Gray Scale lithography technology can produce complicated, random, and smoothly or discontinuously contoured material surfaces with a variety of applications in modern optical systems.
Heidelberg, Germany (PRWEB) August 20, 2012
Heidelberg Instruments, a leader in design, development and production of maskless lithography systems, announced order for an advanced DWL 2000 system with sophisticated Gray Scale Exposure capability from Heptagon. System will be used for production of micro optical components for applications in smart phones, mobile devices, gaming consoles, telecoms equipment and supercomputers.
“Gray Scale lithography technology can produce complicated, random, and smoothly or discontinuously contoured material surfaces with a variety of applications in modern optical systems. We implemented Gray Scale lithography in our maskless lithography systems over 12 years ago and through the years have refined this technology in our commercial based systems. This order is a significant step to solidify our position as a global leader in production of direct write systems for applications in Gray Scale Lithography.” states Alexander Forozan, Head of Global Sales and Business Development, Heidelberg Instruments
About Heptagon: Heptagon is a leading Singapore-based developer and manufacturer of advanced micro-optics solutions, with an R&D center in Zurich, Switzerland. With nearly two decades of experience in wafer level micro optics, Heptagon efficiently produces tiny optical components in large volumes for sophisticated applications in smart phones, mobile devices, gaming consoles, telecoms equipment and supercomputers.
About Heidelberg Instruments, GmbH: With an installation base in over 40 countries, Heidelberg Instruments is a world leader in production of high precision maskless lithography systems. These systems are used for direct writing and photomask production by some of the most prestigious universities and industry leaders in the areas of MEMS, BioMEMS, Nano Technology, ASICS, TFT, Plasma Displays, Micro Optics, and many other related applications.