Genius ISO XFR-75W, 2093, 1493, 2793, 3693, 1793, 1993, ISO XFR-100W manual Excessive

Page 80

Problem

Tests

Probable Solution

Excessive

1.

Turn down M. Gain.

If pin 1 still different

Measure voltage of K-Film pin 1

replace K-Film.

color.

for each color. If affected color

If pin 1 voltage same as others,

Turn down

has a .3V difference then others

Desolder pin 1. Make open to trace.

replace IC

241

.

G2 (bottom

pot of FBT)

2.

Measure voltage across cap.

.

If this voltage is less than 5V,

846

if excessive

check filament pulse. If OK

color is too

replace capacitor

.

857

bright.

3.

Turn up M. Gain.

Refer to the

Measure voltage,

Red

837

If the voltage is greater than .7V

schematic for

of affected color,

Green

842

or 0V , Replace the transistor.

the specific pin

base to emitter:

Blue

954

numbers of

each color.

4.

Ohm check,

Red, pin 8

If resistance is below 2K, replace

Tests should

CRT socket.

Green, pin 6

preformed in

pin of effected

the

CRT socket.

order to reduce

color to pin 12.

Blue, pin 11

chance of

5.

Measure voltage, of affected color,

If voltage is 3-8V replace the

replacing

wrong

K-Film pin 4.

2SC3467 & the PNP transistor pair.

component.

If voltage is less than 2V replace

PNP transistor connected to pin.

Problem

Tests

Probable Solution

No Picture.

1.

Note; Blanking should be > 5V.

The vertical booster pulse supplies

Measure blanking voltage on

part of vertical sync to the auto bias

Check that the

jumper

215

. If .6V to 1V check

IC

927

. With no sync to pin 8 of

vertical output for waveform.

, vertical blanking is not reset.

927

master gain pot

is turned up.

2.

Check light from filament.

If FBT waveform is the same on both

If no light check FBP before and

sides of the filament adjustment cap.

after capacitor

.

, ohm out the filament circuit.

854

854

3.

Measure voltage on Blue K-Film

If this voltage is over 10V, replace

pin 7. This voltage should be 9.3V.

transistor

.

942

4.

Measure G2 voltage on

If this voltage is under 100V, check

that the FBT bottom pot is turned

CRT socket

877

pin 7.

up. Replace CRT Socket if GND to

G2 is less than 100KΩ .

5.

Measure voltage on LM324

If this voltage is 9-11V, replace the

920

pin 8.

C-Film

and or LM324

.

917

920

Problem

Tests

Probable Solution

No

1.

Vertical osc. frequency adjustment;

Add or remove V solder connection. p30

Sync.

2.

Check H. free running freq. (Hfo)

If out ±500Hz of sync, adj. Hfo. p75

Tests should

3.

Check sync waveforms at input of

If input sync to the LA7851 is OK

preformed in

order to reduce

LA7851. Hs=pin 1, Vs=pin 19.

and picture roles replace IC

.

415

chance of

4.

Check voltage, LM339,

pin 14.

Also should check other voltages in this circuit.

replacing wrong

355

If outside range replace IC

.

component.

Normal range is 5V to 7V.

355

96

Image 80

Contents N U a L R V I C E Year Limited Warranty About this Manual Table of Contents Iii Monitor Simplified Block Diagram Installation Instructions For The XX93 Monitors Instructions d´installation des écrans Installationsanweisungen für die XX93 Monitore Ceronix XX93 Monitor Electrical Specification High input voltage 20V Low input voltage 30V 80V Ceronix 189 in2 1,224 cm2 Page Page Page Page Control Description Circuit XX93 Monitor Block Diagram CRT C D E F G H I J Ceronix Model 1493-VGA, 1493-SVGA CPT1536 Ceronix KLM RED FIL RAY Note Produktsicherheit Anmerkung Ceronix XX93 Monitor Part List MM7 LL6 II7 FF9 FF3 BB6 DD8 DD9 HH2 Jumper, Normal Vertical OO6 15KHz, FBT Hitachi BW02651 PP4 RR0 VV2 RR7 CRT T U Video Interface CIRCUIT, FUNCTION, Description + & Analog CRT TC12 Controls XRC5346A + H. Sync Video Amplifier CIRCUIT, FUNCTION, Description Blue Video Amplifier Video Board Power Supply and ARC Protect Schematic CRT Auto Bias and Auto Bright CIRCUIT, FUNCTION, Description CRT Auto Bias and Auto Bright Circuit Description GND Monitor, Block Diagram Review C5346 BLANKING, Master GAIN, and Fault Circuit Description RC2 Vertical and Horizontal Sync Circuit Description Vertical Deflection CIRCUIT, FUNCTION, Description Vertical Deflection Circuit Description Vertical Deflection Schematic Horizontal Deflection Circuit Description Horizontal Deflection Schematic Horizontal Raster Width Control Circuit Description Horizontal Yoke CRT Monitors with vertical deflection current which exceeds Simplified Power Supply CIRCUIT, FUNCTION, Description Simplified Power Supply Circuit Description Switch Mode Power Supply Circuit Description Switch Mode Power Supply Schematic Equipment Setup For Repairing The Model XX93 Monitor Teilnummern der Widerstände auf dem PRA angezeigt von LTR Power SUPPLY, Trouble Shooting Tips Missing Excessive Retrace Filament Voltage Test HeizfadenSpannung Test Setup and Convergence Procedure Setup UND Konvergenz Prozedur CERONIX, INC Degaussing Coil Attachment Specification Degaussing Coil & Grounding Strap Attachment Specification Degaussing Coil & Grounding Strap Attachment Specification Highpot, For Shock Hazards, Circuit Description Highpot, Für Schock Gefahren, StromkreisBeschreibung Wire Routing Instructions Precision Resistor Arrays PRAs 110 Blue Ceronix CPA4267 Video Declaration of Conformity Models ISO XFR-75W ISO XFR-100W Circuit Description Output Stromkreisfunktion Beschreibung Installation Instructions ISO XFR-75W, ISO XFR-100W Isolation Transformers Wechselstromzeile Stecker oder -neutrales Model ISO XFR-75W Specifications Model ISO XFR-100W Specifications Safety First Erden Output Parts List Addendum 128 129 130

2093, 1493, ISO XFR-75W, 3693, 2793 specifications

The Genius 1793 is an advanced piece of equipment designed to optimize performance and enhance productivity across various sectors. Launched in 1993, this innovation has remained essential for users seeking reliability and efficiency. One of its standout features includes a powerful processing unit capable of handling multiple tasks simultaneously, marking it as a tool that can adapt to the increasing demands of modern work environments.

Another key aspect of the Genius 1793 is its versatile connectivity options. It supports various communication protocols, allowing seamless interactions with different devices and networks. This adaptability ensures that users can integrate the Genius 1793 into existing systems without significant modifications, making it a hassle-free choice for many organizations.

ISO XFR-100W, introduced concurrently in 1993, complements the Genius 1793 by offering exceptional data transfer capabilities. This system operates at high speeds, ensuring that file transfers and data communications occur without delay. Its built-in error correction techniques provide a reliable data flow, which is crucial for safeguarding against data loss during transmission. With a robust design, the ISO XFR-100W is engineered for durability, making it suitable for various environments.

The devices 2793 and 3693 also emerged around the same time, emphasizing specific functionalities crucial for specialized applications. The 2793 is tailored for enhanced graphical outputs, making it an invaluable resource for designers and visual professionals. Its cutting-edge technology allows users to create stunning visuals with precision and clarity.

On the other hand, the 3693 stands out for its optimized storage capabilities. With an increased capacity, users can securely store vast amounts of data without fear of running out of space. Its intuitive user interface ensures that data management is efficient and user-friendly.

Collectively, devices like the Genius 1793, ISO XFR-100W, 2793, and 3693 showcase the evolution of technology in the 1990s, providing innovative solutions tailored to meet diverse user needs. Their combination of performance, reliability, and advanced features has allowed these models to remain relevant, continuing to serve users even decades after their launch. As technology continues to evolve, the foundational principles established by these devices persist, influencing modern advancements in the industry.