Reflector (antenna)

About: Reflector (antenna) is a research topic. Over the lifetime, 28730 publications have been published within this topic receiving 212618 citations.

Electronic distance measuring device

Abstract: An electronic distance measuring device that measures a distance from the electronic distance measuring device to an objective station. The electronic distance measuring device includes a radiation source for emitting frequency-modulated radiation towards a reflector disposed at the objective station, and a detector for detecting radiation reflected by the reflector. The distance of the objective station from the electronic distance measuring device is then calculated in accordance with the detected radiation. At least one radiation attenuating filter is positioned in a radiation path between the radiation source and the detector. The radiation attenuating filter is inclined with respect to a main axis of the radiation path so as to prevent incidence on the detector of an irregular reflection of the radiation by the attenuating filter.

Low side lobe gregorian antenna

Abstract: A microwave antenna comprising the combination of a paraboloidal main reflector; a subreflector located such that the paraboloidal main reflector and the subreflector have a common focal point lying between the main reflector and the subreflector; a feed horn for transmitting microwave radiation (preferably symmetrically) to, and receiving microwave radiation from, said subreflector; and a shield connected to the peripheral portion of the subreflector and having an absorbing surface which reduces side lobe levels both by capturing the feed horn spillover energy and by reducing the diffraction of microwave radiation from the edge of the subreflector. The shield is preferably formed as a continuous axial projection extending from the periphery of the subreflector toward the main reflector substantially parallel to the axis of the feed horn. The reflective surface of the subreflector is suitably a section of an approximate ellipse.

Fiber optic differential sensor

Abstract: An optical differential sensor utilizes at least two optical waveguides to receive light directly from another waveguide or reflected from a mirror to sense the position of the waveguide or reflector relative to the position of at least two waveguides. Relative positions may be influenced by ambient conditions or from mechanical motions, thus affecting an environmental or metrical sensor.

Scanned antenna system

Abstract: Compact, microwave scanned antennas include combinations of a radiator, a reflector and a mirror. The radiator is formed by plating a shaped dielectric core. It generates an antenna beam at an output aperture in response to a microwave signal at an input port. The wavefront orientation of the antenna beam is a function of the wavefront orientation of the microwave signal at the input port. Changing the angular relationship between the path of the microwave signal and the input port changes the wavefront orentation of the antenna beam and, therefore, its beam axis. Pivoting the reflector realizes the desired angular change in the microwave signal path. Alternatively, the reflector can be fixed and the mirror pivoted to vary the microwave signal path. Antenna embodiments can be physically realized with a single moving part, the shaped dielectric is easy to form and when configured to operate at a high frequency, e.g., 77 GHz, the antenna is small enough to fit behind an automobile license plate.