DP-4X DIGITAL CONVERGENCE INTERFACE CIRCUIT EXPLANATION
PAGE 06-03
EXPLANATION OF THE DIGITAL CONVERGENCE INTERCONNECT DIAGRAM:
See Digital Convergence Interconnection Circuit Diagram for details.
INFRARED RECEIVER:
During normal operations, the
IR
receiver directs its signal to the Main Microprocessor where it interprets the
incoming signal and performs a predefined set of operations. However, when the Service Only Switch is pressed,
the Main Microprocessor routes the IR codes to the DCU via
IY05
. Now the DCU receives theses commands and
interprets them accordingly. The Microprocessor is notified at pin
42
when the DCU begins its operation by the
BUSY line. As long as the BUSY line is active, the Main Microprocessor doesn’t receive
IR
signals. This is to
avoid the Microprocessor from performing any operations during DCAM. (Digital Convergence Adjustment
Mode) activity.
ON SCREEN DISPLAY PATH:
MICROPROCESSOR SOURCE FOR OSD:
The On Screen Display signal path is shown with the normal OSD information such as Channel Numbers, Vol-
ume Graphic Bar, Main Menu, Service Menu, etc… sent from the Main Microprocessor pins
34
,
33
and
32
,
through buffers
QY34
,
QY32
and
QY29
to the
Rainforest
IY04
pins
26
,
25
and
24
. These are positive going
pulses, about 5 V p/p and about 3uSec in length dependant upon there actual horizontal time for display.
DCU (Digital Convergence Unit) SOURCE FOR OSD:
The DCU has to produce graphics as well. When the
Service Only
switch is pressed, the Main Microprocessor
knows the DCU is Busy as described before. Now the On Screen Display path is from the DCU pins
22
,
21
and
20
to the
Rainforest
IY04
pins
24
,
25
and
26
.
The output for the DCU OSD characters is output through the
PDG
connector pins (
23 Dig Red, 27 Dig Green
and 19 Dig Blue
). These are routed to the
PDS1
connector pins (
1 Dig Red, 4 Dig Green and 8 Dig Blue
). Then
through their buffers, (
QY26 Dig Red, QY25 Dig Green and QY24 Dig Blue
). Then it arrives at the Rainforest
IY04
at pins (
21 Dig Red, 19 Dig Green and 18 Dig Blue
). When a character pulse arrives at any of these pins,
the internal color amp is saturated and the output is generated to the CRTs. Any combination for these inputs
generates either the primary color Red, Green or Blue or the complementary color Red and Green which creates
Yellow, Red and Blue which creates Magenta or Green and Blue which creates Cyan.
OUTPUT STKs IK41 and IK40:
These are output amplifiers that take the correction waveforms generated by the DCU and amplify them to be
used by the Convergence Yoke assemblies for each color.
RV is Red Vertical Convergence correction. Adjust the location either up or down for Red.
RH is Red Horizontal Convergence correction. Adjust the location either left or right for Red.
GV is Green Vertical Convergence correction. Adjust the location either up or down for Red.
GH is Green Horizontal Convergence correction. Adjust the location either left or right for Red.
BV is Blue Vertical Convergence correction. Adjust the location either up or down for Red.
BH is Blue Horizontal Convergence correction. Adjust the location either left or right for Red.
CONVERGENCE YOKES:
Each CRT has a Deflection Yoke and a Convergence Yoke assembly. The Deflection manipulates the beam in
accordance to the waveforms produced within the Horizontal and Vertical Deflection circuits. The Convergence
Yoke assembly manipulates the Beam in accordance with the correction waveforms produced by the DCU.
MAGIC FOCUS SENSORS AND INTERFACE: (8 Sensor Array).
Each of the eight photo cells, called solar batteries in the service manual, have their own amps which develop the
DC potential produced by the photo cells. Each amp is routed through the
PDSE
connector and arrives at the
PDG
connector on the DCU where the DCU converts this DC voltage to Digital signals. These digital signals are
used only when the Magic Focus Button is pressed and Magic Focus runs or during Initialization of the sensors.
(Continued on page 4)
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