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Presentation on oled technology

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Presentation on oled technology

  1. 1. DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING PONDICHERRY UNIVERSITY PRESENTATION ON OLED TECHNOLOGY UNDER THE GUIDANCE OF Dr. K. ANUSUDHA, Assistant Professor, Dept. Of Electronics Engineering PRESENTED BY S. EGHANATHAN M.Tech (ECE) – Ist Yr 21304010
  2. 2. CONTENT  INTRODUCTION  WHAT IS AN OLED?  HISTORY  FEATURES  STRUCTURE OF OLED(Figure)  OLED FABRICATION  OLED DEPOSITION  TYPES OF OLED  OLED ADVANTAGES  OLED DISADVANTAGES  APPLICATIONS  CONCLUSION  REFERENCES
  3. 3. INTRODUCTION • Uses Organic Light Emitting Diode(OLED). • Emerging Technology for displays in devices. • Main principle behind OLED technology is electroluminescence. • Offers brighter, thinner, high contrast, flexible displays.
  4. 4. WHAT IS AN OLED? • OLEDs are solid state devices composed of thin films of organic molecules that is 100 to 500 nanometres thick. • They emits light with the application of electricity. • They doesn’t require any backlight i.e., they are self emitting. • They are made from carbon and hydrogen.
  5. 5. HISTORY • The first OLED devices was developed by Eastman Kodak in 1987. • In 1996, pioneer produces the world’s first commercial PMOLED. • In 2000, many companies like Motorola, LG etc developed various displays. • In 2001, sony developed world’s largest fullcolor OLED.
  6. 6. • In 2002, approximately 3.5 million passive matrix OLED sub- displays were sold, and over 10 million were sold in 2003. • In 2010 and 2011, many companies announced AMOLED displays. • Many developments had take place in the year 2012.
  7. 7. FEATURES • Flexibility. • Emissive Technology. • Light weight and thin. • Low power consumption. • High contrast, brighter and perfect display from all angles.
  8. 8. STRUCTURE OF OLED (Figure)
  9. 9. OLED Fabrication • Substrate preparation. • Device deposition Deposit and pattern anode. Pattern organic layers. Vacuum deposit and pattern cathode. • Encapsulation. • Also involves making backplane.
  10. 10. OLED DEPOSITION • Organic layers can be applied to the substrate using the following methods. - Evaporation and shadow masking. - Inkjet printing. - Organic vapor phase deposition.
  11. 11. COLOUR GENERATION • Different approaches for fabricating red, green and blue pixels. - Red, green and blue individual pixels. - White emitter and color filters. - Blue emitter and color converters. - Stacked OLED
  12. 12. COLOUR GENERATION (Figure)
  13. 13. WORKING PRINCIPLE • A voltage is applied across the anode and cathode. • Current flows from cathode to anode through the organic layers. • Electrons are removed from conductive layer leaving holes. • Holes jump into emissive layer. • Electron and hole combine and light emitted.
  14. 14. OLED DEVICE OPERATION
  15. 15. TYPES OF OLED Six types of OLEDs 1. Passive matrix OLED (PMOLED). 2. Active matrix OLED (AMOLED). 3. Transparent OLED (TOLED). 4. Top emitting OLED. 5. Flexible OLED (FOLED). 6. White OLED (WOLED).
  16. 16. OLED ADVANTAGES • Thinner, lighter and more flexible. • Do not require backlighting like LCDs. • Can be made to larger sizes. • Large fields of view, about 170 degrees. • Faster response time. • Brighter. • High resolution, <5𝜇𝑚 𝑝𝑖𝑥𝑒𝑙 𝑠𝑖𝑧𝑒.
  17. 17. OLED DISADVANTAGES • Expensive. • Low Lifespan. • Water damage. • Color balance issues.
  18. 18. APPLICATIONS Major applications of OLED technology are  OLED TV.  Mobile phones with OLED screens.  Rolltop Laptops.
  19. 19. CONCLUSION • Organic Light Emitting Diodes are evolving as the next generation displays. • As OLED display technology matures, it will be better able to improve upon certain existing limitations of LCD including  High power consumption.  Limited viewing angles.  Poor contrast ratios.
  20. 20. REFERENCES  www.elprocus.com  www.wikipedia.com  https://oled.com
  21. 21. THANKS

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