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 Descriptions
2-28 Model 330. 340SC, and 370SC Service Manual
The first is an input derived from the F to V in the horizontal PLL circuit. This presets the
output of the supply to a voltage that will provide a nominal raster size for the horizontal
frequency applied.
The second input is provided by the SCB via the serial interface. This input allows
control of the raster width by the operator. To control the raster width, the operator
presses the SIZE button on the remote control. Pressing the left and right arrow keys then
controls the width. The three (3) rasters are not remotely controllable on an individual
basis. They can however, be set individually with respect to each other by adjusting the
cores of the variable inductors mounted on the yoke terminal boards (see appropriate
model Operator’s Manual).
Flyback Switching
Flyback switching, necessary to avoid overscan and excessive power consumption over
the wide range of horizontal frequencies covered, is accomplished using relays. When the
input source is changed, the relays are switched to change the response of the resonant
flyback circuit. Since horizontal flyback necessarily causes very high voltages, the relays
must not be switched while under load. When the SCB commands flyback switching to
occur, the switching circuit sends a signal to the GRN Horizontal sweep failure circuit to
turn off the CRT beams. It also sends a signal to the Horizontal Power Supply to turn it
off and shut down the horizontal sweep. The relays are then switched and the sweep and
CRT beams are allowed to return to normal. This sequence of events will occur each time
the input source to the projector changes, regardless of any line rate changes. There are
four frequency bands and flyback times that can be set. The frequency ranges and flyback
times are: 6.6uS @ 15-25.1kHz, 4.1uS @ 25-33.1kHz, 2.9uS @ 33-60.1kHz, and 2.4uS
@ 60-90kHz. Flyback switching is not manually controllable by the operator.
Geometric Correction
The HJT Model 330, 340SC and 370SC projectors provide the ability to obtain a
rectangular raster when shooting off-axis in the vertical direction from the screen. This
ability is provided by left/right keystone correction. A geometric correction signal,
GEOCORR, for controlling both the L/R keystone correction and the L/R pincushion
correction is obtained from the Vertical Deflection Board. The GEOCORR signal is a
periodic signal composed of a parabolic summed with a ramp signal, both at the vertical
frequency. This signal is used to vary the width of the horizontal sweep as the vertical
sweep progresses. It does this by modulating the negative voltage applied to the power
transistor, thereby modulating the horizontal width of the raster. The components of
GEOCORR, pincushion correction and keystone correction, are individually controllable
by the operator (see appropriate model Operator’s Manuals).
Output Section
The horizontal sync pulse signal produced by the Horizontal PLL is applied to the output
section to control the timing of the horizontal sweep. The output section includes the
power output transistor, base drive circuit, reversing connectors, and interlock circuit.