TDA9882TS/V1,118 NXP Semiconductors, TDA9882TS/V1,118 Datasheet - Page 8

TDA9882TS/V1,118

Manufacturer Part Number

TDA9882TS/V1,118

Description

IC IF-PLL DEMOD 24-SSOP

Manufacturer

NXP Semiconductors

Type

Demodulatorr

Datasheet

1.TDA9882TSV1118.pdf (45 pages)

Specifications of TDA9882TS/V1,118

Package / Case

Applications

Set-Top Boxes

Mounting Type

Surface Mount

Mounting Style

SMD/SMT

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

935273911118
TDA9882TS/V1-T
TDA9882TS/V1-T

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Philips Semiconductors

9397 750 13507

Product data sheet

8.4 FPLL detector

8.5 VCO and divider

8.6 AFC and digital acquisition help circuit

For positive modulation, the white peak level voltage is compared with a reference voltage

(nominal white level) by a comparator which charges (fast) or discharges (slow) the

external AGC capacitor directly for the generation of the required VIF gain. The need of a

very large time constant for VIF gain increase is caused by the fact that the peak white

level may appear only once in a ﬁeld. In order to reduce this time constant, an additional

level detector increases the discharging current of the AGC capacitor (fast mode) in the

event of a decreasing VIF amplitude step controlled by the detected actual black level

voltage. The threshold level for fast mode AGC is typical 6 dB video amplitude. The fast

mode state is also transferred to the SIF AGC detector for speed-up. In case of missing

peak white pulses, the VIF gain increase is limited to typical 3 dB by comparing the

detected actual black level voltage with a corresponding reference voltage.

The VIF ampliﬁer output signal is fed to a frequency detector and a phase detector via a

limiting ampliﬁer to remove the video AM.

During acquisition the frequency detector produces a current that is proportional to the

frequency difference between the VIF and the VCO signal. After frequency lock-in the

phase detector produces a current that is proportional to the phase difference between

the VIF and the VCO signal. The currents from the frequency and phase detector are

charged into the loop ﬁlter which controls the VIF VCO and locks it to the frequency and

phase of the VIF carrier.

For a positive modulated VIF signal, the charging currents are gated by the composite

sync in order to avoid signal distortion in case of overmodulation. The gating depth is set

to 0 %.

The VCO of the VIF FPLL operates as an integrated low radiation relaxation oscillator at

twice the picture carrier frequency. The control voltage, required to tune the VCO to

actually double the picture carrier frequency, is generated at the loop ﬁlter by the

frequency phase detector. The possible frequency range is 50 MHz to 140 MHz (typical

value).

The oscillator frequency is divided-by-two to provide two differential square wave signals

with exactly 90 degrees phase difference, independent of the frequency, for use in the

FPLL detectors, the video demodulator and the single reference QSS mixer.

Each relaxation oscillator of the VIF PLL and FM PLL demodulator has a wide frequency

range. To prevent false locking of the PLLs, with respect to the catching range, the digital

acquisition help circuit provides an individual control until the frequency of the VCO is

within the preselected standard dependent lock-in window of the PLL.

The VIF carrier frequencies 38.9 MHz (M/N, B/G, I, D/K and L standard), 45.75 MHz

(NTSC standard) and 33.9 MHz (L-accent standard) can be selected via pin VIF0 and

pin QSSO with resistor; see

The FM carrier frequencies can be selected via pin FM0 and pin FM1; see

Rev. 01 — 16 November 2004

Multistandard vision and QSS FM sound IF PLL demodulator

Table

TDA9882

Table

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TDA9882TS/V1,118 NXP Semiconductors, TDA9882TS/V1,118 Datasheet - Page 8

TDA9882TS/V1,118

Specifications of TDA9882TS/V1,118

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