Abstract: Embodiments of a switchable high-power transmit module to selectively provide a high-power microwave signal in excess of one kilowatt to one of first and second output paths are disclosed herein. The module includes a switch to receive a lower-power microwave signal from a source, a first ninety-degree coupler for directing power from the switch to first and second paths, a first high-power amplifier disposed in the first path, a second high-power amplifier disposed in the second path, and a second ninety-degree coupler to receive output signals of the first and second amplifiers. The switch is configured to selectively couple the lower-power microwave signal between first and second input ports of the first ninety-degree coupler.

Abstract: There is disclosed a solid state non-lethal directed energy weapon. The non-lethal weapon may include a solid-state source to generate a high-power millimeter-wave initial wavefront, a main reflector, and a sub-reflector to reflect the initial wavefront to the main reflector. The main reflector may direct the reflected wavefront in a bore-sighted direction toward a target. The wavefront directed by the main reflector may have a power density selected to deliver a non-lethal deterring effect on the target.

Abstract: A modular solid-state MMW power source based on a topology of the lens array amplifier provides both the flexibility to scale output power and effective thermal management. The modular power source includes a single submodule that uses one or more power dividers and one or more solid-state amplification stages to divide and amplify an RF input signal into R amplified RF signals. The submodule is mounted (suitably in the X-Y plane) on the surface of a heat sink, suitably coupled to a cold backplane, to remove heat. R 1:N low loss power dividers route the amplified RF signals to R*N radiating elements. Each of the 1:N power dividers suitably reside in the X-Z plane and are stacked in the Y direction to provide a planar output of the R*N radiating elements in the Y-Z plane. Placement of the amplifier chips on the single submodule decouples the number of amplifier chips, hence output power, from the number of radiating elements.

Abstract: There is disclosed an apparatus to test an antenna. A transmitter generates a test signal radiated by the antenna under test. A near field scanner includes a field sampling probe to capture electromagnetic energy radiated by an antenna under test. An x-y positioning system including x and y positioning motors moves the field sampling probe over a measurement surface disposed proximate to the antenna under test. A quasi-optical beam transport system couples at least a portion of the captured electromagnetic energy from the field sampling probe to a scanner output port. A receiver is coupled to the scanner output port.

Abstract: A portable weapon comprises a non-lethal portion and a lethal portion. The lethal portion may comprise a rifle, and the non-lethal portion may comprise a millimeter-wave directed energy weapon. The non-lethal portion may comprise a kit to add non-lethal capability to a lethal weapon. The non-lethal portion may comprise an output antenna to generate a high-power millimeter-wave initial wavefront, a main reflector, and a sub-reflector to reflect the initial wavefront to the main reflector. The main reflector may direct the reflected wavefront in a bore-sighted direction toward a target. The wavefront directed by the main reflector may have a power density selected to deliver a non-lethal deterring effect on the target. In some embodiments, the non-lethal portion may include a replaceable energy-storage module.

Abstract: A millimeter wave amplifier constructed on a substrate and configured for use at a frequency of 75 GHz or higher, may include four amplifier stages. A first inter-stage filter, resonant at an operating frequency of the amplifier, may couple the output of the first stage to the input of the second stage. A second inter-stage filter, resonant at the operating frequency, may couple the output of the second stage to the input of the third stage. A third inter-stage filter, resonant at the operating frequency, may couple the output of the third stage to the input of the fourth stage. A plurality of bias supply leads that couple a gate bias voltage and a drain bias voltage to each of the amplifier stages. A plurality of bias line filters, resonant at the operating frequency, may be connected from at least some of the bias supply leads to a ground plane.

Abstract: A description is provided of a high-frequency, multi-stage, millimeter wave amplifier integrated circuit, and of a method for designing and constructing the circuit. The methods and structures have been created to enable the construction of an amplifier offering substantial gain at a relatively high power and high frequency, but occupying minimal area of an integrated circuit die. Various structures and methodologies are described which each contribute to the practical feasibility of constructing an amplifier with such performance in a relatively compact space.

Abstract: There is disclosed a self-contained electronic apparatus containing at least some power-dissipating components which may require cooling. The self-contained electronic apparatus may also include a removable and replaceable energy storage module. The removable and replaceable energy storage module may include a power element to provide electrical energy for the self-contained electronic apparatus and a cooling element to cool at least a portion of the power dissipating components.

Abstract: In various representative aspects, the present invention provides systems and methods for waveguides. A waveguide may comprise a housing and a plurality of reflective surfaces configured to couple to the housing. The housing may be configured to couple to an electromagnetic wave beam generator. The electromagnetic wave beam generator may, be configured to provide a wave beam having a polarization substantially similar to its initial polarization. At least one of the plurality of reflective surfaces may be configured to convert the mode of an incident wave beam. The plurality of reflective surfaces may be configured for alignment in a waveguide.

Abstract: An RFDE system includes an RFDE transmitter and at least one RFDE antenna. The RFDE transmitter and antenna direct high power electromagnetic energy towards a target sufficient to cause high energy damage or disruption of the target. The RFDE system further includes a targeting system for locating the target. The targeting system includes a radar transmitter and at least one radar antenna for transmitting and receiving electromagnetic energy to locate the target. The RFDE system also includes an antenna pointing system for aiming the at least one RFDE antenna at the target based on the location of the target as ascertained by the targeting system. Moreover, at least a portion of the radar transmitter or the at least one radar antenna is integrated within at least a portion of the RFDE transmitter or the at least one RFDE antenna.

Abstract: An unloader for a cotton compacting structure such as a module builder, including loose cotton retaining apparatus configured and operable for retaining loose cotton carried from, and returning the loose cotton to, the compacting structure. Apparatus of the invention can include an array or arrays of individual upstanding filaments, or flaps, located on a cotton conveying surface of a door arrangement or ramp extending from the compacting structure and over which a mass of compacted cotton or module is unloaded. The apparatus is configured to allow passage of a mass or module of compacted cotton thereover, while preventing passage of at least a substantial portion of any loose cotton following the mass or module along the surface. The apparatus is also configured for returning the loose cotton to the compacting structure upon folding or closing of the door or ramp.

Abstract: There is disclosed a reflect array which may include a dielectric substrate having first and second surfaces. The second surface may support a conductive layer. A first array of conductive phasing elements and a second array of conductive phasing elements may be supported by the first surface. The first array may have a first pitch and the second array may have a second pitch different from the first pitch.

Abstract: In various representative aspects, the present invention provides systems and methods for waveguides. A waveguide may comprise a housing and a plurality of reflective surfaces configured to couple to the housing. The housing may be configured to couple to an electromagnetic wave beam generator. The electromagnetic wave beam generator may, be configured to provide a wave beam having a polarization substantially similar to its initial polarization. At least one of the plurality of reflective surfaces may be configured to convert the mode of an incident wave beam. The plurality of reflective surfaces may be configured for alignment in a waveguide.

Abstract: A portable weapon comprises a non-lethal portion and a lethal portion. The lethal portion may comprise a rifle, and the non-lethal portion may comprise a millimeter-wave directed energy weapon. The non-lethal portion may comprise a kit to add non-lethal capability to a lethal weapon. The non-lethal portion may comprise an output antenna to generate a high-power millimeter-wave initial wavefront, a main reflector, and a sub-reflector to reflect the initial wavefront to the main reflector. The main reflector may direct the reflected wavefront in a bore-sighted direction toward a target. The wavefront directed by the main reflector may have a power density selected to deliver a non-lethal deterring effect on the target. In some embodiments, the non-lethal portion may include a replaceable energy-storage module.

Abstract: Apparatus for collapsing an on-board crop receiver of a harvester to a transport position, utilizing a remotely releasable locking element to allow telescopic collapsing or retracting the receiver without entering the receiver, and powered apparatus for positively collapsing a duct extending between a row unit of the harvester and an inlet opening of the receiver. The duct is telescopically retractable at an inclined angle by a similarly inclined duct driver to a height about equal to that of the receiver when in the transport position, so as to be freed from the receiver and any associated hood extending outwardly therefrom associated with the inlet opening. Using crop compactor apparatus within the interior of the receiver, the compactor can be lowered and the locking mechanism unlocked, and then the compactor operated to telescopically collapse or retract the receiver. The receiver can be extended in the reverse order.

Abstract: An unloader for a cotton compacting structure such as a module builder, including loose cotton retaining apparatus configured and operable for retaining loose cotton carried from, and returning the loose cotton to, the compacting structure. Apparatus of the invention can include an array or arrays of individual upstanding filaments, or flaps, located on a cotton conveying surface of a door arrangement or ramp extending from the compacting structure and over which a mass of compacted cotton or module is unloaded. The apparatus is configured to allow passage of a mass or module of compacted cotton thereover, while preventing passage of at least a substantial portion of any loose cotton following the mass or module along the surface. The apparatus is also configured for returning the loose cotton to the compacting structure upon folding or closing of the door or ramp.

Abstract: A foldable reflect array may include a plurality of geometrically-flat reflect antennas. Each of the reflect antennas may include a respective plurality of antenna elements to receive and retransmit an incident wavefront, and each of the plurality of reflect antennas may be foldably coupled to at least one other of the plurality of reflect antennas.

Abstract: A reflect array antenna including a plurality of unit cells. Each cell includes first, second, third and fourth patch antenna segments. An amplifier is coupled between said first patch segment and the second patch segment or the third patch segment and the fourth patch segment. At least one of the patch antenna segments of a first unit cell is electrically connected to a patch antenna segment of a second unit cell. The first patch antenna segment of a first unit cell is electrically connected to a third patch segment of a second unit cell. Each patch segment of each unit cell is electrically connected to a patch segment of a neighboring cell. The first and third patche segments are the input terminals of each cell and the second and fourth patch segments of each cell are the output terminals. The output terminals of each cell are coupled to the output terminals of neighboring cells. This provides an output patch antenna, of greater area, fed by multiple cells.

Abstract: A surface-heating system heats a surface with a high-power wavefront at a millimeter-wave frequency. The high-power wavefront may be a collimated wavefront or a converging or diverging wavefront. In some embodiments, the system includes a frequency generator to generate a lower-power millimeter-wave frequency signal, and an active-array antenna system to amplify the millimeter-wave frequency and generate the high-power wavefront in a direction of a surface for heating the surface. In other embodiments, a frequency generator and power amplifier may generate a high-power power millimeter-wave frequency signal, and a passive-array antenna system may provide the high-power wavefront in a direction of the surface. In some embodiments, a thermal-sensing subsystem may measure the surface temperature and generate a control signal to maintain the surface temperature within a predetermined temperature range.

Abstract: A portable weapon comprises a non-lethal portion and a lethal portion. The lethal portion may comprise a rifle, and the non-lethal portion may comprise a millimeter-wave directed energy weapon. The non-lethal portion may comprise a kit to add non-lethal capability to a lethal weapon. The non-lethal portion may comprise an output antenna to generate a high-power millimeter-wave initial wavefront, a main reflector, and a sub-reflector to reflect the initial wavefront to the main reflector. The main reflector may direct the reflected wavefront in a bore-sighted direction toward a target. The wavefront directed by the main reflector may have a power density selected to deliver a non-lethal deterring effect on the target. In some embodiments, the non-lethal portion may include a replaceable energy-storage module.