Low Power MEMS Retroreflectors for Optical Communication

Abstract

Report developed under STTR contract W911NF-08-C-0006. In this Army Phase II STTR program, the BU and BMC project teams successfully designed, developed and tested a new low-power, light-weight and low-cost modulating retroreflector (MRR) system for free-space covert optical communication and remote sensor interrogation. The central component of the prototype is a MEMS modulator mirror, which is physically similar to a very low modulation reflective diffraction grating that has actively controlled groove depth and can operate at frequencies up to 1MHz. One facet of a hollow corner cube retroreflector consists of the MEMS mirror, which provides intensity. modulation of a reflected interrogating beam by switching from an unpowered flat mirror state to a powered diffractive state. The system is optimized for performance at 1550nm and has a field of view of 60 degrees. For covert operation it uses ?wake-up? circuitry to control a low-power shutter that remains closed between data transfers. The system's compact driver electronics employs power scavenging and resonant properties for minimal power consumption and extended

Document Details

Document Type

Technical Report

Publication Date

Feb 01, 2010

Accession Number

ADA520738

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