Projector Service Manual
Table Of Contents
- DECLARATION OF CONFORMITY
- BZSAFE.PDF
- CH1INTRO.PDF
- CH2SYSDE.PDF
- Functional Descriptions
- Contents
- Cover and Base
- External Power Requirements
- Electronics Systems Overview
- System Power
- Card Cage
- Circuit Boards
- Raster Timing Generator Board (RTG) p/n 100568
- Sync Generator
- Sync Detector and Selector
- Serration and Equalization Lockout
- Phase Locked Loop
- VSYNC Detector, Field Separator, and Mux
- Adjustment Counters
- Serial Communication
- Raster Timing Generator I/O
- Interlocks and Protection
- Horizontal Deflection Board P/N 102523 (HDB)
- Vertical Oscillator
- Horizontal Phase Locked Loop
- Horizontal Centering
- Horizontal Power Supply
- Flyback Switching
- Geometric Correction
- Output Section
- Horizontal Sweep Failure Detection
- Serial Communication
- Horizontal Deflection Board I/O
- Interlocks and Protection
- Vertical Deflection Board P/N 102521(VDB)
- Vertical Preamps
- Vertical Amplifiers
- Sweep Failure Detection
- Side Pincushion and Keystone Correction
- Horizontal Linearity Correction
- Top and Bottom Pincushion and Keystone Correction
- Correction Amplifiers
- Serial Communication
- General I/O
- Interlocks and Shutdowns
- Video Processor Board P/N 104672 (VPB)
- Decoder
- Video/Sync Mux
- V & H Sync Strip
- SG Sync Strip
- B, G, and R Brightness and Contrast Amplifiers
- On-Screen Switch
- Gamma Correction
- Switch Logic and Video Enable
- RGB Sensitivity and Threshold Amplifier
- ILA® Bias
- Dynamic Focus Amplifier
- Serial Communication
- General I/O
- Interlocks and Protection
- Video Amplifier Board P/N 103567 or 103774 (VAB)
- Video Signal
- Failure Detection
- Beam Current Sense
- DC Restore
- Arc Protection
- Blanking
- Enable Circuit
- Focus
- Filament Supply
- General I/O
- System Controller Board P/N 104668 (SCB)
- General Functional Description
- CPU
- Working and Compressed Memory
- Expanded Memory
- Correction Address Generator
- DACs
- DSP
- Overlay Memory
- Overlay Address Generator
- Overlay Interface
- LED Display Buffers and Logic
- RS232 Interface
- IR Interface
- IIC Interface
- Serial Interface
- General I/O
- Backplane Board p/n 100571
- Optical Section
- Image Light Amplifier
- Functional Descriptions
- CH3ADJST.PDF
- CH4MAINT.PDF
- Maintenance Remove/Replace)
- Contents
- Introduction
- Projector Covers
- Ventilation Filters
- Arc Lamp Assembly
- System Power Supply
- Electronics Module
- Cathode Ray Tube (CRT)
- Video Amplifier Board (VAB)
- CRT Yoke
- High Voltage Power Supply (HVPS)
- Card Cage (Printed Circuit Boards)
- Image Light Amplifier Assembly
- Projection Lens
- (SCB) Socket Battery Replacement
- Recommended Spares
- Maintenance Remove/Replace)
- CH5TRBSH.PDF
- HGLOSS.PDF
Chapter 2—Functional Description
Model 330, 340SC and 370SC Service Manual 2-27
The purpose for having an oscillator for the vertical sweep circuit is to maintain a sweep
even in the event of loss of vertical sync signal to prevent damage to the CRT. The
vertical oscillator has a free-run frequency of approximately 35Hz when there is no input.
Horizontal Phase Locked Loop
The incoming signal, /HSYNCR initially is sent through a Frequency to Voltage
converter. The output from the F to V is used to provide a program voltage to the PLL, set
the horizontal phase adjustment range, and to set the frequency of the horizontal power
supply. The Horizontal PLL, like the vertical oscillator, takes the input pulsed signal,
/HSYNCR, from the RTG, locks to it, and produces a pulsed output of the same
frequency. The Horizontal PLL has the additional function of controlling the phase of the
output signal relative to the input signal. To do this, the horizontal PLL receives an input
from the SCB via the serial bus that indicates the desired phase relationship. The
incoming signal /HSYNCR is then compared with the flyback pulse (derived separately
from the /HVFLBCK signal listed in the I/O section) to measure the phase relationship.
To control horizontal phase, the operator presses the PHASE button on the remote
control, then adjusts phase with the left and right arrow keys. As with the vertical
oscillator, the Horizontal PLL provides for a minimum free-run frequency in the event of
loss of horizontal sync signal. That frequency is approximately 12.5kHz.
Horizontal Centering
Horizontal centering of each raster (R, G, and B) is accomplished by applying a direct
current bias to each horizontal deflection coil. The DC comes from a programmable
current source that is in series with the main deflection coil. The current source is capable
of providing either positive or negative polarity. Control input to the current sources
comes from the SCB via the serial interface. Pressing the POS (Position) button on the
remote control, then selecting the desired color can independently control the centering of
each individual color. The left and right arrow keys are then pressed to adjust horizontal
position. When controlling the position, Green is a master, i.e.: when Green is selected,
all three-(3) colors move. Red and Blue are independent.
Horizontal Power Supply
The horizontal power supply is a switching power supply that provides an output voltage
proportional to the horizontal frequency and width. The variable output of the power
supply is a negative voltage providing a sink for the horizontal deflection current. The
trace speed of the CRT spot will be determined by the voltage applied across the
deflection coil. The voltage at the power supply output directly determines this in turn. So
when the output from the power supply increases, a given width of raster can be obtained
in a shorter period of time, thus supporting a higher horizontal frequency. In addition to
providing for the maintenance of a constant raster size for varying frequency, a variable
power supply is also necessary for control of the raster width. The output voltage of the
horizontal power supply is controlled primarily by two (2) inputs.