Circuit Descriptions and Abbreviation List
EN 118 EM5A P/M9.
The RGB amplifiers on the CRT-panel are supplied with 200 V
from the LOT.
The Auto-SCAVEM circuit modulates transitions of the
Luminance (Y) signal on the horizontal deflection current,
giving a sharper picture.
The sound part is built around the MSP34xx (Multi-channel
Sound Processor) for IF sound detection, sound control and
source selection. Dolby decoding is also done by the MSP.
Amplification is done via a class D integrated power amplifier
IC, the TDA7490.
The microprocessor, called OTC (OSD, Teletext and Control)
takes care of the analogue TXT input- and output processing.
The OTC, ROM, and RAM are supplied with 3.3 V, which is
derived from the +5V2.
The NVM (Non Volatile Memory) is used to store the settings,
the Flash-RAM contains the set software, and the DRAM is
used for storing the Teletext pages.
There is a separate Standby Supply, in order to reduce the
Standby power consumption. During Standby, the Main Supply
is switched “off” (via TS7529).
A relay (1550) is used to switch the Degaussing circuit. It is
switched “on” after set start-up and switched “off” by the P after
12 s.
The Main Supply, an SMPS based on the “buck-converter” or
“buck-boost-convertor principle (dependant on the set type),
generates the 141 V (V
BAT
) and the +/- 16 V for the audio part.
Note: Voltage V
BAT
is not mains isolated (“hot”), but is
alignment free.
9.3 Power Supply (Diagram A1 & A2)
The power supply has a number of main functions:
• Mains harmonic filter.
• Degaussing picture tube.
• Standby power supply.
• Main supply.
9.3.1 Mains Harmonic Filter (Diagram A1)
Figure 9-2 Mains harmonic filter circuitry
The mains harmonic filter has two functions: to prevent that
high frequency signals (harmonics) are transferred into the
mains and to protect the set from lightning damage.
C2507 prevents that the high frequency signals, generated by
the set, are conveyed into the mains (it forms a short-circuit).
In case of a lightning surge between the 2 phases (differential
mode), the energy is immediately bled away through the VDR
(R3509) to the other phase.
In case of a lightning surge on both phases of the mains in
relation to the aerial earth (common mode), the filter acts as a
high resistance (U
EMK
= L * dI/dt), as a result of which the
voltage across coil L5503/04 increases. A spark gap (1590)
prevents that the voltage increases too much, which would lead
to a damaged coil. When ignited, the current will be discharged
via this spark gap.
Resistor R3500 is used for limiting the inrush-current.
9.3.2 Degaussing (Diagram A1)
As soon as the set is switched 'on' via the mains switch, the
5V2 is present. As the 'DEGAUSSING' signal from the
processor (OTC) is 'low', transistor 7528 will conduct and relay
1550 is activated. Initially a considerable current will flow, via
PTC 3516, through the degaussing coil. The PTC will heat up,
resistance will rise, and the current will decay rapidly. The OTC
makes the 'DEGAUSSING' signal 'high' after 12 s, which will
switch 'off' the relay.
9.3.3 Standby Power Supply (Diagram A2)
Principle
This power supply is delivering the standby voltage, but also
the main voltages for the small signal part. It is a SOPS type
(Self-Oscillating Power Supply) and is regulated by the
controlled switching of an oscillator. It uses the so-called
'Flyback' principle:
Figure 9-3 Flyback principle
After closing switch 'S', the current I
D
will increase linear in time.
The magnetic energy in the primary coil is directly proportional
with the self-inductance of the coil and current I
D
(thus with the
time the switch is closed).
The voltage polarity at the secondary winding is negative (due
to different winding direction), meaning that diode D will block.
Capacitor C will discharge via R
L
, U
OUT
will decrease.
Opening switch 'S' will generate a counter-e.m.f. in the primary
winding, trying to maintain current I
D
. Through this the polarity
of the secondary voltage will inverse. The magnetic energy,
stored in the coil, will now be transformed to the secondary
side. Diode D will now conduct, capacitor C will be charged and
U
OUT
will increase.
CL 16532044_020.eps
140501
2507
mains
3521
4M7
1501
1590
3501
9503
Mains harmonic
diversity
3551
2
1
3
4
V
9504
9504
+375V
-
-+
2516
2537
3500
5502
5511 or 5516
3
1
1
2
4
3
2
5503 or
5504
96532156_020.eps
210100
+
-
-
+
-
-
+
+
RL
D
Id
U
out
C
+
C
+
375V
S
RL
D
U
out
375V
S
Isec
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