AD725ARZ-RL Analog Devices Inc, AD725ARZ-RL Datasheet - Page 8

AD725ARZ-RL

Manufacturer Part Number

AD725ARZ-RL

Description

IC,TV/VIDEO CIRCUIT,Color Encoder Circuit,CMOS,SOP,16PIN,PLASTIC

Manufacturer

Analog Devices Inc

Type

Video Encoderr

Datasheet

1.AD725ARZ.pdf (20 pages)

Specifications of AD725ARZ-RL

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)

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Voltage - Supply, Analog

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Part Number:

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AD725

THEORY OF OPERATION

The AD725 is a predominantly analog design, with digital logic

control of timing. This timing logic is driven by a external fre-

quency reference at four times the color subcarrier frequency,

input into the 4FSC pin of the AD725. This frequency should

be 14.318 180 MHz for NTSC encoding, and 17.734 475 MHz

for PAL encoding. The 4FSC input accepts standard TTL logic

levels. The duty cycle of this input clock is not critical, but a fast-

edged clock should be used to prevent excessive jitter in the timing.

The AD725 accepts two common sync standards, composite

sync or separate horizontal and vertical syncs. To use an exter-

nal composite sync, a logic high signal is input to the VSYNC

pin and the composite sync is input to the HSYNC pin. If sepa-

rate horizontal and vertical syncs are available, the horizontal

sync can be input to the HSYNC pin and vertical sync to the

VSYNC pin. Internally, the device XNORs the two sync inputs

to combine them into one negative-going composite sync.

The AD725 detects the falling sync pulse edges, and times their

width. A sync pulse of standard horizontal width will cause the

insertion of a colorburst vector into the chroma modulators at

the proper time. A sync pulse outside the detection range will

cause suppression of the color burst, and the device will enter its

vertical blanking mode. During this mode, the on-chip RC time

constants are verified using the input frequency reference, and

the filter cutoff frequencies are retuned as needed.

The component color inputs, RIN, GIN and BIN, receive ana-

log signals specifying the desired active video output. The full-

scale range of the inputs is 0.714 mV (for either NTSC or PAL

operation). External black level is not important as these inputs

are terminated externally, and then ac coupled to the AD725.

The AD725 contains on-chip RGB input clamps to restore the

dc level on-chip to match its single supply signal path. This dc

restore timing is coincident with the burst flag, starting approxi-

mately 5.5 s after the falling sync edge and lasting for 2.5 s.

During this time, the device should be driven with a black input.

4FSC CLOCK

NTSC/PAL

GREEN

HSYNC

VSYNC

BLUE

RED

4FSC

XNOR

CLAMP

CSYNC

QUADRATURE

RGB-TO-YUV

ENCODING

DECODER

MATRIX

SEPARATOR

SYNC

FSC 0 C

FSC 90 C

Figure 17. Functional Block Diagram

LP PRE-

CSYNC

3-POLE

4-POLE

FILTER

BURST

LPF

CSYNC

BURST

CLAMP

(PAL ONLY)

NTSC/PAL

180 C

–8–

Following the dc clamps, the RGB inputs are buffered and split

into two signal paths for constructing the luminance and

chrominance outputs.

Luminance Signal Path

The luminance path begins with the luma (Y) matrix. This

matrix combines the RGB inputs to form the brightness infor-

mation in the output video. The inputs are combined by the

standard transformation

This equation describes the sensitivity of the human eye to the

individual component colors, combining them into one value of

brightness. The equation is balanced so that full-scale RGB

inputs give a full-scale Y output.

Following the luma matrix, the composite sync is added. The

user-supplied sync (from the HSYNC and VSYNC inputs) is

latched into the AD725 at half the master clock rate, gating a

sync pulse into the luminance signal. With the exception of

transitioning on the clock edges, the output sync timing will be

in the same format as the input sync timing. The output sync

level will depend on the encoding standard, 286 mV (40 IRE)

for NTSC and 300 mV for PAL (voltages at the pin will be

twice these levels).

In order to be time-aligned with the filtered chrominance signal

path, the luma signal must be delayed before it is output. The

AD725 uses a sampled delay line to achieve this delay.

Following the luma matrix and prior to this delay line, a prefilter

removes higher frequencies from the luma signal to prevent aliasing

by the sampled delay line. This three-pole Bessel low-pass filter has

a –3 dB frequency of 4.85 MHz for NTSC, 6 MHz for PAL.

After the luma prefilter, the bandlimited luma signal is sampled

onto a set of capacitors at twice the master reference clock rate.

After an appropriate delay, the data is read off the delay line,

reconstructing the luma signal. The 8FSC oversampling of this

delay line limits the amount of jitter in the reconstructed sync

output. The clocks driving the delay line are reset once per

video line during the burst flag. The output of the luma path

will remain unchanged during this period and will not respond

to changing RGB inputs.

FSC 90 C/270 C

MODULATORS

BALANCED

DELAY LINE

SAMPLED-

AT 8FSC

CLOCK

DATA

Y = 0.299

POWER AND GROUNDS

NOTE:

THE LUMINANCE, COMPOSITE AND CHROMINANCE

OUTPUTS ARE AT TWICE NORMAL LEVELS FOR

DRIVING 75

AGND

DGND

+5V

NTSC/PAL

LP POST-

2-POLE

FILTER

4-POLE

R + 0.587 G + 0.114

LPF

REVERSE-TERMINATED LINES.

LOGIC

ANALOG

LOGIC

LUMINANCE

OUTPUT

LUMINANCE

TRAP

COMPOSITE

OUTPUT

CHROMINANCE

OUTPUT

REV. 0

AD725ARZ-RL Analog Devices Inc, AD725ARZ-RL Datasheet - Page 8

AD725ARZ-RL

Specifications of AD725ARZ-RL

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