Abstract: Boundary scan testing methods that detect manufacturing defects in AC-coupled differential pairs may be based on a selected signal parameter: phase or frequency. The data is encoded by the signal parameter. In one embodiment, the signal parameter is compared to reference parameter data provided by the transmitter. In a second embodiment, the reference parameter data is sent from an external source. All the components on board are synchronized with this external source. In a third embodiment, the reference parameter data is embedded in each AC signal between the transmitter and receiver. Two lines of one differential link are used to send different patterns.

Abstract: In one aspect, a circuit system includes a logic circuit and a bias circuit. The logic circuit includes one or more current mode logic gates each of which is operable to steer a respective tail current to produce an output voltage swing. The bias circuit is operable to maintain the voltage swing of each current mode logic gate independent of changes in tail current level. In another aspect, the circuit system includes a switching speed reference circuit that is operable to detect intrinsic switching speeds of the one or more current mode logic gates. In another aspect, the circuit system includes a tail current adjustment circuit that is operable to dynamically adjust the current mode logic gate tail currents to maintain logic gate switching speed in correlation with a reference clock frequency.

Abstract: A method and system to arbitrate requests of a plurality of ports of an interconnect device are provided. Every port receives combined pending request data that includes a pending request indicator associated with each of the plurality of ports. Each pending request indicator specifies whether a corresponding port has a pending request that needs to be submitted to a request bus of the interconnect device. Further, at each port, a turn to submit a request to the request bus is allocated to one of the plurality of ports based on the combined pending request data, a set of values stored in a mask register and a priority scheme associated with the plurality of ports.

Abstract: A telephoto lens for a grating scale measurement system includes a pair of aspheric lenses that together operate at finite conjugates with minimal spherical aberrations. Identical aspheric lenses provide a subsystem with a magnification of 1×, and a magnifying system typically including one or more negative lens increases the magnification of an intensity pattern to enable accurate measurement of the phase of the intensity pattern.

Abstract: An HBT having an InP collector, a GaAsSb base and an InP emitter in which the base is constructed using a thin layer of GaAsSb. The thin base layer can be constructed of a GaAsSb material with a composition having a bulk lattice constant that matches the bulk lattice constant of the material of the collector. The thickness of the GaAsSb base layer is less than 49 nm, and preferably less that about 20 nm. Alternatively, the thin base layer is of a GaAsSb composition that includes a higher As content, resulting in a low conduction band energy discontinuity at the emitter-base junction. Such a GaAsSb base layer has a lattice constant that conforms to the lattice constant of the collector because it is thinly grown so as to be pseudomorphically “strained” over the collector. A high base doping level is used to reduce the sheet resistivity and lower the base series resistance that results from the thinly grown base layer.

Abstract: Integrated circuits (ICs) are provided. A representative IC includes a first pad that incorporates a first driver and a first receiver, with the first driver being configured to provide a first pad output signal to a component external to the IC, and the first receiver being configured to receive a first pad input signal from a component external to the IC. A first test circuit also is provided that is internal to the IC. The first test circuit is adapted to provide information corresponding to the driver strength of the first pad. Systems, methods, computer-readable media and other ICs also are provided.

Abstract: An electrical relay using conducting liquid in the switching mechanism. Two electrical contacts are held a small distance apart. The facing surfaces of the contacts each support a droplet of a conducting liquid, such as a liquid metal. A piezoelectric actuator is energized to reduce the gap between the electrical contacts, causing the two liquid metal droplets to coalesce and form an electrical circuit. The piezoelectric actuator is then de-energized and the electrical contacts return to their starting positions. The liquid metal droplets remain coalesced because of surface tension. The electrical circuit is broken by energizing a piezoelectric actuator to increase the gap between the electrical contacts and break the surface tension bond between the liquid metal droplets. The droplets remain separated when the piezoelectric actuator is de-energized because there is insufficient liquid metal to bridge the gap between the contacts. The relay is amenable to manufacture by micro-machining techniques.

Abstract: A method and apparatus for coordinating program execution in a site controller with pattern execution in a tester executes the pattern in the tester and a pattern interruption instruction. The pattern interruption instruction causes the tester to write to a service request register in the site controller specifying a value that specifies a requested subroutine and a data source. The site controller initiates execution of the requested subroutine in the site controller using the specified data source.

Abstract: A controller is provided that is configured to receive a timing value for a static timing model and a timing value for an extracted timing model. The controller is further configured to determine whether the timing value for the extracted timing model falls within a permissible range of deviation from the timing value for the static timing model.

Abstract: Ion guides and systems and methods for involving the use of ion guides are disclosed. Briefly described, one exemplary system, among others, includes an ion guide. The ion guide includes a first structure and a second structure. The second structure is coaxially disposed within the first structure. The second structure includes at least three groups of opening the through a wall of the second structure that are distributed around a circumference of the second structure. In addition, at least one of the group of openings is offset from the other groups of openings by a multiple of a constant rotation angle around the circumference of the second structure.

Abstract: A modular microchannel apparatus for analysis of an analyte. The apparatus includes a separation unit and a reservoir unit. The separation unit has a microchannel. The analyte can be driven to pass through the microchannel such that the time for the analyte to pass through the microchannel is indicative of the molecular characteristics of the analyte. The reservoir unit has one or more reservoirs for coupling operatively modularly with the separation unit to supply liquid reagents to the separation unit. The reservoirs has prepackaged liquid reagents in it before the reservoir unit is coupled with the separation unit.

Abstract: Systems and methods for linking a graphical display and an n-dimensional data structure in a graphical user interface are provided. One is a method for linking a graphical display and an n-dimensional data structure in a graphical user interface supported by a computer application. Briefly described, one such method comprises the steps of: providing a graphical user interface, the graphical user interface comprising a first portion for providing a graphical display comprising one or more image objects and a second portion for providing an n-dimensional data structure associated with the graphical display; receiving a user selection of one of the image objects in the first portion of the graphical user interface; and populating the n-dimensional data structure based on the selection of the image object.

Abstract: For drivers of different sizes driving signal lines of different lengths, maximum transition time constraints are compared to signal transition times to determine whether a potential noise problem exists with respect to the signal lines. Each driver size has a maximum line length and a maximum transition time associated with it. These maximum transition time constraints are used to determine whether the signal lines connected to respective drivers in the IC will have potential noise problems associated with them. For each signal line in the IC design, the signal transition time is determined and compared to the maximum transition time constraint. If the signal transition time exceeds the maximum transition time constraint, a potential noise problem exists with respect to the signal line.

Abstract: An image sensor. The image sensor array includes a substrate. An interconnect structure is formed adjacent to the substrate. An amorphous silicon electrode layer is adjacent to the interconnect structure. The amorphous silicon electrode layer includes electrode ion implantation regions between pixel electrode regions. The pixel electrode regions define cathodes of an array of image sensors. The electrode ion implantation regions provide physical isolation between the pixel electrode regions. The cathodes are electrically connected to the interconnect structure. An amorphous silicon I-layer is adjacent to the amorphous silicon electrode layer. The amorphous silicon I-layer forms an inner layer of each of the image sensors. A transparent electrode layer is formed adjacent to the image sensors. An inner surface of the transparent electrode is electrically connected to anodes of the image sensors and the interconnect structure.

Abstract: An image sensor and method of manufacture therefor includes a substrate having pixel control circuitry. Dielectric layers on the substrate include interconnects in contact with the pixel control circuitry and with pixel electrodes. An intrinsic layer is over the pixel electrodes and has a gap provided between the pixel electrodes. An intrinsic-layer covering layer is over the intrinsic layer and a transparent contact layer over the intrinsic-layer covering and the interconnects. The intrinsic, intrinsic-layer covering, and transparent contact layer interact in different combinations to provide a pixel isolation system for the image sensor.

Abstract: The present invention is a decoder for decoding a signal. The decoder includes a discriminator and a threshold generator. The discriminator receives the signal and generates an output voltage equal to a first voltage if the signal is less than a threshold level that is input to the discriminator and equal to a second voltage if the signal is greater than the threshold level. The threshold level depends on the output from the discriminator in a preceding time interval that depends on the impulse response of a transmission link through which the input signal has passed. The threshold generator implements a low-pass analog filter that receives the output voltage during each of the clock periods and generates therefrom a filtered output signal.

Abstract: A photonic crystal drop filter apparatus and a method for tuning a photonic crystal drop filter. The photonic crystal drop filter has a photonic crystal having first waveguide for transmitting light having a frequency within a bandgap of the photonic crystal, and a second waveguide. The second waveguide is connected to the first waveguide by a resonant cavity for extracting at least one wavelength of the light transmitted by the first waveguide and redirecting the extracted light to the second waveguide. A tuning device is included in the apparatus to tune the wavelength of the extracted light over a full range of wavelengths. The apparatus is particularly suitable as an extraction device for optical communications systems such as a WDM communications system wherein it is necessary to extract one or more carrier signals from a plurality of carrier signals.

Abstract: A multiplexer for use with switching apparatus for data communication networks. The multiplexer topology includes two or more groupings, or sections, each containing a plurality of individual channels. Each of the channels has an input buffer amplifier and an output Ft-doubler circuit. The outputs of all of the channels within a each particular channel section are connected in parallel relation, and fed to respective common-base transistor amplifiers. The outputs of all of the common-base amplifiers for each channel section, in turn, are connected in parallel and fed to the inputs of a pair of emitter-follower amplifiers. Through the use of selectively actuated current sources, each multiplexer channel is normally biased off, unless that channel is selected for a switching operation. Bleeder current sources are applied to the emitters of the common-base amplifiers to reduce output jitter from the channels which are biased off.

Abstract: A system and method for testing an integrated circuit (IC) by transient signal analysis includes a comparison circuit that is configured to generate a comparison signal from an IC transient signal and a reference signal. Circuitry operationally coupled to the comparison circuit manipulates the comparison signal to generate a first output waveform area indicative of an absolute area of positive and negative portions within the comparison signal. The comparison circuit and the circuitry may include seven operational-amplifiers (op-amps) or ten op-amps. As a further processing sequence, a second output waveform area that is indicative of an absolute area of positive and negative portions within a second comparison signal is generated. In one embodiment, a first value representing the first waveform area and a second value representing the second waveform area are plotted to determine if the plotted X-Y coordinate falls within a predefined standard for determining the pass/fail status of the IC.

Abstract: A preamplifier includes a detector to detect an input optical power level and convert the detected input optical power level into an input current. The preamplifier also includes a transimpedance amplifier that provides a gain for the input current received from the detector. A dummy transimpedance amplifier is provided to supply a reference voltage. The dummy transimpedance amplifier has a structure similar to that of the transimpedance amplifier. A unity gain buffer is used to reduce the output impedance of the reference voltage and to output a bias voltage to both the transimpedance amplifier and the dummy transimpedance amplifier. This bias voltage can make the gate-controlled MOSFET working in its triode region, and the load resistance of the core amplifier can be easily controlled such that the gain and bandwidth of the core amplifier can be widely controlled. This results in the preamplifier having a high stability while its feedback resistor is controlled to achieve wide dynamic range.