Abstract: Fluid-based switches and methods for producing the same are disclosed. In one embodiment, a method for producing a switch comprises depositing a first alignment pad on a first substrate, depositing a second alignment pad on a second substrate, depositing solder on at least one of the alignment pads, depositing a switching fluid on the first substrate, and mating the first substrate to the second substrate by aligning the alignment pads and heating the solder, the substrates defining therebetween a cavity holding the switching fluid, the cavity being sized to allow movement of the switching fluid between first and second states.

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: 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 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: A logic analyzer integrates the capabilities of both textual and graphical description into a common environment, so that each can be used as needed, and in conjunction with the other. In an example embodiment a trigger specification can comprise many “steps”. A step can be conceptualized as an atomic segment of flow charting that involves or investigates a quantity or condition of interest. These steps may involve testing, and a decision concerning whether or not to trigger or whether or not to advance to a next step. A given step can be either textual or graphical. A GUT (Graphical User Interface, as in computer windows, and not to be confused with ‘graphical’ meaning ‘waveform-like’) on a CRT screen in conjunction with a pointing device (e.g., mouse) provides the presentation of the integrated textual and graphical (waveform-like) trigger specification steps.

Abstract: A method for matching output impedance of a driver to a load impedance. In representative embodiments an external impedance is attached between an external contact and a first source potential, wherein the load impedance includes the external impedance plus impedance of interconnections between an output terminal of the driver and the external impedance. An adjustable impedance, which can be field effect transistors which can be turned on separately and in combination to change the value of the adjustable impedance and which can be located on an integrated circuit, are connected between a second source potential and the output terminal of the driver. A reference potential, wherein the reference potential has a value half-way between the first source potential and the second source potential is obtained.

Abstract: Repetitive sampling of a data signal is performed. A clock reference is generated. The clock reference has a known period relationship with the data signal. The clock reference and the data signal are simultaneously sampled. The sampling is performed at a known frequency. The sampled information from the clock reference and the known sampling frequency are used to determine in what phase of the clock reference sampled values of the data signal occur.

Abstract: A microfluidic system for steering subject materials to a next processing region includes a substrate having at least one embedded gas generator that is activated in response to the result of an initial process, whereby a gas is formed having pressure to steer the subject materials to the next processing region. The gas generator includes resistors that are electrically activated. As current passes through the resistors, thermal energy is released to decompose a selected material from a solid or liquid state to gaseous state. In an alternative embodiment, a gas generator is activated in response to an external control.

Abstract: An image sensor and method of sensing an image provides a variable amplifier at each pixel, thereby expanding the dynamic range of the sensor. An image sensor core (500) comprises a plurality of pixel sensors (510). Each pixel sensor preferably includes a photosensitive element (310), a variable amplifier (312), and an analog-to-digital converter (“ADC”) (314). The ADC (512) includes a comparator (512) coupled to a latch/shift register (514). The comparator (512) receives the output of the variable amplifier (312) and a ramp signal and produces an output when the ramp signal exceeds the amplifier (312) output. The latch/shift register (514) latches a count signal corresponding to the ramp signal when triggered by the comparator (512). In operation, the photosensitive element (310) is exposed to light for a first integration period. The variable amplifier (312) amplifies the resulting photocharge by the maximum possible amount.

Abstract: The present invention uses a piezoelectric method to actuate a liquid metal relay. The method described here uses the piezoelectric element in an extension mode to cause the switch actuator to insert into a cavity in the static (i.e. nonmoving) switch contact structure. The cavity has sides and a pad on its end that are wettable by the liquid metal. The cavity is filled with liquid metal. Insertion of the switch actuator into the cavity causes the liquid metal to be displaced outward and come in contact with the contact pad on the switch actuator. The volume of liquid metal is chosen so that when the actuator returns to its rest position, the electrical contact is maintained by surface tension and by wetting of the contact pads on both the static switch contact structure and the actuator.

Abstract: A method, apparatus, and computer program product for reading fluorescence signals from an array of chemical moieties (such as different sequence peptides or polynucleotides, for example different DNA sequences). In the method the spatial sequence of scanned locations need not be the same as the temporal sequence. For example, a later illuminated line may be spatially closer to an earlier illuminated line than is a temporally intervening illuminated line.

Abstract: The multi-pole, conductive liquid-based switch device includes an elongate passage, a first cavity, a second cavity, at least four electrodes disposed along the length of the passage, channels that extend from the passage, non-conductive fluid located the cavities and conductive liquid located in the passage. The channels are one fewer in number than the electrodes and are interleaved with the electrodes along the length of the passage. The channels are numbered in order from one end of the passage. Odd-numbered ones of the channels extend to the first cavity while even-numbered ones of the channels extend to the second cavity.

Abstract: Methods and apparatus are disclosed for selectively coupling sense amps with local IO lines in memory devices, comprising first and second selection systems operable to selectively couple a sense amp terminal with a local IO line. A first selection system is coupled with a local IO line and a sense amp, providing selective coupling thereof a second time period after the sense amp is enabled. A second selection system is coupled with the local IO line and the sense amp, which couples the local IO line with the sense amp a first time period before the sense amp is enabled during a write operation, wherein the first time period may be zero.

Abstract: Several methods for producing an active region for a long wavelength light emitting device are disclosed. In one embodiment, the method comprises placing a substrate in an organometallic vapor phase epitaxy (OMVPE) reactor, the substrate for supporting growth of an indium gallium arsenide nitride (InGaAsN) film, supplying to the reactor a group-III-V precursor mixture comprising arsine, dimethylhydrazine, alkyl-gallium, alkyl-indium and a carrier gas, where the arsine and the dimethylhydrazine are the group-V precursor materials and where the percentage of dimethylhydrazine substantially exceeds the percentage of arsine, and pressurizing the reactor to a pressure at which a concentration of nitrogen commensurate with light emission at a wavelength longer than 1.2 um is extracted from the dimethylhydrazine and deposited on the substrate.

Abstract: A device for calibrating a test head of a testing device, where the test head has multiple electric contacts which are positioned in a contact region, has a contacting unit, which is dockable on the test head such that the contacting unit covers the contact region of the test head. The contacting unit includes a contact head, which has at least one measuring contact for contacting the contacts of the test head and is multi-dimensionally movable within the contacting unit using a positioning unit such that the contact head may approach and contact at least multiple contacts of the contact region. The device also has a control unit, which operates the positioning unit in calibration operation such that multiple or all contacts of the contact region to be contacted for calibrating the test head are automatically approached and contacted by the contacting head.

Abstract: A semiconductor structure and method for transmitting optical signals modulates an optical property of the semiconductor structure to selectively transmit portions of an externally supplied light beam as optical signals. The use of the externally supplied light beam eliminates the need to fabricate a light emitting device onto the semiconductor structure. Thus, the semiconductor structure can be based on an indirect bandgap material such as silicon. Consequently, the semiconductor structure can be readily integrated into a conventional silicon-based integrated circuit using conventional semiconductor manufacturing processes.

Abstract: A method of predicting electrical behavior of a device comprises the steps of representing at least one balanced matching network having a balanced input port and a balanced output port and further representing a connection between the matching network an a balanced output port and a balanced input port of a device. A matching network S-parameter matrix is calculated and a device S-parameter matrix is obtained either through a measurement or from a model. A cascaded S-parameter matrix for the matching network in combination with the device is calculated, and from the resulting cascaded S-parameter matrix, a mixed-mode cascaded S-parameters may be extracted. The mixed-mode cascaded S-parameters assist a designer in predicting and analyzing the electrical behavior of the differential and single-ended ports as well as the electrical interaction therebetween.

Abstract: A system for manipulating optical signals in an optical switch utilizes a piezoelectric membrane. The membrane is selectively enabled to switch among an outward position, an inward position and a relaxed orientation in relation to a sidewall of a trench that is provided as part of the switch. The membrane is in fluidic communication with an intersecting gap of the trench that crosses a first input waveguide and a first output waveguide. Displacing the membrane to a first position causes the gap to be filled with an index-matching liquid such that light from the first input waveguide is transmitted to the first output waveguide. Alternatively, displacing the membrane to a second position causes the gap to be filled with a gaseous bubble, resulting in a refractive index mismatch, such that the light from the first input waveguide is diverted at the gap. In another embodiment, there are two membranes utilized for manipulating optical signals.

Abstract: An auxiliary component such as a bias inductance (6) associated with a laser source (2) is mounted generally “upright”, that is with its major dimension substantially orthogonal to the general plane of the submount (S) supporting both the laser (2) and the auxiliary component (6). The inductor (6) is preferably mounted at a location displaced laterally with respect to the lasing direction (X) of the laser source. The arrangement preferably includes a submount (S) with a recess (13) and at least part of the laser driver is arranged in the recess so that the driver (3) has an end surface extending from the recess substantially flush with the pad (12) for mounting the laser source. The arrangement minimises surface occupation as well as RF and EMI parasitic effects related to wirebonding.