Patents by Inventor John Bowers
John Bowers 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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Patent number: 9764104Abstract: An fluid sensor to activate and control various components of an inhalation device. The fluid sensor includes an acoustic element, such as a microphone, positioned within said inhalation device to detect fluid within the device and output signals representative of the frequency, direction and/or amplitude of the fluid. These signals control and activate an electrostatic plate and/or a high frequency vibrator.Type: GrantFiled: September 15, 2015Date of Patent: September 19, 2017Assignee: MICRODOSE THERAPEUTX, INC.Inventors: Anand V. Gumaste, John Bowers
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Publication number: 20170256941Abstract: For analytic-based control of energy consumption, an appliance module receives an appliance identifier of an appliance connected to a power outlet, a selection module selects a power model for the power outlet based on the appliance identifier, the power model designating times that the power outlet is to be powered and times that the power outlet is to be unpowered, a usage module receives energy usage data for a power outlet, a presence module receives user presence data for a locale containing the power outlet, a update module modifies a power model for the power outlet based on the energy usage data and the user presence data, and a power control module selectively provides electrical power to the power outlet according to the power schedule.Type: ApplicationFiled: March 1, 2016Publication date: September 7, 2017Inventors: John A. Bowers, Andrew Laforteza, Ryan D. McNair, Alvaro Sanchez-Cifuentes
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Publication number: 20170224490Abstract: Embodiments described herein include devices, systems, and methods for reducing the distance between two locations in tissue. In one embodiment, an anchor may reside within the right ventricle in engagement with the septum. A tension member may extend from that anchor through the septum and an exterior wall of the left ventricle to a second anchor disposed along a surface of the heart. Perforating the exterior wall and the septum from an epicardial approach can provide control over the reshaping of the ventricular chamber. Guiding deployment of the implant from along the epicardial access path and another access path into and through the right ventricle provides control over the movement of the anchor within the ventricle. The joined epicardial pathway and right atrial pathway allows the tension member to be advanced into the heart through the right atrium and pulled into engagement along the epicardial access path.Type: ApplicationFiled: April 24, 2017Publication date: August 10, 2017Applicant: BioVentrix, Inc.Inventors: Kevin Van Bladel, Lon Annest, Murray Sheldon, Ernie Heflin, Andrew Wechsler, John Stiggelbout, Rovil Arcia, John Bower
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Patent number: 9662212Abstract: Embodiments described herein include devices, systems, and methods for reducing the distance between two locations in tissue. In one embodiment, an anchor may reside within the right ventricle in engagement with the septum. A tension member may extend from that anchor through the septum and an exterior wall of the left ventricle to a second anchor disposed along a surface of the heart. Perforating the exterior wall and the septum from an epicardial approach can provide control over the reshaping of the ventricular chamber. Guiding deployment of the implant from along the epicardial access path and another access path into and through the right ventricle provides control over the movement of the anchor within the ventricle. The joined epicardial pathway and right atrial pathway allows the tension member to be advanced into the heart through the right atrium and pulled into engagement along the epicardial access path.Type: GrantFiled: April 15, 2016Date of Patent: May 30, 2017Assignee: BioVentrix, Inc.Inventors: Kevin Van Bladel, Lon Annest, Murray Sheldon, Ernie Heflin, Andrew Wechsler, John Stiggelbout, Rovil Arcia, John Bower
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Ultra-broadband photonic integrated circuit platform and ultra-broadband photonic integrated circuit
Patent number: 9612398Abstract: An ultra-broadband photonic integrated circuit platform that combines at least two types of waveguides that each transmit in different, but overlapping, spectral bands on a single chip. By combining the multiple waveguides, the bandwidth of the platform can be extended beyond the bandwidth of either waveguide alone. In an exemplary embodiment, an ultra-broadband photonic integrated circuit includes a nitride-on-insulator (NOI) waveguide configured to transmit optical beams in a first spectral band and a silicon-on-nitride-on-insulator (SONOI) waveguide configured to transmit optical beams in a second band, where the same material serves as the core material in the NOI waveguide and as the cladding material in the SONOI waveguide. In some embodiments, light-emitting devices are bonded to an upper surface of the waveguides. In some embodiments, the circuit includes beam-combining elements so that a single beam combining all of the input wavelengths is output from the circuit.Type: GrantFiled: October 16, 2015Date of Patent: April 4, 2017Assignee: The United States of America, as represented by the Secretary of the NavyInventors: Igor Vurgaftman, Jerry R. Meyer, Martijn Heck, Jock Bovington, Alexander Spott, Eric Stanton, John Bowers -
Publication number: 20170052900Abstract: Efficiently generating selection masks for row selections within indexed address spaces is disclosed. In this regard, in one aspect, an indexed array circuit is provided, comprising a start indicator that indicates a start indexed array row of a row selection, and an end indicator that indicates an end indexed array row of the row selection. The indexed array circuit further comprises a plurality of indexed array rows ordered in a logical sequence, each comprising a row-level compare circuit. Each row-level compare circuit is configured to generate a selection mask indicator based on a first parallel comparison of subsets of bits of a logical address of the indexed array row with corresponding subsets of bits of the start indicator, and a second parallel comparison of subsets of bits of the logical address of the indexed array row with corresponding subsets of bits of the end indicator.Type: ApplicationFiled: March 31, 2016Publication date: February 23, 2017Inventors: David Paul Hoff, Milind Ram Kulkarni, Benjamin John Bowers
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Publication number: 20160338835Abstract: Embodiments described herein include devices, systems, and methods for reducing the distance between two locations in tissue. In one embodiment, an anchor may reside within the right ventricle in engagement with the septum. A tension member may extend from that anchor through the septum and an exterior wall of the left ventricle to a second anchor disposed along a surface of the heart. Perforating the exterior wall and the septum from an epicardial approach can provide control over the reshaping of the ventricular chamber. Guiding deployment of the implant from along the epicardial access path and another access path into and through the right ventricle provides control over the movement of the anchor within the ventricle. The joined epicardial pathway and right atrial pathway allows the tension member to be advanced into the heart through the right atrium and pulled into engagement along the epicardial access path.Type: ApplicationFiled: April 15, 2016Publication date: November 24, 2016Applicant: BioVentrix, Inc.Inventors: Kevin Van Bladel, Lon Annest, Murray Sheldon, Ernie Heflin, Andrew Wechsler, John Stiggelbout, Rovil Arcia, John Bower
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Patent number: 9320513Abstract: Embodiments described include devices, systems, and methods for reducing the distance between two locations in tissue. An anchor may reside within the right ventricle in engagement with the septum. A tension member may extend from that anchor through the septum and an exterior wall of the left ventricle to a second anchor disposed along a surface of the heart. Perforating the exterior wall and the septum from an epicardial approach can provide control over the reshaping of the ventricular chamber. Guiding deployment of the implant from along the epicardial access path and another access path into and through the right ventricle provides control over movement of the anchor within the ventricle. The joined epicardial pathway and right atrial pathway allows the tension member to be advanced into the heart through the right atrium and pulled into engagement along the epicardial access path.Type: GrantFiled: March 13, 2015Date of Patent: April 26, 2016Assignee: BioVentrix, Inc.Inventors: Kevin Van Bladel, Lon Annest, Murray Sheldon, Ernie Heflin, Andrew Wechsler, John Stiggelbout, Rovil Arcia, John Bower
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Ultra-Broadband Photonic Integrated Circuit Platform and Ultra-Broadband Photonic Integrated Circuit
Publication number: 20160109655Abstract: An ultra-broadband photonic integrated circuit platform that combines at least two types of waveguides that each transmit in different, but overlapping, spectral bands on a single chip. By combining the multiple waveguides, the bandwidth of the platform can be extended beyond the bandwidth of either waveguide alone. In an exemplary embodiment, an ultra-broadband photonic integrated circuit includes a nitride-on-insulator (NOI) waveguide configured to transmit optical beams in a first spectral band and a silicon-on-nitride-on-insulator (SONOI) waveguide configured to transmit optical beams in a second band, where the same material serves as the core material in the NOI waveguide and as the cladding material in the SONOI waveguide. In some embodiments, light-emitting devices are bonded to an upper surface of the waveguides. In some embodiments, the circuit includes beam-combining elements so that a single beam combining all of the input wavelengths is output from the circuit.Type: ApplicationFiled: October 16, 2015Publication date: April 21, 2016Applicant: The Government of the United States of America, as represented by the Secretary of the NavyInventors: Igor Vurgaftman, Jerry R. Meyer, Martijn Heck, Jock Bovington, Alexander Spott, Eric Stanton, John Bowers -
Publication number: 20160095600Abstract: Medical devices, systems, and methods reduce the distance between two locations in tissue in a minimally invasive manner, often for treatment of congestive heart failure. In one embodiment, an anchor of an implant system may, when the implant system is fully deployed, reside within the right ventricle in engagement with the ventricular septum. A tension member may extend from that anchor through the septum and an exterior wall of the left ventricle to a second anchor disposed along an epicardial surface of the heart. Deployment of the anchor within the right ventricle may be performed by inserting a guidewire through the septal wall into the right ventricle. The anchor may be inserted into the right ventricle over the guidewire and through a lumen of a delivery catheter. Delivering the anchor over the guidewire may provide improved control in the delivery and placement of the anchor within the right ventricle.Type: ApplicationFiled: November 2, 2015Publication date: April 7, 2016Inventors: Lon Annest, Murray Sheldon, Kevin Van Bladel, Ernie Heflin, William Butler, Andrew Wechsler, John Bower, Rovil Arcia
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Patent number: 9306570Abstract: At least one configurable circuit cell with a continuous active region includes at least one center subcell, a first-side subcell, and a second-side subcell. Each center subcell includes first and second pMOS transistors and first and second nMOS transistors. The first pMOS transistor has a first-pMOS-transistor gate, source, and drain. The first-pMOS-transistor source is coupled to a first voltage source. The second pMOS transistor has a second-pMOS-transistor gate, source, and drain. The second-pMOS-transistor source is coupled to the first voltage source. The first-pMOS-transistor drain and the second-pMOS-transistor drain are a same drain. The first nMOS transistor has a first-nMOS-transistor gate, source, and drain. The first-nMOS-transistor source is coupled to a second voltage source. The second nMOS transistor has a second-nMOS-transistor gate, source, and drain. The second-nMOS-transistor source is coupled to the second voltage source.Type: GrantFiled: January 22, 2015Date of Patent: April 5, 2016Assignee: QUALCOMM IncorporatedInventors: Satyanarayana Sahu, Joshua Lance Puckett, Ohsang Kwon, William James Goodall, III, Benjamin John Bowers
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Publication number: 20160089132Abstract: Medical devices, systems, and methods reduce the distance between two locations in tissue, often for treatment of congestive heart failure. In one embodiment an anchor of an implant system may reside within the right ventricle in engagement with the ventricular septum. A tension member may extend from that anchor through the septum and an exterior wall of the left ventricle to a second anchor disposed along an epicardial surface. Deployment of the anchor within the right ventricle may be performed by inserting a guidewire through the septal wall into the right ventricle. The anchor may be inserted into the right ventricle over the guidewire and through a lumen of a catheter. An anchor force may be applied within a desired range to secure the anchors about the septum and epicardial surface. The anchor force may inhibit migration of the anchors relative to the septum and epicardial surface.Type: ApplicationFiled: November 2, 2015Publication date: March 31, 2016Inventors: William Butler, Kevin Van Bladel, Ernie Heflin, Lon Annest, Rovil Arcia, John Bower
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Patent number: 9252118Abstract: A semiconductor metallurgy includes a ratio of germanium and palladium that provides low contact resistance to both n-type material and p-type material. The metallurgy allows for a contact that does not include gold and is compatible with mass-production CMOS techniques. The ratio of germanium and palladium can be achieved by stacking layers of the materials and annealing the stack, or simultaneously depositing the germanium and palladium on the material where the contact is to be manufactured.Type: GrantFiled: December 22, 2011Date of Patent: February 2, 2016Assignees: INTEL CORPORATION, THE REGENTS OF THE UNIVERSITY OF CALIFORNIAInventors: Siddharth Jain, John Bowers, Matthew Sysak, John Heck, Ran Feldesh, Richard Jones, Yoel Shetrit, Michael Geva
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Publication number: 20160001021Abstract: An fluid sensor to activate and control various components of an inhalation device. The fluid sensor includes an acoustic element, such as a microphone, positioned within said inhalation device to detect fluid within the device and output signals representative of the frequency, direction and/or amplitude of the fluid. These signals control and activate an electrostatic plate and/or a high frequency vibrator.Type: ApplicationFiled: September 15, 2015Publication date: January 7, 2016Inventors: Anand V. Gumaste, John Bowers
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Patent number: 9173712Abstract: Medical devices, systems, and methods reduce the distance between two locations in tissue in a minimally invasive manner, often for treatment of congestive heart failure. In one embodiment, an anchor of an implant system may, when the implant system is fully deployed, reside within the right ventricle in engagement with the ventricular septum. A tension member may extend from that anchor through the septum and an exterior wall of the left ventricle to a second anchor disposed along an epicardial surface of the heart. Deployment of the anchor within the right ventricle may be performed by inserting a guidewire through the septal wall into the right ventricle. The anchor may be inserted into the right ventricle over the guidewire and through a lumen of a delivery catheter. Delivering the anchor over the guidewire may provide improved control in the delivery and placement of the anchor within the right ventricle.Type: GrantFiled: September 30, 2012Date of Patent: November 3, 2015Assignee: BioVentrix, Inc.Inventors: Lon Annest, Murray Sheldon, Kevin Van Bladel, Ernie Heflin, William Butler, Andrew Wechsler, John Bower, Rovil Arcia
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Patent number: 9173711Abstract: Medical devices, systems, and methods reduce the distance between two locations in tissue, often for treatment of congestive heart failure. In one embodiment an anchor of an implant system may reside within the right ventricle in engagement with the ventricular septum. A tension member may extend from that anchor through the septum and an exterior wall of the left ventricle to a second anchor disposed along an epicardial surface. Deployment of the anchor within the right ventricle may be performed by inserting a guidewire through the septal wall into the right ventricle. The anchor may be inserted into the right ventricle over the guidewire and through a lumen of a catheter. An anchor force may be applied within a desired range to secure the anchors about the septum and epicardial surface. The anchor force may inhibit migration of the anchors relative to the septum and epicardial surface.Type: GrantFiled: September 30, 2012Date of Patent: November 3, 2015Assignee: BioVentrix, Inc.Inventors: William Butler, Kevin Van Bladel, Ernie Heflin, Lon Annest, Rovil Arcia, John Bower
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Patent number: 9162031Abstract: An fluid sensor to activate and control various components of an inhalation device. The fluid sensor includes an acoustic element, such as a microphone, positioned within said inhalation device to detect fluid within the device and output signals representative of the frequency, direction and/or amplitude of the fluid. These signals control and activate an electrostatic plate and/or a high frequency vibrator.Type: GrantFiled: June 7, 2013Date of Patent: October 20, 2015Assignee: MICRODOSE THERAPEUTX, INC.Inventors: Anand V. Gumaste, John Bowers
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Publication number: 20150282802Abstract: Embodiments described herein include devices, systems, and methods for reducing the distance between two locations in tissue. In one embodiment, an anchor may reside within the right ventricle in engagement with the septum. A tension member may extend from that anchor through the septum and an exterior wall of the left ventricle to a second anchor disposed along a surface of the heart. Perforating the exterior wall and the septum from an epicardial approach can provide control over the reshaping of the ventricular chamber. Guiding deployment of the implant from along the epicardial access path and another access path into and through the right ventricle provides control over the movement of the anchor within the ventricle. The joined epicardial pathway and right atrial pathway allows the tension member to be advanced into the heart through the right atrium and pulled into engagement along the epicardial access path.Type: ApplicationFiled: March 13, 2015Publication date: October 8, 2015Inventors: Kevin Van Bladel, Lon Annest, Murray Sheldon, Ernie Heflin, Andrew Wechsler, John Stiggelbout, Rovil Arcia, John Bower
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Patent number: 9070551Abstract: A library of cells for designing an integrated circuit, the library comprises continuous diffusion compatible (CDC) cells. A CDC cell includes a p-doped diffusion region electrically connected to a supply rail and continuous from the left edge to the right edge of the CDC cell; a first polysilicon gate disposed above the p-doped diffusion region and electrically connected to the p-doped diffusion region; an n-doped diffusion region electrically connected to a ground rail and continuous from the left edge to the right edge; a second polysilicon gate disposed above the n-doped diffusion region and electrically connected to the n-doped diffusion region; a left floating polysilicon gate disposed over the p-doped and n-doped diffusion regions and proximal to the left edge; and a right floating polysilicon gate disposed over the p-doped and n-doped diffusion regions and proximal to the right edge.Type: GrantFiled: August 23, 2013Date of Patent: June 30, 2015Assignee: Qualcomm IncorporatedInventors: Benjamin John Bowers, James W. Hayward, Charanya Gopal, Gregory Christopher Burda, Robert J. Bucki, Chock H. Gan, Giridhar Nallapati, Matthew D. Youngblood, William R. Flederbach
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Patent number: 8979750Abstract: Embodiments described herein include devices, systems, and methods for reducing the distance between two locations in tissue. In one embodiment, an anchor may reside within the right ventricle in engagement with the septum. A tension member may extend from that anchor through the septum and an exterior wall of the left ventricle to a second anchor disposed along a surface of the heart. Perforating the exterior wall and the septum from an epicardial approach can provide control over the reshaping of the ventricular chamber. Guiding deployment of the implant from along the epicardial access path and another access path into and through the right ventricle provides control over the movement of the anchor within the ventricle. The joined epicardial pathway and right atrial pathway allows the tension member to be advanced into the heart through the right atrium and pulled into engagement along the epicardial access path.Type: GrantFiled: September 30, 2012Date of Patent: March 17, 2015Assignee: BioVentrix, Inc.Inventors: Kevin Van Bladel, Lon Annest, Murray Sheldon, Ernie Heflin, Andrew Wechsler, John Stiggelbout, Rovil Arcia, John Bower