Patents by Inventor Koenraad F. Van Schuylenbergh
Koenraad F. Van Schuylenbergh 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).
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Publication number: 20140172047Abstract: The invention relates to an implantable pulse generator (100), IPG, for stimulation of a neurological cellular mass comprising a casing (2) that at least partially encloses the pulse generating module (PGM) (4) and that is transparent to radio-frequency electromagnetic fields, or wherein the pulse generating module (4) includes a controller circuit (18) provided as two or more circuit boards (20, 22), co-operatively connected, one such circuit board being an interface circuit board, where at least one component of the controller circuit (8) is located on the interface circuit board (20), and feed through wires for connector block (6) are connected thereto (20), and one of the opposing surfaces of the interface circuit board (20) is aligned over apertures (48, 50, 52) in the PGM housing for the feed through wires.Type: ApplicationFiled: December 16, 2010Publication date: June 19, 2014Applicant: SYNAPTIX N.V.Inventors: Hartmut Spitaels, Koenraad F. Van Schuylenbergh, Thomas Kaiser
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Publication number: 20100187695Abstract: A structure has at least one structure component formed of a first material residing on a substrate, such that the structure is out of a plane of the substrate. A first coating of a second material then coats the structure. A second coating of a non-oxidizing material coats the structure at a thickness less than a thickness of the second material.Type: ApplicationFiled: March 26, 2010Publication date: July 29, 2010Applicant: PALO ALTO RESEARCH CENTER INCORPORATEDInventors: CHRISTOPHER L. CHUA, THOMAS HANTSCHEL, DAVID K. FORK, KOENRAAD F. VAN SCHUYLENBERGH, YAN YAN YANG
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Patent number: 7713388Abstract: A structure has at least one structure component formed of a first material residing on a substrate, such that the structure is out of a plane of the substrate. A first coating of a second material then coats the structure. A second coating of a non-oxidizing material coats the structure at a thickness less than a thickness of the second material.Type: GrantFiled: February 27, 2006Date of Patent: May 11, 2010Assignee: Palo Alto Research Center IncorporatedInventors: Christopher L. Chua, Thomas Hantschel, David K. Fork, Koenraad F. Van Schuylenbergh, Yan Yan Yang
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Patent number: 7453339Abstract: In one aspect, an electromechanical switching device is illustrated. The electromechanical switching device includes a relay with at least one first conductive portion, at least one second conductive portion, and at least one actuation component that moves the at least one first conductive portion and the at least one second conductive portion into and out of conductive contact. The at least one first conductive portion includes a conductive stationary end coupled to a substrate and a conductive free-floating end. The at least one actuation component includes an actuation stationary end coupled to the substrate and an actuation free-floating end. The actuation free floating end, when the at least one actuation component is not energized, curls, which curls the conductive free floating end into or out of conductive contact with the at least one second conductive portion.Type: GrantFiled: December 2, 2005Date of Patent: November 18, 2008Assignee: Palo Alto Research Center IncorporatedInventors: David K. Fork, Thomas Hantschel, Koenraad F. Van Schuylenbergh, Jeng Ping Lu
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Publication number: 20080268669Abstract: A method for mounting the micro spring structures onto cables or contact structures includes forming a spring island having an “upside-down” stress bias on a first release material layer or directly on a substrate, forming a second release material over at least a portion of the spring island, and then forming a base structure over the second release material layer. The micro spring structure is then transferred in an unreleased state, inverted such that the base structure contacts a surface of a selected apparatus, and then secured (e.g., using solder reflow techniques) such that the micro spring structure becomes attached to the apparatus. The spring structure is then released by etching or otherwise removing the release material layer(s).Type: ApplicationFiled: July 3, 2008Publication date: October 30, 2008Applicant: Palo Alto Research Center IncorporatedInventors: Koenraad F. Van Schuylenbergh, Thomas Hantschel
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Patent number: 7426117Abstract: An integrated circuit (IC) die/substrate assembly includes an IC die and a substrate that are electrically coupled through an interconnect formed on the IC die. The IC die/substrate assembly further includes at least one coupling that facilitates maintaining an IC die/substrate gap definition between the IC die and the substrate.Type: GrantFiled: December 21, 2005Date of Patent: September 16, 2008Assignee: Xerox CorporationInventors: Koenraad F. Van Schuylenbergh, Eric Peeters, David K. Fork, Thomas Hantschel
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Patent number: 7410590Abstract: A method for mounting the micro spring structures onto cables or contact structures includes forming a spring island having an “upside-down” stress bias on a first release material layer or directly on a substrate, forming a second release material over at least a portion of the spring island, and then forming a base structure over the second release material layer. The micro spring structure is then transferred in an unreleased state, inverted such that the base structure contacts a surface of a selected apparatus, and then secured (e.g., using solder reflow techniques) such that the micro spring structure becomes attached to the apparatus. The spring structure is then released by etching or otherwise removing the release material layer(s).Type: GrantFiled: December 19, 2003Date of Patent: August 12, 2008Assignee: Palo Alto Research Center IncorporatedInventors: Koenraad F. Van Schuylenbergh, Thomas Hantschel
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Patent number: 7293996Abstract: A curved transmission-line spring structure formed by self-bending materials (e.g., stress-engineered materials, intermetallic compounds and/or bimorphs) that are layered to form a stripline or microstrip transmission line. A dielectric layer is sandwiched between two conductive layers, which form the signal and ground lines of the structure. The various layers are etched to form an elongated spring structure, and then one end of the spring structure is released from the underlying substrate, causing the tip of the released end to bend away from the substrate for contact with a second device. One or both of the conductive layers is fabricated using self-bending spring metals to facilitate the bending process, and plated metal is utilized for conductivity. Alternatively, or in addition, the dielectric layer is formed using a stress-engineered dielectric material. Two-tip and three-tip structures are used to facilitate connection of both the ground and signal lines.Type: GrantFiled: August 8, 2006Date of Patent: November 13, 2007Assignee: Palo Alto Research Center IncorporatedInventors: Koenraad F. Van Schuylenbergh, Christopher L. Chua, David K. Fork
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Patent number: 7284324Abstract: An out-of-plane micro-structure which can be used for on-chip integration of high-Q inductors and transformers places the magnetic field direction parallel to the substrate plane without requiring high aspect ratio processing. The photolithographically patterned coil structure includes an elastic member having an intrinsic stress profile. The intrinsic stress profile biases a free portion away from the substrate forming a loop winding. An anchor portion remains fixed to the substrate. The free portion end becomes a second anchor portion which may be connected to the substrate via soldering or plating. A series of individual coil structures can be joined via their anchor portions to form inductors and transformers.Type: GrantFiled: August 4, 2005Date of Patent: October 23, 2007Assignee: Xerox CorporationInventors: Christopher L. Chua, Francesco Lemmi, Koenraad F. Van Schuylenbergh, Jeng Ping Lu, David K. Fork, Eric Peeters, Decai Sun, Donald L. Smith, Linda T. Romano
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Patent number: 7160121Abstract: An electrical interconnect structure that includes a spring portion that extends out of a plane. The electrical interconnect including curved regions to improve the lateral compliance of the interconnect. The curved region may be incorporated into a release region of the spring. The release region may include either or both an uplifted region and a planar region. The curves in the release region are arranged to improve the spring contact with a mating surface and also improve lateral compliance compared to prior art spring designs.Type: GrantFiled: December 15, 2003Date of Patent: January 9, 2007Assignee: Palo Alto Research Center IncorporatedInventors: Koenraad F. Van Schuylenbergh, Christopher L. Chua, David K. Fork
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Patent number: 7141734Abstract: An alternating current (AC) solar power apparatus includes a photovoltaic cell and a circuit or device for causing a signal generated by the photovoltaic cell to oscillate in a negative differential resistance range, thereby producing an AC output voltage. The photovoltaic cell exhibits negative differential resistance in its current/voltage (IV) curve in the presence of high flux illumination, wherein when the output voltage is within a negative differential resistance range, an incremental increase in the output voltage produces an associated decrease in generated current. By connecting the terminals of the photovoltaic cell to a resonator (e.g., an inductive-capacitive circuit) or other device that produces oscillation within the negative differential resistance range, the photovoltaic cell is caused to produce AC power.Type: GrantFiled: December 20, 2005Date of Patent: November 28, 2006Assignee: Palo Alto Research Center IncorporatedInventors: David K. Fork, Koenraad F. Van Schuylenbergh
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Patent number: 7139024Abstract: An imager circuit includes an array of pixels, each pixel including a sensor (photodiode) connected to an input terminal of a comparator. The comparators of each pixel row have output terminals connected to a latch. A counter generates a sequence of digital values that are transmitted to a digital-to-analog converter (DAC) and to the latch of each row. The DAC generates a ramp voltage that is transmitted to a second input terminal of each pixel's comparator. The comparators of a selected pixel column are enabled to generate output signals when the ramp voltage equals each pixel's voltage, causing the associated latches to capture the current digital values. The comparators are formed such that each pixel row shares a cascode mirror circuit that detects differential currents in data line pairs connected to each pixel in that row.Type: GrantFiled: July 26, 2002Date of Patent: November 21, 2006Assignee: Xerox CorporationInventors: Jeng Ping Lu, Koenraad F. Van Schuylenbergh
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Patent number: 7121859Abstract: A data transmission interconnect assembly capable of transmission speeds in excess of 40 Gbps in which, for example, a line-card is detachably coupled to a backplane using flexible flat cables that are bent to provide a continuous, smooth curve between the connected boards, and connected by a connection apparatus that employs cable-to-cable interface members that are transparent to the transmitted signal waves. Microspring interface members are formed on the contact structure pressed against the cables to provide interface arrangements that are smaller than a wavelength of the transmitted signal. A connector apparatus uses a cam mechanism to align the cables, and then to press the contact structure, having the microspring interface members formed thereon, against the cables. An alterative contact structure uses anisotropic conductive film.Type: GrantFiled: September 13, 2005Date of Patent: October 17, 2006Assignee: Palo Alto Research Center IncorporatedInventors: Koenraad F. Van Schuylenbergh, Armin R. Völkel, Thomas H. DiStefano, Michel A. Rosa, David K. Fork, Eugene M. Chow, Meng H. Lean
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Patent number: 7015584Abstract: Lithographically defined and etched spring structures are produced by various methods such that they avoid the formation of a plated metal wedge on an underside of the spring structure after release. A post is utilized to offset the spring from an underlying substrate by a distance greater than the thickness of the plated metal. A trench is etched into the substrate below the spring to provide clearance during deflection of the spring. Another spring includes a knee (bend) that provides the necessary clearance during deflection. A plating process is limited to the upper side of another spring. A released spring is used as a shadow mask for patterning resist that prevents wedge formation during plating.Type: GrantFiled: July 8, 2003Date of Patent: March 21, 2006Assignee: Xerox CorporationInventors: Eugene M. Chow, David K. Fork, Thomas Hantschel, Koenraad F. Van Schuylenbergh, Christopher L. Chua
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Patent number: 7000315Abstract: An out-of-plane micro-structure which can be used for on-chip integration of high-Q inductors and transformers places the magnetic field direction parallel to the substrate plane without requiring high aspect ratio processing. The photolithographically patterned coil structure includes an elastic member having an intrinsic stress profile. The intrinsic stress profile biases a free portion away from the substrate forming a loop winding. An anchor portion remains fixed to the substrate. The free portion end becomes a second anchor portion which may be connected to the substrate via soldering or plating. A series of individual coil structures can be joined via their anchor portions to form inductors and transformers.Type: GrantFiled: March 11, 2003Date of Patent: February 21, 2006Assignee: Xerox CorporationInventors: Christopher L. Chua, Francesco Lemmi, Koenraad F. Van Schuylenbergh, Jeng Ping Lu, David K. Fork, Eric Peeters, Decai Sun, Donald L. Smith, Linda T. Romano
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Patent number: 6966784Abstract: A data transmission interconnect assembly (e.g., a router) capable of transmission speeds in excess of 40 Gbps in which a line-card is detachably coupled to a backplane using flexible flat cables that are bent to provide a continuous, smooth curve between the connected boards, and connected by a connection apparatus that employs cable-to-cable interface members that are transparent to the transmitted signal waves. Microspring contact structures are formed on the cables, or on a contact structure pressed against the cables, to provide interface arrangements that are smaller than a wavelength of the transmitted signal. A connector apparatus uses a cam mechanism to align the cables, and then to press a contact structure, having micro spring interface members formed thereon, against the cables. An alterative contact structure uses anisotropic conductive film.Type: GrantFiled: December 19, 2003Date of Patent: November 22, 2005Assignee: Palo Alto Research Center IncorporatedInventors: Koenraad F. Van Schuylenbergh, Armin R. Völkel, Thomas H. DiStefano, Michel A. Rosa, David K. Fork, Eugene M. Chow, Meng H. Lean
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Patent number: 6947291Abstract: An out-of-plane micro-structure which can be used for on-chip integration of high-Q inductors and transformers places the magnetic field direction parallel to the substrate plane without requiring high aspect ratio processing. The photolithographically patterned coil structure includes an elastic member having an intrinsic stress profile. The intrinsic stress profile biases a free portion away from the substrate forming a loop winding. An anchor portion remains fixed to the substrate. The free portion end becomes a second anchor portion which may be connected to the substrate via soldering or plating. A series of individual coil structures can be joined via their anchor portions to form inductors and transformers.Type: GrantFiled: May 23, 2002Date of Patent: September 20, 2005Assignee: Xerox CorporationInventors: Christopher L. Chua, Francesco Lemmi, Koenraad F. Van Schuylenbergh, Jeng Ping Lu, David K. Fork, Eric Peeters, Decai Sun, Donald L. Smith, Linda T. Romano
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Patent number: 6922327Abstract: A new type of high-Q variable capacitor includes a substrate, a first electrically conductive layer fixed to the substrate, a dielectric layer fixed to a portion of the electrically conductive layer, and a second electrically conductive layer having an anchor portion and a free portion. The anchor portion is fixed to the dielectric layer and the free portion is initially fixed to the dielectric layer, but is released from the dielectric layer to become separated from the dielectric layer, and wherein an inherent stress profile in the second electrically conductive layer biases the free portion away from the dielectric layer. When a bias voltage is applied between the first electrically conductive layer and the second electrically conductive layer, electrostatic forces in the free portion bend the free portion towards the first electrically conductive layer, thereby increasing the capacitance of the capacitor.Type: GrantFiled: October 11, 2001Date of Patent: July 26, 2005Assignee: Xerox CorporationInventors: Christopher L. Chua, Eric Peeters, Koenraad F. Van Schuylenbergh, Donald L. Smith
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Patent number: 6915267Abstract: The present invention encompasses a control system and method for systems of producing and consuming units. The method of the invention includes the steps of setting each producing unit to have an output responsive to an analog signal representative of a market price, and connecting each producing unit to a marketwire, with the changes in the analog signal on the marketwire representing changes in the market price resulting from inputs from the consuming units and the output response of each producing unit.Type: GrantFiled: September 24, 1999Date of Patent: July 5, 2005Assignee: Xerox CorporationInventors: Warren B. Jackson, David K. Biegelsen, Tad H. Hogg, Chee We Ng, Andrew A. Berlin, Koenraad F. Van Schuylenbergh, Carlos Mochon
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Patent number: 6856225Abstract: An out-of-plane micro-structure which can be used for on-chip integration of high-Q inductors and transformers places the magnetic field direction parallel to the substrate plane without requiring high aspect ratio processing. The photolithographically patterned coil structure includes an elastic member having an intrinsic stress profile. The intrinsic stress profile biases a free portion away from the substrate forming a loop winding. An anchor portion remains fixed to the substrate. The free portion end becomes a second anchor portion which may be connected to the substrate via soldering or plating. A series of individual coil structures can be joined via their anchor portions to form inductors and transformers.Type: GrantFiled: May 17, 2000Date of Patent: February 15, 2005Assignee: Xerox CorporationInventors: Christopher L. Chua, Francesco Lemmi, Koenraad F. Van Schuylenbergh, Jeng Ping Lu, David K. Fork, Eric Peeters, Decai Sun, Donald L. Smith, Linda T. Romano