MEMS-based flexible reflective analog modulators (FRAM) for projection displays: a technology review and scale-down study

A MEMS based technology for projection display is reviewed. This technology relies on mechanically flexible and reflective microbridges made of aluminum alloy. A linear array of such micromirrors is combined with illumination and Schlieren optics to produce a pixels line. Each microbridge in the arr...

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Bibliographic Details
Published in:Journal of physics. Conference series 2011-02, Vol.276 (1), p.012182-15
Main Authors: Picard, Francis, Ilias, Samir, Asselin, Daniel, Boucher, Marc-André, Duchesne, François, Jacob, Michel, Larouche, Carl, Vachon, Carl, Niall, Keith K, Jerominek, Hubert
Format: Article
Language:English
Subjects:
Actuation
Aluminum base alloys
Arrays
Display devices
Engines
Illumination
Impact damage
Light modulation
Linear arrays
Modulators
Physics
Pixels
Projectors
Size reduction
Video data
Waveforms
Yield point
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Summary:A MEMS based technology for projection display is reviewed. This technology relies on mechanically flexible and reflective microbridges made of aluminum alloy. A linear array of such micromirrors is combined with illumination and Schlieren optics to produce a pixels line. Each microbridge in the array is individually controlled using electrostatic actuation to adjust the pixels intensities. Results of the simulation, fabrication and characterization of these microdevices are presented. Activation voltages below 250 V with response times below 10 μs were obtained for 25 μm × 25 μm micromirrors. With appropriate actuation voltage waveforms, response times of 5 μs and less are achievable. A damage threshold of the mirrors above 8 kW/cm2 has been evaluated. Development of the technology has produced projector engines demonstrating this light modulation principle. The most recent of these engines is DVI compatible and displays VGA video streams at 60 Hz. Recently applications have emerged that impose more stringent requirements on the dimensions of the MEMS array and associated optical system. This triggered a scale down study to evaluate the minimum micromirror size achievable, the impact of this reduced size on the damage threshold and the achievable minimum size of the associated optical system. Preliminary results of this scale down study are reported. FRAM with active surface as small as 5 μm × 5 μm have been investigated. Simulations have shown that such micromirrors could be activated with 107 V to achieve f-number of 1.25. The damage threshold has been estimated for various FRAM sizes. Finally, design of a conceptual miniaturized projector based on 1000×1 array of 5 μm × 5 μm micromirrors is presented. The volume of this projector concept is about 12 cm3.
ISSN:1742-6596
1742-6588
1742-6596
DOI:10.1088/1742-6596/276/1/012182