Abstract: A planar sensor array described herein as a spiral lattice planar array is comprised of a plurality of sets of sensor elements wherein for each set of the sensor elements an element is disposed at a vertex of an equilateral non-equiangular pentagon. One embodiment includes a plurality of sets of the pentagon arranged elements in an annular array configuration having a centrally located open center defined by the annular array. Another embodiment includes a plurality of sets of the pentagon arranged elements in a core configuration. The core configuration can be disposed within the open center of the annular array configuration. All sensor elements are confined to a single plane. The sensor elements can be equally weighted or may be weighted to provide side-lobe adjustment.

Abstract: A method and apparatus for initiating a rapid and long-lasting pH change to a pH dependent polymer or other pH driven reactant is provided by a pH jump molecule in solution. Visible light is used to excite the pH jump molecule. The attendant pH change occurs rapidly (in nanoseconds) and can be maintained by continuous wave light or by an appropriately pulsed light. Heat resulting from the light activation is efficiently discharged by radiative decay through room temperature phosphorescence lifetimes existing on the order of milliseconds.

Abstract: A folded monopole antenna uses two vertical monopole antenna elements one of which is tapered and resistively loaded to a ground plane. The tapered vertical monopole antenna element includes a series of operably coupled cylindrical sections that extend from a base end of this element to its top end. The cylindrical sections decrease in diameter from the base end to the top end of this element. The second monopole antenna element has a substantially constant outer diameter. An antenna feed is coupled to this second element. A third antenna element of substantially equivalent diameter to the second element is operably coupled to the top ends of the first and second antenna elements. In both transmitting and receiving modes, the tapered monopole antenna element is considered to cause a cancellation of the electric field from the feeding antenna element and thereby provide a wide range of impedance matching.

Abstract: A spatially conformable tunable filter comprises a structure that includes a first flexible and optically reactive electrode; a second flexible and optically reactive electrode; a flexible electro-optic material layer affixed between the first and second electrodes and having a voltage dependent refractive index; and a voltage source connected to the first and second electrodes for establishing an electric field in the electro-optic material layer and dynamically controlling the index of refraction of the electro-optic material layer, wherein a section of said structure has an arcuate shaped neutral axis having a radius R, when said structure is flexed, where 0<R≦∞.

Abstract: The present invention has application to the disabling of vehicles such as automobiles and other vehicles having an engine controlled by a motor controller or other component that is vulnerable to malfunctions induced by a pulse of electrical energy. The invention has application to remotely disabling vehicles in high speed pursuits. In one aspect of the invention, an apparatus for remotely disabling an electronic device may be deployed from a platform. In various embodiments, the platform may be a stationary platform in the path of an approaching vehicle incorporating the electronic device or a movable platform for pursuing the vehicle.

Abstract: The invention describes an improved method of fabricating trench structures. This method enhances trench structure reliability by reducing dielectric breakdown in high voltage applications, for example. The invention uses etching and thermal oxidation techniques to round and smooth the corners at the bottom of the trench structure. The smoothing of the trench corners reduces the electrical fields that cause insulator breakdown.

Abstract: A high gain phototransistor uses lateral and vertical transistor structures and a triple base. The base regions of two vertical structures are in the bulk of a semiconductor substrate while the base of a single lateral structure is adjacent a light receiving phototransistor surface. Minority carrier generation extends from the base region of the lateral transistor to the base regions of the vertical transistors and is present in the vertical regions within a diffusion length of the optically generated carriers of the lateral base. The bases of all three transistor structures are electrically connected. The collector electrodes of one of the vertical structures and the lateral structure are electrically connected, while the emitter electrodes of the other of the vertical structures and the lateral structures are electrically connected. Finally, the remaining vertical collector and emitter electrodes are electrically connected via a buried layer adjacent the phototransistor wafer substrate.

Abstract: A method and apparatus for initiating a rapid and long-lasting pH change to a pH dependent polymer or other pH driven reactant is provided by a pH jump molecule in solution. Visible light is used to excite the pH jump molecule. The attendant pH change occurs rapidly (in nanoseconds) and can be maintained by continuous wave light or by an appropriately pulsed light. Heat resulting from the light activation is efficiently discharged by radiative decay through room temperature phosphorescence lifetimes existing on the order of milliseconds.

Abstract: A system incorporating an electromagnetic radiating tube uses a plurality of sensors to assess the status of the system and integrates the data produced by these sensors in a way that enhances the effectiveness of the data versus analyzing the data separately. This method has uses in detecting and predicting failures in electromagnetic radiating devices such as microwave tubes, and may also be used for life-cycle monitoring of such devices.

Abstract: A broad band antenna uses a bicone antenna configuration as a feed transformer and exponentially tapered reflector fins to radiate the antenna's energy. The bicone antenna design is used to match the antenna's impedance to coaxial cable impedance. The fins function to reduce the traditional bicone antenna diameter. Reflection between the cones and the attached reflector fins as well as return loss are reduced by wrapping the reflector fins with metallic foil.

Abstract: A communications node includes a controller for 1) initializing a counter and resetting a FIFO buffer; 2) determining if a predetermined number of data packets have been transmitted; 3) transmitting the data packets after the FIFO buffer is partially filled if the number of data packets transmitted is less than the predetermined number, incrementing the counter, and returning to step (2); 4) directing a transceiver to be in a receive mode if the predetermined number of data packets have been transmitted; 5) determining if a command signal has been detected; 6) processing a backlink command if a command signal has been detected, and then directing the transceiver to be in transmit mode, clearing the counter, and returning to step(2); and 7) setting the receiver in a transmit mode if no command signal has been detected, and then clearing the counter and returning to step (2).

Abstract: A predictor for optimal broadband impedance matching of the present invention computes the maximum value of transducer power gain possible for any impedance matching network for a given transmission line, load, and frequency band.

Abstract: An antenna includes a liner shaped to fit over a helmet; a first RF element attached to the liner; a second RF element attached to the liner so that the first and second RF elements are separated by a gap; an RF feed electrically connected to the first RF element for providing RF energy to the first RF element; a ground feed electrically connected to the second RF element; a first shorting strap that is electrically connected to the first and second elements opposite from the RF feed; and a second shorting strap electrically connected to the first and second RF elements between the first shorting strap and the RF feed. The shorting straps are used to generally match the impedance of the antenna to an electrical device such as a transmitter, receiver, or transceiver. A matching circuit may be connected in series between the first RF element and the RF feed to further refine matching the antenna impedance to the electrical device.

Abstract: A spectrometer uses collimated, P-polarized light made incident on a surface of an optically transparent material at angle &thgr;INC. The material transmits the light which reaches a boundary surface between the input material and an output optically transparent material. The input material is preferably highly dispersive, making Snell component values at the boundary surface markedly different for different wavelengths. The output material is preferably of low dispersion and high birefringence. Only one wavelength at the boundary surface has a Snell component value tangent to its corresponding index surface in the output section. Within this section, the ray vector for this wavelength is parallel to the boundary surface. Because optical energy propagates in the ray vector direction, only the narrow range of wavelengths having ray vectors substantially parallel to the boundary surface reach an output surface of the device. This narrow range of wavelengths comprises the passband incident on a detector.

Abstract: A sensor for performing surface enhanced Raman spectroscopy (SERS) includes a sensor body having a throughbore; a window mounted to the sensor body that is coterminous with the throughbore; surface enhanced Raman scattering structure mounted to the window; an optical energy source for generating an optical excitation signal; a first optical fiber mounted in the throughbore for directing the optical excitation signal through the surface enhanced Raman scattering (SERS) structure; a second optical fiber mounted in the throughbore for receiving primary Raman emissions generated when an analyte in contact with the surface enhanced Raman scattering structure is irradiated by the optical excitation signal; and an optical detector for generating an optical signal representing the primary Raman emissions.

Abstract: A novel trench isolated guard ring region for providing RF isolation is disclosed. The semiconductor integrated circuit (IC) device of the present invention comprises a substrate, an insulating layer formed on the substrate, a buried layer formed on the insulating layer, and an epitaxial layer of a first conductivity type formed on the buried layer. A first isolation trench is formed in the epitaxial layer and the buried layer that extends to the insulating layer and that surrounds a first selected surface area of the epitaxial layer. A second isolation trench is formed in the epitaxial layer and the buried layer that extends to the insulating layer and that surrounds the first isolation trench and defines a guard ring region between itself and the first isolation trench. A plurality of isolation chambers is formed within the first and second isolation trenches. A collector is implanted into the epitaxial layer in the guard ring region.

Abstract: A method and apparatus for calibrating range in a radar system. Due mainly to temperature changes in a radar system which cause frequency deviation error, range errors can be introduced into the radar system, thus adversely affecting the determination of the position of targets relative to the host platform. These range errors can be corrected by detecting and accurately estimating the frequency deviation error of a radar system. The present invention improves target position determination performance in a radar system by reducing errors introduced by the frequency deviation error. The present invention relies upon the observation that the Doppler range rate is largely unaffected by frequency deviation error, and thus, is approximately equal to the actual range rate. In accordance with a first range calibration technique of the present invention, the radar system measures the range, Doppler range rate, and azimuth angle of a target during at least two successive time instances.

Abstract: The present invention is a novel method and apparatus for implementing a high-precision timer utilizing a non-optimal oscillator and a high-speed oscillator wherein only one oscillator is enabled at a given moment in time. The high-precision timer method and apparatus comprises a timer and an error-correction technique. In one embodiment, the timer of the present invention is constructed from a high-speed oscillator and a low-speed non-optimal oscillator. The timer operates from the high-speed oscillator during on-the-air modes of operation and from the low-speed non-optimal oscillator during sleep modes of operation. The present inventive method corrects errors that are introduced by the non-optimal oscillator and a swallow counter. The errors are corrected using an error-correction technique having two steps: an error-determination step and an error-correction step.

Abstract: A crystal oscillator apparatus is described that has a wide dynamic frequency range and that is capable of supporting a broad range of crystal types. The present invention reduces the unwanted side effects that are associated with the prior art crystal oscillator designs, such as the clipping of signals, the introduction of signal distortion and unwanted signal harmonics. The present invention reduces the total wasted loop gain of the oscillator while also reducing the amount of integrated circuit real estate required to implement the crystal oscillator. The crystal oscillator apparatus of the present invention preferably comprises a crystal resonator circuit, an inverting amplifier, a bias circuit, a reference circuit, and a peak detector circuit. The present invention takes advantage of Automatic Gain Control (AGC) design techniques. The gain of the present crystal oscillator is automatically regulated using a closed loop circuit design.