Flexible Screens Sean Ouye Sec 08.

Slides:

Advertisements

Similar presentations

Optics: Reflection, Refraction Mirrors and Lenses

Advertisements

University of Palestine Students name : Ammar abu zubida UN : Instructors name:Rasha atallh Thread :Types of computer screen.

NEW BUILDINGS DESIGNS IN KOREA A COMPUTER WITH 3 SCREENS.

OLED Technology By: Matt Vicini.

DISPLAY TECHNOLOGY COMPUTER INTERACTION Organic User Interfaces.

Display Technology Comparison CRT - Plasma – LCD - LED

 OLED stands for Organic Light-Emitting Diodes  It’s a solid-state semiconductor device that is 100 to 500 nanometers thick.  Consists of 5 Layers.

Lesson 3. Producing Visible Light  The most important natural source of light on Earth is the Sun. There are, however, other natural sources of light,

Organic Light-Emitting Diodes By: Grant Warfield.

OLED Display Screen By: Garrett Taylor. ““organic light-emitting diode” LLow power consumption screen similar to LCD televisions UUses a natural.

The Future of Organic Electronics Jaya Movva Ben Spearin Jon Anderson Joshua Wrazen.

How to Color LEDs LED Color Standard BrightnessHigh Brightness Chip Material lpk (NM) Iv (mcd) Viewing Angle Chip Material lpk (NM) Iv 3 (mcd) Viewing.

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

OLED Devices and Applications

MEEN 3344 By: Ryan Evans. What the Flexible Organic Light Emitting Diode Consist of : The Top Layer is the Cathode layer made of tungsten releases electrons.

Electronic PAPER. What is electronic paper ?  Electronic paper and electronic ink are display technologies that mimic the appearance of ordinary ink.

LCD v/s LED v/s OLED.

1 Display technologies Lin Zhong ELEC424, Fall 2010.

Future Trends of Televisions By: Rion Núñez Team 11.

Learning aim B: Understand the selection of specific materials for use in the components that make up an engineered product Met? P2Describe the engineering.

OLED Displays By: Adam Weidling Date: 5/1/15. Abstract OLEDS are an emerging technology in todays electronic display industry. In this presentation the.

June 30, 2007APCU1 Displays It’s a big market: $52G I’ll talk about some of the things I’ve seen and learned this year.

Flexible Organic Light Emitting Diode (OLED) MEEN 3344 Presented by: Hector Vasquez Jr.

Organic Light-Emitting Diodes

Organic Semiconductor and its applications

History of Glass  Glass Beads (Egypt)  Mosaic Glass  Glass Blowing  Lead Crystal Glass (Venice)  Sheet Glass  Glass Bottles (Shaped)

李正中 Display Technology Center Nov. 12, 2012 Flexible Display Technology and Applications.

OLED Siu Yuen Steven Donoso

Team 1 – Corning Incorporated Case OLED (Organic Light Emitting-Diode)

Technological Advancements in Monitors By Jed Zwanenburg.

Future Devices Future Personal Devices Design and Interactivity Claudiomiro Luiz da Silva Junior.

THE LATEST TECH. NEW BUILDINGS DESIGNS IN KOREA.

Flexible Display

Output Device.  Output devices are devices used to display or retrieve information from the computer.

MEEN 3344 Materials Light Emitting Polymers

Week - 14 Emerging Technolgies in Multimedia. Delivery Infrastructure OLED displays Solid State Hard Drives (SSDs) HTML5.

TABLETS. What is a Tablet?  Mobile computer  Developed in last 2 decades  With display, circuitry and battery  Touch screen (no mouse or keyboard)

Daniel Bowser Fernando Robelo

Electronic Paper

FLEXIBLE DISPLAYS By: Algilyne Gengania MWF 10:20 am – 11:45 am.

Edexcel – Product Design: Graphics

New Groups and Seating Lab 3: Optics next week, Lab to be posted this weekend. HW 8: Correction problem + paragraph on paper topic/resource. Use this time.

Technologies in the future 2 New buildings design in Korea.

By: Christopher Heil November 18, What is OLED? An Organic Light-emitting Diode (OLED) is a light emitting diode (LED) that is made of semiconducting.

Preston and Nate. Driving Question What are the dangers and disadvantages of hydrogen fuel cells? What about other types of fuel cells? How does this.

Television By: Dakawn, Blake, and MaLia. What is television ? A system for transmitting visual images and sound that are reproduced on screens, used to.

Audio Visual Technology PART 1. Purpose Of Lesson Part 1 We will discuss the different types of visual screens that have been available in the past and.

Back to the Future… Austin Community College Strategic Planning Retreat 3 The Future Is NOW.

LED TV vs. PLAZMA TV OLED Manusinh Thakor Guided By : Prof. JIGAR SHAH.

SONY XEL-1 OLED TV Presentation By Bashir Ntwari.

DIFFERENT TVs AND THEIR CONFIGURATION PRESENTED BY:- Jayraj Chudasama( ) Bharat Mundhara ( ) GUIDED BY:- Prof. Rohit Parmar Department.

O RGANIC L IGHT -E MITTING D IODE (OLED) PRESENTED BY: BIND LALSHA SHRI S’AD VIDYA MANDAL INSTITUTE OF TECHNOLOGY.

GANDHINAGAR INSTITUTE OF TECHNOLOGY

GUJARAT TECHNOLOGICAL UNIVERSITY BIRLA VISHVAKARMA MAHAVIDYALAYA V.V.NAGAR.

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

OLEDs and Transparent Monitor Technology Troy L. Behmer.

1/9 OLED (Organic Light Emitting Diode) Display Engineering.

Smart Glasses. What is Smart Glasses Smart glasses or Digital Eye Glass or Personal Imaging System are a wearable computer that adds information onto.

Sony XEL-1 The Organic Display for the Future. Sony XEL-1 - OLED The product that uses OLEDs  Made out of organic light emitting diodes (OLEDs).  OLED.

 The first E-Paper is developed in 1974’s by Nicholas K Sheridon at Xerox’s Palo Alto Research Centre.  E-Paper is also called Electronic Paper or Electronic.

Presented By: PRATYUSH MISHRA E.C. Final Year

Optics: Reflection, Refraction Mirrors and Lenses

THE LATEST TECH.

Hockey Sticks By Quinton.

“ORGANIC LIGHT EMITTING DIODE"

SPECIAL THANKS First of All I am greatly thanks to ALLAH Whose give me ability to courage and power to complete the presentation without blessing mercy.

Optics: Reflection, Refraction Mirrors and Lenses

Optics: Reflection, Refraction Mirrors and Lenses

Optics: Reflection, Refraction Mirrors and Lenses

Optics: Reflection, Refraction Mirrors and Lenses

Presentation transcript:

Flexible Screens Sean Ouye Sec 08

Samsung Flexible Display (0:45) YOUM brand name. OLED technology Made of plastic No glass involved The phone will not shatter if dropped. Phone can bend back and forth

Background Nicholas Sheridon The father of E-paper Gyricon The ability to display images onto a flexible background and re-use that same material. Cost-inefficient Gyricon and E-paper never had much success, but was on the right track.

OLED Technology Organic Light-Emitting Diode Similar to LED, but produce more natural light. More energy efficient and smaller. Can be placed on plastic.

OLED’s and Flexible Screens OLED’s allow for curved edges. More room is available for content. OLED’s allow for screens to be made of materials other than glass. LED’s need a glass support for the backlight. Less efficient than OLED’s.

Advantages/Disadvantages Comparison of Flexible Screens (OLED's) vs. LCD Screens (LED) Cost Durability Weight Speed Applications Flex Screens (OLED) High: Cannot mass produce. Low cost technology isn't available yet. Durable: Mostly made of plastic. More susceptible to water though. Lighter: Potential to be just a thin sheet of plastic. Faster: More responsive to touch. Unlimited: Can be applied to curved or round services. LCD Screens (LED) Low: Ability to mass produce. Fragile: Screen is made of glass and will shatter Heavier: Requires glass and more support layers. Slower: Older technology Limited: Requires a flat, straight surface.

Disadvantages Technology isn’t good enough to produce a finished product. Melting problems Materials are expensive Materials are hard to find and develop Need to create a demand

Prototypes LG Nokia Toshiba Sony Samsung

Vision of the Near Future Flexible screens benefit more than just phone technology. Might become an essential part in our everyday lives. OLED’s can be placed anywhere! Buildings Pillars Car windshields Clothes

Works Cited Cashmore, Peter. "Why Your next Phone Might Be Bendable." CNN. Turner Broacasting System, Inc., n.d. Web. 15 Apr. 2013. <http://www.cnn.com/2011/10/31/tech/innovation/flexible-screens-cashmore/index.html?iref=allsearch>. Genuth, Iddo. "The Future of Electronic Paper." The Future of Electronic Paper. The Future of Things, 2013. Web. 15 Apr. 2013. <http://thefutureofthings.com/articles/1000/the-future-of-electronic-paper.html>. Grose, Thomas K. "OLEDs: The Light Idea." Time. Time, 2013. Web. 15 Apr. 2013. <http://www.time.com/time/magazine/article/0,9171,2005725,00.html>. Nikamahjan. "OLED Advantages and Disadvantages." OLED Advantages and Disadvantages. Expertscolumn, 2013. Web. 15 Apr. 2013. <http://expertscolumn.com/content/oled-advantages-and-disadvantages>. OLED-Info. "Flexible OLED Displays." Flexible OLED Displays. Metalgrass Software, 2013. Web. 15 Apr. 2013. <http://www.oled- info.com/flexible-oled>. Skillings, Joanthan. "Samsung Shows off Youm Flexible Display." CNET. CBS Interactive, 2013. Web. 15 Apr. 2013. <http://ces.cnet.com/8301-34441_1-57563038/samsung-shows-off-youm-flexible-display/>. Swartz, Jon. "Flexible Displays Bend What's Possible for Computers." USATODAY.COM. A Garnett Company, 2012. Web. 15 Apr. 2013. <http://usatoday30.usatoday.com/tech/news/story/2012-04-05/flexible-displays-computing-screens/54064128/1>. Wagstaff, Jeremy. "Are Flexible Screens the Wave of the Future?" MSN. Microsoft, 2013. Web. 14 Apr. 2013. <http://news.msn.com/science-technology/are-flexible-screens-the-wave-of-the-future>. Wasserman, Todd. "Microsoft Sketches Its Vision for the Near Future." Mashable. Livefyre, 2013. Web. 15 Apr. 2013. <http://mashable.com/2011/10/27/microsoft-near-future-video/>.