ADV7190KSTZ Analog Devices Inc, ADV7190KSTZ Datasheet - Page 41

ADV7190KSTZ

Manufacturer Part Number

ADV7190KSTZ

Description

Manufacturer

Analog Devices Inc

Datasheet

1.ADV7190KSTZ.pdf (72 pages)

Specifications of ADV7190KSTZ

Number Of Dac's

Adc/dac Resolution

10b

Screening Level

Commercial

Package Type

LQFP

Pin Count

Lead Free Status / RoHS Status

Compliant

Current page: 41 of 72
Download datasheet (905Kb)

REV. B

DNR2 BIT DESCRIPTION

DNR Input Select (DNR20–DNR22)

Three bits are assigned to select the ﬁlter that is applied to the

incoming Y data. The signal that lies in the passband of the

selected ﬁlter is the signal that will be DNR processed. Figure

81 shows the ﬁlter responses selectable with this control.

DNR Mode Control (DNR23)

This bit controls the DNR mode selected. A Logic 0 selects

DNR mode, a Logic 1 selects DNR Sharpness mode.

DNR works on the principle of deﬁning low amplitude, high-

frequency signals as probable noise and subtracting this noise

from the original signal.

In DNR mode, it is possible to subtract a fraction of the signal

that lies below the set threshold, assumed to be noise, from

the original signal. The threshold is set in DNR Register 1.

When DNR Sharpness mode is enabled it is possible to add a

fraction of the signal that lies above the set threshold to the

original signal, since this data is assumed to be valid data and

not noise. The overall effect being that the signal will be boosted

(similar to using Extended SSAF Filter).

Figure 81. Filter Response of Filters Selectable

0.8

0.6

0.4

0.2

FILTER C

FILTER D

DNR17

BLOCK SIZE

FREQUENCY – MHz

CONTROL

FILTER B

8 PIXELS

16 PIXELS

DNR17

FILTER A

DNR16

BORDER AREA

2 PIXELS

4 PIXELS

Figure 80. DNR Register 1

DNR15

DNR14

–41–

DNR DNR DNR DNR DNR DNR

Figure 82. Block Diagram for DNR Mode and DNR Sharp-

ness Mode

Block Offset (DNR24–DNR27)

Four bits are assigned to this control which allows a shift of the

data block of 15 pixels maximum. Consider the coring gain posi-

tions ﬁxed. The block offset shifts the data in steps of one pixel

such that the border coring gain factors can be applied at the same

position regardless of variations in input timing of the data.

•

DNR27 – DNR24

Y DATA

INPUT

•

DNR13

DNR THRESHOLD

= 01 HEX

Figure 83. DNR27–DNR24, Block Offset Control

•

DNR

MODE

NOISE SIGNAL PATH

MAIN SIGNAL PATH

DNR

SHARPNESS

MODE

NOISE SIGNAL PATH

MAIN SIGNAL PATH

•

FILTER BLOCK

O X X X X X X O

DNR12

•

APPLY DATA

CORING GAIN

•

DNR11

BLOCK SIZE CONTROL

BORDER AREA

BLOCK OFFSET

CORING GAIN DATA

CORING GAIN BORDER

BLOCK SIZE CONTROL

BORDER AREA

BLOCK OFFSET

CORING GAIN DATA

CORING GAIN BORDER

GAIN CONTROL

< THRESHOLD ?

> THRESHOLD ?

APPLY BORDER

CORING GAIN

FILTER OUTPUT

ADV7190/ADV7191

FILTER OUTPUT

GAIN

> THRESHOLD

< THRESHOLD

O X X X X X X O

DNR10

SUBTRACT

SIGNAL IN

THRESHOLD

RANGE

FROM

ORIGINAL

SIGNAL

ADD

SIGNAL

ABOVE

THRESHOLD

RANGE

ORIGINAL

SIGNAL

OFFSET

CAUSED BY

VARIATIONS IN

INPUT TIMING

DNR

OUT

DNR

OUT

ADV7190KSTZ Analog Devices Inc, ADV7190KSTZ Datasheet - Page 41

ADV7190KSTZ

Specifications of ADV7190KSTZ

Related parts for ADV7190KSTZ