Abstract: An ultra-wideband, low profile antenna is provided. The antenna includes a ground plane substrate and a radiating element. The radiating element includes at least two loop sections, wherein each of the at least two loop sections is electrically connected to a feed network and to the ground plane substrate. The radiating element is configured to radiate over a first frequency band when the feed network provides an in-phase input signal to the at least two loop sections and to radiate over a second frequency band when the feed network provides an out-of-phase input signal to the at least two loop sections. The second frequency band includes a lower frequency than the first frequency band.

Abstract: An electrically small receiver system is provided. The receiver system includes a plurality of antennas and a signal processing circuit. The plurality of antennas includes a first antenna configured to receive a first signal and a second antenna configured to receive a second signal. The signal processing circuit includes a first resonant loop and a second resonant loop. The first resonant loop is mounted to receive the first signal from the first antenna. The second resonant loop is mounted to receive the second signal from the second antenna. The first resonant loop and the second resonant loop are coupled such that the first output signal and the second output signal are generated as a function of the first signal and the second signal. A phase difference between the first output signal and the second output signal is greater than a phase difference between the first signal and the second signal.

Abstract: A transmitter supporting multiple-input, multiple-output communications is provided. The transmitter includes a signal processor, a plurality of feed elements, and an aperture. The signal processor is configured to simultaneously receive a plurality of digital data streams and to transform the received plurality of digital data streams into a plurality of analog signals. The number of the plurality of digital data streams is selected for transmission to a single receive antenna based on a determined transmission environment. The plurality of feed elements are configured to receive the plurality of analog signals, and in response, to radiate a plurality of radio waves toward the aperture. The aperture is configured to receive the radiated plurality of radio waves, and in response, to radiate a second plurality of radio waves toward the single receive antenna.

Abstract: A frequency selective surface-based (FSS-based) device (200) for processing electromagnetic waves providing at least a third-order response. The FSS-based device includes a first FSS (202), a second FSS (210), and a high quality factor (Q) FSS (206) interposed between the first and second FSSs. A first dielectric layer (204) and a second dielectric layer (208) separate the respective FSS layers. The first and second FSSs have first and second primary resonant frequencies, respectively. The high Q FSS has a lower primary resonant frequency relative to the first and second primary resonant frequencies. The overall electrical thickness of the FSS device can be <?/10. The high Q FSS has a loaded quality factor of at least thirty at the lower primary resonant frequency.

Abstract: A frequency selective surface-based (FSS-based) device (200) for processing electromagnetic waves providing at least a third-order response. The FSS-based device includes a first FSS (202), a second FSS (210), and a high quality factor (Q) FSS (206) interposed between the first and second FSSs. A first dielectric layer (204) and a second dielectric layer (208) separate the respective FSS layers. The first and second FSSs have first and second primary resonant frequencies, respectively. The high Q FSS has a lower primary resonant frequency relative to the first and second primary resonant frequencies. The overall electrical thickness of the PSS device can be <?/10. The high Q FSS has a loaded quality factor of at least thirty at the lower primary resonant frequency.

Abstract: A two-sided overlapping coupled sectorial loop antenna (CSLA). The CSLA includes a ground plane and a dielectric substrate mounted substantially perpendicular thereto. A first metalized trace is deposited on one side of the substrate and a second metalized trace is deposited on the other side of the substrate, where the metalized traces overlap at a center area and are coupled to a common feed at the center area. In one embodiment, the size of the CSLA is further reduced by adding inductors to the traces.

Abstract: A sectorial loop antenna structure that employs a plurality of pie-slice shaped sectors where adjacent sectors are coupled together by an arch and points of the sectors are coupled to a common feed. In one embodiment, the antenna structure includes a first sectorial loop antenna having two pie-slice shaped sectors and an arch therebetween, and a second sectorial loop antenna having two pie-slice shaped sectors and an arch therebetween. In another embodiment, the antenna structure includes a first pie-slice shaped sector and a second pie-slice shaped sector having an arch therebetween.

Abstract: A dual-slot coupled sectorial loop antenna (CSLA). The dual-slot CSLA includes a metalized layer deposited on a dielectric substrate. Portions of the metalized layer are removed to define two pie-slice shaped sectors that are electrically isolated from the remaining portion of the metalized layer, where points of the pie-slice shaped sectors oppose each other and are electrically coupled to a common feed.

Abstract: A wide-band double-loop antenna. The antenna includes a metal trace deposited on a dielectric substrate. The metal trace includes a plurality of trace legs and a cross-bar trace that define an E-shape. Two of the legs are electrically coupled to a ground plane, and the third leg is electrically coupled to a feed, such as a center conductor of a coaxial connector. An outer conductor of the connector is electrically coupled to the ground plane.

Abstract: A single-element antenna system that provides a wide bandwidth and consistent polarization over the frequency range to which the antenna is impedance matched. In one embodiment, the wideband antenna system includes two parallel coupled sectorial loop antennas (CSLA) that are coupled along an axis of symmetry. In another embodiment, half of the coupled sectorial loop antenna is electrically coupled to a ground plane, where the antenna includes one pie-slice shaped sector and two arches. In alternate embodiments, sections of the sector can be removed to reduce the weight of the antenna system.

Abstract: A single-element antenna system that provides a wide bandwidth and consistent polarization over the frequency range to which the antenna is impedance matched. In one embodiment, the wideband antenna system includes two parallel coupled sectorial loop antennas (CSLA) that are coupled along an axis of symmetry. In another embodiment, half of the coupled sectorial loop antenna is electrically coupled to a ground plane, where the antenna includes one pie-slice shaped sector and two arches. In alternate embodiments, sections of the sector can be removed to reduce the weight of the antenna system.