Georgios Fakas scite author profile

Georgios Fakas

2Publications

23Citation Statements Received

0Citation Statements Given

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Fraunhofer Institute for Silicon Technology

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Wafer-level vacuum packaged resonant micro-scanning mirrors for compact laser projection displays

Hofmann

Oldsen

Quenzer

et al. 2008

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Scanning laser projection using resonant actuated MEMS scanning mirrors is expected to overcome the current limitation of small display size of mobile devices like cell phones, digital cameras and PDAs. Recent progress in the development of compact modulated RGB laser sources enables to set up very small laser projection systems that become attractive not only for consumer products but also for automotive applications like head-up and dash-board displays. Within the last years continuous progress was made in increasing MEMS scanner performance. However, only little is reported on how mass-produceability of these devices and stable functionality even under harsh environmental conditions can be guaranteed. Automotive application requires stable MEMS scanner operation over a wide temperature range from -40° to +85°Celsius. Therefore, hermetic packaging of electrostatically actuated MEMS scanning mirrors becomes essential to protect the sensitive device against particle contamination and condensing moisture. This paper reports on design, fabrication and test of a resonant actuated two-dimensional micro scanning mirror that is hermetically sealed on wafer level. With resonant frequencies of 30kHz and 1kHz, an achievable Theta-D-product of 13mm.deg and low dynamic deformation <20nm RMS it targets Lissajous projection with SVGA-resolution. Inevitable reflexes at the vacuum package surface can be seperated from the projection field by permanent inclination of the micromirror

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New Approach for Frequency Matching of Tuning Fork Gyroscopes by Using a Nonlinear Driving Concept

Schwarzelbach

Fakas

Nienkirchen

2001

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Georgios Fakas

Wafer-level vacuum packaged resonant micro-scanning mirrors for compact laser projection displays

New Approach for Frequency Matching of Tuning Fork Gyroscopes by Using a Nonlinear Driving Concept

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