Abstract: The present invention provides gate bias to an enhancement mode field effect transistor.

Abstract: Optics used in a high vacuum environment are mounted by bonding by use of addition polymerizing material which used in that environment. The suitability for use in the high vacuum environment is achieved by precise control of outgassing of trapped and dissolved gases, including low molecular weight hydrocarbons and amines, and unreacted material from component parts of said addition polymerizing material. A plurality of application quantities of the polymer are prepared in a large batch for use as pre-mixed frozen (PMF) material. The use of the large batch enables more precise control of mixture so that near-stoichiometric proportions of the polymer components are easily achieved.

Abstract: A method of capping a hydroxy group of a moiety, comprising coupling the moiety to a phosphor or phosphite derivative of a protected alcohol, so as to form the corresponding phosphate or phosphite between the hydroxy and phosphor or phosphite groups. The hydroxy group may be later de-capped by hydrolyzing the resulting compound to deprotect the protected alcohol and cleave the phosphate from the moiety so as to regenerate the hydroxy group of the moiety. The method has particular application to fabrication of addressable polynucleotide arrays and allows failed sequences, as well as inter-feature regions, to be left with a free hydroxy group at the ends of the molecules (failed sequences or linkers) at such locations.

Abstract: A microanalysis device having a plurality of sample processing compartments is described for use in liquid phase analysis. A microanalysis device system, comprising a plurality of interconnected microanalysis devices. The device is formed by microfabrication of microstructures in novel support substrates. The invention herein can be used for the analysis of small and/or macromolecular and/or other solutes in the liquid phase.

Abstract: An electrolyte is employed to test for defects in bare printed circuit boards. A bare board under test is placed in a conductive tank and immersed in an electrolyte. A probe is then used to contact a pad of a net to be tested on the board. The electrical resistance is then measured across the net and the electrolyte, the magnitude of the resistance being related to the number of pads actually connected to the net. The measurement thus provides an indication of whether the correct number of pads have been detected. Defects on the board, such as unintended short circuits and open circuits, cause the number of pads detected to be different from the expected value, thereby affecting the measured resistance.

Abstract: An electronic circuit (10) for an automatic test equipment for testing a device under test is described. Two lines (11, 12) are present for connecting the circuit with a device under test. Two comparators (CS1, CS2) are provided, one input of each of the comparators (CS1, CS2) being connected to different ones of the two lines (11, 12). A further comparator (CD) is provided, the two inputs of the further comparator (CD) being connected to different ones of the two lines (11, 12). Each of the two lines (11, 12) is terminated. Switching elements are provided which are connected between the two lines (11, 12). The switching elements enable the circuit (10) to be used in different modes, in particular with a single-ended termination and with a differential termination.

Abstract: Solid state illumination using closed loop spectral control. Light emitting diodes producing different colors are mounted in close proximity to photosensors. Spectral content of the light emitting diodes is measured by the photosensors, and these measurements used to adjust light emitting diode currents to achieve the desired spectral characteristics.

Abstract: An apparatus for and method of making a discharge ionization detector. The apparatus comprises a detector body, a detector cavity, located in the detector body and having a discharge electrode and an second discharge electrode, wherein an electric discharge runs between the second discharge electrode and the discharge electrode, and a signal electrode which attracts ionized molecules, an inlet interface, through which a discharge gas enters the detector, an analyte inlet, through which the analyte enters the detector cavity, and an outlet through which the analyte and discharge gas exit the detector body, wherein the apparatus is hermetically sealed. The apparatus is hermetically sealed by vacuum brazing the components to the detector body. The present invention can also have a detector volume as small as 10 micro-liters or less.

Abstract: A method is described for removing residue from a fluid deposited on the interior surface of an inkjet printhead after the printhead has contained or dispensed the fluid at least once. The method makes use of a reverse flushing technique optionally used in combination with sonication. A cleaning station for flushing an inkjet printhead with a wash fluid, rinse fluid, and/or inert gas is provided as well.

Abstract: A system and method are provided for detection of gas intrusion into a fluid-containing device. The fluid-containing device has a first waveguide and a second waveguide that intersect at a trench such that optical coupling between the first and second waveguides is dependent upon an absence of a fluid in the trench. The fluid containing device includes a fluid removal mechanism for removing fluid to the trench to switch the fluid-containing device. An optical connection is made between first ends of the first and second waveguides and a light source provides a light at a second end of the first waveguide and a detector detects the light at a second end of the second waveguide. The times required to remove and return the fluid from the trench are used as an indicator of gas intrusion into the fluid containing device.

Abstract: A vector stimulus/response system enables the vector responses of frequency translation devices (FTDs) to be accurately characterized. The system includes a source, having a predetermined source match, reflection tracking and directivity, that generates a stimulus signal. A receiver having a predetermined load match is also included in the system. The receiver measures a first series of responses of a reference translator to the stimulus signal, when the reference translator is coupled between the source and receiver. The reference translator has predetermined transmission characteristics, input match and output match. The receiver measures a second series of responses of a FTD to the stimulus signal. A processor generates a correction array from the first series of responses, the predetermined transmission characteristics, input match output match, source match, and the directivity, reflection tracking and load match.

Abstract: A circuit provides an output signal in accordance with crossing points of a differential signal, which includes a normal input signal and a complementary input signal. The circuit includes a first amplifier for amplifying a first signal difference between the normal input signal and a first threshold value, and for providing as a first output signal the amplified first signal difference. The circuit includes a second amplifier for amplifying a second signal difference between the complementary input signal and a second threshold value, and for providing as a second output signal the amplified second signal difference. The circuit also includes a first comparator for providing a first logical level when a third signal difference between the first output signal and the second output signal is greater than a third threshold value, and for providing a second logical level when the third signal difference is smaller than the third threshold value.

Abstract: The invention concerns a device (1) for measuring and testing components of optical networks. This is with an optical connector (5), over which an optical cable (8) may be optically connected to the device's (1) measuring and/or testing equipment; wherein a first connector element (15) is provided, onto which a complimentary second connector element (10), attached to the optical cable (8) or to this connectable adapter (17), may be connected to form an optical coupling; wherein the first connector element (15) is attached to one end of the tubular connection elements (12), which is connected at its other end to the connector (5) and is reversibly and three-dimensionally flexible.

Abstract: A preferred method for coupling a transmission line to a circuit board includes the steps of: providing a circuit board with a first side and an opposing second side; dispensing solder upon the first side of the circuit board; providing a first coupler having a conductive lead portion and a ductile conductive tube portion extending from the conductive lead portion; engaging the conductive lead portion with the solder dispensed upon the first side of the circuit board; heating the circuit board, the solder and the conductive lead portion so that the solder reflows, thereby securing the first coupler to the first side of the circuit board; inserting an extremity of the first conductor into the ductile conductive tube portion; and crimping the ductile conductive tube portion so as to provide crimped retention of the first conductor therein. Circuit boards, devices and systems also are provided.

Abstract: Low surface energy functionalized surfaces on solid supports are provided by treating a solid support having hydrophilic moieties on its surface with a derivatizing composition containing a mixture of silanes. A first silane provides the desired reduction in surface energy, while the second silane enables functionalization with molecular moieties of interest, such as small molecules, initial monomers to be used in the solid phase synthesis of oligomers, or intact oligomers. Molecular moieties of interest may be attached through cleavable sites. Derivatizing compositions for carrying out the surface functionalization process are provided as well.

Abstract: An electronic circuit and method for processing a signal, including a variable-delay transmission gate for receiving a binary input signal and propagating a delayed binary output signal corresponding to the input signal. The propagation delay in the transmission gate is controlled by two complimentary, non-binary, control signals front a current mirror that is driven by a PVT-compensated voltage follower.

Abstract: A system and method are described for providing intelligence to an analysis probe being utilized by logic analyzers. The system provides for regenerating target system internal processor data signals for analysis by a logic analyzer from data lines that are being utilized for other purposes by the target system processor. In particular, the analysis probe includes programmable logic for providing an interface between an emulation module and the target system, a memory for receiving signal reconstruction data from the emulation module, a processor for generating a data map from signal reconstruction data, and programmable logic for generating a target system internal signal from at least one of a plurality of target system data signals and the signal reconstruction data.

Abstract: A digital pixel driver that operates in response to an M-bit digital input value defining the apparent brightness of the pixel. The pixel driver generates a pixel drive signal having a duty cycle that sets the apparent brightness of the pixel. The pixel driver comprises a memory, a digital sequence generator and a comparator. The memory receives and stores an N-bit word that represents the digital input value. The digital sequence generator generates a digital sequence of P-bit digital values that defines the temporal duration of the pixel drive signal and includes a first P-bit word that represents at least part of the digital input value at a location temporally corresponding to the duty cycle of the pixel drive signal as defined by the at least part of the digital input value. The comparator is connected to receive the digital sequence from the digital sequence generator and a second P-bit word from the memory. The second P-bit word constitutes at least part of the N-bit word.

Abstract: Methods, devices and apparatus are disclosed for carrying out multiple chemical reactions, such as in situ synthesis of polynucleotides, on a surface comprising an array of discrete sites. Molecules are deposited at a predetermined number of the discrete sites on the surface for reaction at the discrete sites. The surface is positioned relative to an outlet of a fluid ejection device, which is activated to dispense a small volume of a fluid through the outlet to the surface to provide uniform coating of a continuous region of the surface comprising a multiple of the discrete sites. The fluid is dispensed as uniform particles having a diameter such that the uniform particles form a sheet to coat the continuous region of the surface. In one embodiment of the present invention, liquid is dispensed as uniform particles through a fluid ejection device activated by means of ultrasonic energy. The invention has particular application to the in situ synthesis of polynucleotides in arrays on a surface.

Abstract: A contactless conductivity detector uses a signal electrode arranged longitudinally between two ground electrodes. Conveniently, the ground electrodes can be integral with a metal housing that electrically shields the detector electronics from external electrical noise. The ground electrodes are defined at the locations where a capillary separation channel extends through the housing. The signal electrode is coupled to an AC transmitter through a sense resistor; the signal electrode is also coupled to a receiver that provides an output corresponding to the magnitude of the AC signal developed at the signal electrode. The signal electrode is located at a voltage-divider node between the sense resistor and the resistances of the sample fluid between the signal electrode location and the ground electrode locations. Thus, the signal developed at the signal electrode reflects the sample fluid resistance, which is the inverse of its conductivity.