Abstract: It is an integrated circuit capable of determining the quenching and the reset of an avalanche photodiode operating in Geiger mode so as to detect single photons falling on the surface of said photodiode. The circuit scheme used makes possible to reduce the size of the circuit down to a single semiconductor chip, to reduce the power dissipation and to reduce the cost of the circuit, at the same time keeping the performance at good level.

Abstract: A system on a chip for an image sensor includes a sensor array, a readout circuit, a data memory and a processor. The sensor array includes a two-dimensional array of pixel elements and a plurality of analog-to-digital conversion (ADC) circuits where each ADC circuit is coupled to one or more pixel elements in the sensor array. The readout circuit is coupled for reading the pixel data from the sensor array. The data memory is coupled for the sensor array for storing the pixel data. The processor is coupled for processing the pixel data. In operation, the system on a chip deactivates at least one noise-inducing circuit while a noise-sensitive circuit is activated. In one embodiment, the noise-sensitive circuit is one or more of the ADC circuits, and the noise-inducing circuit is one of the readout circuit, the data memory and the processor.

Abstract: A pick and place machine is disclosed which includes an on-head linescan sensor, and at least one additional optical sensor. The at least one additional sensor can be an off-head linescan sensor, an off-head or on-head 2D camera, an on-head shadow (e.g. one which shadows or images the profile of a component onto a detector, such as a LaserAlign®) sensor, an off-head or on-head coplanarity sensor, or an on-head or off-head fiducial camera. The additional optical sensor is disposed to provide essential placement information in the form of orientation information or inspection information. Combinations of the aforementioned additional sensor can also be used in embodiments of the present invention of the pick-and-place machine. The present invention is particularly useful with multi-head component placement machines, although it is usable with single head machines as well.

Abstract: A machine vision method and system for inspecting a material. The system comprises a light source arranged to illuminate the material and an imaging device configured to acquire image data corresponding to at least one characteristic of the material while the material is being illuminated by the light source. An image processor is configured to normalize the image data and to control adjustment of an exposure control level for the imaging device based upon the normalized image data. An exemplary method of implementing the machine vision system may include illuminating a material using a light source and obtaining image data corresponding to the material using an imaging device. The image data may be normalized and the adjustment of an exposure control level of the imaging device may be controlled based on the normalized image data.

Abstract: A large current watchdog circuit for a photodetector, the circuit including a current sensing device responsive to current flowing through the photodetector and a variable impedance transistor responsive to the current sensing device and the photodetector which increases in resistance in response to current flowing though the photodetector to protect the photodetector and any front end sensing electronics from high current levels.

Abstract: A raindrop sensor has a prism body, incoming radiation side plano-convex lens portions each provided on inclined surfaces of the prism body for receiving light from light-emitting elements, and outgoing radiation side plano-convex lens portions provided on inclined surfaces of the prism body for emitting light toward a light-receiving element. The plano-convex lens portions are configured to cause a relatively small number of light-receiving element(s) to receive light from a number of outgoing radiation side plano-convex lens portions. Such a raindrop sensor can be made to have a more structure while employing a widened detection region.

Abstract: This invention has as an object thereof to provide an overhead-traveling carrying apparatus which is capable of inexpensively incorporating countermeasures for detecting the presence of an obstacle such as a human being or a carelessly placed object during the lowering of an object to be carried onto the load port of a semiconductor manufacturing device prior to the contact of the obstacle with the object to be carried, thereby avoiding such contact. A structure is adopted in which obstacle detecting sensors which scan the raising and lowering path between a carriage and the load port of each semiconductor manufacturing apparatus, and which detect the presence of obstacles, are provided on the carriage with attached hoist.

Abstract: Disclosed is an automatic analysis method of crude oils, using spectroscopy. A near infrared spectroscopic analysis apparatus is combined with an ordinary distillation apparatus, so as to analyze the physical properties of each oil distillate as soon as it is separated from crude oils, thereby bringing about a significant improvement in analysis accuracy and in an economical aspect. It takes only two days for one person to obtain a full assay data for crude oils by taking advantage of the method. In addition to requiring a significantly reduced equipment cost, the method enables full assay data for crude oils to be obtained quickly, thereby securing more up-to-date information about crude oils and producing an economical benefit.

Abstract: A diffractive grating modulator system, includes: a diffractive grating modulator active to produce a plurality of output orders of diffraction; an illumination source for directing light onto the diffractive grating modulator; an output system arranged to receive one of the orders of diffraction from the diffractive grating modulator; a detector arranged to receive a different one of the orders of diffraction from the diffractive grating and to produce a signal representing the output of the diffractive grating modulator; an electronic driving system responsive to a data stream for operating the diffractive grating modulator; and a feedback system connected to the detector and the electronic driving system and responsive to the signal for calibrating the diffractive grating modulator.

Abstract: An integrated lens and aperture plate for an optical sensor equipped integrated chip in which the lens and aperture plate are molded as one piece with the lens at the appropriate location so that the lens aligns with the location of the optical sensor when the aperture plate is assembled to the IC. The lens and sensor are in fixed relation to one another since they are parts of the identical component, the IC, and any registration problems between the lens and sensor are thus eliminated.

Abstract: A fiber Bragg grating sensor system has a pi-shifted fiber Bragg grating sensor and a dual resolution mode wavelength detection system. The pi-shifted fiber Bragg grating sensor responds to a parameter, and further responds to an optical source signal, for providing a pi-shifted fiber Bragg grating sensor signal containing information about the parameter. The dual resolution mode wavelength detection system responds to the pi-shifted fiber Bragg grating sensor signal, for providing a dual resolution mode wavelength detection signal containing information about the parameter. The dual resolution mode wavelength detection system includes a low resolution wavelength detection system for detecting a resonance peak in the pi-shifted fiber Bragg grating sensor signal; and includes a high resolution wavelength detection system for detecting a resonance dip in the resonance peak of the pi-shifted fiber Bragg grating sensor signal.

Abstract: A polarity-independent optical receiver is constructed so that the bias voltage applied to the optical receiver may be applied in a polarity-independent manner. The polarity-independent optical receiver is also constructed in a balanced arrangement, thus providing the ability to effectively suppress common-mode intensity noise present at the optical receiver. The polarity-independent optical receiver may advantageously be fabricated using metal-semiconductor-metal (MSM) technology.