible output. In addition to this particular

output, it is possible to generate the DE for cases in which a

scaler is not used. This signal alerts the following circuitry as to

which are displayable video pixels.

QUADRANT

O/E FIELD

VSOUT

HSIN

VSIN

FIELD 1

Figure 5. VSYNC Filter—Odd

SYNC SEPARATOR THRESHOLD

FIELD 0

ODD FIELD

S audio. The audio

FIELD 1

FIELD 0

AD9398/PCBZ Analog Devices Inc, AD9398/PCBZ Datasheet - Page 10

AD9398/PCBZ

Specifications of AD9398/PCBZ

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