Abstract: RFID tag designs and sensors are disclosed that include a dispersive antenna and exhibit greater detection ranges relative to conventional designs. The designs include, for example a transponder having including a rectifier, a radio-frequency identification (RFID) circuit for receiving and responding to interrogation signals, and a frequency dispersion element for receiving a multi-phase input signal and creating a pulse therefrom for input to the rectifier. Frequency-dispersive elements (e.g., antennas) and compatible interrogation waveforms can be used so that the rectifying diodes receive high peak voltage levels relative to the average voltage levels.

Abstract: An antenna comprising a crossed pair of center-fed end-loaded bent-dipole radiators which are structurally embedded into a properly loaded cavity. Broadband, dual independent polarized, and hemisphere field-of-view coverage with low RCS characteristics is provided with this antenna.

Abstract: RFID tag designs and sensors are disclosed that include a dispersive antenna and exhibit greater detection ranges relative to conventional designs. The designs include, for example a transponder having including a rectifier, a radio-frequency identification (RFID) circuit for receiving and responding to interrogation signals, and a frequency dispersion element for receiving a multi-phase input signal and creating a pulse therefrom for input to the rectifier. Frequency-dispersive elements (e.g., antennas) and compatible interrogation waveforms can be used so that the rectifying diodes receive high peak voltage levels relative to the average voltage levels.

Abstract: An antenna formed with a number of notch antennas forming an sectional inner ring and a sectional outer ring. Each of the notch antennas having a pair of leaves with a throat end proximate the inner ring and a leaf tip end proximate the outer ring, wherein the leaves are separated by a notch area. There is a lagoon interiorly disposed about the inner ring. At least one feed is coupled to at least one throat end. A lower horizontal loop couples each leaf tip and forms the outer ring. In addition, a plurality of slots separates each of the notch antennas.

Abstract: An antenna comprising a crossed pair of center-fed end-loaded bent-dipole radiators which are structurally embedded into a properly loaded cavity. Broadband, dual independent polarized, and hemisphere field-of-view coverage with low RCS characteristics is provided with this antenna.

Abstract: An efficient antenna exhibiting primarily circular polarization is described. Electrical performance is similar to that of a patch antenna having the same volume; however, greater bandwidth is achieved. The antenna consists of four radiating elements arranged in a semi-spiral configuration on a dielectric material, with a shunt feed system. The novel feed system incorporates a phase delay line, with two adjacent elements fed. The other two elements are parasitically coupled to the first two, with a 180 degree phase difference, resulting in a progressive phase shift of 90 degrees between the four elements. Circular polarization is a product of the symmetric geometry, as opposed to a circularly polarized patch antenna, which utilizes an offset feed. The antenna may be placed directly on a printed wiring board having a ground plane. The antenna is well suited for GPS applications and has a smaller major surface area than a patch antenna with comparable performance.

Abstract: An efficient antenna exhibiting primarily circular polarization is described. Electrical performance is similar to that of a patch antenna having the same volume; however, greater bandwidth is achieved. The antenna consists of four radiating elements arranged in a semi-spiral configuration on a dielectric material, with a shunt feed system. The novel feed system incorporates a phase delay line, with two adjacent elements fed. The other two elements are parasitically coupled to the first two, with a 180 degree phase difference, resulting in a progressive phase shift of 90 degrees between the four elements. Circular polarization is a product of the symmetric geometry, as opposed to a circularly polarized patch antenna, which utilizes an offset feed. The antenna may be placed directly on a printed wiring board having a ground plane. The antenna is well suited for GPS applications and has a smaller major surface area than a patch antenna with comparable performance.