TMC22152KHC Fairchild Semiconductor, TMC22152KHC Datasheet - Page 55

TMC22152KHC

Manufacturer Part Number

TMC22152KHC

Description

Manufacturer

Fairchild Semiconductor

Datasheet

1.TMC22152KHC.pdf (84 pages)

Specifications of TMC22152KHC

Screening Level

Commercial

Package Type

MQFP

Pin Count

100

Lead Free Status / RoHS Status

Compliant

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PRODUCT SPECIFICATION

If either of the error signals indicates that the magnitude

difference is above the programmed threshold, or if ANEN is

LOW, the adaptive notch ﬁlter is bypassed. The output of the

adaptive notch ﬁlter is rounded to 8 or 10 bits, or the luma

data that bypasses the coring ﬁlter is truncated to 8 or 10 bits

depending upon the CORO register bit.

Luma Notch Filter

The simple luma notch ﬁlter is centered at 0.25 of normal-

ized frequency, it therefore intended for use only in the sub-

carrier mode (4 * fSC) and for limited use with 13.5MHz

NTSC as the subcarrier sits at 0.265 of normalized fre-

quency. The notch ﬁlter is enabled by setting the NOTCH

Matrix

The magnitude of the decoded luminance and color differ-

ence signals will vary, not only with the standard, but also

with the input mode. For this reason the output matrix

contains programmable multipliers, and not just ﬁxed

scaling factors. The following sub sections explain the differ-

ent scalar in the output matrix. The gain term in the Y, mixed

sync, U and V scalar is the same - only the weighting makes

them different. The scalar are capable of independently

providing 6dB of gain if required.

-10

-20

-30

-40

-50

-60

-70

-10

-20

-30

-40

-50

-60

-70

Figure 26. Luminance Notch Filter

Figure 25. Adaptive Notch Filters

Adaptive Notch

Filter 3

Normalized Frequency

Adaptive Notch

Filter 2

Filter 1

Programmable U Scalar

The U scalar (UGx) provides the weighting required to

produce (B-Y) or C

hence

where UGx = gain / 0.493, and

where UGx = (gain * 448) / Umax

UGx has a scaling range of 0 to (2047/256).

Programmable V Scalar

The V scalar (VGx) provides the weighting required to

produce (R-Y) or C

hence

where VGx = gain / 0.877, and

where VGx = (gain * 448) / Vmax

VGx has a scaling range of 0 to (1023/256).

Programmable Y Scalar

The Y scalar (YGx) provides the scaling for the luminance

signal if the output is YC

the RGB output along with the U scalar and V scalar. It is not

possible to control the magnitude of the RGB signals inde-

pendently.

YGx has a scaling range of 0 to (1023/256).

Programmable MS Scalar

The sync scalar (SGx) provides the scaling for the sync

signal if the output requires sync on RGB. The programmed

sync scaling factor is used during the horizontal and vertical

burst blanking periods. During the active lines, the luma

scaling factor is used to allow scaling of “super blacks” etc.,

which will be passed down the mixed sync path because they

fall below the clamp level.

SGx has a scaling range of 0 to (1023/256).

Fixed (B-Y) and (R-Y) Scalars

These two scalars are zero when the output is YC

provide the (B-Y) and (R-Y) weighting when the output is

RGB. These are ﬁxed scaling factors and are derived from

the following equations.

(G-Y) = - [(0.299/0.587) * (R-Y)]

(G-Y) = - [(1043/2048) * (R-Y)]

- [(0.114/0.587) * (B-Y)]

- [(398/2048) * (B-Y)]

(B-Y) = UGx * U

(R-Y) = VGx * V

= UGx * U

= VGx * V

from the demodulated U signal.

from the demodulated V signal.

, or controls the magnitude of

TMC22x5y

and

TMC22152KHC Fairchild Semiconductor, TMC22152KHC Datasheet - Page 55

TMC22152KHC

Specifications of TMC22152KHC

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