AD724JRZ Analog Devices Inc, AD724JRZ Datasheet - Page 11

AD724JRZ

Manufacturer Part Number

AD724JRZ

Description

IC ENCODER RGB TO NTSC 16-SOIC

Manufacturer

Analog Devices Inc

Type

Video Encoderr

Datasheet

1.AD724JRZ.pdf (15 pages)

Specifications of AD724JRZ

Applications

RGB To NTSC/PAL

Voltage - Supply, Digital

4.75 V ~ 5.25 V

Mounting Type

Surface Mount

Package / Case

16-SOIC (0.300", 7.5mm Width)

Power Dissipation Pd

800mW

Supply Voltage Range

4.75V To 5.25V

Operating Temperature Range

0Â°C To +70Â°C

Tv / Video Case Style

SOIC

No. Of Pins

Ic Function

RGB To NTSC/PAL Encoder

Termination Type

SMD

Rohs Compliant

Yes

Filter Terminals

SMD

Digital Ic Case Style

SOIC

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Voltage - Supply, Analog

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

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REV. B

Figure 15 shows a circuit for connection to the VGA port of a

PC. The RGB outputs are ac coupled to the respective inputs of

the AD724. These signals should each be terminated to ground

with 75 .

The standard 15-pin VGA connector has HSYNC on Pin 13

and VSYNC on Pin 14. These signals also connect directly to

the same name signals on the AD724. The FIN signal can be

provided by any of the means described elsewhere in the data

sheet. For a synchronous NTSC system, the internal 4FSC

(14.31818 MHz) clock that drives the VGA controller can be

used for FIN on the AD724. This signal is not directly accessible

from outside the computer, but it does appear on the VGA card.

If a separate RGB monitor is also to be used, it is not possible to

simply connect it to the R, G and B signals. The monitor pro-

vides a termination that would double terminate these signals.

The R, G and B signals should be buffered by three amplifiers

with high input impedances. These should be configured for a

gain of two, which is normalized by the divide-by-two termina-

tion scheme used for the RGB monitor.

The AD8013 is a triple video amplifier that can provide the

necessary buffering in a single package. It also provides a disable

pin for each amplifier, which can be used to disable the drive to

the RGB monitor when interlaced video is used (SELECT = LO).

When the RGB signals are noninterlaced, setting SELECT HI will

enable the AD8013 to drive the RGB monitor and disable the

encoding function of the AD724 via Pin 5. HSYNC and VSYNC

are logic level signals that can drive both the AD724 and RGB

monitor in parallel. If the disable feature is not required, the

AD8073 triple video op amp can provide a lower cost solution.

AD724 Used with an MPEG Decoder

MPEG decoding of compressed video signals is becoming a

more prevalent feature in many PC systems. To display images

on the computer monitor, video in RGB format is required.

However, to display the images on a TV monitor, or to record

the images on a VCR, video in composite format is required.

Figure 16 shows a schematic for taking the 24-bit wide RGB

***

DECODER

MPEG

OR 4.433620MHz (PAL) CAPACITOR VALUE DEPENDS

ON CRYSTAL CHOSEN

FSC OR 4FSC CLOCK; 3.579545MHz, 14.31818MHz (NTSC)

OR 4.433620MHz, 17.734480MHz(PAL)

0.1 F CAPACITORS RECOMMENDED

PARALLEL–RESONANT CRYSTAL; 3.579545MHz (NTSC)

0.1 F

10k

DATA IN

VSYNC

HSYNC

+5V (V

)

COMP

BLANK

SYNC

CLOCK

ADV7120

Figure 16. AD724 and ADV7120/ADV7122 Providing MPEG Video Solution

GND

REF

ADJ

IOG

IOB

IOR

0.01 F

550

SET

0.1 F

+5V

OSC

AD589

(1.2V REF)

0.1 F

–11–

CRYSTAL

video from an MPEG decoder and creating both analog RGB

video and composite video.

The 24-bit wide RGB video is converted to analog RGB by

the ADV7120 (Triple 8-bit video DAC—available in 48-lead

LQFP). The analog current outputs from the DAC are termi-

nated to ground at both ends with 75

sheet. These signals are ac coupled to the analog inputs of the

AD724. The HSYNC and VSYNC signals from the MPEG

Controller are directly applied to the AD724.

If the set of termination resistors closest to the AD724 are re-

moved, an RGB monitor can be connected to these signals and

will provide the required second termination. This is acceptable

as long as the RGB monitor is always present and connected. If

it is to be removed on occasion, another termination scheme is

required.

The AD8013 or AD8073 triple video op amp can provide buff-

ering for such applications. Each channel is set for a gain of two

while the outputs are back terminated with a series 75

tor. This provides the proper signal levels at the monitor, which

terminates the lines with 75 .

AD724 APPLICATION DISCUSSION—NTSC/PAL

CRYSTAL SELECT CIRCUIT

For systems that support both NTSC and PAL, and will use a

crystal for the subcarrier, a low cost crystal selection circuit can

be made that, in addition to the two crystals, requires two low

cost diodes, two resistors and a logic inverter gate. The circuit

selection can be driven by the STND signal that already drives

Pin 1 to select between NTSC and PAL operation for the AD724.

A schematic for such a circuit is shown in Figure 17. Each crys-

tal ties directly to FIN (Pin 3) with one terminal and has the

other terminal connected via a series diode to ground. Each

diode serves as a switch, depending on whether it is forward

biased or has no bias.

0.01 F

VSYNC

HSYNC

10–30pF

+5V

0.1 F

10k

***

GIN

BIN

HSYNC

VSYNC

FIN

ENCD

SELECT

RIN

APOS

DGND

AD724

AGND

DPOS

CRMA

COMP

LUMA

STND

+5V (V

220 F

+5V

10 F

L1 (FERRITE BEAD)

10k

as called for in the data

)

AD724

+5V (V

COMPOSITE

VIDEO

S-VIDEO

GND

33 F

)

resis-

AD724JRZ Analog Devices Inc, AD724JRZ Datasheet - Page 11

AD724JRZ

Specifications of AD724JRZ

Available stocks

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