NEC MultiSync FP1350, FP1350-1, FP1350-1B Service Manual

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COLOR MONITOR

MultiSync



FP1350

MODEL FP1350-1 (B)

NEC Corporation

200007 08109312

SERVICE MANUAL

PART NO. 599910516

WARNING

The SERVICE PERSONNEL should have the appropriate technical training, knowledge and experience necessary to:

• Be familiar with specialized test equipment, and

• Be careful to follow all safety procedures associated with high voltage CRT circuit designs to

minimize danger to themselves and their coworkers. To avoid electrical shocks, this equipment should be used with an appropriate power code and be connected only to a properly grounded AC out let. This equipment util ized a micro-gap power switch. Turn off the set by first pushing the f ront panel power switch. Next, remove the power cord from the AC outlet. To prevent fire or shock hazards, do not expose this unit to rain or moisture.

This symbol warns the personnel that un-insulated voltage within the unit may have sufficient magnitude to cause electric shock.

This symbol alerts the personnel that important literature concerning the operation and maintenance of this unit has been included.

Therefore, it should be read carefully in order to avoid any problems.

PRODUCT SAFETY CAUTION

1. When parts replacement is required for servicing, always use the manufacturer's specified replacement.

2. Comply with all caution and safety-related notes on the product display chassis and picture tube.

3. When replacing the component, always be certain that all the components are put back in the place.

4. When servicing displa y m onitor unit, it is req uire d that the provi ded le ad dress is used in the high voltag e

circuit area.

5. It is also recom mended that shatter pro of goggles are worn, when r emoving installing and handling the

picture tube. People n ot equipped wit h the proper prec autionary measures mentioned shoul d keep the picture tube away from body while handling.

6. As for a connector, pick and extract housing with fingers properly since a disconnection and improper

contacts may occur, when wires of the connector are led.

7. Use a proper screwdriver. If you use screwdriver that does not fit, you may damage the screws.

8. X-radiation precaution

This product contains critical electrical and mechanical parts essential for X-ray protection. Normal anode voltage is 27. 0 kV at zero beam pic ture tube current under AC 10 0-120V /220-240V input,

and anode voltage must not exceed the voltages shown below under any operation condition. To measure anode voltage set brightness for very dim picture, and use a high impedance volt meter

between chassis and anode lead and measure high voltage. If high voltage exceeds the specifications on the chassis schematic diagram, take the necessary

corrective action.

Table M AXI MUM ANODE VOLTAGE

beam current at 0 mA at 0.7 mA at 1.4 mA

A/B/R 34.5 kV 32.5 kV 32.3 kV

9. When you degauss the set with a n external deg aussing coi l, you mus t keep strictly item “ * Notes about

degaussing method ” of ADJUSTMENT PROCEDURES.

CONTENTS

Page No.

SPECIFICATIONS ................................................................................................. 1-1

USER'S MANUAL .................................................................................................. 2-1

SERIAL NUMBER INFORMATION ....................................................................... 3-1

ASSEMBLY ............................................................................................................ 4-1

ADJUSTMENT PROCEDURES ............................................................................ 5-1

INSPECTION ......................................................................................................... 6-1

TROUBLE SHOOTING .......................................................................................... 7-1

CIRCUIT DESCRIPTION ....................................................................................... 8-1

REPLACEMENT PARTS LIST .............................................................................. 9-1

BLOCK DIAGRAMS ............................................................................................ 10-1

SCHEMATIC DIAGRAMS ........................ It is distributed separately by the paper.

1-1

SPECIFICATION

Monitor Specifications

MultiSync FP1350TM Monitor

Notes

Picture Tube Diagonal: Viewable Image Size: Radius:

55.3 cm / 22 inch

50.8 cm / 20 inch 57800 mm

90° deflection, 0.25 - 0.27 mm (variable) grille pitch, Medium-Short persistence phosphor, aperture grille CRT, multi-layered, anti-static screen coating, semi-dark-tint screen, and OptiClear



screen surface. Input Signal Video: Sync:

ANALOG 0.7 Vp-p/75 Ohms Separate sync. TTL Level Horizontal sync. Positive/Negative Vertical sync. Positive/Negative Composite sync. (Positive/Negative) (TTL Level) Sync on Green video (Positive) 0.7 Vp-p and sync.

(Negative) 0.3 Vp-p Display Colors Analog input: Unlimited number of Colors Depends on display card used. Synchronization Horizontal:

Range Vertical:

31 kHz to 115 kHz

55 Hz to 160 Hz

Automatically

Automatically Resolutions Supported Resolution based on horizontal and vertical frequencies only

640 x 480 @ 60 to 160 Hz 800 x 600 @ 55 to 160 Hz 832 x 624 @ 55 to 160 Hz 1024 x 768 @ 55 to 143 Hz 1152 x 870 @ 55 to 125 Hz 1280 x 1024 @ 55 to 107 Hz

1600 x 1200 @ 55 to 92 Hz ..…....

1792 x 1344 @ 55 to 81 Hz 1800 x 1440 @ 55 to 76 Hz 1856 x 1392 @ 55 to 78 Hz 1920 x 1440 @ 55 to 76 Hz

Some systems may not support

all modes listed.

NEC cites recommended resolution

a 85 Hz for optimal display

performance

Active Dis pl ay Area Horizo ntal: (Factory Setting) Vertical:

396 mm 297 mm

Dependent upon signal timing used,

and does not include border area. Active Display Area (Full Scan)

406 mm 305 mm

Dependent upon signal timing used,

and does not include border area. Power Supply AC 100 - 120 V / 220 - 240 V, 50/60 Hz Current Rating 2.3A @ 100 - 120 V / 1.0A@ 220-240 V Dimensions 483 mm (W) x 501 mm (H) x 472 mm (D) Weight 34.0 kg Environmental Considerations Operating Temperature: Humidity: Altitude: Storage Temperature: Humidity: Altitude:

10°C to + 35°C 30% to 80% 0 to 3000 m

-20°C to + 60°C 10% to 90% 0 to 13700 m

NOTE: Technical specifications are subject to change without notice.

2-1

USER'S MANUAL

Only the point is mentioned

Contents

FP Series monitor box* should contain the following:

• MultiSync FP

Series

Monitor with tilt/swivel base

MultiSync FP

950

™

(JC-1946UMW) or

MultiSync FP

1350

™

(JC-2241UMW)

• Power Cord

• Signal Cable

• USB Cable

• Monitor Control Software

• User’s Manual

*Remember to save your original box and packing material to transport or ship the monitor.

2-2

Quick Start

To attach the MultiSync® FP Series monitor to your system,follow these instructions:

1. Turn off the power to your computer and MultiSync monitor. If you are using the signal cable, continue to Step 2. If you are using a BNC cable, please skip to Step 3.

NOTE: BNC cables may be purchased at your local electronics store.

2. For the PC: Connect one end of the 15-pin mini D-SUB signal cable to the connector of the display card in

your system (Figure A.1) and the other end to the back of the monitor (Figure A.2). Tighten all screws. Proceed to Step 4.

For the Mac: Connect the Macintosh cable adapter to the computer (Figure B.1). Attach one end of the 15-pin mini D-SUB signal cable to the Macintosh cable adapter (Figure B.1) and the other end to the back of the monitor (Figure B.2). Tighten all screws. Proceed to Step 4.

3. Connect the BNC cable to the appropriate connectors on the back of the monitor. Connect the red BNC cable

to the BNC connector on the monitor labeled R, the green BNC cable to the BNC connector labeled G (/Sync), the blue BNC cable to the BNC connector labeled B. If you have a fourth BNC connector (Composite Sync), connect it to the BNC connector on the monitor labeled HS/CS. If you have a fifth BNC connector (Vertical Sync), connect it to the BNC connector on the monitor labeled VS (Figure C.1).

NOTE: Incorrect cable connections may result in irregu lar opera tion or damage display components.

2-3

4. Connect one end of the power cord to the MultiSync® FP Series monitor and the other end to the power outlet

(Figure D.1)

5. Turn on the monitor (Figure E.1) and the computer.

6. The Factory Setting for your monitor is set for D-SUB installation. If you are using a BNC cable connection, push the BNC/D-SUB button on the front of the monitor (Figure E.1) to switch settings.

NOTE: If you have any problems, please refer to the Troubleshooting section of this User’s Manual.

2-4

If your computer is equipped with USB and uses the Windows® 98 operating system and you want to operate the monitor’s user controls using your system, you can install USB support by using the following procedure. To attach the USB port on your MultiSync FP Series monitor to a USB port on your system:

1. Using the supplied USB cable, connect the USB Series B connector end to the USB upstream port on the

monitor (Figure 1).

2. Connect the other end of the supplied cable to the USB downstream port on the computer (or to a USB Hub

attached to the computer)

(Figure 1)

3. Install the supplied Monitor Control Software.

2-5

Controls

OSMTM (On-Screen Manager) control buttons on the front of the monitor function as follows:

Main Menu Sub-Menu

EXIT

Exits the OSM menu. Exits to the OSM controls main menu.

CONTROL /

Moves the highlighted area up/down to select one of the controls.

CONTROL /

Moves the highlighted area left/right to select one of the controls.

Moves the bar in the - or + direction to decrease or increase the adjustment.

PROCEED

Has no function.

Only executes control or enters sub, submenu.

RESET

Resets all the controls within the highlighted menu to the factory setting.

Resets the highlighted control to the factory setting.

NOTE : When

RESET

is pressed in the main and sub-m enu, a warning windo w will appear allowing

you to cancel the reset function.

When OSM controls are activated, icons are displayed at the top of the menu. If an arrow ( ) is displ a yed in a s ub-menu, it indicates fur ther choices are available . T o enter a s ub,

sub-menu, press PROCEED.

Brightness/Contrast Controls

Brightness :

Adjusts the overall image and background screen brightness.

Contrast :

Adjusts the image brightness in relation to the background.

Degauss :

Eliminates the buildup of stray magnetic fields which alter the correct scan of the electron beams and affect the purity of the screen colors, focus, and convergence. When activated, your screen image will jump and waver a bit as the screen is demagnetized.

Caution : Please allow a minimum of 20 minutes to elapse between uses of the Degauss Control.

Size and Position Controls

Auto Adjus t :

Automatically adjusts the horizontal and vertical size and position settings for applicable

signal timings.

Left/Right :

Moves the image horizontally (left or right).

Down/Up :

Moves the image vertically (up or down).

Narrow/Wide :

Decreases or increases the horizontal size of the image.

Short/Tall :

Decreases or increases the vertical size of the image.

2-6

R G B Color Control

Color Presets 1 through 5 selects the desired color setting. The bar is replaced by the color setting choice from 1 to 5. Each color setting is adjusted at the factory to the stated Kelvin. If a setting is adjusted, the name of the setting will change from Kelvin to Custom.

Red, Green, Blue :

NEC’s AccuColor Control System decreases or increases the monitor’s red, green, or blue color guns depending upon which is selected. The change in color will appear on screen and the direction (decrease or increase) will be shown by the bars.

Geometry Controls

The Geometry controls allow you to adjust the curvature or angle of the sides of your display.

IN/OUT (pincushion):

Decreases or increases the curvature of the sides either inward or outward.

LEFT/RIGHT (pincushion balance):

Decreases or increases the curvature of the sides either to the

left or right.

TILT (parallelogram) :

Decreases or increases the tilt of the sides either to the left or right.

ALIGN (trapezoidal) :

Decreases or increases the bottom of the screen to be the same as the top.

ROTATE (raster rotation) :

Rotates the entire display clockwise or counterclockwise.

Tools 1

MOIRÈ CANCELER:

Moiré is a wavy pattern which can sometimes appear on the screen. The pattern is repetitive and superimposed as rippled images. When running certain applications, the wavy pattern is more evident than in others. To reduce moiré, adjust the ON/Level by using the –/+ CONTROL buttons.

BASIC CONVERGENCE:

Aligns all three colors(R,G,B) to form a single color(white). The purpose of

this control is to ensure that a white line drawn on the screen is as crisp and clear as possible.

•

Use the Horizontal control to adjust the alignment of the white lines in the up/down direction.

•

Use the Vertical control to adjust the alignment of the white lines in the left/right direction.

2-7

AREA CONVERGENCE:

A small window will appear to indicate the area of adjustment - Top

Horizontal, Top Vertical, Bottom Horizontal or Bottom Vertical.

CORNER CORRECTION:

Allows you to adjust the geometry of the corners of your display - Top, Top

Balance, Bottom or Bottom Balance.

LINEARITY:

The Linearity selection allows you to adjust the spacing of the areas on the screen. The purpose of this control is to ensure that a 2cm circle is a true 2cm circle wherever it is drawn on the screen. The best way to determine the vertical linearity is as follows:

•

Draw equally spaced horizontal lines using a drawing application that has a ruler.

•

Use the Vertical Balance control to adjust the lines near the top and bottom of your screen.

•

Use the Vertical control to adjust the spacing between the lines near the center and top

of your screen.

GLOBALSYNC CONTROL:

Eliminates picture impurities that may result from the earth’s magnetic field. While in the sub-menus(GLOBALSYNC, TOP LEFT, TOP RIGHT, BOTTOM LEFT or BOTTOM RIGHT), use the -/+ control buttons to fine tune the GlobalSync corrections.

Note: NEC recommends that you perform GlobalSync correction while running a typical application

such as a spreadsheet or text document.

SHARPNESS:

Allows you to adjust the clarity of the image, based on the quality of the signal received

from the computer.

•

Use a full text document to make this adjustment.

•

Cycle through the four sharpness settings and select the one that provides the sharpness focus and contrast of the text.

FACTRY PRESET:

Selecting Factory Preset allows you a reset most OSM settings back to the factory settings. A warning statement will appear to confirm that you do want to reset ALL settings. Individual settings can be reset by highlighting the control to be reset and pressing the

RESET

button.

Tools 2

LANGUAGE:

OSM control menus are available in 7 languages.

OSM POSITION:

You can choose where you would like the OSM controls menu to appear on your screen. Selecting OSM Position allows you to manually adjust the OSM controls menu left, right, up or down.

2-8

OSM TURN OFF:

The OSM menu will stay on as long as it is in use. In the OSM Turn Off sub-menu, you can select how long the monitor waits after the last touch of a button for the OSM menu to disappear. The preset choices are 10, 20, 30, 60 and 120 seconds.

OSM LOCK OUT:

This control completely locks out access to all OSM functions except Brightness and Contrast. When attempting to activate OSM while in the lock out mode, a screen will appear indicating that OSM controls are locked out. To activate the OSM Lock Out function, press

PROCEED

then press and hold down simultaneously. To deactivate the OSM Lock Out, press

PROCEED

then press and hold down simultaneously.

IPM™ System Off Mode:

Enable: The IPM works normally, all stages of energy savings are

used.

Disable: The OFF MODE of the IPM is not used.

NOTE:

For standard computers and display cards you should keep the factory setting at ENABLE.

EDGELOCK CONTROL:

Operating your monitor at a non-standard timing may cause images to appear darker than normal or have color distortion. Use of the EdgeLock control will adjust images to their normal state.

REFRESH NOTIFIER:

A message will advise you if the refresh rate of the signal being applied to the monitor by the computer is too low. For further information, please refer to your display card or system manual. Factory setting is OFF.

Information

Provides you with additional inf or mation which included the following:

DISPLAY MODE:

Indicates the current mode and frequency setting of the monitor.

FITNESS TIPS:

The fitness Tips provide you with helpful reminders to periodically rest your eyes. You may select how frequently the remainders are displayed based upon your individual needs. Select an interval from 15,30,45,60,90 or 120 minutes for the tips to appear. When the tips appear, follow the advice of the tips and press EXIT to clear.

MONTOR INFO:

Indicates the model and serial numbers of your monitor.

2-9

Recommended Use

Safety Precautions and M aint en ance

FOR OPTIMUM PERFORMANCE, PLEASE NOTE THE

FOLLOWING WHEN SETTING UP AND USING THE MULTISYNC

FP Series COLOR MONITOR:

• DO NOT OPEN THE MONITOR. There are no user serviceable parts inside and opening or removing covers

may expose you to dangerous shock hazards or other risks. Refer all servicing to qualified service personnel.

• Do not spill any liquids into the cabinet or use your monitor near water.

• Do not insert objects of any kind into the cabinet slots, as they may touch dangerous voltage points, which can

be harmful or fatal or may cause electric shock, fire or equipment failure.

• Do not place any heavy objects on the power cord. Damage to the cord may cause shock or fire.

• Do not place this product on a sloping or unstable cart, stand or table, as the monitor may fall, causing serious

damage to the monitor.

• Keep the monitor away from high capacity transformers, electric motors and other devices such as external

speakers or fans, which may create strong magnetic fields.

• If possible, position the monitor so that it is facing the east to minimize the effects of the earth’s magnetic field.

• Changing the direction of the monitor while it is powered on may cause image discolora-tion. To correct this,

turn the monitor off for 20 minutes before powering it back on.

• When operating the MultiSync FP Series with its AC 220-240V worldwide power supply, use a power supply

cord that matches the power supply voltage of the AC power outlet being used. The power supply cord you use must have been approved by and comply with the safety standards of your country (type H05VV-F should be used except in UK).

• In UK, use a BS-approved power cord with molded plug and a black (5A) fuse installed within it with this

equipment. If a power cord is not supplied with this equipment please contact your supplier.

Immediately unplug your monitor from the wall outlet and refer servicing to qualified service personnel under the following conditions:

• When the power supply cord or plug is damaged.

• If liquid has been spilled, or objects have fallen into the monitor.

• If the monitor has been exposed to rain or water.

2-10

• If the monitor has been dropped or the cabinet damaged.

• If the monitor does not operate normally by following operating instructions.

• Allow adequate ventilation around the monitor so that heat can properly dissipate. Do not block ventilated openings or place the monitor near a radiator or other heat sources. Do not put anything on top of monitor.

• The power cable connector is the primary means of detaching the system

from the power

supply. The monitor should be installed close to a power outlet which is easily accessible.

•

Handle with care when transporting. Save packaging for transporting.

CORRECT PLACEMENT AND ADJ USTMENT OF THE MONITOR CAN REDUCE EYE, SHOULDER AND NECK FATIGUE. CHECK THEFOLLOWING WHEN YOU POSITION THE MONITOR:

• Adjust the monitor height so t hat t he t op of the s c reen is at or slightly below e ye level. Your eyes shou ld look slightly downward when viewing the middle of the screen.

• Position your monitor no closer than 12 inches and no further away than 28 inches from your eyes. The optimal distance is 24 inches.

• Rest your eyes periodically by focusing on an object at least 20 feet away. Blink often.

• Position the monitor at a 90° angle to windows and other light sources to minimize glare and reflections. Adjust the monitor tilt so that ceiling lights do not reflect on your screen.

• If reflected light makes it hard for you to see your screen, use an anti-glare filter.

• Clean your monitor regularly. Use a lint-free, non-abrasiv e cloth and a non-alcohol, neutra l, nonabrasive cleaning solution or glass cleaner to minimize dust.

• Adjust the monitor’s brightness and contrast controls to enhance readability.

CAUTION

2-11

• Use a document holder placed close to the screen.

• Position whatever you are lo oking at mos t of the time (the scr een or reference m aterial) directly in front of you to minimize turning your head while you are typing.

• Get regular eye checkups.

Ergonomics

To realize the maximum ergonomics benefits, we recommend the following:

• Adjust the Brightness until the background raster disappears

• Do not position the Contrast control to its maximum setting

• Use the preset Size and Position controls with standard signals

• Use the preset Color Setting and Sides Left/Right controls

• Use non-interlaced signals with a vertical refresh rate between 75-160Hz

• Do not use primary color blue on a d ark background, as it is difficult to see and m ay produce eye fatigue due to insufficient contras t

2-12

Features

Flat Aperture Grille CRT: Delivers an unparalleled viewing experience with a virtually flat image,

eliminating distortion and reducing glare so that what you see on-screen is what you get on your printed output. The striped phosphor alignment of the CRT delivers superior vertical definition with improved brightness for more uniform image contrast.

OptiClear

Screen Surface: Reduces ref lection and glare and increases contrast without sacrifici ng

focus level, clarity or brightness. Dual Dynamic Beam Focus: Pr ovides precise, c ontinuous focus adj ustments of the el ectron beams

resulting in optimum image quality, even to the far edges of the screen.

AccuColor

Control System: Allows you to change be tween five color settings on your display to

match your personal preferenc e.

OSM

™

(On-Screen Manager) Controls: Allow you to quickly and easily adj ust all elements of your

screen image via simple to use on-screen menus.

ErgoDesign

Features: Enhance h uman ergonomics to improve the working en vir o nment, protect the

health of the user and save money. Examples include OSM controls for quick and easy image adjustments, tilt/s wivel base for pre-ferred angle of vision and compliance with MPRII guidelines for lower emissions.

Plug and Play: The Microsoft

solution with the W indows®95/98 operating system facilitates setup and installation b y allowing the monitor to s end its capabilities (s uch as screen size and resolutions supported) directly to your computer, automatically optimizing display performance.

IPM (Intelligent Power Manager) System: Provid es innovative po wer-saving methods that allow the monitor to shift to a lower power consumption level when on but not in use, saving your monitor energy costs, reducing emissions and lowering the air conditioning costs of the workplace and is compliant with NUTEK, VESA DPMS and E PA EN ERG Y ST AR.

Mode LED Indicator Power saving

On Green None Stand By Green Minimum(Quickest Recovery) Suspend Yellow Moderate(< 15 Watts, Moderate Recovery) Off(IPM Mode) Orange Maximum(< 5 Watts, Slow Recovery) Off(Power No Light No Power Used(Fully Off)

Switch, Off)

Reduced Magnetic Field Technology: Reduces magnetic and alternating electric field emissions and static electricity, addressing ergonomic concerns regarding potential risks from extended computer monitor use.

2-13

Multiple Frequency Technology: Automatically adjusts monitor to the display card’s scanning frequency, thus displaying the resolution required.

FullScan Capability: Allows you to use the entire screen area in most resolu-tions, significantly expanding image size.

GlobalSync

/Corner Purity Control: NEC’s unique design automatically elimi-nates picture

impurities that m ay result from stray magnetic f ields (including the earth’s p ermanent magnets, etc.) and now allows you to easily adjust impurities in the four corners of your monitor.

Auto Adjust: Allows you to easily and quickly adjust the suitable horizontal and vertical size and position settings.

Convergence Control: Allows you to adjust th e horizontal and vertic al conver-gence of the top and bottom area to ensure that a white line drawn on the screen is as crisp and clear as possible.

2-14

Troubleshooting

No picture

• Display card should be completely seated in its slot.

• Power Button and computer power switch should be in the ON position.

• Signal cable should be completely connected to display card/computer.

• Check connector for bent or pushed-in pins.

• Check that the BNC/D-SUB button is in the correct position.

Image is scrolling or unstable

• Signal cable should be completely attached to the computer.

• Check pin assignm ents and signal timings of the monitor and your display card with respect to recommended timings and pin assignments.

• If the Macintosh cable adapt er is use d, check for pr oper connec tion or m ak e sure the d ispla y car d is Macintosh compatible and that the card is properly seated in the computer.

LED on monitor is not lit (no green, orange, yellow color can be seen)

• Power Switch should be in the ON position and power cord should be connected.

Picture is fuzzy or color looks blotchy

• If the picture is fuzzy, adjust the Moire Canceler Control. If the color looks blotchy, adjust the Brightness, Contrast or GlobalSync Controls, or use the EdgeLock control to change modes.

• Access the Degauss Control through OSM. Activate the Degauss Control.

CAUTION: A minimum interval of 20 minutes s hould exist befor e the Degauss Function is used a

second time.

Picture bounces or a wavy pattern is present in the picture

• Move electrical devices that may be causing electrical interference away from the monitor.

Edges of the display image are not square

• Use the OSM Geometry and Corner Correction Controls to straighten the edges.

• If possible, position the front of the monitor facing east.

Display image is not centered, too small, or too large

• Use the OSM Size and Position Controls to adjust the image.

3-1

SERIAL NUMBER INFORMATION

Refer to the serial number information shown below.

g g g g g g g g g

Manufactured Year : ( Last digit )

Manufactured Month : January to September 1 to 9 October X November Y December Z

Manufactured Place :

MEXICO ........... “A”

EX.) SERIAL NUMBER LABEL

Model : FP1350-1 SERIAL NO. :

00001 to on ward when Month is changed.

Model mark … B

4-1

ASSEMBLY

• Before you disassemble the set, turn off power and pull out the power plug.

• Use the appropriate screwdrivers that first the screws. If you use screwdriver that does not fit, you may break

the screws.

• Disassembly is the opposite process of assembly.

• Carefully discharge the CRT anode potential by grounding to coating dag before removing Anode Cap.

REMARK

SYMBOL

Clamp the EMF COIL with CLAMPER.(4 poi nts)

The thick of the FMF COIL is placed between and

132

REMARK

SYMBOL

Forming (Corner Coil) 133

These area ar e wire conta c t points.

Don’t bend these area.

EX.)

contact point

Green

each corner

(

TOP

)

CLAMPER,WIRE

EMF COIL

EMF’s connector

(Bottom)

A’

B’

A’ B’

4-2

REMARK

SYMBOL

Clamp the EMC COIL with CLAMPER,WIRE.

133

REMARK

SYMBOL

Clamp the EMC COIL with CLAMPER,WIRE.

133

Green

EMC COIL’s wire

EMF COIL

Red

Green

133

Green

EMC COIL’s wire

Red

133

Green

Red

4-3

REMARK

SYMBOL

Clamp the DEG COIL with CLAMPER,WIRE.

134

REMARK

SYMBOL

Clamp the DEG COIL with CLAMPER,WIRE.

(134)

134

(134)

4-4

REMARK

SYMBOL

Clamp the DEG COIL’s wire wi th CLAMPER,WIRE as per sketch.

REMARK

SYMBOL

Mount the EMF PWB. 121E

SHIELD

DEGAUSS COIL

CORNER COIL

CNZ

DEG CO IL’S wire

Clamp the DEG COIL’S wire and the CORNER COIL.

CORNER COIL

DEGAUSS COIL

CN-RR

CN-LL

121E

CN-EMF

4-5

REMARK

SYMBOL

Clamp the connector.

REMARK

SYMBOL

COIL FORMING

-UPPER SIDE-

EMF COIL

EMC COIL

DEG COIL

EMC COIL

Don’t cross these areas . (DEGAUSS COIL and CORNER COIL)

4-6

REMARK

SYMBOL

COIL FORMING

-LOWER SIDE-

REMARK

SYMBOL

Mount LEAF SPRING (CRT) and LEAF SPRING to the PLATE,SHIELDING.

135 136

Mount CN-CE and COIL SPRING to the PLATE, SHIELDING.

137 138

EMC COIL’s wire pass through under the LEAF SPRING.(both sides.)

Don’t change the form the LEAF,SPRING.

Inspect all wires, coils and clampers to ensure that all leads are dress properly and that all clampers are closed and securely fastened.

Don’t cross these areas . (DEGAUSS COIL and CORNER COIL)

LEAF SPRING

EMC COIL’s wire

EMF COIL

135

136

135

136

138

137

A’

B’

C’

D’

E’

D’

E’

B’

A’

4-7

REMARK

SYMBOL

Dgauss the PLATE SHIELDING (CRT) ASSY.

REMARK

SYMBOL

Insert CN-DY and CN-SC1 to CRT’s DY.

143 179 180

Tie CN-DY and DY’s wirs with BAND (L=100) as persketch.

176

Pass through the C N -ZDY bet ween DY and DY’s connectors.

bcd

ote: Don’t pull out CN-DY if you insert it once.

DY’s hook

CN-DY

CN-ZDY

176

Tir wires with BAND under the DY’s hook (Unnecessary tot cut.)

179

143

180

SAFETY

4-8

REMARK

SYMBOL

Mount PUSH BUTTON (CONTROL) to CABINET FRONT ASSY.

139 140

Peel off the sheet of CONTROL PANEL and attach PUSH BUTTON (CONTROL) to CABINET FR ON T ASS Y.

141

No. DESCRIP T ION PART No. Q’t

142 WASHER (D20,D6.5,T2) 04 142 WASHER (D20,D6.5,T1) OR 142 WASHER (D20,D6.5,T1.2) OR 142 WASHER (D20,D6.5,T1.6) OR 142 WASHER (T0.5,P20) OR 142 WASHER,SPECIAL OR 142 OR

Screw CRT on CABINET,FRONT (4 points).

The use of WASHER at setting CRT.

1.Necessary to make sure the screw condition of each Lot. Make sure the CABINET FRONT, it should not be whitish by stress of securing screws. And make sure the gap between CABINET FRONT and CRT. It must keep in tolerance.

2.In case of gap or changing color caused by stress, arrange the thickness of washers.

Check to ensu re the lead is caught or binding a

ainst the bottom surface of th e CRT.

121D

177(2pcs)

143

Derail next page

142

139

141

142

140

CABINET FRONT ASSY

CRT

Lug of CRT

WAS HE R

Boss

4 points

4-9

REMARK

SYMBOL

Screw VIDEO PWB ASSY to the PLATE, SHIELDING (BOTTOM).

121A

101 145

Screw PLATE, SHIELDING (VIDEO) to the VIDEO PWB ASSY.

101 102 146

Insert BUSH, INSULATOR, CLAMPER, WIRE and EDGE, SADDLE to the PLATE, SHIELDING (BOTTOM).

114 147 148

Insert CN-SG and CN-HT to the VIDEO PWB ASSY.

149 150

REMARK

SYMBOL

Attach the CUSHION SHEET on SW/HV PWB ASSY.

175

147

114

101

145

101

114 (2P )

147

148

149

150

CN-SG

CN-HT

146

121A

101

102

175

T561

SW/HV PWB COPPER SIDE

4-10

REMARK

SYMBOL

Clamp CN-P with the EDGE SADDLE.

(*1)

Screw the safety earth terminal to the BRACKET (VIDEO, A)

104

After the VIDEO PWB ASSY mount the PWB FRAME , connect the CN-SW1.

REMARK

SYMBOL

Clamp the wir es with the CLAMPER,WIRE as follows.

SAFETY

EDGE SADDLE

CN-P Back side view

122B

122A

104

115

SW1

SW2

114 (2P )

101 (4P)

124

151

153

154

(*1)

CN-P

G’

SCREEN,FOCUS

CN-P

CN-SW1

CN-P,CN-R,CN-D

CLAMPER,WIRE

5 points

twist

CN-SW

CN-SW2

CN-R

CN-PS

CN-P,CN-R

CN-R

CN-P

CN-PM

CN-CR

CN-K

CN-DF

SW/HV PWB ASSY

FBT

CN-P,CN-R,CN-DF

CN-DF

4-11

REMARK

SYMBOL

Don’t touch copper wire of IC4H1. (Because copper wire is easy to break.)

122C

REMARK

SYMBOL

Clamp CN-CU with the CLAMPER,WIRE as follows.

122C

101

SCREEN, FOCUS

CN-PU

CN-P

FBT

CN-PU

4-12

REMARK

SYMBOL

Clamp CN-CL and CN-LEB with the CLAMPER,WIRE (bottom side of the OUTER SHIELDING.

OUTER SHIE LDING

After mounting the CABINET FRONT ASSY to the FRAME ASSY, SCREW the CASE, SHIELDING (CRT, F). (To avoid broken CRT neck.)

156

REMARK

SYMBOL

Tie CN-CL and CN-LEB with BAND (L=100).

Note: Use a pencil as a spacer.

144

Z’

CN-LEB CN CL

CN-SC1

103

Dress CN-CL lead to the right side of the PWB FRAME.

Z’

101

156

101

105

114

148

Don’t damage PU PWB when screwin

Insert a pencil between PLATE SHIELDING CRT ASSY and CN-CL, CN-LEB as per sketch.

After tie BAND (L=100), pull out a pencil.

CN-CL

Cut

TIE BAND

CN-CL

TIE BAND

Pencil

Plate Shielding CRT ASSY (BOTTOM SIDE)

Use a pencil as a spacer

CLAMPER,WIRE

4-13

REMARK

SYMBOL

Clamp the leads of FBT with the EDGE SADDLE.

Insert the Focus Lead to the CRT Socket.

Push in Focus lead so that the Line is all in the CRT Socket.

Mount the Anode cap as follows.

REMARK

SYMBOL

Screw the REVOLVING STAND (T) to the REVOLVING STAND (B) ASSY.

157 158 159 103

Mount the REVOLVING STAND ASSY to the CHASSIS BASE.

Degauss both the outside and insid e surfaces of the CHAS SIS BASE.

160

Screw the REVOLVING STAND ASSY to the CHASSIS BASE.

104

EDGE SADDLE

CLAMPER, WIRE

FBT

Focus lead

Line

CRT Socket.

H’

I’

J’

L’

M’

K’

H’

J’

I’

K’

L’

M’

CN SGA

CN-HT

RED

BLAC

CNDY CNSC1 CN-CL CN-EMF CN-K CN-PM CN-DF CN-CR

103

159

158

157

160

Screw the REVOLVING STAND (T) to the REVOLVING STAND (B) ASSY.

104

Torque

8.0±1.0kgf ·cm

SCTREW,WM*4*10*15CF

4-14

REMARK

SYMBOL

REMARK

SYMBOL

162

101

103

101

163

4-15

REMARK

SYMBOL

Mount the ANODE CLAMPER to ANODE LEAD. (True up the upper ANODE CLAMPER and adove WHITE MARK.)

167

REMARK

SYMBOL

CLAMPER,WIRE should be partially cut away as atching area on figure.

Put CLAMPER,WIRE in BRACKET (L,B) as per sketch.

182

SAFETY

ANODE CLAMPER

Lower edge

Upper edge

WHITE MARK

YELLOW MARK

ANODE CLAMPER

Within white mark

FBT

Position of CLAMPER

BRACKET (L,B)

4-16

REMARK

SYMBOL

Screw the terminal from HEAT SINK with DEF PWB ASSY.

REMARK

SYMBOL

Connect the CN-S C2 to the CNHSC and CNVSC.

(CN-SC2) White Yellow

- CNHSC (White)

- CNVSC (Yellow)

181

Before screw the BRACKET (L), connect the wires.

CN-HDY CN-VDY CN-CR CN-K CN-DF CN-SD CN-ASD CN-EMF CN-ZDY CN-CL CN-PM

Clamp the wires. (Detail next page. )

terminal

DEF PWB ASSY

Within this area

174

102

115

114

166

123

165

166

164

X’

T’

U’

V’

W’

R’

P’

N’

CN-PU

Back side view

101

181

N’

O’

V’

CN-K

U’

T’

R’

O’

M’

W’

X’

P’

M’

CN-HDY CN-VDY CN-ZDY

CN-ASD

CN-SD

CN-EMF CN-DF CN-CR

CN-SC2

CN-SC1

101 (2P)

101 (4P)

4-17

REMARK

SYMBOL

Clamp the wires.

REMARK

SYMBOL

Clamp the wires.

SAFETY

ANODE LEAD

CASE,SHIELDING (CRT,F)

CN-VDY

CN-HDY

CN-HDY CN-VDY

CN-SC1

CLAMPER,WIRE

CN-ZDY

CN-EMF CN-PM CN-K CN-CR CN-DF CN-CL

CN-EMF CN-PM CN-CL

CN-CR

CN-K

CN-EMF

CN-DF

CN-PM CN-CL

(SIDE VIEW)

CRT

DEF PWB ASSY

CLAMPER,WIRE

BRACKET (L)

4-18

REMARK

SYMBOL

Connect the CN-S C1 to the CNSC2.

Clamp the wires.

CN-ASD CN-AF

REMARK

SYMBOL

Clamp the ANOD E LEAD with the CLAMPER WIRE (H19.5).

119

Don’t change the from the LEAF, SPRING.

169

CLAMPER,WIRE

(BACK SIDE)

CASE,SHIELDING (CRT,F)

CRT PWB

CN-SC1

CN-SC2

CN-ASD

CN-ZDY CN-SD

CN-EMF

CN-VSC CN-HSC

CN-AF

clamp

SAFETY

Clamp

119

170

101

168

169

Y’

4-19

REMARK

SYMBOL

172

103

4-20

SYMBOL CODE DESCRIPTION Qty REMARKS 101 2E853031 CHEXIBS(CUP)*3*8*15CF 52

102 2E853021 CHEXISS(CUP)*3*8*15BF 05 103 24851731 SCREW, FT*4*16*15BF(S) 07 104 24852341 SCREW, WM*4*10*15CF(S) 03 105 25852641 SCREW, SPECIAL(5*25) 04 111 25284561 CLAMPER, WIRE 07 112 25284041 CLAMPER, WIRE 08 113 25283411 CLAMPER, WIRE 08 114 25283651 CLAMPER, WIRE 10 115 25284061 CLAMPER, WIRE 04 116 25284521 CLAMPER, WIRE(D.G.COIL) 18 119 25283111 CLAMPER, WIRE(H19.5) 01 121 840E6C01 VIDEO PWB ASSY 01 122 843D3B01 SUB PWB ASSY 01 123 840E6D01 DEF PWB ASSY 01 124 840E6A02 SW/HV PWB ASSY 01 125 744E0341 CASE, SHIELDING(CRT,B) 01 126 744E0761 BRACKET, G(VIDEO, B) 01 127 744E0391 PLATE. SHIELDING(CRT.A) 02 129 744E0411 PLATE. SHIELDING(CRT. C) 02 131 25284581 PWB SUPPORT 03 132 61322301 COIL(100T, 80H) 01 EMF 133 61322302 CORNER COIL(380T, 105H) 02 EMC 134 61322101 DEGAUSSIING COIL(85T, 10H) 01 DEG 135 741X9741 LEAF SPRING(CRT) 08 136 741E9881 LEAF SPRING 02 137 73891347 WIRE CONNECTOR CN-CE 01 CN-CE 138 25534632 COIL SPRING 02 139 2E322101 CABINET FRONT ASSY 01 140 2E457751 PUSH BUTTON(CONTROL) 01 141 25430551 CONTROL PANEL 01 142 24N00301 WASHER(D20, D6. 5, T2) 04 143 33022502 CRT M51LRY21X62 01 CRT 145 2E548181 BRACKET(VIDEO.A) 01 146 744E0351 PLATE, SHIELDING(VIDEO) 01 147 24282111 BUSHING, INSULATOR 03 148 25282131 EDGE SADDLE 03

4-21

149 73891360 WIRE CONNECTOR CN-SG 01 CN-SG 150 73891333 WIRE CONNECTOR CN-HT 01 CN-HT 151 2E430491 PWB FRAME 01 153 2E548231 BRACKET(VIDEO, B) 01 154 25283461 EDGE SADDLE 01 156 744E0311 CASE, SHIELDING(CRT, F) 01 157 2E430821 REVOLVING STAND(B) ASS Y 01 158 25430811 REVOLVING STAND(T) 01 159 2E426391 SPINDLE 01 160 2E548061 CHASSIS BASE 01 162 744E0441 PLATE. SHIELDING(BOTTOM) 01 163 2E548141 BRACKET(R.B) 01 164 2E548131 BRAKET(L.B) 01 165 25280851 BUSHING, INSULATOR 01 166 25281421 PWB HOLDER 02 167 25282111 ANODE CLAMPER 01 168 744E0431 PLATE. SHIELDING(BACK) 01 169 741X4311 LEAF SPRING(CRT.B) 01 170 744E0421 PLATE. SHIELDING(TOP) 01 172 2E322121 CABINET BACK 01 174 25282992 CLAMPER WIRE(H29.5) 02 175 25618341 CUSHION SHEET 01 176 24280701 BAND(L=100) 02 177 2E618481 PPE SHEET 02 178 73891295 WIRE CONNECTOR JJ4 01 JJ1 179 73891431 WIRE CONNECTORE CN-DY 01 CN-DY 180 73891432 WIRE CONNECTORE CN-SC1 01 CN-SC1 181 73891433 WIRE CONNECTORE CN-SC2 01 CN-SC2 182 24281691 CLAMPER, WIRE 01 201 2E781994 LABEL, SERIAL BARCODE(GP) 01 202 2E785131 LABEL(PTB) 01 203 2E776021 LABEL, WARNING 01 204 2E789741 LABEL(CRA) 01 205 2E789721 NAME PLATE, INSTRUCTION 01 206 2E788571 LABEL(CE) 01 207 2E782001 CLEAR LABEL 01 208 25789021 LABEL(TCO99) 01

5-1

ADJUSTMENT PROCEDURES

Application

These specifications outline the adjustment procedures for Model FP1350-1 22 inch color monitor.

Model : FP1350-1

Destination: Europe Standard Adj us tment Conditions

Standard Adjustment Conditi ons

1. Power Supply Voltage AC 100V±5% 50/60Hz or AC 120V±5% 60Hz or AC 220V±5% 50Hz

2. Warm Up

Adjust this monitor after a minimum of 90 minutes to allow unit to reach ambient operating temperature. (Use the Self Test screen. Refer item 7-5-3. about Self Test. )

* Adjust the monitor according to item “Rough Adjustment before warm up” before warm up. * When aging, cover with back cabinet or aging jig.

3. Signals

Unless otherwise specified, inspection should be Mini D-SUB 15 pins.

Video: Analog 0.7±0.01 Vp-p Positive polarity (terminated at 75 ohms ±1%)

or Analog sync. on green Video 0.7±0.01 Vp-p positi ve polar ity Sync 0.3±0.01 Vp-p negative polarity (terminated at 75 ohms ±1%)

Sync.: TTL level (High level: more than 2.4V / Low level: less than 0.8V)

H/V separate, positive / negative polarity or H/V composite, positive / negative polarity or Sync. on green, 0.3±0.01 Vp-p negative polarity (terminated at 75 ohms ±1%)

4. Magnetic Fields

Vertical Magnetic Fields: 40±1µT Horizontal Magnetic Fields: 30±1µT

* Unless instructed otherwise, the CRT face should be facing to the east. * Degauss the entire unit with an external degaussing coil for the adjustment.

* Notes about degaussing method

Follow the degaussing procedure below. (To prevent intertwinement of aperture grille)

1) Use cylinder-shaped degaussing coil. Do not use ring degaussing coil. But r in g d egaussing coil can be used at degaussing chassis.

2) In order to remove a magnetization from top sides, base shield and chassis, degauss each side.

Do not switch off the degaussing coil abruptly. Move the degaussing coil slowly when degaussing. Note: If the degaussing coil is switched off near the set, the set will be magnetized.

5-2

3) To degauss panel surface

Switch on the degaussing coil, keep a distance between panel surface and degaussing coil to more than 50 cm. Move the degaussing coil vertically near the panel surface. Keep distance of panel surface and degaussing coil to more than 15 mm.

4) Degaussing method of CRT surface Starting from edge of CRT, move the degaussing coil toward CRT center in circular motion, spending 6 to 7

seconds. (about 4 or 5 round )

When LED is orange in factory mode (“AUTO EMF ON” appear on OSM or TAG 3, TAG 4, TAG 5, TAG B,

TAG C is selected), Do not degauss.

In user mode, do not degauss except when “DEGAUSS OK” appear on OSM.

Service Factory MODE: Auto EMF function is off. (LED is yellow)

Auto EMF function off -> on (LED is orange.)

a. TAG 3, TAG 4, TAG5, TAG B, TAG C is selected. b. When OSM MENU disappear, Push “+” and “t” switch at once.

Then “AUTO EMF ON” appear on OSM, and AUTO EMF function is on state. Push any switch and power o n/ o ff, AU TO E MF fun ct ion be co me o ff st ate . But when receive frequency change, AUTO EMF function stay on state.

User MODE: Auto EMF function is on.(LED is gree n) Auto EMF function on -> off

a. Open the MENU (U),TAG7)-”DISPLAY MODE”, and Press “+” and “t” switch at once.

b. Then “DEGAUSS OK” appear on OSM, and AUTO EMF function is on state. When push any switch and power on/off, AUTO EMF function become off state. But when receive frequency change, AUTO EMF function stay on state.

5) After sufficiently degaussing the CRT , move degaussing coil slow ly away from the panel surf ace while rotating from corner to center, taking more than 3 seconds.

Turn off SW more than 1 m away from the CRT. Degauss again if the unit is gaussed.

Vertical

Horizontal

Magnetized Pattern Example

SW OFF

5-3

6) When aperture grille get entan gled while degaussing, receive the signa l of 1dot alternate pattern and degauss again. If aperture grille remain entangled, vibrate from side.

5. Signal Generator LVG-1603 is recommended for signal generator. Use calibrated signal generators. However, use VG-819 in focus regulation. Note) Adjustment timings are timing tables and are not programmed timing.

6. Color Analyzer, Convergence Meter , Landi ng Mat er The color analyzer should be CA-100 (made by MINOLTA) or compatible. The convergence meter should be CC-100 (made by MINOLTA) or compatible. The Landing meter should be KLD-01 (made by KAMAYA) or compatible.

7. OSM Menu Operation 7-1. Front Panel

PROCEED

RESET

EXIT

BNC/D-SUB

MultiSync

(

POWER SW

)

7-2. OSM Menu

This unit is adjusted in on screen menu by front panel key operation. There are 2 types of On Screen menu.

1) Menu (user): This Menu can be operated by a customer.

2) Menu (service): This Menu is hidden from a customer. Here after, they will be called MENU (U) and MENU (S). The menu can be displayed when the signal is input to the display unit.

7-3. FACTORY MODE

This model has function that is named "FACTORY MODE" When the FACTORY MODE is

ON: LED indicator light is yellow usual. But when TAG 3, TAG 4, TAG 5, TAG B or TAG C is selected, LED

indicator light is orange. Power management function does not work. It is possible to enter MENU (S) by shortcut key.

OFF: LED indicator is GREEN when Horizontal and Vertical Sync Pulse are ON.

Power management f unction works when the Horizontal or (and) Vertical sync are OFF. It is not possible to enter MENU (S) by shortcut key.

Always turn on “FACTORY MODE”, when adjust the monitor. If the adjustment finish, should be “FACTORY MODE” OFF.

5-4

7-4. FACTORY MODE SETTING

7-4-1 FACTORY MODE: OFF → ON

1) Open the MENU(U),TAG7 - "DISPLAY MODE"(As below)

2) Press "RESET" and "t","6" switch at once.

3) A "WARNING" will be displayed, then press "PROCEED" switch once.

4) LED ind ic ator li ght turn t o Yello w from Green.

7-4-2 FACTORY MODE ON → OFF

1) When OSM MENU is displayed, press "EXIT" switch twice. Otherwise, press "EXIT" switch once.

2) A "WARNING" will be displayed, then press "EXIT" switch once.

3) LED indicator light turns to Green from Yellow.

7-5. Displaying the OSM

7-5-1 FACTORY MODE: OFF

MENU(U): Press "EXIT" or "+" , "-" , "t" , "6" , "PROCEED" once . MENU(S): Open MENU, TAG7 "INFORMATION" - "DISPLAY MODE”, and press "RESET" and "t" , "6"

switch at once.

A warning message will be displayed, then press "PROCEED" switch.

7-5-2 FACTORY MODE: ON

MENU(U): Press "+" , "-" or "t","6" switch. MENU(S): Press "PROCEED" switch once.

7-5-3 Self Test

When FACTORY MODE is ON, Self test is on by no signal. When FACTORY MODE is OFF, Self test in on by power on with pushing “RESET” switch.

5-5

7-6. How to turn off OSM MENU

* To close the Menu Press "EXIT" sw itch w hile MENU (U) or MENU (S ) is displ ayed

TAG is highlighted: 1 time. ITEM is highlighted: 2 times. entering SUB MENU: 3 times

* To close MENU temporarily.

Press "PROCEED" once, while MENU (S) is being displayed. Press "PROCEED" once more, MENU (S) is displayed again.

7-7. TAG, Item, Sub Menu Change

TAG to TAG : Push "-" SW or "+" SW. TAG to item : Push "t" SW or "6" SW Item to sub Menu : Push "PROCEED" SW once. Item to item : Push "t" SW or "6" SW. Sub Menu to item : Push "EXIT" SW once. Item to TAG : When top item is selected, push "t" SW.

When bottom item is selected, push "6" SW.

Push "EXIT" all items .

TAG

ITEM

7-8. To change Data values

Data values are changed by pressing "-" or "+" switch.

7-9. To save Data Value

Data values are saved for EEPROM, while hig hligh ted ITEM is changed.

5-6

7-10. Structure of OSM Menu (User)

TAG 1) Brightness & Contrast TAG 2) Size & Position

TAG 3) Color Control / AccuColor TAG 4) Geometry

PRESET No.1 9300K No.2 8200K No.3 7500K No.4 6500K No.5 5000K

TAG 5) Tools 1 ITEM 5-1) Moire Canceler

5-7

ITEM 5-2) Basic Convergence ITEM 5-3) Area Convergence

The second OSM appears on the top center area when TOP HORIZONTAL or TOP VERTICAL is se lec ted, and, it appears on the bottom center area when BOTTOM HORIZONTAL or BOTTOM VERTICAL is selected.

ITEM 5-4) Corner Correction ITEM 5-5) Linearity

ITEM 5-6-1) GlobalSync 1 ITEM 5-6-2) GlobalSync 2

In case of TOP LEFT and BOT TOM LEFT , the left arrow appears on the top left or the bottom left, and, in case of T OP RIGHT and BOTT OM RIGHT, the right arrow appears on the top right or the bottom right.

5-8

ITEM 5-7) Sharpness ITEM 5-8) Factory Preset

TAG 6) Tools 2 ITEM 6-1) Language

ITEM 6-2) OSM Position ITEM 6-3) OSM Turn Off

ITEM 6-4-1) OSM Lock Out 1 ITEM 6-4-2) OSM Lock Out 2

5-9

ITEM 6-5) IPM Off Mode Control Function ITEM 6-6) Edge Lock

ITEM 6-7) Refresh Notifier TAG 7) Information

ITEM 7-1) Display Mode ITEM 7-2) Fitness Tips

ITEM 7-3) Monitor Info.

5-10

7-11. Structure of OSM Menu (Service)

[TAG 1 (S)] [TAG 2 (S)]

[TAG 3 (S)] [TAG 4 (S)]

[TAG 5 (S)] [TAG 6 (S)]

[TAG 7 (S)] [TAG 8 (S)]

5-11

[TAG 9 (S)] [TAG A (S)]

PRESET No.1 9300K No.2 8200K No.3 7500K No.4 6500K No.5 5000K

[TAG B (S)] [TAG C (S)]

[TAG D (S)] [TAG E (S)]

5-12

ADJUSTMENT ITEMS

[A] Pre-Adjustment

1. High-Voltage Adjustment (When circuit board energizing is examined.)

[B] Initial Settings

1.Control Setting

[C] Main Adjustment

1. Raster Position 1-1. Horizontal Raster Position 1-2. Vertical Raster Position

2. Linearity Adjustment 2-1. Horizontal Linearity Adjustment 2-2. Vertical Linearity Adjustment

3. Horizontal / Vertical Maximum Size Adjustment 3-1. Horizontal Maximum Size Adjustment 3-2. Vertical Maximum Size Adjustment

4. Deflection Distortion Adjustment 4-1. Horizontal / Vertical Size Rou gh Adj ust ment 4-2. Picture Tilt Adjustment 4-3. Side Pincushion Balance Adjustment 4-4. Side Pincushion Adjustment 4-5. Trapezoid distortion Adjustment 4-6. Parallelogram Distortion Adjustment 4-7. Horizontal W-wave Distortion Adjustment 4-8. Vertical S-wave Distortion Adjustment 4-9. Corner Distortion Adjustment 4-10. Overall Distortion Adjustment

5. Preset Picture Size and Position Adjustment

6. Auto Adjustment (Size / Position / Distortion) 6-1. Outline explanation 6-2. Equipment for Adjustment 6-3. Connection 6-4. Operation 6-5. Adjustment procedures

7. Video Amplitude Adj ust ment 7-1. Settings 7-2. Video Amplitude 7-3. OSM Gain Adjustment 7-4. Cut Off Adjustment 7-5. Contrast Tracking Adjustment 7-6. Brightness Tracking Adjustment 7-7. Color Preset Adjustment 7-8. Maximum Brightness Adjustment

8. Focus Adjustment

9. Purity

10. Convergence Adjustment

11. Auto Adjustment

12. Factory settings for shipping

[D] Reference

1. Adjustment Signal

2. Adjustment Signals Timing

3. Position of Connector / Test point of Adjustment

NOTE; This MARK is important adjustment item for products safety.

5-13

[A] Pre-Adjustment

1. High-Voltage Adjustment Signal 3 (VGA480) All Black Initial Setting

SCREEN VR: Fully counterclockwise (MIN) VR5T1: Fully counterclockwise (MIN)

This adjustment is made when circuit board energizing is examined.

1) Receive signal 3.

2) Adjust VR5T1 slowly so that high voltage is 27kV±0.2kV.

After adjusting, seal VR5T1 with a silicon adhesive and cap (Part No. 74106841).

[B] Initial Settings

1. Control Setting Before adjusting, set the position of control as follows.

FBT SCREEN VR : Fully counterclockwise (MIN)

FOCUS F1 : Mechanical center

FOCUS F2 : Mechanical center VR581 : Fully clockwise (MAX) SW581 : CRT side

[C] Main Adjustment

Use this manual for aligning the monitor.

1) Push "RESET" SW to reset a highlighted item.

2) Close OSM menu and turn the power off.

3) Turn the monitor back on and c onfirm that the adjustm ent values / contr ast / whit e balance / distortion values are the same before the Menu was closed.

When "PROCEED" SW is pushed by the condition which Menu (S) is displayed, OSM Menu will disappear. If "PROCEED" SW is pushed once more, OSM displays)

4) A highlight displays items of TAG 3, TAG 4, TAG 5, TAG B and TAG C, AUTO EMF function becomes

ON, and Landing Rotation Convergence alters. When it is moved f rom this items to the tag after the adjus ted, AUTO EMF functio n is turned off , and

Landing Rotation Convergence alters.

Previous setting

Signal: N o. 3 (VGA480) All White

1) Screen VR setting

Open Menu (U), TAG 1 "BRIGHTNESS & CONTRAST" and push "RESET" SW. Adjust SCREEN VR so that the back-raster is just disappeared.

2) FOCUS VR setting

Display OSM menu and adjust FOCUS F1 VR and F2 VR to be able to recognize characters.

5-14

3) Rough Adjustment before warm up Signal: No. 7 (VESA350@85) All White Signal: No. 13 (MAC832*624) All White Signal: No. 27 (H.HOLD 2(115k) fH=110kHz) All Black Signal: No. 29 (V.RASTER) All White

a. Rough adjustment of horizontal raster position

1) Receive signal 27.

2) Adjust SCREEN VR on the FBT so that the back raster just appears.

3) Make sure to set the position of control as follows : VR581 (on the DEF PWB) : Fully clockwise (MAX) SW581 (on the DEF PWB) : CRT side

4) Open Menu (S), TAG2 “H.SIZE” and adjust the horizontal size to inside the bezel.

5) If raster has approac hed on the left of displa yed area, s witch SW 581 position to th e CRT side. If

raster has approached on the right of displayed area, switch SW581 position to VR581 side.

6) Adjust VR581 so that the raster edge is centered in the bezel.

b. Rough adjustment of vertical horizontal raster position

1) Receive signal 29. All White

2) Menu (S), TAG2 data on ”V.LINEARITY" are 90, and it confirms that data on "V.LIN.BALANCE" are

128.

* When data are not 90 and 128, Open TAG2 ”V.LINEARITY" and TAG2 "V.LIN.BALANCE", and set

up data.

3) Open Menu (S), TAG2 "V.SIZE", adjust "+", "-" SW so that the vertical raster size is 297±3.0 mm.

4) Open Menu (S), TAG 2 "V.RASTER CENTER" and push "RESET" SW.

5) Adjust the vertical raster and the space of the edge as listed below by switch.(Fig 1-2 reference)

| Ytop - Ybottom | ≤ 1.0mm

6) Push "EXIT" SW.

c. Rough adjustment of self test screen

1) Receive signal 7.

2) Open Menu(S), TAG1. Make sure that data on "SLFTST SYNC BAND" is "1".

3) Open Menu (S), TAG2 "V.POSITION" and adjust "+", "-" SW so that the picture is centered with in the

screen.

4) Open Menu (S), TAG 2 "V.SIZE" and adjus t it so th at top a nd bottom picture s ize m ay be 3-5m m

from the bezel. When picture doesn't spread out, open Menu (S), TAG2 "V.SIZE MAX". If not able to set picture size , open Menu (S), TAG2 "V.SIZ E MAX", adj ust so that sc reen m ay become f ull with the bezel. And open Menu (S), TAG2 "V.SIZE" and adjust it so that top and bottom picture size may be 3-5mm from the bezel.

5) Receive signal 13.

6) Open Menu (S), TAG2 “H.SIZE” and adjust the picture size is just the bezel.

7) Display the self test screen.

Note) Make sure that the screen is one image.

If there is not stable, Open Menu(S), TAG1"SLFTST SYNC BAND" and adjust "-"SW so that the data is "0".

8) Make sure that the picture size is just the bezel.

5-15

d. Screen VR Adjustment

1) Display the self test screen.

2) Adjusted with the s cr een VR s o that t he vo lta ge of the vid eo PWB TP-ABL may become

4.64 (V) <ABL<8.14 (V).

1. Raster Position 1-1. Horizontal Raster Position Signal: No. 27 (H.HOLD 2(115k)) All Black

1) Receive signal 27.

2) Adjust SCREEN-VR on the FBT so that the back raster just appears.

3) Make sure to set the position of control as follows. VR581: Fully clockwise (MAX). SW581: Set position to the CRT side.

4) Open Menu (S), TAG2 "H.SIZE", Hor izontal Size and adjus t "+", "-" SW so that the hor izontal size is

396±2.0 mm.

5) If raster has approached on the left of displayed area, change the SW581 position to the CRT side If raster

has approached on the right of displayed area, change the SW581 position to the VR581 side.

6) Adjust VR581 so that the distance between the bezel and raster edge is as follows.

| XL

eft

-XR

ight

| ≤ 1.0 mm

XLeft

XRight

Bezel

Raster

396±2.0mm

Fig 1-1 Horizontal Raster Centering

5-16

1-2. Vertical Raster Position Signal: No. 29 (V.RASTER) All White

1) Receive signal 29.

2) Menu (S), TAG2 data on ”V.LINEARITY" are 90, and it confirms that data on "V.LIN.BALANCE" are 128.

* When data are not 90 and 128, O pe n T AG 2 ”V.LINE ARITY" and TAG2 "V.LIN.BAL ANCE", and set up

data.

Open Menu (S), TAG2 "H.SIZE" and adjust "+" SW so that the vertical raster size is 297±3.0 mm.

3) Open Menu (S), TAG 2 "V.RASTER CENTER" and push "RESET" SW.

4) Adjust the vertical raster and the space of the edge as listed below by switch. (Fig 1-2 reference)

|Ytop - Ybottom | ≤ 1.0mm

5) Push "RESET" SW.

Y bottom

Y top

Bezel Raster

297±3.0mm

Fig 1-2 Vertical Raster Centering

5-17

2. Linearity Adjustment 2-1. Horizontal Linearity Adjustment Signal: No. 17 (1024*768@75Hz) Cross hatch pattern

Signal: No. 23 (1600*1200@85Hz) Cross hatch pattern

* Hereunder integrate is done when va lue of control for mer "H.LINEARIT Y 1:60 " an d "H.LINEARITY 2 :18 0"

come off the value of standardized.

1) Receive signal 23.

2) Open Menu (S), TAG2 "H.POSITION" and adjust "+", "- " SW so that the pict ure is centered with in the screen.

3) Open Menu (S), TAG2 "H.SIZE" and adjust "+" SW so that the horizontal size is 396±3 mm. If not able to set horizontal size, open Me nu ( S), T AG1 "H.SIZ E M AX 2", adj us t the hor izonta l si ze is 396 m m . After , Data on "H.SIZE" adjusted to the maximum (255).

4) Open Menu (S), TAG1 "H.LINEARITY 2" and adjusted so that the horizontal direction width of the second square may become the same from both ends of the screen.

Note: When a OSM Menu is hidden tem poraril y for pictur e adjustm ent, push " PROCEED " SW once to display OSM Menu.

5) Receive signal 17.

6) Open Menu (S), TAG2 "H.POSITION" and adjust "+", "-" SW so that the picture is centered with in the screen.

7) Open Menu (S), TAG2 "H.SIZE" and adjust "+" SW so that the horizontal size is 396±3 mm. If not able to set horizontal size, open Menu (S), TAG1 "H.SIZE MAX 1", adjust the vertical size is 396 mm. After, Data on "H.SIZE" adjusted to the maximum (255).

8) Open Menu (S), TAG1 "H.LINEARITY 1" and adjusted so that the horizontal direction width of the second square may become the same from both ends of the screen.

Note: When a OSM Menu is hidden temporarily for picture adjustment, push "PROCEED " SW once to display OSM Menu.

9) Push "EXIT" SW.

2-2. Vertical Linearity Adjustment Signal: No. 22 (1600*1200@75Hz) Cross hatch pattern

1) Receive signal 22.

2) Open Menu (S), TAG2 "V.POSITION" and adjust "+", "-" SW so that the picture is centered with in the screen.

3) Open Menu (S), TAG2 "V.SIZE" and adjust "+" SW so that the vertical size is 297±3 mm. If not able to set vertical size, open Menu (S), TAG2 "V.SIZE MAX", adjust the vertical size is 297±3 mm. After open Menu (S), TAG2 "V.SIZE" so that the data is max (255).

4) Open Menu (S), TAG2 "V. LINEARITY" and adj ust "+", "-" SW to make size of top square an d bottom square on the screen equal vertically.

Note: When a OSM Menu is hidden temporarily for picture adjustment, push "PROCEED " SW once to

display OSM Menu.

5) Open Menu (S) TAG2 "V.LIN.BALANCE" and adjust "+", "-" SW to make size of top square and bottom square on the screen equal vertically.

6) Open Menu (S) TAG2 "V.LINEARITY" again and adjust "+", "-" SW to make size of top square and center square on the screen equal vertically.

7) Make sure that the linearity of top, center, and bottom on the screen are ±3%.

8) Push "EXIT" SW.

5-18

3. Horizontal / Vertical Maximum Size Adjustment 3-1. Horizontal Maximum Size Adjustment Signal: No. 13 (MAC832*624) All white

Signal: No. 35 (H.SIZE) All white

1) Receive signal 13.

2) Open Menu (S), TAG2 "V.SIZE" and adjust "+", "-" SW so that the vertical size is 297±5 mm. If not able to set vertical size, open Menu (S), TAG2 "V.SIZE MAX", adjust the vertical size. And open Menu (S), TAG2 "V.SIZE" and adjust vertica l size.

3) Open Menu (S), TAG3 "IN / OUT" and adjust "+", "-" SW to correct side pincushion di stortion.

4) Open Menu (S), TAG1 "H.SIZE MAX.1", push “RESET”SW and make sure that "H.SIZE MAX.1" is set to 1.

5) Open Menu (S), TAG1 "H.SIZE MAX.1", and adj us t " +" , "- " SW so t h at v id e o h or i z o n ta l s i ze m ay be c o m e full with the bezel.

6) Receive signal 35.

7) Open Menu (S), TAG2 "H.POSITION", rough adju s t s o t h a t v i deo area m ay become in the center of the screen.

8) Open Menu (S), TAG1 "H.SIZE MA X. 2", and push "EXIT" SW. It confirms that data on "H.SIZE MAX.1" are

9) Open Menu (S), TAG1 "H.SIZE MAX. 2", and adju s t " + ", "-" SW s o t h a t vi d e o h o riz o n t al s i z e m a y b e c o me full with the bezel.

10) Push "EXIT" SW .

3-2. Vertical Maximum Size Adjustment Signal: No. 28 (V.MAX) All white

1) Receive signal 28.

2) Open Menu (S), TAG2 "V.POSIT ION" and adjust "+ ", "-" SW so that the picture is centered with in the screen.

3) Open Menu (S), TAG3 "V.SIZE MAX", push “RESET”SW and adj u s t " + ", " - " SW s o t ha t t h e ve r t ic a l s i z e is 297±3 mm.

4) Push "EXIT" SW.

5-19

4. Deflection Distortion Adjustm ent Environment: Adjustment Magnetic Field by t hree dimension magnetic field system.Tur n the CRT face to

east and degauss the monitor using an external degaussing coil.

* When distortion am ount is confirmed in the hereunder adj us ted, It is made the condition that items of the

menu tag 3 or 4 is select, or PROCEED is used in the condition that items is select, and turn off condition the OSM.

* After 4-1 section and 4-2 section are adjusted, Redo adjusts 4-3 sections to 4-8 sections in the case of the

manual adjustment. W hen distortion left at the top-bottom corner, the adjusted of 4-9 secti on is done b y this adjustment. 4-10 section is confirmed at the end.

4-1. Horizontal / Vertical Size Rough Adjustment Signal: No. 33 (788*1200@75Hz) All white

1) Open Menu (S), TAG2 "H.POSITION", "V. POSITION", "H.SIZ E", "V. SIZE" a nd adj ust the screen s ize t o the following values.

Horizontal Size: 396 mm ± 3 mm Vertical Size: 297 mm ± 3 mm Horizontal Picture Position: | Xleft - XRight | ≤ 3.0 mm Vertical Picture Position: | XTop - XBottom | ≤ 2.0 mm

Xleft XRight

XTop

XBottom

Fig 4-1

Screen Size Rough Adjustment

4-2. Picture Tilt Adjustment Signal: No. 33 (788*1200@75Hz) Cross Hatch Pattern

1) Receive signal 33.

2) Open Menu (S) TAG3 "ROTATE" and make sure that initial value of adjustment data is "128".

3) Turn the CRT face to east and degauss the monitor using an external degaussing coil.

4) Make sure that the picture tilt meets the following specification. X ≤ ± 2.0 mm

If out of specification, correct CRT assembly.

5) Open Menu (S) TAG3 "ROTATE" and make sure that the pictu re is tilted as follows by "+", "- " S W.

"-" SW: counterclockwise "+" SW: clockwise

6) Open Menu (S) TAG3 "ROTATE" and adjust "+" , "-" SW so th at the pi cture tilt meets the following standards.

The maximum correction is ±1.0mm.

X ≤ ± 1.0 mm

5-20

7) Push "EXIT" SW.

-X

Fig 4-2 Picture Tilt

4-3. Side Pincushion Balance Adjustment Signal: No. 33 (788*1200@75Hz) All white

1) Open Menu (S), TAG3 "SIDE PIN BAL". Adjust "+", "-" SW so that the difference of X

and XSR is equal ( maximum 1.0 mm).

Xsl Xsr

Fig 4-3 Side Pincushion Balance

5-21

4-4. Side Pincushion Adjustment Signal: No. 33 (788*1200@75Hz) All white

1) Open Menu (S), TAG3 "SIDE PIN".

Adjust "+", "-" SW so that the side pincushion distortion is small ( maximum ± 0.5 mm).

B C

Fig 4-4 Side Pincushion

4-5. Trapezoid Distortion Adjustment Signal: No. 33 (788*1200@75Hz) All white

1) Open Menu (S), TAG3 "ALIGN". Adjust "+", "-" SW so that the Trapezoid Distortion is equal to X

top

and X

btm

. (| X

top

- X

btm

| ≤ 1.0 mm)

Xtop

Xbtm

Xtop

Xbtm

Fig 4-5 Trapezoid Distortion

4-6. Parallelogram Distortion Adjustment Signal: No. 33 (788*1200@75Hz) All white

1) Open Menu (S), TAG3 "TILT". Adjust "+", "-" SW so that the vertical line and horizontal line at the

screen's center fall at right angles. (maximum 90° ± 0.5°)

Fig 4-6 Parallelogram Distortion

5-22

4-7. Horizontal W-wave Distortion Adjustment Signal: No. 33 (788*1200@75Hz) All white

1) Open Menu (S), TAG3 " SIDE WING ". Adjust "+", "-" SW so that the side vertical line is about straight. (maximum ± 0.5 mm)

Center line

Fig 4-7 Horizontal W-wave Distortion

4-8. Vertical S-wave Distortion Adjustment Signal: No. 33 (788*1200@75Hz) All white

1) Open Menu (S), TAG3 "S.WAVE". Adjust "+", "-" SW so that the side vertical line is about straight. (maximum ± 0.5 mm)

Center line

Fig 4-8 Vertical S-wave Distortion If Trapezoid Distortion is out of specification, repeat adjustment step 4-5. It implements this adjustment in case of the following Undulation distortion. Undulation is a directional difference of tilt at AB and DE. Following figures (I) and (II) are example.

( | )

( || )

Fig 4-9 Vertical S-wave Distortion Definition

5-23

4-9. Corner Distortion Adjustment Signal: No. 33 (788*1200@75Hz) All white

Do this integrate when distortion is adjust in the top or the bottom after the integrate to 4-8 sections. 4-9-1. Top Corner Distortion Adjustment

1) Open Menu (S), TAG4 "CORNER TOP".

Adjust "+", "-" SW so that the top corner forms a right angle. (maximum ± 1.0 mm)

Fig 4-10 Top Corner Distortion

4-9-2. Bottom Corner Distortion Adjustment

1) Open Menu(S), TAG4 "CORNER BOTTOM".

Adjust "+", "-" SW so that the bottom corner forms a right angle. (maximum ± 1.0 mm)

Fig 4-11 Bottom Corner Distortion

4-9-3. Top Corner Balance Adjustment

1) Open Menu(S), TAG4 "CORNER TOP BAL".

Adjust "+", "-" SW so that the top corner forms a right angle. (maximum ± 1.0 mm)

Fig 4-12 Top Corner Balance

5-24

4-9-4 Bottom Corner Balance Adjustment

1) Open Menu (S), TAG4 "CORNER BOTTOM BAL".

Adjust "+", "-" SW so that the bottom corner forms a right angle. (maximum ± 1.0 mm)

Fig 4-13 Bottom Corner Balance

4-10. Overall Distortion Adjustment Signal: No. 33 (788*1200@75Hz) All white

1) Confirm that adjustment on steps 4-2 to 4-9 meets the specifications.

2) If undulating, re-adjustment each distortion adjustment. Undulation is a directional difference of tilt at either AC and CE or both. Following figures (I) and (II) are example. AB and BC, CD and DE are the direction of tilt. Undulated correction is the same direction of tilt at AB and BC, CD and DE. Following figures (III) and (IV) are example. In this state, each adjustment standard must be met.

( ||| ) ( || ) ( ||| ) ( |V )

Fig 4-14 Undulated Definition

5-25

5. Preset Picture Size and Position Adjustment Signal: No. 3 (VGA480) No.14 (800*600@85Hz)

No. 6 (MAC 640*480) No.17 (1024*768@75Hz) No.12 (VESA 640*480@85Hz) No.21 (1280*1024@75Hz) No.13 (MAC 832*624) No.22 (1600*1200@75Hz)

No.23 (1600*1200@85Hz)

Video: All White

1) Receive signal 3.

2) Open Menu (S), TAG2 "H.POSITION", "V.POSITION", "H.SIZE", "V.SIZE".

3) Adjust the picture size and position as listed below by "+", "-" SW. Picture size

H: 396 ± 1 mm V: 297 ± 1 mm

Picture Position

H: | XL

eft

– XR

ight

| ≤ 1.0 mm

V: | XT

– XB

ottom

| ≤ 1.0 mm

4) Push "EXIT" SW.

5) Receive the next signal and repeat steps 2) - 4).

Note: Before receiving the next signal, always push "EXIT" SW to store adjustments.

Fig 5-1 Picture Position

Bezel

Left

Right

Top

Bottom

Video

5-26

6) For the signals below, picture size and position are calculated from above adjustment data and data are written

into EEPROM.

Preset Signal: No. 1 (VGA350) No.10 (XGA)

No. 2 (VGA400) No.11 (VESA800*600@75Hz) No. 4 (640*400@70Hz) No.15 (1024*768@70Hz) No. 5 (800*600@60Hz) No.16 (1280*1024@60Hz) No. 7 (VESA350@85Hz) No.18 (Mac1152*870) No. 8 (VESA400@85Hz) No.19 (1024*768@85Hz) No. 9 (VESA640*480@75Hz) No. 20 (1280*1024@70Hz)

USER Signal: USER1 (PC98 1120*750(I)) USER13 (VESA 1600*1200@60Hz)

USER2 (VESA 800*600@56Hz) USER14 (1024*768@100Hz) USER3 (VESA 1024*768@60Hz) USER15 (800*600@120Hz) USER4 (VESA 800*60072Hz) USER16 (640*480@160Hz) USER5 (1120*750@60Hz) USER17 (VESA 1920*1440@60Hz) USER6 (640*480@100Hz) USER18 (1600*1200@70Hz) USER7 (XGA-2 1024*768@72Hz) USER19 (1280*1024@85Hz) USER8 (1024*768@80Hz) USER20 (800*600@140Hz) USER9 (800*600@100Hz) USER21 (VESA 1792*1344@75Hz) USER10 (640*480@120Hz) USER22 (VESA 1600*1200@80Hz) USER11 (640*480@140Hz) USER23 (1024*768@120Hz) USER12 (VESA 1600*1200@60Hz) USER24 (800*600@160Hz) USER26 (VESA 1920*1440@75Hz)

5-27

6. Auto Adjustment (Size / Position / Distortion)

6-1. Outline explanation

1) Adjustment for Size, Position and Disto rt ion for all pres et sig na ls can b e do ne by select ing only one specified signal.

Accordingly, following adjustments can be done automatically by using this jig.

· Horizontal / Vertical Size Adjustment (include Max Size Adjustment)

· Horizontal / Vertical Position Adjustment

· Distortion Adjustment

2) The Menu of this adjustment is representative and they differ with every model.

However operation method is similar.

3) If Horizontal / Vertical Max Size Adjustment are not need, it requires no adjustment.

If the model requires Horizontal / Vertical Max Size Adjustment, follow the instructions that are displayed.

6-2. Equipment for Adjustment

1) Auto ADJ I/F jig

2) The software for auto ADJ I/F jig

3) Printer cable (Should be prepared at your side.)

4) PC(IBM PC or compatible) (Should be prepared at your side.)

SIGNAL OUT

UTO ADJ I/F JIG

CN-PRN connect printer cable

Connect Signal cable from Monitor

NEC

front view

view

AC100-120V

AUTO ADJ I/F JIG (120V)

PART No. 599910401 (120V)

A TYPE B TYPE

SIGNAL IN

Connect Signal generator

Fig 6-1 Auto ADJ I/F jig

5-28

6-3. Connection

Printer Cable

AUTO ADJ I/F JIG

IBM PC or compatible

Target Monitor

Video Signal Generator

Program Disk

Signal Cable

AUTO ADJ PROGRAM

PART No. 599910401(120V) (for A Ver.)

PART No. 599910403

Signal Cable from

target monitor

Fig 6-2 Connection

1) Connect signal cable from target monitor to Auto ADJ I/F jig. (From here after, this is abbreviated “JIG”.)

2) Connect Printer cable to JIG AND PC.

3) Power on the monitor, JIG and PC after set up the software for auto ADJ I/F jig in PC. All adjustment for Size, Position and Distortion can be done from PC by using this jig. Adjustment for Size, Position and Distortion for all preset signals can be done by selecting only one

specified (“80: TOTAL1 (1024*768(75))”) signal.

Note: Distortion adjustment signal may differ from another type monitor in some cases.

In this case, use signal displayed on the screen menu.

5-29

6-4. Operation

1) Programming flow chart

START

ROM READ ? (Y/N) or END

Read EEPROM data END

Read parameter values from disk

(1) Size / Position (2) Distortion (3) END

Fig 6-3 Programming flow chart of service adjustment

6-5. Adjustment procedures

1) Start the program

a. Insert FD of software for auto ADJ I/F jig into PC. b. Then Power on the PC, the AUTO ADJ I/F jig and Monitor. c. As models list will appear on monitor screen, select the model number and push “RETURN” key. d. As following message will appear on monitor screen, push “Y” or “N” key.

(Menu A)

If “Y” key is selected:

PC begins to read the data that is saved in EEPROM of the monitor, and to adjust the monitor using the data as reference.

If “N” key is selected:

PC begins to adjust the monitor using the data saved in program disk as reference.

Note: Push “N” key, when screen size and position are not correct and data are destroyed.

Also push “N” key, if you are not sure which reference to use.

If “E” key is selected:

PC ends adjustment program.

Size/Position Distortion Manual Adjust Program SPSC2.EXE Version 1.00

ROM READ ? (Y/N) or END (E) MODEL: Y: INITIAL DATA = READING SET FP1350-1

N: INITIAL DATA = PARAMETER FILE

5-30

2) Adjustment procedure

Adjust monitor in following steps.

a. Distortion adjustment b. H. SIZE(MAX) adjustment c. V. SIZE(MAX) adjustment d. Size / Position adjustment

a. Distortion adjustment

a-1. The following menu B will appear on screen.

(Menu B) “1 : Size / Position” : Adjustment of size and position “2 : Distortion” : Adjustment of distortion “3 : END” : Return to start menu screen a-2. Select “Distortion” while menu B is displayed, and push “RETURN” key. a-3. Input the adjustment signal that is specified as “80: TOTAL1 (1024*768(75))” on menu D. a-4. Then, following menu will appear on monitor screen. For getting good distortion, adjust each

items on “Distortion Adjustment” with pushing “1”, “4”, “7”, “3”, “6” and “9” keys.

Note: Distortion adjustment signal may differ from another type of monitor in some cases.

In this case, use signal displayed on screen menu. a-5. If adjustment is ended, push “RETURN” key to end the adjustment. (Distortion data values of all preset signals are written by this operation.)

Note: Above menu may differ in some models.

Size/Position Distortion Manual Adjust Program SPSC2.EXE Version 1.00

MODEL:

1 : Size / Position FP1350-1 2 : Distortion 3 : END

No. ? _

Distortion Adjust M ODEL:

FP1350-1 1 : ROTATION 2 : PARALLELOGRAM 3 : TRAPEZOID 4 : PIN CUSHION 5 : PINCUSHION BALANCE

7 : V LINEAR 8 : V LINEAR BALANCE 9 : S_WAVE

10 : W_WAVE 11 : UP CORNER 12 : UP CORNER BALANCE 13 : LOW CORNER 14 : LOW CORNER BALLANCE 15 : END No. ? _

(Menu C)

5-31

b. H. SIZE(MAX) adjustment

b-1. Select “Size / Position” while menu B is displayed, and push “RETURN” key. b-2. Input a signal displayed on the screen. (If signal is not displayed on the screen, use a signal

indicated horizontal maximum size adjustment section in the service manual.)

b-3. As following menu will appear on monitor screen, select “83: H_MAX” and push “RETURN” key.

(Menu D)

Meaning of each item in this menu is as follow:

From “1” to “35” : Adjust monitor on each signal “85” : Adjust a vertical maximum size “87” : Size / Position adjustment is ended

1:VGA350 FP1350-1 2:VGA400 SIZE/POSITION ADJUSTMENT 3:VGA480 23:98_640(70) 4:800*600(60) 5:MAC2(640*480)

27:640*480(85) 8:VESA640*480(75) 28:1600*1200(85) 9:XGA 29:800*600(85) 10:VESA800*600(75) 30:1024*768(85)

12:MAC2(832*624) 32:1600*1200(75) 13:1024*768(70) 33:VES A350(85) Select No.

34:VESA400(85) No. ? _ 15: 1024*768(75) 16:1280*1024(60) 17:MAC_1152 80:TOTAL1(1024*768(75)) 18:1280*1024(70)

20:1280*1024(75) 83:H_MAX

84:H_MAX2

85:V SIZE(MAX)

87:END

5-32

b-4. As following menu E appear on monitor screen, select “H. SIZE” and push “RETURN” key.

(Menu E)

b-5. As following menu F appear on monitor screen, push “5” key.

Then adjust data value to 255 by pushing one of “3”, “6” and ”9” keys.

Note: If screen is over scanned by smaller value than 255, push “RETURN” key to end

“H. SIZE” adjustment.

Then select “5 : H. SIZE(MAX)” and decrease horizontal size, and set up data value to 255 at “H. SIZE” adjustment procedure.

In this case, you must be careful not to decrease horizontal size too small at “5 : H. SIZE(MAX)” adjustment.

(Menu F)

Size/Position Adjust MODEL:

FP1350-1 SIGNAL :H_MAX 1 : H. POSI 2 : V. POSI 3 : H. SIZE 4 : V. SIZE 5 : H. SIZE(MAX) 6 : END

Size/Position Adjust MODEL:

FP1350-1 SIGNAL :H_MAX 1 : H. POSI 2 : V. POSI 3 : H. SIZE 4 : V. SIZE 5 : H. SIZE(MAX) 6 : END

No. ? DAC VALUE: 120

Decrease : 1(-1), 4(-5), 7(-10) Increase : 3(+1), 6(+5), 9(+10) Original : 5 END(NO WRITE) : e E END(WRITE) : ENTER

5-33

Function of each key is as follows

“1” : data value decreases by 1 (H. SIZE becomes smaller) “4” : data value decreases by 5 (H. SIZE becomes smaller) “7” : data value decreases by 10 (H. SIZE becomes smaller) “3” : data value increases by 1 (H. SIZE expands) “6” : data value increases by 5 (H. SIZE expands) “9” : data value increases by 10 (H. SIZE expands) “5” : set up data value to reference value “e or E” : ends without saving data “ENTER” : Ends after saved data

b-6. Return to Size / Position adjustment menu by pushing “e” key, and select “5 : H. SIZE(MAX)”.

Adjust the horizontal size to horizontal maximum size adjustment value on service manual.

b-7. If adjustment is ended, push “RETURN” key to end the adjustment.

(H. SIZE MAX data values of all preset signals are written by this operation.)

b-8. Select “84: H_MAX2” on the menu D, repeat steps b-4 to b-7.

c. V. SIZE(MAX) adjustment

c-1. Open menu D, “85 : V. SIZE(MAX)” and push “RETURN” key. c-2. Input a signal displayed on the screen. ( If signal is not displayed on the screen, use a signal

indicated vertical maximum size adjustment section in the service manual. )

c-3. As following message will appear on screen, push “RETURN” key.

“INPUT V. SIZE(MAX) SIGNAL HIT ENTER KEY”

c-4. Following menu G will appear on screen.

(Menu G) c-5. Adjust a vertical maximum size value as indicated on the service manual. c-6. If adjustment is ended, push “RETURN” key to end the adjustment.

INPUT V. SIZE(MAX) SIGNAL HIT ENTER KEY

MODEL: FP1350-1

DAC VALUE : 0

Decrease : 1(-1), 4(-5), 7(-10) Increase : 3(+1), 6(+5), 9(+10) Original : 5 END(NO WRITE) : e E END(WRITE) : ENTER

5-34

d. Size / Position adjustment

d-1. Open menu B, “Size / Position” and push “RETURN” key. d-2. As following menu D appears on monitor screen, select “80: TOTAL1 (1024*768(75))” and push

“RETURN” key. d-3. As following menu E appears on monitor screen, select “H. POSI” and push “RETURN” key. d-4. Menu F will appear on monitor screen. d-5. Input a signal indicated by menu screen F. (If signal is not indicated on screen, input the signal

that is specified as “80: TOTAL1 (1024*768(75))” on menu D.) d-6. Adjust the H. POSI to reference value which is specified on service manual by pushing “1”, “4”, “7”,

“3”, “6” and “9” keys. d-7. If adjustment is ended, push “RETURN” key to end the adjustment.

(H. POSI data values of all preset signals are written by this operation.)

d-8. Adjust V. POSI, H. SIZE and V. SIZE in the same way.

Adjust them as specified on the service manual.

e. Confirmation of Size / Position about another signals

e-1. Open menu D, make sure that Size / Position values are in the standard of signals except “80:

TOTAL1(1024*768(75))” signal. Note: Do not forget to change signal of signal generator for each adjustment.

f. Handling when Size / Position are non-standard

f-1. Open menu D, select non-standard signal and push “RETURN” key. f-2. When menu E is displayed on screen, select a non-standard item and push “RETURN” key. f-3. Menu F will appear on monitor screen. f-4. Input a non-standard signal. f-5. Adjust the screen size / position again by pushing “1”, “4”, “7”, “3”, “6” and “9” keys. f-6. If adjustment is ended, push “RETURN” key to end the adjustment. Note: Do not perform the automatic adjustment (“80: TOTAL1(1024*768(75))”), after this adjustment is

ended. If you wrongly performed it, you must readjust this procedure.

Note:

This program must be used with IBM compatible computer. This program is controlled by IBM compatible computer using a parallel port. The parallel I/O port may be different depending on the computer types. Open a parameter file to change the value of the parallel port if auto adjustment cannot be performed.

Example:

Parallel port setting (Parameter file) PRI_DATA_ADR 378 PRI_BUSY_ADR 379 When it is above-mentioned example, 378, an input port amount to 379 as for an output port of a

parallel port.

5-35

7. Video Amplitude Adjustment Signal: No. 23 (1600*1200@85Hz) Window pattern (H:33% V:33%) 7-1. Settings

NOTE: Degauss the monitor using an external degaussing coil.

1) Confirm that the video signal of generator is as follows. Video: Analog 0.7Vp-p ± 0.01V p-p (terminated 75 ohms ± 1 %)

2) Receive signal No.23 (All White), confirms that there is screen size of hereunder span. It is adjust in menu

TAG 2 (S),"H.SIZE", "V.SIZE", "H.POSITION", "V.POSITION" in the case as the outside of the span.

Horizontal Size : 396±3m m Vertical Size : 297±3mm Horizontal picture position: |XLeft - Xright | ≤ 3.0mm Vertical picture position: |Xtop - Xbottom | ≤ 3.0mm

3) Open Menu (S), TAG 7,TAG 8,TAG 9,TAG A, TAG D and make sure that the following values are preset. Menu (S), TAG 7 Menu (S), TAG 8

GAIN : 200 SUB BIAS : 255 R GAIN : 200 R BIAS : 0 G GAIN : 200 G BIAS : 0 B GAIN : 200 B BIAS : 0 OSM COLOR GAIN :5

Menu (S), TAG 9 Menu (S), TAG A

G SUB BRIGHT : 150 COLOR PRESET : 1(9300K) B SUB BRIGHT : 150 R COLOR GAIN : 255 R SUB BRIGHT : 150 G COLOR GAIN : 255

B COLOR GAIN : 255 CONT.MAX.ADJ. : 150

Menu(S), TAG D

CONTRAST PRESET: 150

7-2. Video Amplitude Signal: No.23 (1600*1200@85Hz) Window Pattern (H:33% V:33%)

1) Receive signal 23.

2) Open Menu (S), TAG7.

3) Adjust "+", "-" SW so that video amplitude at TP-R (R GAIN) on the CRT PWB is set to 45 Vp-p (+0V/ -1V).

4) W hen the indicated value of the video amplitude is not 45 Vp-p(+0V/ -1V) with Gain data m aximum, increase the R Gain values.

5) Adjust "+", "-" SW so that video amplitude at TP-G (G GAIN) ,TP-B (B GAIN) on the CRT PWB is set to 45 Vp-p(+0V/ -1V)

6) Push "EXIT" SW.

* When adjusting video am plitude, m ove cursor to desire d function and pus h PROCEED butto n to hide

the OSM menu. Adjustment can be made with OSM menu hidden. OSM menu must be hidden since its amplitude will appear on the wave form.

5-36

45±

Vp-p

Fig 7-1 Wave form of RK, GK, BK

7-3. OSM Gain Adjustment Signal: No.23 (1600*1200@85Hz) All black

1) Receive signal 23.

2) Open Menu (S), TAG7 “OSM COLOR GAIN”.

3) Adjust “+”, ”-” SW so that OSM video amplitude at TP-G on the CRT PWB is set to 31 (±4) Vp-p.

4) Push "EXIT" SW.

7-4. Cut off Adjustment Signal: No.23 (1600*1200@85Hz) All black

1) Receive signal 23. All Black

2) Open Menu (S), TAG8 "SUB BIAS" and push “RESET” SW. Note: Do not touch a front panel key and do not come out from “SUB BIAS” since a picture can not be seen.

3) Connect the DVM with a high voltage probe at TP-G2 on the CRT PWB and adjust SCREEN VR to obtain

700 Vdc ± 5 Vdc. (Use a high voltmeter whose maximum voltage is more than 1.5kV and input resistance is more than 1000 MΩ.)

4) Set 00 channel x, y, Y modes of color analyzer CA-100 and make sure that the following values are preset.

x = 0.273 y = 0.300 Y = 0.2 cd/m

5) Set analyzer mode at color analyzer.

6) Open Menu (S), TAG8 " SUB BIAS " and adj ust u ntil raster appe ars with “+” and “-“ SW . The color that

appears first is the reference color. Adjust “+”,”-“SW so that its color analyzer indicated value is 20-80. If color analyzer does not indicate 20-80, adjust “SUB BIAS” 255 and go to 7).

Then reference color is anything OK.

7) Open Menu (S), TAG8 and adjust the reference color bias so that its analyzer indicated value is 90-110.

8) Open Menu (S), TAG8 and adjust the other color biases so that its analyzer indicated value is 90-110.

9) When the indicated value of the reference color is over 110, repeat steps 7) to 8) so that it is 90-110.

10) Close menu.

5-37

7-5. Contrast Tracking Adjustment Signal: No.23 (1600*1200@85Hz) Window Pattern (H: 33% V:33%)

1) Receive Signal 23.

2) Open Menu (S), TAG8 “CONT MAX/MIN”. Adjust "+" SW so that the contrast is max.

3) Setting modes x, y, Y at the color analyzer, measures the window color temperature. This measurement determines x=x1, y=y1.

4) Open Menu (S), TAG8 “CONT MAX/MIN”. Adjust "-" SW so that the contrast is min.

5) Measure the window color temperature. This measurement determines x=x2, y=y2.

6) Open Me nu( S), TAG8 “G BIAS”, ”R BIAS”, ”B BIAS” and make sure that the window color temperature are

the following values :

x2 = x1 ± 0.003 y2 = y1 ± 0.003

7) Open Menu (S), TAG8 “C ONT MA X/MI N”. Adju st "+ " SW so that the c ontra st is max.

8) Measure the window color and confirm that the readings are the following values :

x1 = x2 ± 0.003 y1 = y2 ± 0.003.

If not, repeat items 3) to 8).

9) Push "EXIT" SW twice.

7-6. Brightness Tracking Adjustment Signal: No.23 (1600*1200@85Hz) All black

1) Receive Signal 23.

2) Set modes x, y, Y at color analyzer.

3) Open Menu (S), TAG9 “G SUB BRIGHT”, “B SUB BRIGHT”, “R SUB BRIGHT” and push "RESET" SW.

(Each figure becomes 0.)

4) Adjust "+", "-" SW so that the “G SUB BRIGHT” is 5 ± 0.5 cd/m

5) Adjust “R SUB BRIGHT", "B SUB BRIGHT" and adjust "+", "-" SW so that the each color temperature

measured in step 7-5.

x = x1 ± 0.002 y = y1 ± 0.002

6) Push "EXIT" SW.

7-7. Color Preset Adjustment Signal: No.23 (1600*1200@85Hz) Window Pattern (H:33% V:33%)

1) Receive Signal 23.

2) Open Menu (S), TAG A and push "RESET" SW. (R/G/B COLOR GAIN value is made the early stages.)

3) Open Menu (S), TAG A, "Color Preset No.1 9300k ".

4) Open Menu (S), TAG A, and adjust "R COLOR GAIN", "G COLOR GAIN", "B COLOR GAIN" so that the color temperature is the following value. (RGB either value make become 255 at this time.)

x = 0.283 ± 0.003 y = 0.297 ± 0.003

5) Push "EXIT" SW.

6) Open Menu(S), TAG A, and adjust Color Presets No.2 to 5 (8200K ~ 5000K) to the following values :

COLOR PRESET No. x y

2(8200K) 0.290 ± 0.003 0.313 ± 0.003 3(7500K) 0.300 ± 0.003 0.315 ± 0.003 4(6500K) 0.315 ± 0.003 0.325 ± 0.003 5(5000K) 0.345 ± 0.003 0.350 ± 0.003

5-38

7-8.Maximun Brightness adjustment Signal: No.23 (1600*1200@85Hz) Window Pattern (H:33% V:33%)

1) Receive Signal 23.

2) Open Menu (S), TAG A "Color Preset No.1 9300K ".

3) Open Menu (S), TAG A “CONT.MAX.ADJ”. Adjust "+", "-" SW so that the “window brightness” is 140(+0, -1)

cd/m

4) Open Menu (S), TAG D “CONTRAST PRESET” and push "RESET" SW.

7-9.Contrast preset adjustment (B version only)

Signal: No.23 (1600*1200@85Hz) Window Pattern (H:33% V:33%)

1) Receive Signal 23.

2) Open Menu (S), TAG D "CONTRAST PRESET".

3) Adjust "+", "-" SW so that the “window brightness” is 90(+0, - 1) cd/m

8. Focus Adjustment Signal: No.23 (1600*1200@85Hz) Window Pattern (H:33% V:33%)

No.31(1600*1200@60Hz) Cross Hatch Pattern “∃“ Character Pattern PC Excel Focus Check

Pattern (1280*1024@85Hz)

PC Focus Check

Pattern Video Board: Millennium || Application: Exc el (M ic ro s of t) Font: Arial Font Size: 8 Character: ##&&%%$$##

* After maximum horizontal amplitude adjustment, maximum vertical amplitude adjustment, and video

adjustment are completed, perform this focus adjustment. For steps of 9) , 10), 15) , 16), adjust it with signal input through BNC using s ignal generator VG-819 or

alternate.

* "CONTRAST" of the user menu and "BRIGHTNESS" are set up.

BNC input :CONTRAST - PRESET BRIGHTNESS - PRESET D-SUB input :CONTRAST - MAX. BRIGHTNESS - PRESET

As for 1)-3), it applies to A version only.

1) Receive Signal 23.

2) Open Men u (S ), TA G D “ CON TRA ST P RESE T” .

3) Adjust "+", "-" SW so that the “window brightness” is 90(+0, -1) cd/m

4) Receive Signal 31.

5) Open Menu (S), TAG2 "H.SIZE", "V.SIZE","H.POSITION", "V.POSITION". Adjust the picture size and position as listed below by "+", "-" SW.

Picture size

H: 396±1 mm V: 297±1 mm

Picture Position

H: | XL

eft

– XR

ight

| ≤ 1.0 mm

V: | XT

– XB

ottom

| ≤ 1.0 mm

6) Open Menu (S), TAG1 "V.D.FOCUS". Adjust the voltage at TP-DF on the SW/HV PWB to obtain the following values.

The waveform of the TP-DF on the SW/HV PWB is observed, and the amplitude of parabolic-wave of the vertical period is adjusted to 185 ± 5Vp-p with "V.D.FOCUS".

Note: When measuring Vp-p, use a 100:1 probe with capacitance of approx. 2pF.

5-39

7) Open Menu (S), TAG1 "H.D.FOCUS", and confirms that data are "210". * When data are different, a " H.D.FOCUS " will be displayed, adjusted to "210".

8) "EXIT" Switch is pushed, and data is saved in the memory.

9) Receive Signal 31 (1600*1200 (60Hz) cross-hatch pattern (green monochrome)) by BNC input, Menu (U), TAG1 of "CONTRAST" and "BRIGHTNESS" are set up in " PRESET ".

10) The halo level is down with FOCUS VR F2 of FBT, and adjust so that vertical line may become thin in the center of the screen.

11) Receive Excel of PC (Foc us check pattern (1280*1024@ 85Hz) by D-SUB input, Hereunder setting is done in the user menu.

CONRAST :MAX. BRIGHTNESS :PRESET (Menu (U), TAG1) H.SIZE :396mm±1mm V.SIZE :297mm±1mm (Menu (U), TAG2)

12) It pays attention to the horizontal line of EXCEL.

A Focus is made to get fat with VR, and some double horizontal lines are displayed. Adjust within the limits of value of VDF(±10STEP) so that the horizontal line double pallet width of 4 square of center and top and bottom may become the same. Adjust within the limits of value of VDF(between 210±20STEP) so that the horizontal line width of 4 cell of center and top and bottom may become the same. Note: Double horizontal lines is done as the one for the center is a little opened because both differences become ambiguous when it is displayed too much. And because it becomes ove r-revision, it is faced a little inside at the edge of the screen.

13) Adjust Focus VR F2 so that character vertical wire of EXCEL may get clear thicker.

14) Adjust Focus VR F1 so that horizontal is not double line and characters are fine on all area.

15) Receive signal 31(" " character) by BNC input, and "CONTRAST" and "BRIGHTNESS" are adjusted to PRESET in the user menu.

16) Make sure that the horizontal lines of " " character white and green colors are crisp as possible in the whole screen. (It is confirmed by using a magnifying glass of 10 times.)

When it isn't missing, it is adjusted again about 13), the 14) clause.

17) Receive signal 3. (Cross-hatch,Red/Green/Blue each color) Make sure halo is within the specification. Vertical line halo: halo and core are less than 10(Red). halo and core are less than 9(Green and Blue).

Horizontal line halo: judged to be level (core / halo: 1/1)

18) Open Menu (S), TAG D “CONTRAST PRESET” and push “RESET” SW.(it applies to A/R/AS v ersion only )

Vertical Cycle 185 ± 5V

Fig 8-1 Dynamic Focus Wave Form

The space between horizontal lines is crisp.

The horizontal lines are not bold, and do not form halos.

a) b)

5-40

9. Purity Signal: No. 22 (1600*1200@75Hz) All green Adjustment Magnetic Field by three dimension magnetic field system. Setting of the Landing meter (KLD-01 made by KAMAYA)

Volt: 2.0V Time: 50ms GAIN: 7

* Adjust this monitor after a minimum of 90 minutes to allow unit to reach ambient operating temperature.

(Use the Self Test screen. Refer item 7-5-3. About Self Test.)

1) T urn the CRT face to east, and the outs ide degauss is done, and demagnetization is don e again in the

Degauss power source. The degauss of the outside is conducted in the front face, both sides, the base, the top panel. But, degauss is unnecessary for the chassis of the part of aluminum.

2) Receive signal 22(all green) and make sure that the following specifications are satisfied. Picture Size H: 396mm±1.0mm V: 297mm±1.0mm

Picture Position H: | XLeft - Xright | ≤ 1.0mm

V: | Xtop - Xbottom | ≤ 1.0mm

3) Open Menu (S), TAG 5 “EMF TOP RIGHT”.

4) The four corners (Within 3*3cm) of the screen (Fig 9-3) are measured by the Landing meter, and the value

of X when the value of Y was made 0 is measured. When measured value is more than ±3%, Adjust "+","-" SW so that items of each four corners the following standards.

-3% ≤ × ≤ +3%

5) Measure that the items of each four corners are -3% ≤ × ≤ +3%

When it is not in the adjustment standard, 4), 5) clause are repeated.

Top Right : EMF TOP RIGHT Top Left : EMF TOP LEFT Bottom Right : EMF BOTTOM RIGHT Bottom Left : EMF BOTTOM LEFT

   

EMF TOP LEFT

EMF BOTTO M LEF T

EMF TOP RIGHT

EMF BOTTO M R IGH T

T he one within 3*3cm from each corner is adjusted.

Fig 9-1 Landing measurement point

Don't use "GLOBAL SYNC" when you adjust it.

5-41

10. Convergence Adjustment Signal: No.33 (788*1200 @ 75Hz) Cross Hatch Pattern and frame pattern Environment: Adjustment Magnetic Field by three dimension magnetic field system.

Turn the CRT face to east and degauss the monitor using external differential coil.

1) Receive Signal 33 (Cross Hatch Pattern and frame Pattern).

It confirms that screen amplitude and screen position are following value.

Screen amplitude H: 396mm±1.0mm

V: 297mm±1.0mm

Screen position H: l Xleft -Xright l ≤ 1.0mm

V: l Xtop -Xbottom l ≤ 1.0mm Receive Signal 33 (Cross Hatch Pattern) Adjust the H/V an interval of Cross Hatch Pattern to the following values, and Cross Hatch Pattern consist of

the 15 vertical line and the 11 horizontal line is displayed. H interval : 54dot V interval : 112line The adjustment confirmation is open each convergence r ev isio n it ems of Menu(S),TAG B and TAG C an d

push "PROCEED"SW.

2) Measure misconvergence, by using Fig.10-6 standard mentioned below. a. Measure misconvergence at screen center.

If it is not satisfactory, adjust the static convergence of the green by using the 6-pole magnets on the CPM assembly. X: l "R-G"+"B-G" l < 0.10mm

Y: l "R-G"+"B-G" l < 0.10mm Measure misconvergence at screen center once again. If it is not satisfactory, adjus t the stat ic con verge nce of the bl ue and r ed b y using the4- pole m agnets o n

the CPM assembly. X: l "R-B" l < 0.20mm

Y: l "R-B" l < 0.20mm

b. Open Menu(S), TAG B "H.S.CONVER" , and adjusted so that misconvergence of the horizontal direction

may become the minimum in G of the Fig.10-7 and H and the l point.

Open Menu(S), TAG B "V.S.CONVER", and adj usted so that misc onvergence of the vertica l direction may become the minimum.

But, the revision span of "H.S.CONVER" and "V.S.CONVER" is made 69-187.

H.S.CONVER V.S.CONVER

ＲＢＲＢ

Ｂ

Ｒ

Ｂ

Ｒ

Fig 10-1 The move of the R line and the B line when "H.S./V.S. CONVER" was moved in the + direction.

5-42

c. Open Menu(S), TAG C "H.CONV ER SAW T", and adjusted so that m isconvergence of the horizonta l

direction may become the m inimum in D of the Fig 10-7 and E and F point. Open Menu(S), TAG C "V.CONVER SAW T ", and adjusted so that misc onvergence of the vertic al direction may becom e the minimum.

H.CONVER SAW T V.CONVER SAW T

ＲＢＲＢ

Ｂ

Ｒ

Fig 10-2 The move of the R line and the B line when "H./V. CONVER SAW T" was moved in the + direction.

d. Open Menu(S), TAG C "H.CON VER PAR A T", and adj usted so tha t misconver gence of t he horizo ntal

direction may become the m inimum in A of the Fig 10-7 and B and Cpoint. Open Menu( S), TAG C "V.CONVER PARA T", and adjusted so that misconvergence of the vertical direction may become minimum.

H.CONVER PARA T V.CONVER PARA T

ＲＢＲＢ

Ｂ

Ｒ

Fig 10-3 The move of the R line and the B line when "./V. CONVER PARA T"was moved in the + direction.

e. Open Menu(S), TAG C "H.CO NVER SAW B", and adjus ted so that misconvergenc e of the horizontal

direction may becom e the minimum in J of the Fig 10-7 and K and L po int. Open Menu(S), TAG C "V.CONVER SAW B", and adjusted so that misconvergence of the vertical direction may become minimum.

H.CONVER SAW B V.CONVER SAW B

ＲＢＲＢ

Ｂ

Ｒ

Fig 10-4 The move of the R line and the B line when "H./V. CONVER SAW B" was moved in the + direction.

5-43

f. Open Menu(S), TAG C "H.CON VER PARA B", and adjus ted so that misconvergenc e of the horizonta l

direction may become the m inimum in M of the Fig 10-7 an d N and O point. Open Menu(S), T AG C "V.CONVER PARA B", and adjusted so that misconvergence of the vertical direction may become minimum.

H.CONVER PARA B V.CONVER PARA B

ＲＢＲＢ

Ｂ

Ｒ

Fig 10-5 The move of the R line and the B line when "H./V. CONVER PARA B" was moved in the + direction.

3) Measure misconvergence, by using following standards mentioned below.

Adjusted to satisfy the standard of the Xv revision Coil on DY, XH slider ,Blue-BOW revision ring, 6-pole magnets on the CPM, spoiler magnet.

* The installation lie of each VR and slider is shown in the Fig. 10-8,and actuation is shown in

the Fig.10-9.

* There is a deflecting yoke in a point to install the XH slider from side to side to side.

When it was imported in the left viewed from the screen side, Demonstrated in Fig.10-9-c. When it was imported in the right viewed from the screen side, Demonstrated in Fig.10-9-d.

The value of standards : x , y ≤≤≤≤ 0.30mm

-COIL

6-pole magnets

4-pole magnets

TRD(LR)

Fig 10-4 The location of the VR. and Coil and magnets

5-44

396±1.0mm

297 ±1.0 mm

Fig.10-6 The value of Convergence

A B C

D E F

G H I

J K L

M N O

1 9 17

Fig.10-7 Adjustment position of Convergence

5-45

XXXX

VVVV

-COIL

-COIL-COIL

-COIL

4-pole magnet

4-pole magnet4-pole magnet

4-pole magnet

B-BOW Ring

B-BOW RingB-BOW Ring

B-BOW Ring

6-pole magnet

6-pole magnet6-pole magnet

6-pole magnet

B-BOW Ring

B-BOW RingB-BOW Ring

B-BOW Ring

XXXX

VVVV

-COIL

-COIL-COIL

-COIL

XXXX

HHHH

-Slider

-Slider-Slider

-Slider

Fig.10-8 The location of the deflecting yoke on the revision VR, Coil, the slider.

5-46

Xv-Coil

XH-Slider

B R R B

R B B R

Blue Bow Rings

Fig. 10-9 The move of the R line and the B line by the revision VR, Coil, the slider.

5-47

11. Auto Adjustment Signal: No. 3 (VGA480) All White Signal: No. 23 (1600*1200@85Hz) All White

When this adjustment is done, pictur e size, lineari ty, picture pos ition, picture def ormation, video adjustm ent are to be finished.

1) Recei ve signa l 3 ( VGA480) Al l W hite, and co nfirm that the picture size an d pic ture pos ition is as f ollo ws. Open Menu (S), TAG D "AUTO ADJ UT L", and push "Proceed" SW ( Adjustment data is written in the Monitor at this time).

2) Receive signal 23 (1600*1200@85Hz) All White, and confirm that the picture size and picture position is as follows. Open Menu (S), TAG D "AUTO ADJUT H", and push "Proceed" SW (Adjustment data is written in the Monitor at this time).

Picture size H: 396±1mm

V: 297±1mm

Picture position H: | Xleft - Xright | ≤ 1.0mm

V: | Xtop - Xbottom | ≤ 1.0mm

12. Factory settings for shipping

1) Open MENU(S) ,TAG D), and “destination” set following A Ver :USA B Ver :EUR

2) OPEN MENU(S) ,TAG D), and “HOURS READ” set “NO”. Press “EXIT” switch two times.

3) Make sure that the LED is Green when the unit receive Signal (Make sure that come out of the MENU(S))

4) Open MENU(U) ,TAG5) "TOOL1”, and move highlighted bar to "FACTORY PRESET" and press the

RESET switch. Then press the PROCEED switch.

5) OSM Open MENU(U) and make sure that the display of the third item is as follows.

TOOL2-LANGUAGE : ENGLISH TOOL2-IPM :“IPM OFF MODE” ENABLE TOOL2-EDGE LOCK :”1”

6) BNC/D-SUB switch : D-SUB

7) POWER switch : OFF

5-48

[D] Reference

1. Adjustment Signal

NO. Signal Name SYNC Form SYNC Polarity (H/V)

----------------------------------------------------------------------------------------------------------------------- 1 VGA 350 Separate Pos/Neg

2 VGA 400 Separate Neg/Pos 3 VGA 480 Separate Neg/Neg 4 640*400@70Hz Separate Neg/Neg 5 800*600@60Hz Separate Pos/Pos 6 MAC 640*480 Composite + Sync on G Neg/Neg 7 VESA 350@85Hz Separate Pos/Neg 8 VESA 400@85Hz Separate Neg/Pos 9 VESA 640*480@75Hz Separate Neg/Neg 10 XGA Separate Pos/Pos 11 VESA 800*600@75Hz Separate Pos/Pos 12 VESA 640*480@85Hz Separate Neg/Neg 13 MAC 832*624 Composite + Sync on G Neg/Neg 14 800*600@85Hz Separate Pos/Pos 15 1024*768@70Hz Separate Neg/Neg 16 1280*1024@60Hz Separate Pos/Pos 17 1024*768@75Hz Separate Pos/Pos 18 MAC 1152*870 Composite + Sync on G Neg/Neg 19 1024*768@85Hz Separate Pos/Pos 20 1280*1024@70 Hz Sync on G 21 1280*1024@75Hz Separate Pos/Pos 22 1600*1200@75Hz Separate Pos/Pos 23 1600*1200@85Hz Separate Pos/Pos 25 H.HOLD1 Composite Pos/Pos *1

27 H.HOLD2(115K) Separate Pos/Pos *1 28 V.MAX Separate Neg/Neg

29 V.RASTER Separate Pos/Pos 30 EDID Separate Neg/Neg 31 1600*1200@60Hz Separate Pos/Pos

32 1280*1024@85Hz Separate Pos/Pos 33 788*1200@75Hz Separate Pos/Pos

5-49

NO. Signal Name SYNC Form SYNC Polarity (H/V)

-----------------------------------------------------------------------------------------------------------------------USER1 PC98 1120*750(1) Separate Pos/Pos USER2 VESA 800*600@56Hz Separate Pos/Pos USER3 VESA 1024*768@60Hz Separate Neg/Neg USER4 VESA 800*600@72Hz Separate Pos/Pos USER5 1120*750@60Hz Separate Neg/Neg USER6 640*480@100Hz Separate Neg/Neg USER7 XGA-2 1024*768@72Hz Separate Neg/Neg USER8 1024*768@80Hz Separate Pos/Pos USER9 800*600@100Hz Separate Pos/Pos USER10 640*480@120Hz Separate Neg/Neg USER11 640*480@140Hz Separate Neg/Neg USER12 VESA 1600*1200@60Hz Separate Pos/Pos USER13 VESA 1152*864@85Hz Separate Pos/Pos USER14 1024*768@100Hz Separate Pos/Pos USER15 800*600@120Hz Separate Pos/Pos USER16 640*480@160Hz Separate Neg/Neg USER17 VESA1920*1440@60Hz Separate Neg/Pos USER18 1600*1200@70Hz Separate Pos/Pos USER19 1280*1024@85Hz Separate Pos/Pos USER20 800*600@140Hz Separate Pos/Pos USER21 VESA1792*1344@75Hz Separate Neg/Pos USER22 VESA1600*1200@80Hz Separate Pos/Pos USER23 1024*768@120Hz Separate Pos/Pos USER24 800*600@160Hz Separate Pos/Pos USER26 VESA1920*1440@75Hz Separate Neg/Pos

*1 When an approximate value is utilized because it is impossible to output the exact

fH from the signal generator On the 31kHz side, utilize the highest frequency signal that satisfies fH ≤ 31.0kHz. On the 115kHz side, utilize the lowest frequency signal that satisfies fH ≥ 115kHz. (Tolerance must be within 50Hz.) being used:

*2 Supply the sync signals output from the signal generator as follows:

H/V Composite : Supply to the set undergoing adjustment V. SYNC only : Supply to the CA-100 color analyzer.

*3 The crosshatch pattern shall have 17 vertical lines and 13 horizontal lines.

5-50

2. Timing of Adjustment Signal

Signal Timing Charts

SEPARATE SYNC

Sync Polarity: Positive/Negative

COMPOSITE SYNC

Sync Polarity: Positive/Negative

VIDEO

HORIZONTAL C D E

B A

VIDEO

VERTICAL Q R S

P O

VIDEO

HORIZONTAL C D E

B A

VIDEO

VERTICAL Q R S

P O

A: H.Total Time B: H.Sync Time C: H.Back Porch D: H.Addr Time E: H.Front Porch

O: V.Total Time P: V.Sync Time Q: V.Back Porch R: V.Addr Time S: V.Front Porch

5-51

TIMING NAME 1 VGA350 2 VGA400 3 VGA480 4 640*400@70Hz 5 800*600@60 Pixel Clock

H.Frequency V.Frequency

28.322[MHz]

31.469[kHz]

70.086[Hz]

28.322[MHz]

31.469[kHz]

70.087[Hz]

25.175[MHz]

31.469[kHz]

59.940[Hz]

25.175[MHz]

31.467[kHz]

70.086[Hz]

40.000[MHz]

37.879[kHz]

60.317[Hz] H.Tortal Time H.Addr Time H.Blank Time H.Front Porch H.Sync Time H.Back Porch

900 [dots] 720 [dots] 180 [dots]

18 [dots]

108 [dots]

54 [dots]

31.778 [us]

25.778 [us]

6.356 [us]

0.636 [us]

3.813 [us]

1.907 [us]

900 [dots] 720 [dots] 180 [dots]

18 [dots]

108 [dots]

54 [dots]

31.777 [us]

25.422 [us]

6.355 [us]

0.636 [us]

3.813 [us]

1.907 [us]

800 [dots] 640 [dots] 160 [dots]

16 [dots] 96 [dots] 48 [dots]

31.778 [us]

25.422 [us]

6.356 [us]

0.636 [us]

3.813 [us]

1.907 [us]

800 [dots] 640 [dots] 160 [dots]

17 [dots] 64 [dots] 79 [dots]

31.778 [us]

25.422 [us]

6.356 [us]

0.675 [us]

2.542 [us]

3.138 [us]

1056 [dots]

800 [dots] 256 [dots]

40 [dots]

128 [dots]

88 [dots]

26.400 [us]

20.000 [us]

6.400 [us]

1.000 [us]

3.200 [us]

2.200 [us] V.Tortal Time V.Addr Time V.Blank Time V.Front Porch V.Sync Time V.Back Porch

449 [lines] 350 [lines]

99 [lines] 37 [lines]

2 [lines]

60 [lines]

14.268 [ms]

11.122 [ms]

3.146 [ms]

1.176 [ms]

0.064 [ms]

1.907 [ms]

449 [lines] 400 [lines]

49 [lines] 12 [lines]

2 [lines]

35 [lines]

14.268 [ms]

12.711 [ms]

1.557 [ms]

0.381 [ms]

0.064 [ms]

1.112 [ms]

525 [lines] 480 [lines]

45 [lines] 10 [lines]

2 [lines]

33 [lines]

16.683 [ms]

15.253 [ms]

1.430 [ms]

0.318 [ms]

0.064 [ms]

1.049 [ms]

449 [lines] 400 [lines]

49 [lines] 13 [lines]

2 [lines]

34 [lines]

14.268 [ms]

12.711 [ms]

1.557 [ms]

0.413 [ms]

0.064 [ms]

1.080 [ms]

628 [lines] 600 [lines]

28 [lines]

1 [lines] 4 [lines]

23 [lines]

16.579 [ms]

15.840 [ms]

0.739 [ms]

0.026 [ms]

0.106 [ms]

0.607 [ms] Scan Type H.Sync Polarity V.Sync Polarity

Non-interlaced

Positive

Negative

Non-interlaced

Negative

Positive

Non-interlaced

Negative Negative

Non-interlaced

Negative Negative

Non-interlaced

Positive Positive

Separate

Separate Separate Separate Separate

TIMING NAME 6 MAC640*480 7 VESA640*350@85Hz 8 VESA640*400@85Hz 9 VESA640*480@75Hz 10 XGA

Pixel Clock H.Frequency V.Frequency

30.240[MHz]

35.000[kHz]

66.667[Hz]

31.500[MHz]

37.861[kHz]

85.080[Hz]

31.500[MHz]

37.861[kHz]

85.080[Hz]

31.500[MHz]

37.500[kHz]

75.000[Hz]

44.900[MHz]

35.522[kHz]

87.064[Hz] H.Tortal Time H.Addr Time H.Blank Time H.Front Porch H.Sync Time H.Back Porch

864 [dots] 640 [dots] 224 [dots]

64 [dots] 64 [dots] 96 [dots]

28.571 [us]

21.164 [us]

7.407 [us]

2.116 [us]

3.175 [us]

832 [dots] 640 [dots] 192 [dots]

32 [dots] 64 [dots] 96 [dots]

26.413 [us]

20.317 [us]

6.095 [us]

1.016 [us]

2.032 [us]

3.048 [us]

832 [dots] 640 [dots] 192 [dots]

32 [dots] 64 [dots] 96 [dots]

26.413 [us]

20.317 [us]

6.095 [us]

1.016 [us]

2.032 [us]

3.048 [us]

840 [dots] 640 [dots] 200 [dots]

16 [dots] 64 [dots]

120 [dots]

26.667 [us]

20.317 [us]

6.349 [us]

0.508 [us]

2.032 [us]

3.810 [us]

1264 [dots] 1024 [dots]

240 [dots]

8 [dots]

176 [dots]

56 [dots]

29.577 [us]

22.806 [us]

6.771 [us]

0.535 [us]

3.029 [us]

3.207 [us] V.Tortal Time V.Addr Time V.Blank Time V.Front Porch V.Sync Time V.Back Porch

525 [lines] 480 [lines]

45 [lines]

3 [lines] 3 [lines]

39 [lines]

15.000 [ms]

13.714 [ms]

1.286 [ms]

0.086 [ms]

1.114 [ms]

445 [lines] 350 [lines]

95 [lines] 32 [lines]

3 [lines]

60 [lines]

11.754 [ms]

9.244 [ms]

2.509 [ms]

0.845 [ms]

0.079 [ms]

1.585 [ms]

445 [lines] 400 [lines]

45 [lines]

1 [lines] 3 [lines]

41 [lines]

11.754 [ms]

10.565 [ms]

1.189 [ms]

0.026 [ms]

0.079 [ms]

1.083 [ms]

500 [lines] 480 [lines]

20 [lines]

1 [lines] 3 [lines]

16 [lines]

13.333 [ms]

12.800 [ms]

0.533 [ms]

0.027 [ms]

0.080 [ms]

0.427 [ms]

408 [lines] 384 [lines]

24 [lines]

0 [lines] 4 [lines]

20 [lines]

23.839 [ms]

22.715 [ms]

1.124 [ms]

0.089 [ms]

0.177 [ms]

0.858 [ms] Scan Type H.Sync Polarity V.Sync Polarity

Non-interlaced

Negative Negative

Non-interlaced

Positive

Negative

Non-interlaced

Negative

Positive

Non-interlaced

Negative Negative

Interlaced

Positive Positive

Composite + Sync On G Separate Separate Separate Separate

Adjustment Signal (1)

5-52

TIMING NAME 11 VESA800*600@75Hz 12 VESA640*480@85Hz 13 MAC832*624 14 VESA800*600@85Hz 15 VESA1024*768@70Hz Pixel Clock

H.Frequency V.Frequency

49.500[MHz]

46.875[kHz]

75.000[Hz]

36.000[MHz]

43.296[kHz]

85.008[Hz]

57.283[MHz]

49.725[kHz]

74.550[Hz]

56.250[MHz]

53.674[kHz]

85.061[Hz]

75.000[MHz]

56.476[kHz]

70.069[Hz] H.Tortal Time H.Addr Time H.Blank Time H.Front Porch H.Sync Time H.Back Porch

1056 [dots]

800 [dots] 256 [dots]

16 [dots] 80 [dots]

160 [dots]

21.333 [us]

16.162 [us]

5.172 [us]

0.323 [us]

1.616 [us]

3.232 [us]

832 [dots] 640 [dots] 192 [dots]

56 [dots] 56 [dots] 80 [dots]

23.111 [us]

17.778 [us]

5.333 [us]

1.556 [us]

2.222 [us]

1152 [dots]

832 [dots] 320 [dots]

32 [dots] 64 [dots]

224 [dots]

20.111 [us]

14.524 [us]

5.586 [us]

0.559 [us]

1.117 [us]

3.910 [us]

1048 [dots]

800 [dots] 248 [dots]

32 [dots] 64 [dots]

152 [dots]

18.631 [us]

14.222 [us]

4.409 [us]

0.569 [us]

1.138 [us]

2.702 [us]

1328 [dots] 1024 [dots]

304 [dots]

24 [dots] 136 [dots] 144 [dots]

17.707 [us]

13.653 [us]

4.053 [us]

0.320 [us]

1.813 [us]

1.920 [us] V.Tortal Time V.Addr Time V.Blank Time V.Front Porch V.Sync Time V.Back Porch

625 [lines] 600 [lines]

25 [lines]

1 [lines] 3 [lines]

21 [lines]

13.333 [ms]

12.800 [ms]

0.533 [ms]

0.021 [ms]

0.064 [ms]

0.448 [ms]

509 [lines] 480 [lines]

29 [lines]

1 [lines] 3 [lines]

25 [lines]

11.764 [ms]

11.093 [ms]

0.670 [ms]

0.023 [ms]

0.069 [ms]

0.578 [ms]

667 [lines] 624 [lines]

43 [lines]

1 [lines] 3 [lines]

39 [lines]

13.414 [ms]

12.549 [ms]

0.865 [ms]

0.020 [ms]

0.060 [ms]

0.784 [ms]

631 [lines] 600 [lines]

31 [lines]

1 [lines] 3 [lines]

27 [lines]

11.756 [ms]

11.179 [ms]

0.578 [ms]

0.019 [ms]

0.056 [ms]

0.503 [ms]

806 [lines] 768 [lines]

38 [lines]

3 [lines] 6 [lines]

29 [lines]

14.272 [ms]

13.599 [ms]

0.673 [ms]

0.053 [ms]

0.106 [ms]

0.513 [ms] Scan Type H.Sync Polarily V.Sync Polarily

Non-interlaced

Positive Positive

Non-interlaced

Negative Negative

Non-interlaced

Negative Negative

Non-interlaced

Positive Positive

Non-interlaced

Negative Negative

Separate

Separate Composite + Sync On G Separate Separate TIMING NAME 16 VESA1280*1024@60Hz 17 VESA1024*768@75Hz 18 MAC1152*870 19 VESA1024*768@85Hz 20 1280*1024@70Hz Pixel Clock

H.Frequency V.Frequency

108.00[MHz]

63.981[kHz]

60.020[Hz]

78.750[MHz]

60.023[kHz]

75.029[Hz]

100.00[MHz]

68.681[kHz]

75.062[Hz]

94.500[MHz]

68.677[kHz]

84.997[Hz]

127.000[MHz]

74.970[kHz]

69.870[Hz] H.Tortal Time H.Addr Time H.Blank Time H.Front Porch H.Sync Time H.Back Porch

1688 [dots] 1280 [dots]

408 [dots]

48 [dots] 112 [dots] 248 [dots]

15.630 [us]

11.582 [us]

3.778 [us]

0.444 [us]

1.037 [us]

2.296 [us]

1312 [dots] 1024 [dots]

288 [dots]

16 [dots] 96 [dots]

176 [dots]

16.660 [us]

13.003 [us]

3.657 [us]

0.203 [us]

1.219 [us]

2.235 [us]

1456 [dots]

1152 [dots]

304 [dots]

32 [dots] 128 [dots] 144 [dots]

14.560 [us]

11.520 [us]

3.040 [us]

0.320 [us]

1.280 [us]

1.440 [us]

1376 [dots] 1024 [dots]

352 [dots]

48 [dots] 96 [dots]

208 [dots]

14.561 [us]

10.836 [us]

3.725 [us]

0.508 [us]

1.016 [us]

2.201 [us]

1694 [dots] 1280 [dots]

414 [dots]

30 [dots] 160 [dots] 224 [dots]

29.577 [us]

22.806 [us]

6.771 [us]

0.535 [us]

3.029 [us]

3.207 [us] V.Tortal Time V.Addr Time V.Blank Time V.Front Porch V.Sync Time V.Back Porch

1066 [lines] 1024 [lines]

42 [lines]

1 [lines] 3 [lines]

38 [lines]

16.661 [ms]

16.005 [ms]

0.656 [ms]

0.016 [ms]

0.047 [ms]

0.594 [ms]

800 [lines] 768 [lines]

32 [lines]

1 [lines] 3 [lines]

28 [lines]

13.328 [ms]

12.795 [ms]

0.533 [ms]

0.017 [ms]

0.050 [ms]

0.466 [ms]

915 [lines] 870 [lines]

45 [lines]

3 [lines] 3 [lines]

39 [lines]

13.322 [ms]

12.667 [ms]

0.655 [ms]

0.044 [ms]

0.568 [ms]

808 [lines] 768 [lines]

40 [lines]

1 [lines] 3 [lines]

36 [lines]

11.765 [ms]

11.183 [ms]

0.582 [ms]

0.015 [ms]

0.044 [ms]

0.524 [ms]

1073 [lines] 1024 [lines]

48 [lines]

3 [lines] 4 [lines]

42 [lines]

14.312 [ms]

13.659 [ms]

0.654 [ms]

0.040 [ms]

0.053 [ms]

0.560 [ms] Scan Type H.Sync Polarily V.Sync Polarily

Non-interlaced

Positive Positive

Non-interlaced

Positive Positive

Non-interlaced

Negative Negative

Non-interlaced

Positive Positive

Non-interlaced

Negative Negative

Separate Separate Composite + Sync On G Separate Sync On G

Adjustment Signal (2)

5-53

TIMING NAME 21 VESA1280*1024@75Hz 22 VESA1600*1200@75Hz 23 VESA1600*1200@85Hz 24 VESA1920*1440@75Hz 25 H.HOLD1 Pixel Clock

H.Frequency V.Frequency

135.000[MHz]

79.976[kHz]

75.025[Hz]

202.500[MHz]

93.750[kHz]

75.000[Hz]

229.500[MHz]

106.250[kHz]

85.000[Hz]

297.000[MHz]

112.500[kHz]

75.000[Hz]

27.900[MHz]

31.000[kHz]

54.963[Hz] H.Tortal Time H.Addr Time H.Blank Time H.Front Porch H.Sync Time H.Back Porch

1688 [dots] 1280 [dots]

408 [dots]

16 [dots] 144 [dots] 248 [dots]

12.504 [us]

9.481 [us]

3.022 [us]

0.119 [us]

1.067 [us]

1.837 [us]

2160 [dots] 1600 [dots]

560 [dots]

64 [dots] 192 [dots] 304 [dots]

10.667 [us]

7.901 [us]

2.765 [us]

0.316 [us]

0.948 [us]

1.501 [us]

2160 [dots] 1600 [dots]

560 [dots]

64 [dots] 192 [dots] 304 [dots]

9.412 [us]

6.972 [us]

2.440 [us]

0.279 [us]

0.837 [us]

1.325 [us]

2640 [dots] 1920 [dots]

720 [dots] 144 [dots] 224 [dots] 352 [dots]

8.889 [us]

6.465 [us]

2.424 [us]

0.485 [us]

0.754 [us]

1.185 [us]

900 [dots] 720 [dots] 180 [dots]

18 [dots]

108 [dots]

54 [dots]

32.260 [us]

25.810 [us]

6.450 [us]

0.640 [us]

3.870 [us]

1.940 [us] V.Tortal Time V.Addr Time V.Blank Time V.Front Porch V.Sync Time V.Back Porch

1066 [lines] 1024 [lines]

42 [lines]

1 [lines] 3 [lines]

38 [lines]

13.329 [ms]

12.804 [ms]

0.525 [ms]

0.013 [ms]

0.038 [ms]

0.475 [ms]

1250 [lines] 1200 [lines]

50 [lines]

1 [lines] 3 [lines]

46 [lines]

13.333 [ms]

12.800 [ms]

0.533 [ms]

0.011 [ms]

0.032 [ms]

0.491 [ms]

1250 [lines] 1200 [lines]

50 [lines]

1 [lines] 3 [lines]

46 [lines]

11.765 [ms]

11.294 [ms]

0.471 [ms]

0.009 [ms]

0.028 [ms]

0.433 [ms]

1500 [lines] 1440 [lines]

60 [lines]

1 [lines] 3 [lines]

56 [lines]

13.333 [ms]

12.800 [ms]

0.533 [ms]

0.009 [ms]

0.027 [ms]

0.498 [ms]

564 [lines] 428 [lines] 136 [lines]

52 [lines]

2 [lines]

82 [lines]

18.194 [ms]

13.807 [ms]

4.387 [ms]

1.677 [ms]

0.065 [ms]

2.645 [ms] Scan Type H.Sync Polarity V.Sync Polarity

Non-interlaced

Positive Positive

Non-interlaced

Positive Positive

Non-interlaced

Positive Positive

Non-interlaced

Negative

Positive

Non-interlaced

Positive Positive

Separate

Separate Separate Separate Composit TIMING NAME 26 H.HOLD2(110K) 27 H.HOLD2(115K) 28 V.MAX 29 V.RASTER 30 EDID Pixel Clock

H.Frequency V.Frequency

237.600[MHz]

110.000[kHz]

160.000[Hz]

142.140[MHz]

115.000[kHz]

160.000[Hz]

84.500[MHz]

65.000[kHz]

80.65[Hz]

78.750[MHz]

60.023[kHz]

75.029[Hz]

28.322[MHz]

31.463[kHz]

42.01[Hz] H.Tortal Time H.Addr Time H.Blank Time H.Front Porch H.Sync Time H.Back Porch

2160 [dots] 1600 [dots]

560 [dots]

64 [dots] 192 [dots] 309 [dots]

9.091 [us]

6.734 [us]

2.357 [us]

0.269 [us]

0.808 [us]

1.280 [us]

1236 [dots]

900 [dots] 336 [dots]

68 [dots] 100 [dots] 168 [dots]

8.695 [us]

6.332 [us]

2.364 [us]

0.478 [us]

0.704 [us]

1.182 [us]

1300 [dots] 1024 [dots]

276 [dots]

24 [dots] 92 [dots]

160 [dots]

15.38 [us]

12.12 [us]

3.26 [us]

0.28 [us]

1.09 [us]

1.89 [us]

1328 [dots] 1024 [dots]

288 [dots]

16 [dots] 96 [dots]

176 [dots]

16.66 [us]

13.003 [us]

33.657 [us]

0.203 [us]

1.219 [us]

2.235 [us]

900 [dots] 720 [dots] 180 [dots]

18 [dots]

108 [dots]

54 [dots]

31.777 [us]

25.422 [us]

6.36 [us]

0.636 [us]

3.813 [us]

1.907 [us] V.Tortal Time V.Addr Time V.Blank Time V.Front Porch V.Sync Time V.Back Porch

687 [lines] 660 [lines]

27 [lines]

1 [lines] 4 [lines]

22 [lines]

6.250 [ms]

6.000 [ms]

0.250 [ms]

0.013 [ms]

0.038 [ms]

0.200 [ms]

718 [lines] 690 [lines]

28 [lines]

1 [lines] 4 [lines]

23 [lines]

6.250 [ms]

6.000 [ms]

0.250 [ms]

0.013 [ms]

0.038 [ms]

0.200 [ms]

806 [lines] 596 [lines] 210 [lines]

89 [lines]

6 [lines]

115 [lines]

12.4 [ms]

9.169 [ms]

3.231 [ms]

1.343 [ms]

0.092 [ms]

1.796 [ms]

800 [lines] 788 [lines]

13 [lines]

0 [lines] 3 [lines] 9 [lines]

13.328 [ms]

13.128 [ms]

0.217 [ms] 0 [ms]

0.05 [ms]

0.150 [ms]

749 [lines] 685 [lines]

64 [lines] 14 [lines]

3 [lines]

47 [lines]

23.8 [ms]

21.767 [ms]

2.034 [ms]

0.445 [ms]

0.095 [ms]

1.494 [ms] Scan Type H.Sync Polarity V.Sync Polarity

Non-interlaced

Positive Positive

Non-interlaced

Positive Positive

Non-interlaced

Negative Negative

Non-interlaced

Positive Positive

Non-interlaced

Negative Negative

Separate Separate Separate Separate Separate

Adjustment Signal (3)

5-54

TIMING NAME 31 VESA1600*1200@60Hz 32 VESA1280*1024@85Hz 33 788*1200@75 34 812*1024@85 35 H.SIZE Pixel Clock

H.Frequency V.Frequency

162.000 [MHz]

75.000 [kHz]

60.000 [Hz]

157.500[MHz]

91.146[kHz]

85.024[Hz]

99.900[MHz]

93.720[kHz]

74.980[Hz]

99.900[MHz]

91.160[kHz]

85.040[Hz]

229.500[MHz]

106.250[kHz]

85.000[Hz] H.Tortal Time H.Addr Time H.Blank Time H.Front Porch H.Sync Time H.Back Porch

2160 [dots] 1600 [dots]

560 [dots]

64 [dots] 192 [dots] 304 [dots]

13.333 [us]

9.877 [us]

3.457 [us]

0.395 [us]

1.185 [us]

1.877 [us]

1728 [dots] 1280 [dots]

448 [dots]

64 [dots] 160 [dots] 224 [dots]

10.971 [us]

8.127 [us]

2.844 [us]

0.406 [us]

1.016 [us]

1.422 [us]

1066 [dots]

788 [dots] 278 [dots]

34 [dots] 94 [dots]

150 [dots]

10.670 [us]

7.890 [us]

2.780 [us]

0.340 [us]

0.940 [us]

1.500 [us]

1096 [dots]

812 [dots] 284 [dots]

40 [dots] 102 [dots] 142 [dots]

10.970 [us]

8.120 [us]

2.850 [us]

0.410 [us]

1.020 [us]

1.420 [us]

2160 [dots] 1520 [dots]

640 [dots] 104 [dots] 192 [dots] 344 [dots]

9.412 [us]

6.623 [us]

2.789 [us]

0.454 [us]

0.837 [us]

1.500 [us] V.Tortal Time V.Addr Time V.Blank Time V.Front Porch V.Sync Time V.Back Porch

1250 [lines] 1200 [lines]

50 [lines]

1 [lines] 3 [lines]

46 [lines]

16.667 [ms]

16.000 [ms]

0.667 [ms]

0.013 [ms]

0.040 [ms]

0.613 [ms]

1072 [lines] 1024 [lines]

48 [lines]

1 [lines] 3 [lines]

44 [lines]

11.761 [ms]

11.235 [ms]

0.527 [ms]

0.011 [ms]

0.033 [ms]

0.483 [ms]

1250 [lines] 1200 [lines]

50 [lines]

1 [lines] 3 [lines]

46 [lines]

11.337 [ms]

12.804 [ms]

0.533 [ms]

0.010 [ms]

0.032 [ms]

0.491 [ms]

1072 [lines] 1024 [lines]

48 [lines]

1 [lines] 3 [lines]

44 [lines]

11.760 [ms]

11.233 [ms]

0.527 [ms]

0.011 [ms]

0.033 [ms]

0.483 [ms]

1250 [lines] 1200 [lines]

50 [lines]

1 [lines] 3 [lines]

46 [lines]

11.765 [ms]

11.294 [ms]

0.471 [ms]

0.009 [ms]

0.028 [ms]

0.433 [ms] Scan Type H.Sync Polarily V.Sync Polarily

Non-interlaced

Positive Positive

Non-interlaced

Positive Positive

Non-interlaced

Positive Positive

Non-interlaced

Positive Positive

Non-interlaced

Positive Positive

Separate

Separate Separate Separate Separate TIMING NAME Pixel Clock

H.Frequency V.Frequency

[MHz]

[kHz

[Hz]

[MHz]

[kHz]

[Hz]

[MHz]

[kHz]

[Hz]

[MHz]

[kHz]

[Hz]

[MHz]

[kHz]

[Hz] H.Tortal Time H.Addr Time H.Blank Time H.Front Porch H.Sync Time H.Back Porch

[dots] [dots] [dots] [dots] [dots] [dots]

[us] [us] [us] [us] [us] [us]

[dots] [dots] [dots] [dots] [dots] [dots]

[us] [us] [us] [us] [us] [us]

[dots] [dots] [dots] [dots] [dots] [dots]

[us] [us] [us] [us] [us] [us]

[dots] [dots] [dots] [dots] [dots] [dots]

[us] [us] [us] [us] [us] [us]

[dots] [dots] [dots] [dots] [dots] [dots]

[us] [us] [us] [us] [us]

[us] V.Tortal Time V.Addr Time V.Blank Time V.Front Porch V.Sync Time V.Back Porch

[lines] [lines] [lines] [lines] [lines] [lines]

[ms] [ms] [ms] [ms] [ms] [ms]

[lines] [lines] [lines] [lines] [lines] [lines]

[ms] [ms] [ms] [ms] [ms] [ms]

[lines] [lines] [lines] [lines] [lines] [lines]

[ms] [ms] [ms] [ms] [ms] [ms]

[lines] [lines] [lines] [lines] [lines] [lines]

[ms] [ms] [ms] [ms] [ms] [ms]

[lines] [lines] [lines] [lines] [lines] [lines]

[ms] [ms] [ms] [ms] [ms]

[ms] Scan Type H.Sync Polarily V.Sync Polarily

Adjustment Signal (4)

5-55

TIMING NAME

USER1

PC98 1120*750(I)

USER2

VESA800*600@56Hz

USER3

VESA1024*768@60Hz

USER4

VESA800*600@72Hz

USER5

1120*750@60Hz

Pixel Clock H.Frequency V.Frequency

47.846[MHz]

32.861[kHz]

78.993[Hz]

36.000[MHz]

35.156[kHz]

56.250[Hz]

65.000[MHz]

48.363[kHz]

60.004[Hz]

50.000[MHz]

48.077[kHz]

72.188[Hz]

78.431[MHz]

50.020[kHz]

60.048[Hz] H.Tortal Time H.Addr Time H.Blank Time H.Front Porch H.Sync Time H.Back Porch

1456 [dots] 1120 [dots]

336 [dots] 112 [dots]

84 [dots]

140 [dots]

30.431 [us]

23.408 [us]

7.023 [us]

2.341 [us]

1.756 [us]

2.926 [us]

1024 [dots]

800 [dots] 224 [dots]

24 [dots] 72 [dots]

128 [dots]

28.444 [us]

22.222 [us]

6.222 [us]

0.667 [us]

2.000 [us]

3.556 [us]

1344 [dots] 1024 [dots]

320 [dots]

24 [dots] 136 [dots] 160 [dots]

20.677 [us]

15.754 [us]

4.923 [us]

0.369 [us]

2.092 [us]

2.462 [us]

1040 [dots]

800 [dots] 240 [dots]

56 [dots]

120 [dots]

64 [dots]

20.800 [us]

16.000 [us]

4.800 [us]

1.120 [us]

2.400 [us]

1.280 [us]

1568 [dots] 1120 [dots]

448 [dots] 168 [dots] 112 [dots] 168 [dots]

19.992 [us]

14.280 [us]

5.712 [us]

2.142 [us]

1.428 [us]

2.142 [us] V.Tortal Time V.Addr Time V.Blank Time V.Front Porch V.Sync Time V.Back Porch

416 [lines]

375.5 [lines]

40.5 [lines] 9 [lines] 5 [lines]

26.5 [lines]

12.659 [ms]

11.427 [ms]

1.232 [ms]

0.274 [ms]

0.152 [ms]

0.806 [ms]

625 [lines] 600 [lines]

25 [lines]

1 [lines] 2 [lines]

22 [lines]

17.778 [ms]

17.067 [ms]

0.711 [ms]

0.028 [ms]

0.057 [ms]

0.626 [ms]

806 [lines] 768 [lines]

38 [lines]

3 [lines] 6 [lines]

29 [lines]

16.666 [ms]

15.88 [ms]

0.786 [ms]

0.062 [ms]

0.124 [ms]

0.600 [ms]

666 [lines] 600 [lines]

66 [lines] 37 [lines]

6 [lines]

23 [lines]

13.853 [ms]

12.480 [ms]

1.373 [ms]

0.770 [ms]

0.125 [ms]

0.478 [ms]

833 [lines] 750 [lines]

83 [lines] 27 [lines] 10 [lines] 46 [lines]

16.653 [ms]

14.994 [ms]

1.659 [ms]

0.540 [ms]

0.200 [ms]

0.920 [ms] Scan Type H.Sync Polarily V.Sync Polarily

interlaced

Positive Positive

Non-interlaced

Positive Positive

Non-interlaced

Negative Negative

Non-interlaced

Positive Positive

Non-interlaced

Negative Negative

Separate

Separate Separate Separate Separate

TIMING NAME

USER6

640*480@100Hz

USER7

XGA-2 1024*768@72Hz

USER8

1024*768@80Hz

USER9

800*600@100Hz

USER10

640*480@120Hz

Pixel Clock H.Frequency V.Frequency

42.000[MHz]

50.000[kHz]

100.000[Hz]

79.000[MHz]

58.088[kHz]

71.980[Hz]

88.504[MHz]

64.320[kHz]

80.000[Hz]

68.179[MHz]

63.600[kHz]

100.000[Hz]

50.400[MHz]

59.990[kHz]

119.980[Hz] H.Tortal Time H.Addr Time H.Blank Time H.Front Porch H.Sync Time H.Back Porch

840 [dots] 640 [dots] 200 [dots]

16 [dots] 64 [dots]

120 [dots]

20.000 [us]

15.240 [us]

4.760 [us]

0.380 [us]

1.520 [us]

2.860 [us]

1360 [dots] 1024 [dots]

336 [dots]

8 [dots]

288 [dots]

40 [dots]

17.215 [us]

12.962 [us]

4.253 [us]

0.101 [us]

3.646 [us]

0.506 [us]

1376 [dots] 1024 [dots]

352 [dots]

64 [dots]

112 [dots]

176 [dots]

15.547 [us]

11.570 [us]

3.977 [us]

0.723 [us]

1.265 [us]

1.989 [us]

1072 [dots]

800 [dots] 272 [dots]

48 [dots] 88 [dots]

136 [dots]

15.723 [us]

11.734 [us]

3.989 [us]

0.704 [us]

1.291 [us]

1.995 [us]

840 [dots] 640 [dots] 200 [dots]

16 [dots] 64 [dots]

120 [dots]

16.669 [us]

12.701 [us]

3.969 [us]

0.318 [us]

1.270 [us]

2.381 [us] V.Tortal Time V.Addr Time V.Blank Time V.Front Porch V.Sync Time V.Back Porch

500 [lines] 480 [lines]

20 [lines]

1 [lines] 3 [lines]

16 [lines]

10.000 [ms]

9.600 [ms]

0.400 [ms]

0.020 [ms]

0.060 [ms]

0.320 [ms]

807 [lines] 768 [lines]

39 [lines]

0 [lines] 8 [lines]

31 [lines]

13.893 [ms]

13.221 [ms]

0.671 [ms]

0.000 [ms]

0.138 [ms]

0.534 [ms]

804 [lines] 768 [lines]

36 [lines]

1 [lines] 3 [lines]

32 [lines]

12.500 [ms]

11.940 [ms]

0.560 [ms]

0.016 [ms]

0.047 [ms]

0.498 [ms]

636 [lines] 600 [lines]

36 [lines]

1 [lines] 3 [lines]

32 [lines]

10.000 [ms]

9.434 [ms]

0.566 [ms]

0.016 [ms]

0.047 [ms]

0.503 [ms]

500 [lines] 480 [lines]

20 [lines]

1 [lines] 3 [lines]

16 [lines]

8.335 [ms]

8.001 [ms]

0.334 [ms]

0.017 [ms]

0.050 [ms]

0.267 [ms] Scan Type H.Sync Polarily V.Sync Polarily

Non-interlaced

Negative Negative

Non-interlaced

Negative Negative

Non-interlaced

Positive Positive

Non-interlaced

Positive Positive

Non-interlaced

Negative Negative

Separate Separate Separate Separate Separate

Adjustment Signal (5)

5-56

TIMING NAME

USER11

640*480@140Hz

USER12

VESA1600*1200@60Hz

USER13

VESA1152*864@85Hz

USER14

1024*768@100Hz

USER15

800*600@120Hz

Pixel Clock H.Frequency V.Frequency

58.800[MHz]

70.000[kHz]

140.000[Hz]

162.000[MHz]

75.000[kHz]

60.000[Hz]

121.500[MHz]

77.094[kHz]

84.999[Hz]

108.390[MHz]

80.647[kHz]

100.059[Hz]

83.250[MHz]

78.835[kHz]

121.659[Hz] H.Tortal Time H.Addr Time H.Blank Time H.Front Porch H.Sync Time H.Back Porch

840 [dots] 640 [dots] 200 [dots]

16 [dots] 64 [dots]

120 [dots]

14.286 [us]

10.884 [us]

3.401 [us]

0.272 [us]

1.088 [us]

2.041 [us]

2160 [dots] 1600 [dots]

560 [dots]

64 [dots] 192 [dots] 304 [dots]

13.333 [us]

9.877 [us]

3.457 [us]

0.395 [us]

1.185 [us]

1.877 [us]

1576 [dots] 1152 [dots]

424 [dots]

64 [dots] 128 [dots] 232 [dots]

12.971 [us]

9.481 [us]

3.490 [us]

0.527 [us]

1.053 [us]

1.909 [us]

1344 [dots] 1024 [dots]

320 [dots]

24 [dots] 136 [dots] 160 [dots]

12.400 [us]

9.447 [us]

2.952 [us]

0.221 [us]

1.255 [us]

1.476 [us]

1056 [dots]

800 [dots] 256 [dots]

32 [dots] 80 [dots]

144 [dots]

12.685 [us]

9.610 [us]

3.075 [us]

0.384 [us]

0.961 [us]

1.730 [us] V.Tortal Time V.Addr Time V.Blank Time V.Front Porch V.Sync Time V.Back Porch

500 [lines] 480 [lines]

20 [lines]

1 [lines] 3 [lines]

16 [lines]

7.143 [ms]

6.857 [ms]

0.286 [ms]

0.014 [ms]

0.043 [ms]

0.229 [ms]

1250 [lines] 1200 [lines]

50 [lines]

1 [lines] 3 [lines]

46 [lines]

16.667 [ms]

16.000 [ms]

0.667 [ms]

0.013 [ms]

0.040 [ms]

0.613 [ms]

907 [lines] 864 [lines]

43 [lines]

1 [lines] 3 [lines]

39 [lines]

11.765 [ms]

11.207 [ms]

0.558 [ms]

0.013 [ms]

0.039 [ms]

0.506 [ms]

806 [lines] 768 [lines]

38 [lines]

3 [lines] 6 [lines]

29 [lines]

9.994 [ms]

9.523 [ms]

0.471 [ms]

0.037 [ms]

0.074 [ms]

0.360 [ms]

648 [lines] 600 [lines]

48 [lines]

2 [lines] 4 [lines]

42 [lines]

8.220 [ms]

7.611 [ms]

0.609 [ms]

0.025 [ms]

0.051 [ms]

0.533 [ms] Scan Type H.Sync Polarily V.Sync Polarily

Non-interlaced

Negative Negative

Non-interlaced

Positive Positive

Non-interlaced

Positive Positive

Non-interlaced

Positive Positive

Non-interlaced

Positive Positive

Separate

Separate Separate Separate Separate

TIMING NAME

USER16

640*480@160Hz

USER17

VESA1920*1440@60Hz

USER18

VESA1600*1200@70Hz

USER19

VESA1280*1024@85Hz

USER20

800*600@140Hz

Pixel Clock H.Frequency V.Frequency

67.200[MHz]

80.000[kHz]

160.000[Hz]

234.000[MHz]

90.000[kHz]

60.000[Hz]

189.000[MHz]

87.500[kHz]

70.000[Hz]

157.500[MHz]

91.146[kHz]

85.024[Hz]

92.300[MHz]

87.488[kHz]

139.981[Hz] H.Tortal Time H.Addr Time H.Blank Time H.Front Porch H.Sync Time H.Back Porch

840 [dots] 640 [dots] 200 [dots]

16 [dots] 64 [dots]

120 [dots]

12.500 [us]

9.524 [us]

2.976 [us]

0.238 [us]

0.952 [us]

1.786 [us]

2600 [dots] 1920 [dots]

680 [dots] 128 [dots] 208 [dots] 344 [dots]

11.111 [us]

8.205 [us]

2.906 [us]

0.547 [us]

0.889 [us]

1.470 [us]

2160 [dots] 1600 [dots]

560 [dots]

64 [dots] 192 [dots] 304 [dots]

11.429 [us]

8.466 [us]

2.963 [us]

0.339 [us]

1.016 [us]

1.608 [us]

1728 [dots] 1280 [dots]

448 [dots]

64 [dots] 160 [dots] 224 [dots]

10.971 [us]

8.127 [us]

2.844 [us]

0.406 [us]

1.016 [us]

1.422 [us]

1055 [dots]

799 [dots] 256 [dots]

16 [dots] 80 [dots]

160 [dots]

11.430 [us]

8.657 [us]

2.774 [us]

0.173 [us]

0.867 [us]

1.733 [us] V.Tortal Time V.Addr Time V.Blank Time V.Front Porch V.Sync Time V.Back Porch

500 [lines] 480 [lines]

20 [lines]

1 [lines] 3 [lines]

16 [lines]

6.250 [ms]

6.000 [ms]

0.250 [ms]

0.013 [ms]

0.038 [ms]

0.200 [ms]

1500 [lines] 1440 [lines]

60 [lines]

1 [lines] 3 [lines]

56 [lines]

16.667 [ms]

16.000 [ms]

0.667 [ms]

0.011 [ms]

0.033 [ms]

0.622 [ms]

1250 [lines] 1200 [lines]

50 [lines]

1 [lines] 3 [lines]

46 [lines]

14.286 [ms]

13.714 [ms]

0.571 [ms]

0.011 [ms]

0.034 [ms]

0.526 [ms]

1072 [lines] 1024 [lines]

48 [lines]

1 [lines] 3 [lines]

44 [lines]

11.761 [ms]

11.235 [ms]

0.527 [ms]

0.011 [ms]

0.033 [ms]

0.483 [ms]

625 [lines] 600 [lines]

25 [lines]

1 [lines] 3 [lines]

21 [lines]

7.144 [ms]

6.858 [ms]

0.286 [ms]

0.011 [ms]

0.034 [ms]

0.240 [ms] Scan Type H.Sync Polarily V.Sync Polarily

Non-interlaced

Negative Negative

Non-interlaced

Negative

Positive

Non-interlaced

Positive Positive

Non-interlaced

Positive Positive

Non-interlaced

Positive Positive

Separate Separate Separate Separate Separate

Adjustment Signal (6)

5-57

TIMING NAME

USER21

VESA1792*1344@75Hz

USER22

VESA1600*1200@80Hz

USER23

1024*768@120Hz

USER24

800*600@160Hz

USER26

1920*1440@75Hz

Pixel Clock H.Frequency V.Frequency

261.000[MHz]

106.270[kHz]

74.997[Hz]

216.000[MHz]

100.000[kHz]

80.000[Hz]

139.054[MHz]

98.760[kHz]

120.000[Hz]

116.406[MHz]

105.440[kHz] 160[Hz]

297.000 [MHz]

112.500 [kHz]

75.000 [Hz] H.Tortal Time H.Addr Time H.Blank Time H.Front Porch H.Sync Time H.Back Porch

2456 [dots] 1792 [dots]

664 [dots]

96 [dots] 216 [dots] 352 [dots]

9.410 [us]

6.866 [us]

2.544 [us]

0.368 [us]

0.828 [us]

1.349 [us]

2160 [dots] 1600 [dots]

560 [dots]

64 [dots] 192 [dots] 304 [dots]

10.000 [us]

7.407 [us]

2.593 [us]

0.296 [us]

0.889 [us]

1.407 [us]

1408 [dots] 1024 [dots]

384 [dots]

80 [dots]

112 [dots]

192 [dots]

10.126 [us]

7.364 [us]

2.762 [us]

0.575 [us]

0.805 [us]

1.381 [us]

1104 [dots]

800 [dots] 304 [dots]

64 [dots] 88 [dots]

152 [dots]

9.484 [us]

6.873 [us]

2.612 [us]

0.550 [us]

0.765 [us]

1.306 [us]

2640 [dots] 1920 [dots]

720 [dots] 144 [dots] 224 [dots] 352 [dots]

8.889 [us]

6.465 [us]

2.424 [us]

0.485 [us]

0.754 [us]

1.185 [us] V.Tortal Time V.Addr Time V.Blank Time V.Front Porch V.Sync Time V.Back Porch

1417 [lines] 1344 [lines]

73 [lines]

1 [lines] 3 [lines]

69 [lines]

13.334 [ms]

12.647 [ms]

0.687 [ms]

0.009 [ms]

0.028 [ms]

0.649 [ms]

1250 [lines] 1200 [lines]

50 [lines]

1 [lines] 3 [lines]

46 [lines]

12.500 [ms]

12.000 [ms]

0.500 [ms]

0.010 [ms]

0.030 [ms]

0.460 [ms]

823 [lines] 768 [lines]

55 [lines]

1 [lines] 3 [lines]

51 [lines]

8.333 [ms]

7.776 [ms]

0.557 [ms]

0.010 [ms]

0.030 [ms]

0.516 [ms]

659 [lines] 600 [lines]

59 [lines]

1 [lines] 3 [lines]

55 [lines]

6.250 [ms]

5.690 [ms]

0.560 [ms]

0.009 [ms]

0.028 [ms]

0.522 [ms]

1500 [lines] 1440 [lines]

60 [lines]

1 [lines] 3 [lines]

56 [lines]

13.333 [ms]

12.800 [ms]

0.533 [ms]

0.009 [ms]

0.027 [ms]

0.498 [ms] Scan Type H.Sync Polarily V.Sync Polarily

Non-interlaced

Negative

Positive

Non-interlaced

Positive Positive

Non-interlaced

Positive Positive

Non-interlaced

Positive Positive

Non-interlaced

Negative

Positive

Separate

Separate Separate Separate Separate TIMING NAME Pixel Clock

H.Frequency V.Frequency

[MHz]

[kHz]

[Hz]

[MHz]

[kHz]

[Hz]

[MHz]

[kHz]

[Hz]

[MHz]

[kHz]

[Hz]

[MHz]

[kHz]

[Hz] H.Tortal Time H.Addr Time H.Blank Time H.Front Porch H.Sync Time H.Back Porch

[dots] [dots] [dots] [dots] [dots] [dots]

[us] [us] [us] [us] [us] [us]

[dots] [dots] [dots] [dots] [dots] [dots]

[us] [us] [us] [us] [us] [us]

[dots] [dots] [dots] [dots] [dots] [dots]

[us] [us] [us] [us] [us] [us]

[dots] [dots] [dots] [dots] [dots] [dots]

[us] [us] [us] [us] [us] [us]

[dots] [dots] [dots] [dots] [dots] [dots]

[us] [us] [us] [us] [us]

[us] V.Tortal Time V.Addr Time V.Blank Time V.Front Porch V.Sync Time V.Back Porch

[lines] [lines] [lines] [lines] [lines] [lines]

[ms] [ms] [ms] [ms] [ms] [ms]

[lines] [lines] [lines] [lines] [lines] [lines]

[ms] [ms] [ms] [ms] [ms] [ms]

[lines] [lines] [lines] [lines] [lines] [lines]

[ms] [ms] [ms] [ms] [ms] [ms]

[lines] [lines] [lines] [lines] [lines] [lines]

[ms] [ms] [ms] [ms] [ms] [ms]

[lines] [lines] [lines] [lines] [lines] [lines]

[ms] [ms] [ms] [ms] [ms]

[ms] Scan Type H.Sync Polarily V.Sync Polarily

Adjustment Signal (7)

5-58

NOTE) Use special signals when original signals c an not be made by equipped signal generator. Don't use these signal timing for Focus Adjustment. (The resolution is different.)

Program No. Original Special Original Special Original Special Original Special Original Special Original Special

16 16 18 18 21 21 22 22 23 23 24 24

Signal NameVESA1280*

1024@60

- MAC1152* 870

- VESA1280 *1024@75

ESA1600* 1200@75

- VESA1600 *1200@85

- VESA1920 *1440@75

Resolution 1280*1024 - 1152*870 - 1280*1024 - 1600*1200 - 1600*1200 - 1920*1440 Dot Clock (MHz) 108.000 81 100.000 75 135.000 67.5 202.500 50.625 229.500 57.375 297.000 74.250

fh (kHz) 63.981 63.981 68.681 68.681 79.976 79.976 93.750 93.750 106.250 106.250 112.500 112.500

fv (Hz) 60.020 60.020 75.062 75.062 75.025 75.025 75.000 75.000 85.000 85.000 75.000 75.000

Cell Size (Dot)888888888888

Total (Dot) 1688 1266 1456 1092 1688 844 2160 540 2160 540 2640 660

(CHR) 211 158 182 137 211 106 270 68 270 68 330 83

(uS) 15.630 15.63 14.560 14.560 12.504 12.504 10.667 10..667 9.412 9.412 8.889 8.889

Disp (Dot) 1280 960 1152 864 1280 640 1600 400 1600 400 1920 480

(CHR) 160 120 144 108 160 80 200 50 200 50 240 60

(uS) 11.852 11.852 11.520 11.520 9.481 9.481 7.901 7.901 6.972 6.972 6.465 6.465

Front (Dot) 48 36 32 24 16 8 64 16 64 16 144 36

(uS) 0.444 0.444 0.320 0.320 0.119 0.119 0.316 0.316 0.279 0.279 0.485 0485

Sync Pulse(Dot) 112 84 128 96 144 72 192 48 192 48 224 56

(uS) 1.037 1.037 1.280 1.280 1.067 1.067 0.948 0.948 0.837 0.837 0.754 0.754

Back (Dot) 248 186 144 108 248 124 304 76 304 76 352 88

Horizontal

(uS) 2.296 2.296 1.440 1.440 1.837 1.837 1.501 1.501 1.325 1.325 1.185 1.185

Program No. Original Special Original Special Original Special Original Special Original Special Original Special

26 26 27 27 32 32 33 33 34 34 35 35

Signal Name H.HOLD2

(110K)

-H.HOLD2 (115K)

- VESA1280 *1024@85

- 788*1200 @75

- 812*1024 @85

-H.SIZE -

Resolution 1280*1024 - 788*1200 812*1024 Dot Clock (MHz) 237.600 59.400 142.140 71.070 157.500 78.750 99.900 74.925 99.900 74.925 229.500 57.375

fh (kHz) 110.000 110.000 115.000 115.000 91.146 91.146 93.720 93.720 91.160 91.160 106.250 106.250

fv (Hz) 160.000 160.000 160.000 160.000 85.024 85.024 74.980 74.980 85.040 85.040 85.000 85.000

Cell Size (Dot)888888888888

Total (Dot) 2160 540 1236 618 1728 864 1066 800 1096 822 2160 540

(CHR) 270 68 155 77 216 108 133 100 137 103 270 68

(uS) 9.091 9.091 8.695 8.695 10.971 10.971 10.670 10.670 10.970 10.970 9.412 9.412

Disp (Dot) 1600 400 900 450 1280 640 788 591 812 609 1520 380

(CHR) 200 50 113 56 160 80 99 74 102 76 190 48

(uS) 6.734 6.734 6.332 6.332 8.127 8.127 7.890 7.890 8.120 8.120 6.623 6.623

Front (Dot)6416683464323426403010426

(uS) 0.269 0.269 0.478 0.478 0.406 0.406 0.340 0.340 0.410 0.410 0.454 0.454

Sync Pulse(Dot) 192 48 100 50 160 80 94 71 102 77 192 48

(uS) 0.808 0.808 0.704 0.704 1.016 1.016 0.940 0.940 1.020 1.020 0.837 0.837

Back (Dot) 309 77 168 84 224 112 150 113 142 107 344 86

Horizontal

(uS) 1.280 1.280 1.182 1.182 1.422 1.422 1.500 1.500 1.420 1.420 1.500 1.500

Adjustment / Inspection Signal (SPECIAL)

5-59

3. Position of Connector / Test point of Adjustment SW.REG/HV PWB

F.B.T.

VR5T1 HIGH VOLTAGE ADJUSTMENT (WITH SEALING CAP)

HEAT SINK

CN-K

CN-R

CN-P

CN-PM

CN-CR

CN-PS

TP-HV

CNTP

TP-DF

T981

C5R1

CN-DF

Fig 3-1 SW/HV PWB (PARTS SIDE)

Fig 3-2 CONT PWB (PARTS SIDE)

CN-LEA

CN-SW

SW601

Fig 3-3 SW PWB(PARTS SIDE)

LED111 LED112 LED113

CN-LEB CN-CLB CN-CLA

SW105 SW106 SW107 SW108

SW104

SW103

SW101 SW102

NEC MultiSync FP1350, FP1350-1, FP1350-1B Service Manual

Specifications and Main Features

Frequently Asked Questions

User Manual