Philips L01.2A AB Service Manual page 49

Circuit Descriptions, Abbreviation List, and IC Data Sheets
9.2.3 FM radio (if present)
The FM radio uses the 10.7 MHz concept. This SIF frequency
is available at pin 10 of the tuner. Via a pre-amplifier (TS7209
and TS7210), the signal is fed for demodulation to either the
UOC (for mono FM radio) or by the Micronas MSP34X5 (for
stereo FM radio).
9.3 Video Signal Processing
9.3.1 Introduction
The video signal-processing path consists of the following
parts:
• RF signal processing.
• Video source selection.
• Video demodulation.
• Luminance/Chrominance signal processing.
• RGB control.
• RGB amplifier
The processing circuits listed above are all integrated in the
UOC TV processor. The surrounding components are for the
adaptation of the selected application. The I
defining and controlling the signals.
9.3.2 RF Signal Processing
The incoming RF signal goes to the tuner (pos. 1000), where
the IF signal is developed and amplified. The IF signals then
exits the tuner from pin 11 to pass through the SAW filter
(position 1002 in case of QSS demodulation and 1003 in case
of Intercarrier demodulation). The shaped signal is then applied
to the IF processor part of the UOC (pos. 7200).
Tuner AGC (Automatic Gain Control) will reduce the tuner gain
and thus the tuner output voltage when receiving strong RF
signals. Adjust the AGC take-over point via the Service
Alignment Mode (SAM). The tuner AGC starts working when
the video-IF input reaches a certain input level and will adjust
2
this level via the I C bus. The tuner AGC signal goes to the
tuner (pin 1) via the open collector output (pin 22) of the UOC.
The IC also generates an Automatic Frequency Control (AFC)
signal that goes to the tuning system via the I
frequency correction when needed.
The demodulated composite video signal is available at pin 38
and then buffered by transistor 7201.
9.3.3 Video Source Selection
The Composite Video Blanking Signal (CVBS) from buffer
7201 goes to the audio carrier trap filters (1200, 1201, or 1202
depending on the system used) to remove the audio signal.
The signal then goes to pin 40 of IC7200. The internal input
switch selects the following input signals:
• Pin 40: terrestrial CVBS input
• Pin 42: external AV1 CVBS input
• Pin 44: external Side I/O CVBS or AV2 Luminance (Y)
input
• Pin 45: external AV2 Chrominance (C) input
RGB/YUV _IN
AV1_CVBS1_1
CVBS_FRONT_IN
AV2 CVBS_IN
SVHS
2
C bus is for
9.3.4
2
C bus, to provide
9.3.5
L01.2A AB
7200
51 53
40
INTERNAL_CVBS_IN
42
7802
SY_CVBS_IN 44
0225-B
C-IN 45
9
Y_IN
C_IN
SEL-MAIN-FRNT-RR
70
QSS_AM_DEM_OUT
7831
SC2-CTRL
4
9 10
FRONT AUDIO IN
1, 12
AV1 AUDIO IN
5, 14 SC1-IN
AV1 AUDIO IN
3, 13 41, 42
2, 15
7801
Figure 9-5
Once the signal source is selected, a chroma filter calibration is
performed. The received colour burst sub-carrier frequency is
used for this. Correspondingly, the chroma band pass filter for
PAL/NTSC processing or the cloche filter for SECAM
processing is switched on. The selected luminance (Y) signal
is supplied to the horizontal and vertical synchronisation
processing circuit and to the luminance processing circuit. In
the luminance-processing block, the luminance signal goes to
the chroma trap filter. This trap is switched 'on' or 'off'
depending on the colour burst detection of the chroma
calibration circuit.
The group delay correction part can be switched between the
BG and a flat group delay characteristic. This has the
advantage that in multi-standard receivers no compromise has
to be made for the choice of the SAW filter.
Video Demodulation
The colour decoder circuit detects whether the signal is a PAL,
NTSC or SECAM signal. The result is made known to the auto
system manager. The PAL/NTSC decoder has an internal
clock generator, which is stabilised to the required frequency
by using the 12 MHz clock signal from the reference oscillator
of the microcontroller/teletext decoder.
The base-band delay line is used to obtain a good suppression
of cross colour effects.
The Y signal and the delay line outputs U and V are applied to
the luminance/chroma signal processing part of the TV
processor.
Luminance/Chrominance signal Processing
The output of the YUV separator is fed to the internal YUV
switch, which switches between the output of the YUV
separator or the external YUV (for DVD or PIP) on pins 51-53.
Pin 50 is the input for the insertion control signal called 'FBL-1'.
When this signal level becomes higher than 0.9 V (but less than
3 V), the RGB signals at pins 51, 52 and 53 are inserted into
the picture by using the internal switches.
Also some picture improvement features are implemented in
this part:
• Black stretch. This function corrects the black level of
incoming signals, which have a difference between the
black level and the blanking level. The amount of extension
depends upon the difference between actual black level
and the darkest part of the incoming video signal level. It is
detected by means of an internal capacitor.
• White stretch. This function adapts the transfer
characteristic of the luminance amplifier in a non-linear way
depending on the average picture content of the luminance
9. EN 49
UOC
RGB/YUV RGB
CRT
INSERT 56 58 PANEL
VIDEO
MON. OUT
PROC.
V-OUT
47
L/R OUT
P
47
SOUND
DEC
30, 31 7901
MAIN_OUT AUDIO
AMPL.
24,25
CL 16532016_011.eps
120401