According to some experts’ prediction, future Led linear high bay light chip cost savings could be as much as 70% greater than with the current mainstream products when manufactured on larger diameter silicon substrates. And currently, Lattice Power is actively working on 150mm GaN-on-silicon technology and is expecting to transfer its production to even larger diameter silicon substrates in 2013.
The two-year projects selected will focus on significantly reducing manufacturing costs while continuing to improve the quality and performance of solid state lighting technologies. These investments, which will leverage an additional $5 million in private sector funding, will focus on improving manufacturing equipment, processes, or monitoring techniques that will help make LEDs and LEDs cost-competitive with other lighting options.
According to Dr. Kenneth Li, President and CEO of Wavien, Inc., who is also the inventor of the recycling technology, "This unique design enables LED based products to have increased total brightness by over 80% for most LEDs and it is recently found that for high performance LEDs, the brightness increases by over 100%. This brightness improvement is provided by adding a simple low-cost reflector with an aperture to standard LED packages. The diameter of the opening, which determines the amount of recycling, and the total size of the reflector can be scaled to meet the user's needs. We continue to optimize the RLT system and are actively developing a variety of other applications, including gobo projectors, down lights, search lights and general lighting uses."
The latest version of this PDK enables RF design engineers to access the LED high bay light foundry capabilities through Agilent’s 2011 release of ADS – an industry-leading electronic design automation tool,” said Jim Milligan, director, Cree RF and microwave. “This integrated front-to-back design system provides highly accurate, scalable nonlinear models, parametric layout cells, design rule checking, seamless layout interoperability and a streamlined design cycle to help accelerate time-to-market for our customers.”
The two-year projects selected will focus on significantly reducing manufacturing costs while continuing to improve the quality and performance of solid state lighting technologies. These investments, which will leverage an additional $5 million in private sector funding, will focus on improving manufacturing equipment, processes, or monitoring techniques that will help make LEDs and LEDs cost-competitive with other lighting options.
According to Dr. Kenneth Li, President and CEO of Wavien, Inc., who is also the inventor of the recycling technology, "This unique design enables LED based products to have increased total brightness by over 80% for most LEDs and it is recently found that for high performance LEDs, the brightness increases by over 100%. This brightness improvement is provided by adding a simple low-cost reflector with an aperture to standard LED packages. The diameter of the opening, which determines the amount of recycling, and the total size of the reflector can be scaled to meet the user's needs. We continue to optimize the RLT system and are actively developing a variety of other applications, including gobo projectors, down lights, search lights and general lighting uses."
The latest version of this PDK enables RF design engineers to access the LED high bay light foundry capabilities through Agilent’s 2011 release of ADS – an industry-leading electronic design automation tool,” said Jim Milligan, director, Cree RF and microwave. “This integrated front-to-back design system provides highly accurate, scalable nonlinear models, parametric layout cells, design rule checking, seamless layout interoperability and a streamlined design cycle to help accelerate time-to-market for our customers.”
评论
发表评论