Solid state lighting Maxim Odnoblyudov Optogan Ltd Energy efficient and environmental friendly nanotechnology solution
08/24/09 Lighting History Illumination Market:  $12 Bil + luminophore
08/24/09 Manufacturing process Wafer Epitaxy Wafer Processing Back-end & Chip Sorting Chip packaging Luminaries Systems LE...
History  <ul><li>Founders: Vladislav Bougrov  Maxim Odnoblyudov Alexei Kovsh  </li></ul><ul><ul><li>1996: Graduated from S...
OptoGaN  facilities 08/24/09 LAB : Helsinki Pilot line : Dortmund <ul><li>Private equity investment </li></ul><ul><li>Publ...
Pilotline Dortmund <ul><li>2 shift development operation established </li></ul>
Market 08/24/09
Market 08/24/09
08/24/09 Market Niches Drivers for next years LCD backlights Automotive Illumination
08/24/09 Energy Saving
Energy consumption issue 08/24/09
Clean Technology 08/24/09
Clean Technology 08/24/09
Market by applications 08/24/09 Confidential Information
08/24/09 LED Lamp Advantages <ul><li>Clean technology   </li></ul><ul><li>Health care – light „quality“   </li></ul><u...
08/24/09 LED Formula To reduce cost per lumen in LED lamps one should maintain or reduce manufacturing costs and increase ...
08/24/09 GaN LED Problem <ul><li>Inherent drawbacks of GaN technology: </li></ul><ul><li>Main drawback of GaN technology a...
08/24/09 Company USP <ul><li>Company USP is possibility  to linear increase input power  density via  high  power  LED  ch...
OptoGaN Achievements <ul><li>Full line chip fabrication production facility </li></ul><ul><li>Production type proven techn...
08/24/09 Towards to mass production through joint venture
08/24/09 Thank you!
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Solid state lighting: Energy efficient and environmental friendly nanotechnology solution

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«Твердотельные источники света: энергетическая эффективность и экологическая чистота нанотехнологических решений», Максим Одноблюдов, исполнительный вице-президент, OptoGan (Германия). Доклад на Международном форуме по нанотехнологиям Rusnanotech 08.
Источник: http://rusnanotech08.rusnanoforum.ru/sadm_files/Presentations/4%20december/Hall%201/nanotechnologies%20in%20electronics%20and%20photonics/06%20Maksim%20Odnobludov%20OptoGan.ppt

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Solid state lighting: Energy efficient and environmental friendly nanotechnology solution

  1. 1. Solid state lighting Maxim Odnoblyudov Optogan Ltd Energy efficient and environmental friendly nanotechnology solution
  2. 2. 08/24/09 Lighting History Illumination Market: $12 Bil + luminophore
  3. 3. 08/24/09 Manufacturing process Wafer Epitaxy Wafer Processing Back-end & Chip Sorting Chip packaging Luminaries Systems LED fabrication Die fabrication – Main know-how Module assembly (+Drivers and controls)
  4. 4. History <ul><li>Founders: Vladislav Bougrov Maxim Odnoblyudov Alexei Kovsh </li></ul><ul><ul><li>1996: Graduated from St. Petersburg Electrical Engineering University (LETI) Optoelectronics Department at A.F. Ioffe Physico-Technical Institute </li></ul></ul><ul><ul><li>1998: PhD in Physics from A.F. Ioffe Physico-Technical Institute </li></ul></ul><ul><li>2004: OptoGaN Oy was founded as Finnish limited Company </li></ul><ul><ul><li>Established contact with Helsinki University of Technology. </li></ul></ul><ul><ul><li>Joint application to Finnish Technology Agency (TEKES) to finance industrial oriented research. </li></ul></ul><ul><ul><li>First VC financing round </li></ul></ul><ul><li>2005: OptoGaN GmbH: Pilot line in Dortmund </li></ul><ul><ul><li>Public infrastructure used </li></ul></ul><ul><ul><li>Product- and process development and industrialization </li></ul></ul><ul><ul><li>Low-volume precompetitive production for early market penetration </li></ul></ul>08/24/09
  5. 5. OptoGaN facilities 08/24/09 LAB : Helsinki Pilot line : Dortmund <ul><li>Private equity investment </li></ul><ul><li>Public grants in Finland and Germany </li></ul><ul><li>Dortmund and NRW investment in equipment </li></ul>
  6. 6. Pilotline Dortmund <ul><li>2 shift development operation established </li></ul>
  7. 7. Market 08/24/09
  8. 8. Market 08/24/09
  9. 9. 08/24/09 Market Niches Drivers for next years LCD backlights Automotive Illumination
  10. 10. 08/24/09 Energy Saving
  11. 11. Energy consumption issue 08/24/09
  12. 12. Clean Technology 08/24/09
  13. 13. Clean Technology 08/24/09
  14. 14. Market by applications 08/24/09 Confidential Information
  15. 15. 08/24/09 LED Lamp Advantages <ul><li>Clean technology   </li></ul><ul><li>Health care – light „quality“   </li></ul><ul><li>Energy saving   </li></ul><ul><li>Lifetime – cost of ownership   </li></ul><ul><li>Size   </li></ul><ul><li>Cost   </li></ul><ul><li>Race is on </li></ul>Illumination Market: $12 Bil. 40$/klm 1-5$/klm
  16. 16. 08/24/09 LED Formula To reduce cost per lumen in LED lamps one should maintain or reduce manufacturing costs and increase brightness Bulb : 700 lm 12 lm/W 60W LED : 100 lm 100 lm/W 1 W Problem : Increase of input power vanishes main LED advantages: efficiency and life time drops
  17. 17. 08/24/09 GaN LED Problem <ul><li>Inherent drawbacks of GaN technology: </li></ul><ul><li>Main drawback of GaN technology as compared to conventional III-V materials is absence of cost-effective bulk GaN substrates </li></ul><ul><li>This results in : </li></ul><ul><ul><li>High density of defects in GaN epitaxial layers grown on foreign substrates </li></ul></ul><ul><ul><li>Low efficiency of light extraction from chips due to strong internal reflection of light on GaN – foreign substrate interface </li></ul></ul>
  18. 18. 08/24/09 Company USP <ul><li>Company USP is possibility to linear increase input power density via high power LED chip s without significant loss of efficiency . Company IP consists of: </li></ul><ul><ul><li>Epitaxy technology for a unique GaN/Sapphire material quality </li></ul></ul><ul><ul><li>Wafer layer structure optimized for high efficiency at high input power operation </li></ul></ul><ul><ul><li>Chip design enabling uniform current density over chip surface at high input power operation </li></ul></ul>
  19. 19. OptoGaN Achievements <ul><li>Full line chip fabrication production facility </li></ul><ul><li>Production type proven technology is at hand </li></ul><ul><li>Strong IP portfolio </li></ul><ul><li>Team of experienced engineers </li></ul><ul><li>LOI with several customers for the chips is signed </li></ul><ul><li>Industry leading cost per lumen characteristic: </li></ul><ul><li>15$/klm with potential to reach 5$/klm in 2010 </li></ul>08/24/09 Next step : move to mass production Technology enables: increasing input power of high brightness LEDs without loosing efficiency to achieve bulb-like brightness utilizing standard GaN/sapphire manufacturing techniques to achieve bulb-like street price current technology level gives 15 $/klm
  20. 20. 08/24/09 Towards to mass production through joint venture
  21. 21. 08/24/09 Thank you!

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