Patents Assigned to Core Technology, Inc.
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Patent number: 7889609Abstract: A writing current circuit (42) supplies a controlled electrical current to a laser diode (34) for recording data swiftly onto a DVD (16). A plurality of current sources (62) in the writing current circuit (42) supply electrical current directly to the laser diode (34). Each current source (62) respectively receives a single output signal from a current control register (52) included in the writing current circuit (42) which activates or deactivates the current source (62) for supplying a particular quantity of current to the laser diode (34). In one aspect, a pair of current reference signals received by the current source (62) control electrical current supply to the diode (34). Incorporated into these controlling reference signals is a simulation of electrical characteristics of the diode (34). In another aspect, each current source (62) responds to a logical inverse of the output signal from the current control register (52) for controlling overshoot in voltage applied across the diode (34).Type: GrantFiled: March 3, 2008Date of Patent: February 15, 2011Assignee: Silicon Core Technology, Inc.Inventors: Eric Li, Yi Zhang
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Patent number: 7570568Abstract: A writing current circuit (42) supplies a controlled electrical current to a laser diode (34) for recording data swiftly onto a DVD (16). A plurality of thermometer code registers (52) respectively store numerical values. A current control register (58) receives a numerical value from one of the thermometer code registers (52). Serial data specifies a sequence in which individual thermometer code registers (52) supply values to the current control register (58) thereby causing the writing current circuit (42) to supply a particular electrical current waveform to the laser diode (34). A plurality of current sources (62) respectively receive a single output signal from the current control register (52) which activates or deactivates individual current sources (62) for supplying a particular quantity of current to the laser diode (34).Type: GrantFiled: January 13, 2005Date of Patent: August 4, 2009Assignee: Silicon Core Technology, Inc.Inventor: Eric Li
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Patent number: 7173325Abstract: Structures and techniques for mounting semiconductor dies are disclosed. In one embodiment, the invention includes a stack of printed wiring board assemblies that are connected via interconnection components. At least one of the printed wiring board assemblies includes an interposer substrate having a constraining layer that includes carbon.Type: GrantFiled: August 30, 2004Date of Patent: February 6, 2007Assignee: C-Core Technologies, Inc.Inventors: Kalu K. Vasoya, Bharat M. Mangrolia
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Patent number: 6420952Abstract: A planar transformer including a Faraday shield between primary and secondary windings. The Faraday shield is a conductive layer having low conductivity areas. The low conductivity areas may be almost any pattern. The Faraday shield and the windings of the planar transformer formed on a circuit board. A voltage source such as ground is connected to the Faraday shield.Type: GrantFiled: September 29, 1999Date of Patent: July 16, 2002Assignee: Core Technology Inc.Inventor: Jack A. Redilla
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Patent number: 6307524Abstract: A printed Yagi antenna of the present invention has a circuit board, a driven element having an impedance &OHgr;d and being printed on the circuit board, a director element printed on the circuit board, a reflector element printed on the circuit board, a microstrip transmission line, and a coaxial cable having and impedance &OHgr;c. The coaxial cable feeds the driven element via the miscrostrip transmission line and &OHgr;c is approximately equal to &OHgr;d. Further, the spacing between the reflector element, the driven element, and director elements are chosen so that an optimum balance is achieved between directional gain and performance sensitivity. The printed Yagi antenna has a partial folded driven element having a J shape which is grounded at the mid-point of the longest portion of the element. The configuration allows for a coaxial cable to be attached directly to the microstrip transmission line without the use of a matching network or balun.Type: GrantFiled: January 18, 2000Date of Patent: October 23, 2001Assignee: Core Technology, Inc.Inventor: Kent Britain
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Patent number: 6263215Abstract: The present invention relates to a novel use of cryoelectronic equipment to implement an extremely sensitive and stable receiver front end for UHF, microwave, and millimeter wave applications. The invention is particularly applicable to base station receivers in mobile radio systems, where the range and capacity of the systems are typically limited by the base station receiver sensitivity.Type: GrantFiled: September 22, 1999Date of Patent: July 17, 2001Assignee: Superconducting Core Technologies, Inc.Inventors: David O. Patton, Robert M. Yandrofski, Gerhard A. Koepf, Robert F. Arentz, Jerry Lynn Martin
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Patent number: 6208258Abstract: A circuit for detecting whether or not an AC voltage mains is providing an AC voltage above a predetermined point including a full wave bridge and voltage divider, a voltage detection circuit including a pair of transistors and a zener diode, an optical coupler including a light emitting diode (LED) and photo transistor, a comparator circuit for determining whether or not the AC voltage source has been below a predetermined voltage for a predetermined length of time including a comparator circuit such as a comparator or a FET.Type: GrantFiled: September 30, 1999Date of Patent: March 27, 2001Assignee: Core Technology, Inc.Inventor: Jack A. Redilla
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Patent number: 6096127Abstract: The present invention is directed to a method for forming dielectric thin films having substantially reduced electrical losses at microwave and millimeter wave frequencies relative to conventional dielectric thin films. The reduction in losses is realized by dramatically increasing the grain sizes of the dielectric films, thereby minimizing intergranular scattering of the microwave signal due to grain boundaries and point defects. The increase in grain size is realized by heating the film to a temperature at which the grains experience regrowth. The grain size of the films can be further increased by first depositing the films with an excess of one of the compoents, such that a highly mobile grain boundary phase is formed.Type: GrantFiled: February 28, 1997Date of Patent: August 1, 2000Assignee: Superconducting Core Technologies, Inc.Inventors: Duane Brian Dimos, Robert William Schwartz, Mark Victor Raymond, Husam Niman Al-Shareef, Carl Mueller, David Galt
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Patent number: 5990766Abstract: The tunable filters of the present invention incorporate tunable dielectric materials (e.g., bulk and thin film ferroelectric and paraelectric materials) in contact with segments of resonators that are at an RF voltage maximum to alter the pass band or stop band characteristic of an RF signal outputted by the filter. The biasing circuitry in contact with the tunable dielectric material can include components for inhibiting or retarding the coupling of RF energy to the biasing circuit.Type: GrantFiled: June 27, 1997Date of Patent: November 23, 1999Assignee: Superconducting Core Technologies, Inc.Inventors: Zhihang Zhang, Attila Weiser, Jr.
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Patent number: 5721194Abstract: The present invention relates to a tuneable fringe effect capacitor for conducting radio frequency energy. The capacitor includes a thin film of ferroelectric material, a pair of films of a conductive material deposited on the ferroelectric film with a gap between the films, and a substrate for the ferroelectric material and the conductive films. The capacitance value across the gap is varied by applying a voltage to the ferroelectric material and thereby altering the dielectric constant of the ferroelectric material.Type: GrantFiled: June 7, 1995Date of Patent: February 24, 1998Assignees: Superconducting Core Technologies, Inc., University Research CorporationInventors: Robert M. Yandrofski, John Charles Price, Frank Barnes, Allen M. Hermann, James Floyd Scott
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Patent number: 5694134Abstract: The disclosure relates to a phased array antenna for microwave and millimeter wave applications, using either microstrip line, coplanar waveguide, or other construction techniques incorporating a solid dielectric transmission line. A continuously variable phase delay structure which is used to control the beam pattern of the phased array antenna can be applied to the construction of resonant frequency tunable coplanar waveguide antennas and impedance tunable quarter-wave transformers. A thin film of barium strontium titanate (Ba.sub.x Sr.sub.1-x TiO.sub.3) or other nonlinear material such as PbZr.sub.x Ti.sub.1-x O.sub.3 (PZT), LiNbO.sub.3, etc. is deposited upon the coplanar waveguide, and/or the patch antenna element. The dielectric constant of the thin film can be made to vary significantly by applying a DC voltage to the thin film. The propagation constant of a transmission line is directly proportional to the square root of the effective dielectric constant (assuming a lossless dielectric).Type: GrantFiled: January 14, 1994Date of Patent: December 2, 1997Assignee: Superconducting Core Technologies, Inc.Inventor: Frank Barnes
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Patent number: 5656575Abstract: The present invention provides a superconducting device having a weak link junction with an angle at the grain boundary between the two superconductor crystals being variable. The angle at the junction is substantially equivalent to a vicinal angle for the substrate. Accordingly, the magnitude of the angle at the junction can be varied by varying the vicinal angle of the substrate. This result can be realized by using buffer layers of different compositions underlying the superconducting materials on either side of the weak link junction. Weak link junctions and reproducible properties are essential for a variety of electronic and magnetic sensing devices.Type: GrantFiled: February 13, 1995Date of Patent: August 12, 1997Assignee: Superconducting Core Technologies, Inc.Inventor: Carl H. Mueller
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Patent number: 5589845Abstract: The disclosure relates to ferroelectric and superconducting thin films used in combination to produce low-loss passive microwave and millimeter wave devices which are frequency tuneable. Various metal oxide superconducting and ferroelectric thin films can be deposited in numerous multilayer geometries via a variety of deposition techniques to produce devices which can manipulate microwave and millimeter wave signals through the application of voltage bias signals across the ferroelectric films. Numerous superconducting microwave and millimeter wave devices, including delay lines, phase shifters, resonators, oscillators, filters, electrically-small antennas, half-loop antennas, directional couplers, patch antennas, and various radiative gratings, are made frequency-tuneable by utilizing voltage-tuneable capacitor structures fabricated from voltage-biased ferroelectric thin films.Type: GrantFiled: June 7, 1995Date of Patent: December 31, 1996Assignee: Superconducting Core Technologies, Inc.Inventors: Robert M. Yandrofski, John C. Price, Frank Barnes, Allen M. Hermann, James F. Scott
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Patent number: 5207336Abstract: A support bar for a storage rack includes a first downwardly facing u-shaped channel forming two sidewalls each having a lower edge at the open side of the channel. A second upwardly facing u-shaped channel faces the opposite direction of the first channel, and is formed as an extension of the lower edge of one of the sidewalls so that the two channels form an s-shape. A low friction material is disposed in the second channel, the material having a channel formed therein. A flange is formed as an extension of the lower edge of the other of the sidewalls, the flange extending upwardly away from the lower edge.Type: GrantFiled: May 20, 1992Date of Patent: May 4, 1993Assignee: Core Technologies, Inc.Inventor: Thomas C. Tyler
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Patent number: D398689Type: GrantFiled: December 22, 1995Date of Patent: September 22, 1998Assignee: Advanced Core Technology, Inc.Inventors: Ronald Charles Cooper, Mark Nicholas Cooper