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
2-66 Model 330. 340SC, and 370SC Service Manual
There are three (3) ports for receiving IR radiation. One (1) is located on the front
of the projector just above the Green projection lens and the other two (2) are
located on the rear panel. One of the receivers on the rear panel is located next to
the LED display and, like the front receiver, is used for directly receiving IR
radiation. The other rear-mounted receiver is used for connecting an IR repeater,
which is an optional device that allows the user to control the projector from up to
150 feet away.
The IR receivers are not located on the SCB but are directly controlled by the
CPU and are connected via the backplane.
IIC Interface
The IIC Interface is used to transfer operating data to the circuit boards. IIC is a
protocol for a chipset made by Phillips. It is a bi-directional serial
communications interface. The IIC uses three (3) lines for communications: a
clock line (IICCLK), a data line (IICDATA), and an interrupt line (/IICINT). The
SCB is the master when communicating over the IIC with the other circuit boards
being slaves. The SCB sends information to another board by sending an address
then data. When the circuit boards have information to communicate to the SCB,
an interrupt is generated.
The SCB polls the boards to see who sent the interrupt. The SCB then reads the
information from the IIC bus.
One primary use of the IIC in the projector, in addition to its use as a data transfer
device, is control of the differential serial communications bus.
Serial Interface
The Serial Interface is a differential communication bus used for transferring data
quickly from the SCB to the other boards. It is unidirectional. In order for any
board to receive a packet of data via the Serial Interface, it must first be
commanded to receive that data by the IIC interface. Then the data is sent over the
differential bus to the receiving board. Once a packet of data has been sent, the IIC
must again be used to allow another packet to be received.
General I/O
This section describes the inputs to and outputs from the SCB. The I/O
descriptions are arranged by the source/destination of the signal. The assemblies
communicated with are the primary heading of each group of signals and are
further subdivided into inputs and outputs. In each case, the signal's direction is
noted, with input referring to an input to the SCB, and output to an output from
the SCB. (e.g. under Raster Timing Generator; 'Input'; /MAPST refers to the
signal /MAPST that is an input to the SCB from the Raster Timing Generator
Board). Any test points provided are noted.