Abstract: Various asymmetric InGaAsN VCSEL structures that are made using an MOCVD process are presented. Use of the asymmetric structure effectively eliminates aluminum contamination of the quantum well active region.

Abstract: A digital-to-analog converter (DAC) and method for converting digital inputs into analog outputs utilizes resampling switches to regulate the transmission of partial analog signals between analog output elements and a summing circuit to reduce or eliminate “glitches” in the output signal. Each resampling switch may be individually connected to an analog output element to handle a fixed partial analog signal, e.g., a fixed current, generated by that analog output element. Consequently, the resampling switches can be used to reduce or eliminate the glitches in the output signal without introducing switch nonlinearity into the output signal by simultaneously transmitting the partial analog signals to the summing circuit using the resampling switches.

Abstract: A speech quality evaluation system comprising: (1) sound quality evaluation units; and (2) network analyzers. The speech quality evaluation system transmits sound signals used for evaluation from the sound quality evaluation unit; the network analyzer captures a packet which corresponds to the sound part of the sound signals used for evaluation; receives the sound signals used for evaluation which have become degraded in passing through the IP network; and the network analyzer captures a packet which corresponds to the sound part of the sound signals used for evaluation.

Abstract: The slope efficiency of a laser diode is determined by temporarily adjusting a current applied to the laser and measuring a corresponding change in the average output power. Such prior art techniques require the laser modulation current average to be small to avoid impairment of transmission of data by the laser diode. An optical attenuator opposite an output of a laser diode resolves this problem by maintaining the average power emitted by the laser diode within acceptable operating limits.

Abstract: A current-to-voltage converting apparatus connected to an element or a circuit having a first terminal connected to a signal source and comprising a feedback amplifier, which is connected to a second terminal of the element or the circuit and keeps the second terminal at virtual ground, and which converts the current signals that flow to the element or the circuit to voltage signals and outputs these signals; a device for opening the feedback loop of the feedback amplifier and measuring the open-loop loss of the feedback loop; and a compensating amplifier, which compensates for the open-loop loss. It further comprises a device for measuring the open-loop phase shift of the feedback loop when the feedback loop is open and a control unit for keeping the open-loop phase shift at a pre-determined value.

Abstract: The present invention refers to an electronic apparatus, preferably a microchip testing device, comprising at least one circuit board mounted on a cooling device. This circuit board supports at least one microchip. The circuit board supports the microchip on a side turned to the cooling device, wherein the cooling device is adapted for providing a cooling of a side of the microchip, which side is turned to the cooling device. A thermal conductor is arranged between the microchip and the cooling device for providing a thermal contact between the cooling device and the one side of the microchip turned to the cooling device. The thermal conductor comprises at least one of a group comprising: a thermally conductive knead, a plasticine, a kneadable and thermally conductive material, and a plastically deformable and thermally conductive material.

Abstract: A device power supply includes an amplifier, a high output-side force terminal connected to the output of the amplifier, a high-output side sense terminal, and a first feedback circuit from the high output-side sense terminal to the input of the amplifier, where there is a first low-pass filter in between the amplifier output and the first feedback circuit.

Abstract: An eye diagram analyzer assigns a plurality of SUT data signals to be members of a labeled group of channels. There may be a plurality of such groups. In addition to mere superposition in an (X, Y) display space of the various i-many (X, Y)-valued pixels for individual component eye diagrams associated with that group, other measured data for those pixels within a group can be merged in various different modes to produce corresponding composite eye diagram presentations. E.g., in a Normalized Signal Density Mode the number of hits at each trial measurement point is summed over all channels in the group, and then divided by the total number of clock cycles measured for the ith measurement point in that group to produce a density Di associated with the corresponding ith pixel: (Xi, Yi, Di). If Di is rendered as a color or an intensity, the resulting eye diagram includes a representation (the Di) of a normalized density of transitions at each point (Xi, Yi), relative to that group as a whole.

Abstract: A mechanism for compensating the gravitational force acting on a slider of a linear motor, in particular of an electro-magnetic direct linear motor, and acting on a load to be carried and moved by the slider. To compensate for the gravitational force, the mechanism exhibits a spring element, which exerts an elastic restoring force against the gravitational force on the slider.

Abstract: An optical system for detecting and coupling light to optical devices, and a method for aligning and calibrating the system. The system includes positioning stages and fiber sensors. The fiber sensors are used to detect the positions of calibration pieces and other sensors in a variety of configurations. From these detected positions, any misalignment of the sensors or positioning stages may be calculated and corrected for. The fiber sensors calibrate the system.

Abstract: Disclosed herein are methods for modifying an inner-layer circuit feature of a printed circuit board. A trimming point on the inner-layer circuit feature is identified using an x-ray inspection system. The coordinates of the trimming point are then related to the coordinates of a visible reference marker on the printed circuit board. Next, the relationship between the visible reference marker and the trimming point is used to position a cutting tool over the trimming point. Finally, the cutting tool is used to make one or more cuts into the printed circuit board, until the inner-layer circuit feature is acceptably modified at the trimming point.

Abstract: An apparatus for controlling the position of a screen pointer for an electronic device having a display screen includes a pushbutton for selecting an item displayed on the display screen. The pushbutton includes an imaging surface against which a portion of the tip of a human digit may be placed. A light source illuminates that portion of the tip of the digit that is placed against the imaging surface, thereby generating reflected images. The apparatus includes a motion transducer. A lens receives the reflected images and directs the reflected images onto the motion transducer. The motion transducer generates digital representations of the reflected images. The motion transducer generates a first set of movement data based on the digital representations of the reflected images. The first set of movement data is indicative of motion of the tip of the digit across the imaging surface.

Abstract: A system is disclosed that collects heterogeneous scalar measurement data over a network from a plurality of devices connected to the network, and automatically normalizes the collected heterogeneous scalar measurement data based on a threshold to generate an event based on a threshold crossing. In an embodiment, the system automatically derives a measurement from the collected heterogeneous scalar measurement data; and automatically scales the derived measurement or the collected heterogeneous scalar measurement data. In another embodiment, the system normalizes the collected heterogeneous scalar measurement data, the scaled derived measurement, the scaled collected heterogeneous scalar measurement data, or the derived measurement.

Abstract: An electrical circuit and method substantially to mitigate the effects of a current increase due to a fault within the circuit. In particular, where the electrical circuit (80) includes a laser diode it is desirable to create a fault tolerant circuit to avoid a sudden increase in light intensity output by the laser diode. A track (44b) associated with the laser diode is identified and insulated by means of a layout of the circuit. Specifically, where the circuit is an integrated circuit, metal layers (42, 44, 46) and vias (50) are utilised to form an insulating shield (76) around the track (44b) associated with the laser diode.

Abstract: A carrier for treating photonic devices such as laser bars is provided with a recessed formation with a web surface for supporting the photonic device in contact therewith as well as at least one side surface forming an abutment surface for engaging a respective end facet of the photonic device. The photonic device is arranged in the recessed formation so that the lower surface of the photonic device is masked with respect to the treatment source, while at least one end facet of the photonic device engages at least one side surface by leaving exposed a surface to be treated. A protection member is placed in contact with the upper surface of the photonic device and the carrier with the photonic device arranged therein is exposed to the treatment source. The treatment is thus effective substantially exclusively on the surfaces of the end facets to be treated.

Abstract: Methods are disclosed for enhancing the confidence index in detecting the presence and/or amount of an analyte suspected of being in a sample. In the method, a combination of at least two predetermined derivatives of the analyte is subjected to chromatographic separation. Then, the retention times of the derivatives as a result of the chromatographic separation are determined. The retention times are related to the presence of the analyte in the sample. Detecting a response from each of the derivatives enhances confirmation that the compound detected is the analyte in question further. The number and intensities of the responses is related to the presence and/or amount of the analyte in the sample.

Abstract: A device package has a conductive substrate with at least one mounting site, and an insulating substrate with a first side on the side of the conductive substrate with the one or more mounting sites. The insulating substrate has at least one aperture providing access between a second side of the insulating substrate and the one or more mounting sites. The insulating substrate has one or more signal paths on the second side that couple the one or more apertures to one or more contact sites disposed about the insulating substrate. A series of conductive tabs is coupled to corresponding contact sites.

Abstract: A method for depositing material on a channel plate such that the material is registered to one or more channels formed in the channel plate includes filling at least one of the channels with a resist that is not wetted by the material; depositing the material on at least a region of the channel plate that includes at least part of the resist; and then removing the resist. The method may be used, in one embodiment, to apply an adhesive or gasket material that is used in assembling a switch.

Abstract: A precision locking BNC male connector mates without requiring twisting of the cable or multiple bends to accommodate the rotation of the BNC latch. The shell portion of the male connector that carries the adapter connector or cable clamp on one end and that is the male cylindrical shield at the other end, is free to rotate whenever the precision locking BNC male connector is not locked, whether or not it is mated with a female connector. A knurled sleeve is captive at a location along the male shell, but is free to rotate. The knurled sleeve has internal threads that engage external threads on a portion of the BNC latch. A radial friction device is in contact with both an-external surface of the BNC latch and the internal surface of the knurled sleeve. When not engaged with the bayonet pins of a female connector, rotating the knurled sleeve will rotate the BNC latch also, by virtue of the friction device, but both will, as a unit, rotate freely relative to the shell.

Abstract: A light source for generating and coupling light from a first wavelength into an optical fiber. The light source includes an output laser having a first optical cavity that includes a bottom mirror located outside of the optical fiber, and a top mirror that includes a reflector located within the optical fiber. An active region between the top and bottom mirrors generates light of the first wavelength, preferably through optical pumping at a second wavelength. The reflector is preferably a Bragg reflector and may include a mechanism for altering the wavelength of the light reflected thereby as well as the distance between the top and bottom mirrors. The pumping light is preferably generated by a pumping laser that includes a second electrically pumped optical cavity having a top mirror that is electrically connected to the bottom mirror of the first optical cavity.