1992
DOI: 10.1088/0960-1317/2/4/007
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Electrostatic micromechanic actuators

Abstract: Actuators based on the electrostatic principle are one of the most important in microsystem technology. In t h e future, actuators of 10 or 20 type will be necessary in many fields, especially in optical deflection and scanning systems. They will solve many different problems: device fabrication processes, surfacedeformation, reflection factors. optimization of movement, electrical drive and reliability. Micromechanic electrostatic torsional mirrors are described showing swivel angles up to 30'.

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Cited by 14 publications
(5 citation statements)
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“…In addition to LCDs and DMDs, other competing technologies for laser projection systems exist. A not comprehensive list includes LCoS (Liquid Crystal on Silicon), rotating polygon wheels, galvanic driven mirrors, and other Micro Scanning Mirrors [4] that use a different driving principle than the one by Fraunhofer IPMS. However, all of them are not suited for mobile devices because of lack of possibility for miniaturization.…”
Section: Basic Principles Of Image Display and System Architecturementioning
confidence: 99%
See 1 more Smart Citation
“…In addition to LCDs and DMDs, other competing technologies for laser projection systems exist. A not comprehensive list includes LCoS (Liquid Crystal on Silicon), rotating polygon wheels, galvanic driven mirrors, and other Micro Scanning Mirrors [4] that use a different driving principle than the one by Fraunhofer IPMS. However, all of them are not suited for mobile devices because of lack of possibility for miniaturization.…”
Section: Basic Principles Of Image Display and System Architecturementioning
confidence: 99%
“…For all other cases (even numbers for f x and/or f y ) the distance between two knots in the center is equal to (3) with an optimum phase shift φ = 0. For high frequencies the maximum distance between two knots in the direction perpendicular two the oscillation axis can be approximated to (4) In order to achieve the required geometrical resolution of the projected image this difference must be smaller than the size of one pixel, The discrete pixels require the correction of the knots of the Lissajous figure with half the resolution of the axis with lower pixel count:…”
Section: Mathematical Analysismentioning
confidence: 99%
“…A not comprehensive list includes LCoS (Liquid Crystal on Silicon), rotating polygon wheels, galvanic driven mirrors, and other Micro Scanning Mirrors [4] that use a different driving principle than the one by Fraunhofer IPMS. However, all of them are not suited for mobile devices because of lack of possibility for miniaturization.…”
Section: Lasermentioning
confidence: 99%
“…For high frequencies the maximum distance between two knots in the direction perpendicular two the oscillation axis can be approximated to (4) Once again, this is only true for optimum phase difference between the two axes. In order to achieve the required geometrical resolution of the projected image this difference must be smaller than the size of one pixel, especially in the center of the image since the velocity of the laser beam has its maximum in this region.…”
Section: Mathematical Analysismentioning
confidence: 99%
“…MEMS are more convenient than scanners such as galvanometric, oscillatory or polygon mirrors not only because of their large mechanical deflection angle but also for their high level of integration. Various movable optical micromachined mirrors for beam scanning applications have been developed in the last few years [6][7][8]. In these systems, a high driving voltage is generally required for large deflection angles and large mirror surfaces.…”
Section: Introductionmentioning
confidence: 99%