Patents by Inventor Eric A. Kurth
Eric A. Kurth has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
-
Publication number: 20200186712Abstract: Techniques are disclosed for facilitating burst mode calibration sensing and image mode sensing. In one example, a device includes a detector array configured to detect electromagnetic radiation and provide image data frames according to a first frame rate. The device further includes a logic circuit configured to determine whether a threshold delay has elapsed. The device further includes a frame output circuit configured to: provide, based at least on the threshold delay having elapsed, the image data frames according to the first frame rate; and provide, based at least on the threshold delay not having elapsed, the image data frames according to a second frame rate lower than the first frame rate. Related methods and systems are also provided.Type: ApplicationFiled: November 18, 2019Publication date: June 11, 2020Inventors: Nicholas Högasten, Brian B. Simolon, Christopher Chan, Robert F. Cannata, Eric A. Kurth
-
Publication number: 20200186736Abstract: Techniques to set a frame rate and associated device manufacturing are disclosed. In one example, an imaging device includes a detector array configured to detect electromagnetic radiation associated with a scene and provide image data frames according to a first frame rate. The imaging device further includes a readout circuit configured to provide the image data frames according to a frame rate for the readout circuit. The imaging device further includes a fuse configured to set the frame rate for the readout circuit. Related methods and systems are also provided.Type: ApplicationFiled: November 20, 2019Publication date: June 11, 2020Inventors: Robert F. Cannata, Brian B. Simolon, Nicholas Högasten, Christopher Chan, Eric A. Kurth
-
Patent number: 10677657Abstract: Systems and methods are directed to contacts for an infrared detector. For example, an infrared imaging device includes a substrate having a first metal layer and an infrared detector array coupled to the substrate via a plurality of contacts. Each contact includes for an embodiment a plurality of metal studs each having a first end and a second end and each disposed between the first metal layer and a second metal layer, wherein the first end of each metal stud is disposed on a portion of the first metal layer that is at least partially on the surface of the substrate.Type: GrantFiled: May 19, 2017Date of Patent: June 9, 2020Assignee: FLIR SYSTEMS, INC.Inventors: Eric A. Kurth, Patrick Franklin
-
Patent number: 10677656Abstract: A device is disclosed including a substrate and a floating blinded infrared detector and/or a shunted blinded infrared detector. The floating blinded infrared detector may include an infrared detector coupled to and thermally isolated from the substrate; and a blocking structure disposed above the infrared detector to block external thermal radiation from being received by the infrared detector; and wherein the blocking structure comprises a plurality of openings. The shunted blinded infrared detector may include an additional infrared detector coupled to the substrate; an additional blocking structure disposed above the infrared detector to block external thermal radiation from being received by the additional infrared detector; and a material that thermally couples the additional infrared detector to the substrate and the additional blocking structure. Methods for using and forming the device are also disclosed.Type: GrantFiled: March 21, 2017Date of Patent: June 9, 2020Assignee: FLIR Systems, Inc.Inventors: Eric A. Kurth, Chris Chan, Kevin Peters, Patrick Franklin, Robert F. Cannata, James L. Dale, Tommy Marx, David Howard, Jefferson Rose, Michael DeBar
-
Publication number: 20200025679Abstract: An IR imaging device includes an optical element receiving infrared radiation from a scene, a filter blocking IR radiation outside of a particular range of wavelengths, an array of sensor pixels to capture an image of the scene based on infrared radiation received through the optical element and filter, the array of sensor pixels comprising a first array of sensor pixels to image gas in within a first spectral bandwidth, and a second array of sensor pixel to sense IR radiation in a second spectral bandwidth where gas is not detected, a read-out integrated circuit (ROIC) and logic circuitry to generate a first image sensed by the first array and a second image sensed by the second array, and gas detection logic to detect the presence of gas in the first image.Type: ApplicationFiled: September 27, 2019Publication date: January 23, 2020Inventors: Hakan E. Nygren, Jonas Sandsten, Per Lilja, Marta Barenthin-Syberg, Henning Hagman, Eric A. Kurth, Brian B. Simolon, Naseem Y. Aziz, Ulf Wallgren
-
Publication number: 20190335118Abstract: Techniques are disclosed for systems and methods for facilitating pixel readout with partitioned analog-to-digital conversion. A device includes a detector, a capacitor coupled to the detector, a counter circuit coupled to the capacitor, a reset circuit coupled to the capacitor, and a processing circuit. The detector is configured to detect electromagnetic radiation associated with a scene and generate an associated detection signal. The capacitor is configured to, during an integration period, accumulate a voltage based on the detection signal. The counter circuit is configured to, during the integration period, adjust a counter value based on a comparison of the voltage and a reference voltage. The reset circuit is io configured to, during the integration period, reset the capacitor based on the comparison. The processing circuit is configured to generate a digital detector output based on the counter value when the integration period has elapsed. Related methods are also provided.Type: ApplicationFiled: July 8, 2019Publication date: October 31, 2019Inventors: Brian B. Simolon, Robert F. Cannata, John D. Schlesselmann, Mark T. Nussmeier, Eric A. Kurth
-
Patent number: 10389953Abstract: A shutter assembly may be provided for an infrared imaging module to selectively block external infrared radiation from reaching infrared sensors of the infrared imaging module. For example, the shutter assembly may comprise a paddle situated external to an optical element (e.g., lens) and adapted to be selectively moved by an actuator to substantially block external infrared radiation from entering the optical element. The shutter assembly may be stacked relative to a housing of the infrared imaging module without excessively increasing the overall profile of the infrared imaging module. A substantially reflective low emissivity interior surface may be provided on the paddle to reflect infrared radiation originating from an infrared sensor assembly of the infrared imaging module back to the infrared sensor assembly.Type: GrantFiled: June 23, 2015Date of Patent: August 20, 2019Assignee: FLIR Systems, Inc.Inventors: Theodore R. Hoelter, Joseph Kostrzewa, Pierre Boulanger, Barbara Sharp, Eric A. Kurth, Nicholas Högasten, Katrin Strandemar
-
Patent number: 10321031Abstract: Various techniques are disclosed for providing a device attachment configured to releasably attach to and provide infrared imaging functionality to mobile phones or other portable electronic devices. For example, a device attachment may include a housing with a tub on a rear surface thereof shaped to at least partially receive a user device, an infrared sensor assembly disposed within the housing and configured to capture thermal infrared image data, and a processing module communicatively coupled to the infrared sensor assembly and configured to transmit the thermal infrared image data to the user device. Thermal infrared image data may be captured by the infrared sensor assembly and transmitted to the user device by the processing module in response to a request transmitted by an application program or other software/hardware routines running on the user device.Type: GrantFiled: February 16, 2018Date of Patent: June 11, 2019Assignee: FLIR Systems, Inc.Inventors: Jeffrey D. Frank, Nicholas Högasten, Theodore R. Hoelter, Katrin Strandemar, Pierre Boulanger, Barbara Sharp, Andrew C. Teich, Dwight Dumpert, Mark Nussmeier, Eric A. Kurth, Gerald W. Blakeley, III, Michael Fox
-
Publication number: 20190148443Abstract: Systems and methods are directed to vertical legs for an infrared detector. For example, an infrared imaging device may include a microbolometer array in which each microbolometer includes a bridge and a vertical leg structure that couples the bridge to a substrate such as a readout integrated circuit. The vertical leg structure may run along a path that is parallel to a plane defined by the bridge and may be oriented perpendicularly to the plane. The path may be disposed within, below, or above the plane defined by the bridge.Type: ApplicationFiled: December 19, 2018Publication date: May 16, 2019Inventors: James L. Dale, Christopher Chan, Eric A. Kurth
-
Publication number: 20190141261Abstract: An imager array may be provided as part of an imaging system. The imager array may include a plurality of infrared imaging modules. Each infrared imaging module may include a plurality of infrared sensors associated with an optical element. The infrared imaging modules may be oriented, for example, substantially in a plane facing the same direction and configured to detect images from the same scene. Such images may be processed in accordance with various techniques to provide images of infrared radiation. The infrared imaging modules may include filters or lens coatings to selectively detect desired ranges of infrared radiation. Such arrangements of infrared imaging modules in an imager array may be used to advantageous effect in a variety of different applications.Type: ApplicationFiled: September 28, 2018Publication date: May 9, 2019Inventors: Nicholas Högasten, Mark Nussmeier, Eric A. Kurth, Theodore R. Hoelter, Katrin Strandemar, Pierre Boulanger, Barbara Sharp
-
Patent number: 10244190Abstract: Techniques using small form factor infrared imaging modules are disclosed. An imaging system may include visible spectrum imaging modules, infrared imaging modules, illumination modules, and other modules to interface with a user and/or a monitoring system. Visible spectrum imaging modules and infrared imaging modules may be positioned in proximity to a scene that will be monitored while visible spectrum-only images of the scene are either not available or less desirable than infrared images of the scene. Imaging modules may be configured to capture images of the scene at different times. Image analytics and processing may be used to generate combined images with infrared imaging features and increased detail and contrast. Selectable aspects of non-uniformity correction processing, true color processing, and high contrast processing, may be performed on the captured images. Control signals based on the combined images may be presented to a user and/or a monitoring system.Type: GrantFiled: December 21, 2013Date of Patent: March 26, 2019Assignee: FLIR Systems, Inc.Inventors: Pierre Boulanger, Barbara Sharp, Theodore R. Hoelter, Andrew C. Teich, Nicholas Högasten, Jeffrey S. Scott, Katrin Strademar, Mark Nussmeier, Eric A. Kurth
-
Patent number: 10230910Abstract: Various techniques are disclosed for providing an infrared imaging module that exhibits a small form factor and may be used with one or more portable devices. Such an infrared imaging module may be implemented with a housing that includes electrical connections that may be used to electrically connect various components of the infrared imaging module. In addition, various techniques are disclosed for providing system architectures for processing modules of infrared imaging modules. In one example, a processing module of an infrared imaging module includes a first interface adapted to receive captured infrared images from an infrared image sensor of the infrared imaging module. The processing module may also include a processor adapted to perform digital infrared image processing on the captured infrared images to provide processed infrared images. The processing module may also include a second interface adapted to pass the processed infrared images to a host device.Type: GrantFiled: July 31, 2017Date of Patent: March 12, 2019Assignee: FLIR Systems, Inc.Inventors: Pierre Boulanger, Theodore R. Hoelter, Barbara Sharp, Eric A. Kurth
-
Patent number: 10122944Abstract: Various techniques are provided for implementing an infrared imaging system. In one example, a system includes a focal plane array (FPA). The FPA includes an array of infrared sensors adapted to image a scene. The FPA also includes a bias circuit adapted to provide a bias voltage to the infrared sensors. The bias voltage is selected from a range of approximately 0.2 volts to approximately 0.7 volts. The FPA also includes a read out integrated circuit (ROIC) adapted to provide signals from the infrared sensors corresponding to captured image frames. Other implementations are also provided.Type: GrantFiled: July 10, 2017Date of Patent: November 6, 2018Assignee: FLIR Systems, Inc.Inventors: Mark Nussmeier, Eric A. Kurth, Nicholas Högasten, Theodore R. Hoelter, Katrin Strandemar, Pierre Boulanger, Barbara Sharp
-
Patent number: 10091439Abstract: An imager array may be provided as part of an imaging system. The imager array may include a plurality of infrared imaging modules. Each infrared imaging module may include a plurality of infrared sensors associated with an optical element. The infrared imaging modules may be oriented, for example, substantially in a plane facing the same direction and configured to detect images from the same scene. Such images may be processed in accordance with various techniques to provide images of infrared radiation. The infrared imaging modules may include filters or lens coatings to selectively detect desired ranges of infrared radiation. Such arrangements of infrared imaging modules in an imager array may be used to advantageous effect in a variety of different applications.Type: GrantFiled: December 20, 2013Date of Patent: October 2, 2018Assignee: FLIR Systems, Inc.Inventors: Nicholas Högasten, Mark Nussmeier, Eric A. Kurth, Theodore R. Hoelter, Katrin Strandemar, Pierre Boulanger, Barbara Sharp
-
Patent number: 10079982Abstract: Various techniques are provided for using one or more shielded (e.g., blinded, blocked, and/or obscured) infrared sensors of a thermal imaging device. In one example, a method includes capturing a signal from a shielded infrared sensor that is substantially blocked from receiving infrared radiation from a scene. The method also includes capturing a signal from an unshielded infrared sensor configured to receive the infrared radiation from the scene. The method also includes determining an average thermographic offset reference for the shielded and unshielded infrared sensors based on the captured signal of the shielded infrared sensor. The method also includes determining an absolute radiometric value for the scene based on the average thermographic offset reference and the captured signal of the unshielded infrared sensor.Type: GrantFiled: April 4, 2014Date of Patent: September 18, 2018Assignee: FLIR Systems, Inc.Inventors: Pierre Boulanger, Per Elmfors, Nicholas Högasten, Theodore R. Hoelter, Katrin Strandemar, Barbara Sharp, Eric A. Kurth
-
Patent number: 10051210Abstract: Various techniques are provided for binning (e.g., clustering or grouping) two or more infrared sensors of a focal plane array (FPA) to permit configuration of the FPA to various dimensions and/or pixel sizes. For example, according to one or more embodiments, switchable interconnects may be implemented within the FPA, wherein the switchable interconnects comprise a plurality of switches adapted to selectively connect or disconnect infrared sensors of the FPA to/from column lines, row lines, and between each other. The switchable interconnects may also comprise another set of switches adapted to selectively connect adjacent column lines together. By selectively opening and closing appropriate switches of the switchable interconnects, two or more neighboring infrared sensors may be binned together to form a binned detector. Advantageously, the binned detector, along with the array and associated circuitry, may provide increased sensitivity, reduced power consumption, and/or increased frame rate.Type: GrantFiled: June 24, 2015Date of Patent: August 14, 2018Assignee: FLIR Systems, Inc.Inventors: Mark Nussmeier, Eric A. Kurth, Nicholas Högasten, Theodore R. Hoelter, Katrin Strandemar, Pierre Boulanger, Barbara Sharp
-
Patent number: 10033944Abstract: Techniques using small form factor infrared imaging modules are disclosed. An imaging system may include visible spectrum imaging modules, infrared imaging modules, and other modules to interface with a user and/or a monitoring system. Visible spectrum imaging modules and infrared imaging modules may be positioned in proximity to a scene that will be monitored while visible spectrum-only images of the scene are either not available or less desirable than infrared images of the scene. Imaging modules may be configured to capture images of the scene at different times. Image analytics and processing may be used to generate combined images with infrared imaging features and increased detail and contrast. Triple fusion processing, including selectable aspects of non-uniformity correction processing, true color processing, and high contrast processing, may be performed on the captured images. Control signals based on the combined images may be presented to a user and/or a monitoring system.Type: GrantFiled: September 19, 2016Date of Patent: July 24, 2018Assignee: FLIR Systems, Inc.Inventors: Nicholas Högasten, Dwight Dumpert, Theodore R. Hoelter, Jeffrey S. Scott, Katrin Strandemar, Mark Nussmeier, Eric A. Kurth, Pierre Boulanger, Barbara Sharp
-
Publication number: 20180205893Abstract: Various techniques are provided for implementing a segmented focal plane array (FPA) of infrared sensors. In one example, a system includes a segmented FPA. The segmented FPA includes a top die having an array of infrared sensors (e.g., bolometers). The top die may also include a portion of a read-out integrated circuit (ROIC). The segmented FPA also includes a bottom die having at least a portion of the ROIC. The top and the bottom dies are electrically coupled via inter-die connections. Advantageously, the segmented FPA may be fabricated with a higher yield and a smaller footprint compared with conventional FPA architectures. Moreover, the segmented FPA may be fabricated using different semiconductor processes for each die.Type: ApplicationFiled: March 12, 2018Publication date: July 19, 2018Inventors: Brian Simolon, Eric A. Kurth, Mark Nussmeier, Nicholas Högasten, Theodore R. Hoelter, Katrin Strandemar, Pierre Boulanger, Barbara Sharp
-
Publication number: 20180198960Abstract: Various techniques are disclosed for providing a device attachment configured to releasably attach to and provide infrared imaging functionality to mobile phones or other portable electronic devices. For example, a device attachment may include a housing with a tub on a rear surface thereof shaped to at least partially receive a user device, an infrared sensor assembly disposed within the housing and configured to capture thermal infrared image data, and a processing module communicatively coupled to the infrared sensor assembly and configured to transmit the thermal infrared image data to the user device. Thermal infrared image data may be captured by the infrared sensor assembly and transmitted to the user device by the processing module in response to a request transmitted by an application program or other software/hardware routines running on the user device.Type: ApplicationFiled: February 16, 2018Publication date: July 12, 2018Inventors: Jeffrey D. Frank, Nicholas Högasten, Theodore R. Hoelter, Katrin Strandemar, Pierre Boulanger, Barbara Sharp, Andrew C. Teich, Dwight Dumpert, Mark Nussmeier, Eric A. Kurth, Gerald W. Blakeley, III, Michael Fox
-
Patent number: 9986175Abstract: Various techniques are disclosed for providing a device attachment configured to releasably attach to and provide infrared imaging functionality to mobile phones or other portable electronic devices. For example, a device attachment may include a housing with a tub on a rear surface thereof shaped to at least partially receive a user device, an infrared sensor assembly disposed within the housing and configured to capture thermal infrared image data, and a processing module communicatively coupled to the infrared sensor assembly and configured to transmit the thermal infrared image data to the user device. Thermal infrared image data may be captured by the infrared sensor assembly and transmitted to the user device by the processing module in response to a request transmitted by an application program or other software/hardware routines running on the user device.Type: GrantFiled: June 23, 2015Date of Patent: May 29, 2018Assignee: FLIR SYSTEMS, INC.Inventors: Jeffrey D. Frank, Nicholas Högasten, Theodore R. Hoelter, Katrin Strandemar, Pierre Boulanger, Barbara Sharp, Andrew C. Teich, Dwight Dumpert, Mark Nussmeier, Eric A. Kurth