Abstract: A method and apparatus for determining the range, radial velocity, and bearing angles of scattering objects reflecting RF signals or for determining the range, radial velocity, and bearing angles of sources RF signals. An array of antenna elements is utilized, the array of antenna elements each having an associated two state modulator wherein transmitted and/or received energy is phase encoded according to a sequence of multibit codes, the bits of the multibit codes each preferably having two states with approximately a 50% probability for each of the two states occurring within each given multibit code in said sequence of multibit codes, thereby allowing the determination of range, radial velocity, and bearing angles through digital computation after the scattered signals have been received.

Abstract: A four port antenna decoupling network which has only two negative capacitors and four or more positive capacitors and a method of improving low frequency receiving performance of two element and four element antenna arrays using one or more wideband decoupling circuits wherein each of said wideband decoupling circuits contain a maximum of two non-Foster components, the two non-Foster components preferably simulating negative capacitors.

Abstract: An antenna array containing two or more radiating elements, with nearest neighbor radiating elements connected together with a non-Foster circuit at terminals of the radiating elements such that mutual reactance of the elements is reduced over a wider bandwidth than which would be obtained if the non-Foster circuits were omitted.

Abstract: A radar system in which Coded Aperture Radar processing is performed on received radar signals reflected by one or more objects in a field of view which reflect a transmitted signal which covers a field of view with K sweeps and each sweep including Q frequency changes. For Type II CAR, the transmitted signal also includes N modulated codes per frequency step. The received radar signals are modulated by a plurality of binary modulators the results of which are applied to a mixer. The output of the mixer, for one acquisition results in a set of Q·K (for Type I CAR) or Q·K·N (for Type II CAR) complex data samples, is distributed among a number of digital channels, each corresponding to a desired beam direction. For each channel, the complex digital samples are multiplied, sample by sample, by a complex signal mask that is different for each channel.

Abstract: A method and apparatus for reducing noise in a coded aperture radar system, the coded aperture radar system transmitting signals which occur in sweeps, with K sweeps utilized to cover field of view of the coded aperture radar system and Q frequency shifts or steps occurring each sweep thereof. An array of N antenna elements is provided, the array of antenna elements each having an associated two state modulator coupled therewith. Energy received at the array is modulated according to a sequence of multibit codes, the number of codes in the sequence of codes comprising at least K times Q times N, thereby reducing noise in the coded aperture radar system compared to a coded aperture radar system radar system having fewer than K times Q times N codes in its sequence of multibit codes.

Abstract: A method and apparatus for determining the range, radial velocity, and bearing angles of scattering objects reflecting RF signals or for determining the range, radial velocity, and bearing angles of sources RF signals. An array of antenna elements is utilized, the array of antenna elements each having an associated two state modulator wherein transmitted and/or received energy is phase encoded according to a sequence of multibit codes, the multibit codes each having two states with approximately a 50% probability for each of the two states occurring in each given multibit code in said sequence of multibit codes, thereby allowing the determination of range, radial velocity, and bearing angles through digital computation after the scattered signals have been received.

Abstract: An imaging array for sensing scene energy includes a plurality of sensors, a radiative noise source for radiating noise energy, a modulator for turning the radiative noise source on and off, and a coupling device for combining a first portion of the scene energy and a second portion of the noise energy to form a combined scene and noise energy for sensing by the plurality of sensors.

Abstract: A multi-layered semiconductor apparatus capable of producing at least 500 W of continuous power includes at least two device substrates arranged in a stack. Each of the at least two device substrates has a first side and a second side opposite to the first side, and each of the at least two device substrates is configured to produce an average power density higher than 100 W/cm2. A plurality of active devices are provided on the first side of each of the at least two device substrates. The plurality of active devices are radiatively coupled among the at least two device substrates. At least one of the at least two device substrates is structured to provide a plurality of cavities on its second side to receive corresponding ones of the plurality of active devices on the first side of an adjacent one of the at least two device substrates.

Abstract: A radiometer for sensing energy includes a first amplifier for amplifying the energy, the first amplifier having a first output, a reference amplifier having a reference input and having a second output, a second amplifier having an input coupled to the first output and the second output, and a controller for switching on and off the first amplifier and the reference amplifier, so that the when the first amplifier is on, the reference amplifier is off, and so that the when the reference amplifier is on, the first amplifier is off.

Abstract: A compressive sensor for sensing energy including a plurality of detectors for detecting a plurality of electromagnetic modes, wherein each detector has an output and detects at least one electromagnetic mode of the energy, a summer coupled to the plurality of detectors for forming a composite sum of the outputs of the plurality of detectors, and a plurality of switches, each respective switch coupled to a respective detector, wherein the respective switch may be switched to remove the respective detector from the composite sum.

Abstract: A dielectric resonator antenna that has active components on a selected surface. Also a feed element in the form of a slot may be formed on the surface to efficiently generate the proper resonance mode within the bulk of the dielectric resonator antenna. The entire dielectric resonator antenna may be flip-chip mounted onto a suitable microwave substrate.

Abstract: An imager comprising a sphere of dielectric material and a geodesically configured substrate disposed adjacent said sphere. The geodesically configured substrate comprises a plurality of triangularly shaped elements, at least selected ones of the triangularly shaped elements having an array of detectors disposed thereon, the detectors in the array also being disposed adjacent the dielectric sphere for receiving and detecting incoming electromagnetic waves delivered via said sphere.

Abstract: A detector circuit for an operational bandwidth having a center frequency including a diode, a first inductor in series with the diode, a transmission line coupled across the diode on a first end of the transmission line, the transmission line having an impedance and being in length a quarter wavelength of a frequency near the center frequency of the operational bandwidth, and a capacitor coupled across a second end of the transmission line.

Abstract: A method for compensating a plurality of sensors comprises exposing each of the plurality of sensors to a scene energy from a scene, exposing each of the plurality of sensors to the scene energy from the scene and a reference signal energy, exposing each of the plurality of sensors to a uniform signal energy, exposing each of the plurality of sensors to the uniform signal energy and the reference signal energy, obtaining reference outputs during each exposure of the plurality of sensors, and determining the scene energy received by each of the plurality of sensors relative to the reference signal energy by combining the sensor and reference outputs obtained.

Abstract: A multi-layered semiconductor apparatus capable of producing at least 500 W of continuous power includes at least two device substrates arranged in a stack. Each of the at least two device substrates has a first side and a second side opposite to the first side, and each of the at least two device substrates is configured to produce an average power density higher than 100 W/cm2. A plurality of active devices are provided on the first side of each of the at least two device substrates. The plurality of active devices are radiatively coupled among the at least two device substrates. At least one of the at least two device substrates is structured to provide a plurality of cavities on its second side to receive corresponding ones of the plurality of active devices on the first side of an adjacent one of the at least two device substrates.

Abstract: An artificial impedance structure and a method for manufacturing same. The structure contains a dielectric layer having generally opposed first and second surfaces, a conductive layer disposed on the first surface, and a plurality of conductive structures disposed on the second surface to provide a preselected impedance profile along the second surface.

Abstract: An imager comprising a sphere of dielectric material and a geodesically configured substrate disposed adjacent said sphere. The geodesically configured substrate comprises a plurality of triangularly shaped elements, at least selected ones of the triangularly shaped elements having an array of detectors disposed thereon, the detectors in the array also being disposed adjacent the dielectric sphere for receiving and detecting incoming electromagnetic waves delivered via said sphere.

Abstract: An apparatus for frequency up conversion and down conversion using frequency multiplier circuits. The frequency multiplier circuits receive a lower frequency signal and are operated in a forward direction to provide a higher frequency output. The same frequency multiplier circuits are operated in a reverse direction by receiving a higher frequency signal and producing a lower frequency output. The frequency multiplier circuits preferably use heterojunction barrier varactor diodes to eliminate the need for DC bias or idler circuitry.

Abstract: When illuminated with a plane wave a variable cross-coupling partial reflector reflects a specific amount of a cross-polarized field and a specific amount of a co-polarized field and transmits the remaining power with low attenuation. This is achieved with a pair of frequency selective surfaces (FSS) that are rotated with respect to the incident plane wave. The FSSs can be fixed with a given alignment for a particular application or a tuning mechanism can be provided to independently rotate the surfaces and adapt the reflected co- and cross-polarized fields to changing requirements. Of particular interest is the ability to provide a specific amount of cross-polarized reflected power while reflecting no co-polarized field over a certain range of wavelengths. This will be useful to increase power efficiency in, for example, wave power sources that utilize quasi-optical power by causing oscillations in reflection amplifier arrays.

Abstract: An integrated communication device having a substrate layer of substantially electrically nonconductive material with two substantially parallel surfaces, an antenna element disposed on one of the surfaces, a ground layer of substantially electrically conductive material disposed on the other surface and having an opening formed therethrough opposite from the antenna element, and a transceiver device mounted to the ground layer to transmit and/or receive electromagnetic energy through the opening.