Electronically reconfigurable and mechanically conformal apertures using low-voltage MEMS and flexible membranes for space-based radar applications

Jennifer T. Bernhard; Nan-Wei Chen; Randall Clark; Milton Feng; Chang Liu; Paul Mayes; Eric Michielssen; Roy R. Wang; Leonard G. Chorosinski

doi:10.1117/12.436592

16 August 2001 Electronically reconfigurable and mechanically conformal apertures using low-voltage MEMS and flexible membranes for space-based radar applications

Jennifer T. Bernhard, Nan-Wei Chen, Randall Clark, Milton Feng, Chang Liu, Paul Mayes, Eric Michielssen, Roy R. Wang, Leonard G. Chorosinski

Author Affiliations +

Proceedings Volume 4334, Smart Structures and Materials 2001: Smart Electronics and MEMS; (2001) https://doi.org/10.1117/12.436592
Event: SPIE's 8th Annual International Symposium on Smart Structures and Materials, 2001, Newport Beach, CA, United States

Abstract

The University of Illinois and Northrop Grumman Corporation have teamed to integrate a wide band reconfigurable aperture array with associated wide band T/R functions on a flexible and foldable/rollable substrate for space based radar applications. Advanced MEMS and packaging techniques are used to make the antenna array lightweight, reliable, and reproducible. Soft flexible substrates make the antenna foldable/rollable with the associated electronics below the ground plane of the antenna elements. The individually reconfigurable antenna element uses MEMS switches to select between two broad frequency bands of operation. These MEMS switches have low actuation voltages and stress-free operation, improving the array's reliability. The reconfigurable antenna element is based on a low-profile radiator that provides greatly increased instantaneous bandwidth over microstrip patch antennas currently in place for phased array applications. Voltage-controlled MEMS switches are utilized to switch between stacked layers of elements that operate in the S- and X-bands. In each band, the antenna elements provide at least 25% instantaneous bandwidth. The challenges presented by the flexible substrate and the array design as well as experimental and simulated results for the antenna elements and switches are discussed.

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Jennifer T. Bernhard, Nan-Wei Chen, Randall Clark, Milton Feng, Chang Liu, Paul Mayes, Eric Michielssen, Roy R. Wang, and Leonard G. Chorosinski "Electronically reconfigurable and mechanically conformal apertures using low-voltage MEMS and flexible membranes for space-based radar applications", Proc. SPIE 4334, Smart Structures and Materials 2001: Smart Electronics and MEMS, (16 August 2001); https://doi.org/10.1117/12.436592

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