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OSRAM reaches new milestone with first gallium-nitride LED chips on silicon in pilot stage


Jan 13, 2012

Researchers at OSRAM Opto Semiconductors have succeeded in manufacturing high-performance blue and white LED prototypes in which the light-emitting gallium-nitride layers are grown on silicon wafers with a diameter of 150 millimeters (approx. 6 inches). The silicon wafers replace the sapphire substrates commonly used in the industry up to now, with no loss of quality. Already in the pilot stage, the new LED chips are being tested under practical conditions, meaning that the first LEDs on silicon from OSRAM Opto Semiconductors could hit the market in as little as two years.

Advantages of silicon
This is a pioneering development for several reasons. Silicon is an attractive and low-cost option for the lighting markets of the future. Due to its already widespread use in the semiconductor industry, the availability of large wafer diameters and its very good thermal properties, silicon is an attractive and low cost option for large-volume fabrication. Quality and performance data on the fabricated LED silicon chips match those of sapphire-based chips: the blue UX:3 chips in OSRAM's standard Golden Dragon Plus package achieve a record brightness of 634 mW at 3.15 volts, equivalent to 58 percent efficiency. 

These are outstanding values for state-of-the-art 1 mm² chips driven at 350 mA.  In combination with a conventional phosphor converter in a standard housing -- in other words as white LEDs -- these prototypes correspond to 140 lm at 350 mA with an efficiency of 127 lm/W at 4500K.

"For these LEDs to become widely established in lighting, the component cost must come down significantly while maintaining the same level of quality and performance," says Dr. Peter Stauss, project manager at OSRAM Opto Semiconductors. "We are developing new methods along the entire technology chain for this purpose, from chip technology to production processes and housing technology." Mathematically speaking, it is already possible today to fabricate over 17,000 LED chips of one square millimeter in size on a 150 millimeter (6 inch) wafer. Larger silicon wafers could increase productivity even more; researchers have already demonstrated the first structures on 200 millimeter substrates (approx. 8 inches).

OSRAM Opto Semiconductors has acquired comprehensive expertise over the last 30 years in the process of artificial crystal growth (epitaxy), the foundation for this milestone in the development of new manufacturing technologies. The German Federal Ministry of Education and Research funds these activities as part of its "GaNonSi" project network.  "Our investments in years of research are paying off, because we have succeeded in optimizing the quality of the gallium-nitride layers on the silicon substrates to the point where efficiency and brightness have reached competitive market levels," noted Dr. Stauss. "Stress tests we've already conducted demonstrate the high quality and durability of the LEDs, two of our traditional hallmarks."


 






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