JVC Projector Model 200 User Manual

SERVICE

MANUAL

Model 200 Projector

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Table of Contents

Safety Information .................................................................................. v

Chapter 1 Introduction

1.1 Acronyms Used in Manual......................................................................... 1-1

1.2 Safety ........................................................................................................ 1-2

1.2 Updates..................................................................................................... 1-2

1.4 Tool List..................................................................................................... 1-2

Chapter 2 Functional Description

2.1 Introduction................................................................................................ 2-1

2.2 Optical Section .......................................................................................... 2-2

2.3 Electronics System.................................................................................... 2-7

2.4 Image Light Amplifier Technology............................................................. 2-63

Chapter 3 Service Adjustments

3.1 Arc Lamp Focus and Alignment ................................................................ 3-1

3.2 Arc Lamp Current Setting.......................................................................... 3-4

3.3 Electronic Module Tilt-Up .......................................................................... 3-5

3.4 ILA^®Back Focus....................................................................................... 3-5

3.5 CRT Mechanical Focus............................................................................. 3-7

3.6 CRT Rotation............................................................................................. 3-9

3.7 CRT Electronic Focus ............................................................................... 3-10

3.8 ILA^®Overlap ............................................................................................. 3-10

3.9 Jumper Settings (Front/Rear or Inverted Vertical)..................................... 3-12

3.10 Vertical and Horizontal Size Settings ........................................................ 3-13

3.11 Software Updating..................................................................................... 3-15

3.12 Cleaning Lenses, ILA^®Assemblies and Mirrors ....................................... 3-17

Chapter 4 Maintenance (Removal/Replacement)

4.1 Introduction................................................................................................ 4-1

4.2 Projector Covers........................................................................................ 4-4

4.3 Air Filters ................................................................................................... 4-5

4.4 Arc Lamp Assembly................................................................................... 4-5

4.5 Arc Lamp Power Supply............................................................................ 4-8

4.6 Low Voltage Power Supply........................................................................ 4-8

4.7 High Voltage Power Supply....................................................................... 4-8

4.8 Raster Timing, System Controller, Video Processor PCBs....................... 4-10

4.9 Convergence/Deflection PCB.................................................................... 4-11

4.10 Horizontal/Vertical Deflection PCB............................................................ 4-12

4.11 Video Input Cards (VICs) .......................................................................... 4-13

4.12 Video Amplifier PCB.................................................................................. 4-14

4.13 Scan Reversal Board ................................................................................ 4-16

4.14 CRT/Yoke Assembly ................................................................................. 4-16

4.15 ILA^®Assembly .......................................................................................... 4-18

4.16 Relay Lens ................................................................................................ 4-19

4.17 Projection Lens.......................................................................................... 4-20

4.18 Prism Assembly......................................................................................... 4-21

iii

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Chapter 5 Troubleshooting

PCB Status LEDs.............................................................................................. 5-1

Error Codes ................................................................................................... 5-4

Troubleshooting Guide...................................................................................... 5-5

Chapter 6 Parts List.............................................................................. 6-1

Appendix A Import/Export ................................................... A-1

Appendix B Glossary............................................................................ B-1

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Safety Information

Introduction

Read entire Safety Chapter thoroughly before performing any

maintenance or service on the projector. Only qualified service

personnel should perform procedures and adjustments.

Safety Equipment: Use safety equipment specified in the

projector’s Maintenance training and certification program or

equivalent maintain equipment.

WARNINGS AND CAUTIONS!

Warnings and Cautions in this manual should be read thoroughly

and strictly adhered to. Warning and Caution definitions and

symbols are as follows:

WARNING SYMBOL

Warns user of a

potential electric shock hazard in a procedure or situation that

could result in personal injury if improperly performed.

CAUTION SYMBOL

Warns user of a

potential safety hazard or potential light hazard from ultraviolet,

infrared or bright light that could cause severe eye injury or a

situation that could result in damage to the equipment if

improperly used.

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Safety Information

Installation Safeguards

WARNING!!! Procedures in this service manual require

removing the projector’s covers to access internal component to

remove, replace, service and adjust the projector. Only Hughes-

JVC Certified Technicians are qualified to perform these

procedures. Before removing or replacing any internal

components or subassemblies, verify that the circuit breaker on

the back panel is in the Off position and remove the power plug.

Any adjustments performed that require covers off and power on

should be performed with extreme care. Be especially aware of

all hazardous areas indicated by warning and caution labels.

CAUTION!!! Do not use a forklift to lift the projector without

using a safe shipping pallet. Lifting the projector without

supporting the weight at the foot locations can cause severe

damage to the projector.

If there is any visible damage to the power cable, disconnect

power to the projector until the damaged cable is replaced. Install

the projector on a smooth, vibration-resistant level surface, or

ceiling mount, in an area free from dust and moisture. Do not

place the equipment in direct sunlight or near heat-radiating

appliances. Smoke, steam and exposure to direct sunlight could

adversely affect the internal components.

If mounting the projector, use hardware that can handle a

minimum of three (3) times the projector weight.

Heat Safeguards

Fans and Ventilation: The projector has multiple fans to cool the

system. Do not block the intake or outflow of any fans. Heat is

emitted within the system and must be properly dissipated to keep

the system running correctly. Blocking air intake or exhaust ports

can lead to projector overheating. Do not enclose the unit in a

restricted space (refer to the physical access and thermal

clearance illustration guidelines).

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Safety Information

CAUTION! Do not unplug the power cord until after the arc

lamp fan has stopped running. This fan protects the arc lamp from

overheating. Disconnecting power before the cooling fans have

stopped running can shorten Arc Lamp life.

Light Safeguards

Ultra Violet and Infrared Light

Eye and face protection from ultra violet light and infrared light in

accordance with the following conditions:

1. X3 (up to 375 nanometers), ANSI approved, shade

goggles must be worn by anyone near the projector

when it is lit and the cover is off.

2. X5 (375 to 700 nanometers), ANSI approved, shade

goggles when actually working on the projector

near the arc lamp source.

WARNING, BRIGHT LIGHT!!!

Never look directly at the Arc Lamp, the lighted Projection

Lens or into the lamp housing, from any distance, when the

projector is on. Direct exposure to light of this brightness can

cause severe eye injury.

Dangerous levels of ultraviolet and infrared radiation,

dangerous glare, very high temperatures (180°C to 300°C) and

high internal gas pressure are present at the Xenon Arc

Lamp. The lamp is contained in a protective reflector housing

module and should not be operated outside this housing or

outside of the projector. When replacement is needed, the arc

lamp must be replaced as an entire module, as shown in this

Model 200 Service Manual. Do not open the lamp housing or

attempt to replace the Arc Lamp inside its module! Do not

touch the Arc Lamp, or any connections, when the lamp is

ignited or is arcing. Any servicing of the Arc Lamp must

remain restricted to Hughes-JVC certified maintenance

personnel.

vii

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Safety Information

Electrical Safeguards

High voltage access. Front

and rear covers contain

safety interlocks. Defeat

restricted to Hughes-JVC

certified service personnel!

WARNING!!! High Voltage points up to 40,000 volts

are exposed inside the covers. Allow at least one minute for

the high voltage to bleed off, even after power is turned off.

Due to high voltage danger, DO NOT TOUCH

• CRT cables. These cables can cause severe shock from a

tiny, invisible crack or hole and should never be touched

while projector power is on.

• CRT anodes.

• Main power ± supply posts.

• Arc Lamp main power ± posts.

• CRT yoke assemblies and other proximity electrical

assemblies, components and wiring. If performing the ILA^®

Back Focus, CRT Mechanical Focus, CRT rotation, or

ILA^®Overlap adjustment, as outlined in Chapter 3, always

use an ANSI/ASTM 10,000 volt rated glove. Periodically

check the condition of the gloves for cracks.

Power Supply

The projector operates from a 100V - 240V, 20 Amp, single-

phase, 50/60 Hz AC power source. Ensure local power source

matches these requirements before operating!

For continued safe and reliable operation, only use cables

supplied by the manufacturer for power and signal connections.

Fluid Safeguards

Certain components of the projector contain fluid. If any fluid from

the projector contacts the skin, wash off with soap and water. If

any fluid from the projector splashes into the eyes, rinse with cool

running water.

viii

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Safety Information

Ventilation and Foreign Object Retrieval

CAUTION! Ensure projector’s multiple fans are free from

obstructions and operating properly. Air filters are located at vent

ports on the cover. Air filters require periodic cleaning to ensure

adequate cooling of the projector (Section 4.3). Ensure that all

vent ports are clear of obstructions.

Keep the inside of the projector free from foreign objects, such as

hairpins, nails, paper, etc. Do not attempt to retrieve any object or

insert metal objects such as wire and screwdrivers inside the unit.

If an object falls inside the projector, immediately unplug the

projector and call a Hughes-JVC certified technician to remove

object.

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Safety Information

Model 200 Service Manual

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Chapter 1---Introduction

1.0 Introduction

This Service Manual is designed to be used with the Model 200

User’s Guide. This service manual provides information on the:

— Projector functional description;

— Service adjustments, removal and replacement of

subassemblies; and

— Troubleshooting.

The user’s guide covers the projector’s installation, operation,

setup adjustments, and specifications. Together the service

manual and user’s guide provide a qualified service person with

information to operate and maintain the projector.

1.1 Safety

This projector contains high voltages and high intensity light

sources in its internal system and power supplies. Read entire

Safety Chapter at the front of this manual before performing any

adjustments or maintenance.

When performing procedures that call for projector’s power to be

on, always wear high voltage gloves (ANSI/ASTM 10,000 volt

rated) when working around the CRTs, Arc Lamp or power

supplies. Wear safety goggles (rated X5) when working anywhere

near the light path from the Arc Lamp or the projection lens at all

times.

1.2 Updates

Hughes-JVC will periodically provide bulletin and /or manual

supplements to ensure the accuracy of this service manual.

1.3 Tool List

The following tools are required to perform service adjustments:

All Purpose Tools=Diagonal Sidecutters, Wirestrippers,

Slot Adjustment Screwdriver (Tweeker),

Mirror/Magnet Pick-Up Tool, Flashlight, 6” Crescent

Wrench, Needlenose pliers, 6” Vise Grips

Balldriver, 1.5mm

Balldriver, 3mm

Balldriver, 3mm, Long

Balldriver, 4mm

Balldriver, 5mm, Long, T-handle

Balldriver, 6mm

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Chapter 1---Introduction

Balldriver, 8mm

Ballpoint L-Wrench Set, 1.5-5mm

Delrin .100 Hex Alignment Tool

Gloves, ANSI/ASTM 10,000 volt rated, Safety

Goggles, Safety, x3(covers on) and x5(covers off)

Hex Ballpoint Driver, 3mm

Hex Ballpoint Driver, 5mm

Nutdriver, 10mm

Nutdriver, 11mm (or 7/16”)

Nutdriver, 5mm

Nutdriver, 7mm

Nutdriver, 8mm

Screwdriver, Phillips, #1

Screwdriver, Phillips, #2

Screwdriver, Pozidrive, #1

Screwdriver, Pozidrive, #2

Screwdriver, Slot ¼”

Screwdriver, Slot, ½”

Screwdriver, Slot, 3/16”

Socket, ¼” drive, 7mm-deep

1.4 Acronyms Used in this Manual

ALPS

Arc Lamp Power Supply

CDB

Convergence/Deflection Board

Channel

CPU

CRT

EMI

FLASH

EPROM

FPGA

F to V

Central Processing Unit

Cathode Ray Tube

Electromagnetic Interference

Erasable Programmable Read-Only Memory

Field Programmable Gate Array

Frequency to Voltage

CRT Grid 2

HVDB

HDTV

Horizontal/Vertical Deflection Board

High Definition Television

Hertz

HSYNC

HVDB

HVPS

IIC

Horizontal Sync

Horizontal/Vertical Deflection Board

High Voltage Power Supply

Inter-Integrated Circuit

Image Light Amplifier

Input/Output

ILA^®

I/O

I/R

Infrared

kHz

Kilohertz

LED

Light Emitting Diode

Low Voltage Power Supply

National Television Standards Committee

Phase Alternating Line

Printed Circuit Board

Phase Lock Loop

LVPS

NTSC

PAL

PCB

PLL

1-2

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Chapter 1---Introduction

PLUGE

RAM

RGB

RGBHV

ROM

Picture Line-Up Generating Equipment

Random Access Memory

Red, Green and Blue

Red, Green, Blue, Horizontal, Vertical

Read Only Memory

RTG

SCB

SECAM

Raster Timing Generator

System Controller Board

Sequential couleur a memoire (sequencial

color with memory

SRB

SYNC

TTL

Scan Reversal Board

Synchronization

Transistor-Transistor Logic

Underwriter Laboratories

Ultraviolet

VAB

VCO

VIC

Video Amplifier Board

Voltage Controlled Oscillator

Video Input Card

VIN

Video Input

VPB

VSYNC

VTR

Video Processor Board

Vertical Sync

Video Tape Recorder

Luminance/Chrominance

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Chapter 1---Introduction

1-4

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Chapter 2---System Description

2.0 System Description

Contents

2.1 Introduction.............................................................................. 2-1

2.2 Optical System......................................................................... 2-2

2.2.1 Image Path................................................................... 2-2

2.2.2 Arc Lamp Light Path .................................................... 2-4

2.3 Electronics System .................................................................. 2-7

2.3.1 General Description ..................................................... 2-7

2.3.2 Power Supplies............................................................ 2-8

2.3.3 Video Input Cards ........................................................ 2-14

2.3.4 Video Processor PCB .................................................. 2-24

2.3.5 Video Amplifier PCB .................................................... 2-30

2.3.6 System Controller PCB................................................ 2-34

2.3.7 Raster Timing Generator PCB..................................... 2-40

2.3.8 Horizontal/Vertical Deflection PCB .............................. 2-45

2.3.9 Convergence/Deflection PCB ...................................... 2-51

2.3.10 Scan Reversal PCB ..................................................... 2-57

2.3.11 Backplane PCB............................................................ 2-62

2.4 Image Light Amplifier Technology ........................................... 2-63

2.1 Introduction

The assemblies and components in the Model 200 projector are

contained mainly in the five sections below:

•

The Optics Assembly Section is located at the front area of

the projector. The Optics Assembly Section includes the

Condensing Lens, Cold Mirror/IR Filter (

CAUTION!: The term "cold mirror" is used because

the mirror passes infrared light and its reflection contains only

"cold' light that does not transmit appreciable heat. As a result

of the absorption of infrared heat radiation, "cold" mirrors can

get very hot.), Ultraviolet Filter, Dichroic Mirror Assembly,

Prisms, Combining Prism, Image Mirrors, and the Zoom

Projection Lens.

•

The Arc Lamp Assembly section is located in the right front

area of the unit. It contains the Ignitor, Laser Power Supply,

Xenon Arc Lamp and Elliptical Reflector.

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Chapter 2---System Description

•

The Power Supply Section is located at the right front area of

the projector below and to the rear of the Arc Lamp. It contains

the Low Voltage Power Supply, the High Voltage Power

Supply, and the Arc Lamp Power Supply.

The Projector Electronics Section is located mainly in the

back half of the projector. It consists of the Electronics Module

that houses 6 of the electronics printed circuit boards used in

the projector, and their associated cabling. It also contains the

Backplane board which is used to electrically interconnect the

printed circuit boards, power supplies and various other units

in the projector and the Video Input Cards that interface with

different kinds of input signals.

•

The CRT Section is located beneath the electronics card cage

and contains the 3 CRTs, 3 Relay Lenses, 3 ILA^®s and the

Video Amplifier Board.

2.2 Optical System

Introduction: The Model 200 Optics Assembly divides white light

from the Arc Lamp into its three color components, Red, Green

and Blue. This light is then modulated with the image signal to

form three single color images. The light is then recombined at the

4P (combining) prism and transmitted through the projection lens

to the projector screen. The explanation below is divided into two

sections. The first section follows the image path from the CRT to

the projector screen. The second section follows the high intensity

light path from the Arc Lamp Ignitor to the ILA^®assemblies, where

it combines with the image. The Red, Green, and Blue image and

light paths are identical. Refer to Figure 2-1.

CAUTION! The alignment of system optical

components is critical. Replacement of individual mirrors or prisms

requires removing the projector cover and must be performed only

by Hughes-JVC Certified technicians. Consult the factory before

removing or aligning any mirrors or prisms.

2.2.1 Image Path

CRT Assemblies: The three CRT/Yoke assemblies are located

beneath the Electronics Module card cage. Two exhaust fans at

the rear help cool the CRT assemblies. Each CRT is sent a red,

green, or blue signal, but they do not emit a red, green, or blue

color, as in traditional projectors. The CRTs are not used as a

2-2

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Chapter 2---System Description

primary light source. The light output to the screen is the function

of the Arc Lamp. The purpose of the CRTs is to generate an

image and to control the amount of modulation the ILA^®

assemblies introduce on the light coming from the Arc Lamp. The

Red, Green, and Blue image signals are routed to the CRTs from

the Video Amplifier Board through the CRT socket connectors.

Relay Lens: The relay lens picks up the image from the face of

the CRT and focuses the image to the ILA^®assembly.

Image Light Amplifier (ILA^®) Assembly: The CRT image is

received from the relay lens onto the input side of the ILA^®

assembly. The input and output sides of the ILA^®assembly are

isolated from each other electrically and optically but are coupled

electrostatically.

At the same time as the image is received at the input side of the

ILA^®assembly, the output side of the ILA^®assembly is receiving

high intensity light from the arc lamp through the prism. This high

intensity light is modulated (changing its polarization) by the signal

on the input side of the ILA^®assembly. The light is then reflected

back from the output side of the ILA^®assembly, then travels

through the prism to be picked up by the projection lens.

NOTE: The prism reflects horizontally polarized light and passes

vertically polarized light. Light from the arc lamp is polarized

horizontally and reflects from the prism into the ILA^®assembly

then back out again, after being modulated by the image signal

into vertically polarized light. The vertically polarized light then

passes through the prism to the projector lens. In this manner the

ILA^®assembly combines the image from the CRT with the high

intensity light from the arc lamp. Thus, the maximum brightness of

the screen image is not dependent on the brightness of the CRT,

but on the light from the arc lamp.

For a more detailed description of how the ILA^®assembly works,

refer to Section 2.7 below.

Polarizing Prism: The polarizing prism receives the high intensity

light from the xenon arc lamp and polarizes the light horizontally.

The prism reflects virtually all of this light toward the ILA^®

assembly. This light is then modulated (altered) into a vertical

plane by the image on the input side of the ILA^®assembly and

then reflected back into the same prism. Since the prism reflects

only horizontal light and passes vertical light, this high intensity,

vertically polarized image goes straight through the prism toward

the Combining Prism. Light that is not completely polarized

horizontally or vertically passes through the prism in varying

degrees of brightness, according to how polarized it is (fully

polarized light resulting in maximum brightness on the screen).

Image Mirror: The Image Mirrors direct the blue and red images

toward the Combining Prism.

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Chapter 2---System Description

Combining (4P) Prism: The combining prism consists of

separate prisms that polarize each of the three high intensity

signals and direct them toward the projection lens.

Projection Lens: The Projection Lens picks up the high intensity

image from the Combining Prism and transmits it to the projector

screen.

2.2.2 Arc Lamp Light Path

The Arc Lamp assembly produces the high intensity light used to

transmit bright images to the screen. It consists of a Xenon Arc

Lamp containing xenon gas under pressure, an ignitor assembly

that provides the spark to light the arc lamp, and a laser power

supply to provide the boost voltage to the Ignitor. An exhaust fan

helps keep the arc lamp cool. The description below follows the

sequence of the light path. (See Figure 2-1).

Ignitor and Laser Power Supply: The Laser Power Supply

provides a boost voltage through a spark gap to the Ignitor circuit

which then provides a momentary High Voltage, (32,000 volts), to

excite the xenon gases inside the Xenon Arc Lamp. After the arc

lamp ignites, it is maintained ON by high current and low-voltage

(approximately 37.5 amps and +20 volts). The arc lamp Ignitor

and Laser Power Supply are mounted next to the arc lamp, inside

the Arc Lamp assembly housing.

WARNING!!!

The Xenon Arc Lamp produces high

intensity white, ultraviolet and infrared light capable of severe eye

injury. Never look directly at or touch the Xenon Arc Lamp.

Service should be performed by Hughes-JVC certified

technicians only.

Xenon Arc Lamp/Condensing Lens: High pressure, ionized

xenon gas supports a high-current electrical arc to produce the

intense, white light used in the Model 200 projector. The high

intensity light output from the Xenon Arc Lamp is reflected by an

elliptical metal reflector to a Condensing Lens where the light

beam is condensed and directed to the Cold Mirror.

Cold Mirror/IR Filter and Ultraviolet Filter: The arc lamp light

beam passes through the Condensing Lens to the Cold Mirror and

Infrared Filter which removes most of the IR light, then through the

Ultraviolet filter which removes most of the UV light. The light

beam then proceeds toward the Dichroic Mirror Assembly. In this

manner most of the IR and UV light is filtered out before the light

beam enters the more sensitive portions of the optics, leaving only

the visible portion.

Dichroic Mirror Assembly: The condensed and filtered white

light beam enters the Dichroic Mirror Assembly which separates

(dichroic mirrors reflect only one color and pass all others) the

2-4

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Chapter 2---System Description

light into its Red, Green and Blue components. The first mirror in

the Dichroic Mirror Assembly reflects blue light to the blue ILA^®

assembly, the second mirror reflects green light to the green ILA^®

assembly, and the third reflects red light to the red ILA^®assembly.

Thus, each ILA^®is sent only one color of light.

Prepolarizers and Polarizing Prisms: Each individual light beam

is polarized (directed) toward its own Polarizing Prism where it is

directed toward the output side of its ILA^®Assembly and

combined with the signal from the input side of the ILA^®

Assembly.

Each of these three light beams independently combine with the

image in their own (Red, Green or Blue) color systems at the ILA^®

assemblies as described in Section 2.2.1, Image Path.

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Chapter 2---System Description

Figure 2-1. Optical System Block Diagram

2-6

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Chapter 2---System Description

2.3 Electronics System

2.3.1 General Description

The Model 200 Electronics System includes nine printed circuit

assemblies. They provide all the controlling voltages and signals

to adjust and correct picture settings, geometry, convergence, and

shading (see Chapter 4 of the User’s Guide). The Electronics

System also controls video and sync input signals, LED displays

on PCBs at the rear and side of the projector, two RS-232

communications ports, and two IR receivers for remote control of

the projector.

The descriptions in this portion of the manual are based on an

overall Electronics System block diagram and simplified block

diagrams for each of the nine printed circuit assemblies. The

diagrams and descriptions serve two purposes; first, to provide the

technician with an overall grasp of how the system works and how

each assembly works with other assemblies in the system,

second, to provide the technician with enough information to

troubleshoot to the assembly level, if needed.

Figure 2-2 provides an overall System Block Diagram to show how

the Optical System, Arc Lamp, and Electronics System combine to

provide the bright screen image.

LAMP

COLD MIRROR

IGNITER

INTEGRATOR

CONDENSING

LENS

UV FILTERS

LAMP

POWER SUPPLY

HIGH

VOLTAGE

LINE

FILTER

INPUT

CROSS

DICHROICS

HIGH VOLAGE

POWER SUPPLY

LOW VOLTAGE

POWER SUPPLY

FOCUS

TO CRTS

VIDEO INPUT

CARDS

CONVERGENCE

DEFLECTION

VIDEO

PROCESSOR

TO YOKES

SCAN REVERSAL

PROJECTION

LENS

HORIZONTAL

VERTICAL

DEFLECTION

RASTER TIMING

GENERATOR

CRTS

OPTICS MODULE

ILA’S

SYSTEM

CONTROLLER

VIDEO AMPLIFIERS

RELAY

LENSES

ELECTRONICS MODULES

Figure 2-2. Model 200 System Block Diagram

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Chapter 2---System Description

2.3.2 Power Supplies

The Model 200 includes three power supply assemblies.

•

Low Voltage Power Supply

Arc Lamp Power Supply

High Voltage Power Supply

Low Voltage Power Supply (LVPS)

P76

LV Ret

1-7

P75

/LV_ENA

/LV_OK

+24v Fans

+5.1v STBY

+5.1v

+6.2v

+15V

-15v

+80V

To P8 on

Backplane

INPUT

Line

Earth

Neutral

/COVER_ON

/FAN_ENA

Figure 2-3. LVPS Input/Output Diagram

Main Functions:

•

Provide all the low voltages needed by the projector.

Provide standby power when the projector is OFF.

Provide power for all cooling fans.

Inputs:

The Low Voltage Power Supply receives AC input power directly

from the power source. The input range is from 100 VAC to 240

VAC, at 50 or 60 Hz.

/LV_ENA: Enabling signal from the System Controller Enables the

LVPS when the System Controller receives a Power On

command.

/FAN_ENA: From System Controller. Enables the +24v standby

voltage for the projector fans.

/COVER_ON: Cover interlock signal. Indicates both covers in

place. Enables the non-standby outputs.

Outputs:

+ 5.1VDC Main

+ 5.1VDC Standby

+ 6.2VDC

± 15VDC

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Chapter 2---System Description

+ 24VDC

+ 80VDC

/LV_OK: When /LV-ENA is enabled, this diagnostic signal

indicates to the System Controller the status of the non-standby

supply (all outputs working or not working).

Operation:

The main power is filtered via the input filter to prevent radiation

from escaping back to the power line. From the line filter, AC

power is fed into the Low Voltage Power Supply module where AC

is rectified, filtered, and compensated for power factor correction.

The +5.1V Standby is on whenever AC power is connected to the

projector and the circuit breaker on the rear panel is in the On

position. The +24V standby power for the fans turns on when the

/FAN_ENA signal is received from the System Controller (this

turns off in 5-8 minutes if power is not turned on by the remote

control or a PC). All other voltages supplied by the LVPS are

activated when power is turned on at the remote or PC. These

include +5.1V for digital components, +6.2V for CRT filaments,

±15V for analog circuits, and the +80V supply which is used by the

High Voltage Power Supply, Video Amplifier PCB, and the

Horizontal/Vertical Deflection PCB.

Arc Lamp Power Supply (ALPS)

P74

P71

To Lamp

Module, J74

LAMP_OUT

LAMP_RET

INPUT

Line

Earth

Neutral

P72

P73

To Lamp

Module, J74

GND

LAMP_OK

GND

To P9 on

Backplane

/LAMP_LIT

/LAMP_OK

/LAMP_ENA

COVER_ON

GND

Figure 2-4. Arc Lamp Power Supply, Block Diagram

Main Functions:

•

Provides ignition power to turn the Xenon Arc Lamp ON.

Provides steady state power to maintain the lamp ON.

Inputs:

The Arc Lamp Power Supply receives AC input power directly

from the power source. The input range is from 100-240 VAC, at

50 or 60 Hz.

/LAMP_ENA: From System Controller. Turns on the ALPS.

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Chapter 2---System Description

/COVER_ON: Cover interlock signal. Indicates both covers are in

place.

/LAMP_OK: Tells the ALPS that the lamp is installed, the

temperature is within limits, and the lamp cooling blower is

working.

Outputs:

+140 VDC boost voltage to the Laser Power Supply.

Voltage: 18 to 25 VDC to maintain the arc lamp ON.

Current: 30 to 38 amps to maintain the arc lamp ON.

LAMP_OUT: Lamp output voltage, positive.

LAMP_RTN: Lamp return.

/LAMP_LIT: Signal to SCB that the lamp is lit.

Operation:

Two signals (/COVER_ON and /LAMP_OK) are required in order

for the arc lamp to light. /COVER_ON from the cover interlock

switches tells the Arc Lamp Power Supply that the covers are in

place and the interlock switches are pressed down. /LAMP_OK

informs the System Controller that the lamp is installed (a

mechanical switch activates when lamp is installed). The System

Controller sends the /LAMP_ENA signal to the Arc Lamp Power

Supply. The /LAMP_ENA signal turns on the ALPS.

The Arc Lamp Power Supply then provides the +140 VDC boost

voltage to a spark gap and high voltage transformer which steps

up the voltage to approximately 32KV and ignites the Xenon Arc

Lamp. After the Arc Lamp is lit, it is maintained on by the ALPS at

a steady 20 volts and 37 amps. The /LAMP_LIT signal output

informs the System Controller if the lamp is lit or not.

The Arc Lamp Power Supply is electrically and magnetically

shielded to prevent noise or disturbances in the CRTs or other

circuitry.

High Voltage Power Supply (HVPS)

The High Voltage Power Supply (HVPS) is located on top of the

LVPS on the right side of projector ( as viewed from rear). This

supply provides the anode, focus, and screen voltages required

for the three CRTs in the Model 200 projector.

The following functions are provided by HVPS:

•

Phase locked loop circuit for synchronization to the horizontal

sync

•

Generation of anode voltages (25 KV) for all three CRTs

(RGB)

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Chapter 2---System Description

•

Generation of focus voltage (G3) for all three CRTs (RGB)

Generation of screen (G2 supply-Black Level) voltage for all

three CRTs

•

Generation of G1 supply (Blanking) voltage

Dynamic focus amplifier using H and V parabolas

External ON/OFF and generation of /HV_OK signal

The High Voltage Power Supply I/O diagram (Figure 2-5) and the

list of inputs and outputs (Table 2-1), provide an understanding of

the operation of the HVPS to allow the technician to perform

module level troubleshooting.

J45

R AN OD E J58-1

G AN OD E J59-1

H VPS_SYNC

B AN OD E J60-1

R FO CU S J58-1

G FO CU S J59-1

+80V

HIGH

B FO CU S J60-1

VOLTAGE

POWER

SUPPLY

+15V

-15

J44

/H V ENA (/VA_O K)

AR C GN D

(From VPB)

G 2 SUPPLY

H PARABO LA

V PARABOLA

J45

G 1 SUPPLY

/H V O K

Figure 2-5. High Voltage Power Supply, I/O Diagram

The HVPS Input/Output

This section provides a comprehensive description of the inputs to

and outputs from the HVPS. The I/O descriptions are arranged by

the source/destination of the signal. The format used is such that

the assembly communicated with is used as the primary heading

of each output. Input refers to an input to the HVPS. Output refers

to an output from the HVPS. In each case the signals direction is

noted.

Table 2-1. High Voltage Power Supply I/O signals

Raster Timing Generator PCB

DESCRIPTION

INPUT

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Chapter 2---System Description

HVPS_SYNC

Square wave HCT level with 50 or 33% duty cycle synchronized to

horizontal sync.

Video Processor PCB

INPUT

DESCRIPTION

/HV_ENA

The HVPS enable line. A low enable the HVPS (VA_OK from VPB).

Video Amplifier PCB

DESCRIPTION

OUTPUTS

G1_SUPPLY DC supply about -150 V for driving the G1 of CRTs

G2_SUPPLY DC supply about 1.3 KV for driving the G2 of CRTs

ARC_GND

Return (ground) line for the CRT anodes

Convergence/Deflection PCB

INPUTS

DESCRIPTION

Horizontal parabola for use by the dynamic focus amplifier

PARABOLA

Vertical parabola for use by the dynamic focus amplifier

PARABOLA

System Controller PCB

OUTPUT

DESCRIPTION

/HV_OK

The high voltage status line. Low = operational HVPS

Low Voltage Power Supply

INPUTS

DESCRIPTION

+ 15V

+ 15 V for use by the HVPS

+ 80V

- 15V

+ 80 V for use by the HVPS

- 15V for use by the HVPS

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CRTs

OUTPUTS

DESCRIPTION

RED_ANODE Anode supply for the three CRTs. About 25 KV

GRN_ANODE

BLU_ANODE

RED_FOCUS Focus voltage for the three CRTs. About 7 KV

GRN_FOCUS

BLU_FOCUS

Interlocks and protection:

This section describes the interactions between boards where one

board may cause others to perform protection functions.

Input

A high signal at /HV_ENA shuts off the HVPS.

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Chapter 2---System Description

2.3.3 Video Input Cards

The four types of Video Input Cards that can be used with the

Model 200 Projector are:

•

Standard RGB Video Input Card, which is supplied with each

projector and is used for RGB standard formats

•

Optional Four Input RGB VIC used in a similar manner as a

switcher.

•

Optional HDTV VIC used for High Definition Television.

Optional Quad Standard Decoder VIC used for NTSC, PAL

SECAM and other composite sources.

Standard RGB Video Input Card (RGB_VIC)

The RGB Video Input Card (RGB_VIC) is located on the back side

of the projector. It has five BNC input connectors. It provides the

RGB and sync interface for the Model 200 projector.

The following functions are provided by the RGB VIC:

•

Video and sync interface for red, green and blue

LED indication

IIC serial bus interface

RED

GREEN

BLUE

HORIZ

VERT

RED_VIC

GREEN_VIC

BLUE_VIC

H_VIC

B10

V_VIC

B13

A13

A12

IIC_CLK

IIC_DATA

IIC_INT

/SEL_VIC

IIC

A16

B16

B15

B14

+5.1Vstby

+5.1V

GND

Pin callouts are to P12, P14, or P18

depending on which VIC slot is used.

+15V

-15V

GND

Figure 2-6. Standard RGB VIC I/O

Video and sync interface for red, green and blue

The RGB VIC provides a high bandwidth interface for the three

color video signals. The video signals are routed to the Backplane

Board without any distortion or modification. The sync signals

(horizontal and vertical) are also directly connected to the

Backplane Board.

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Chapter 2---System Description

LED indication

The RGB VIC includes an LED which glows when the board is

selected (i.e. when the /SEL_CH line is low) as the input for the

Model 200 Projector.

IIC serial bus interface section

The RGB_VIC is controlled by the serial bus interface. The IIC bus

comes from the System Controller Board through the Backplane

Board. The information transferred over the IIC bus is indicated

below (I = input to the RGB VIC, and O = output from the RGB

VIC). The RGB VIC does not use the interrupt line of the IIC bus

interface:

Table 2-2. Standard RGB VIC IIC communication

I/O

Bits Information

Description

/SEL_CH

Select line for the RGB_VIC. Low = Selected

RGB_VIC.

VIC_ID

VIC identification lines. 0000 for RGB_VIC.

Revision of the RGB_VIC.

VIC_MODEL

/VIC_OK

RGB_VIC status line. Low = operational

RGB_VIC.

The RGB_VIC I/O

This section provides a description of the inputs to and outputs

from the RGB_VIC. The I/O descriptions are arranged by the

source/destination of the signal. The format used is such that the

assembly communicated with is used as the primary heading of

each group of signals. Those signals are further subdivided into

inputs and outputs. Input refers to an Input to the RGB_VIC,

output refers to an output from the RGB_VIC.

Table 2-3. Standard RGB VIC I/O signals

Projector Inputs

INPUTS

DESCRIPTION

RED

Video input signals. about 0.7 to 1 VPP

GREEN

BLUE

HORIZ.

Horizontal or composite sync signal

Vertical sync signal

VERTICAL

Video Processor Board

DESCRIPTION

OUTPUTS

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/SEL_VIC

Select line for VIC. A low indicates the RGB_VIC is selected.

RED_VIC

GRN_VIC

BLU_VIC

Video signals. about 0.7 to 1 VPP

H_VIC

V_VIC

Horizontal or composite sync signals

Vertical sync signals

System Controller Board

DESCRIPTION

INPUTS

IIC_CLK

IIC clock line. Unidirectional clock line for control of synchronous

data transfer over the IIC bus interface.

IIC_DATA

IIC data line. Bidirectional serial line for synchronous data transfer

between system control board and the RGB_VIC.

OUTPUTS

DESCRIPTION

/IIC_INT

IIC interrupt line. RGB_VIC does not initiate an interrupt.

Low Voltage Power Supply

DESCRIPTION

INPUTS

+5.1 V

+15 V

-15 V

+5.1 V supply for use by RGB_VIC.

+ 15 V supply for use by RGB_VIC.

-15 V supply for use by RGB_VIC.

+ 5.1 V_stby + 5.1 V stand by supply for use by RGB_VIC.

Interlocks and protection

Input: None

Outputs: None

Quad Input RGB VIC

The Quad Input RGB VIC consists of four sets of RGBHV inputs

and operates in a manner similar to a switcher. The four inputs are

multiplexed so that only one is enabled at a specific time.

Software selects the desired input channel through the IIC bus

and ensures that only one RGB VIC is enabled. When one of the

channels assigned to the Quad RGB VIC is selected, the

/SEL_VIC line to the Video Processor is enabled.

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Chapter 2---System Description

RED_CH1

RED_CH2

RED_CH3

RED_CH4

RED_VIC

GREEN_VIC

BLUE_VIC

H_VIC

4:1

VIDEO

MUX

GRN_CH1

GRN_CH2

GRN_CH3

GRN_CH4

V_VIC

and

BUFFERS

BLU_CH1

BLU_CH2

BLU_CH3

BLU_CH4

HOR_CH1

HOR_CH2

HOR_CH3

HOR_CH4

VER_CH1

VER_CH2

VER_CH3

VER_CH4

IIC_CLK

IIC_DATA

IIC_INT

/SEL_VIC

IIC

+5.1Vstby

+5.1V

+15V

-15V

Figure 2-7. Quad Input RGB VIC

The same functions performed by the Standard RGBHV VIC are

performed by the Quad Input RGB VIC. The description of

operation and pinouts are the same as the Standard RGBHV VIC.

One of four LEDs indicates which of the four RGB inputs is

currently active.

HDTV YPbPr VIC

This color decoder video input card (YPbPr_VIC) is located on the

back side of the projector and contains three BNC input

connectors which can be used for two different inputs, YPbPr or

GBR. This board converts these color component signals to RGB

type video signals.

The following functions are provided by YPbPr_VIC:

•

Video input and output buffers

Conversion of color components signals to RGB video signals

Separation of syncs from the Y/G input signal

Hue, sharpness, gamma, and color adjustment

Selection of RGB input or color component input

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Chapter 2---System Description

•

LED indication

IIC serial bus interface

Y/G

RED

Pb/B

Pr/R

GRN

BLU

IIC_CLK

B13

IIC_DATA

A13

HOR

+5.1V_STBY

A16

+5.1V

B16

/SELECT

B12

+15V

B15

-15V

B14

Pin callouts are to P12, P14,

or P18, depending on which

VIC slot is being used.

Figure 2-8. HDTV YPbPr VIC Input/Output Diagram.

This VIC accepts two types of video signals, color components

(YPbPr) and RGB signals. In either case the output of this VIC is

RGB type signals. If the inputs are color components they will be

converted to RGB type signals.

The selection between color component input mode and RGB

input mode is controlled by an input. This input is controlled by the

System Controller Board via the IIC serial bus interface.

LED indication

There are two LEDs on this VIC. The RGB LED glows when the

YPbPr_VIC is selected and is in RGB input mode. The YPbPr LED

glows when the YPbPr_VIC is selected and is in YPbPr input

mode. Both LEDs are off when the YPbPr_VIC is not selected as

the input to projector. Only one LED can be on at one time.

IIC Interface

The YPbPr_VIC is controlled by the serial bus interface. The IIC

bus comes from the System Controller Board through the

Backplane Board. All required adjustments for this board are

provided via the IIC serial bus interface. The information

transferred over the IIC bus is indicated below (I = input to

YPbPr_VIC, and O = output of YPbPr_VIC). The selection of this

VIC is accomplished through the IIC control bus which provides

the /SEL_VIC signal.

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Chapter 2---System Description

Table 2-4. HDTV VIC IIC Interface

I/O

Bits Information

Description

/SEL_YPbPr

Selects YPbPr input mode for the YPbPr_VIC.

Low = Selected YPbPr input mode.

Selects RGB input mode for the YPbPr_VIC.

Low = Selected RGB input mode.

Data for adjustment of Gamma correction

Data for adjustment of color

/SEL_RGB

GAMMA

COLOR

HUE

Data for adjustment of hue

SHARPNESS

VIC_ID

Data for adjustment of sharpness

VIC identification lines. 0001 for YPbPr_VIC

Revision of the YPbPr_VIC.

VIC_MODEL

/YPbPr_OK

YPbPr_VIC status line. Low = operational

YPbPr_VIC

The HDTV YPbPr_VIC I/O

This section provides a comprehensive description of the inputs to

and outputs from the YPbPr_VIC. The I/O descriptions are

arranged by the source/destination of the signal. The format used

is such that the assembly communicated with is used as the

primary heading of each group of signals. Those signals are

further subdivided into inputs and outputs. Input refers to an Input

to the YPbPr_VIC, output refers to an output from the YPbPr_VIC.

Table 2-5. HDTV VIC Signals

Projector Inputs

INPUT

DESCRIPTION

Y/G

Video input signals-about 0.7 to 1 VPP

Pb/B

Pr/R

Video Processor Board

OUTPUT

/SELECT

DESCRIPTION

Selection indicator for VIC. Low indicates the selected YPbPr_VIC.

Video signals. about 0.7 to 1 VPP

RED

GRN

BLU

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HOR

Composite horizontal / vertical sync signal

System controller board

INPUTS

IIC_CLK

DESCRIPTION

IIC clock line. Unidirectional clock line for control of synchronous

data transfer over the IIC bus interface.

IIC_DATA

IIC data line. Bidirectional serial line for synchronous data transfer

between system control board and the YPbPr_VIC.

OUTPUTS

/IIC_INT

DESCRIPTION

IIC interrupt line. YPbPr_VIC does not initiate any interrupt

Low Voltage Power Supply

INPUTS

+5.1 V

+15 V

-15 V

DESCRIPTION

+5.1 V supply for use by YPbPr_VIC.

+ 15 V supply for use by YPbPr_VIC.

-15 V supply for use by YPbPr_VIC.

Interlocks and protection

Inputs:

None

Outputs:

None

Quad Standard Decoder VIC

The Quad Standard Decoder VIC is composite and S-Video

interface. It contains three BNC input connectors for Composite

Video and S-Video (luminance and chrominance). This decoder

VIC converts these color component signals to RGBHV type video

signals.

The following functions are provided by the Quad Standard

Decoder VIC:

•

Select input source-Composite or S-video

Select standard-AUTO/NTSC/PAL/SECAM/4.43NTSC

Conversion of composite and S-video signals to RGB video

signals

•

Separation of syncs from the input signal

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Chapter 2---System Description

•

Tint, sharpness, and color adjustment

LED indication of Composite or S-video

IIC serial bus interface

Comp

Y in

C in

B10

IIC_CLK

B13

A13

IIC_DATA

+5.1V

+15V

/SELECT

B16

B15

B12

Pin callouts are to P12, P14,

or P18, depending on which

VIC slot is being used.

Figure 2-9. Quad Standard Decoder I/O Diagram.

LED Indication

There are two LEDs on this VIC. The LED on the right side of the

board glows when Composite Video is selected and the LED on

the left glows when S-Video is selected. Only one LED can light at

one time.

IIC Interface

The Quad Standard Decoder VIC is controlled by the serial bus

interface. The IIC bus comes from the System Controller Board

through the Backplane Board. All required adjustments for this

board are provided via the IIC serial bus interface. The information

transferred over the IIC bus is indicated below (I = input to

YPbPr_VIC, and O = output of YPbPr_VIC). The selection of this

VIC is accomplished through the IIC control bus which provides

the /SEL_VIC signal.

Table 2-4. Quad Standard Decoder VIC IIC Interface

I/O

Information

Description

SOURCE

Selects input source (Composite Video or S-

Video)

STANDARD

Selects signal standard

(AUTO/NTSC/PAL/SECAM/4.43NTSC)

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Chapter 2---System Description

TINT

Data for adjustment of Hue

COLOR

SHARP

VTR

Data for adjustment of color

Data for adjustment of Sharpness

Selection of VTR mode

VNR

Selection of Video Noise Reduction mode

Quad Standard Decoder VIC I/O

This section provides a description of the inputs to and outputs

from the Quad Standard Decoder VIC. The I/O descriptions are

arranged by the source/destination of the signal. The format used

is such that the assembly communicated with is used as the

primary heading of each group of signals. Those signals are

further subdivided into inputs and outputs. Input refers to an Input

to the VIC, output refers to an output from the VIC.

Table 2-6. Quad Standard Decoder VIC Signals

Projector Inputs

INPUT

DESCRIPTION

Composite V Video input signals-about 0.7 to 1 VPP

S-Video

Video input signal-about 0.7 to 1 VPP for Luminance and about .3-.6

VPP for Chrominance (Burst)

Video Processor Board

OUTPUT

/SELECT

DESCRIPTION

Selection indicator for VIC. Low indicates the Quad VIC is selected.

Video signals. about 0.7 to 1 VPP

RED

GRN

BLU

H, V

Horizontal/vertical sync signals, about 1-1.25 VPP

System Controller Board

INPUTS

IIC_CLK

DESCRIPTION

IIC clock line. Unidirectional clock line for control of synchronous

data transfer over the IIC bus interface.

IIC_DATA

IIC data line. Bidirectional serial line for synchronous data transfer

between System Control Board and the VIC.

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Low Voltage Power Supply

INPUTS

+5.1 V

+15 V

DESCRIPTION

+5.1 V supply for use by The Quad Decoder VIC.

+ 15 V supply for use by the Quad Decoder VIC.

Interlocks and protection

None

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Chapter 2---System Description

2.3.4 Video Processor PCB

The Video Processor Board (VPB) is the bottom-most card (see

Figure 5-1) in the card cage. It is connected directly to the

Backplane board through 2 connectors. When an external signal

is being received, the VPB provides Horizontal Sync, Vertical

Sync, and Green Sync signals to the Raster Timing Generator

(RTG) board. It also provides three primary color signals, and G2,

G1 bias and DC RESTORE control signals to the Video Amplifier

Board (VAB).

The following functions are provided by the VPB:

•

Video signal input and multiplexing

Sync signal stripping

Overlay signal multiplexing

Brightness and Contrast control, and DC RESTORE

Video signal gamma correction

Sensitivity and Threshold signal input and control

Automatic limiting for Contrast, G2, and internal video

The Video Processor I/O diagram and the list of inputs and

outputs provide information to allow the technician to perform

module-level troubleshooting.

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Chapter 2---System Description

J17

B31 RED_VIC#1

B29 RED_VIC#2

B27 RED_VIC#3

B25 GRN_VIC#1

B23 GRN_VIC#2

B21 GRN_VIC#3

B19 BLU_VIC#1

J16

H_SYNC

V_SYNC

A17

A16

RTG

GRN_SYNC B17

GRN INPUT A28

EXTERNAL

B17 BLU_VIC#2

B15 BLU_VIC#3

VIDEO

B13 H_VIC#1

B11 H_VIC#2

B9 H_VIC#3

B7 V_VIC#1

B5 V_VIC#2

B3 V_VIC#3

RED_VIDEO B2 TO

GRN_VIDEO B4

VAB

BLU_VIDEO B6

A2 /SEL_VIC#1

B1 /SEL_VIC#2

A1 /SEL_VIC#3

VIDEO

PROCESSOR

BOARD

J16

B32 RED_OVER

B31 GRN_OVER

FROM

B30 BLU_OVER

SCB

B29 OVERLAY

B15 CLAMP

FROM RTG

B15 BLANKING

VAB

RESTORE B16

B27 RED_SENS

B26 GRN_SENS

FROM ^{B25 BLU_SENS}

B24 RED_THRESH

SCB

B23 GRN_THRESH

B22 BLU_THRESH

B19 RED_BEAM

B20 GRN_BEAM

RED_G2 A19

GRN_G2 A20

BLU_G2 A21

G1_BIAS A11

VAB

FROM/

B21 BLU_BEAM

TO VAB

A13 /VA_OK (/HV_ENA)

B12 IIC_CLK

B13 IIC_DATA

A12 /IIC_SINT

+5.1V

+15V

-15V

FROM

LVPS A10

Figure 2-10. Video Processor I/O Diagram

IIC Interface

The VPB communicates with the SCB via the IIC bus. The

information transferred over the bus (as shown in Table 2-6) is

indicated as follows (I = Input to the VPB, O = Output from the

VPB):

Table 2-6. Video Processor IIC communication

I/O

Information

Description

RED_CONT

Red Contrast level

Green Contrast level

Blue Contrast level

Brightness level

GRN_CONT

BLU_CONT

BRIGHTNESS

BEAM CURRENT

Beam Current

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RED_G2

Red G2 Control

GRN_G2

Green G2 Control

Blue G2 Control

Gamma correction

G1 bias level

BLU_G2

WHT_BOOST

BLK_BOOST

G1_BIAS

/VA_OK

Issues to SCB that Video Amplifier

is OK

BEAM_CURRENT

OK_DETECT

Beam current control

Issues to SCB that VPB is OK

Video Processor I/O

This section provides a comprehensive description of the inputs to

and outputs from the VPB. The I/O descriptions in Table 2-7 are

arranged by the source/destination of the signal. The format used

is such that the assembly communicated with is used as the

primary heading of each group of signals. Those signals are

further subdivided into inputs and outputs. Inputs refers to an input

to the VPB, while output refers to an output from the VPB.

Table 2-7. Video Processor I/O signals

System Controller Board

INPUT

DESCRIPTION

RED_OVER

GRN_OVER

BLU_OVER

OVERLAY

Red signal of on-screen menu and/or internal test pattern

Similar to RED_OVER

Overlay control signal

RED_SENS

Sensitivity correction information for red. Real time data at

0 volt to 1 volt.

GRN_SENS

BLU_SENS

RED_THRES

Similar to RED_SENS

Threshold correction information for red. Real time data at

0 Volt to 1 Volt

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GRN_THRES

BLU_THRES

Similar to RED_THRES

I/O

DESCRIPTION

IIC_DATA

IIC data line. Bidirectional serial line for synchronous data

transfer between SCB and other circuit boards. See detailed

description for list of signals transferred and data direction

IIC clock line. Unidirectional clock line for control of

synchronous data transfer over IIC bus.

Interrupt output to SCB

IIC_CLK

IIC_INT

Raster Timing Generator

DESCRIPTION

INPUT

CLAMP

Pulse signal input from the RTG board. Indicates the commanded

timing and duration of the DC RESTORE.

BLANKING

Pulse signal input from the RTG board. Indicates the commanded

BLANKING interval during the scan.

OUTPUT

DESCRIPTION

H_SYNC

Horizontal sync signal to RTG board

Vertical sync signal to RTG board

Green sync signal to RTG board

Green video signal to RTG board

V_SYNC

GRN_SYNC

GRN_INPUT

Video Amplifier

DESCRIPTION

INPUT

RED_BEAM

Voltage signal proportional to cathode current averaged

over several horizontal lines in the red CRT. Voltage

level is + mV/µA

GRN_BEAM

BLU_BEAM

/VA_OK

Similar to RED_BEAM

Issued from the VAB to indicate VAB working properly

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Chapter 2---System Description

OUTPUT

DESCRIPTION

RED_VIDEO

GRN_VIDEO

BLU_VIDEO

RESTORE

Red video output. 0 Volt to 1 Volt.

Similar to RED_VIDEO

DC RESTORE control signal. When this signal is asserted, the

DC level of the video signal is clamped at the proper value

on the VAB.

RED_G2

GRN_G2

BLU_G2

G1_BIAS

Red CRT G2 voltage adjust control signal.

Similar to RED_G2

Control the adjustment of G1 voltage for all three CRTs

External Video

INPUT

DESCRIPTION

RED_VIC #1

GRN_VIC #1

BLU_VIC #1

RED_VIC #2

GRN_VIC #2

BLU_VIC #2

RED_VIC #3

GRN_VIC #3

BLU_VIC #3

H_VIC #1

Red video input from video input card #1

Similar to RED_VIC #1

Horizontal sync signal input from video input card #1

Similar to H_VIC #1

H_VIC #2

H_VIC #3

Similar to H_VIC #1

V_VIC #1

Vertical sync signal input from video input card #1

Similar to V_VIC #1

V_VIC #2

V_VIC #3

Similar to V_VIC #1

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Chapter 2---System Description

/SEL_VIC #1

Input signal from RGB VIC board which is used to select

input video source from VIC #1.

Similar to /SEL_VIC #1

/SEL_VIC #2

/SEL_VIC #3

Similar to /SEL_VIC #1

Low Voltage Power Supply

INPUTS

+ 5.1 volts

+ 15 Volts

- 15 Volts

DESCRIPTION

Power supply to digital components

Power supply to analog components

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Chapter 2---System Description

2.3.5 Video Amplifier

The Video Amplifier Board (VAB) is located at the back side of the

projector under the necks of the three CRTs. It contains three

separate video amplifiers, one each for red, green, and blue. The

outputs from these video amplifiers connect directly to the CRTs

and provide all electrical connections to the CRTS except for the

anode voltages.

The following functions are provided by VAB:

•

Amplification of video signals and driving the cathode of all

three CRTs

•

Sensing the cathode beam current for all three CRTs

G1 regulator for all three CRTs

Blanking drive section

Phosphor protection for all three CRTs

G2 regulator and adjustment of black level (screen) for all

CRTs

•

DC restoration for the video signals

CRT interface for focus, heater voltage and ARC ground

The Video Amplifier Board I/O diagram (Figure 2-11) and the list

of Inputs and Outputs (Table 2-8) provide information for the

technician to perform module level troubleshooting.

G1 Regulator for three CRTs

The input supply for the G1 grid of the CRTs is G1_SUPPLY and

is about -200V. The VAB regulates this supply to about -80V to -

30V. This supply can be adjusted by the G1_BIAS line. This

adjustment provides the brightness control function. The G1_BIAS

signal is an input of the VAB and is generated by the Video

Processor Board. In the event of a failure, such as lack of

deflection (a high on the /SWEEP_OK line), this output goes to the

most negative value of the input supply (about -200V).

G2 Regulator and black level adjustment for CRTs

The VAB also regulates the G2 grid of the CRTs. The supply for

the G2 grids (about 1200V) is generated by the HVPS. This

G2_SUPPLY is an input to the VAB. There are also three control

inputs (RED_G2, GRN_G2, and BLU_G2). The G2 voltage of

each CRT is adjusted individually by using these control lines.

This adjustment provides black level control. The G2 output

voltages are pulled down during shutdown mode.

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Chapter 2---System Description

J68

To VPB

RED_BEAM

RED _CATHODE

RED _GRID1

RED _GRID2

RED _HEAT+

RED _HEAT-

ARC _GND

J83

J67

To RED

CRT

RED_VIDEO

From

VPB

GRN_VIDEO

BLU_VIDEO

J68

From VPB ²³

RESTORE

J68

To VPB

GRN_BEAM

BLANKING

G1 SUPPLY

G1 BIAS

From RTG

From HVPS

J85

From VPB

GRN _CATHODE

GRN _GRID1

VIDEO

AMPLIFIER

BOARD

GRN _GRID2

GRN _HEAT+

GRN _HEAT-

ARC_GND

10 To GRN

CRT

RED_G2

From

VPB

GRN_G2

BLU_G2

J68

To VPB

J69

BLU_BEAM

G2 SUPPLY

From HVPS

BLU_CATHODE

BLU_GRID1

J87

To BLU

CRT

BLU_GRID2

J68

BLU_HEAT+

BLU_HEAT-

ARC_GND

19 /SWEEP_OK

From HVDB

+ 8OV

+ 15V

+ 6.2V

-15V

J68

From

LVPS

/VA_OK

To VPB

ARC_GND

J84-1, _To

J86-1, ^HVPS

J88-1

Figure 2-11. Video Amplifier PCB, Block Diagram.

CRT interface for Focus, heater voltages and ARC ground

The three CRT sockets are part of the VAB. They provide the

necessary interface for the input of the three CRTs. The Focus

voltage for each color is connected directly to the socket of each

CRT.

The VAB provides ARC grounds for each CRT which are used to

protect against arcing of the CRT anode supply.

IIC Interface

The VAB does not use the IIC interface. All adjustments are

accomplished by the control lines coming from the Video

Processor Board.

The Video Amplifier Board I/O

This section provides a description of the inputs to and outputs

from the VAB. The I/O descriptions are arranged by the

source/destination of the signal. The assembly communicated with

is used as the primary heading of each group of signals. Those

signals are subdivided into inputs and outputs. Input refers to an

Input to the VAB, output refers to an output from the VAB.

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Chapter 2---System Description

Table 2-8. Video Amplifier I/O signals

Video Processor Board

DESCRIPTION

INPUTS

RED_VIDEO Video preamp signals. About 0.5 VPP

GRN_VIDEO

BLU_VIDEO

G1_BIAS

RED_G2

GRN_G2

BLU_G2

Brightness control line. 0 to 5 V DC

Black level (G2) control lines 0 to 3.1 V

RESTORE

Video DC restoration pulse. logic HC positive going 4% duty cycle

OUTPUTS

DESCRIPTION

/VA_OK

VAB status line. Low = good VAB. High = Bad VAB (This signal is

called /HV_ENABLE at the HVPS).

RED_BEAM Cathode beam current lines. about 1 volt per 100 UA

GRN_BEAM

BLU_BEAM

High Voltage Power Supply

INPUTS

DESCRIPTION

G1_SUPPLY Supply for G1 grid of CRTs. About -200 V

G2_SUPPLY Supply for G2 (screen) grid of CRTs. About 1200 V

RED_FOCUS

GRN_FOCUS

BLU_FOCUS

Focus supply for CRTs. about 7 KV

OUTPUTS

DESCRIPTION

ARC_GND

CRT ground (anode supply return line)

Horizontal/Vertical Deflection Board

INPUTS

DESCRIPTION

/SWEEP_OK

Deflection detection line. open collector, low = good deflection

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Chapter 2---System Description

Raster Timing Generator Board

DESCRIPTION

INPUTS

BLANKING

Blanking signal. logic F type

CRTs

OUTPUTS

DESCRIPTION

RED_FOCUS

GRN_FOCUS

BLU_FOCUS

Focus supply of CRTs. about 7 KV.

RED_GRID1G

RN_GRID1BL

U_GRID1

Grid 1 (G1) signal of CRTs.

RED_HEAT+

GRN_HEAT+

BLU_HEAT+

Positive side of the heater voltage for CRTs. About 6.2 V.

RED_HEAT-

GRN_HEAT-

BLU_HEAT-

Negative side (return line) of the heater voltage for CRTs. Ground

level.

RED_

CATHODE

GRN_

Video output signals of the VAB. about 40 VPP with peak voltage of

about 70 V.

CATHODE

BLU_

CATHODE

RED_GRID2

GRN_GRID2

BLU_GRID2

G2 (screen) supply of CRTs. about 600 to 800 V

OUTPUTS

DESCRIPTION

ARC_GRD

Ground of CRTs ( anode supply return line).

System Power Supply

DESCRIPTION

INPUTS

+6.2 V

+15 V

-15 V

+6.2 V supply line (heater voltage).

+15 V supply for use by Video Amplifier Board.

-15 V supply for use by Video Amplifier Board.

+80 V supply for use by Video Amplifier Board.

+80 V

Interlocks and protection:

None

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Chapter 2---System Description

2.3.6 System Controller PCB

The System Controller Board (SCB) is located in the electronic

card cage (Figure 5-1).

The Electronics System is controlled by the SCB. The SCB uses

digital and analog circuits to direct the operation of image and

raster generation circuits and to control the input/output of power

supply operation.

The SCB sets the operating parameters of the image, such as

brightness and contrast. It also produces internal test patterns and

generates on-screen display overlays. The SCB sets the timing for

the raster generation to adjust phase, geometric corrections,

shading corrections, and convergence. The program memory and

the memory for all convergence and shading maps are located on

the SCB.

The following functions are performed or controlled by the System

Controller:

•

Enables control for the Low Voltage Power Supply, Arc Lamp

and cooling fans.

•

Fault monitors the HVPS, LVPS, Arc Lamp, and fans.

Provides interboard communication via the IIC serial bus.

Controls Zoom and Focus of the Projection Lens.

IIC Interface control

Provides Video Overlays

X and Y convergence control

Threshold and Sensitivity for shading

I/O control

Two RS-232 serial interface ports

Infrared (IR) remote control interface. Accepts input from front

or rear IR detectors.

•

A 5-wire JTAG interface port for CPU emulation support.

External 3 color system status LEDs. Green indicates normal,

yellow is standby and red indicates a fault condition.

•

External Service Mode switch (see Figure 5-1). Pressing this

switch during a power-up sequence brings the system up in a

diagnostic mode (for maintenance) rather than a normal

operating mode.

The SCB I/O diagram (Figure 2-12) and the list of Inputs and

Outputs (Table 2-9) provide information for the technician to

perform module-level troubleshooting.

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Chapter 2---System Description

P11

B23

B24

Lens Zoom

TO PROJ

LENS

Lens Focus

P10

/LV_ENA

/FAN_ENA

/LV_OK

B28

B29

B27

FROM

LVPS

RED_OVER

GRN_OVER

BLU_OVER

FROM

HVPS

/HV_OK

B18

B17

B26

VPB

/LAMP_OK

/LAMP_LIT

B31

B30

B32

FROM

ALPS

B16

/LAMP_ENA

SYSTEM

CONTROLLER

BOARD

Y_RED_CONV

Y_GRN_CONV

Y_BLU_CONV

X_RED_CONV

X_GRN_CONV

X_BLU_CONV

ODD_FIELD

B10

CDB

FROM

RTG

SRC_VALID

H_DRIVE_SC

V_DRIVE

H_F2V

BLU_THRES

GRN_THRES

P10

B10

B11

B12

B13

IIC_DATA

IIC_CLK

IIC_CLK1

IIC_CLK2

B31

B30

A32

A31

A30

VPB

RED_THRES

BLU_SENS

GRN_SENS

RED_SENS

IIC_CLK3

+5.1V stby

+5.1V

20-20

21-21

22-22

23-23

24-24

25-25

26-26

27-27

28-28

29-29

FROM

LVPS

+15V

-15V

G ND

Figure 2-12. System Controller Board, Block Diagram.

IIC Interface

Communications are performed through the IIC bus to the other

PCBs in the system.This three wire bus interface consists of clock

line, data line and interrupt line. Data transferred over the IIC bus

is listed in Table 2-9 (I/O signals).

System Controller Board Input/Output

This section provides a description of the inputs to and outputs

from the SCB. The I/O descriptions are arranged by the

source/destination of the signal. The format used is such that the

assembly communicated with is used as the primary heading of

each output. Input refers to an input to the SCB, output refers to

an output from the SCB.

Table 2-9. System Controller Board I/O signals

Video Processor Board

I/O

DESCRIPTION

IIC_CLK

IIC clock line. Clock line for control of synchronous data transfer over

the IIC bus interface.

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Chapter 2---System Description

IIC_DATA

IIC data line. Serial line for synchronous data transfer of the following

data between Video Processor Board and SCB board. I=Input,

O=Output.

BEAM CURRENT

OK DETECT

RED_CONT

GRN_CONT

BLU_CONT

BRIGHTNESS

RED_G2

BLU_G2

GRN_G2

WHT_BOOST

BLK_BOOST

OUTPUTS

OVERLAY

/IIC_INT

DESCRIPTION

Overlay control signal

IIC interrupt line.

RED_OVER Red signal of on-screen menu and/or internal test pattern

GRN_OVER Similar to RED_OVER

BLU_OVER

Similar to RED_OVER

BLU_THRES Threshold correction information for blue. Real time data at 0 volt to

1 volt.

GRN_THRES

RED_THRES

BLU_SENS

Similar to BLU_THRES

Sensitivity correction information for BLU. Real time data at O volt to

1 volt.

GRN_SENS Similar to BLU_SENS

RED_SENS

Similar to BLU_SENS

Raster Timing Generator

INPUTS

DESCRIPTION

SOURCE_

VALID

This signal indicates a new source (or valid). A high indicates a valid

stable signal and low indicates change in input signal.

ODD_FIELD Square wave with 50 % duty cycle which is low during the odd field

of an interlace signal. This signal is high for noninterlaced signals.

280_CLK

Square wave signal, 50 % duty cycle, 280 times the frequency of

horizontal sync. This clock is synchronized to the horizontal sync.

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Chapter 2---System Description

H_DRIVE

V_DRIVE

Square wave 50% duty cycle synchronized to selected horiz sync

Square wave negative going pulse synchronized to selected vertical

sync with pulse width of about 4 horiz lines

H_F2V

DC voltage proportional to horiz frequency

OUTPUTS

DESCRIPTION

ISYNC_CLK 5 mHz clock used to generate the internal sync signals

IIC_CLK

IIC clock line. Unidirectional clock line for control of synchronous

data transfer over the IIC bus interface.

IIC_DATA

IIC data line. Bidirectional serial line for synchronous data transfer

between System Controller and RTG.

Convergence/Deflection Board

DESCRIPTION

OUTPUTS

IIC_CLK

IIC clock line. Unidirectional clock line for control of synchronous

data transfer over the IIC bus interface.

IIC_DATA

IIC data line. Bidirectional serial line for synchronous data transfer

between the SCB and the Convergence/Deflection board.

X_RED_

CONV

Red X convergence waveform. The amplitude for full scale correction

is about 1 VPP.

X_GRN_

CONV

Grn X convergence waveform. The amplitude for full scale correction

is about 1 VPP.

X_BLU_

CONV

Blu X convergence waveform. The amplitude for full scale correction

is about 1 VPP.

Y_RED_

CONV

Red Y convergence waveform. The amplitude for full scale correction

is about 1 VPP.

Y_GRN_

CONV

Grn Y convergence waveform. The amplitude for full scale correction

is about 1 VPP.

Y_BLU_

CONV

Blu Y convergence waveform. The amplitude for full scale correction

is about 1 VPP.

CORR_

SYNC

Square wave HCT level synchronous signal for horiz axis.

Horizontal/Vertical Deflection Board

DESCRIPTION

OUTPUTS

IIC_CLK

IIC clock line. Unidirectional clock line for control of synchronous

data transfer over the IIC bus interface.

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Chapter 2---System Description

IIC_DATA

IIC data line. Bidirectional serial line for synchronous data transfer

between the SCB and the Horizontal/Vertical Deflection board.

I=Input, O=Output.

V_RED_LIN_CONTROL

V_GRN_LIN_CONTROL

V_BLU_LIN_CONTROL

V_RED_EDGE_CONTROL

V_GRN_EDGE_CONTROL

V_BLU_EDGE_CONTROL

L/R_KEY_CONTROL

L/R_PIN_CONTROL

WIDTH_CONTROL

H_RED_CENT_CONTROL

H_GRN_CENT_CONTROL

H_BLU_CENT_CONTROL

V_RED_CENT_CONTROL

V_GRN_CENT_CONTROL

V_BLU_CENT_CONTROL

FRONT/REAR

FLOOR/CEIL

High Voltage Power Supply

INPUT

DESCRIPTION

/HV_OK

The high voltage status line. Low = operational HVPS.

Low Voltage Power Supply

DESCRIPTION

INPUTS

+ 5.1V

+15V

Power for digital portion of SCB

Power for the analog portions of the SCB

-15V

Power for the analog portions of the SCB

+5.1V_Stby

/LV_OK

Standby power to the CPU and peripherals.

Tells SCB status of non-standby supply (all outputs working or not)

OUTPUTS

FAN_ENA

LV_ENA

DESCRIPTION

Signal to enable the 24V standby power

Signal to enable the LVPS

Arc Lamp Power Supply

DESCRIPTION

INPUTS

/LAMP_OK

Informs SCB that the Arc Lamp is installed, temperature is within

limits, and lamp cooling blower is working

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Chapter 2---System Description

/LAMP_LIT

OUTPUTS

/LAMP_ENA

Informs the SCB that the Arc Lamp is lit or not lit

DESCRIPTION

Enables ALPS power

Projection Lens

OUTPUTS

DESCRIPTION

LENS_FOCUS

LENS_ZOOM

Signal to lens focus motor

Signal to lens zoom motor

Front IR

INPUTS

DESCRIPTION

/FRONT_IR

/REAR_IR

Input from front infrared receiver

Input from rear infrared receiver

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Chapter 2---System Description

2.3.7 Raster Timing Generator PCB

The Raster Timing Generator (RTG) is located in the electronic

card cage (Figure 5-1). The RTG I/O diagram (Figure 2-13) and

the list of inputs and outputs (Tables 2-10 and 2-11) provide

information to allow the technician to perform module level

troubleshooting.

The following functions are provided by RTG board:

•

Internal sync generation

Sync detection and selection

Serration and equalization pulse removal

Phase locked loop

Blanking pulse generation

Horizontal and vertical phase adjustments

Interlace detection and odd field pulse generation

Horizontal frequency band selection

Horizontal line count and vertical count generation

IIC interface

Video clamp pulse generation

Source change detection

HVPS sync generation

Horizontal deflection enable circuitry

The RTG I/O Diagram (Figure 2-13) and the list of inputs and

outputs (Tables 2-7 and 2-8) provide information for the technician

to perform module level troubleshooting.

Horizontal frequency band selection and LED logic.

The RTG produces a voltage that is proportional to the horizontal

frequency which is used by the Horiz/Vert Deflection board,

System Controller Board, and the phase locked loop (PLL) section

of the RTG board. This DC voltage is used to create the following

frequency bands:

Band A: from 15 KHZ to 24.5 KHZ.

Band B: from 24 KHZ to 29.5 KHZ

Band C: from 29 KHZ to 56 KHZ

Band D: from 55.5 KHZ to 90 KHZ.

These bands are outputted through the IIC interface to be used

by the System Controller Board. These lines are also outputs of

the RTG board through the Backplane Board. The

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Chapter 2---System Description

Horizontal/Vertical Deflection Board uses these lines for proper

selection of retrace times.

J13

B3 V_SYNC

J13

FROM

VPB

B4 H_SYNC

B5 G_SYNC

SOURCE_VALID B24

ODD_FIELD

280_CLK

B23

B21

SCB

A5 GRN_INPUT

CLAMP

VPB

B19 ISYNC_CLK

B27 IIC_CLK

BLANKING

FROM

SCB

B28 IIC_DATA

RASTER

TIMING

GENERATOR

H_BAND0

H_BAND1

H_BAND2

/H_ENABLE

B11

HVDB

H_F2V

B12

B16

A29

B29

A32

B32

A31

B31

+5.1V_STBY

GND

H_DRIVE

FROM

LVPS

+5.1V

HVPS

HVPS_SYNC A14

+5.1V

+15V

CDB

V_DRIVE

B15

A30

B30

-15V

Figure 2-13. Raster Timing Generator, Input/Output Diagram.

There are 9 LEDs on the RTG board (see Figure 5-2) that indicate

frequency bands, input modes and lock mode of the phase locked

loop.

IIC Interface

The RTG board uses the IIC bus interface for serial

communication with the System Controller Board. The information

transferred over the IIC bus is indicated below (I = input to RTG, O

= output from RTG). The RTG board does not use the interrupt

line of IIC bus interface:

Table 2-10. Raster Timing Generator IIC communication

Input /

Output

No.

bits

Information

Description

FORCE_INTERNAL Selects internal syncs

Selects the tri level mode for the video clamp

TRI_LEVEL

SYNC_TIP

signal (for HDTV)

Selects the Sync tip option of video clamp

signal

VTR_MODE

Right blanking

Selects VTR mode of operation

Data for adjustment of right blanking

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Chapter 2---System Description

Left blanking

Top blanking

Bottom blanking

Horz. phase

Vert. phase

Frequency bands

Data for adjustment of left blanking

Data for adjustment of top blanking

Data for adjustment of bottom blanking

Data for adjustment of horizontal phase

Data for adjustment of vertical phase

The frequency band associated with the current

signal

/RTG_OK

A low on this line indicates an operational RTG

board

RTG_MODEL

H_COUNT

The revision of the RTG board

The number of horizontal lines associated with

the current signal

V_COUNT

INPUT_MODE

INTERLACE

Data for V_COUNT

Data indicating the selected sync signals

High indicates interlace pattern

Raster Timing Generator Input/Output

This section describes the inputs to and outputs from the RTG

board. The I/O descriptions are arranged by the source and

destination of the signal. The assembly communicated with is

used as the primary heading of each output. Input refers to an

input to the RTG, output refers to an output from the RTG.

Table 2-11. Raster Timing Generator I/O signals

System Controller Board

INPUTS

DESCRIPTION

ISYNC_CLK 5 mHz clock used to generate the internal sync signals

IIC_CLK

IIC clock line. Unidirectional clock line for control of synchronous

data transfer over the IIC bus interface

IIC_DATA

IIC data line. Bi directional serial line for synchronous data transfer

between system control board and RTG board

OUTPUTS

DESCRIPTION

/IIC_INT

IIC interrupt line. This is not used by the RTG board.

SOURCE_

VALID

This signal indicates a new source (or valid). A high indicates a valid

stable signal and low indicates change in input signal

ODD_FIELD Square wave with 50 % duty cycle which is low during the odd field

of an interlace signal. This signal is high for noninterlaced signals

280_CLK

Square wave signal, 50 % duty cycle, 280 times the frequency of

horizontal sync. This clock is synchronized to the horizontal sync.

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Chapter 2---System Description

Video Processor Board

INPUTS

V_SYNC

H_SYNC

G_SYNC

DESCRIPTION

Input vertical sync

Input horizontal or composite sync

Sync on green signal which is stripped for the green video

GRN_INPUT Buffered version of green video

OUTPUTS

Clamp

DESCRIPTION

A negative going video clamp signal with about 3 % duty cycle

Blanking signal composed of right, left, top and bottom blanking

Blanking

Horizontal/Vertical Deflection Board

DESCRIPTION

INPUTS

/H_

Not used by the RTG board

FLYBACK

OUTPUTS

DESCRIPTION

H_BAND0

H_BAND1

H_BAND2

Horizontal frequency band lines

Band A = 000, Band B = 001, Band C = 011 and band D = 111

/H_ENABLE

Low = enabled deflection and high = disabled deflection

A DC voltage proportional to horizontal frequency

H_F2V

H_DRIVE

Square wave 50 % duty cycle synchronized to the selected

horizontal sync.

High Voltage Power Supply

DESCRIPTION

OUTPUT

HVPS_

SYNC

Synchronization pulse for HVPS, synchronized with the selected

horiz. sync at either same, half or one third the frequency

ConvergenceDeflection Board

DESCRIPTION

OUTPUT

V_DRIVE

Square wave negative going pulse synchronized to the selected

vertical sync with pulse width of about 4 horizontal periods

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Chapter 2---System Description

Low Voltage Power Supply

INPUTS

DESCRIPTION

+5V

Power for digital portion of RTG board

+15V

Power for the phase locked loop and the supporting circuitry of RTG

board

-15V

Power for the phase locked loop and the supporting circuitry of RTG

board

+5.1V_STBY

Stand by + 5.1 V. Not used by RTG board.

Interlock and protection:

Input

None

Output

The RTG will disable the Horizontal Deflection Board by placing a

high on the /H_ENABLE line during any of following events:

A. During and about 2 seconds after the programming period of

the FPGA.

B. During frequency band change period.

C. During the period that the phase locked loop is out of lock.

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Chapter 2---System Description

2.3.8 Horizontal/Vertical Deflection PCB

The HVD board is located on the top side of the deflection cage in

front of the electronic card cage.

The Horizontal/Vertical Deflection Board I/O diagram (Figure 2-14)

and the list of inputs and outputs (Tables 2-10 and 2-11) provide

information for the technician to perform module level

troubleshooting.

The following functions are provided by the HVD board:

•

Horizontal raster centering for all three colors

Horizontal gate drive

Switch mode power supply generating the required

proportional DC supply

•

Horizontal width adjustment

Horizontal retrace switch network

Left/right pincushion and keystone correction

Drive main deflection coils to provide horizontal raster scan for

all three CRTs

•

Drive main vertical coils to provide vertical raster scan for all

three CRTs

•

Vertical linearity adjustments individually for all three colors.

Vertical raster centering for all three colors

IIC interface

IIC Interface

All adjustments for the HVD board are performed by the System

Controller via the IIC serial bus interface. This three wire bus

interface consists of a clock line, a data line, and an interrupt line.

The HVD board does not create any interrupt and the interrupt line

is not used for this application. Table 2-10 lists the adjustments

executed via the IIC bus interface (I = Input to HVD board , O =

Output from HVD board):

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Chapter 2---System Description

Figure 2-14. Horizontal/Vertical Deflection PCB I/O Diagram.

Table 2-10. Horizontal/Vertical Deflection IIC Data Interface

No.

bits

Input /

Output

Information

Description

Data for adjustment of red vertical

linearity

Data for adjustment of green vertical

linearity

Data for adjustment of blue vertical

linearity

V_RED_LIN_CONTROL

V_GRN_LIN_CONTROL

V_BLU_LIN_CONTROL

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Chapter 2---System Description

Data for adjustment of red vertical edge

linearity

Data for adjustment of green vertical

edge linearity

Data for adjustment of blue vertical edge

linearity

Data for adjustment of left / right

keystone correction

V_RED_EDGE_CONTROL

V_GRN_EDGE_CONTROL

V_BLU_EDGE_CONTROL

L/R_KEY_CONTROL

Data for adjustment of left / right

pincushion correction

L/R_PIN_CONTROL

WIDTH_CONTROL

Data for adjustment of screen width

Data for adjustment of red horizontal

centering

H_RED_CENT_CONTROL

Data for adjustment of green horizontal

centering

Data for adjustment of blue horizontal

centering

The data for adjustment of red vertical

centering

The data for adjustment of green vertical

centering

The data for adjustment of blue

centering

Front or rear projection status line front

= low and rear = high

Floor or ceiling projection status line

floor = low and ceiling = high

Deflection status. Low = operational

HVD board, High = Nonoperational HVD

board.

H_GRN_CENT_CONTROL

H_BLU_CENT_CONTROL

V_RED_CENT_CONTROL

V_GRN_CENT_CONTROL

V_BLU_CENT_CONTROL

FRONT/REAR

FLOOR/CEIL

/DEFL_OK

HVD_MODEL

Revision of HVD board

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Chapter 2---System Description

Horizontal/Vertical Deflection Board I/O

This section provides a description of the inputs to and outputs

from the HVD Board. The I/O descriptions are arranged by the

source/destination of the signal. The assembly communicated with

is used as the primary heading of each group of signals. Those

signals are subdivided into inputs and outputs. Input refers to an

Input to the HVD Board, output refers to an output from the HVD

Board.

Table 2-11. Horizontal/Vertical Deflection I/O signals

System Controller Board

INPUTS

DESCRIPTION

IIC_CLK

IIC clock line. Unidirectional clock line for control of synchronous

data transfer over the IIC bus interface.

IIC_DATA

IIC data line. Bidirectional serial line for synchronous data transfer

between the System Controller Board and the HVD Board.

OUTPUTS

DESCRIPTION

/IIC_SINT

IIC interrupt line. This is not used by HVD Board.

Video Processor Board

DESCRIPTION

OUTPUTS

/SWEEPOK

Low = good scan. High = no scan. Signal is dependent on two

inputs; DEFL_OK (from SRB) and /H_ENABLE (from RTG).

Scan Reversal Board

INPUTS

DESCRIPTION

FRONT/REAR

FLOOR/CEIL

Front or rear projection status line. Front = low. Rear = high.

Floor or ceiling projection status line. Floor = low. Ceiling = high.

Deflection OK signal. High = good (about 2 v). Low = no scan.

DEFL_OK

H_CUR_

FDBK

Horizontal current feed back. A DC voltage proportional to the output

current.

H_LOCK-

Horizontal interlock for yoke connectors. It should be 5 V when

closed or 0V when open.

V_RED-

V_GRN-

V_BLU-

Current feedback of red vertical amplifier

Current feedback of green vertical amplifier

Current feedback of blue vertical amplifier

OUTPUTS

DESCRIPTION

H_OUT_

Horizontal output flyback pulse, about 800 VPP

FLYBACK

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H_LOCK+

H_RED+

H_GRN+

Horizontal interlock for yoke connectors. This should be about 5 V

when closed or 15 V when open.

Output of horiz. red centering (also top of the red horiz. yoke). About

+ 5 VDC.

Output of horz. green centering (top of green horz. yoke). About + 5

VDC

Output of horiz. blue centering (top of blue horiz. yoke). About + 5

VDC.

H_BLU+

V_RED+

V_GRN+

V_BLU+

+15 V

Output of red vertical amplifier. About 40 VPP.

Output of green vertical amplifier. About 40 VPP.

Output of blue vertical amplifier. About 40 VPP.

+15 V supply for use by Scan Reversal Board

-15 V supply for use by Scan Reversal Board

+5 V supply for use by Scan Reversal Board

-15 V

+5 V

Convergence/Deflection Board

DESCRIPTION

INPUTS

V_RAMP

V_PARAB

Vertical ramp waveform. About 4 VPP.

Vertical parabola waveform. About 4 VPP.

OUTPUTS

DESCRIPTION

WIDTH_CTRL

A DC waveform for controlling width of picture. About 4 V max.

Raster Timing Generator (RTG board)

DESCRIPTION

INPUTS

/H_ENABLE A low on this line enables horizontal deflection. A high disables the

horizontal amplifier.

H_BAND:0

H_BAND:1

H_BAND:2

Horizontal frequency band line. 000 = band A, 001 = band B, 011 =

band C and 111 = band D.

HF_2V

Horizontal frequency to voltage converter. a DC signal proportional

to horiz. frequency. About 4.2 V at 90 kHz.

H_DRIVE

Horiz. drive pulse, 50 % duty cycle HCT level signal

System Power Supply

INPUTS

+5 V

DESCRIPTION

+ 5 V supply for use by HVD and Scan Reversal Boards

+ 15 V supply for use by HVD and Scan Reversal Boards

- 15 V supply for use by HVD and Scan Reversal Board

+15 V

-15 V

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Chapter 2---System Description

+80 V

+ 80 V supply for use by the switching supply of horizontal deflection

amplifier

Interlocks and protection:

Input

None

Outputs

H_LOCK + and H_LOCK-: Used to shut down the switching power

supply of the horizontal deflection amplifier in the event of a loose

yoke or loose scan reverse connector. This prevents the power

supply section of the Horizontal/Vertical Deflection Board from

operating when 1 or more yoke connectors are disconnected.

/SWEEP_OK: Shuts down the video amplifiers in the event of

deflection failure (if DEFL_OK or /H_ENABLE are not present).

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Chapter 2---System Description

2.3.9 Convergence/Deflection PCB

The Convergence/Deflection Board is located on the bottom side

of the card cage under the Horizontal/Vertical Deflection Board.

This board drives the convergence coils of the projectors.

The following functions are provided by C/D Board:

•

Generation of various waveforms for the horizontal and vertical

axes

•

Height control

Generation of waveforms for dynamic focus

Various geometry correction functions for the horizontal and

vertical axes

•

Convergence output amplifiers for all colors and both

horizontal and vertical axes

•

Convergence enable and raster fill function

ILA^®assembly driver circuitry with temperature compensation

Phase locked loop for ILA^®assembly drivers

IIC serial bus interface

The Convergence/Deflection Input/Output diagram (Figure 2-15)

and the list of inputs and outputs (Tables 2-12 and 2-13) provide

information for the technician to perform module level

troubleshooting.

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Chapter 2---System Description

J38

J32

RED_ILA+

GND

IIC_CLK

RED_ILA-

FROM

SCB

IIC_DATA

/IIC_SINT

GRN_ILA+

ILAs

GRN_ILA-

BLU_ILA+

BLU_ILA-

J31

GND

X_RED_CONV

X_GRN_CONV

X_BLU_CONV

Y_RED_CONV

Y_GRN_CONV

J39

X_RED+

FROM

SCB

X_RED-

TO/FROM

X_GRN+

SRB

X_GRN-

X_BLU+

12 Y_BLU_CONV

X_BLU-

CORR_SYNC

GND

CONVERGENCE/

DEFLECTION

BOARD

J40

Y_RED+

Y_RED-

Y_GRN+

Y_GRN-

Y_BLU+

V_DRIVE

FROM RTG

TO/FROM

SRB

J33

WIDTH_CONTROL

Y_BLU-

FROM HVDB

J31

J32

GND

+5.1V

6ND

+15V

GND

-15V

GND

H_PARABOLA

V_PARABOLA

¹⁴HVPS

FROM

LVPS

J33

V_RAMP

FROM

V_PARAB

HVDB

GND

Figure 2-15. Convergence/Deflection Board I/O diagram.

IIC interface

Adjustments for this board are performed by the System Controller

via the IIC serial bus interface. This three wire bus interface

consists of a clock line, a data line and an interrupt line. The C/D

Board does not create any IIC interrupt. The following table lists all

adjustments performed via the IIC bus interface (I = Input to C/D

Board, O = Output from C/D Board):

Table 2-12. Convergence/Deflection IIC communication

Input/

Output

No. of

bits

Information

Description

ILA_FREQ_N1

Data for selection of frequency of ILA bias circuit

ILA_FREQ_N2

ILA_FREQ_N3

Data for selection of frequency of ILA bias circuit

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Chapter 2---System Description

ILA_FREQ_N4

ILA_FREQ_N5

ILA_FREQ_N6

ILA_FREQ_N7

ILA_FREQ_N8

ILA_RED_BIAS

ILA_GRN_BIAS

Data for selection of frequency of ILA bias circuit

Data for adjustment of red ILA bias

Data for adjustment of green ILA bias

ILA_BLU_BIAS

ILA_FREQ_M1

Data for adjustment of blue ILA bias

Data for selection of frequency of ILA bias circuit

(pre-scale counter)

ILA_FREQ_M2

Data for selection of frequency of ILA bias circuit

(pre-scale counter)

LR_RED_SKEW

LR_GRN_SKEW

LR_BLU_SKEW

LR_BOW

Data for adjustment of red left/right skew

Data for adjustment of green left/right skew

Data for adjustment of blue left/right skew

Data for adjustment of left/right bow

HEIGHT

Data for adjustment of height for all colors

LR_KEY_BAL

LR_PIN_BAL

Data for adjustment of left/right keystone balance

Data for adjustment of left/right pincushion

balance

H_RED_LIN

H_GRN_LIN

Data for red horizontal overall linearity correction

Data for green horizontal overall linearity

correction

H_BLU_LIN

Data for blue horizontal overall linearity

correction

Data for red horizontal edge linearity correction

H_RED_

EDGE_LIN

H_GRN

_EDGE_LIN

H_BLU

Data for green horizontal edge linearity correction

Data for blue horizontal edge linearity correction

_EDGE_LIN

TP_RED_SKEW

Data for adjustment of red top/bottom skew

Data for adjustment of green top/bottom skew

Data for adjustment of blue top/bottom skew

Data for adjustment of top/bottom bow

TP_GRN_SKEW

TP_BLU_SKEW

TP_BOW

TP_PIN

Data for adjustment of top/bottom pincushion

TP_PIN_BAL

Data for adjustment of top/bottom pincushion

balance

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Chapter 2---System Description

TP_KEY

Data for adjustment of top/bottom keystone

TP_KEY_BAL

Data for adjustment of top/bottom keystone

balance

/RASTER_FIL

/CONV_ENABLE

ILA_LOCKED

/CD_OK

Control line for the raster fill option, low = raster

fill is active

Convergence enable line low = enabled

convergence

Status line for the lock indication of the PLL of the

ILA section with high = locked PLL

Convergence board status line. Low =

operational C/D Board, High = Nonoperational

C/D Board.

CD_MODEL

Revision of C/D Board

The Convergence/Deflection Board I/O

This section describes the inputs to and outputs from the C/D

Board. The I/O descriptions are arranged by the source and

destination of the signal. The assembly communicated with is the

primary heading of each group of signals. Those signals are

subdivided into inputs and outputs. Input refers to an Input to the

C/D Board, output refers to an output from the C/D Board.

Table 2-13. Convergence Deflection I/O signals

System Controller Board

INPUTS

IIC_CLK

DESCRIPTION

IIC clock line. Unidirectional clock line for control of synchronous

data transfer over the IIC bus interface.

IIC_DATA

IIC data line. Bidirectional serial line for synchronous data transfer

between the System Controller Board and the C/D Board.

Red X convergence waveform. The amplitude for full scale

correction is about 1 VPP.

X_RED_

CONV

X_GRN_

CONV

Green X convergence waveform. The amplitude for full scale

correction is about 1 VPP.

X_BLU_

CONV

Blue X convergence waveform. The amplitude for full scale

correction is about 1 VPP.

Y_RED_

CONV

Red Y convergence waveform. The amplitude for full scale correction

is about 1 VPP.

Y_GRN_

CONV

Green Y convergence waveform. The amplitude for full scale

correction is about 1 VPP.

Y_BLU_

CONV

Blue Y convergence waveform. The amplitude for full scale

correction is about 1 VPP.

CORR_

SYNC

Square wave HCT level synchronization signal for horizontal axis

OUTPUTS

/IIC_SINT

DESCRIPTION

IIC interrupt line. Convergence board does not initiate any IIC

interrupt.

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Chapter 2---System Description

ILAs

OUTPUTS

RED_ILA+

RED_ILA-

GRN_ILA+

GRN_ILA-

BLU_ILA+

BLU_ILA-

DESCRIPTION

The positive output of red ILA driver circuitry, about ± 12 VPP

The negative output of red ILA driver circuitry, about ± 12 VPP

The positive output of green ILA driver circuitry, about ± 12 VPP

The negative output of green ILA driver circuitry, about ± 12 VPP

The positive output of blue ILA driver circuitry, about ± 12 VPP

The negative output of blue ILA driver circuitry, about ± 12 VPP

The positive side of the ILA temperature sense line

ILA_THERM+

ILA_THERM- The negative side of the ILA temperature sense line

Scan Reversal Board

INPUTS

X_RED-

X_GRN-

X_BLU-

Y_RED-

Y_GRN-

Y_BLU-

DESCRIPTION

Current feedback of red horizontal (X) convergence amplifier

Current feedback of green horizontal (X) convergence amplifier

Current feedback of blue horizontal (X) convergence amplifier

Current feedback of red vertical (Y) convergence amplifier

Current feedback of green vertical (Y) convergence amplifier

Current feedback of blue vertical (Y) convergence amplifier

OUTPUTS

X_RED+

X_GRN+

X_BLU+

Y_RED+

Y_GRN+

Y_BLU+

DESCRIPTION

Output of red horizontal (X) convergence amplifier

Output of green horizontal (X) convergence amplifier

Output of blue horizontal (X) convergence amplifier

Output of red vertical (Y) convergence amplifier

Output of green vertical (Y) convergence amplifier

Output of blue vertical (Y) convergence amplifier

Horizontal/Vertical Deflection Board

INPUTS

DESCRIPTION

WIDTH_

A DC wave form for controlling width of picture. About 4 V max.

CONTROL

OUTPUTS

DESCRIPTION

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Chapter 2---System Description

V_PARAB

V_RAMP

Vertical parabola wave form. About 4 VPP.

Vertical ramp wave form. About 4 VPP.

Raster Timing Generator Board

INPUTS

DESCRIPTION

V_DRIVE

Square wave HCT level synchronized to vertical sync with 4H duty

cycle.

High Voltage Power Supply

OUTPUTS

DESCRIPTION

Horizontal parabola for dynamic focus section of High Voltage Power

PARABOLA

Supply

Vertical parabola for dynamic focus section of High v\Voltage Power

Supply

PARABOLA

Low Voltage Power Supply

DESCRIPTION

INPUTS

+5.1 V

+15 V

-15 V

+ 5 V supply for use by convergence board.

+ 15 V supply for use by convergence board.

- 15 V supply for use by convergence board.

Interlocks and protection

None

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Chapter 2---System Description

2.3.10 Scan Reversal Board

The Scan Reversal Board (SRB) is mounted vertically on the right

side of the card cage.

The following functions are provided by the SRB:

•

Reversal of scan in both horizontal and vertical axes

Horizontal width adjustment for each color (R, G &B)

Horizontal current feedback

Scan failure detection for all six main (horizontal and vertical)

deflection amplifiers

The Scan Reversal Board Input/Output diagram (Figure 2-16) and

the list of inputs and outputs (Table 2-15) provide information for

the technician to perform module level troubleshooting. Table 2-14

shows the signal states for modes of projector operation.

The SRB does not require any IIC bus interface.

Table 2-14. Scanning signal states

FRONT/REAR

line

FLOOR/CEIL

line

Mode of Operation

Front and floor projection

Front and ceiling projection

Rear and floor projection

Rear and ceiling

Low

High

Low

High

Low

High

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Chapter 2---System Description

Figure 2-16. Scan Reversal Board, Input/Output Diagram.

Scan Reversal Board I /O

This section describes the inputs to and outputs from the SRB.

The I/O descriptions are arranged by the source/destination of the

signal. The assembly communicated with is the primary heading

of each group of signals. Those signals are subdivided into inputs

and outputs. Input refers to an Input to the Scan Reversal Board.

Output refers to an output from the Scan Reversal Board.

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Chapter 2---System Description

Table 2-15. Scan Reversal Board I/O signals

Horizontal / Vertical Deflection Board

INPUTS

DESCRIPTION

H_OUT_

FLYBACK

Horizontal output flyback pulse, about 800 VPP

H_LOCK+

Horizontal interlock for yoke connectors. This should be about 5

V when closed or 15 V when open.

H_RED+

H_GRN+

H_BLU+

Output of horizontal red centering (also top of the red horiz yoke).

About + 5 Vdc.

Output of horizontal green centering (also top of the green horiz

yoke). About + 5 Vdc.

Output of horiz. blue centering (also top of the blue horiz yoke).

About + 5 Vdc.

V_RED+

V_GRN+

V_BLU+

+15 V

Output of red vertical amplifier. about 40 VPP

Output of green vertical amplifier. about 40 VPP

Output of blue vertical amplifier. about 40 VPP

+15 volt supply for use by SRB

+5 V

+5 volt supply for use by SRB

-15 V

-15 V supply for use by SRB

OUTPUTS

H_LOCK-

DESCRIPTION

Horizontal interlock for yoke connectors. It should be 5 V when

closed or 0 V when open.

V_RED-

V_RED_SENS

Current feedback of red vertical amplifier

Current feedback of green vertical amplifier

Current feedback of blue vertical amplifier

V_GRN-

V_GRN_SENS

V_BLU-

V_BLU_SENS

FRONT/REAR

Front or rear projection status line. Front = low and rear = high

Floor or ceiling status line. Floor = low and ceiling = high

FLOOR/CEIL

H_CUR_FDBK

Horizontal current feed back, a DC signal proportional to horz.

output current

DEFL_OK

Deflection status line high (about 2 V) = good low = no scan

Convergence/Deflection Board

INPUTS

X_RED+

X_GRN+

DESCRIPTION

Output of horizontal red convergence amplifier

Output of horizontal green convergence amplifier

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Chapter 2---System Description

X_BLU+

Y_RED+

Y_GRN+

Y_BLU+

Output of horizontal blue convergence amplifier

Output of vertical red convergence amplifier

Output of vertical green convergence amplifier

Output of vertical blue convergence amplifier

OUTPUTS

X_RED-

X_GRN-

X_BLU-

Y_RED-

Y_GRN-

Y_BLU-

DESCRIPTION

Current feedback of horizontal red convergence amplifier

Current feedback of horizontal green convergence amplifier

Current feedback of horizontal blue convergence amplifier

Current feedback of vertical red convergence amplifier

Current feedback of vertical green convergence amplifier

Current feedback of vertical blue convergence amplifier

Red Yoke Connector

DESCRIPTION

NAME

H_RED_YOK+

H_RED_YOK-

RED_LOCK+

RED_LOCK-

V_RED_YOK+

V_RED_YOK-

X_RED_YOK+

X_RED_YOK-

Y_RED_YOK+

Y_RED_YOK-

Top of red horizontal yoke

Bottom of red horizontal yoke

Interlock for red yoke. 5 V when closed or 15 V when open.

Interlock for red yoke. 5 V when closed or 0 V when open.

Top of red vertical yoke

Bottom of red vertical yoke

Top of red horizontal convergence yoke

Bottom of red horizontal convergence yoke

Top of red vertical convergence yoke

Bottom of red vertical convergence yoke

Green Yoke Connector

DESCRIPTION

NAME

H_GRN_YOK+

H_GRN_YOK-

GRN_LOCK+

Top of green horizontal yoke

Bottom of green horizontal yoke

Interlock for green yoke. 5 V when closed or 15 V when open.

GRN_LOCK-

Interlock for green yoke . 5 V when closed or 0 V when open.

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Chapter 2---System Description

V_GRN_YOK+

V_GRN_YOK-

X_GRN_YOK+

X_GRN_YOK-

Y_GRN_YOK+

Y_GRN_YOK-

Top of green vertical yoke

Bottom of green vertical yoke

Top of green horizontal convergence yoke

Bottom of green horizontal convergence yoke

Top of green vertical convergence yoke

Bottom of green vertical convergence yoke-

Blue Yoke Connector

DESCRIPTION

NAME

H_BLU_YOK+

H_BLU_YOK-

BLU_LOCK+

BLU_LOCK-

V_BLU_YOK+

V_BLU_YOK-

X_BLU_YOK+

X_BLU_YOK-

Y_BLU_YOK+

Y_BLU_YOK-

Top of blue horizontal yoke

Bottom of blue horizontal yoke

Interlock for blue yoke. 5 V when closed or 15 V when open.

Interlock for blue yoke . 5 V when closed or 0 V when open.

Top of blue vertical yoke

Bottom of blue vertical yoke

Top of blue horizontal convergence yoke

Bottom of blue horizontal convergence yoke

Top of blue vertical convergence yoke

Bottom of blue vertical convergence yoke-

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Chapter 2---System Description

2.3.11 Backplane PCB

The Backplane PCB is the interface that connects the Power

Supplies, VICs, PCBs, and other components together, either

through a direct connection to a connector on the Backplane or

through cables to connectors on the Backplane PCB. Signals are

not modified in any way by the Backplane. It serves only as an

interconnecting point. Refer to Figure 2-17 for a general idea of

how the projector wiring is interconnected through the Backplane

PCB.

ALPS

P72

P43

P76

LVPS

HVPS

P12

VIC #1

P10

P11

SCB

P14

P18

VIC #2

VIC 3#

Backplane

PCB

P13

RTG

VPB

P16

P17

P68

P67

VAB

CDB

P31

P32

P35

P36

HVDB

P19

P62

Proj Lens

Fans

Figure 2-17. Backplane Board Interface Block Diagram.

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Chapter 2---System Description

2.4 Image Light Amplifier Technology

Section 2.2 explained how the various units, including the ILA^®

assemblies, in the Optical System work together to produce the

image on the screen. This section focuses mainly on how the ILA^®

assembly itself works.

An Image Light Amplifier (ILA^®) assembly (Figure 2-18) is a

device that uses low-intensity images to modulate a high-intensity

light through a liquid crystal layer. It is the key component in

producing very bright, high resolution images from Hughes-JVC

large-screen projectors.

Figure 2-18. The Hughes-JVC Image Light Amplifier^®.

Optically, there are two sides to an ILA^®assembly with a light

blocking layer in the center. On the input side there is a photo-

conductive layer where the image from a CRT is focused through

a relay lens. This image is electrostatically coupled through the

light-blocking layer and mirror to a liquid crystal layer on the output

side of the ILA^®assembly.

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Chapter 2---System Description

High intensity light from a Xenon Arc Lamp is applied, through a

prism (where it is polarized), to the output side of the ILA^®

assembly where the liquid crystal layer is located. The polarized

light passing through the liquid crystal is modulated (changing the

polarity of the light waves), in accordance with whatever image is

on the input side of the ILA^®assembly.

The axis of the polarized light is proportional to the brightness on

the input side of the ILA^®assembly. When the photoconductor on

the input side is not illuminated, the liquid crystal does not rotate

the polarized light from the Arc Lamp. No light passes through the

prism and the screen is dark. When the input side is fully

illuminated, the liquid crystal rotates the polarized light 90° from a

horizontal direction to a vertical direction. Ninety nine percent

(99%) of the light entering the ILA^®assembly is reflected and

passes through the prism resulting in a white screen.

The modulated high-intensity light is reflected back out of the

output side of the ILA^®assembly, through the Prism and the

Projection Lens and onto the screen. (see Figure 2-19).

Figure 2-19. Simplified image/optical path.

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Chapter 2---System Description

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Chapter 3---Service Adjustments

3.0 Service Adjustments

Contents

3.1 Arc Lamp Focus and Alignment............................................................... 3-1

3.2 Arc Lamp Current Setting ........................................................................ 3-4

3.3 Electronic Module Tilt-up ......................................................................... 3-5

3.4 ILA^®Back Focus ..................................................................................... 3-5

3.5 CRT Mechanical Focus............................................................................ 3-7

3.6 CRT Rotation ........................................................................................... 3-9

3.7 CRT Electronic Focus.............................................................................. 3-10

3.8 ILA^®Overlap............................................................................................ 3-10

3.9 Jumper Settings....................................................................................... 3-11

3.9.1 Front/Rear Jumper Settings .......................................................... 3-11

3.9.2 Inverted Vertical Jumper Settings.................................................. 3-12

3.10 Vertical and Horizontal Size Settings....................................................... 3-12

3.11 Software Updating ................................................................................... 3-14

3.12 Cleaning Lens, ILA^®assemblies, and Mirrors ......................................... 3-16

This chapter details adjustment procedures required to maintain the Model 200.

Refer to Figures 4-1 and 4-11 to locate assemblies and components. For a

complete list of tools required to perform adjustments, refer to Chapter 1.

CAUTION! Before performing procedures in this chapter, review the chapter

on Safety at the beginning of this manual.

WARNING!!! When performing procedures in this

chapter that require the projector covers to be removed, wear high voltage gloves

(ANSI/ASTM 10,000 volt rated) when working near the CRTs, Arc Lamp, or power

supplies. Wear safety goggles (rated X5) when working anywhere near the light

path from the arc lamp or the projection lens.

3.1 Arc Lamp Focus and Alignment

The Arc Lamp must be refocused and the XY axes realigned

whenever an Arc Lamp is replaced. The Arc Lamp can also

become defocused or misaligned from physical shock to the

projector.

1. Select and view Red, Green, and Blue.

2. Select Test Pattern 4, Flat Field.

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3. Use the right/left arrow keys on the remote control and adjust

the Flat Field to 0%.

4. From the System menu, select Maintenance, then select #3,

ILA® Bias. Record the ILA^®Bias current value (the Green bias

will be readable). This bias value will be returned to when this

procedure is complete. The Green value only need be recorded

because Red and Blue returns to their original values when

Green is reset.

5. Use the right arrow key to increase the ILA^®Bias so the Flat

Field turns white. If the screen begins to turn from white to a

yellow-tinge, use the left arrow and adjust the bias back until an

all white flat field is observed. The flat field screen must be

white to properly perform the arc lamp focus and alignment.

6. Loosen the large flathead screw (½ turn CCW) at the bottom of

the Arc Lamp cover (Figure 4-2), and lift the cover.

7. Defocus the Arc Lamp by turning the Focus Adjust Screw (see

Figure 3-1) until a bright, circular area (see Figure 3-2) is

achieved. This is the Arc Lamp’s “hot spot.” The sides, top, and

bottom areas will taper off in brightness. When performing

defocus, do not attempt to narrow the circle too much-try to

obtain a uniform circular area.

Figure 3-1. Arc Lamp Focus adjustments.

8. Loosen the 4 X-axis (horizontal) alignment screws (indicated by

the letter H inside the screw heads in Figure 3-1).

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Figure 3-2. Arc Lamp “Hot Spot” (whitest area) is off-center vertically

and horizontally. Adjust to center the “hot spot”.

9. Insert a flathead screwdriver into one of the horizontal

alignment slots shown in Figure 3-1 and pry back and forth to

slide the plate. Center the “hot spot” horizontally.

10. Tighten the 4 horizontal alignment screws.

11. Loosen the 2 vertical alignment screws indicated by the letter V

inside the screw heads in Figure 3-1.

12. Use a flathead screwdriver in the vertical alignment slots,

shown in Figure 3-1, to pry the vertical plate up or down so that

the “hot spot” is centered vertically.

13. Tighten the 2 vertical alignment screws.

14. Adjust the focus screw for overall brightness from the center to

the edges with a minimum of rolloff. NOTE: Rolloff is the

gradual difference in brightness from the center of the screen

to the edges. Ensure the bright area extends to the edges of

the screen but not over the edges. If possible, use a light

meter to perform this step. If using a light meter, try to achieve

a rolloff of no more than 4:1 to the screen corners. The darker

areas in each of the corners should be balanced evenly.

15. When the Arc Lamp is focused over the entire screen area and

balanced vertically and horizontally, reset the Green ILA® bias

to original value.

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3.2 Arc Lamp Current Setting

The Arc Lamp current must be set whenever an Arc Lamp or Arc

Lamp Power Supply is replaced. Routinely recheck current about

every 500 hours of operation. This procedure is performed using

two DVMs, for convenience, but can be performed with one DVM

by moving the leads back and forth between the two test points

mentioned and changing the scale ranges on the DVM.

To perform the Arc Lamp Current Setting:

1. Verify that power is off to the projector, or turn power off with

the remote (it is not necessary for the circuit breaker to be off).

2. Place a DVM (set to read up to 200VDC) across the Arc Lamp

DC INPUT ± terminals, J74, (Figure 3-3).

3. Turn projector power on.

Figure 3-3. Arc Lamp Power Supply connections.

4. Place another DVM, set to read at least 200 millivolts dc,

across the test points inside the small rectangular aperture,

near the upper left of the Arc Lamp Power Supply cover (see

Figure 3-4). NOTE: This test point reads millivolts across a

shunt that has been selected so that a 1 millivolt reading on the

DVM is equal to 1 amp of Arc Lamp current.

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Adjust the Arc

Lamp current

with this pot.

Place the

second DVM,

from Step 3,

across these

terminals.

Figure 3-4. Arc Lamp Power Supply aperture.

5. Multiply the results from Step 2 and Step 3 together (Bear in

mind that the millivolt reading from Step 3 should be interpreted

as amps, i.e. 1millivolt=1 amp).

6. The resulting power from Step 4 should equal 750 watts.

7. If the result is not 750 watts, adjust the trimmer pot (refer to

Figure 3-4). CW=increase, CCW=decrease. If increasing,

notice that the Arc Lamp voltage from Step 2 may decrease

slightly. Adjust the trimmer pot until power is 750 watts.

CAUTION! Do not adjust beyond 775 watts or damage to the

equipment may occur.

3.3 Electronic Module Tilt-up

1. Remove the rear cover (Section 4.2).

2. Release the clasp on the left side of the electronic module (turn

CCW and pull out).

3. Pull out the release pin on the rear-right side of the electronic

module to tilt it up. Tilt the electronic module up to a vertical

position.

4. Ensure the holding pin locks the electronic module in place.

3.4 ILA^®Back Focus

The ILA^®Back Focus adjustment moves the ILA^®/Relay Lens/CRT

assemblies together to adjust the focal length. This adjustment

allows the zoom lens’ tracking to remain focused throughout the

entire range. Use Focus test pattern to perform this adjustment for

each color. This procedure performs the Green ILA^®Back Focus.

For best results, perform ILA^®Back Focus with 2 people. One

person will watch the screen close-up and the other will move the

ILA^®/Relay Lens/CRT assemblies back and forth. The adjustment

is factory-set but may need some touch-up in the field.

To adjust the ILA^®Back Focus:

1. Remove the rear cover (Section 4.2).

2. Tilt the Electronic Module up (Section 3.3).

3. For this procedure, view Green. Hide Red and Blue.

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4. Select the Focus test pattern.

5. Select Projection Lens from the menu.

6. Use the up/down arrow keys to zoom the Projection Lens to full

telephoto position (smallest image). NOTE: Skip this step when

using an optional fixed lens.

7. Use left and right arrow keys to focus the projection lens to get

sharply focused spacer balls. NOTE 1: Spacer balls are used

inside the ILA^®Assembly to separate the layers. They are tiny,

random, irregularly-shaped spots that are visible throughout the

image. Look directly in front of the screen in the lighter areas of

the image to view. From throw distances shorter than 4 meters,

spacer balls are difficult to see.

8. Zoom the lens to a wide angle position (largest image). NOTE:

Skip this step when using an optional fixed lens.

9. Put on safety gloves (see Safety section for gloves type) then

loosen the wing nut on the Green Relay Lens (or whichever

lens is being focused). NOTE: If the ILA^®/Relay Lens/CRT

assembly cannot be moved close enough to get a good spacer

ball focus, loosen the CRT Lens Stopper Ring in front of the

CRT Holder Ring (Figure 3-5). Move the CRT snug against the

collar to get additional range, and then, retighten the collar.

10. Loosen the 2 hex bolts (Figure 4-12) on the ILA^®assembly in

front of the Relay Lens.

11. Slide the Relay Lens/CRT/ILA^®assembly forward or backward

until the sharpest spacer ball focus is achieved. NOTE: Do not

use the zoom lens focus while performing this step.

12. Repeat Steps 6-11 until the spacer balls stay in focus through

the entire zoom range. The spacer balls may go slightly out of

focus in spots while zooming up or down, but they should be in

focus at the smallest and largest images.

13. Tighten the hex bolts on the Green ILA^®Assembly and the

wing nut on the Green Relay Lens.

14. Repeat Steps 6-11 above for any other assembly needing ILA^®

Back Focusing. Be sure to hide the other 2 colors.

NOTE: The CRT Mechanical Focus procedure (Section 3.5) is often

performed sequentially with the CRT Rotation procedure (Section 3.6). The

same two set screws (Figure 3-5) are loosened when doing either of these

procedures. When performing the procedures in sequence, ensure the two set

screws are secure when either the focus lock screw or the CRT thumbscrew is

tightened after finishing each adjustment. Do not leave the set screws loose

when securing either the focus lock screw or the CRT thumbscrew. Turning

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either one of these adjustments while the set screws are loose may

cause the CRT to go out of focus or rotate.

3.5 CRT Mechanical Focus

The CRT Mechanical focus is factory-set and will not normally

require adjustment. When a CRT is replaced, the CRT mechanical

focus must be reset. Adjust colors individually. After completing,

recheck other colors for additional adjustment. Replacing the CRT

could cause other colors to become misadjusted. Use the Focus

test pattern (an external signal or other test patterns can also be

used) for adjustment.

To adjust the CRT Mechanical Focus:

1. Remove the rear cover (Section 4.2)

2. Tilt the Electronic Module to the upright position (Section 3.3).

3. Select the Focus test pattern.

3. Zoom the Projection Lens to the widest angle (largest image)

and adjust the Projection Lens focus for the sharpest image of

the Focus test pattern.

4. Tilt the Electronic Module up (Section 3.3).

5. Loosen the two set screws (Figure 3-5) near the top of the CRT

sleeve.

6. Loosen the CRT focus lock screw located on the Guide Plate at

the top of the CRT shield (Figure 3-5). The CRT is now free to

slide.

7. Grasp the CRT thumbscrew (Figure 3-5) and slide the CRT

back and forth until the image is focused as sharply as possible

(be careful not to loosen the CRT thumbscrew which could

cause the CRT to rotate).

8. Tighten the set screws first, then the CRT focus lock screw.

NOTE: Tighten set screws before focus lock screw. The focus

lock screw can slightly defocus or rotate the CRT as it is being

tightened if the set screws are loose.

9. Repeat the above steps for the Red and Blue CRTs.

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CRT Holder

Ring

Focus Lock

Screw

Set Screw

CRT Thumb

Screw

Guide Plate

CRT Shield

Figure 3-5. CRT Mechanical Focus adjustments.

3.6 CRT Rotation

The CRT tilt adjustment aligns the CRT level with the screen. This

is a factory-set adjustment and should not need adjusting unless

the CRT or yoke is moved.

Remove the rear cover (Section 4.2) and tilt the electronic module

up (Sections 3.3).

1. Select Test Pattern 8, Center/Lin.

2. View the color for the CRT that requires rotation. Hide the other

2 colors.

3. In the Geometry menu, set “Reg Enable” to off by unchecking

the box. Unchecking the Reg Enable box temporarily disables

any convergence corrections that have been performed with a

different CRT/Yoke assembly and sets these values to the

default levels so that CRT Rotation can be accomplished

correctly.

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4. In the Geometry menu, access Bow, Skew, Pincushion, and

Keystone. Note the values for each setting. After recording

values, set each to the default level of 128 (For Skew, select

the color of the CRT that is to be rotated-the other functions are

not color-selectable). This is done so that the CRT Rotation can

be properly performed without the influence of any previous

corrections made for these adjustments.

5. Loosen the 2 set screws (Figure 3-5) near the top of the CRT

sleeve.

6. Loosen the CRT Thumbscrew (Figure 3-5) on the top of the

CRT Assembly.

7. Tilt the yoke by grasping the Thumbscrew and moving it in

whichever direction it takes to make the CRT raster square.

8. When the CRT raster is square on the screen, tighten the 2 set

screws first, then the CRT thumbscrew.

9. In the Geometry menu, toggle the Reg Enable box back to On.

10. Reset Bow, Pincushion, Keystone, and Skew (select proper

color for Skew) to the values noted previously in Step 4.

11. Recheck Bow, Pincushion, Keystone, and Skew and readjust if

necessary. Also recheck Convergence (refer to the Model 200

User’s Guide).

12. Repeat the above procedure for any other CRT that is not level.

3.7 CRT Electronic Focus

The Electronic Focus is factory-set and will not normally need to be

adjusted except after component replacement, maintenance, or if

wide temperature variations exist between the factory and the field

location. View one color at a time.

1. Select the Focus test pattern.

2. Zoom the Projection Lens to the widest angle and adjust the

Projection Lens focus for the sharpest image.

3. View Green. Hide Red and Blue.

4. Adjust the Green Electronic Focus (Figure 3-6) for a sharp

focus of the H pattern at the center of the screen.

5. Repeat the above steps for Red and Blue.

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Figure 3-6. RGB Electronic Focus adjustments.

3.8 ILA^®Overlap

This adjustment positions the ILA^®assemblies in their sockets.

Adjustment should only be made once or whenever an ILA^®is

replaced.

To determine if this adjustment is necessary:

1. Note the value of the ILA^®bias for Red, Green and Blue so

they can be returned to these levels when this procedure is

complete.

2. Hide all three colors.

3. Increase the ILA^®biases to maximum for all 3 colors. With all 3

colors at maximum, the image on the screen should be a white

screen with some colors at the edges.

4. Observe the right, left, top, and bottom of the screen. Normally,

green is the reference to which blue and red will be matched.

(NOTE: If the green ILA^®was replaced, the blue or red image

should be used as the reference to which green is matched.) If

a red or blue border is present on either side or at the top or

bottom the ILA^®overlap needs adjustment. If both red and blue

overlap, the border will be yellow. In either case, proceed with

the adjustment below. If there is no overlap, reset the ILA^®

biases to their previous levels from Step 2.

To perform an ILA^®Overlap adjustment:

Remove the rear cover (Section 4.2) and tilt the electronic module

up (Sections 3.3).

1. Continue with all three colors hidden.

2. Loosen the 2 wing nuts at the top of the ILA^®assembly to be

adjusted (Figure 4-12).

3. If the overlap is at the left or right, grasp the ILA^®assembly and

slide it to the right or left so that the edges coincide with the

edges of the other two ILA^®assemblies. CAUTION! To avoid

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damaging the connector, grasp the ILA^®assembly itself, not

the connector at the top.

4. If the overlap is at the top or bottom, be sure the projector is

level, then slide the spring clip (Figure 4-12) at the top of the

ILA^®assembly backward and remove the ILA^®assembly (it will

slide out with some resistance). There are two adjustment

screws at the bottom of the ILA^®assembly which allow for up

and down movement. Turn these screws in or out very slightly

to allow the ILA^®to seat lower or higher, whichever is needed.

5. Reinstall the ILA^®assembly and replace the spring clip.

6. Repeat Step 4 if adjustment is still needed.

7. Retighten the 2 wing nuts.

8. Reset the ILA^®biases to their previous levels from Step 2.

3.9 Front/Rear or Inverted Projection Jumper Settings

3.9.1 Front/Rear Jumper Setting (Horizontal Reverse)

The Horizontal Scan Reversal Jumper reverses the image

projection for front or rear projection. Figure 3-7 illustrates the

jumpers’ location on the Scan Reversal Board, and the proper

location for front and rear projection.

The projector is shipped with the jumper plugs inserted in J50 and

J100 for front projection. For a rear projection setup, these jumpers

must be inserted into JA50 and J101.

HORIZ SIZE COILS

Figure 3-7. Scan Reversal Board.

To set the Horizontal Scan Jumper:

1. Turn power off at the projector and wait for the arc lamp to cool.

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2. Remove the projector rear cover (Section 4.2).

3. Verify that the jumper is plugged into JA50 and J101 for rear

projection or J50 and J100 for front projection (See Figure 3-7).

Change jumper if necessary.

4. Replace the projector cover.

5. When changing jumpers for front or rear screen projection,

Centering, convergence and shading must be rechecked.

3.9.2 Inverted Vertical Jumper Setting

The Ceiling/Floor jumpers invert the image vertically for use in

situations using mirrors or ceiling projections. Figure 3-7 illustrates

the location of the jumpers on the Scan Reversal Board and

indicates the proper location for ceiling or floor projection. The

Model 200 Projector is shipped in the normal vertical projection

position with the jumper plug inserted into J53. For an inverted

vertical setup this jumper plug must be inserted into J53A. (Refer to

Figure 3-7).

To invert the vertical image:

1. Turn power off at the projector and wait for the arc lamp to cool.

2. Remove the projector rear cover (Section 4.2).

3. Tilt the electronic module up (Section 3.3).

4. Verify that the vertical jumper is inserted in the correct jacks for

appropriate application, (see Figure 3-7). Change jumpers if

necessary.

5. Replace the electronic module and rear cover.

6. When changing jumpers for floor or ceiling screen projection,

Centering, convergence and shading will need to be rechecked.

3.10 Vertical and Horizontal Size Settings

Adjust the vertical height pots and horizontal size coils when

replacing the Horizontal/Vertical Deflection board, Scan Reversal

board, or CRT/Yoke assembly. They may also be needed when the

convergence adjustment procedures fail to bring the colors into

convergence.

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Vertical height pots.

Figure 3-8. Horizontal/Vertical Deflection Board.

To adjust the Vertical height (see Figure 3-8):

Remove the rear cover (Section 4.2).

1. Select Test Pattern 5, X-hatch.

NOTE: Green is the master to which Red and Blue will be

matched. The Green height pot should not need adjustment

except when the Green CRT assembly has been replaced.

2. Hide Blue and view Red and Green.

3. If Red is higher than Green at the top and lower than Green at

the bottom of the X-hatch image, or If lower than Green at the

top and higher at the bottom, adjust Red vertical pot to correct

the error.

If Red is higher than Green at the top and bottom, or lower than

Green at the top and bottom, this is most likely caused by Red

not being centered correctly and can be corrected with the

centering adjustment (User’s Guide, Section 5.5.11).

If the Red height pot does not completely eliminate the

difference in height between Red and Green, balance the error

at the top and bottom. Too much of an error at the top or

bottom makes convergence procedures harder to accomplish.

4. Repeat Steps 2 and 3 above for Blue while hiding Red.

5. Recheck all Geometry and Convergence settings (see User’s

Guide) and readjust wherever necessary.

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To adjust the horizontal size coils (see Figure 3-7):

1. Continue to use Test Pattern 5, X-hatch.

2. Hide Blue. View Red and Green.

3. If Red is outside of Green on both sides, or inside of Green on

both sides, use a Delrin .100 hex alignment tool to adjust the

Red horizontal size coil to correct the error. If Red is outside of

Green on one side and inside of Green on the other side, this is

most likely caused by Red not being centered correctly and can

be corrected with the centering adjustment (User’s Guide,

Section 5.5.11).

If the Red horizontal size coil does not completely eliminate the

size error between Red and Green, balance the error on both

sides to allow for easier convergence.

4. Repeat Steps 2 and 3 above for Blue while hiding Red.

5. Recheck all Geometry and Convergence settings and readjust

wherever necessary.

6. Replace the electronic module and rear cover.

3.11 Software Updating

The projector's software resides in Flash Memory and is updated

via the projector's serial Port A. To perform an update, a disk

containing the updated Boot Software (boot.hex) and/or System

Software (zsys.hex) and a PC with Windows 3.1 (avoid Windows

95 at this time) is required to perform update.

Boot Manager Software and System Software are separate

products. Each may be updated independently. The System

Software will depend on a specific version of the Boot Manager.

Refer to the System Software release bulletin for Boot Manager

version dependencies.

To perform software upgrade:

1. Verify that the projector circuit breaker is off. Use a Null Modem

cable to connect a PC to the projector’s Serial Port A.

2. Start Windows 3.1.

3. Click on the terminal icon from the Accessories Directory.

4. From the Terminal menu, select Settings-Terminal Emulation

and click on DEC-VT-100(ANSI).

Select OK.

5. Under Settings choose Terminal Preferences.

6. Under Terminal Preferences the following selections are

appropriate; Terminal Modes=Sound, CR->CR/LF=Both off,

Columns=80, Cursor=Block & Blink, Terminal Font=Fixedsys

15, Translation=None, Show Scroll Bars=On, Buffer Lines=100,

Use Function Arrow & Control Keys for Windows=Off. Select

OK.

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7. Under Settings select Text Transfer=Standard Flow Control.

Select OK.

8. Under Settings select Communications and choose;

Connector=select the PC port being used, Baud Rate=9600 or

19200 (depending on the System Controller Switch block Pos

4-see note below this step), Data Bits=8, Stop Bits=1,

Parity=None, Parity Check=Off, Carrier Detect=Off, Flow

Control=XON/XOFF. Select OK.

NOTE: Switch position 4 on the switch block at the card edge of

the System Controller (see Figure 5-1) controls the baud rate

for Serial Port A for the Boot Manager and System Software.

Down=9600, Up=19200. Ensure the other SCB switches (1, 2,

and 3) are in the Down position.

9. Turn the projector circuit breaker on while depressing and

holding down the service mode switch on the SCB (see Figure

5-1) for at least 5 seconds or until "Boot Manager" appears on

the terminal monitor. The Power On LED stays Red.

10. The following should be displayed on the Windows Terminal

screen (where x.x.0 is the currently loaded Boot Manager

version (e.g. 0.9.0 or 1.1.0).

–Boot Manager Ver x.x.0 (Service Mode Startup)

–Command: _

11. Verify that the Boot Manager version is correct. If it is

necessary to update the Boot Manager, perform the following

steps. If the Boot Manager is already up to date, skip to Step 12

to update the System Software.

11A. Enter the command "loadboot" at the prompt. You should

see the following output:

Command: loadboot

Boot Manager software update procedure

***WARNING: IMPROPER USE MAY MAKE THIS

SYSTEM UNBOOTABLE*** (This warning relates

to the Flash Memory updating that occurs

in Step 11D. Do not turn projector power

off while the Flash Memory is updating)

Memory buffer reset to 0xff

Begin your S-Record upload now (Esc to

abort).

11B. From the Windows Terminal Menu (normally in

Accessories window), select "Transfers/Send Text File",

then select "List Files of Type:All Files", and select the

disk and/or directory with the projector software. You

should see a file named "boot.hex". Select this file and

press the OK button to begin the upload.

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11C. During upload, a progress indicator updates the number

of records received. At the completion of the upload, the

system will display the following (numerical values are for

example only and depend on the Boot Manager version):

S-Records processed: 823

Upload Successful

Address Range: 0x00000000-0x00006687

Bytes Loaded: 26248

***WARNING: FLASH WILL NOW BE UPDATED***

Press Enter to continue, Esc to abort.

11D. The system has verified that the load module is correct

and is ready to update the Flash. Press Enter to perform

the update (press Esc now to abort the update with no

changes). While the Flash memory is being updated (15-

30 seconds), DO NOT turn off the projector circuit breaker

or the machine could be made unbootable, requiring a

new set of flash chips to be installed. When the update is

complete, the system will display the following:

Reprogramming Flash Sector 0 1

Boot Manager software update successful

Command: _

The Boot software has been successfully updated. To restart

the projector under control of the updated boot manager, enter

the "reboot" command while depressing the service mode

switch (Figure 5-1). The projector will now restart with the

updated boot manager software. You should see the following

displayed (where y.y.0 is the updated Boot Manager's version.

Boot Manager Ver y.y.0 (Service Mode

Startup)

Technology

Command: _

12. To update the System Software from the Boot Manager prompt:

12A. Type in the command “loadsys” at the prompt. The

following should be displayed:

Command: loadsys

System software update procedure

***WARNING: IMPROPER USE MAY MAKE THIS

SYSTEM UNBOOTABLE*** (NOTE: This warning

relates to the Flash Memory updating that

occurs in Step 12D below. Do not turn

projector power off while the Flash Memory

is updating.)

Memory buffer reset to Oxff

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Begin your S-Record upload now (Esc to

abort)

12B. Select “Transfers/Send Text File” from the Windows

Terminal Menu (normally in Accessories window). In the

“Send Text File Dialog” box, select “List Files of Type: All

Files” and select the disk and/or directory with the Model

220 software. Select file named “zsys.hex”. Press OK to

start upload.

12C. During upload, a progress indicator updates the number

of records received. When the upload is complete, the

system will display the following (numerical values are for

example only and depend on the System Software

version):

S-Records processed:11282

Upload Successful

Address Range: 0x00020000-0x000781cf

Bytes Loaded:360912

***WARNING: FLASH WILL NOW BE UPDATED***

Press Enter to continue, Esc to abort

12D. At this point the system has verified that the load module

is correct and is ready to update the Flash memory. Press

Enter to perform the update (Esc will abort the update

process with no changes). While the Flash is being

updated (approx 15-30 seconds), DO NOT turn off the

projector circuit breaker, this may make the machine

unbootable, requiring a new set of flash chips to be

installed. When the update is complete, the system will

display the following:

Reprogramming Flash Sector 2 3 4 5 6 7 8 9

System software update successful

Command: _

The software update is complete. To restart the projector, type in

the “reboot” command and press Enter. The projector will now

restart with the updated System Software.

3.12 Cleaning Lenses, ILA^®Assemblies and Mirrors

The projection lens is the only item that will require periodic

cleaning. The other assemblies are covered to prevent dust from

entering or finger smudges. Cleaning may be needed due to

special circumstances such as replacing the assembly or an

adjacent assembly. Cleaning should only require removing

excessive dust (use canned compressed air such as “Office

Duster” or Aero Duster) or removing fingerprint smudges (use

“Kodak Lens paper”, or equivalent) from the projection lens. As

much as possible, clean the optics only when absolutely

necessary.

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Chapter 3 Service Adjustments

Projection Lens: Use lens paper and wipe the lens clean in a

vertical motion from top to bottom. Use compressed air to blow

excess dust from the lens. An optical lens cleaning solution can

also be used to remove finger smudges.

ILA^®Assembly: Clean the ILA^®assembly faces with compressed

air only. Do not wipe the ILA assembly faces.

CRT Faces: Use compressed air to blow dust off and lens paper

to clean face.

Relay Lens: Same as Projection Lens.

Mirrors and Polarizing Beam Splitter Windows: The Optical

Shield covers the Dichroic Mirror Assembly (X-Frame) and

Polarizing Beam Splitter windows. Normal cleaning is not required.

Clean only if absolutely necessary using compressed air. Do not

wipe mirrors.

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Chapter 4---Maintenance (Removal/Replacement)

4.0 Maintenance (Removal/Replacement)

Contents

4.1 Introduction.............................................................................. 4-1

4.2 Projector Covers...................................................................... 4-4

4.3 Air Filters.................................................................................. 4-5

4.4 Arc Lamp Assembly................................................................. 4-5

4.5 Arc Lamp Power Supply .......................................................... 4-8

4.6 Low Voltage Power Supply...................................................... 4-8

4.7 High Voltage Power Supply..................................................... 4-8

4.8 Raster Timing, System Controller, Video Processor PCBs ..... 4-10

4.9 Convergence/Deflection PCB.................................................. 4-11

4.10 Horizontal/Vertical Deflection PCB .......................................... 4-12

4.11 Video Input Cards (VICs)......................................................... 4-13

4.12 Video Amplifier PCB ................................................................ 4-14

4.13 Scan Reversal PCB................................................................. 4-16

4.14 CRT/Yoke Assembly................................................................ 4-16

4.15 ILA^®Assembly......................................................................... 4-18

4.16 Relay Lens............................................................................... 4-19

4.17 Projection Lens........................................................................ 4-20

4.18 Prism Assembly....................................................................... 4-21

4.1 Introduction

NOTE: Before removing the front or rear cover or replacing

any components or subassemblies, please review the Safety

Chapter at the front of this manual. Removal and replacement

procedures in this chapter must be performed by Hughes-

JVC certified technicians and engineers only.

•

Tools required to perform removal and replacement of

projector components and subassemblies are listed in Chapter

1, Introduction.

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Chapter 4---Maintenance (Removal/Replacement)

WARNING!!!

Various procedures in this

chapter involve the removal and replacement of system

subassemblies. Ensure that the circuit breaker on the rear

panel of the projector is turned off and the AC power plug is

removed from the AC outlet PRIOR to attempting any of these

procedures.

When performing any maintenance procedures in this chapter,

follow the guidelines below:

Left/Right Orientation: When left and right is mentioned in this

chapter, it is with reference to standing at the rear of the projector,

facing the screen.

Connectors on subassemblies and PCBs have tabs that must be

released first before pulling on the connector. The proper

procedure is to push slightly IN on the connector, then squeeze

the tab, then pull the connector out.

Power off: After turning power off with the remote, wait until the

Arc Lamp cooling fans have stopped running, then toggle the

projector circuit breaker on the rear panel to OFF and disconnect

the power cord (allow a discharge time of at least a minute for the

high voltage to bleed off before removing the power plug).

NOTE: While performing any maintenance procedures, check the

prism diaphragm for dryness, crazing, cracking, or possible

leaking. If any problems are observed, call HJT.

When references are made to assemblies or components in this

chapter, refer to Figures 4-1 and 4-11 for locations.

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Chapter 4---Maintenance (Removal/Replacement)

Arc Lamp Air

Filter and Cover

Optical Shield

Shutter Motors

Horizontal/Vertical

Deflection PCB.

Convergence PCB

on opposite side.

Lamphouse

Dock and Arc

Lamp

Rollbar

Prism

Assembly

Card Cage

Arc Lamp

Power Supply

containing System

Controller, Raster

Timing Generator,

Video Processor and

Video Input Cards.

Lower Right Side

Panel. Remove to

provide access to

ALPS and LVPS.

CRT

Assemblies,

Relay Lenses,

EMI Shield

ILA^®s, and

Video Amplifier

PCB. Tilt Card

Cage up for

access.

High Voltage

Power Supply

Low Voltage

Power Supply

Scan Reversal

Board

Card Cage

Holding Pin

Metal Framed

Air Filter

behind Grille.

Figure 4-1. Major components of the Model 200 Projector.

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Chapter 4---Maintenance (Removal/Replacement)

4.2 Projector Covers

Prior to removing either cover, review the chapter on Safety and

adhere to all warnings and cautions.

Interlock Switch.

Pull up immediately after

removing front or rear cover

to reapply power to Arc

Lamp cooling fans.

Holding Slots

Latch Levers

Figure 4-2 Rollbar Assembly.

To remove the front or rear covers (refer to Figure 4-2):

1. Disconnect the projector power plug.

2. Loosen the two pozidrive spring screws at the front of

the front cover or the rear of the rear cover.

3. Tilt up the front or rear cover.

CAUTION! Do not leave either cover tilted

up! The covers can fall from this tilted up position and possibly

damage projector components. Remove the cover and set it

aside when servicing the projector.

4. Release the two Latch Levers on the Rollbar assembly

that hold the cover in place. Place the ends of the

Latch Levers into the holding slots.

CAUTION! Immediately after removing the front or

rear cover, pull up the power interlock switch. This allows

power to be reapplied to the fans to cool the Arc Lamp.

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Chapter 4---Maintenance (Removal/Replacement)

The power interlock switches for both covers are attached

to each cover hinge.

5. When the Latch Levers are inserted into the holding

slots, lift the cover off. Be careful not to brush against

any of the internal components of the projector when

removing the cover. If any undue resistance is felt, stop

to locate the source before proceeding.

6. Replace the covers in reverse order from above. When

replacing either cover, make sure the slot in the cover

fits over the bottom of the projector case or the cover

will not close correctly.

4.3 Air Filters

Air filters should be cleaned whenever necessary. In extremely

dusty or dirty conditions, the filters should be cleaned more

frequently. Remove the filters and vacuum them or blow them

clean with compressed air. They may also be washed with soap

and water.

There are 4 polyurethane air filters in the Model 200 that require

periodic cleaning. They are located as follows:

•

1 metal-framed filter in the rear of the projector in the bottom

cover-accessible when the rear cover is off (Figure 4-1).

•

1 filter on the bottom of the projector-slides out from the

middle-left side of the projector (grasp the hole in the filter

frame). The filter can be peeled off the Velcro on the frame, if

necessary (Figure 4-11).

•

1 filter under the front cover, on top of the Arc Lamp and

Optical Assemblies-accessible with the front cover off (Figure

4-1). This filter is also a peel-off type.

1 metal-framed filter in the front-left-bottom cover accessible

with the front cover off (Figure 4-11).

4.4 Arc Lamp Assembly

The Arc Lamp Assembly consists of the Arc Lamp, the Ignitor, and

the Laser Power Supply housed inside a Lamphouse Dock. An

Arc Lamp can be removed and replaced separately from the entire

assembly. The Ignitor and Laser Power Supply are sent back

together as part of the Lamphouse Dock.

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Chapter 4---Maintenance (Removal/Replacement)

WARNING!!! Dangerous light exists in

this area of the projector. Before proceeding with the removal

of any subassemblies below, verify that the circuit breaker at

the rear of the projector is turned off and the power plug is

removed from the AC outlet.

To remove the Arc Lamp from the Lamphouse Dock:

1. Remove the front cover (Section 4.2).

2. Disconnect the fan connector from the Arc Lamp

exhaust fan.

3. Loosen (½ turn) the large retainer screw at the bottom

of the Arc Lamp assembly cover (Figure 4-3).

Figure 4-3 Arc Lamp cover.

4. Lift the Arc Lamp assembly cover up and tilt it back.

5. Remove and label the two Arc Lamp cables at the

Ignitor side (these two connections are shown inside

the heavy circles in Figure 4-4). Leave these cables

connected to the Arc Lamp when returning it to the

factory.

6. Loosen the three Arc Lamp holding bolts (Figure 4-4).

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Chapter 4---Maintenance (Removal/Replacement)

Figure 4-4. Lamphouse Dock and Arc Lamp with cover off.

7. When reinstalling the Arc Lamp, be sure that the

Safety Shutter tab on the left side (Figure 4-4) engages

the left side of the housing so that the Arc Lamp

cooling door opens when the Arc Lamp is installed.

8. After reinstalling the Arc Lamp, perform the Arc Lamp

Focus, Alignment and Current Setting procedures as

shown in Sections 3.1 and 3.2.

To remove the Lamphouse Dock (Ignitor and Laser PS):

1. Remove the Arc Lamp as shown in the above

procedure. Store the Arc Lamp in a safe place.

2. Remove the 5 pozidrive screws securing the

projector’s lower-right-side panel (Figure 4-1) and

remove the panel.

3. Disconnect the fan connector from the Arc Lamp

cooling fan.

4. Disconnect and label the positive and negative cables

from the Arc Lamp Power Supply terminals marked

“DC OUTPUT” (Figure 3-3).

5. Remove the Arc Lamp Air Filter and cover by removing

the 3 pozidrive screws that secure it to the Lamphouse

Dock Assembly.

6. Remove the 3 hex screws at the inside-rear of the

Lamphouse Dock (1 on top and 2 on bottom). The

Lamphouse Dock is now free to return for repair.

7. Replace the Lamphouse Dock in reverse order. NOTE:

When replacing the Lamphouse Dock, be sure the 2

pins on the Collimator Lens line up with the holes on

the rear of the Lamphouse Dock.

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Chapter 4---Maintenance (Removal/Replacement)

4.5 Arc Lamp Power Supply

To remove the Arc Lamp Power Supply:

1. Remove the front cover (Section 4.2).

2. Remove the lower-right-front-side panel by removing

the 5 pozidrive screws securing it.

3. Remove the 2 pozidrive screws from the bottom of the

EMI shield and slide it out of the way to the left.

4. Remove and label the cables from the DC OUTPUT

terminal, J74.

5. Disconnect J71 (AC Input).

6. Disconnect J72 (SIGNAL CABLE).

7. Remove J73.

8. Remove the 2 screws at the bottom of the ALPS and

carefully slide it out of the projector.

9. Replace the Arc Lamp Power Supply in reverse order

from above. NOTE: When replacing the cables on the

± terminals on J74, a mechanical pickup tool is very

useful to start the screws.

10. Perform the Arc Lamp Focus, Alignment, and Current

Setting procedures as shown in Section 3.1 and 3.2.

4.6 Low Voltage Power Supply

To remove the Low Voltage Power Supply:

1. Remove the front cover.

2. Remove the lower-right-side panel by removing the 5

pozidrive screws securing it.

3. Remove the 2 pozidrive screws securing the EMI

Shield. Slide the shield to the left and remove it.

4. Remove J76 (DC Output) and J75 (AC Input) from the

left side of the Low Voltage Power Supply. NOTE:

These connectors may be difficult to remove and it may

be necessary to angle the LVPS partly out of the

chassis in order to get a firmer grip on the connectors.

5. Remove the 2 screws on the bottom side of the LVPS

and carefully slide it out of the projector.

6. Reinstall the LVPS in reverse order. After the LVPS is

installed, recheck Timing, Geometry, Electronic Focus,

ILA^®Bias/Sensitivity, Convergence, G2, and Shading.

4.7 High Voltage Power Supply

To remove the High Voltage Power Supply:

4-8

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Chapter 4---Maintenance (Removal/Replacement)

1. Remove the front and rear covers (Section 4.2).

2. Remove the High Voltage Power Supply cover (Figure

4-5) by removing the 2 pozidrive screws that secure

the HVPS at the top of the cover and loosening the 1

pozidrive screw at the bottom of the front flap (Do not

remove this bottom screw-it is difficult to reinstall. The

HVPS will slide up and over it).

Figure 4-5. High Voltage Power Supply cover.

Figure 4-6 High Voltage Power Supply.

3. Carefully slide the cover upward and outward to

remove it.

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Chapter 4---Maintenance (Removal/Replacement)

NOTE: For the remainder of this procedure refer to Figure

4-6 above.

4. Disconnect the 3 CRT anode cables.

5. Disconnect P44-G2 Out (at the middle-front of the

HVPS).

6. Unsnap the cable clamp at the top of the HVPS.

7. Remove the anode cables and the P44 cable from the

cable clamp.

8. Disconnect P45 (“Control”) at upper left of HVPS.

9. Disconnect and label the 3 Focus cables. The square

tabs on these cables (see Figure 4-6) may have to be

lifted up by gently prying with a flathead screwdriver.

10. Remove all cables from the slot in the cable guide at

the left side of the HVPS.

11. Verify that all plugs and cables are removed and out of

the way so the HVPS is free to be removed.

12. Loosen (do not remove) the 2 pozidrive screws (at the

bottom of the HVPS) that secure the HVPS metal

housing to the projector.

13. Remove the 2 pozidrive screws that hold the top of the

HVPS metal housing to the projector frame.

14. Grasp the HVPS at the bottom and lift upward and

outward so that it slides away from the bottom screws.

15. Reinstall the HVPS in the reverse order from above.

When reinstalling, be sure that the HVPS slides over

the bottom screws and the lip at the top of the projector

frame. Make sure each anode cable “snaps” back into

its receptacle. The receptacles are about 2” inside the

hole where the cable fits into. Also, be sure the rear

flap on each focus cable connector snaps over the

square socket securely-wiggle the connector a little to

make it fit over.

16. Replace the HVPS cover. After the HVPS is replaced,

recheck CRT Mech Focus, Yoke Alignment, G2, and

Electronic Focus.

17. Replace the projector covers.

4.8 Raster Timing, System Controller, Video Processor

PCBs

All electrical connections to the Raster Timing Generator, System

Controller, and Video Processor boards are routed through the

backplane board. There are no connectors to remove.

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Chapter 4---Maintenance (Removal/Replacement)

To remove the Raster Timing Generator, Video Processor, or

System Controller PCBs:

1. Turn off power at the remote control and at the circuit

breaker on the projector rear panel.

2. Remove the projector rear cover.

3. For the Raster Timing Generator and Video Processor

PCBs, grasp the card extractor tabs at both ends of the

boards and pull out. To remove the System Controller

Board, use a small, flathead screwdriver and remove

the screw in the bracket in the center of the System

Controller Board (this bracket holds the SCB to the

card cage). Grasp the bracket and pull out the SCB.

4. When replacing boards, verify that power is off at the

circuit breaker, the power plug is disconnected and

there are no bent pins on any connectors. Make sure

the board is properly and securely seated before

reapplying power.

NOTE: To remove connectors on the printed circuit boards

below, push the connector in slightly, then squeeze the tab and

pull the connector out.

4.9 Convergence/Deflection PCB.

The Convergence/Deflection PCB is located on the bottom side of

the Electronic Module card cage.

To remove the Convergence/Deflection PCB:

1. Remove the rear cover (Section 4.2).

2. Tilt the Electronic Module up. (Section 3.3).

3. Disconnect 6 connectors; J31, J32, J33, J38, J39, and

J40. (Figure 4-6). Move the cables out of the way.

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Chapter 4---Maintenance (Removal/Replacement)

Figure 4-7. Convergence/Deflection PCB.

4. Loosen (not necessary to remove) the 5 screws that

secure the Convergence Deflection PCB to the electronic

module card cage (see Figure 4-7).

5. Remove the Convergence Deflection PCB by sliding it

upward so the mounting screws will clear the access

holes, then angle the right side outward. NOTE: In order

to get the right side out, it may be necessary to first move

the board out enough to clear the access holes, then

angle the left side out just enough for the top 2 fins of the

heat sync to fit over the electronic module frame lip (this

will allow a little more clearance for the right side to be

removed), then maneuver the right side out.

6. Reinstall the Convergence/Deflection PCB by lowering

the right side in first until it clears the electronic module

edge, then lowering the left side in. NOTE: it may be

necessary to fit the top 2 fins of the heat sync over the

electronic module frame lip at the left to get enough

clearance for the right side to be installed. Carefully fit the

board over the mounting screws and slide the board into

position. Tighten the screws and reconnect the

connectors.

4.10 Horizontal/Vertical Deflection PCB

The Horizontal/Vertical (H/V) Deflection PCB is located in the upper

portion of the Electronic Module card cage.

To remove the Horizontal/Vertical (H/V) Deflection PCB:

1. Remove the rear cover (Section 4.2).

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Chapter 4---Maintenance (Removal/Replacement)

2. Disconnect 6 connectors; J34, J35, J36, J41, J42, and

J43. (see Figure 4-8). Move the cables out of the way.

3. Loosen (not necessary to remove) the 5 pozidrive screws

that secure the H/V Deflection Board to the electronic

module cage.

4. Remove the H/V Deflection PCB by sliding it toward the

left side of the projector (this is the upward direction if the

electronic module is raised up) so that the mounting

screws clear the access holes. Then lift the side of the

board that is nearest the front of the projector first and

angle it upward so that the side closest to the rear clears

the lip of the electronic module frame. Be careful when

removing or reinstalling the board to avoid gouging it on

the fan screws or cable clamps.

5. Reinstall the HV Deflection PCB by lowering the side that

is nearest to the rear of the projector in first until it clears

the electronic module edge, then lowering the other side.

Carefully fit the board over the mounting screws and slide

the board into position. Tighten the screws and reconnect

the connectors.

Figure 4-8. Horizontal/Vertical Deflection PCB.

4.11 Video Input Cards (VICs)

The 4 types of Video Input Cards, RGB Standard, 4X RGB Mux (4

RGB Input), Quad Decoder, and HDTV (YPbPr) are all removed and

inserted in the same manner.

To remove a VIC:

1. Disconnect all video input connections from the VIC to be

removed.

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Chapter 4---Maintenance (Removal/Replacement)

2. Remove the 2 flathead screws that secure the VIC to the

projector rear panel.

3. Grasp the VIC connector bracket and pull the VIC out

(Wiggle the VIC a little, if necessary, to extract it).

4.12 Video Amplifier PCB

The Video Amplifier PCB for the 3 CRTs is located under the

Electronic Module, on the bottom frame of the projector behind and

under the CRT assemblies.

To remove a Video Amplifier PCB:

1. Remove the front and rear covers (Section 4.2).

2. Tilt the Electronic Module up (Section 3.3).

3. Loosen the Green CRT Holder Ring (knurled knob-see

Figure 3-5). Read the Caution below this step before

removing the CRT Holder Ring completely. NOTE: The

holder ring should only be hand-tight. If it cannot be

removed by hand, a flathead screwdriver can be used in

the slots on the CRT Holder Ring (Figure 3-5) to help

loosen it. Use care not to let the flathead screwdriver slip

out of the slot and possibly damage components. Do not

use a screwdriver or any other tool to tighten this ring-it

should be hand-tight only.

CAUTION! This step is performed with the CRT Socket

Connector still connected to the Green CRT and the ground

wire still connected from the CRT/Yoke Assembly to the CRT

Socket Connector. This is because the Green CRT Socket

Connector is close to the rear of the projector and is easier to

disconnect from the CRT after the CRT/Yoke Assembly is

loose and is moved away from the rear of the projector. Use

extreme care not to break any of these connections when

removing the CRT/Yoke Assembly.

4. Carefully remove the Green CRT/Yoke Assembly by

sliding it backward and upward as far as possible before

disconnecting the Green CRT Socket Connector from the

CRT neck. Use care to avoid bumping the CRT as it is

being removed and to avoid breaking any of the wires that

connect from the CRT Socket Connector to the Video

Amplifier.

5. Move the Green CRT/Yoke Assembly away from the rear

of the projector, then disconnect the Green CRT Socket

Connector and the ground wire between the CRT/Yoke

Assembly and the CRT Socket Connector. NOTE: It may

be helpful to perform this step with a partner-one person

to hold the CRT/Yoke Assembly firmly and the other to

remove the CRT Socket Connector and the ground wire.

6. Gently lay the Green CRT Socket Connector on the top of

the Video Amplifier PCB.

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Chapter 4---Maintenance (Removal/Replacement)

7. Place the Green CRT Assembly in a safe location on or

against one of the other CRT Assemblies.

8. Disconnect the Red and Blue CRT Socket Connectors

and gently lay them on the top of the Video Amplifier

Board.

9. Disconnect the 3 connectors (push in slightly, squeeze

the tabs, and pull out), J67, J68, and J69 from the Video

Amplifier PCB. Move the cables out of the way.

Figure 4-9. Video Amplifier PCB showing breakaway CRT Socket

Connectors.

10. Disconnect the 3 Focus cables that run from the CRT

Socket Connectors to the Focus connectors on the

HVPS. NOTE: Observe that each of the 3 Focus cables

(large, red wires that run from each CRT Socket

Connector to the Focus connectors on the HVPS) is

joined near the CRT by a coupler plug and jack.

Disconnect (and label) the focus cables at these couplers.

11. Loosen the 6 pozidrive screws that secure the Video

Amplifier PCB to the projector frame.

12. Make sure everything is out of the way, then slide the

Video Amplifier PCB toward the left so the mounting

screws will clear the access holes and remove the board

from the projector.

13. Reinstall in the reverse order from above. NOTE: The

Video Amplifier PCB is shipped with the 3 CRT Socket

Connectors attached at the end in a “breakaway”

arrangement (Figure 4-9). Use a pair of diagonal cutters

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Chapter 4---Maintenance (Removal/Replacement)

and carefully cut the socket connectors away from the

Video Amplifier PCB. The spacers between the CRT

Socket Connectors can be discarded.

4.13 Scan Reversal PCB

The Scan Reversal PCB is located on the right side of the Electronic

Module.

To remove the Scan Reversal PCB:

1. Remove the projector rear cover.

Figure 4-10. Scan Reversal PCB.

2. Disconnect 7 connectors; J52, J54, J64, J65, J66, J50 (or

J50A), and J100 (or J101). To remove, push in slightly,

squeeze the tabs, then pull connector out.

3. Move all cables out of the way.

4. Remove the 4 pozidrive screws (Figure 4-10) and lift the

board out.

5. Reinstall in the reverse order from above.

4.14 CRT/Yoke Assembly

Warning!!! The CRT/Yoke Assemblies should

be handled with extreme caution. If dropped they can implode and

flying glass can cause severe injury to personnel. Be careful not to

bump or drop the CRT. Place in a safe area immediately after

removal.

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Chapter 4---Maintenance (Removal/Replacement)

Three CRT/Yoke Assemblies are located in the CRT Assembly area

below the card cage. To remove a CRT/Yoke Assembly (refer to

Figure 4-11):

Cable Harness

to Scan

Reversal PCB

Blue ILA

Relay

Lenses

Rollbar Bracket

CRT/Yoke

Assemblies

Video Amplifier

PCB below

CRTs

Metal-Framed

Air Filter

behind grille.

Air Filter on

bottom.

Red ILA

Green ILA

CRT Lens

Stopper Ring

Figure 4-11. View of CRTs, Relay lenses and ILA^®

Assemblies.

1. Remove front and rear covers (Section 4.2).

2. Tilt the Electronic Module up and lock it in place (Section

3-3).

3. Remove the two pozidrive screws from the top of the High

Voltage Power Supply (HVPS) cover (Figure 4-5) and

loosen the one screw at the bottom of the cover (do not

remove the bottom screw-it is difficult to replace-the

HVPS will slide up and over it).

4. Remove the CRT anode cable (for the CRT that is to be

replaced) from the HVPS.

5. Disconnect the Yoke plug and cable harness from the

Scan Reversal PCB for the appropriate CRT (see Figure

3-7).

6. Remove the wires from the cable clamp for the CRT/Yoke

Assembly that is being removed.

7. Loosen the CRT Holder Ring (knurled knob in Figure 3-5).

NOTE: The CRT Holder Ring should be only hand-tight. If

it cannot be removed by hand only, a flathead screwdriver

can be used in the slots on the CRT Holder Ring to help

loosen it. Do not use a tool of any kind to tighten this ring-

it should be hand tight only.

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Chapter 4---Maintenance (Removal/Replacement)

8. CAUTION! For the Green CRT/Yoke Assembly only,

this step is best performed with the Green CRT still

connected to the CRT socket connector and the ground

wire still connected from the CRT to the socket connector.

This is because the Green socket connector is close to

the rear of the projector and is easier to disconnect from

the CRT after the CRT/Yoke Assembly is loose and is

moved away from the rear. Be careful not to break any of

these connections.

Gently remove the CRT/Yoke Assembly by sliding it

backward and upward as far as possible before

unplugging the CRT socket connector from the neck. Use

caution to avoid bumping the CRT/Yoke Assembly as it is

being removed.

9. After removing the CRT/Yoke Assembly, carefully unplug

the CRT socket connector and the ground wire that

connects the CRT to the socket connector. NOTE: It may

be helpful to have another person assisting for step 9.

One person can unplug the CRT socket connector and

ground wire, while the other person holds the CRT/Yoke

Assembly firmly.

10. After verifying that all cables are out of the way, remove

the CRT/Yoke Assembly from the projector.

11. Reinstall the CRT/Yoke Assembly in the reverse order.

NOTE: When reinstalling the CRT/Yoke Assembly, plug

the CRT ground wire into the CRT Socket Connector first,

then partially plug in the Green socket connector into the

CRT. When the CRT is completely installed it will be

easier to fully insert the CRT into the socket connector.

12. Perform a CRT Mechanical focus adjustment (Section

3.5) and CRT Rotation (Section 3.6) after replacing the

CRT/Yoke Assembly. Check the CRT Mechanical Focus

on the other two colors to verify that they are still correct.

It is possible the other focus adjustments could have been

disturbed by the removal and replacement of the

CRT/Yoke Assembly.

4.15 ILA^®Assembly

To remove an ILA^®Assembly:

1. Remove the rear cover (Section 4.2).

2. Tilt up the Electronic Module (Section 3.3).

3. Disconnect the connector on the top of the appropriate

ILA^®assembly. (Figure 4-11).

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Chapter 4---Maintenance (Removal/Replacement)

Figure 4-12. ILA^®Assembly top view. The overlap screws shown are

visible after the ILA^®assembly is removed.

4. Loosen the two wingnuts at the top of the appropriate

ILA^®assembly (Figure 4-12).

5. Slide the spring clip at the top of the ILA^®assembly

backward (Figure 4-12). This will free the ILA^®assembly.

6. Grasp the ILA^®assembly by its housing and slide it out.

7. Replace the ILA^®in the reverse order from above.

8. Recheck convergence, shading, ILA^®bias and G2 and

readjust, if necessary (User’s Guide, Sections 5.8, 5.10,

5.7, 5.9).

9. Recheck the ILA^®Back Focus (Section 3.4) and the ILA^®

Overlap adjustment (Section 3.8).

4.16 Relay Lens

To remove a Relay Lens (refer to Figure 4-11):

1. Remove the rear cover (Section 4.2).

2. Tilt up the Electronic Module (Section 3.3)

3. Remove the corresponding CRT Assembly behind the

Relay Lens that is to be removed.

4. Loosen the CRT Lens Stopper Ring (the thin collar just in

front of the CRT Holder knurled ring-Figure 4-11) and

slide it off the back of the Relay Lens.

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Chapter 4---Maintenance (Removal/Replacement)

5. Loosen the wing nut on top of the Relay Lens mount (the

bracket at the rear of the Relay Lens).

6. Remove the 2 long hex bolts at the front of the Relay

Lens (shown in Figure 4-12).

7. Remove the 2 hex bolts at the rear of the Relay Lens

(these bolts are level with the bottom of the Relay Lens

and hold the bracket in place).

8. Remove the Relay Lens. Leave the Relay Lens Bracket

and the CRT Lens Stopper Ring in the projector-do not

send them back with the Relay Lens.

9. Replace the Relay Lens in reverse order from above.

4.17 Projection Lens

To remove the Projection Lens:

1. Remove the sponge cover from around the front of the

Projection Lens.

2. Disconnect and label the Projection Lens Focus and

Zoom motor cables (The Focus motor is at the top of the

Projection Lens. The Zoom motor is at the bottom.)

3. Loosen (do not remove) the hex locking screw at the right

side (Figure 4-13) of the Projection Lens.

4. Rotate the Projection Lens left or right so that the notch

on the lens clears the locking screw on the lens holder

(Figure 4-12). Carefully slide the lens out.

Locking screw

Notch may be above

or below the holding

screw, depending on

how lens was

installed

Figure 4-13. Projection Lens locking screw and removal notch.

WARNING!!! If the locking screw is in line with the notch shown, the

lens can fall out if the projector is pointed downward.

5. Replace the Projection Lens in reverse order. NOTE: The

same basic procedure above is used to install or remove

optional fixed lenses.

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Chapter 4---Maintenance (Removal/Replacement)

NOTE: When changing from a zoom to a fixed lens, or vice

versa, the ILA^®Back Focus (Section 3.4) may need

readjustment.

4.18 Prism Assembly

CAUTION! The removal of the Prism Assembly

requires removing the Dichroic Mirror Assembly (X-Plate). In most

cases this necessitates an optical realignment. HJT does not

recommend performing this replacement in the field. Optical

alignment is critical and requires projector power to be on. This

results in an additional safety hazard due to the high intensity light

beam emanating from the optical area with the optical cover off. If

removal and replacement is absolutely necessary, proceed with

extreme caution and wear safety glasses.

The Prism Assembly requires the removal of more components and

assemblies than any of the other assemblies. Be sure to have

storage cabinets or tables to house the various items as they are

removed to provide access to the Prism Assembly. Allow about 3-4

hours to perform the removal and replacement of the Prism

Assembly. Refer to Figures 4-1 and 4-11 for the assemblies

referenced in this procedure.

To remove the Prism Assembly:

1. Remove front and rear covers (Section 4.2).

2. Remove the Optical Shield by removing the 3 screws

holding it.

3. Remove the Arc Lamp air filter and cover (3 screws).

4. Remove the Arc Lamp (Section 4.4).

5. Remove the Lamphouse Dock (Section 4.4).

6. Remove the lower right side panel (5 screws).

7. Remove the X-Plate (Dichroic Mirrors) assembly by

removing the four hex bolts securing it (see Figure 4-14).

CAUTION! Use care when lifting the mirror assembly.

Place it in a safe, level storage area.

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Chapter 4---Maintenance (Removal/Replacement)

Figure 4-14. Dichroic Mirror Assembly.

8. Remove the 2 hex bolts from the front of the Prism

assembly (see Figure 4-15).

Figure 4-15. Prism Assembly mount.

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Chapter 4---Maintenance (Removal/Replacement)

9. Remove the Rollbar assembly (2 pozidrive bolts/nuts on

left side and two nuts on right side). Disconnect and label

the 2 connectors on the hinge assembly for the shutter

motors (1 in front and 1 in rear). Remove and label the

jumper that connects the front interlock switch to the rear

interlock switch.

10. Remove the Rollbar Bracket that was holding up the left

side of the Rollbar assembly.

11. Remove the 3 ILA^®asssemblies (Section 4.15).

12. Remove the remaining three hex bolts from the rear of the

Prism assembly. These screws are located in the cavities

where the ILA^®assemblies were removed (see Figure 4-

15).

13. The Prism is now free to be removed.

CAUTION!!! The Prism assembly is

heavy (about 70 lbs). Use two people to lift it out of the

projector.

14. Replace the Prism assembly in the reverse order.

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Chapter 4---Maintenance (Removal/Replacement)

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Chapter 5---Troubleshooting

5.0 Troubleshooting

Contents

5.1 Status LEDs.............................................................................5-1

5.2 Error Codes..............................................................................5-4

5.3 Troubleshooting Guide.............................................................5-5

5.1 Status LEDs

The illustrations below indicate where various LEDs are located that indicate

proper or improper operation of the System Controller, the Raster Timing

Generator, the Video Processor Board, the Scan Reversal Board, the

Convergence/Deflection Board, the Video Amplifier Board, the Low Voltage

Power Supply, and the High Voltage Power Supply.

Figure 5-1. Projector rear with cover and rear panel off.

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Chapter 5---Troubleshooting

Figure 5-2. Left side of projector with rear cover off.

Figure 5-3. Right Side of projector with rear cover off.

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Chapter 5---Troubleshooting

Figure 5-4. Convergence/Deflection and Video Amplifier LEDs.

5.2 Error Codes

For certain errors that may occur in the Model 200 Projector the software

provides error codes that are helpful in determining the nature of the

problem. These error codes are visible on the left side of the monitor

screen when using a PC connected to Port A or Port B.

Table 5-1. Error Categories: