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EN 134
9.
EM5A NTSC
The supply voltage is a symmetrical voltage of +/- 16 V (or +/-
19 V, depending on the set execution), generated by the main
supply via L5512 (or L5506.)
Mute
Sound muting is performed by the STBY-MUTE line connected
to pin 6 (tri-state input) of the amplifier IC. This line is activated
via the SOUND-ENABLE line (software controlled) and/or POR
line (hardware controlled.)
This signal is inverted by TS7701 and/or TS7703, and as a
result, at a high level of the SOUND-ENABLE signal, current is
sinked from pin 2 and the IC mutes.
Protection
A loudspeaker DC protection is implemented. The amplifier IC
TDA7490 has a 'standby-mute-play' feature via the tri-state
input pin 6. When the voltage on pin 6 is:
•
0 - 0.7 V, the IC is in 'standby' mode
•
1.7 - 2.5 V, the IC is in 'mute' mode
•
4 - 5 V, the IC is in 'play' mode (normal operation.)
Note: This is a 'local' protection, not controlled by the
microprocessor.
47K
OUT
47K
7704
100K
V X
R
(PROT 1)
2778
L
(RES)
10K
POR
C/SW
10K
Sound Enable
Figure 9-24 Loudspeaker DC-protection
This works in the following way:
•
During normal operation, V
(+5 V.)
•
When a positive DC-voltage is detected on a loudspeaker
output (= V
), TS7704, TS7706, and TS7707 will conduct,
X
making V
'low.'
Y
•
When a negative DC-voltage is detected on a loudspeaker
output (= V
), TS7705, TS7706, and TS7707 will conduct,
X
also making V
'low.'
Y
•
When V
is 'low' (read 0 V), the tri-state input (pin 6) puts
Y
the amplifier IC in 'standby' mode.
9.14.6 Headphone Amplifier (Diagram B10)
The headphone amplifier is a straightforward OpAmp amplifier
(IC7681, NJM4556.) It is supplied with +8 V.
9.15 Closed Caption (Diagram B5)
The CC-decoder in the OTC gets its video signal directly on pin
5 (from the HIP.)
The RGB-outputs are available on pins 77/78/79. Fast blanking
is realized via pin 80.
Circuit Descriptions and Abbreviation List
+5V
10K
7700/7702
33K
7706
SOUND-IC's
V Y
6
23
47K
2705
STANDBY-MUTE
470N
(TRISTATE)
7705
7707
10K
7703
7701
CL 16532044_017.eps
is 'low' (0 V) and V
is 'high'
X
Y
9.16 CRT Panel / Rotation
9.16.1 RGB Amplifiers (Diagram F1)
+8V
100n
2505
GND_RGB
7506
B
BC847B
3522
470R
GND_RGB
GND_RGB
The RGB signals from the HOP are fed to three identical
amplifiers (TDA6118) on the CRT panel. We will use one of
them (B, connector 1940 pin 9) as an example for this
description.
After emitter follower TS7506, the signal is fed to TS7507 and
TS7508. This circuit sends the signal, with the same DC-
voltage, to the RGB amplifier (IC7350, pin 3.) In order to cope
with the higher picture definition, this IC has a larger bandwidth
than the previous ones. The cathodes of the picture tube are
driven via outputs 8.
The supply voltage for the amplifiers is 200 V and is derived
OUT
from the LOT.
The delay line item 5502 compensates for group delay time
differences between Scavem and the RGB signals.
9.16.2 Rotation (Diagram A5)
In sets with a rotation coil (wide screen sets), the amount of
frame rotation is adjusted with the 'Tilt' DAC-output of the HOP
pin 25 (see also 'Vertical Deflection'.)
140501
9.17 Auto Scavem (Diagrams SC1 and F2)
9.17.1 Introduction
To improve the sharpness, the Scan Velocity Modulation
(Scavem) circuit modulates the deflection speed as a function
of the picture contents. This feature uses a separate Scavem
deflection coil.
Auto Scavem is introduced, to be able to display the high
definition signal from the FBX7. Since the Auto TV software
now controls the Scavem circuit, it is called Auto Scavem.
The circuit with the Scavem amplifier, is located on a separate
CBA (parallel to the SSB), and is connected to the picture tube
panel.
+8V
+8V
+8V
2303
1p
9503
BC857B
7508
7507
5502
BC847B
2506
SDL
1p
3528
820R
GND_RGB
GND_RGB
GND_RGB
Figure 9-25 RGB signal path
3530
To TDA6118
(pin 3)
100R
CL 26532058_017.eps
050602
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