Abstract: Contrast enhanced photolithography methods and devices formed by the same are described. In accordance with these methods, a photoresist layer is formed on a substrate. A contrast enhancing system including a solution or dispersion of a photobleachable dye is formed on the photoresist layer. The photoresist layer is exposed through an imaging pattern and through the contrast enhancing system to radiation having a wavelength between about 230 nm and about 300 nm. The contrast enhancing layer is removed, and the photoresist layer is developed to form a photoresist pattern on the substrate. The contrast enhancing system may be removed and the photoresist layer may be developed in a single process step or in different process steps.

Abstract: Devices and methods for performing an array assay are provided. The subject array assay devices include a degassing zone that includes a gas permeable membrane. Embodiments include degassing microarray-backing elements that are used with an array assembly to provide an enclosed assay array chamber about at least one array of the array assembly. The degassing backing elements include: (1) a substrate having a surface comprising at least one gasket, and (2) a gas permeable membrane. Embodiments also include array assemblies that include a degassing zone, for example positioned on an array substrate. Embodiments of the subject methods include contacting an array with a sample under conditions sufficient to perform an array assay, wherein the contacting step further includes degassing the sample. Also provided are systems and kits for use in practicing the subject methods.

Abstract: Method for diagnosing faults in a system under test (SUT) are provided. A representative method includes identifying at least some portions of the data transmission paths of the SUT capable of introducing errors in data transfer; providing constraints defining relationships of at least some of the portions of the data transmission paths; and diagnosing the SUT with respect to the constraints. Systems, computer-readable media and other methods also are provided.

Abstract: The invention relates to reference libraries of composite spectra that consolidate, into a single searchable data set, multiple independent spectra taken of a chemical compound under multiple conditions, generally on a single instrument. The reference libraries may be used, for example, to increase the analytical power of mass spectrometers such as API-CID mass spectrometers. The multiple independent spectra are converted into a composite spectrum by performing a number of steps. First, units on the x-axis of at least one, and generally all but one, of the independent spectra are renumbered so that the numerical range of the x-axes of the spectra do not perfectly overlap. Second, the x-axes of the independent spectra are aligned on a composite x-axis. Methods and programs for making and using the reference libraries and devices containing the reference libraries are also disclosed.

Abstract: A method and apparatus for generating multiple levels of optical signals. A plurality of electrical currents is produced. The magnitudes of the electrical currents are independent of each other. Optical signals are produced using the electrical currents. Each optical signal has an amplitude corresponding to one of the multiple levels. The amplitudes of the optical signals corresponding to a level are adjustable by independently adjusting a respective electrical current. Amplitudes of optical signals corresponding to other levels may be adjusted independently.

Abstract: Disclosed is a method for forming a conductor on a dielectric. The method commences with the deposition of a conductive thickfilm on the dielectric, followed by a “subsintering” of the conductive thickfilm. Either before or after the subsintering, the conductive thickfilm is patterned to define at least one conductor. After subsintering, the conductive thickfilm is etched to expose the conductor(s), and the conductor(s) are then fired. A brief chemical etch may be used after the final firing step if improved wire-bondability is required.

Abstract: A method generating wander noise includes predefining frequency, amplitude and phase values for each of a plurality of tones for various predefined frequency profiles. A digital noise signal having a particular profile can then be generated by a summation of a plurality of tones based on the predefined frequency, amplitude and phase values for each of the plurality of tones for the selected profile. The wander noise signal is then generated from the digital noise signal.

Abstract: A communication apparatus is used to interface signals with any one of a plurality of telephony networks having different impedances. The apparatus includes memory, a processor, a digital-to-analog (D/A) converter, and an interface port. Different sets of impedance control values are stored in the memory. The processor is configured to select one of the sets of impedance control values and to serially transmit the selected set of impedance control values during a communication session. The D/A converter is configured to receive the selected set of impedance control values from the processor and to transmit analog signals based on the selected set of impedance control values. The interface port is configured to interface signals with a communication connection of a telephony network.

Abstract: In one embodiment, a method of calibrating a multi-port vector network analyzer (VNA) includes (i) performing two-port calibrations on pairs of ports to determine forward and reverse systematic error terms associated with each pair of ports, wherein the pairs of ports are selected such that each port's systematic error terms (directivity, source match, reflection tracking, and load match) are determined, (ii) generating a switch error correction matrix using data from the two-port calibrations, and (iii) performing unknown thru calibration for at least one pair of ports that was not utilized in step (i), wherein the unknown thru calibration comprises applying the switch error correction matrix to measurement data and determining transmission tracking error terms using the corrected measurement data.

Abstract: An optical analyzer and method for measuring optical properties of optical signals utilizes a heterodyne architecture to measure spectral amplitude and phase of a periodically modulated input optical signal, such as an optical signal from a periodically modulated distributed feedback (DFB) laser. The spectral amplitude and phase measurements are derived from a heterodyne signal, which is produced by combining and mixing the input optical signal and a local oscillator (LO) signal. The optical spectrum that is reconstructed from the heterodyne signal includes “inner” spectral peaks that contain phase information of the input optical signal. The inner spectral peaks may be produced by an optical or electrical mixing technique. The spectral phase of the input optical signal is recovered from the inner spectral peaks of the reconstructed optical spectrum.

Abstract: Methods for collecting and displaying conditional dependent test results. At least one measurement condition is received. The received measurement condition specifies the measurement environment. A result is received from at least one measurement. For each received result, each received measurement condition is associated with the received result, a new row in a table is selected, the received result is recorded in a specified result column in the new row, a separate column is associated with each received measurement condition, and each associated received measurement condition is recorded in its associated column in the new row. A change to the measurement environment is received, wherein the change includes at least one of the following: (1) a modification of at least one measurement condition, (2) an omission of at least one measurement condition, and (3) the addition of at least one new measurement condition. Appropriate steps are then repeated.

Abstract: The present invention is directed to a tool assembly for improving the insertion of threaded studs into confined spaces. The tool assembly includes a shaft having a bearing surface and defining an opening that is spaced apart from the bearing surface. The tool assembly also includes a sleeve having a threaded inside surface portion and a non-threaded inside surface portion, the non-threaded inside surface portion defining an opening, the sleeve mounted to the shaft with the sleeve opening aligned with the shaft opening. The tool assembly further includes a stop member positioned in the shaft opening and sleeve opening.

Abstract: Integrated semiconductor devices are manufactured by providing a layered semiconductor structure having an exposed surface and providing a mask on the exposed surface thereby defining a masked region in the layered structure underneath said mask. The mask has a main direction of extension with a width across the main direction and an end portion. The layered structure is etched over a given depth starting from the exposed surface, whereby the masked region is left substantially unaffected by the etching process and has an end surface extending underneath the end portion of the mask. A further layered semiconductor structure is grown around the masked region to produce an integrated layered semiconductor structure having at the end surface an interface between the layered structure and the further grown structure. The mask width is selected to be less than 50 microns.

Abstract: Disclosed herein is a channel plate for a fluid-based switch. The channel plate is produced by 1) depositing a photoimagable dielectric layer onto a substrate, 2) photoimaging at least one channel plate feature on the dielectric layer, and 3) developing the dielectric layer to form the at least one channel plate feature in the dielectric layer, thereby forming the channel plate. Switches using photoimaged channel plates, and a method for making a switch with a photoimaged channel plate, are also disclosed.

Abstract: A method and system of calibrating first and second adapters comprises the steps of calibrating coaxial ports of a vector network analyzer to traceable standards and connecting a symmetrical through circuit path between the coaxial ports. The through circuit path comprises a cascaded combination of the first and second adapters. The first adapter is passive and substantially identical to the second adapter and uncascaded first and second adapters comprise a measurement device path. The through circuit path and the measurement device path have substantially equivalent S-parameters. S-parameters of the through circuit path are measured and then the first and second adapters are characterized based upon the measured S-parameters. The method and system may be applied to two port adapters and devices under test and may also be scaled for multi-port adapters and devices under test.

Abstract: A switch includes a switching element, a substrate, and a lid. The substrate has internal and external metal layers separated by at least an insulating layer. The substrate's external metal layer has a first plurality of signal conductors formed therein, at least some of which are in contact with the switching element. The substrate's internal metal layer has a second plurality of signal conductors formed therein, which are electrically coupled to the first plurality of signal conductors by means of a first plurality of conductive vias in the insulating layer. The lid is attached to the substrate to encapsulate the first plurality of signal conductors between the lid and the substrate.

Abstract: A three-dimensional optical inspection system reconstructs a three-dimensional image of the shape of the surface of an at least partially specular object resident on a printed circuit board by capturing two or more two-dimensional images of the object under different illumination configurations. The diffuse reflection, as well as the specular reflection can be used to reconstruct the three-dimensional image using any reconstruction method, such as photometric stereo. The different illumination configurations can be achieved using an illumination source including light-emitting elements arranged in concentric circular arrays, in which each of the circular arrays is divided into sections. Each section is independently controlled to selectively activate the sections to illuminate the object in a pre-established illumination pattern.

Abstract: A method of interrogating an addressable array unit having a transparent substrate with a back surface, and an array with a plurality of different chemical features on a front surface. The method may include illuminating the features while the array is dry, with an interrogating light which is directed through the substrate from the back surface and onto the chemical features on the front surface. The light emitted from respective features in response to the interrogating light may be detected, which detected light has passed from the front surface, through the substrate and out the back surface. In one arrangement the light is emitted from locations of the features which are spaced from the front surface a distance of less than one-eighth of the wavelength of the illuminating light in a gas or a vacuum which is in contact with the dry array. Other methods and a package containing an addressable array are also provided.

Abstract: Multiple signals are graphically presented. A signal for each measured frequency channel is separately represented on a display. Representations of the signals are superimposed. Center channel frequencies for all the representations of the signals are aligned relative to a single position on a first axis. Amplitude for all the representations of the signals is indicated relative to a second axis. Overlap of a signal within a compliance mask indicates violation of an amplitude minimum, an amplitude maximum or frequency drift.

Abstract: A frequency divider includes a current generator, a transistor and a clock input connected in series. The transistor comprises a gate and has a threshold voltage. The connection between the current generator and the transistor constituting the output of the frequency divider. The frequency divider additionally has a controlled switch connected between the output and the gate. The switch has a control input connected to the clock input. A method for dividing frequency includes providing a current generator, a transistor and a clock input connected in series. In response to a clock pulse supplied when the output is in a high state, charge is transferred from the output to the gate to raise voltage of the gate above the threshold voltage. In response to the clock pulse supplied when the output is low, charge is transferred from the gate to the output to reduce the voltage of the gate below the threshold voltage.