Coplanar Wave guide Slot-coupled Ka-band Patch Antenna for Integration with Wafer-scale Beam-steering MEMS Control Board

Abstract

A coplanar waveguide (CPW) slot-coupled Ka-band patch antenna is designed, constructed and tested for subsequent integration with a wafer-scale MEMS-switched antenna array beam-steering control board. The antenna is designed for fabrication on a high resistivity silicon (FIRs) wafer (dielectric constant approximately 11.8)for operation with 25-30 GHz satellite communication systems. A simulated 10 dB return loss bandwidth of 2.96 GHz (9.8 %) is achieved with a 4.6 dB peak gain and 110 degree half-power beamwidth (RPBW). A scaled prototype at 6 GHz is constructed on RT/Duroid 6010 substrate (dielectric constant approx. 10.2) and yields a measured bandwidth of 360 MHz (6.0 %) and a peak gain of 4 dB. A CPW feedline / slot misalignment sensitivity test is conducted through simulations to investigate the effects that fabrication errors may have on antenna performance during wafer-scale integration of the patch antenna onto the HRS substrate. Simulation results show that slot misalignment less than 200-400 microns should only minimally affect antenna performance, with the most significant degradation being a 2.5 - 4.0 % drop in antenna bandwidth. The successful design of this patch antenna demonstrates a compact, efficient method for integration of a CPW slot-coupled Ka-band patch antenna onto a wafer-scale MEMS control board without the need for additional substrate layers or feedline interconnects, minimizing total system weight and fabrication complexity.

Document Details

Document Type

Technical Report

Publication Date

Jun 01, 2008

Accession Number

ADP023674

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