The future of display technology? Prepared By: Ryan Michaud Adam Neale Andrei Iakimtchik Date: March 27 th, 2007.

Slides:

Advertisements

Similar presentations

Computer Graphics Prof. Muhammad Saeed. Hardware (Display Technologies and Devices) III Hardware III Computer Graphics August 1,

Advertisements

LCD , LED Masooma Malik.

Flat Panel Displays --- Principles, Materials and Processes Jing Zhang 04/06/2004.

Computer Graphics- SCC 342

Computer Graphics HARDWARE. LCD Displays Thinner and lighter. No tube or electron beams. Blocking/unblocking light through polarized crystals. Crystals.

Introduction to Raster scan display C A E D C Computer Aided Engineering Design Centre.

Display Technology Comparison CRT - Plasma – LCD - LED

TVs, screens, monitors. What’s The Difference??  CRT  LCD  Plasma Display.

Computer Graphics Prof. Muhammad Saeed Dept. of Computer Science & IT

Plasmas are conductive assemblies of charged particles, neutrals and fields that exhibit collective effects. Further, plasmas carry electrical currents.

Television Development Mario Vargas Kin Piu Lam. Project Goals  Gain a better understanding of the origins of Television –where we are now –what we see.

The Science of Digital Media Human Visual System – Eye – Perception of colour Display types Display terminology 6 May 2010 Metropolia University of Applied.

The Science of Digital Media Flat Panel Displays 7May Metropolia University of Applied Sciences Display Technologies Seminar.

EET 450 – Advanced Digital Video Display Systems.

1 Graphics hardware Output devices Input devices.

Imaging Science Fundamentals Chester F. Carlson Center for Imaging Science Display Systems Viewing Images.

CS 450: COMPUTER GRAPHICS REVIEW: INTRODUCTION TO COMPUTER GRAPHICS – PART 1 SPRING 2015 DR. MICHAEL J. REALE.

CRT MONITOR cathode-ray tube

OLED Devices and Applications

Liquid Crystal Display By Jasdeep Nagi. Connections  A computer monitor displays pictures and information. This reflects what is in the computer.

1 CCTV SYSTEMS CCTV MONITORS. 2 CCTV SYSTEMS A monitor simply allows remote viewing of cameras in a CCTV system from a control room or other location.

The Monitors Name of Teacher :Rasha My Name: Diana Anbar ID: University of Palestine Collage of Engineer Computer Skills.

Nolan Petrehn. Plasma TVs  In the last two decades, plasma technology formerly found only in monochrome computer displays has been adapted into full-color.

Future Trends of Televisions By: Rion Núñez Team 11.

CRT MONITOR cathode-ray tube

 This is a device used to present information from the computer system.

Rpebared by : Anas Mah. Najdawi EE A cathode ray tube (CRT) is a type of analog display device. Cathode ray tubes are special, electronic vacuum.

CRT MONITOR cathode-ray tube

Contents of the Lecture

Tutorial 6 Derek Wright Wednesday, March 2 nd, 2005.

display screens and ergonomics

Lecture No. 3.  Screen resolution  Color  Blank space between the pixels  Intentional image degradation  Brightness  Contrast  Refresh rate  Sensitivity.

Computer Graphics Hardware

Introduction Recently, more and more plasma displays are marketed. They have wide screens, comparable to the largest CRT displays, but they are only about.

Plasma Vs. LCD VS Plasma LCD.

Plasma Screens ‘How it works?’. Cathode Ray Tubes Output devices Cathode Ray Tubes Television screens used to use a technology called, cathode ray tubes.

(F E D) FIELD EMISSION DISPLAY DEEPAK GUPTA EC 3 rd YR

Computer Organisation 1 Sébastien Piccand Display devices.

Display Technology INFO410 & INFO350 S Jack Pinches INFORMATION

CHAPTER THIRTEEN DISPLAY TECHNOLOGY (II) PDP, & TOUCHSCREEN CGMB113/ CITB 123: MULTIMEDIA TECHNOLOGY 1 SARASWATHY SHAMINI Adapted from Notes Prepared by:

K.B.H.POLYTECHNIC,MALEGAON CAMP, MALEGAON. Computer Hardware & Maintenance. S.Y.C.M/I.F Guided By :- Mr.K.S.Pawar. Lecturer in Computer Department.

Hardware Components Display. 1.Display (Monitor) The screen is made up of thousands of picture elements or pixels Displays can be either CRT (Cathode.

Residential Audio & Video Systems Copyright © 2005 Heathkit Company, Inc. All Rights Reserved Presentation 9 – Home Theater Video Display Systems.

Computer Graphics Lecture -02. Frame Buffer The image being displayed is stored in a dedicated system memory area that is often referred.

PLASMA TELEVISION Name: Rajput Urvashi A Enrollment No: Branch : Electronic and Communication Audio and video system 1.

LCD, LED AND PLASMA TV. INTRODUCTION Television (TV) is a telecommunication medium for transmitting and receiving moving images that can be monochrome.

Plasma Display Technology. Playing A Strong Hand Plasma is gunning for CRTs –“Sweet spot” is from 26 inches to 42 inches –Plasma in true HD resolutions.

1.  The primary output device in a graphics system is a video monitor. These monitors are based on Cathode Ray Tube (CRT) design.  CRT is a vacuum tube/electron.

Prepared by:- BHADARKA DIVYA BHEDA PRIYANKA BHOYE KAJAL.

LCD TELEVISION By SHRUTHY CHANDRAN EC B S8 ROLL NO:34.

Prepared By :- Kinjal Satasiya( ) (5 th sem) Guided By :- Dimple Agrawal.

SEMINAR REPORT ON. DEFINATION OF MONITOR A computer display, monitor or screen is a computer peripheral device capable of showing still or moving images.

PREPARED BY: MACHHI AKSHITA For the past many years, the majority of televisions have been built using the Cathode Ray Tube. Recently, a.

MADHUBEN AND BHANUBHAI PATEL WOMEN’S INSTITUTE OF ENGINEERING FOR STUDIES AND RESEARCH IN COMPUTER AND COMMUNICATION TECHNOLOGY Presentation on: (LED TVs)

The Cathode Ray Tube Monitor

How Does Your TV Work? A brief introduction.. Two Amazing Things about the Brain 1.Connecting the dots Pixels and resolution 2.Connecting the frames 15.

Comparison Panasonic.

SUBMITTED BY Vandana ue7465

Seminar OLED Technology On

“ORGANIC LIGHT EMITTING DIODE"

LCD, DLP, and PLASMA TV! A presentation by Sydney Berg.

Field Emission Display Screen

LIQUID CRYSTAL DISPLAY (LCD)

CRT MONITOR cathode-ray tube

NARNARAYN SHATRI INSTITUTE OF TECHNOLOGY

The miracles of television: from past to future.

Overview of Graphics Systems

بررسی صفحات نمایشگر مبتنی بر نانولوله های کربنی

Graphics Systems SUBJECT: COMPUTER GRAPHICS LECTURE NO: 04 BATCH: 16BS(INFORMATION TECHNOLOGY) 1/4/

CRT MONITOR cathode-ray tube

Presentation transcript:

The future of display technology? Prepared By: Ryan Michaud Adam Neale Andrei Iakimtchik Date: March 27 th, 2007.

Presentation Outline History of display technology Current display alternatives How FEDs work Companies working on FED Difficulties with FED Future of FED displays

History of Display Technology Cathode Ray Tube 1950’s Liquid Crystal Displays 1970’s Field Emission Displays 1980’s

Cathode Ray Tubes (CRT) Geissler Tubes (1855) First CRT oscilloscope invented 40 years later Commercially practical CRT made by Allen DuMont (1931)

Liquid Crystal Display Liquid Crystalline materials discovered (1880s) James Fergason produced first practical LCD display (1967) Epson introduced first color LCD TV 2” in diagonal (1985)

Plasma Display Panel Plasma identified by William Crookes (1879s) Prototype for PDP introduced at University of Illinois (1964) Fujitsu introduced first 42” color PDP (1997)

Vacuum tube with phosphor- coated screen Cathode emits electrons to be accelerated by the anode Deflectors guide the electron beams Electrons excite phosphor molecules to produce light CRT Technology Comparison

Advantages Shortcomings Good color representation Large viewing angle Fast response time (50 µs) Low price Multiple resolutions Large and bulky (2 kg/in) Flicker causes eye strain High power (11 W/in) CRT Technology Comparison cont’d

LCD A layer of liquid crystalline sandwiched between 2 glass layers with polarizer Light generated behind the screen, passed through Applied voltage controls the crystalline orientation

Technology Comparison cont’d Advantages Shortcomings Light weight (0.6 kg/in) Low power (5 W/in) Less eye strain High brightness (500 Cd/m 2 ) Small viewing angle Slow response time (8 ms) Weaker contrast & color LCD

Technology Comparison cont’d PDP Two layers of glass with pixel array in between Each pixel contains a mix of neon and xenon gas Current is passed through a pixel to ionize gas, and emit UV radiation UV rays excites phosphor- coated layer of glass to generate light

Technology Comparison cont’d Advantages Shortcomings High brightness (1000 Cd/m 2 ) High contrast (10000:1) Large viewing angle More power vs LCD (8 W/in) Burn-in effect Size limitation (>40”) Slow response time PDP

FED: The Best of Both Worlds Promised Advantages Very light (100 g/in) Large Viewing angle (178 o ) Extremely fast (20 ns) Low power (0.2 W/in) High contrast (10x PDP) No flicker No dead pixels

How FED Works? Array of mini-CRTs

Technology Options - SED “Surface-conduction electron emitter display” Joint venture between Toshiba and Canon

Technlogy Options - Spindt Spindt emitters are tiny cones that create a very high charge density Alignment of the cone and gate is critical

Technology Options - CNT Carbon nanotubes as electron source

Companies Researching FED Canon and Toshiba joint venture in SED Sony promises Spindt-type FED display in 2009 Samsung is researching CNTs, Applied Nanotech Inc. have made a 25” display

Challenges: Technical Problems Fluctuations in emission current Low cost manufacturing methods Developing for large areas Tip damage High vacuum levels required

Dropping LCD prices LCD panels are dropping in cost while increasing in quality

Hope for FED Displays The success of FEDs depends on: Cost Quality Timing Technologically advantageous product suffers from poor timing

Questions?