Abstract: The invention provides a method for controlling, in an ultrasound system, the loci of maximum power regions (e.g., focal points) of plural transmit lines of an ultrasound scan. Initially, a region being imaged is displayed and the user superimposes on the display a desired path to be traced by the loci of focal points of a scanned ultrasound beam. Data defining the path is then used to control an ultrasound transducer to produce a sequence of ultrasound beams that scan the region and to adjust the foci of the individual ultrasound beams so that they track the desired path. It is preferred that a graphical input device be used to trace the path of the loci on the display. The invention further enables data derived from the selected loci of maximum power regions to enable adjustment of both power and focal depth of the respective beams.

Abstract: Methods and reagents are disclosed which satisfy the need for more sensitive, more accurate and higher through-put analyses of target nucleic acid sequences. The methods and reagents may be generically applied to generally any target nucleic acid sequence and do not require a priori information about the presence, location or identity of mutations in the target nucleic acid sequence. The reagents of the invention are mixtures of natural and mass-modified oligonucleotide precursors having a high level of coverage and mass number complexity. A method is also disclosed for analyzing a target nucleic acid sequence employing the mixtures of natural and mass-modified oligonucleotide precursors and chemical or enzymatic assays to alter the mass of the oligonucleotide precursors prior to mass spectral analysis, generally via MALDI-TOF. The enzymatic assay may be a polymerase extension assay or a ligase assay. The kits for carrying out the methods of the invention are also disclosed.

Abstract: The present invention provides a method and apparatus for detecting defects in a display. The apparatus of the present invention comprises a camera for capturing an image of a display being inspected and processing circuitry, such as, for example, a microprocessor or a digital signal processor (DSP), for processing the captured image to determine whether or not the display being inspected is defective. Preferably, the processing circuitry is a microprocessor running image processing software which controls data acquisition as well as the processing of the acquired data to determine whether the display being inspected is defective. In accordance with the present invention, a relatively high resolution display can be inspected using a single camera, preferably a charge-coupled device (CCD) camera, which has a lower resolution than the display being inspected. The camera is focused on the display such that the entire display is within the field of view of the camera.

Abstract: Power levels for a code-division multiple access (CDMA) signal with layered orthogonal codes are displayed. When displaying power levels for multiple code layers, a power level for each active code channel is displayed using a bar. A width of the bar indicates in which code layer each active code channel is active. A color of the bar also can be used to indicate in which code layer each active code channel is active. For example, a power level for each active code channel is displayed using a hollow bar and a power level for each inactive code channel is displayed using a line. Alternatively, a power level for each inactive code channel is displayed using a hollow bar and power level for each active code channel is displayed using a solid bar. When displaying a power level for a single code layer, a power level for each active code channel in the single code layer is displayed using a hollow bar, and a power level for each code channel which is inactive in the single code layer is displayed using a line.

Abstract: A bulk acoustic wave device that provides a high spectral purity, high Q, resonator in the radio frequency and microwave frequency ranges. Such resonators may be coupled together to form filters or other frequency selective devices. The bulk acoustical wave filter is constructed from a piezoelectric (PZ) material having a first surface and a second surface and first and second electrodes. The first electrode includes an electrically conducting layer on the first surface, and the second electrode includes an electrically conducting layer on the second surface. The first electrode overlies at least a portion of the second electrode, the portion of the first electrode that overlies the second electrode has a periphery which is a non-rectangular, irregular polygon. In the preferred embodiment of the present invention, the periphery is a three-sided, four-sided, or n-sided irregular polygon in which no two sides are parallel to one another.

Abstract: A mixed solder paste that reflows below 158° C., and, once reflowed, forms a solder alloy with a melting temperature at least 10° C. higher than the reflow temperature of the mixed solder paste, without ternary eutectic structures occurring at approximately 96° C., and with a uniform microstructure. The mixed solder paste according to the invention includes an eutectic or near eutectic tin-lead (Sn—Pb) solder powder, an eutectic or near eutectic lead-bismuth (Pb—Bi) solder powder, and a flux vehicle. The Sn—Pb solder powder and the Pb—Bi solder powder are mixed in a ratio between about 51:49 and about 77:23, but preferably between 55:45 and 65:35. These ratio result in a solder alloy with a mass consisting of 14% and about 25% Bi and between about 35% and about 45% Pb. The invention further provides a method for forming a mixed solder paste for low temperature soldering.

Abstract: An apparatus for applying an optical signal to a surface and collecting the light leaving the surface in response to the application of the optical signal. The optical signal and the collected light traverse an optical fiber having an end proximate to the surface which delivers light to the surface with the aid of a lens that couples the optical signal to the surface, collects the light emitted by the surface, and couples collected light into the optical fiber. A detector measures the intensity of light delivered into the optical fiber and generates a detection signal indicative of the measured intensity as a function of time. A set of actuators dither the position of the lens relative to the proximate end of the fiber. Each actuator operates at a different dither frequency and moves the lens relative to fiber along a different axis.

Abstract: A system and a method of steering optical beams utilize a surface electrostatic actuator to mechanically pivot a micromirror to selectively redirect a received optical beam to a predetermined destination. In a preferred application, the system is an optical switch that can optically couple a number of first optical fibers to a number of second optical fibers in one of many configurations. As an optical switch, the system includes a number of switching devices that operate to couple the optical fibers. Each switching device includes a surface electrostatic actuator and a micromirror to reflect a received optical signal to a selected optical fiber. The electrostatic actuator includes a translator and a stator that are separated by a short distance. The opposing surfaces of the translator and stator include a number of drive electrodes. These electrodes generate electrostatic forces between the translator and the stator. The translator is laterally displaced when the electrostatic forces are modified.

Abstract: A gas or liquid detector that includes a capacitative sensor and a capacitance detector. The capacitative sensor includes a first electrode and a second electrode separated from one another, and additionally includes Debye elements extant in the liquid adjacent such portions of the electrodes that are in contact with the liquid. The Debye elements each include a Debye capacitor with an associated shunt conductor. The shunt conductor has an exponentially-increasing conductance versus voltage characteristic. The Debye element adjacent the first electrode and the Debye element adjacent the second electrode are connected in series by conduction through the liquid. The Debye element adjacent at least the first electrode has a substantially greater capacitance than the capacitance between the electrodes absent the Debye elements. The capacitance detector is connected to the capacitative sensor and measures the capacitance of the capacitative sensor by applying an alternating voltage between the electrodes.

Abstract: An image pixel sensor array. The image pixel sensor array includes a substrate. An interconnect structure is formed adjacent to the substrate. A plurality of image pixel sensors are formed adjacent to the interconnect structure. Each image pixel sensor includes a pixel electrode, and an I-layer formed adjacent to the pixel electrode. The I-layer includes a first surface adjacent to the pixel electrode, and a second surface opposite the first surface. The first surface includes a first surface area which is less than a second surface area of the second surface. The image pixel sensor array further includes an insulating material between each image pixel sensor, and a transparent electrode formed over the image pixel sensors. The transparent electrode electrically connects the image pixel sensors and the interconnect structure.

Abstract: Speckle artifact is reduced in medical ultrasound images by the use of orthogonal pulse sequences. Ultrasound energy is transmitted into a region of interest in a patient's body, and the transmitted ultrasound energy produces ultrasound echoes from the region of interest. In response to the ultrasound echoes, first and second coherent signals are acquired. The first and second coherent signals correspond to first and second pulse sequences, respectively, which are orthogonal or nearly orthogonal. The first and second coherent signals are combined to provide a composite image signal that is representative of the region of interest. The first and second coherent signals are preferably acquired by first and second matched filters, respectively. The transmitted ultrasound energy may include first and second sequences of ultrasound pulses that correspond to the first and second pulse sequences, respectively.

Abstract: A selected length of antenna for a device under test is placed within a conductive inner cylinder, forming an unterminated “input” coaxial transmission line. The inner cylinder is in turn within and coaxial with a conductive outer cylinder, forming an “output” transmission line. The inner cylinder is the center conductor of the output transmission line, and in a region extending beyond the extent of the antenna therein, conically tapers to being a normal center conductor of solid cross section. The outer cylinder matches this taper to maintain a constant characteristic impedance Z0out (say, 50 &OHgr;) for the output transmission line, which then delivers its output signal to a matched terminating load in measurement equipment via either a coaxial connector or an interconnecting length of auxiliary transmission line.

Abstract: A method for identifying components within a known type of sample through pattern recognition between an array of recognition coefficients generated from the attributes and stable relationships of a plurality of peaks within a chromatogram of a sample to be analyzed and a similar array of recognition coefficients generated from the attributes and stable relationships of a plurality of peaks from a set of one or more historical chromatograms of the known type of sample. The group of attributes include, but are not limited to: retention time, peak shape including symmetry, width and duration, peak size including area and height, and algorithmic measures of peak type.

Abstract: To manufacture polarization-maintaining optical fibers, a fiber is directly and continuously irradiated with at least one beam of UV radiation during drawing and before application of external coatings.

Abstract: The present invention provides an improved power detector and more particularly a power leveling loop with a superheterodyned adjustable gain power detector. In one preferred embodiment, the adjustable gain power leveling detector receives an output signal from a directional coupler. According to the present invention, the leveling detector includes means for producing a signal whose amplitude is proportional to the amplitude of the output signal from the directional coupler and whose frequency is equal to a fixed intermodulation IF frequency, a power detector for providing a stable DC output voltage signal for an input of a single power at the IF frequency; and a leveling loop for maintaining the power detector DC voltage signal substantially constant.

Abstract: A technique for efficiently sampling blood from body tissue by reducing pressure on the body tissue. In the present technique a body tissue is placed under reduced pressure to improve perfusion of blood in the body tissue before lancing. An embodiment of this apparatus includes a lancet carried by a piston slidable in a housing, a mechanism for transmitting mechanical energy internally in the apparatus for creating the reduced pressure on the body tissue. The apparatus also includes a driver that drives the lancet for lancing. The apparatus has a head in the housing for contacting the body tissue in an air-tight manner against suction forces. In the head facing the body tissue is a channel in which the air pressure can be reduced.

Abstract: A method for growing a crystalline layer that includes a first material on a growth surface of a crystalline substrate of a second material, wherein the first material and the second material have different lattice constants. A buried layer is generated in the substrate such that the buried layer isolates a layer of the substrate that includes the growth surface from the remainder of the substrate. The first material is then deposited on the growth surface at a growth temperature. The isolated layer of the substrate has a thickness that is less than the thickness at which defects are caused in the crystalline lattice of the second material by the first material crystallizing thereon. The buried layer is sufficiently malleable at the growth temperature to allow the deformation of the lattice of the isolated layer without deforming the remainder of the substrate. The present invention may be utilized for growing III-V semiconducting material layers on silicon substrates.

Abstract: An amplifier/switch circuit includes a first circuit input, a second circuit input, a circuit output, an amplifier, a switching circuit and a DC blocking capacitor. The amplifier has an amplifier control input, a first amplifier output and a second amplifier output. The amplifier control input is connected to the first circuit input. The first amplifier output is connected to the second circuit input. The second amplifier output is connected to the circuit output. A switching circuit has a switch control input, a switch input and a switch output. The switch control input is connected to the circuit output. The control input is connected to the second circuit input. The DC blocking capacitor is connected between the amplifier control input of the first transistor and the switch input.

Abstract: A thermal optical switching cell has a channel of either gas or boilable liquid that crosses an optical waveguide at a forty-five degree angle. Two or more appropriately placed heaters use the water/steam/dry states of thermal ink jet technology to quickly insert, or extract, boilable liquid respectively into, or from, the channel. The boilable liquid has an index of refraction close to that of the guide. In the wet state, the channel contains the liquid and nearly all the light of the incoming guide traverses the liquid along the axis of the guide. In the dry state, the channel contains gas. Total internal reflection (TIR) occurs and light is directed at right angles away from the axis of the incoming channel. Adding a second waveguide, perpendicular to, and intersecting the first waveguide at the channel, forms a cross-bar switch. These liquid switching cells toggle between the wet and dry states. No power is required to hold the switch in the most recent state.

Abstract: The present invention relates to capillary columns including a monolith and a method for preparing a capillary column including a monolith. The monolith can be prepared by a sol gel method, and in the transformation from hydrosol to hydrogel, the monolith undergoes essentially no syneresis or volume shrinkage. Thus, deleterious effects of syneresis are avoided, such as the formation of channels having large dimensions that provide a pathway of least resistance for a mobile phase to effectively bypass portions of a stationary phase. The method for preparing a column having a monolith that undergoes essentially no syneresis involves a hydrogel solution that has a relatively low concentration of SiO2, i.e. less than about 5 g/100 mL.