Genius 1993 Manual De Usuario
HORIZONTAL DEFLECTION SCHEMATIC.
5.5-6.3V
3.6Vpp 08,E6
Hs
3-7VDC
.2Vpp 07,E6
Hs
5-6VDC
7Vpp
Hs
09,E6
+800Hz
680
Ω
9
10
7
8
I10
13
14
15
16
DISCHARGE
HORIZONTAL
OSCILLATOR
OSCILLATOR
H. V+
9.31K
1K
33K
.01uF
I8
I9
345
346
415
LA7851
H.Fo ADJ.
17
+200Hz
+400Hz
F
G
340
Ω
170
Ω
E
I14
I15
I16
10.8-12V
10, E6
Horizontal
Transformer
I11
343
2.2nF
100
Ω
19
20
GND
433
2SC5690
434
1.2
Ω
435
1N4007
332
2
1
3
4
4
3,300pF-38KHz
6,800pF-15KHz
3,300pF-31KHz
3,300pF-31KHz
107V-127V
336
SCREEN
EHT
10
GND
FIL.
FOCUS
1
453
6
8
7
5
5
4
3
2
FLYBACK
TRANSFORMER
V-
Beam
Current
Fil.
TC11
FOCUS
Screen
EHT
Fil. Rtn. TC12
467
0
Ω
1K
465
9
452
451
452
To Yoke
Drive
Video
Board
Board
800
092
092A
To P/S
The horizontal oscillator capacitor
345
charges to its upper voltage limit through resistors
I10
,
I16
,
I15
,
I 14
, and
336
. This capacitor is
then discharged to the lower voltage limit through the
action of discharge pin 9 and resistor
action of discharge pin 9 and resistor
I 9
. The free
running frequency (Hfo) may be adjusted by making
solder connections on the I PRA. (see page 65 for the I
PRA layout). In some cases where there are many
missing horizontal sync pulses, it is necessary to
adjust the Hfo closer than ±200 Hz. For fine tuning
the Hfo, resistor
solder connections on the I PRA. (see page 65 for the I
PRA layout). In some cases where there are many
missing horizontal sync pulses, it is necessary to
adjust the Hfo closer than ±200 Hz. For fine tuning
the Hfo, resistor
336
is replaced with a pot.
The duty cycle of the horizontal drive transistor
is generated by comparing the oscillator waveform
against a fixed voltage. This fixed voltage is set by
resistors
is generated by comparing the oscillator waveform
against a fixed voltage. This fixed voltage is set by
resistors
417
and
418
.
The voltage on capacitor
346
controls the
horizontal oscillator frequency via
I8
. In the case
of missing horizontal sync pulses, the multiplier does
not sink current and flywheel capacitor
not sink current and flywheel capacitor
344
holds
the horizontal frequency constant. Resistor
I7
permits small rapid changes of the control voltage at
pin 7 for locking of the oscillator to horizontal sync.
pin 7 for locking of the oscillator to horizontal sync.
The horizontal phase locked loop then consists
of an oscillator which sets the flyback timing.
The flyback pulse is then compared to the incoming
sync pulse and the difference voltage holds the
oscillator at the sync frequency.
of an oscillator which sets the flyback timing.
The flyback pulse is then compared to the incoming
sync pulse and the difference voltage holds the
oscillator at the sync frequency.
The horizontal output transistor
433
conducts
about three amps of horizontal flyback
transformer primary current and deflection
yoke current. This transistor has a beta as low
as three. To supply the high base current, a
horizontal output transistor drive transformer is
used. The drive transformer
transformer primary current and deflection
yoke current. This transistor has a beta as low
as three. To supply the high base current, a
horizontal output transistor drive transformer is
used. The drive transformer
332
builds up
energy during the on time of the drive
transistor,
transistor,
337
which is the off time of the
horizontal output transistor
433
. Capacitor
343
and resistor
I 11
damps the drive
transformer primary waveform. To reduce
power dissipated by the horizontal output
transistor during turnoff, a clamp circuit is
connected to the drive transformer primary.
This clamp consists of resistor
power dissipated by the horizontal output
transistor during turnoff, a clamp circuit is
connected to the drive transformer primary.
This clamp consists of resistor
341 ,
capacitor
338
, and diode
342
.
The flyback transformer's main function is to
supply EHT to the CRT. It also supplies the
focus and screen grid voltages which are taps on
the EHT supply. There are three low voltage
secondaries. One supplies the filament
current, negative G1 voltage, and timing on the
video board. Another supplies sync and EHT
information to the power supply. The third
secondary drives the horizontal blanking circuit
and supplies sync for the horizontal PLL, the
horizontal width control, & the vertical sync
synchronizing circuits.
supply EHT to the CRT. It also supplies the
focus and screen grid voltages which are taps on
the EHT supply. There are three low voltage
secondaries. One supplies the filament
current, negative G1 voltage, and timing on the
video board. Another supplies sync and EHT
information to the power supply. The third
secondary drives the horizontal blanking circuit
and supplies sync for the horizontal PLL, the
horizontal width control, & the vertical sync
synchronizing circuits.
346
I
8
344
336
336
345
I
7
I
9
433
332
343
433
341
417
418
I
14
I
15
I
10
I
16
337
342
338
NO DVM
27,G6
Hs
.9KVpp
I11
83