Abstract: An imaging module for imaging, and a reader for and a method of electro-optically reading, a target, include a support, an imaging assembly including a solid-state imager having an array of image sensors on the support for capturing return light over a field of view at a range of working distances from the target along a folded imaging path, and an illuminating assembly on the support for directing illumination light along a folded illuminating path having a length longer than the folded imaging path to uniformly illuminate the target with the illumination light. The longer length of the folded illuminating path enables the illuminating assembly to illuminate the target with more of the illumination light, and also enables the imaging assembly to capture more of the return light for increased imaging/reading performance.
Abstract: An image reading apparatus includes a light source that illuminates light on an original document surface, an optical illumination system that leads the light emitted from the light source towards a reading target region, an imaging optical system that images the light reflected from the original document surface, the image optical system, and a sensor provided in an imaging part of the imaging optical system, for reading an image of an original document on the original document surface. The optical illumination system comprises an optical member and a plurality of reflective members, and an area for disposing the members of the illumination optical system is divided into two areas by a virtual plane perpendicular to the original document surface, parallel to the length direction, and passing through the area for disposing the members, and at least one of the reflective members is disposed in each of the areas.
Abstract: A projection display apparatus includes: a light amount sensor which detects an amount of light emitted from an array light source; a deterioration rate calculator which acquires an amount of light of a measurement target light source from the amount of light detected by the light amount sensor; a reference light amount storage which stores a reference amount of light of an amount of light emitted from plurality of solid state light sources, for each of the solid state light sources; and a light source controller which controls the amount of light emitted from the plurality of solid state light sources for each of the solid state light sources, and the deterioration rate calculator determines whether the measurement target light source has deteriorated, in accordance with a result of a comparison between the amount of light detected by the light amount sensor, and the reference amount of light.
Abstract: An image sensor includes a first imaging pixel for a first color having a photosensitive region disposed within a substrate of the image sensor and a second imaging pixel for a second color that is different from the first color having a photosensitive region disposed within the substrate. A refraction element disposed adjacent to the substrate, so that the refraction element refracts light of the first color to the photosensitive region of the first imaging pixel and refracts light of the second color to the photosensitive region of the second imaging pixel.
Abstract: An FOT module is provided that has a molded cover in which an optical beam transformer is integrally formed. The molded cover includes at least a nontransparent molded part that is secured to a mounting structure, such as a molded leadframe or a PCB, on which at least one active optical device is mounted. The material of which the nontransparent molded part is made has a CTE that matches, or nearly matches, the CTE of the body of the mounting structure. Consequently, exposure of the FOT module to temperature variations will not result in delaminations at the interface of the mounting structure and the nontransparent molded part.
Type:
Grant
Filed:
October 27, 2010
Date of Patent:
November 12, 2013
Assignee:
Avago Technologies General IP (Singapore) Pte. Ltd.
Abstract: A machine vision inspection system acquires a plurality of images of a workpiece region of interest at various focus heights, and determines a Z-height (e.g., the best focus height) for the region of interest based on a focus peak determining data set for the region of interest. The focus peak determining data set is derived from the plurality of images. The machine vision inspection system also determines Z-height quality meta-data based on data derived from the plurality of images (e.g., based on the focus peak determining data set), and associates the Z-height quality meta-data with the corresponding Z-heights. The Z-height quality meta-data are usable to establish weighting factors that are used in association with the corresponding best focus Z-heights in subsequent operations that fit a workpiece surface representation to a plurality of the best focus Z-heights.
Abstract: An array of two-terminal detectors is configured to provide output signals that provide position sensitive radiation detection (e.g., outputs A and B provide vertical position and outputs C and D provide horizontal position), and which are differential (i.e., signal A+B is equal and opposite to signal C+D). Preferably, a capacitive network is employed to provide the position sensitivity. Array outputs are preferably provided to a low impedance amplifier or opto-electronic coupler.
Type:
Grant
Filed:
March 25, 2010
Date of Patent:
November 5, 2013
Assignee:
The Board of Trustees of the Leland Stanford Junior University
Abstract: A low cost photocurrent monitoring circuit is provided. A photocurrent monitoring circuit, which performs monitoring by converting photocurrents output from a plurality of photodiodes (PD1 to PDn) into voltage, includes: a multiplexer circuit (MUX) for selecting one of input terminals to establish a connection of the selected input terminal to an output terminal, wherein the photodiodes (PD1 to PDn) are respectively connected to the input terminals; and an amplifier (LA) for converting a photocurrent which flows from a selected photodiode via the multiplexer circuit (MUX) into a voltage, and for outputting the voltage.
Type:
Grant
Filed:
August 21, 2007
Date of Patent:
October 29, 2013
Assignees:
Nippon Telegraph and Telephone Corporation, NTT Electronics Corporation
Abstract: The invention provides for a device comprising an apparatus comprising (a) a transmission grating capable of diffracting a photon beam into a diffracted photon output, and (b) an image detector capable of detecting the diffracted photon output. The device is useful for measuring the spatial profile and diffraction pattern of a photon beam, such as a vacuum ultraviolet (VUV) beam.
Type:
Grant
Filed:
July 26, 2010
Date of Patent:
October 29, 2013
Assignee:
The Regents of the University of California
Inventors:
Oliver Gessner, Oleg A. Kornilov, Russell B. Wilcox
Abstract: A chip device with a number of individually powered parts, such as photoreceptors. A mesh is provided to provide power to the individual photoreceptors. The mesh may be provided for ground and power and/or both. The mesh may be on different layers, so that one portion of the mesh is exactly over the other portion of the mesh. The mesh takes up a portion of real estate on the chip in between the individual photoreceptors, in locations where image sensing parts cannot be located. In an embodiment, the mesh can be intentionally broken at various locations to optimize the path length.
Abstract: A display device includes a projector assembly, an actuator, a panel element, and a number of mirrors. The projector assembly projects lights of an image. The actuator rotates the projector assembly about a rotating axis. The panel element includes a number of panel surfaces. The panel surfaces adjoin one another in sequence along the rotating axis. The mirrors are arranged in sequence along the rotating axis. The mirrors are oriented toward the respective panel surfaces for adjusting transmission directions of the lights to project the image onto the respective panel surfaces.
Abstract: A current-voltage converting circuit (2) is provided with a first feedback circuit (5) and a correcting transistor (Q1). The first feedback circuit (5) outputs, of an output voltage (V10), a voltage according to a magnitude of a low-frequency component that is not greater than or equal to a predefined first cut-off frequency. The correcting transistor (Q1) extracts a correction current (I21) according to a magnitude of an output of the first feedback circuit (5) from a sensor current (I10). The first feedback circuit (5) has a first integrating circuit (9) and a sample-and-hold circuit (10). The first integrating circuit (9) integrates the output voltage (V10) of a conversion section (3). The sample-and-hold circuit (10) samples and holds an output of the first integrating circuit (9) during a sensing period at which a pulsed detection signal is inputted. Means for preventing an incidence of ambient light onto a light-receiving section can be simplified or omitted as a result.
Abstract: An optical finger navigation device includes an image sensor, a tracking surface, and an optical element. The image sensor generates an image representative of light detected at a pixel array that has a pixel pitch which at least partially defines a surface area of a pixel. The tracking surface is approximately parallel to the image sensor. A first distance between and substantially orthogonal to planes of the tracking surface and the image sensor is insufficient under a set of illumination constraints to produce at the image sensor a speckle size above a threshold. The threshold is approximately one order of magnitude less than the pixel pitch. The optical element is interposed between the tracking surface and the image sensor. The optical element includes at least one optical redirection surface to redirect light along an optical path of a second distance between the tracking surface and the image sensor.
Type:
Grant
Filed:
January 13, 2011
Date of Patent:
October 1, 2013
Assignee:
Avago Technologies General IP (Singapore) Pte. Ltd.
Abstract: An embodiment relates to image sensor comprising one or more nanowires on a substrate of a cavity, the nanowire being configured to transmit a first portion of an electromagnetic radiation beam incident on the sensor, and the substrate that absorbs a second portion of the electromagnetic radiation beam incident on the sensor, wherein the first portion is substantially different from the second portion. The substrate could have a anti-reflective material. The ratio of a diameter of the cavity to a diameter of the nanowire could be at less than about 10.
Abstract: A tool setting or tool analysis device for a machine tool comprises a light source for producing a light beam. A light receiver receives the light beam and produces a signal indicative of the amount of light received. This is analyzed by a main analysis circuit to generate a trigger signal to a machine controller when the beam is at least partially occluded. To provide fail-safe operation should the main circuit not recognize the tool, a back-up trigger signal is produced after a delay by a delay circuit. In one preferred form, the back-up trigger signal may oscillate, providing repeated edges which can ensure fail-safe operation even if the machine controller suffers from a blind window and therefore misses the initial trigger signal.
Type:
Grant
Filed:
May 2, 2008
Date of Patent:
September 10, 2013
Assignee:
Renishaw PLC
Inventors:
Edward Benjamin Egglestone, Derek Marshall, Benjamin Jason Merrifield
Abstract: A photodetector includes one or more first photodiode regions that are covered by an optical filter configured to reject infrared (IR) light and that produce a first current (I1). The photodetector also includes one or more second photodiode regions that are covered by a light blocking material configured to reject visible and infrared light and that produce a second current (I2). The photodetector also includes one or more third photodiode regions that are not covered by the optical filter and are not covered by the light blocking material and that produce a third current (I3). Additionally, the photodetector includes circuitry configured to produce an output indicative of the first current (I1) or a scaled version of the first current (I1), minus the second current (I2) or a scaled version of the second current (I2), minus the third current (I3) or a scaled version of the third current (I3). The optical filter configured to reject IR light can be, e.g.
Abstract: A projector apparatus includes a light source configured to emit light beams of a plurality of color components, emissions of the light beams being controlled individually, a projection unit configured to form images respectively corresponding to the color components using the light beams from the light source for each frame and to sequentially project the images, a driving unit configured to drive the light source so that the light beams are emitted as light pulses having respectively predetermined pulse widths for a period in which the projection unit projects each of the images, a detector configured to detect deterioration levels of the light source respectively for the color components, and a controller configured to control the pulse widths of the light beams emitted from the light source based on the deterioration levels.
Abstract: A method and apparatus for recalibrating a liquid lens. In one embodiment, a lens holder is provided to adjust the focal length of the lens as a function of temperature. In another embodiment, a recalibration circuit including a second lens of similar characteristics to the imaging lens is used to determine an appropriate focus. In other embodiments, an open loop calibration process is used.
Abstract: The effects of inter pixel capacitance in a pixilated array may be measured by first resetting all pixels in the array to a first voltage, where a first image is read out, followed by resetting only a subset of pixels in the array to a second voltage, where a second image is read out, where the difference in the first and second images provide information about the inter pixel capacitance. Other embodiments are described and claimed.
Type:
Grant
Filed:
January 18, 2008
Date of Patent:
July 9, 2013
Assignee:
California Institute of Technology
Inventors:
Suresh Seshadri, David Cole, Roger M Smith, Bruce R. Hancock
Abstract: A solid-state imaging device comprises a pixel array; a reference signal generation unit operable to generate a reference signal that changes monotonically for a predetermined period in a horizontal period; a comparator operable to compare the level of a pixel signal with the level of a reference signal; a counter operable to count input clock pulses; a memory operable to store the number of counts counted by the counter as a digital value; and a timing control unit operable to generate a clock that is to be input into the counter, and change frequency of the clock that is to be input into the counter based on external input data.