Entries |
Document | Title | Date |
20080210851 | Optical Sensor - An optical sensor for a touch-sensitive push button of a control mechanism for an electronic household appliance has a transmitter, which emits electromagnetic radiation, and a receiver, which receives reflected electromagnetic radiation. A cover is at least partly transparent to the electromagnetic radiation and the transmitter and the receiver are arranged behind the cover. A radiation guide mechanism, for example a diaphragm frame, is provided between the transmitter and the receiver, on the one hand, and the cover, on the other hand, for guiding the radiation emitted from the transmitter towards the cover and to guide the reflected radiation penetrating the cover to the receiver. The diaphragm frame broadens the emission characteristic of the transmitter outward from the cover and/or the reception characteristic of the receiver inward into the cover. Additionally or alternatively, the emission characteristic outward from the cover is inclined in the direction of the reception characteristic of the receiver into the cover and/or the reception characteristic of the receiver into the cover is inclined in the direction of the emission characteristic of the transmitter out from the cover. This moves the range of intersection between emission and reception characteristic closer to the cover, so that the signal-to-noise ratio of the optical sensor is reduced. | 09-04-2008 |
20080245955 | Optical Tactile Sensor - An optical tactile sensor and an image information integrating method capable of measuring large area force vector distribution are provided. The optical tactile sensor comprises a tactile section comprising a transparent elastic body ( | 10-09-2008 |
20080265143 | Method for Control of a Device - The invention describes a method for control of a device (D | 10-30-2008 |
20080265144 | Deflected Light Beam Network Barrier - A system (FIG. | 10-30-2008 |
20080283735 | Apparatus and a method for preventing a photographic image from being taken clearly - An apparatus for preventing a photographic image from being taken clearly comprises a garment, optical sensors, strobes, a strobe controller and a battery. Each of the optical sensors is arranged on the garment so as to detect a flash from a camera in a different direction. Strobes are arranged on the garment. A strobe controller is coupled with the optical sensor and the strobes. The strobe controller flashes the strobes in response to an output of at least one of the optical sensors. A battery is coupled with the strobes, the strobe controller, and the optical sensor. The apparatus may comprise a manual switch coupled with the strobes. The manual switch is adapted to turn on and off the strobes manually. | 11-20-2008 |
20080290261 | Optical Encoder - The present invention relates to an optical encoder for measuring movement. The optical encoder includes at least one light source for outputting light. Furthermore, the optical encoder includes a movable pattern. Furthermore, the optical encoder includes at least one photodetector for detecting the light reflected off the movable pattern, the movable pattern including regions of varying reflectivity for modulating the light from the at least one light source onto the at least one photodetector in response to movement of the pattern, wherein the at least one photodetector is configured to detect the light in detection instants in regular intervals. The light source may be a pulsed light source outputting light in pulses. Furthermore, user equipment including such an optical encoder and a method for measuring movement are disclosed. | 11-27-2008 |
20080302951 | REFLECTED LIGHT DETECTING APPARATUS, REFLECTION CHARACTERISTIC DETERMINING APPARATUS, AND OBJECT DETECTING APPARATUS - A photographing section photographs a photographing object, a light-projector projects a light spot parallel to or approximately parallel to an optical axis of the photographing section onto the photographing object, and a detector detects, from an image of the photographing object photographed by the photographing section, a light spot from the light-projector reflected by the photographing object on the basis of an arrangement position of the light-projector relative to the photographing section. A reflected light spot of light projected onto a detection object can be detected with certainty, and erroneous detection of the reflected light spot, in particular, erroneous detection due to disturbance light, can be prevented at a low cost, without an increase in size of the apparatus. | 12-11-2008 |
20090026355 | OFFSET OPTICAL SECURITY SENSOR FOR A DOOR - A security sensor apparatus senses movement of an object. The sensor apparatus includes an electronics arrangement having an optical emitter and an optical receiver. The optical receiver has an axis of reception. The optical emitter emits a first beam along an axis of emission in an emission direction. The axis of emission diverges in the emission direction from the axis of reception at an angle of at least two degrees. The electronics arrangement is mounted in association a first surface of the object or a second surface of a structure disposed in opposition to the first surface. A reflector arrangement includes at least one reflective surface and is mounted in association with the other of the first surface and the second surface. The at least one reflective surface receives at least a portion of the first beam and produces a second beam directed at and received by the optical receiver. | 01-29-2009 |
20090026356 | Method for Operating an Optoelectronic Sensor - The invention relates to a method for operating an optoelectronic sensor, particularly a light barrier, during which a light emitter emits light signals having a time interval toward a monitoring area, at least some of the light signals being comprised of a number of successive individual pulses. A light receiver receives the emitted light signals. An evaluating unit processes received signals generated from the received light signals and outputs an object determination signal according to the evaluation result. According to the inventive method, a number of light signals are emitted in a regular sequence, the courses of the respective received signals being evaluated in a different manner. The invention also relates to an optoelectronic sensor that is suited for carrying out the aforementioned method. | 01-29-2009 |
20090039238 | PORTABLE CONTAINER MOUNTED COUNTER FOR FISHING, HUNTING, AND OTHER OUTDOOR ACTIVITIES - A device for electronically and optically counting objects, such as fish, animals, vegetation or other materials, as they are placed into a container. The device surrounds a defined opening on a container. As objects are placed into the container, they fall through the frame of the opening. A light source, such as a laser or LED, is directed toward a light detector in such a way as to be disrupted as the animal falls into the container. A light detector detects said disruption of the light and signals the electronic circuit to add to the number previously counted. Various methods of communicating the count are provided. The preferred method of communicating the count is via an integrated visual display. The preferred method of powering the device is by the use of one or more electric battery. Various methods of electrically powering the device are provided. | 02-12-2009 |
20090039239 | TACTILE SWITCH FOR A DOMESTIC APPLIANCE - A switch for a domestic appliance, such as a cooking range, that includes a radiation emitter, an auxiliary radiation emitter and a radiation receiver, the radiation receiver adapted to receive at least part of the radiation emitted from the radiation emitter and auxiliary radiation emitter and to generate one or more reception signals whose values depend on the radiation received. A controller associated with the switch generates a periodic control pulse (Pc) at a first time interval to cause the radiation emitter to emit radiation for a duration of time and a periodic test pulse (Pt) at a second time interval different than the first time interval to cause the auxiliary radiation emitter to emit radiation for a duration of time. The controller configured to evaluate the one or more reception signals to determine if an error or malfunction exists in the switch. | 02-12-2009 |
20090050793 | MOTION DETECTION APPARATUS AND ENTERTAINMENT SYSTEM - There are provided an infrared light emitting diode | 02-26-2009 |
20090078858 | ORIENTATION DETERMINATION UTILIZING A CORDLESS DEVICE - A system for generating orientation information includes a reflector, an image collection system, and a processor. The image collection system is configured to collect at least two sets of image data, where one set of image data includes a stronger indication of the reflector than the other set of image data. The two sets of image data are collected using at least one reflector with some orientation-specific characteristic or a reflector integrated into a device that includes some orientation-specific structural feature. Once collected, the two sets of image data are used to generate orientation information related to the reflector. In particular, orientation information related to the reflector is generated by taking the difference between the two sets of image data. | 03-26-2009 |
20090095889 | Occupancy sensor assembly - An occupancy sensor is provided with a housing having an interior cavity. A switch is mounted in the interior cavity of the housing and configured for placement in the open and closed positions. A fascia cover plate may be positioned on the housing to enclose the interior cavity. The fascia cover plate has a fascia rib on an interior surface thereof. The fascia rib is arranged to interfere with the switch in the disabled state to prevent positioning of the fascia cover plate on the housing. | 04-16-2009 |
20090101802 | DETECTION CIRCUIT FOR DETECTING MOVEMENTS OF A MOVABLE OBJECT - Detection circuits ( | 04-23-2009 |
20090101803 | DETECTION CIRCUIT FOR DETECTING MOVEMENTS OF A MOVABLE OBJECT - Detection circuits ( | 04-23-2009 |
20090101804 | DETECTION CIRCUIT FOR DETECTING MOVEMENTS OF A MOVABLE OBJECT - Detection circuits ( | 04-23-2009 |
20090114800 | Motion sensor with led alignment aid - A motion sensor incorporates an internal light source, typically a super bright LED and an optical projection system visible to an observer standing in the motion sensor coverage zone(s) to simplify orientation of the sensor on installation. A multi-lens system or an arrangement of small windows in front of the LED projects a visible light pattern that mimics the detection pattern of the motion sensor to an observer standing in the detection zone and looking at the sensor. | 05-07-2009 |
20090114801 | OFFSET OPTICAL SECURITY SENSOR FOR A DOOR - A security sensor apparatus senses movement of an object. The sensor apparatus includes an electronics arrangement having an optical emitter and an optical receiver. The optical receiver has an axis of reception. The optical emitter emits a first beam along an axis of emission in an emission direction. The axis of emission diverges in the emission direction from the axis of reception at an angle of at least two degrees. The electronics arrangement is mounted in association a first surface of the object or a second surface of a structure disposed in opposition to the first surface. A reflector arrangement includes at least one reflective surface and is mounted in association with the other of the first surface and the second surface. The at least one reflective surface receives at least a portion of the first beam and produces a second beam directed at and received by the optical receiver. | 05-07-2009 |
20090121120 | OPTICAL MOTION SENSING DEVICE - An optical motion tracking device ( | 05-14-2009 |
20090212201 | METHOD OF MEASURING RELATIVE MOVEMENT IN TWO DIMENSIONS OF AN OBJECT AND AN OPTICAL INPUT DEVICE USING A SINGLE SELF-MIXING LASER - An optical input device for measuring relative movement between an object ( | 08-27-2009 |
20090218478 | POSITION DETECTION DEVICE FOR MOBILE ROBOT AND ROBOT CLEANER INCLUDING THE SAME - The present invention relates to a position detection device for a mobile robot, including a light-emitting element for emitting light, a light reception element on which light transferred from a bottom, of the light emitted from the light-emitting element and then reflected from an obstacle, is focused, and a signal processing unit for calculating a distance between a position where the light incident on the light reception element is focused and the obstacle. A position detection method using a mobile robot may include operating a robot cleaner, receiving light transferred from a bottom, of light emitted from the robot cleaner and then reflected from an obstacle, and detecting a distance between the robot cleaner and the obstacle from which the light is reflected, determining whether the distance between the robot cleaner and the obstacle increases, and determining whether the robot cleaner has approached the obstacle. | 09-03-2009 |
20090278033 | Optical trace detecting module - An optical trace detecting module includes a light-pervious plate, a circuit board, and a light guiding element. The light-pervious plate contacts an object and allows the object to move on a surface thereof. The circuit board is electrically disposed with an optical sensor and a light source. The light guiding element is disposed between the light source and the light-pervious plate. A sensing light projected from the light source is converged and guided by the light guiding element so as to be projected onto a contact region of the light-pervious plate. | 11-12-2009 |
20090289177 | Optical trace detecting module - An optical trace detecting module includes a light-pervious plate, a light source, an optical sensor, an imaging lens, and an optical path diverting element. The light-pervious plate contacts an object and allows the object to move on a surface thereof. The imaging lens is disposed between the light-pervious plate and the optical sensor. The optical path diverting element is disposed between the imaging lens and the optical sensor. A sensing light projected from the light source is refracted to the optical sensor under the guide of the optical path diverting element. | 11-26-2009 |
20090294636 | OPTICAL MOVEMENT DETECTION DEVICE - The invention relates to an optical movement detection device including a light source ( | 12-03-2009 |
20100078545 | LENSLESS USER INPUT DEVICE WITH OPTICAL INTERFERENCE - An optical navigation device which uses optical interference to generate navigation images. The optical navigation device includes an optical element, a light source, a sensor array, a navigation engine, and a light shield. The optical element includes a finger interface surface. The light source includes a laser in optical communication with the finger interface surface to provide light to the finger interface surface. The sensor array detects light reflected from the finger interface surface in response to contact between a finger and the finger interface surface. The navigation engine is coupled to the sensor array. The navigation engine generates lateral movement information based on lateral movement of the finger relative to the sensor array. The light shield is between the optical element and the sensor array. The light shield includes an aperture linearly aligned with the sensor array. | 04-01-2010 |
20100096537 | INTEGRATED KEY USING OPTICAL SENSOR - The present invention relates to an integrated key using an optical key, in particular, to an integrated key which enables a more subdivided manipulation for the movement to the outside based on a center point, and to perform the operation of rotation and push. An integrated key using an optical sensor of the invention includes a housing which has an accommodation space inside while an upper portion is open; an operation member which has a guide unit which sticks to the housing between an upper end and a lower end of the operation member while a handle is formed in an upper side and a reflection unit is formed at a bottom surface; and an optical sensor which measures one or more of a separation distance with the reflection a rotation of the operation member, and a location coordinate value of the operation member, and outputs a sensing signal according to the measurement. | 04-22-2010 |
20100155579 | COMPLIANT TACTILE SENSOR - Tactile sensor. The sensor includes a compliant convex surface disposed above a sensor array, the sensor array adapted to respond to deformation of the convex surface to generate a signal related to an applied force vector. | 06-24-2010 |
20100171026 | ON/OFF SWITCH - An ON/OFF switch of a non-contact type provided with a lever switch excellent in operability, which can be inclined in any direction in a whole circumferential direction is provided. One end of a cylindrical member having flexibility and being stretchable so as to be freely restored to a normal state is fixed to a base member, and a rod member having flexibility is inserted into the cylindrical member and is supported by a guide maintaining a state of an axial line of the rod member to the cylindrical member regardless of the state of the cylindrical member. Further, one end of the rod member is fixed to an end portion of the cylindrical member which is not fixed to the base member while the other end thereof is protruded from the cylindrical member, and a surrounding portion surrounding the end portion of the rod member which is protruded from the cylindrical member in a non-contact manner is provided in the base member. A converting unit converting movement of the end portion of the rod member protruded from the cylindrical member relative to the surrounding portion to electrical signal binary to output two values of the binary is provided in the surrounding portion. | 07-08-2010 |
20100171027 | Sensing device using proximity sensor and mobile terminal having the same - A mobile terminal includes a sensing device that uses a proximity sensor. The sensing device includes: a proximity sensor sensing approach of an external object; and a lens unit installed on top of the proximity sensor. The lens unit includes: a lens body having a first through-opening through which light emitted from a light emitting unit of the proximity sensor passes and a second through-opening through which light, reflected from the external object and entering into a light receiving unit of the proximity sensor, passes; and a reflective film formed in the lens body to surround edges of the first through-opening and the second through-opening. The lens body and the reflective film are integrated with each other by double injection molding. The lens body and the reflecting film are manufactured in a single body by double injection molding. | 07-08-2010 |
20100181467 | Light-Proximity-Inertial Sensor Combination - A sensor includes a proximity-light sensor configured to detect proximity of objects and ambient light conditions, an inertial sensor, and control circuitry coupled to the proximity-light sensor and the inertial sensor and configured to control the operation of the proximity-light sensor and the inertial sensor. The sensor further includes a substrate, wherein the proximity-light sensor, the inertial sensor, and the control circuitry are disposed on the substrate to form a single package. | 07-22-2010 |
20100258711 | Photoelectric Sensor - Disclosed herein is a photoelectric sensor and method for sensing a target at a predetermined location. In at least one embodiment, the photoelectric sensor includes a light source that emits light, an output circuit including first and second photodetectors, first and second receive lenses respectively positioned adjacent to the first and second photodetectors, respectively, and a support structure for supporting each of the light source, the photodetectors, and the receive lenses in relation to one another. If the target is at the predetermined location, then a first portion of the emitted light is received by the first photodetector after being reflected off of the target and passing through the first receive lens, and a second portion of the emitted light is received by the second photodetector after being reflected off of the target and passing through the second received lens. Further, the output circuit produces an output signal indicative of a sensed characteristic of the target based on signals generated by the first and the second photodetectors in response to the portions of the light received by the photodetectors. | 10-14-2010 |
20100282950 | ECCENTRIC FIELD IMAGING LENS WITH TITLTED AND DECENTERED SURFACES - An optical navigation device determines relative movement between the optical navigation device and a navigation surface. The optical navigation device includes a light source, an image sensor, and an eccentric field imaging lens. The light source illuminates a navigation surface. The image sensor generates a navigation image of light scattered off of the navigation surface. The eccentric field imaging lens is disposed between the navigation surface and the image sensor. The eccentric field imaging lens includes multiple lens surfaces which are tilted at different oblique angles relative to the navigation surface to direct the light scattered off of the navigation surface toward the image sensor. | 11-11-2010 |
20100282951 | Metal Shield and Housing for Optical Proximity Sensor with Increased Resistance to Mechanical Deformation - An optical proximity sensor is provided that comprises an infrared light emitter operably connected to and driven by a light emitter driving circuit and a light detector operably connected to and driven by a detector sensing circuit. A metal housing or shield formed of metal and comprising first and second apertures surrounds the light emitter and the light detector such that at least a first portion of light emitted by the light detector passes through the first aperture, and at least a second portion of the first portion of light reflected from an object of interest in proximity to the sensor passes through the second aperture for detection by the light detector. The metal housing or shield further comprises first and second modules within which the light detector and light detector are disposed, respectively. The first and second modules comprise adjoining optically opaque metal inner sidewalls that provide optical isolation between the first and second modules, where the first and second inner sidewalls are separated from one another by at least one metal tab foldably disposed therebetween. The at least one metal tab is configured to transfer a vertical force applied to one end of one module to an opposite end of the other module. | 11-11-2010 |
20110031380 | OPTICAL POINTING DEVICE - The optical pointing device of the present invention comprises a base and an actuator movable connected to the base, wherein the actuator comprises a reflective portion on a side facing the base, and wherein the base comprises a light source for emitting light towards the reflective portion of the actuator, a detector comprising one of more detection units for detecting at least a part of the light reflected by the reflective portion of the actuator, and a transparent element arranged between the actuator and at least one of the light source and the detection units, for providing a closed transparent housing for the light source and/or the detection units. | 02-10-2011 |
20110049339 | CONTACT AND NON-CONTACT ENTRAPMENT PROTECTION SYSTEM - The present invention relates to external entrapment protection system that allows use of the same set of photoelectric transmitter/receiver units for both sensor types of a contact type sensor and a non-contact type sensor. A kit includes the entrapment system and an elastic profile and/or a photoelectric wall mounting unit. | 03-03-2011 |
20110062316 | SCREEN DEVICE WITH LIGHT RECEIVING ELEMENT AND DISPLAY DEVICE WITH POSITION DETECTION FUNCTION - A screen device with a light receiving element, the screen device being used in a display device with a position detection function, the display device forming an intensity distribution of a position detection light on a screen surface side of a screen member, the screen surface side on which an image is visually recognized, the display device detecting the position of an object located on the screen surface side of the screen member by detecting the position detection light reflected from the object, the screen device includes: a screen device main body provided with the screen member; and a light receiving element which is formed of a photodiode or a phototransistor fixed to the screen device main body and directs a light receiving section in a direction along the screen surface outside a screen surface in a state in which the screen member is spread. | 03-17-2011 |
20110114828 | NON-CONTACT PROBE AND MEASURING MACHINE - A measuring machine includes a non-contact probe that detects a step gauge without contact. The non-contact probe includes an emitting element that radiates light, a light receiving element that receives the light radiated from the emitting element, and an optical filter that covers an optical path to the light receiving element. The optical filter includes a transmission band in which the light radiated from the emitting element is transmitted and a blocking band in which light to which the light receiving element is sensitive is blocked. | 05-19-2011 |
20110147571 | MOTION DETECTION MECHANISM FOR LASER ILLUMINATED OPTICAL MOUSE SENSOR - A method for measuring relative motion between an illuminated surface and an optical sensing device comprising a coherent light source and a photodetector array is described. The method includes illuminating under a determined gradient, using the coherent light source, a surface portion at a determined flash rate; detecting, using the photodetector array, speckled light intensity pattern of the illuminated surface portion for a first flash; detecting a second speckled light intensity pattern of the illuminated surface portion for a second flash; extracting motion features of two different types from the detected first and second speckled light intensity patterns; determining a measurement of relative motion between the optical sensing device and the illuminated surface portion based on comparison of motion features extracted; wherein the method further comprises a filtering step in order to adjust, and preferably decrease, the number of motion features used in the step of determining a measurement of relative motion. | 06-23-2011 |
20110168877 | MOVEMENT DETECTION DEVICE - The present invention relates to a movement detection device for detecting a movement of an object in a space range. The movement detection device includes a light source, a light guiding element, at least two light sensing elements and a processing unit. The light sensing elements have an offset therebetween along a first direction such that the object, when moving in the space range, reflects the light from the light source sequentially to the light sensing elements through the light guiding element. The processing unit identifies the movement of the object along the first direction according to a sequence that the light sensing elements detect the light reflected by the object. | 07-14-2011 |
20110248151 | System and Circuit Including Multiple Photo Detectors - A system includes a plurality of photo detectors, which generate signals proportional to incident light. The system further includes an optical barrier adjacent to a surface and includes a control circuit. The optical barrier partially obstructs reflected light from reaching the plurality of photo detectors to produce a spatially dependent reflectance pattern that is dependent on a position of an object relative to a substrate. The control circuit determines a position of the object during a reflectance measurement cycle using each of the plurality of photo detectors by calibrating to ambient light conditions, measuring ambient plus reflected light, determining the reflected light and detecting the position of the object based on a ratio of the reflected light received by at least two of the plurality of photo detectors. | 10-13-2011 |
20110248152 | Apparatus and Circuit with a Multi-Directional Arrangement of Optical Elements - An apparatus includes a housing having a front surface, a rear surface, and at least one sidewall therebetween and a plurality of optical windows formed in the housing to allow light to pass through from multiple directions. The apparatus further includes a plurality of photo detectors to generate electrical signals based on received light, where each of the plurality of photo detectors is disposed within a respective one of the plurality of optical windows. The apparatus also includes a control circuit coupled to the plurality of photo detectors to receive the electrical signals, determine light variations from the electrical signals, and determine a change in position of an object based on variation ratios of the light variations received by at least one pair of photo detectors within the plurality of photo detectors in response to determining the light variations. | 10-13-2011 |
20110248153 | Optical Navigation System Having A Filter-Window To Seal An Enclosure Thereof - An optical navigation system and method are provided. In one embodiment, the system includes: (i) a coherent light source to emit light to illuminate a portion of a finger; and (ii) a detector to receive light reflected from the portion of the finger, the detector including a speckle-based sensor configured to sense movement of the finger relative to the detector based on changes in a complex interference pattern created by the light reflected from the portion of the finger. Other embodiments are also described. | 10-13-2011 |
20110248154 | LIGHT BARRIER - A light barrier having at least one transmitter ( | 10-13-2011 |
20110253884 | LIGHT BARRIER AND METHOD FOR THE OPERATION OF A LIGHT BARRIER - A light barrier having a signal path ( | 10-20-2011 |
20110272563 | PHOTOELECTRIC SENSOR - A photoelectric sensor includes a phototransmitter that outputs light toward a detection target region of an object; an optical receiver that receives the light outputted from the phototransmitter; a signal processing unit that outputs a signal indicating that the object is detected in response to a decrease of an amount of light received by the optical receiver; and two optical filters that are provided between the phototransmitter and the optical receiver to transmit only pieces of light having specific characteristics. In the phototransmitter, two kinds of light having different characteristics and that do not interfere with each other are outputted from output regions in the light transmitting surface; one of the two optical filters has a characteristic of transmitting only one of the two kinds of light and the other of the optical filters has a characteristic of transmitting only the other of the two kinds of light; the optical filters are disposed opposite to output regions of the pieces of light different from the pieces of light of a selecting target while located across a detection target region; and output directions of the two kinds of light are fixed such that whole surfaces of the optical filters corresponding to the characteristics are irradiated with the two kinds of light from the phototransmitter when the optical filters are disposed in a light transmitting surface while located away from each other by a predetermined distance or more. | 11-10-2011 |
20120018625 | DISPLAY WITH AN OPTICAL SENSOR - A display system can include a transparent layer. The transparent layer can include a front and a back. A bevel region can extend from the transparent layer. A panel can be on the back of the transparent layer. A three dimensional optical sensor can be on the back of the bevel region. | 01-26-2012 |
20120061557 | LASER NAVIGATION MODULE - Disclosed herein is a laser navigation module. The laser navigation system includes a light source, one or more illumination devices, and a re-reflecting layer. The light source emits laser light. The housing is configured such that a window for allowing the laser light emitted by the light source to pass therethrough, reflecting the laser light, and blocking entry of visible light is mounted and such that a transparent or translucent portion for diffusing internally diffused light to an outside is formed. The illumination devices are mounted inside the housing. The light diffusion member transfers light emitted by the illumination devices to the housing, and includes a re-reflecting layer partially formed on the side of the light diffusion member opposite the illumination devices. | 03-15-2012 |
20120068055 | LIGHT GRID - A light grid ( | 03-22-2012 |
20120068056 | METHOD OF OPERATION OF PHOTOCHROMIC OPTICALLY KEYED DISPENSER - A removable and replaceable keying component which is required for operation of a mechanism and which component includes a waveguide having a photochromic portion. A method of controlling operation of a mechanism, preferably a dispenser, having a removable component comprising the steps of measuring electromagnetic radiation passing through a waveguide carrying at least in part on the removable component and permitting operation of the mechanism only when the measured electromagnetic radiation corresponds with one or more pre-selected parameters. Preferably, the method involves directing emitted electromagnetic radiation with pre-selected input parameters selected from a plurality of input parameters. | 03-22-2012 |
20120085893 | TOOL LENGTH MEASURING METHOD AND TOOL LENGTH MEASURING DEVICE - In a tool length measuring method measuring a length of a tool based on a movement amount of the tool from a predetermined position when the tool is moved from the predetermined position in a predetermined direction and interrupts a laser beam, the movement of the tool in a direction in which the tool approaches a main body of a laser device is stopped when a static signal indicating that the tool is interrupting the laser beam is detected. | 04-12-2012 |
20120132793 | PROXIMITY SENSOR - A proximity sensor includes a sensor package having an attachment pad with a radiation source and a radiation detector housed within the sensor package. The source and the detector are held in a fixed relation to the attachment pad, and are mounted by one of a direct or indirect attachment to the attachment pad. A portion of the attachment pad is adapted to form a baffle which forms at least part of an optical isolator. The optical isolator is adapted to substantially prevent the internal propagation of radiation between the source and the detector within the sensor package. | 05-31-2012 |
20120153134 | SCANNING FTIR SYSTEMS FOR TOUCH DETECTION - A touch-sensitive apparatus operates by FTIR (Frustrated Total Internal Reflection) to detect touches on a surface of a light transmissive panel. An illumination arrangement is controlled to propagate light by internal reflection from an elongated incoupling site on the panel to an elongated outcoupling site on the panel, and a detection arrangement is controlled to detect light reaching the outcoupling site. The illumination arrangement is controlled to sweep a first set of individual beams of light along different subsets of the incoupling site to generate a full beam sweep along the incoupling site. Thereby, the individual beams are be controlled to generate a “sub-sweep” of the incoupling site, which enables a compact design of the illumination arrangement and/or use of comparatively simple sweep generating devices and/or identical re-direction components in the illumination arrangement. | 06-21-2012 |
20120160994 | HOUSING FOR OPTICAL PROXIMITY SENSOR - An optical proximity sensor and housing for the same are disclosed. The housing is provided with at least two support structures and at least two modules. A first of the support structures transfers vertical forces applied to one end of a module to an opposite end of the opposite module. A second of the support structures inhibits a pivoting of the modules about the first support structure. | 06-28-2012 |
20120181419 | COMPACT OPTICAL FINGER NAVIGATION SYSTEM BASED ON SPECKLES - 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. | 07-19-2012 |
20120199728 | COMPACT OPTICAL FINGER NAVIGATION SYSTEM WITH ILLUMINATION VIA REDIRECTION SURFACE HOLES - An optical finger navigation device includes a navigation cover. The navigation cover includes a tracking surface and an illumination surface. The tracking surface exhibits a first light reflection characteristic in a presence of a navigation object at the tracking surface and a second light reflection characteristic in an absence of the navigation object at the tracking surface. A light source generates illumination directed toward the illumination surface of the navigation cover. A redirection structure is interposed between the light source and the illumination surface of the navigation cover. A reflection surface of the first redirection structure is approximately facing the illumination surface of the navigation cover. An illumination surface of the redirection structure is approximately facing the light source. The redirection structure defines at least one hole therethrough to pass light generated by the light source toward the illumination surface of the navigation cover. | 08-09-2012 |
20120267516 | Modular Light Curtain and Optical Unit For A Light Curtain - The present invention relates to a light curtain that comprises at least one first optical unit having a plurality of light emitting elements and light receiving elements and at least one second optical unit having a plurality of light emitting elements and light receiving elements, wherein said light emitting elements and light receiving elements are operable to form a light grid from a plurality of light barriers formed between opposing light emitting elements and light receiving elements. The first and second optical unit each comprise a transceiver unit carrying said plurality of light emitting elements and light receiving elements, and at least one separate detachable plug-in module, said first and second transceiver units being identically built and said first and second plug-in modules differing from each other in order to define the functionality of the first optical unit and the second optical unit, respectively. | 10-25-2012 |
20120292492 | DEVICE FOR CONTROLLING A DRIVEN MOVEMENT ELEMENT, PARTICULARLY A DOOR OR A GATE - A device for controlling a driven movement element with an electronic unit is proposed, which comprises a transmitter for electromagnetic radiation, for example, light, in particular infrared light, and a receiver for electromagnetic radiation emitted by a transmitter for the detection of objects on a propagation path between transmitter and receiver. According to the invention, the electronic unit is designed to detect a temporal change in at least one feature derived from the received electromagnetic radiation and, upon a detection of a change in the at least one feature that is comparatively slow over time, to output a signal that is associated with a detection of smoke. | 11-22-2012 |
20130009046 | Side Mounting Optical Navigation Module - An optical navigation module for receiving control from an object disposed on an operation plane is provided. The optical navigation module includes a substrate defining a base plane that is perpendicular to the operation plane; a light source installed on the base plane of the substrate and configured to emit light to a side of the substrate; an optical structure installed at the side of the substrate; a light sensor installed on the base plane of the substrate; a light shield installed on the base plane of the substrate spatially separating the light source and the light sensor so that light emitted by the light source is not directly shed on the light sensor, the light shield having an aperture formed thereon; and a tactile switch for executing a command installed at a side of the light source that is opposite to the side facing the operation plane. The optical structure is configured to guide the light emitted from the light source to the object so that at least a portion of the light scattered by the object passes to the light sensor through the aperture on the light shield and forms a light intensity pattern on the light sensor. | 01-10-2013 |
20130015334 | OPTICAL INPUTTING MODULE AND ITS LIGHT SOURCE UNITAANM CHEN; Chih-ChengAACI Zhongli CityAACO TWAAGP CHEN; Chih-Cheng Zhongli City TWAANM Pan; Jin-ShanAACI Hsinchu CityAACO TWAAGP Pan; Jin-Shan Hsinchu City TW - A light source unit is disclosed for arranging on a plane and emitting a light beam oblique to the plane. The light source unit includes an illuminant element and a transparent encapsulator. The illuminant element has an upper surface and a lower surface both parallel to the plane. The transparent encapsulator physically contacts with the illuminant element and at least covers the upper surface of the illuminant element. The transparent encapsulator has an oblique surface above the upper surface and oblique to the upper surface. In addition, an optical inputting module having the light source unit mentioned above is disclosed. | 01-17-2013 |
20130026350 | MULTI-DIRECTIONAL PROXIMITY SENSOR - A proximity sensor with multi-directional movement detection is provided. The proximity sensor may include an ASIC chip; at least three light sources configured to emit light in a particular sequence; and a photo detector configured to receive light and generate an output signal. The multi-directional proximity sensor may have a first proximity sensor with at least one side surface and a second proximity sensor connected to the first proximity sensor configured to detect object movement over a plane substantially parallel to the at least one side surface of the first proximity sensor. The multi-directional movement detection proximity sensor may include a PCB, in which more than one proximity sensor may be disposed on the PCB and operatively integrated to detect multi-directional movement. | 01-31-2013 |
20130037702 | PHOTOINTERRUPTER, METHOD OF MANUFACTURING THE SAME, AND MOUNTING STRUCTURE OF THE SAME - A photointerrupter includes a base, a light emitting element, a light receiving element, a light-transmissive detector resin member covering the light receiving element, a light-transmissive emitter resin member covering the light emitting element, and a light shield layer covering the detector resin member and the emitter resin member. The emitter resin member is spaced apart from the detector resin member with an intervening clearance between them. The detector resin member includes a light incidence surface exposed from the light shield layer, and the emitter resin member includes a light output surface exposed from the light shield layer. The light incidence surface and the light output surface are arranged to face the clearance between the two resin members. | 02-14-2013 |
20130075595 | Proximity Sensor with Asymmetric Optical Element - A proximity sensor may be mounted below a display cover layer in an electronic device. The proximity sensor may have a light source that emits light and a detector configured to detect reflections of the emitted light from nearby external objects. Optical structures may be interposed between the proximity sensor and the window in the display cover layer. The optical structures may include a first portion such as a convex lens that is configured to collimate light from the light source so that the light propagates along a surface normal to the display cover layer. The optical structures may also include a second portion such as a prism structure for deflecting uncollimated light away from the propagation axis of the collimated light. | 03-28-2013 |
20130153755 | Optical Proximity Sensing - An optical proximity sensor module including a housing; an integrated light emitter configured to emit light; a diffractive optical element positioned in front of the light emitter and configured to direct light emitted by the light emitter towards a target volume in front of the diffractive optical element; and an integrated light detector configured to detect light reflected from a proximal object at the target volume. | 06-20-2013 |
20130187033 | LIGHT CURTAIN - A light curtain for the optical detection of shading objects in an area to be monitored, wherein the area to be monitored is repeatedly swept over by a collimated light beam of variable direction. The power of the light crossing the area is measured, shadow boundaries, position and size of a shading object are deduced by an evaluating control from the temporal profile of the measured power with knowledge of the temporal profile of the direction of the light beam. An optical detector area embodied as a planar optical waveguide is arranged along the edge of the area to be monitored, photoluminescent particles being integrated into said optical detector area and one or more photoelectric sensors being fitted to the optical detector area. Using the light curtain, shading objects can be detected with very good resolution, the light curtain can be robust and can have a low production cost. | 07-25-2013 |
20130221208 | PHOTOELECTRIC BARRIER - The invention relates to a photoelectric barrier with a transmission device ( | 08-29-2013 |
20130270424 | System comprising a plurality of object detection modules - A system comprises a plurality of object detection modules (SC | 10-17-2013 |
20130284908 | OPTO-ELECTRONIC MODULE AND DEVICES COMPRISING THE SAME - An opto-electronic module includes a detecting channel comprising a detecting member for detecting light and an emission channel comprising an emission member for emitting light generally detectable by said detecting member. Therein, a radiation distribution characteristic for an emission of light from said emission channel is non rotationally symmetric; and/or a sensitivity distribution characteristic for a detection in said detecting channel of light incident on said detection channel is non rotationally symmetric; and/or a central or main emission direction for an emission of light from said emission channel and a central or main detection direction for a detection of light incident on said detection channel are aligned not parallel to each other; and/or at least a first one of the channels comprises one or more passive optical components. | 10-31-2013 |
20130292554 | OPTICAL MODULE AND OPTICAL UNIT FOR A LIGHT CURTAIN, AND FABRICATION METHOD - An optical module for an optical unit associated with forming a light curtain for monitoring a protective or surveillance field. The optical module includes at least one radiation emitting and/or radiation receiving element for transmitting and/or receiving a radiation beam associated with forming a light curtain. The optical module includes a module body for mounting a radiation transmitter/receiver carrier that carries the at least one transmitting and/or receiving element associated with the radiation beam. The module body has at least one alignment element for aligning the optical module within a support element that forms an outer housing of the optical unit. | 11-07-2013 |
20130320200 | TOOL SETTING OR ANALYSIS DEVICE - A tool setting or tool analysis device for a machine tool includes 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 analysed 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 recognise 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. | 12-05-2013 |
20140001346 | IMAGE PROJECTION DEVICE AND DETECTION METHOD THEREOF | 01-02-2014 |
20140034817 | OBJECT DETECTION APPARATUS - An object detection apparatus includes an incident optical system, which includes light source units and a combining unit combining light beams emitted from the light source units; a deflection unit including rotating reflection parts that deflect the light beams to scan and be irradiated on a predetermined range of an object; an imaging unit forming an image based on the light from the predetermined range of the object; and an optical detection unit detecting the object based on the light received via the imaging unit. Further the combining unit combines the light beams such that each of the combined light beams passes a single light path when projected onto a predetermined plane, and each of the light paths exists outside a region of the deflection unit when projected onto the first plane. | 02-06-2014 |
20140061447 | RADIATION SENSOR - A sensor package includes a radiation source and a radiation detector provided on a substrate. A cover member is mounted on or affixed to the substrate over the source and detector. The cover member includes an opaque housing, a first transparent portion provided over the source, a second transparent portion provided over the detector and a transparent insert within the housing and positioned at one of said transparent portions. An opaque protrusion is provided on the housing separating a region associate with the first transparent portion (and radiation source) from a region associated with the second transparent portion (and detector), the protrusion attached to a surface of the substrate. | 03-06-2014 |
20140070081 | Electronic Device With Light Sensor Alignment Structures - Electronic devices may include light sensors. The light sensors may include alignment features. The light sensors may be optically aligned with an aperture in an opaque structure. The opaque structure may be formed from an opaque material or a transparent material with an opaque coating. The light sensor may be mounted in a support structure that has been optically aligned with the aperture. The light sensor or the support structure may include extended portions that are transparent to ultraviolet light. Ultraviolet light may be transmitted through the extended portions to cure adhesive that attaches the light sensor or the support structure to the opaque structure. The light sensor may be optically aligned with the aperture by viewing the aperture through an opening in the support structure, by viewing the alignment features on the light sensor through the aperture or by gathering alignment data using the light sensor during alignment operations. | 03-13-2014 |
20140097334 | DETECTION APPARATUS - A detection apparatus includes: plural light emitting sections that are disposed in a row and that emit parallel light to a passage region, over which an object passes, in a time-staggered manner; one or more light receiving sections that receive the parallel light reflected by or having transmitted through the object, a number of the light receiving sections being less than a number of the light emitting sections; and a detection section that detects at least one of edges of the object and edges of a portion of the object with a different reflectivity or transmittance in accordance with an intensity distribution of the parallel light received by the light receiving sections. | 04-10-2014 |
20140110571 | MOTION SENSOR AND METHOD OF OPERATING THE SAME - The present invention relates to a motion sensor and method of operating the motion sensor, which can adjust the range of a detection area. For this, the motion sensor according to the present invention includes a detection unit for outputting a variation signal corresponding to motion. A threshold level setting unit variably sets at least one changeable threshold level. A comparison unit detects the motion by performing a comparison operation based on the changeable threshold level and the variation signal at threshold sensitivity corresponding to the changeable threshold level. | 04-24-2014 |
20140117216 | LIGHT CURTAIN WITH MACHINE SENSING - A light curtain for use with a machine, such as a press brake. The light curtain includes a controller which is communicatingly connected to a controller of the machine, and at least one presence detector which is connected to the controller of the light curtain. The light curtain also includes at least one sensor which is configured to sense position and/or speed of movement of a moveable part of the machine, in use, the controller of the light curtain receives feedback from the at least one presence detector as well as from the at least one sensor which is configured to sense position and/or speed of movement of the moveable part of a machine. The controller of the light curtain signals the controller of the machine to operate the machine based on the feedback which is received by the light curtain. Preferably, the at least one presence detector is sequentially programmable to effectively provide blanked-out sections, and the controller of the light curtain uses the at least one sensor to detect when the moveable part of the machine is moving through the blanked-out section, and cause the machine to slow down to a safer speed. | 05-01-2014 |
20140131559 | IMAGING METAMATERIAL - The present invention is related to an imaging metamaterial, comprising at least one resonant unit with a controllable split structure that comprises at least one gap and at least one segment, wherein the segment is connected by a node or separated by the gap. The present invention also provides a method for preparing an imaging metamaterial. The present invention further provides an imaging apparatus. | 05-15-2014 |
20140131560 | PROXIMITY SENSOR AND MANUFACTURING METHOD THEREOF - A proximity sensor includes: a transmitter unit for transmitting a light signal; a receiver unit for receiving the light signal reflected by an object to determine a proximity status of the object; and a housing defining a first enclosed accommodation space for accommodating the receiver unit, wherein the portion of the housing which defines the first enclosed accommodation space has a sealed light passage made of a light-transmissible material such that the receiver unit is capable of receiving the light signal reflected by the object through the light passage. The housing can further include a second enclosed accommodation space for accommodating the transmitter unit. | 05-15-2014 |
20140151537 | MOVEMENT DETECTION DEVICE - The present invention relates to a movement detection device for detecting a movement of an object in a space range. The movement detection device includes a light source, a light guiding element, at least two light sensing elements and a processing unit. The light sensing elements have an offset therebetween along a first direction such that the object, when moving in the space range, reflects the light from the light source sequentially to the light sensing elements through the light guiding element. The processing unit identifies the movement of the object along the first direction according to a sequence that the light sensing elements detect the light reflected by the object. | 06-05-2014 |
20140197306 | SYSTEM AND METHOD FOR USING A LINEAR POLARIZER TO REDUCE OPTICAL CROSSTALK FOR OPTICAL PROXIMITY SENSORS - An optical proximity sensor often emits light, and detects the photons in the returned light signal. Because light can be reflected and scattered by cover glass and ink layer printed on the cover glass, optical crosstalk is a concern for the optical proximity sensors. In one embodiment, the present disclosure provides an optical proximity sensor including a linear polarizer to cover the photo detector, or a polarizer to cover the light emitting device, or two polarizers to cover both the photo detector and the light emitting device. The polarizer blocks the s-polarized light and only allows the p-polarized light to pass through. Because the scattered light is predominated by the s-polarization, the optical crosstalk may be reduced. | 07-17-2014 |
20140239163 | MULTIDIRECTIONAL INPUT DEVICE - A multidirectional input device includes a case; a slider slidable in a first direction and mounted to the case; a movable member mounted on an upper surface of the slider so as to be slidable in a second direction; a first reflection portion provided on any one of the movable member, the case, and the slider; a first light-emitting device arranged to be opposite to the first reflection portion; and a first light-receiving device arranged to be opposite to the first reflection portion, wherein the first reflection portion has a plurality of steps confronting the side facing the first light-emitting device, and a distance between the first reflection portion and the first light-emitting device in a third direction varies according to an area. | 08-28-2014 |
20140299749 | Using An Active Light Sensor to Quantify Plants - A method of quantifying growing plants in an area is disclosed wherein the area is scanned with an active light sensor which provides a data signal when a plant is present that is distinct from the data signal provided when a plant is not present. The data signal is analyzed to determine at least plant population densities, the spacing of plants, the number of emerged plants versus planted seeds, the size of the area that has unproductive plants or an estimate economic and/or yield loss. Overlapping sample areas can be used to improve the accurate quantification of plants. | 10-09-2014 |
20140319328 | MOTION SENSOR AND PACKAGING METHOD THEREOF - A motion sensor includes: a substrate, which includes a plurality of lead frame layers and a plurality of ceramic layers; a light source, disposed on the substrate, for emitting light; a sensing device, disposed on the substrate, for receiving the light to perform motion sensing; a cover, for fixing and protecting the light source and the sensing device; and an adhesive, for gluing the cover to the substrate, the adhesive including a component capable of blocking the light; wherein the light is infrared light, visible light or ultraviolet light. | 10-30-2014 |
20140326859 | OPTICAL MEASURING APPARATUS FOR A VEHICLE, DRIVER ASSISTANCE DEVICE HAVING SUCH A MEASURING APPARATUS, AND VEHICLE HAVING A CORRESPONDING MEASURING APPARATUS - The invention relates to an optical measuring apparatus ( | 11-06-2014 |
20150083900 | PROXIMITY SENSOR INCLUDING REFERENCE DETECTOR FOR STRAY RADIATION DETECTION - A proximity sensor includes a radiation source configured to emit a primary radiation beam and a primary detector configured to pick up a reflected primary radiation beam. The radiation source is further configured to emit stray radiation. The sensor further includes a reference detector arranged to receive the stray radiation. The stray radiation may, for example, be emitted from either a side of the radiation source or a bottom of the radiation source. | 03-26-2015 |
20150108332 | LIMITED-AREA REFLECTION TYPE OPTICAL SENSOR AND ELECTRONIC DEVICE - There is provided a limited-area reflection type optical sensor having an emitted light lens and a reflected light lens. An opposite-light-receiver-side portion opposite to a light receiver side constitutes a first curvature surface having a first curvature while a light-receiver-side portion on the light receiver side with respect to the opposite-light-receiver-side portion constitutes a second curvature surface having a second curvature smaller than the first curvature in the emitted light lens provided in an optical path of the emitted light. An opposite-light-emitter-side portion opposite to a light emitter side constitutes a fourth curvature surface having a fourth curvature while a light-emitter-side portion on the light emitter side with respect to the opposite-light-emitter-side portion constitutes a fifth curvature surface having a fifth curvature smaller than the fourth curvature in the reflected light lens provided in an optical path of the reflected light. | 04-23-2015 |
20150323453 | VOID-ARRANGED STRUCTURE AND MEASUREMENT METHOD - A void-arranged structure having a plurality of void sections that penetrate from a first principal surface toward a second principal surface. An opening shape of the void section includes at least one curved corner. | 11-12-2015 |
20150357786 | LIGHT SOURCE APPARATUS AND INFORMATION ACQUISITION APPARATUS USING THE SAME - A light source apparatus, which emits pulsed light, includes: a light source that emits first pulsed light; a first nonlinear optical medium that generates a first optical parametric gain upon incidence of the first pulsed light; and a second nonlinear optical medium that generates a second optical parametric gain different from the first optical parametric gain upon incidence of the first pulsed light. The first nonlinear optical medium and the second nonlinear optical medium are arranged in series and both have normal dispersion characteristics in the center wavelength of the first pulsed light. A zero dispersion wavelength of the first nonlinear optical medium differs from a zero dispersion wavelength of the second nonlinear optical medium. | 12-10-2015 |
20160011330 | MULTI-OPTICAL AXIS PHOTOELECTRIC SENSOR SYSTEM | 01-14-2016 |
20160093412 | ULTRAVIOLET LIGHT SOURCE AND METHODS - A method for a hand-held device comprising illuminating, with a first UV LED associated with the hand-held device, a surface of an object with UV light, acquiring with a visible-light image sensor on the hand-held device, a first image of the surface of the object while the surface of the object is illuminated by the first UV LED, performing with the processor in the hand-held device, a function upon the first image to determine a type of contaminant disposed upon the surface of the object, determining with the processor in the hand-held device, sanitation techniques to perform in response to the type of contaminant that is determined, and displaying with a touch-screen display on the hand-held device, the sanitation techniques to the user. | 03-31-2016 |
20160097843 | PROJECTION OPTICAL SYSTEM AND OBJECT DETECTION DEVICE - A projection optical system includes a light source to emit light and an optical element including an incidence plane on which the light from the light source is incident and an emission plane having a plurality of flat planes to emit the light, wherein the plurality of flat planes includes a first inclination plane inclining in a direction of the light-emitting surface. | 04-07-2016 |
20160097878 | SENSOR APPARATUS AND HAZARD SENSING SYSTEM - A sensor apparatus includes multiple pairs that each include a light emitting element and a light receiving element configured to receive light emitted from the light emitting element, and, in response to optical axes formed in a region between the light emitting elements and the light receiving elements entering a blocked state, senses a sensing target moving in the region. In an initial state, sensing is performed using a sensing optical axis composed of a portion of the optical axes, and when an optical axis of the sensing optical axis used in sensing in the initial state is blocked, the number of optical axes included in the sensing optical axis is increased so as to expand the sensing optical axis. | 04-07-2016 |
20160113469 | DEBRIS MONITORING - A debris monitoring system includes a receptacle, a first and a second emitter, and a first receiver. The receptacle defines an opening to receive debris into the receptacle. The first and second emitter are each arranged to emit a signal across at least a portion of the opening. The first receiver is proximate to the first emitter to receive reflections of the signal emitted by the first emitter, and the first receiver is disposed toward the opening to receive an unreflected portion of the signal emitted by the second emitter across at least a portion of the opening. | 04-28-2016 |
20160139243 | DETECTOR FOR OPTICALLY DETECTING AT LEAST ONE OBJECT - A detector for determining a position of at least one object. The detector includes: at least one optical sensor configured to detect a light beam traveling from the object towards the detector, the optical sensor including at least one matrix of pixels; and at least one evaluation device configured to determine an intensity distribution of pixels of the optical sensor that are illuminated by the light beam, the evaluation device further configured to determine at least one longitudinal coordinate of the object by using the intensity distribution. | 05-19-2016 |
20160139267 | MOVEMENT DETECTION DEVICE CAPABLE OF DETECTING THREE-DIMENSIONAL MOTIONS - The present invention relates to a movement detection device for detecting a movement of an object in a space range. The movement detection device includes a light source, a light guiding element, at least two light sensing elements and a processing unit. The light sensing elements have an offset therebetween along a first direction such that the object, when moving in the space range, reflects the light from the light source sequentially to the light sensing elements through the light guiding element. The processing unit identifies the movement of the object along the first direction according to a sequence that the light sensing elements detect the light reflected by the object. | 05-19-2016 |
20160139297 | LIGHT CURTAIN COMPONENT - A light curtain component comprising a housing which extends essentially along a longitudinal direction, and having a plurality of optoelectronic emission or reception elements which are arranged in the housing and are oriented toward an upper side of the housing, and which are separated from one another along the longitudinal direction. The housing comprises, on a front side, a first planar front surface which is arranged at an angle (α) of less than 90°, preferably equal to 45°, with respect to the longitudinal direction. This first planar front surface allows joining two such light curtain components flush with one another in a corner, without undesired formation of dead or blind zones taking place. | 05-19-2016 |
20160187483 | MOLDED PROXIMITY SENSOR - A proximity sensor includes a printed circuit board substrate, a semiconductor die, electrical connectors, a lens, a light emitting assembly, and an encapsulating layer. The semiconductor die is positioned over the printed circuit board substrate with its upper surface facing away from the printed circuit board substrate. Each of the electrical connectors is in electrical communication with a contact pad of the semiconductor die and a respective contact pad of the printed circuit board substrate. The lens is positioned over a sensor area of the semiconductor die. The light emitting assembly includes a light emitting device having a light emitting area, a lens positioned over the light emitting area, and contact pads facing the printed circuit board substrate. The encapsulating layer is positioned on the printed circuit board substrate, at least one of the electrical connectors, the semiconductor die, the lens, and the light emitting assembly. | 06-30-2016 |
20160377718 | PHOTOELECTRIC SENSOR - A photoelectric sensor includes the following components. A disturbance detection unit detects a disturbance by comparing a light reception result obtained by a light receiver with a first threshold and with a second threshold for a predetermined period in a state where no light is transmitted by a light transmitter. The second threshold takes a value of a sign opposite to that of the first threshold relative to a no-signal state. A waiting unit waits for the light reception result obtained by the light receiver to become within a range from the first threshold to the second threshold upon detection of a disturbance. A disturbance type determination unit causes detection of a disturbance to be performed again after the waiting. A light transmission instruction unit instructs the light transmitter to transmit light when no disturbance is detected for a predetermined period. | 12-29-2016 |
20160377762 | PROXIMITY SENSOR AND ELECTRONIC APPARATUS INCLUDING THE SAME - A proximity sensor includes: a support substrate having a main surface and a rear surface; a surface emission laser; a light receiving part; and a resin body, wherein the surface emission laser is disposed on the main surface so as to emit light in a direction away from the rear surface; wherein the resin body is made of a light transmissive resin, and is disposed on the main surface so as to cover the surface emission laser and the light receiving part, and a portion of the resin body between the surface emission laser and the light receiving part is formed of the same light transmissive resin as the other portions, and wherein the light receiving part is disposed at a position at which the light emitted from the surface emission laser is reflected at an object and reflected light from the object is incident onto the light receiving part. | 12-29-2016 |
20190146068 | PROXIMITY SENSOR INCLUDING ENCLOSED ACCOMODATION SPACE WITH SEALED LIGHT PASSAGE AND MANUFACTURING METHOD THEREOF | 05-16-2019 |