Abstract: An AWTSS is shown to be made up of an improved synthetic aperture radar (SAR) for generating radar maps with various degrees of resolution required for navigation of an aircraft and detection of ground targets in the presence of electronic countermeasures and clutter. The SAR consists, in effect, of four frequency-agile radars sharing quadrants of a single array antenna mounted within a radome on a "four axis" gimbal with a sidelobe cancelling subarray mounted at the phase center of each quadrant. Motion sensors are also mounted on the single array antenna to provide signals for compensating for vibration and stored compensating signals are used to compensate for radome-induced errors. In addition, a signal processor is shown which is selectively operable to generate radar maps of any one of a number of desired degrees of resolution, such processor being adapted to operate in the presence of clutter or jamming signals.

Abstract: A transducer assembly providing a conversion between the electrical and sonic energy, the transducer assembly being adapted for operating submerged at great depths in ocean waters. The transducer assembly is formed by a front and back plate which are affixed in one embodiment to the ends of a first mechanically distributed impedance member, a second mechanically distributed impedance member located between the front and the back plate and a transducer of electroacoustical material mechanically coupling the first and second members for imparting sonic vibrations to these members. In a preferred embodiment, the transducer is bonded at one end thereof to the back plate and at the other end thereof to the second member. External hydrostatic pressure present at the front and back plates does not compress the electroacoustical material.

Abstract: An AWTSS is shown to be made up of an improved synthetic aperture radar (SAR) for generating radar maps with various degrees of resolution required for navigation of an aircraft and detection of ground targets in the presence of electronic counter measures and clutter. The SAR consists, in effect, of four frequency-agile radars sharing quadrants of a single array antenna mounted within a radome on a "four axis" gimbal with a sidelobe cancelling subarray mounted at the phase center of each quadrant. Motion sensors are also mounted on the single array antenna to provide signals for compensating for vibration and stored compensating signals are used to compensate for radome-induced errors. In addition, a signal processor is shown which is selectively operable to generate radar maps of any one of a number of desired degrees of resolution, such processor being adapted to operate in the presence of clutter or jamming signals.

Abstract: An AWTSS is shown to be made up of an improved synthetic aperture radar (SAR) for generating radar maps with various degrees of resolution required for navigation of an aircraft and detection of ground targets in the presence of electronic countermeasures and clutter. The SAR consists, in effect, of four frequency-agile radars sharing quadrants of a single array antenna mounted within a radome of a "four axis" gimbal with a sidelobe cancelling subarray mounted at the phase center of each quadrant. Motion sensors are also mounted on the single array antenna to provide signals for compensating for vibration and stored compensating signals are used to compensate for radome-induced errors. In addition, a signal processor is shown which is selectively operable to generate radar maps of any one of a number of desired degrees of resolution, such processor being adapted to operate in the presence of clutter or jamming signals.

Abstract: An AWTSS is shown to be made up of an improved synthetic aperture radar (SAR) for generating radar maps with various degrees of resolution required for navigation of an aircraft and detection of ground targets in the presence of electronic counter-measures and clutter. The SAR consists, in effect, of four frequency-agile radars sharing quadrants of a single array antenna mounted within a radome on a "four axis" gimbal with a sidelobe cancelling subarray mounted at the phase center of each quadrant. Motion sensors are also mounted on the single array antenna to provide signals for compensating for vibration and stored compensating signals are used to compensate for radome-induced errors. In addition, a signal processor is shown which is selectively operable to generate radar maps of any one of a number of desired degrees of resolution, such processor being adapted to operate in the presence of clutter or jamming signals.

Abstract: An AWTSS is shown to be made up of an improved synthetic aperture radar (SAR) for generating radar maps with various degrees of resolution required for navigation of an aircraft and detection of ground targets in the presence of electronic counter-measures and clutter. The SAR consists, in effect, of four frequency-agile radars sharing quadrants of a single array antenna mounted within a radome on a "four axis" gimbal with a sidelobe cancelling subarray mounted at the phase center of each quadrant. Motion sensors are also mounted on the single array antenna to provide signals for compensating for vibration and stored compensating signals are used to compensate for randome-induced errors. In addition, a signal processor is shown which is selectively operable to generate radar maps of any one of a number of desired degrees of resolution, such processor being adapted to operate in the presence of clutter or jamming signals.

Abstract: A laser radar system for measuring wind velocities including apparatus for permitting the system to measure the direction of the atmospheric flow field. A modulator is used to chirp the laser frequency toward increasing frequencies. The local oscillator frequency available for homodyning will be offset from the initial transmitted frequency by an amount equal to the chirp rate multiplied by the round trip transit time to the aerosols at the focal point of the converging laser beam. During the up-ramped chirps of the optical beam frequency, the Doppler shift frequency of aerosols moving toward the laser beam will be translated to a lower frequency, and the Doppler shift frequency of aerosols moving away from the laser beam will be frequency translated upward.

Abstract: A method of aligning two images of the same scene by matching features in a first image to features in a second image is disclosed. The method comprises identifying edges of objects in the first image using two different processes. The edges identified using both processes are compared and combined into one image representing confirmed edges which are readily identified in other images of the same scene. A template is then formed from the confirmed edges which is matched to a subregion of the second image.

Abstract: A method of aligning two images of the same scene by matching features in a first image to features in a second image is disclosed. The method comprises identifying edges of objects in the first image using two different processes. The edges identified using both processes are compared and combined into one image representing confirmed edges which are readily identified in other images of the same scene. A template is then formed from the confirmed edges which is matched to a subregion of the second image.

Abstract: A memory cell comprising a memory region of amorphous silicon, such memory region having a first state of substantial electrical nonconductivity programmable to a second state of substantial electrical conductivity in response to an electrical programming signal applied thereto. The memory region is disposed over a metal Schottky contact, such as platinum-silicide (PtSi), formed in a support body. A first barrier layer comprising a refractory metal such as titanium-tungsten (TiW) is disposed between the memory region and Schottky contact. A first input terminal comprising a metal strip conductor, such as aluminum, is disposed over the memory region, with a second refractory metal barrier layer being disposed between the memory region and metal strip conductor. A second input terminal is disposed within the support body.

Abstract: A multibeam phased array radar includes identical N:1 equal-split combiners and overlay hybrid couplers which form multiple tapered and weighted beams. The radar is configured with a single transmit/receive (T/R) module for each antenna element. The T/R modules contain a high power amplifier for transmit, low noise amplifier for receive, phase shifter for beam steering and attenuator for overall weighting. Each T/R module is connected to an unequal-split coupler which divides the received signal into signals of different amplitudes. Each of these signals are fed into a separate N:1 equal-split combiner, thereby forming separate beams. The illumination taper of each beam is determined by the coupling values of the couplers and the setting of the T/R module attenuator. There is disclosed a first embodiment including two beamformers and a second embodiment extending the concept to more than two beamformers.

Abstract: A low cost, broadband, broadbeam antenna. The radiating elements of the antenna are two spiral conductors mounted over a cavity. Inside the cavity, strips of RF absorber and a metal shim are located. Resistive damping at the ends of the sprial conductors is provided by discrete resistors. A dielectric lens covers the spiral conductors.

Abstract: An AWTSS is shown to be made up of an improved synthetic aperture radar (SAR) for generating radar maps with various degrees of resolution required for navigation of an aircraft and detection of ground targets in the presence of electronic counter-measures and clutter. The SAR consists, in effect, of four frequency-agile radars sharing quadrants of a single array antenna mounted within a radome on a "four axis" gimbal with a sidelobe cancelling subarray mounted at the phase center of each quadrant. Motion sensors are also mounted on the single array antenna to provide signals for compensating for vibration and stored compensating signals are used to compensate for radome-induced errors. In addition, a signal processor is shown which is selectively operable to generate radar maps of any one of a number of desired degrees of resolution, such processor being adapted to operate in the presence of clutter or jamming signals.

Abstract: A radio frequency (RF) amplifier circuit includes an input matching network having a first port coupled to an input port of the circuit. The RF amplifier circuit further includes a high electron mobility field effect transistor (HEMT) having source, gate and drain electrodes with the gate electrode coupled to the second port of the input impedance matching network and means, coupled between the source electrode and a DC reference potential, for providing inductive feedback to the source electrode of the HEMT. The RF amplifier circuit further includes an output matching network having a first port coupled to the drain electrode of the HEMT. The output matching network comprises a first RF propagation network having a first end coupled to the first port of the output matching network and a second end coupled to a first electrode of a capacitor. A second electrode of the capacitor is coupled to a second port of the output matching network.

Abstract: A transducer for use in surface ship applications includes a prestress element for providing additional compressive force to an electromechanical driver disposed within the transducer. The transducer includes a shell having inner portions, an electromechanical driver having end portions coupled to inner portions of the shell, and a block prestress element disposed between one of the end portions of the driver and the inner portions of the shell. The block prestress element is fabricated from a shape memory alloy which can be deformed within a first temperature range and reverts back to its original shape when exposed to a temperature above the first temperature range. This characteristic provides for the generation of additional stresses which may be desired for providing protection to the electromechanical driver from unwanted tensile forces.

Abstract: A seal for use in a microwave oven having a griddle feature. An aluminum plate having a Calrod heating element coupled thereto provides a griddle and is disposed in an aperture in the stainless steel floor of the microwave oven. The griddle has a lip extending over a peripheral portion of the floor adjacent to the aperture therein. A U-shaped clamp comprising a bracket and a fastener couples the griddle to the peripheral portion of the floor. More particularly, the fastener draws the griddle downwardly to engage the lip down on the peripheral portion of the floor. With this arrangement, a continuous metal-to-metal contact is provided between the lip of the griddle and the microwave oven floor to prevent leakage of microwave energy. Moreover, the griddle can expand and contract free of restriction by the steel floor to prevent buckling. A gasket may be disposed between the lip of the griddle and the peripheral portion of the floor to provide a liquid seal.

Abstract: An integrated DC/RF stripline flexprint module edge connector comprises a stripline RF transmission line that operates at microwave frequencies. The connector mates and clamps DC and signal conductors in a flat flexible circuit and an RF conductor located in an RF signal stripline with a matching pattern of conductors on an edge of a module mating plug. The Rf conductor is sandwiched between two equally spaced ground planes and forms a lapjoint connection with the mating plug. The engagement of the connector to the edge of the mating plug is accomplished by a zero inserting force clamp. The clamp secures the connector comprising the DC and signal conductors and the more rigid RF signal stripline adjacent to the flexprint.

Abstract: A marine autopilot includes a roll compensation feature to improve autopilot performance. An additional parameter is included in a proportional-integral-derivative control algorithm. The additional term corresponds to the roll angle of the vessel. Since, roll precedes deviation of a vessel from a desired course, the rudder moves to compensate for the disturbance prior to deviation from the desired course. In this way, the vessel's course keeping performance is improved and the overall rudder activity is reduced since the vessel remains more closely aligned with the desired course.

Abstract: A two-stage, Class E, fixed frequency, resonant, DC-to-DC power converter employing phase-shift control achieves outstanding performance over a full range from no load to full load. Each stage of the DC-to-DC power converter comprises a series inductor-diode network in parallel with a feed choke. Such network is connected between a power source input and a switching transistor, and it provides a fast discharge path for a resonant capacitor and lossless turn-on of the switching transistor in each power converter stage.

Abstract: An oscillator includes an amplifier having an input and an output and a feedback circuit disposed between the input and the output of the amplifier. The feedback circuit includes a plurality of resonators and a pair of switches. Each switch includes a first port and multiple connectable ports, the multiple connectable ports of each switch connected to a corresponding one of the plurality of resonators. The feedback circuit further includes a voltage-controlled phase shifter disposed in series with the switches. The oscillator further includes a discriminator circuit, responsive to signals from the feedback circuit, for providing a control signal to the voltage-controlled phase shifter for degenerating low frequency noise within the oscillator. With such an arrangement, high Q low noise resonators can be switched in and out of the circuit thus providing improved phase noise performance at high power levels with the desirable frequency agility required for a microwave oscillator.