Patents Assigned to Teledyne Scientific & Imaging, LLC
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Patent number: 8697554Abstract: Lateral collection architecture for a photodetector is achieved by depositing electrically conducting SLS layers onto a planar substrate and diffusing dopants of a carrier type opposite that of the layers through the layers at selected regions to disorder the superlattice and create diode junctions oriented transversely to the naturally enhanced lateral mobility of photogenerated charge carriers within the superlattice. The diode junctions are terminated at a top surface of the photodetector within an SLS layer of wide bandgap material to minimize unwanted currents. A related architecture disorders the superlattice of topmost SLS layers by diffusing therethrough a dopant configured as a grid and penetrating to a lower SLS layer having the same carrier type as the dopant and opposite that of the topmost layers to isolate pixels within the topmost layers. Ohmic contacts may be deposited on doped regions, pixels, and substrate to provide desired external connections.Type: GrantFiled: August 8, 2011Date of Patent: April 15, 2014Assignee: Teledyne Scientific & Imaging, LLCInventors: William E. Tennant, Gerard J. Sullivan, Mark Field
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Patent number: 8697499Abstract: A dynamic and end-user configurable controlled impedance interconnect line includes a plurality of conductive pixels, a plurality of thin-film transition material interconnects to electrically connect adjacent conductive pixels in the plurality of conductive pixels, and a plurality of addressable pixel interconnect actuators to selectively heat a respective plurality of the thin-film transition material interconnects. The plurality of addressable pixel interconnect actuators is operable to selectively heat a respective plurality of the thin-film transition material interconnects to form an interconnect line.Type: GrantFiled: May 30, 2013Date of Patent: April 15, 2014Assignee: Teledyne Scientific & Imaging, LLCInventors: Jonathan B. Hacker, Christopher E. Hillman
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Patent number: 8679969Abstract: A system for forming self-aligned contacts includes electroplating a first metal contact onto a Group III-V semiconductor substrate, the first metal contact having a greater height than width and having a straight sidewall profile, etching back the semiconductor substrate down to a base layer to expose an emitter semiconductor layer under the first metal contact, conformally depositing a dielectric layer on a vertical side of the first metal contact, a vertical side of the emitter semiconductor layer and on the base layer, anisotropically etching the dielectric layer off of the semiconductor substrate to form a dielectric sidewall spacer on the vertical side of the first metal contact and providing a second metal contact immediately adjacent the dielectric sidewall spacer.Type: GrantFiled: August 2, 2011Date of Patent: March 25, 2014Assignee: Teledyne Scientific & Imaging, LLCInventors: Miguel Urteaga, Richard L. Pierson, Jr., Keisuke Shinohara
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Publication number: 20140061911Abstract: A self-aligning hybridization method enabling small pixel pitch hybridizations with self-alignment and run-out protection. The method requires providing a first IC, the surface of which includes at least one electrical contact for connection to a mating IC, depositing an insulating layer on the IC's surface, patterning and etching the insulating layer to provide recesses in the insulating layer above each of the electrical contacts, and depositing a deformable conductive material in each of the recesses. A mating IC is provided which includes conductive pins, preferably comprising nickel, positioned to align with the deformable conductive material in respective ones of the recesses on the first chip. The first and mating ICs are then hybridized by bringing the conductive pins into contact with the deformable conductive material in the recesses, such that the conductive material deforms and the pins make electrical contact with the first IC's electrical contacts.Type: ApplicationFiled: November 4, 2013Publication date: March 6, 2014Applicant: TELEDYNE SCIENTIFIC & IMAGING, LLCInventors: Donald E. Cooper, William E. Tennant, Robert Mihailovich
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Publication number: 20140061838Abstract: A self-aligning hybridization method enabling small pixel pitch hybridizations with self-alignment and run-out protection. The method requires providing a first IC, the surface of which includes at least one electrical contact for connection to a mating IC, depositing an insulating layer on the IC's surface, patterning and etching the insulating layer to provide recesses in the insulating layer above each of the electrical contacts, and depositing a deformable conductive material in each of the recesses. A mating IC is provided which includes conductive pins positioned to align with the deformable conductive material in respective ones of the recesses on the first chip. The first and mating ICs are then hybridized by bringing the conductive pins into contact with the deformable conductive material in the recesses, such that the conductive material deforms and the pins make electrical contact with the first IC's electrical contacts.Type: ApplicationFiled: December 17, 2012Publication date: March 6, 2014Applicant: Teledyne Scientific & Imaging, LLCInventor: Teledyne Scientific & Imaging, LLC
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Patent number: 8659458Abstract: A “multiple return-to-zero” (MRZ) current switching DAC. In operation, the outputs of respective current sources are selectively directed to respective intermediate nodes in response to respective control signals which vary with a digital input word, and in synchronization with a clock CK1. A plurality of MRZ current switches are connected between respective intermediate nodes and the DAC's analog output. The MRZ switches are driven with a clock CK2 which toggles in synchronization with CK1 at a frequency fCK2=N*fCK1. The MRZ switches are operated such that switching noise that arises when CK1 is asserted is prevented from appearing on the analog output. When properly arranged, the DAC can generate a direct digital waveform at RF frequencies, with N chosen to produce an output spectrum such that the DAC's output power is relatively high within the desired frequency range.Type: GrantFiled: October 11, 2012Date of Patent: February 25, 2014Assignee: Teledyne Scientific & Imaging, LLCInventors: Myung-Jun Choe, Kang-Jin Lee, Munkyo Seo
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Patent number: 8654332Abstract: A method is disclosed for manufacturing a chip-scale optics module for an optical interrogator. The method includes aligning a polarization axis of a linear polarizer to an angle of 45 degrees from a fast axis of a quarter wave plate to enable circular polarization of a beam, when a beam is introduced to the linear polarizer, coupling the linear polarizer to the quarter wave plate after the aligning to form a circular polarizing filter sheet and then dicing the circular polarizing filter sheet to obtain a plurality of chip-scale circular polarizing filters. Each of the chip-scale circular polarizing filters is diced to have an edge that defines a polarization location index for the linear polarizer. A linear polarizer plate face of one of the chip-scale circular polarizing filters is then positioned so that the linear polarizer plate face is aligned with and parallel to an output face of a laser, whereby the polarization axis of the linear polarizer is not orthogonal to a polarization axis of the laser.Type: GrantFiled: June 22, 2011Date of Patent: February 18, 2014Assignee: Teledyne Scientific & Imaging, LLCInventors: Robert L. Borwick, Jeffrey F DeNatale
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Patent number: 8648914Abstract: A laser communication and spatial referencing system and related methods provides effective and secure non-line-of-sight communications. A laser communication and spatial referencing system includes a laser transmitter transmitting a pulsed laser beam encoded with binary communications data, and an imaging data receiver for receiving the pulsed laser beam reflecting off a reflective target. The imaging receiver decodes the binary communications data and determines the position of the laser beam. The laser communication and spatial referencing system may operate synchronously and/or asynchronously, and may include a display displaying a video image of area surrounding the target with the reflecting location superimposed on the image to provide visual identification of the target.Type: GrantFiled: December 31, 2009Date of Patent: February 11, 2014Assignee: Teledyne Scientific & Imaging, LLCInventors: Bruce K. Winker, Venkatarman Sundareswaran, Milind Mahajan, Steven L. Chen
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Publication number: 20140014263Abstract: A protective hybrid composite for a rotor blade is based on the use of tape cast ceramic layers densified by pre-ceramic polymer infiltration methods and laminated together with polymer matrix composite prepregs, with or without an embedded metallic mesh, to form a conforming helicopter blade cladding that is laminated to the blade surface for added erosion protection. The hybrid composite is fabricated to net shape and laminated to the blade using either an adhesive or a polymer composite prepreg inner layer. Installation is accomplished by a standard composite fabrication method of vacuum bagging the blade while the system is laminated to its surface. Repair methods based on removal of ceramic tiles is facilitated by incorporation of a metallic mesh element laminated beneath the ceramic tiles that can be used to heat the tile and decrease its adhesion strength.Type: ApplicationFiled: September 6, 2013Publication date: January 16, 2014Applicant: Teledyne Scientific & Imaging, LLCInventors: Janet B. Davis, David B. Marshall, Olivier H. Sudre, Sergio dos Santos e Lucato
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Patent number: 8614610Abstract: A waveguide component encapsulation device may include a housing having first and second surfaces, the housing defining a channel extending through the first and second surfaces, a micromachined waveguide component configured to be positioned in the channel, the waveguide component having first and second ends extending outside the channel and beyond the first and second surfaces of the housing by a finite length, and a pair of spacing members configured to align and stabilize the waveguide component within the channel.Type: GrantFiled: September 7, 2010Date of Patent: December 24, 2013Assignee: Teledyne Scientific & Imaging, LLCInventors: Jonathan Hacker, Chris Hillman, Mark Field, Robert L. Borwick, III
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Patent number: 8582008Abstract: A fast-settling line driver circuit capable of high-speed operation. The line driver is particularly well-suited for operation in a high-resolution imaging system. The line driver circuit comprises a signal amplifier that is configured in a negative feedback loop and connected to a bus line through a switch network. The switch network is disposed inside the feedback loop while the line driver is transmitting a signal onto the bus line. This configuration reduces the settling time of the line driver by substantially eliminating the effect of the switch resistance on the RC time constant. The line driver also comprises offset cancellation and presettle circuits that improve the integrity of the output signal and reduce the power consumption of the system.Type: GrantFiled: May 20, 2011Date of Patent: November 12, 2013Assignee: Teledyne Scientific & Imaging, LLCInventors: Atul Joshi, Hakan Durmus, Vincent M. Douence
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Patent number: 8581783Abstract: Method embodiments are disclosed to determine arrival directions of electromagnetic signals that have a known signal frequency and a known guided signal wavelength. These methods are realized with an antenna configured to define, at the signal frequency, at least one metamaterial cell between first and second signal ports. They then include the step of rotating the antenna until the differential power from the first and second signal ports is substantially zero and then determining the arrival direction as a normal to the metamaterial cell. In other method embodiments, the antenna is stationary and a differential power is determined wherein the differential power is defined as the difference between received powers from the first and second ports. The arrival direction of electromagnetic signals are then determined from the differential power.Type: GrantFiled: March 10, 2011Date of Patent: November 12, 2013Assignee: Teledyne Scientific & Imaging, LLCInventor: J. Aiden Higgins
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Publication number: 20130293314Abstract: An apparatus includes a chip-scale atomic clock (CSAC) alkali vapor cell seated on a silicon substrate that is suspended in a package by a metalized Parylene strap having Parylene anchors embedded in a silicon frame, the Parylene strap comprising an extended rigidizing structure, and a plurality of electrical pins extending into an interior of the package, the plurality of electrical pins in electrical communication with the CSAC cell through the metalized Parylene strap, where the CSAC cell is mechanically connected to the package and thermally insulated from the package.Type: ApplicationFiled: May 9, 2013Publication date: November 7, 2013Applicant: Teledyne Scientific & Imaging, LLCInventors: Jeffrey F. DeNatale, Philip A. Stupar, Yu-Hua Lin, Robert L. Borwick, III, Alexandros P. Papavasiliou
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Patent number: 8556589Abstract: A protective hybrid composite for a rotor blade is based on the use of tape cast ceramic layers densified by pre-ceramic polymer infiltration methods and laminated together with polymer matrix composite prepregs, with or without an embedded metallic mesh, to form a conforming helicopter blade cladding that is laminated to the blade surface for added erosion protection. The hybrid composite is fabricated to net shape and laminated to the blade using either an adhesive or a polymer composite prepreg inner layer. Installation is accomplished by a standard composite fabrication method of vacuum bagging the blade while the system is laminated to its surface. Repair methods based on removal of ceramic tiles is facilitated by incorporation of a metallic mesh element laminated beneath the ceramic tiles that can be used to heat the tile and decrease its adhesion strength.Type: GrantFiled: December 30, 2009Date of Patent: October 15, 2013Assignee: Teledyne Scientific & Imaging, LLCInventors: Janet B Davis, David B Marshall, Olivier H Sudre, Sergio dos Santos e Lucato
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Patent number: 8546002Abstract: A yeast biofilm microbial fuel cell has anode and cathode chambers, each containing an electrolyte medium, separated by a proton conducting membrane. A baker's yeast biofilm is induced to form on the anode under electrical poising. A method of making the MFC includes adding baker's yeast and yeast nutrient fuel source to the anode solution, connecting a resistor across the anode and cathode to enable current flow through the resistor for a selected time for poising the anode and formation of the anodic yeast biofilm, replacing the anode solution with a fresh quantity of yeast-free solution, adding fuel source to the solution, and continuing to run the MFC for a selected time under resistance. The steps of replacing the anode solution, adding fuel source and running the cell under load are repeated until the baker's yeast has formed a suitable anodic biofilm.Type: GrantFiled: October 26, 2009Date of Patent: October 1, 2013Assignee: Teledyne Scientific & Imaging, LLCInventors: Rahul Ganguli, Vivek Mehrotra
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Publication number: 20130249110Abstract: A transistor, a method and an apparatus for forming multiple connections to a transistor for reduced gate (FET/HEMT) or base (BJT/HBT) parasitics, and improved multi-finger transistor thermal impedance. Providing for a method and an apparatus that reduces a transistor's parasitics and reduces a transistor's thermal impedance, resulting in higher device bandwidths and higher output power. More particularly, providing for a method and an apparatus for applying compact, multiple connections to the gate of a FET (or HEMT) or the base of a BJT (or HBT) from many sides resulting in reduced parasitics and improved transistor thermal impedance.Type: ApplicationFiled: December 18, 2012Publication date: September 26, 2013Applicant: TELEDYNE SCIENTIFIC & IMAGING, LLCInventor: Zachary M. Griffith
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Patent number: 8505358Abstract: The present invention relates to a method for adjusting the resonant frequencies of a vibrating microelectromechanical (MEMS) device. In one embodiment, the present invention is a method for adjusting the resonant frequencies of a vibrating mass including the steps of patterning a surface of a device layer of the vibrating mass with a mask, etching the vibrating mass to define a structure of the vibrating mass, determining a first set of resonant frequencies of the vibrating mass, determining a mass removal amount of the vibrating mass and a mass removal location of the vibrating mass to obtain a second set of resonant frequencies of the vibrating mass, removing the mask at the mass removal location, and etching the vibrating mass to remove the mass removal amount of the vibrating mass at the mass removal location of the vibrating mass.Type: GrantFiled: September 16, 2011Date of Patent: August 13, 2013Assignee: Teledyne Scientific & Imaging, LLCInventors: Jeffrey F. DeNatale, Philip A. Stupar
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Patent number: 8505357Abstract: The present invention relates to a method for adjusting the resonant frequencies of a vibrating microelectromechanical (MEMS) device. In one embodiment, the present invention is a method for adjusting the resonant frequencies of a vibrating mass including the steps of patterning a surface of a device layer of the vibrating mass with a mask, etching the vibrating mass to define a structure of the vibrating mass, determining a first set of resonant frequencies of the vibrating mass, determining a mass removal amount of the vibrating mass and a mass removal location of the vibrating mass to obtain a second set of resonant frequencies of the vibrating mass, removing the mask at the mass removal location, and etching the vibrating mass to remove the mass removal amount of the vibrating mass at the mass removal location of the vibrating mass.Type: GrantFiled: September 16, 2011Date of Patent: August 13, 2013Assignee: Teledyne Scientific & Imaging, LLCInventors: Jeffrey F. DeNatale, Philip A. Stupar
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Patent number: 8491970Abstract: A method and device for producing an aligned carbon nanotube array. The arrays of aligned carbon nanotubes (CNTs) may be formed by drying liquid dispersions of CNTs on a nanoporous substrate under an applied electrostatic field. The array may be used in a number of applications including electronics, optics, and filtration, including desalination.Type: GrantFiled: September 29, 2010Date of Patent: July 23, 2013Assignee: Teledyne Scientific & Imaging, LLCInventors: Dennis Strauss, Vivek Mehrotra
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Patent number: 8494259Abstract: A computer vision system provides a universal scene descriptor (USD) framework and methodology for using the USD framework to extract multi-level semantic metadata from scenes. The computer vision system adopts the human vision system principles of saliency, hierarchical feature extraction and hierarchical classification to systematically extract scene information at multiple semantic levels.Type: GrantFiled: December 28, 2009Date of Patent: July 23, 2013Assignee: Teledyne Scientific & Imaging, LLCInventors: Mario Aguilar, Aaron Hawkins, Jiangying Zhou