Class / Patent application number | Description | Number of patent applications / Date published |
250352000 | With temperature modifying means | 21 |
20080203308 | CAR SIDE MIRROR EQUIPPED WITH THERMAL INFRARED CAMERA - Disclosed herein is a car side mirror equipped with a thermal infrared camera. The car side mirror includes a thermal infrared camera device, a video signal transmission device, a power unit. Associated with the side mirror device is a display device inside the car. The thermal infrared camera device includes a thermal image sensor for receiving infrared signals, an electronic circuit for determining whether an obstacle exists in front of a car, and containing an individual Identification (ID), and a video output unit for converting output signals into video signals. The thermal infrared camera device photographs one or more objects in a desired direction. The video signal transmission device transmits the video signals to a display device. The power unit supplies power to the thermal infrared camera device and the video signal transmission device. The display device identifies the individual ID of the thermal infrared camera and then receives the video signals. | 08-28-2008 |
20090014656 | Wavelength-conversion system with a heated or cooled wavelength-conversion target - A wavelength-conversion system includes a wavelength-conversion target that radiates an energy output when an energy input of a different wavelength is incident upon the wavelength-conversion target. An input structure directs the energy input of the input-energy wavelength to be incident upon the wavelength-conversion target. A target baseline temperature modifier either controllably heats or controllably cools the wavelength-conversion target independently of any heating or cooling effect of the energy input or the energy output. A detector is positioned so that the energy output of the output-energy wavelength emitted from the wavelength-conversion target is incident upon the detector. | 01-15-2009 |
20090134333 | INFRARED SENSOR - An infrared sensor capable of more highly accurately correcting an electrical signal converted by a light receiving unit is provided. An infrared sensor ( | 05-28-2009 |
20090140149 | COMPONENT FOR DETECTING ESPECIALLY INFRARED ELECTROMAGNETIC RADIATION - A component for detecting electromagnetic radiation comprises: a housing defining a chamber placed under a vacuum or underpressure, one of the faces of the housing including a window which is transparent to the radiation to be detected and the chamber including at least one detector which is used to detect the radiation in question and is arranged inside said chamber essentially against the transparent window, a pump for pumping the residual gases or getter in order to maintain the vacuum or underpressure in the chamber at an acceptable level, and a thermal stabilisation device for ensuring regulation of temperature of the detector(s). The thermal stabilisation device consists of a heating resistive element which is integrated into the mass of one of the walls defining the housing. | 06-04-2009 |
20090212220 | Method and System for Measuring and Compensating for the Case Temperature Variations in a Bolometer Based System - A focal plan array system of the bolometer type which comprises: (a) an array of i×j pixel detectors of the bolometer type for sensing scenery radiation; (b) a case which accommodates said array of detectors, said case having a front window that provides exposure to the sensing element of all the i×j pixel detectors to radiation coming from the scenery; (c) at least one blind detector of the bolometer type within the case in a column j+1 for sensing case radiation, the sensing elements of said at least one detector are irradiated by one or more reference surfaces whose radiation is proportional to the case radiation; (d) reading circuitry for reading indication for the scenery radiation as sensed by each of the i×j detectors of the array, and for reading indication for the case radiation as sensed by said at least one blind detector; and (e) compensation circuitry for compensating each of said scenery radiation indications of each detector for the effects resulted from the case radiation, based on the case radiation indication as sensed by said at least one blind detector. | 08-27-2009 |
20090250614 | Image Sensor System - An image sensor system includes a detector having a plurality of detector elements and optics having a beam path from an optical element on to the detector. Calibration of the detector can be rapidly effected where the image sensor system has a reference radiating device fixed within the beam path for illuminating the detector elements. | 10-08-2009 |
20100288931 | BOLOMETER WITH HEAT FEEDBACK - A bolometer comprising an outer surface for the thermal absorption of incident radiation in thermal contact with a radiation measurement element having a variable resistance (R) depending on the temperature, the element being in a heat feedback loop comprising a corrector for applying a heating power to a resistive heating means in order to maintain the temperature of the resistor equal to a setpoint temperature (T | 11-18-2010 |
20110049369 | Device to detect thermal radiation with high resolution method to manufacture and use the device - A device to detect thermal radiation has a membrane and at least two detector elements that are respectively set up to transduce thermal radiation into an electrical signal and are mounted situated next to one another on the membrane, wherein at least one heat dissipation path is provided on the side of the membrane facing towards the detector elements and/or on the side of the membrane facing away from the detector elements, which heat dissipation path has a higher heat conductivity than the membrane and is connected with the detector elements in a heat-conductive manner via the membrane so that heat can be discharged from the detector elements with the heat dissipation path, whereby the response time of the detector elements is short; and wherein at least one heat barrier that has a lower heat conductivity than the membrane and extends between the detector elements is provided integrated into the membrane, such that a heat conduction in the membrane from the one detector element to the other detector element is prevented by the heat barrier; whereby the crosstalk of the detector elements is low. | 03-03-2011 |
20110079721 | APERTURE ARRANGEMENT - An aperture arrangement is disclosed, such as an aperture arrangement suitable for use with a dual wavelength infrared detector. A detector is disclosed which includes a casing; an aperture defined in one end of the casing; and a filter having an inner region and an outer region substantially (e.g., greater than 50%) covering the aperture; wherein the outer region of the filter transmits radiation within a first range of wavelengths and reflects radiation within a second range of wavelengths. | 04-07-2011 |
20110174979 | Variable aperture for infra-red cameras - A variable aperture assembly for an infrared camera for use with optics having two or more f-numbers. The variable aperture assembly includes a variable iris disposed substantially along an axis of the infrared camera and is thermally connected to a cooling assembly. The variable iris is capable of causing an infrared radiation admitting opening to vary in size. The infrared radiation admitting openings of the variable aperture assembly can be circular or non-circular, including generally rectangular or racetrack shaped openings. The variable aperture assembly provides f-number matching by adjusting the infrared radiation admitting opening to the size necessary to effectively match the numerous f-numbers of the optics, or by adjusting to a size so that a fixed aperture on the radiation shield becomes the effective aperture stop, providing the f-number matching. | 07-21-2011 |
20110315881 | IR CAMERA SYSTEM AND METHOD - An Infra Red (IR) camera and method of operating the same is disclosed. The camera includes a detector having an infrared focal plane array (IRFPA). The camera is operated in such a fashion, implemented in software, to maximise the detector operating temperature under varying scene temperature and atmospheric conditions in order to achieve a predetermined and adequate level of sensitivity and operability from the detector. | 12-29-2011 |
20120037806 | System and Method for Viewing an Area Using an Optical System Positioned Inside of a Dewar - According to one embodiment of the present invention, a system for viewing an area includes a dewar and an optical system positioned within the dewar. The dewar permits operation of the flux detector at cryogenic temperatures, in some embodiments. The optical system includes an infrared radiation system capable of focusing one or more light beams. The inclusion of the optical system within the cryogenic space of the dewar allows reduction of the overall system length and weight, if desired. | 02-16-2012 |
20120138802 | INFRARED RADIATION DETECTOR - An infrared radiation detector includes: a cryostat having a cold finger ensuring heat exchange with a cold source and a window transparent to infrared radiation to be detected; a mechanically fixed cold plane in heat exchange with the cold finger; a detector unit comprising at least a detector circuit sensitive to the infrared wavelength range to be detected, and in direct or indirect heat exchange with the cold plane; and a mechanically fixed cold shield in heat exchange with the cold plane and limiting stray radiation. The cold shield is rotationally symmetrical. An inside wall of the cold shield has a succession of reliefs distributed in at least one helical pattern. A definition axis of the helical pattern coincides with the axis of revolution of the cold shield. | 06-07-2012 |
20120138803 | INFRARED SENSOR PACKAGE AND ELECTRONIC DEVICE EQUIPPED THEREWITH - An infrared sensor package includes a housing member, which includes an upper-surface section provided with a transmission member which transmits infrared radiation and a lower-surface section and whose inner space is vacuum-sealed, a plate-like heater member which is disposed within the inner space of the housing member and generates heat, an infrared detection element which is fixed onto the heater member and detects the infrared radiation which is transmitted by the transmission member, and a heat-insulating member which has a low thermal conductivity and a smaller cross-sectional area than that of the heater member, and supports the heater member while being fixed onto the lower-surface section. | 06-07-2012 |
20120187297 | Cold Shield For A Cold Stage - In certain embodiments, a system may include sensor platform, a cold shield, and a support system. The sensor platform supports a sensor system. The cold shield allows first radiation to reach the sensor system and prevents second radiation from reaching the sensor system. The support system is coupled to the cold shield and the platform, and supports the cold shield and maintains a separation between the cold shield and the platform. | 07-26-2012 |
20120199745 | Widely-Tunable Semiconductor Source Integrated in Windowed Hermetic Package - A near infrared (NIR) semiconductor laser system is shown for gas sensing. An embodiment is centered on the use of a system with a much wider tunable laser, which today has a scan band of more than 150 nanometers (nm) to as much as 250 nm or more. In some cases the scan band is about 400 nm or more. This is achieved in the current embodiment through the use of a widely tunable microelectromechanical system (MEMS) based Fabry-Perot filter as an integral part of the laser cavity. Using this technology, these systems are capable of capturing a variety of gases in the any of the well-known spectroscopic scan bands, such as the OH, NH or CH. For example, a single laser with a 250 nm scan band window between 1550-1800 nm can capture ten or as many as twenty hydrocarbon-based gases simultaneously. | 08-09-2012 |
20120235044 | INFRARED SENSOR MODULE - An infrared sensor module includes: an infrared sensor device disposed on a substrate and configured to receive infrared signals; a signal processing circuit device configured to process an output from the infrared sensor device; a metal case which is provided at a predetermined distance from the infrared sensor device, which includes a light incident window provided with an optical system for coupling an image on the infrared sensor device from external infrared signals, and which accommodates the infrared sensor device and the signal processing circuit device; and a sensor cover which is disposed between the infrared sensor device and the case and the signal processing circuit device, and which includes a light-transmitting portion configured to guide the infrared signals entering via the optical system to the infrared sensor device. | 09-20-2012 |
20130068951 | Device for the Radiometric Calibration of Infra-Red Measuring Devices - A device for the radiometric calibration of infra-red measuring devices is provided. The device is in the form of a heated metal surface that is used as a radiant surface and is coated with a high-emission material. The device includes a spherical segment, the interior of which is coated with the high-emission material and the opening of the spherical segment is used as an aperture for an infra-red device that can be arranged in the center of the aperture. | 03-21-2013 |
20130327944 | HEATED RADIATION SENSOR | 12-12-2013 |
20150362363 | Derotation Assembly and Method for a Scanning Sensor - An assembly that enables precise mounting of a sensor with improved heat transfer and rotation compensation includes an integrated dewar cooler assembly incorporating the sensor. The dewar assembly is mated to a motorized mount that is controlled to stabilize the rotation of the scene. The sensor is radially aligned relative to the axis of rotation in two adjustment stages. A first stage of adjustment controls the radial position of the sensor inside a bearing. And a second stage of adjustment controls radial translation of the entire assembly outside the bearing. Passive heat transfer is accomplished through a pair of heat sinks that effectively sandwich a hot expander end cap of the dewar, providing multiple heat paths. The entire dewar assembly is rotated during operation to stabilize the scene. The rotating mass of a cooling compressor coupled to the dewar is counter-balanced to avoid torque due to inertia. | 12-17-2015 |
20160202179 | TERAHERTZ WAVE TEMPORAL WAVEFORM ACQUISTION APPARATUS | 07-14-2016 |