Patents by Inventor Nathan R. Kane
Nathan R. Kane 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).
-
Patent number: 10205718Abstract: The disclosed embodiments provide a system that authenticates a user. During operation, the system obtains a request to transfer an authentication of the user on a first electronic device to a second electronic device. Next, the system enables, in response to the request, an authentication mechanism for transferring the authentication of the user from the first electronic device to the second electronic device. Upon detecting use of the authentication mechanism on the first electronic device or the second electronic device, the system authenticates the user on the second electronic device without requiring authentication credentials for the user from the second electronic device.Type: GrantFiled: September 16, 2014Date of Patent: February 12, 2019Assignee: Intuit Inc.Inventors: Tony Chang, Nathan R. Kane, Morgan DeBaun, Brendan D. McDonald
-
Publication number: 20170052422Abstract: A backplane for use in an electro-optic display comprises a patterned metal foil having a plurality of apertures extending therethrough, coated on at least side with an insulating polymeric material and having a plurality of thin film electronic devices provided on the insulating polymeric material.Type: ApplicationFiled: November 4, 2016Publication date: February 23, 2017Inventors: Peter T. Kazlas, Joanna F. Au, Yu Chen, Nathan R. Kane
-
Patent number: 8389381Abstract: A non-linear element is formed on a flexible substrate by securing the substrate to a rigid carrier, forming the non-linear element, and then separating the flexible substrate from the carrier. The process allows flexible substrates to be processed in a conventional fab intended to process rigid substrates. In a second method, a transistor is formed on a insulating substrate by forming gate electrodes, depositing a dielectric layer, a semiconductor layer and a conductive layer, patterning the conductive layer to form source, drain and pixel electrodes, covering the channel region of the resultant transistor with an etch-resistant material and etching using the etch-resistant material and the conductive layer as a mask, the etching extending substantially through the semiconductor layer between adjacent transistors.Type: GrantFiled: June 29, 2010Date of Patent: March 5, 2013Assignee: E Ink CorporationInventors: Karl R. Amundson, Guy M. Danner, Gregg M. Duthaler, Peter T. Kazlas, Yu Chen, Kevin L. Denis, Nathan R. Kane, Andrew P. Ritenour
-
Publication number: 20110140744Abstract: A backplane for use in an electro-optic display comprises a patterned metal foil having a plurality of apertures extending therethrough, coated on at least side with an insulating polymeric material and having a plurality of thin film electronic devices provided on the insulating polymeric material.Type: ApplicationFiled: January 10, 2011Publication date: June 16, 2011Applicant: E INK CORPORATIONInventors: Peter T. Kazlas, Joanna F. Au, Yu Chen, Nathan R. Kane
-
Patent number: 7893435Abstract: A backplane for use in an electro-optic display comprises a patterned metal foil having a plurality of apertures extending therethrough, coated on at least side with an insulating polymeric material and having a plurality of thin film electronic devices provided on the insulating polymeric material.Type: GrantFiled: November 25, 2003Date of Patent: February 22, 2011Assignee: E Ink CorporationInventors: Peter T. Kazlas, Joanna F. Au, Yu Chen, Nathan R. Kane, David John Cole
-
Publication number: 20100265239Abstract: A non-linear element is formed on a flexible substrate by securing the substrate to a rigid carrier, forming the non-linear element, and then separating the flexible substrate from the carrier. The process allows flexible substrates to be processed in a conventional fab intended to process rigid substrates. In a second method, a transistor is formed on a insulating substrate by forming gate electrodes, depositing a dielectric layer, a semiconductor layer and a conductive layer, patterning the conductive layer to form source, drain and pixel electrodes, covering the channel region of the resultant transistor with an etch-resistant material and etching using the etch-resistant material and the conductive layer as a mask, the etching extending substantially through the semiconductor layer between adjacent transistors.Type: ApplicationFiled: June 29, 2010Publication date: October 21, 2010Applicant: E INK CORPORATIONInventors: Karl R. Amundson, Guy M. Danner, Gregg M. Duthaler, Peter T. Kazlas, Yu Chen, Kevin L. Denis, Nathan R. Kane, Andrew P. Ritenour
-
Patent number: 7785988Abstract: A non-linear element is formed on a flexible substrate by securing the substrate to a rigid carrier, forming the non-linear element, and then separating the flexible substrate from the carrier. The process allows flexible substrates to be processed in a conventional fab intended to process rigid substrates. In a second method, a transistor is formed on a insulating substrate by forming gate electrodes, depositing a dielectric layer, a semiconductor layer and a conductive layer, patterning the conductive layer to form source, drain and pixel electrodes, covering the channel region of the resultant transistor with an etch-resistant material and etching using the etch-resistant material and the conductive layer as a mask, the etching extending substantially through the semiconductor layer between adjacent transistors.Type: GrantFiled: October 1, 2008Date of Patent: August 31, 2010Assignee: E Ink CorporationInventors: Karl R. Amundson, Guy M. Danner, Gregg M. Duthaler, Peter T. Kazlas, Yu Chen, Kevin L. Denis, Nathan R. Kane, Andrew P. Ritenour
-
Patent number: 7682082Abstract: A compact surface self-compensated hydrostatic bearing includes a rotor assembly including a rotor plate having upper and lower fluid restricting faces, a rotor top and bottom, each having bearing surfaces angled with respect to an axis of rotation of the rotor assembly; a stator assembly including a stator top and a stator bottom housing the rotor assembly therebetween, the stator top and bottom having bearing surfaces facing and spaced apart from the rotor top and bottom bearing surfaces forming upper and lower bearing gaps, respectively, therebetween; the stator top and bottom including a lower and an upper fluid restricting surface, respectively, facing and spaced apart from the rotor upper and rotor lower fluid restricting faces, respectively, forming upper and lower restricting gaps, respectively, therebetween; and a fluid supply system configured to supply pressurized fluid to the bearing gaps and into the upper and lower fluid restricting gaps.Type: GrantFiled: June 13, 2007Date of Patent: March 23, 2010Assignee: AMETEK-Precitech, Inc.Inventors: Nathan R. Kane, Joachim Sihler, Alexander H. Slocum, Mark Walter
-
Publication number: 20090029527Abstract: A non-linear element is formed on a flexible substrate by securing the substrate to a rigid carrier, forming the non-linear element, and then separating the flexible substrate from the carrier. The process allows flexible substrates to be processed in a conventional fab intended to process rigid substrates. In a second method, a transistor is formed on a insulating substrate by forming gate electrodes, depositing a dielectric layer, a semiconductor layer and a conductive layer, patterning the conductive layer to form source, drain and pixel electrodes, covering the channel region of the resultant transistor with an etch-resistant material and etching using the etch-resistant material and the conductive layer as a mask, the etching extending substantially through the semiconductor layer between adjacent transistors.Type: ApplicationFiled: October 1, 2008Publication date: January 29, 2009Applicant: E INK CORPORATIONInventors: Karl R. Amundson, Guy M. Danner, Gregg M. Duthaler, Peter T. Kazlas, Yu Chen, Kevin L. Denis, Nathan R. Kane, Andrew P. Ritenour
-
Patent number: 7442587Abstract: A non-linear element is formed on a flexible substrate by securing the substrate to a rigid carrier, forming the non-linear element, and then separating the flexible substrate from the carrier. The process allows flexible substrates to be processed in a conventional fab intended to process rigid substrates. In a second method, a transistor is formed on a insulating substrate by forming gate electrodes, depositing a dielectric layer, a semiconductor layer and a conductive layer, patterning the conductive layer to form source, drain and pixel electrodes, covering the channel region of the resultant transistor with an etch-resistant material and etching using the etch-resistant material and the conductive layer as a mask, the etching extending substantially through the semiconductor layer between adjacent transistors.Type: GrantFiled: June 15, 2006Date of Patent: October 28, 2008Assignee: E Ink CorporationInventors: Karl R. Amundson, Guy M. Danner, Gregg M. Duthaler, Peter T. Kazlas, Yu Chen, Kevin L. Denis, Nathan R. Kane, Andrew P. Ritenour
-
Publication number: 20070286537Abstract: A compact surface self-compensated hydrostatic bearing includes a rotor assembly including a rotor plate having upper and lower fluid restricting faces, a rotor top and bottom, each having bearing surfaces angled with respect to an axis of rotation of the rotor assembly; a stator assembly including a stator top and a stator bottom housing the rotor assembly therebetween, the stator top and bottom having bearing surfaces facing and spaced apart from the rotor top and bottom bearing surfaces forming upper and lower bearing gaps, respectively, therebetween; the stator top and bottom including a lower and an upper fluid restricting surface, respectively, facing and spaced apart from the rotor upper and rotor lower fluid restricting faces, respectively, forming upper and lower restricting gaps, respectively, therebetween; and a fluid supply system configured to supply pressurized fluid to the bearing gaps and into the upper and lower fluid restricting gaps.Type: ApplicationFiled: June 13, 2007Publication date: December 13, 2007Inventors: Nathan R. Kane, Joachim Sihler, Alexander H. Slocum, Mark Walter
-
Patent number: 7223672Abstract: A non-linear element is formed on a flexible substrate by securing the substrate to a rigid carrier, forming the non-linear element, and then separating the flexible substrate from the carrier. The process allows flexible substrates to be processed in a conventional fab intended to process rigid substrates. In a second method, a transistor is formed on a insulating substrate by forming gate electrodes, depositing a dielectric layer, a semiconductor layer and a conductive layer, patterning the conductive layer to form source, drain and pixel electrodes, covering the channel region of the resultant transistor with an etch-resistant material and etching using the etch-resistant material and the conductive layer as a mask, the etching extending substantially through the semiconductor layer between adjacent transistors.Type: GrantFiled: April 24, 2003Date of Patent: May 29, 2007Assignee: E Ink CorporationInventors: Peter T. Kazlas, Nathan R. Kane, Andrew P. Ritenour
-
Publication number: 20040180476Abstract: A backplane for use in an electro-optic display comprises a patterned metal foil having a plurality of apertures extending therethrough, coated on at least side with an insulating polymeric material and having a plurality of thin film electronic devices provided on the insulating polymeric material.Type: ApplicationFiled: November 25, 2003Publication date: September 16, 2004Applicant: E INK CORPORATIONInventors: Peter T. Kazlas, Joanna F. Au, Yu Chen, Nathan R. Kane, David John Cole
-
Publication number: 20040014265Abstract: A non-linear element is formed on a flexible substrate by securing the substrate to a rigid carrier, forming the non-linear element, and then separating the flexible substrate from the carrier. The process allows flexible substrates to be processed in a conventional fab intended to process rigid substrates. In a second method, a transistor is formed on a insulating substrate by forming gate electrodes, depositing a dielectric layer, a semiconductor layer and a conductive layer, patterning the conductive layer to form source, drain and pixel electrodes, covering the channel region of the resultant transistor with an etch-resistant material and etching using the etch-resistant material and the conductive layer as a mask, the etching extending substantially through the semiconductor layer between adjacent transistors.Type: ApplicationFiled: April 24, 2003Publication date: January 22, 2004Applicant: E INK CORPORATIONInventors: Peter T. Kazlas, Karl R. Amundson, Yu Chen, Guy M. Danner, Kevin L. Denis, Gregg M. Duthaler, Nathan R. Kane, Andrew P. Ritenour
-
Patent number: 6397653Abstract: A method of making a folded metal bellows wherein an n-sided mandrel is positioned within a metal tube at an initial position. A convolution is formed by: axially moving and turning the mandrel with respect to and within the tube from the initial position to a second position. The mandrel is then fixed to the tube and driven towards the initial position while turning the mandrel (and the tube).Type: GrantFiled: August 13, 1999Date of Patent: June 4, 2002Assignee: PerkinElmer, Inc.Inventors: Nathan R. Kane, Brian R. Tranter
-
Patent number: 6054194Abstract: An improved mathematically modeled family of bellow fold patterns, useful for making bellows from stiff but foldable materials, which forms a corner of a bellow consisting of a series of several single inversion fold patterns, each having a characteristic design angle which is mathematically computed to provide a desired initial wall angle for the bellow and to minimize wall tilting over a predetermined extension angle range, thereby allowing low cost bellows to be made which can extend long distances while using a minimal amount of stiff but foldable material.Type: GrantFiled: February 11, 1997Date of Patent: April 25, 2000Inventor: Nathan R. Kane
-
Patent number: 5971614Abstract: A modular hydrostatic bearing for use in precision machine tools and the like, where a load is supported by bolting it to modular bearing carriages or trucks which ride on parallel bearing rails, where the carriages or trucks are kept from making physical contact with the bearing rails by hydrostatic bearing pockets formed in the carriages, and where the bearing rail has two sides and two or more surfaces per side that form load carrying surfaces that the hydrostatic bearing pockets run against, and where the bearing rail load carrying surfaces have precision smooth continuous curves between them, such that the carriage can be formed with a mating surface containing the hydrostatic bearing pockets and also have smooth continuous surfaces between the hydrostatic bearing pockets, such that the carriage can be fitted over the rail with clearance suitable for hydrostatic bearing operation, but greatly reduced leakage flow because there is no direct leakage flow to the atmosphere from between sets of adjacent loadType: GrantFiled: September 8, 1997Date of Patent: October 26, 1999Assignee: Aesop, Inc.Inventors: Nathan R. Kane, Alexander H. Slocum
-
Patent number: 5484208Abstract: A hydrostatic self-compensating bearing straddling a linear bearing rail or a spindle shaft and having, in combination, opposed fluid supply pressure and collector grooves and pockets interconnected so that when a load is applied, one pocket approaches the rail or shaft while the opposite pocket moves away therefrom, allowing flow from the corresponding opposite supply grooves to the corresponding collector grooves to increase and decrease, respectively, providing compensation; each fluid supply pressure groove surrounding a self-compensating flow restrictor elastically connected with its surrounding structure, whereby, as the pressure each collector groove and its oppositely located pocket increases and decreases, respectively, a change in the differential pressure across the elastically supported restrictors causes a deflection thereof away from and toward the rail or shaft, further increasing and decreasing the pressure in the corresponding pocket to provide compensation supplemental to the first-named comType: GrantFiled: May 9, 1994Date of Patent: January 16, 1996Assignee: Massachusetts Institute of TechnologyInventors: Nathan R. Kane, Alexander H. Slocum