SAA7114HV2T NXP Semiconductors, SAA7114HV2T Datasheet - Page 20

SAA7114HV2T

Manufacturer Part Number

SAA7114HV2T

Description

Manufacturer

NXP Semiconductors

Datasheet

1.SAA7114HV2T.pdf (144 pages)

Specifications of SAA7114HV2T

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SAA7114_3

Product data sheet

8.1.3.1 Chrominance path

The 9-bit CVBS or chrominance input signal is fed to the input of a quadrature

demodulator, where it is multiplied by two time-multiplexed subcarrier signals from the

subcarrier generation block 1 (0 and 90 phase relationship to the demodulator axis).

The frequency is dependent on the chosen color standard.

The time-multiplexed output signals of the multipliers are low-pass ﬁltered (low-pass 1).

Eight characteristics are programmable via LCBW3 to LCBW0 to achieve the desired

bandwidth for the color difference signals (PAL, NTSC) or the 0 and 90 FM signals

(SECAM).

The chrominance low-pass 1 characteristic also inﬂuences the grade of cross luminance

reduction during horizontal color transients (large chrominance bandwidth means strong

suppression of cross luminance). If the Y-comb ﬁlter is disabled by YCOMB = 0 the ﬁlter

inﬂuences directly the width of the chrominance notch within the luminance path (a large

chrominance bandwidth means wide chrominance notch resulting in a lower luminance

bandwidth).

The low-pass ﬁltered signals are fed to the adaptive comb ﬁlter block. The chrominance

components are separated from the luminance via a two-line vertical stage (four lines for

PAL standards) and a decision logic between the ﬁltered and the non-ﬁltered output

signals. This block is bypassed for SECAM signals. The comb ﬁlter logic can be enabled

independently for the succeeding luminance and chrominance processing by YCOMB

(subaddress 09h, bit D6) and/or CCOMB (subaddress 0Eh, bit D0). It is always bypassed

during VBI or raw data lines programmable by the LCRn registers (subaddresses

41h to 57h); see

The separated C

(low-pass 2) to modify the chrominance bandwidth without inﬂuencing the luminance

path. Its characteristic is controlled by CHBW (subaddress 10h, bit D3). For the complete

transfer characteristic of low-passes 1 and 2, see

The SECAM processing (bypassed for QAM standards) contains the following blocks:

The succeeding chrominance gain control block ampliﬁes or attenuates the C

according to the required ITU 601/656 levels. It is controlled by the output signal from the

amplitude detection circuit within the burst processing block.

The burst processing block provides the feedback loop of the chrominance PLL and

contains the following:

•

Baseband ‘bell’ ﬁlters to reconstruct the amplitude and phase equalized 0 and 90

FM signals

Phase demodulator and differentiator (FM-demodulation)

De-emphasis ﬁlter to compensate the pre-emphasized input signal, including

frequency offset compensation (DB or DR white carrier values are subtracted from the

signal, controlled by the SECAM switch signal)

Burst gate accumulator

Color identiﬁcation and color killer

Comparison nominal/actual burst amplitude (PAL/NTSC standards only)

Loop ﬁlter chrominance gain control (PAL/NTSC standards only)

Section

-C

Rev. 03 — 17 January 2006

components are further processed by a second ﬁlter stage

8.2.

Figure 11

PAL/NTSC/SECAM video decoder

and

Figure

SAA7114

12.

-C

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SAA7114HV2T NXP Semiconductors, SAA7114HV2T Datasheet - Page 20

SAA7114HV2T

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