Abstract: An optical voltage converter has an emitter array and a receiver array. Each of the emitter array and the receiver array have at least one LED. The LEDs are arranged such that light from the emitter LED directly strikes the receiver LED.

Abstract: An optical sensor for a delivery device having a piston that displaces a substance, such as a fluid, from a reservoir. The optical sensor has a light source and a detector array for imaging encoding features disposed along a plunger rod coupled to the piston. By virtue of the pattern of encoding features, an absolute position of the plunger rod relative to a fiducial position may be determined uniquely. Thus, the volume of fluid remaining in the reservoir, the rate of fluid delivery, and proper loading of the reservoir may be accurately ascertained. Additionally, the encoding may serve to uniquely identify a version of the reservoir which may be supplied in various versions corresponding, for example, to differing concentrations of a therapeutic agent to be dispensed.

Abstract: The invention provides a laser light detection circuit that prevents a peak output occurring when the circuit switches between the operation stop mode and the operation mode so as to prevent the breakdown or malfunction of the next-connected circuit. A laser light detection circuit has a differential amplifier that amplifies and outputs a signal corresponding to the intensity of laser light, a drive transistor having a base to which the output of the differential amplifier is applied, a second constant-current source connected to the emitter of the drive transistor, an output transistor having a base connected to the emitter of the drive transistor, a bypass transistor connected between the emitter of the drive transistor and the ground, and a control circuit. The control circuit forms a bypass current route from the second constant-current source to the ground through the bypass transistor by turning on the bypass transistor when the circuit switches from the operation stop mode to the operation mode.

Abstract: The terrestrial solar tracking photovoltaic array includes a longitudinal support that may be constructed of discrete sections. The overall length of the array may be adjusted depending upon the necessary size of the array. A drive may be configured to rotate the longitudinal support in first and second directions about a first axis. Solar cell modules are positioned along the longitudinal support and may each include a rectangular case with a plurality of lenses that are positioned over corresponding receivers. Linkages may be connected to the solar cell modules and are axially movable along the longitudinal support to rotate the solar cell modules within second planes that each orthogonal to the first plane to further track the sun during the course of the day. The array may be configured to facilitate rotation about the first axis. The array may be constructed with a center of gravity of the array to extending through the longitudinal support.

Abstract: The invention relates to a sensor arrangement for scanning a scanning area (16, 36) comprising a scanner (10, 30, 42, 54) that generates a scanning field (12) which is defined between two legs spaced from each other by a scanning angle (A), and which scanner is adapted to control at least one blocking means (18, 38, 50) for a passageway (32, 56), said passageway (32, 56) being delimited at least in its horizontal extension. The invention is characterized in that a scanner (10, 30, 42, 54) is mounted at a distance, as viewed in the passage direction (14), from the passageway (32, 56) and thus also from the controlled blocking means (18, 38, 50), and that the scanning field (12) is directed towards the passageway and extends through the passageway (32, 56).

Abstract: In an optical position detecting device, a position detecting section detects the position of a target object on the basis of a result obtained by receiving detection light, which is emitted from a light source section and reflected by the target object, using a light detection section. As seen from an emitting direction of the detection light, the light detection section is located inside a region surrounded by a closed circuit passing through a plurality of the light source sections or inside a region pinched by the plurality of light source sections. The plurality of light source sections has a first light-emitting element, and a second light-emitting element located closer to the light detection section side than the first light-emitting element. The light source driving section alternately turns on the first light-emitting element and the second light-emitting element.

Abstract: Apparatus are provided for use in photovoltaic systems. A photovoltaic array includes a rigid transparent material supporting a flexible material there beneath. Numerous photovoltaic cells are supported by the flexible material and are electrically coupled to circuit pathways borne there on. A positioner operates to shift the flexible material thus adjusting respective angular relationships between the photovoltaic cells and the overlying transparent material. Photovoltaic cells are reoriented in accordance with daily or seasonal variations in the suns position by way of the present teachings.

Abstract: An image sensor the image sensor comprising an absorption layer disposed on a silicon substrate, the absorption layer having at least one of SiGe or Ge, and an antireflection layer disposed directly thereon.

Abstract: An image sensor and methods of use the image sensor, methods of manufacturing the image sensor, and apparatuses comprising the image sensor are disclosed. The image sensor has pixels includes at least one nanopillar with a gate electrode surrounding the at least one nanopillar, wherein the at least one nanopillar is adapted to convert light impinging thereon to electrical signals and the gate electrode is operable to pinch off or allow current flow through the at least one nanopillar. The image sensor can have a plurality of pixels arranged in an individually addressable fashion. The at least one nanopillar has a cladding. A refractive index of the cladding being smaller than a refractive index of the nanopillar.

Abstract: A system and method for controlling an optical filter is provided. The system and method includes dithering a delay of an optical path within an optical filter unit cell, measuring a position of a filter zero, measuring a position of a filter pole, or measuring positions of both a filter zero and a filter pole by observing an output of the unit cell when the delay is dithered, and using the measurement as feedback for maintaining the position of the filter zero at a desired position, maintaining the position of the filter pole at a desired position, or maintaining the positions of both the filter zero and the filter pole at desired positions.

Abstract: A solar power generation device including a base, a tracking system mounted to the base, a solar collector mounted to the tracking system configured to open as the solar power generation device transitions to an active state and to close as the solar power generation device transitions to an inactive state, a light sensing system dynamically mounted about the base and configured to adjust the tracking system based upon the position of a light producing element, and a plurality of focusing elements mounted to the base and positioned around the light sensing system such that any light reflected by the focusing elements is directed to the solar collector. The device may further include an electricity management and conditioning system contained in the base that includes a short term storage system, a long term storage system, a data acquisition system, and a data and electricity transmission interface.

Abstract: According to one embodiments, a transparent reference electrode is provided to be sandwiched between a red-detecting photoelectric conversion film and a green-detecting photoelectric conversion film, a first transparent driving electrode is provided to face the transparent reference electrode with the green-detecting photoelectric conversion film therebetween, a second transparent driving electrode is provided to face the transparent reference electrode with the red-detecting photoelectric conversion film therebetween, and a blue-detecting photoelectric conversion film is provided below the red-detecting photoelectric conversion film and performs blue detection.

Abstract: A tracking system is provided for a roof-mounted solar array. The system includes a sensor mechanism for sensing an orientation of the sun relative to the solar array, and a controller connected to the sensor mechanism that generates a signal that represents an optimal tilt angle of the solar array relative to the orientation of the sun. An actuator connected to the controller receives the signal from the controller and adjusts the tilt angle of the solar array in response to the received signal.

Abstract: A system and method for communicating between serially connected electrical devices of a network is provided. The network includes a series of electrical devices, and fiber optic connectors between electrical devices of the series of electrical devices forming a closed communication ring in which output of each electrical device is communicatively connected to input of a subsequent electrical device of the series of electrical devices.

Abstract: One embodiment of the invention relates to a system for operating a plurality of streetlights in response to motion from a vehicle. The system includes a sensor associated with at least one of the streetlights and configured to detect the presence of a moving vehicle and to provide a signal representative of the moving vehicle. The system further includes a radio frequency transceiver associated with each of the streetlights. The system yet further includes processing electronics configured to receive the signal representative of the moving vehicle from the sensor and to cause the radio frequency transceiver to transmit a command to one or more of the plurality of the streetlights to change lighting states along a pathway for the vehicle.

Abstract: An apparatus adapted for confocal imaging of a non-flat specimen comprising a coherent light source for producing a light beam, imaging optics adapted to focus the light beam into at least one spot on a surface of a specimen, and a detector adapted to receive and detect light reflected from the specimen surface. The imaging optics comprise at least one optical component located so that the light reflected from the specimen surface passes therethrough on its way to the detector. The optical component is movable so as to move the at least one spot, within a range of movement, to a number of distinct locations in a plane perpendicular to the apparatus' optical axis, within the detector's integration time.

Abstract: A CMOS image sensor that is capable of both voltage- and current-mode operations selects the mode based on the position of mode switches. Each pixel on the imager has a single transistor acting as either source follower for voltage readout, or transconductor for current readout. The two modes share the same readout lines, but have their own correlated double sampling (CDS) units for noise suppression. A current-mode readout technique using a velocity-saturated short-channel transistor may be used to achieve high linearity. An image array may be formed as a mixture of 3 types of pixels with identical photodiodes and access switches. The readout transistors are optimally sized for their designated mode of operation. Alternatively, two readout transistors are provided per pixel, each individually optimized for the desired mode of operation.

Abstract: A method includes collecting site specific data, collecting field data at a site of an array of photovoltaic members, determining a current tracked irradiance of the array of photovoltaic members, calculating predicted irradiance for multiple orientations based on the site specific data and the sensed field data, or sensing an actual irradiance for multiple orientations. The method further includes determining a maximum predicted irradiance from the calculated predicted irradiance or a maximum actual irradiance from the sensed irradiance. The method further includes comparing the maximum predicted irradiance or the maximum sensed irradiance with the current tracked irradiance, and re-orienting the array of photovoltaic members to an orientation having the maximum predicted or actual irradiance if the maximum predicted or actual irradiance is greater than the current tracked irradiance.

Abstract: An optical element incorporated into an imaging optical system, comprising: an effective diameter area that allows effective light flux contributing to imaging to pass, a non-effective diameter area that surrounds the effective diameter area; and an outer peripheral face that surrounds the non-effective diameter area. The effective diameter area, the non-effective diameter area and the outer peripheral face are centered on an imaging optical axis. At least a thickness-direction part of the outer peripheral face or a circumferential part thereof is a non-parallel face having an inclination to an imaging optical axis. A light incident from a face of an object side, reflected on a face of an image-plane side to the outer peripheral face and reflected on the outer peripheral face is not incident to an image plane.

Abstract: Processing a two dimensional (2D) barcode using a mobile telecommunications terminal having an image scanner includes obtaining a scanned image of the 2D barcode from the image scanner, decoding the image to obtain data, including a web address, and associating an identifier with the decoded web address, such that the identifier is identifiable by a remote proxy server to obtain information relating to the use of the barcode. A browser of the mobile terminal transmits a web page request including the decoded web address and the identifier. The web page request may be identified as originating from a 2D barcode at a server in a mobile telecommunications network. The request is received from a mobile terminal, an inserted identifier is identified in the request, and a record is saved, the record including an identifier of the mobile terminal or a user of the mobile terminal and the web page address.