Genius 2093 사용자 설명서
2SC3467
390
Ω
, 2W
1N4148
1N4148
4.5-5.3V
5Vpp 16,E5
Vs
16
14
15
GND
370
22K
V. Ref.
GND
408
15.8K
11
12
13
GND
Boost
Vert.
Out
Thermal Protection
1N4005
397
.1uF
395
0
Ω
404
407
372
371
200K
200K
PN2222
373
PN2222
411
Vertical Linearity Circuit
382
406
405
DECREASES
TOP AND
BOTTOM
VERT. SIZE.
I
MPS2907
413
200K
412
200K
H
INCREASES
TOP AND
BOTTOM
VERT. SIZE.
D5
D5
409
1.5-2.7V
24Vpp 24,E4
Vs
4.7
Ω
396
VERTICAL DEFLECTION SCHEMATIC.
197
2SC4159E
119
1,000uF
+
198
30
Ω
196
270
Ω
199
1N4005
399
.1uF
GND
Capacitor multiplier for the 2793.
196
22-28V
.8Vpp 24,F7
Vs
12-16V
DC
50Vpp 28,F6
Vs
VERTICAL
YOKE
YC1
426
RAS. POS.
0 TO 7 VDC
V
420
100
Ω
1/2W
394
421
+
1,000uF
35V
35V
449
V.+12V
LA7851
See
Table
See
Table
YC2
427
81
In similar manner, the positive half of the
vertical current waveform is conducted by
transistor
vertical current waveform is conducted by
transistor
373
diode
405
, and resistors
372
and
404
. Both transistors
373
and
411
may
be connected to pin 4 via solder connection H or
they may be connected to inverting transistor
they may be connected to inverting transistor
409
and resistors
412
and
413
.
The inverting transistor is connected with
solder connection I and decreases the vertical
size at the top and bottom of the screen.
solder connection I and decreases the vertical
size at the top and bottom of the screen.
The ramp capacitor
401
is connected to a
differential amplifier at pin 6 and the negative
feedback from the yoke return line is connected
to pin 7. This negative feedback, which senses
the DC component of the vertical output voltage,
is also the current feedback for the LA7838. It is
made up of voltage divider resistors
feedback from the yoke return line is connected
to pin 7. This negative feedback, which senses
the DC component of the vertical output voltage,
is also the current feedback for the LA7838. It is
made up of voltage divider resistors
388
and
390
+
393
and a wave shaping integrator.
The wave shaping integrator, capacitor
391
and
resistor
392
, is used as the primary vertical
linearity adjustment.
The output of the vertical drive, differential
amplifier, is connected to the power amplifier
which drives the yoke. A booster circuit is
connected to the the power amplifier supply via
capacitor
amplifier, is connected to the power amplifier
which drives the yoke. A booster circuit is
connected to the the power amplifier supply via
capacitor
380
and clamp diode
382
such that
when the booster is active, during vertical
retrace, the power supply to the vertical output
amplifier is doubled. Resistor
retrace, the power supply to the vertical output
amplifier is doubled. Resistor
396
and capacitor
397
make up a high
frequency vertical output stabilization circuit.
The vertical output at pin 12 is connected to
the vertical yoke. Resistor
the vertical yoke. Resistor
421
is a load resistor
across the yoke which stabilizes the vertical
deflection feedback loop. The yoke return is
decoupled by capacitor
deflection feedback loop. The yoke return is
decoupled by capacitor
449
and the vertical
current is sensed by resistor
385
. The vertical
raster position is adjusted by injecting current in
the vertical yoke return. This is accomplished
by transistor
the vertical yoke return. This is accomplished
by transistor
420
, with emitter resistor
394
,
and the
V. RAS. POS.
control
483
.
A capacitive multiplier circuit is connected in
series with the 27 volt line, in the 27” monitor, to
reduce the ripple voltage due to beam current
variations. Transistor
series with the 27 volt line, in the 27” monitor, to
reduce the ripple voltage due to beam current
variations. Transistor
197
conducts current
from the 27 volt line to the LA7838 deflection
supply input pin 8. Capacitor
supply input pin 8. Capacitor
119
and resistors
196
and
198
form a low pass filter which is
connected to the base of this transistor. Diode
199
conducts the inductive current from the
vertical yoke during the first part of retrace.
A jumper at
A jumper at
196
replaces the capacitive
multiplier circuit in the chassis with smaller
CRTs.
CRTs.
405
373
372
388
390
393
401
404
413
409
198
196
199
391
392
394
420
197
119
196
421
396
382
397
385
449
380
412
H
I
483
373
411