2013
DOI: 10.1117/1.jmm.13.1.011103
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Resonant biaxial 7-mm MEMS mirror for omnidirectional scanning

Abstract: Low-cost automotive laser scanners for environmental perception are needed to enable the integration of advanced driver assistant systems into all automotive vehicle segments, which is a key to reduce the number of traffic accidents on roads. Within the scope of the European-funded project MiniFaros, partners from five different countries have been cooperating in developing a small-sized low-cost time-of-flight-based range sensor. An omnidirectional 360-deg laser scanning concept has been developed based on th… Show more

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Cited by 41 publications
(17 citation statements)
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“…6, top). Mirrors with true 360-degrees scanning range have been developed [25], where a clever 2D actuation kinematics, based on asymmetric suspensions, gives a full rotation around the axis of the incident laser beam. Two-axes (2D) MEMS micro-mirrors are also actively developed, but their main envisioned application is currently for image projectors, where a raster scanning pattern is used [26].…”
Section: B Micro-mirrors For Low-cost Lidar Scanningmentioning
confidence: 99%
See 1 more Smart Citation
“…6, top). Mirrors with true 360-degrees scanning range have been developed [25], where a clever 2D actuation kinematics, based on asymmetric suspensions, gives a full rotation around the axis of the incident laser beam. Two-axes (2D) MEMS micro-mirrors are also actively developed, but their main envisioned application is currently for image projectors, where a raster scanning pattern is used [26].…”
Section: B Micro-mirrors For Low-cost Lidar Scanningmentioning
confidence: 99%
“…In gimballed 2D mirrors, these problems are exacerbated. Published scanning micromirror diameters typically range from 2 mm up to 7 mm [25]. At this size, resonance frequency scale from several tens of kHz to 1 kHz or less.…”
Section: B Micro-mirrors For Low-cost Lidar Scanningmentioning
confidence: 99%
“…Among applications that need large-displacement MEMS, displays [9][10][11] and light detection and ranging (LiDAR) scanning systems 12) particularly require larger MEMS actuators because the resolution of displays and scanning systems is proportional to the performance of the MEMS mirror. The performance is expressed as the index θ OPT · D · f, where θ OPT is the optical scan angle, D is the mirror diameter, and f is the scan frequency.…”
Section: Large Mems Structuresmentioning
confidence: 99%
“…Consequently, a mirror array or a very large single MEMS mirror setup is in the range of typically 1-to 11-mm diameter. [9][10][11][12] On the one hand, the cost factor rises directly with the active mirror area. 13 On the other hand, the requirement of a large MEMS mirror surface is a major drawback for fast and reproducible scanning.…”
Section: Introductionmentioning
confidence: 99%