Patents by Inventor Guy M. Danner
Guy M. Danner 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: 20110286082Abstract: Various types of edge seals for protecting electro-optic displays against environmental contaminants are described. In one type of seal, the electro-optic layer is sandwiched between a backplane and a protective sheet and a sealing material extends between the backplane and the protective sheet. In other seals, the protective sheet is secured to the backplane or to a second protective sheet adjacent the backplane. The electro-optic layer can also be sealed between two layers of adhesive or between one layer of adhesive and the backplane. Other seals make use of flexible tapes extending around the periphery of the display.Type: ApplicationFiled: August 9, 2011Publication date: November 24, 2011Applicant: E INK CORPORATIONInventors: Guy M. Danner, Shamus Ford Patry, Charles Howie Honeyman, Thomas H. Whitesides, Michael D. McCreary, Gregg M. Duthaler
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Patent number: 8049947Abstract: A display assembly comprises a backplane assembly comprising a plurality of spaced backplane areas, each backplane area comprising a plurality of electrodes, the backplane areas being separated by gutter areas free from electrodes; an adhesive layer overlying the plurality of spaced backplane areas; and a layer of a solid electro-optic medium overlying the adhesive layer in the plurality of spaced backplane areas. The display sub-assembly can be produced via a single lamination and severed to form a plurality of separate electro-optic displays. Processes for producing the display assembly are also described.Type: GrantFiled: August 31, 2009Date of Patent: November 1, 2011Assignee: E Ink CorporationInventors: Guy M. Danner, Valerie C. Northrop, Jonathan L. Zalesky, Matthew Joseph Kayal, Steven J. O'Neil
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Patent number: 8034209Abstract: An electro-optic display is produced using a sub-assembly comprising a front sheet, an electro-optic medium; and an adhesive layer. An aperture is formed through the adhesive layer where the adhesive layer is not covered by the electro-optic medium, and the sub-assembly is adhered to a backplane having a co-operating member with the aperture engaged with a co-operating member, thus locating the sub-assembly relative to the backplane. In another form of electro-optic display, a chip extends through an aperture in the electro-optic medium and adhesive layer. In a third form, the aforementioned sub-assembly is secured to a backplane and then a cut is made through both backplane and sub-assembly to provide an aligned edge.Type: GrantFiled: June 27, 2008Date of Patent: October 11, 2011Assignee: E Ink CorporationInventors: Guy M. Danner, Valerie C. Northrop, Jonathan D. Albert, Holly G. Gates, Erik van Veenendaal, Fredericus J. Touwslager
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Patent number: 8027081Abstract: Various types of edge seals for protecting electro-optic displays against environmental contaminants are described. In one type of seal, the electro-optic layer is sandwiched between a backplane and a protective sheet and a sealing material extends between the backplane and the protective sheet. In other seals, the protective sheet is secured to the backplane or to a second protective sheet adjacent the backplane. The electro-optic layer can also be sealed between two layers of adhesive or between one layer of adhesive and the backplane. Other seals make use of flexible tapes extending around the periphery of the display.Type: GrantFiled: October 28, 2009Date of Patent: September 27, 2011Assignee: E Ink CorporationInventors: Guy M. Danner, Shamus Ford Patry, Charles Howie Honeyman, Thomas H. Whitesides, Michael D. McCreary, Gregg M. Duthaler
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Patent number: 8009344Abstract: A multi-layer film, useful as a front sub-assembly in electro-optic displays, comprises, in this order: a light-transmissive electrically-conductive layer (114); a light-transmissive first protective layer (112); a light-transmissive moisture barrier layer (108); and a light-transmissive second protective layer (106). This multi-layer film can be used in forming an electro-optic display by the processes described in U.S. Pat. No. 6,982,179 or Patent Publication No. 2007/0109219.Type: GrantFiled: December 10, 2009Date of Patent: August 30, 2011Assignee: E Ink CorporationInventors: Guy M. Danner, Sandra Rifai
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Publication number: 20110195629Abstract: Ink jet printing can be used in the production of electro-optic displays for (a) forming a layer of a polymer-dispersed electrophoretic medium on a substrate; (b) forming a color electro-optic layer; (c) forming a color filter; and (d) printing electrodes and/or associated conductors on a layer of electro-optic material.Type: ApplicationFiled: April 21, 2011Publication date: August 11, 2011Applicant: E INK CORPORATIONInventors: Charles Howie Honeyman, Guy M. Danner
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Patent number: 7952790Abstract: Ink jet printing can be used in the production of electro-optic displays for (a) forming a layer of a polymer-dispersed electrophoretic medium on a substrate; (b) forming a color electro-optic layer; (c) forming a color filter; and (d) printing electrodes and/or associated conductors on a layer of electro-optic material.Type: GrantFiled: March 21, 2007Date of Patent: May 31, 2011Assignee: E Ink CorporationInventors: Charles Howie Honeyman, Guy M. Danner
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Publication number: 20110075248Abstract: A front plane laminate useful in the manufacture of electro-optic displays comprises, in order, a light-transmissive electrically-conductive layer, a layer of an electro-optic medium in electrical contact with the electrically-conductive layer, an adhesive layer and a release sheet. This front plane laminate can be prepared as a continuous web, cut to size, the release sheet removed and the laminate laminated to a backplane to form a display. Methods for providing conductive vias through the electro-optic medium and for testing the front plane laminate are also described.Type: ApplicationFiled: December 3, 2010Publication date: March 31, 2011Applicant: E INK CORPORATIONInventors: Richard D. LeCain, Ara N. Knaian, Steven J. O'Neil, Gregg M. Duthaler, Guy M. Danner, Robert W. Zehner, Alberto Goenaga, Benjamin Max Davis, Randolph W. Chan, Jonathan D. Albert, Glen Crossley
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Patent number: 7910175Abstract: A coating of an encapsulated electrophoretic medium is formed on a substrate (106) by dispersing in a fluid (104) a plurality of electrophoretic capsules (102), contacting at least a portion of a substrate (106) with the fluid (104); and applying a potential difference between at least a part of the portion of the substrate (106) contacting the fluid (104) and a counter-electrode (110) in electrical contact with the fluid (104), thereby causing capsules (102) to be deposited upon at least part of the portion of the substrate (106) contacting the fluid (102). Patterned coatings of capsules containing different colors may be deposited in registration with electrodes using multiple capsule deposition steps. Alternatively, patterned coatings of capsules may be formed by applying a fluid form of an electrophoretic medium to a substrate, and applying a temporally varying voltage between an electrode and the substrate. The process may be repeated to allow for deposition of full color displays.Type: GrantFiled: August 3, 2007Date of Patent: March 22, 2011Assignee: E Ink CorporationInventors: Richard M. Webber, Thomas H. Whitesides, Craig A. Herb, Guy M. Danner, Charles Howie Honeyman, Michael D. McCreary, Shamus Ford Patry, Richard J. Paolini, Jr., Michael D. Walls, Stephen P. Dudek
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Publication number: 20110032596Abstract: A laminate comprising a solid electro-optic medium and an electrically conductive layer is tested by passing it over a pair of electrodes at different potentials, with the electrically conductive layer lying on the opposed side of the electro-optic medium from the electrodes. An article which can be tested by this method, and which is useful in the manufacture of electro-optic displays, comprises a layer of a solid electro-optic medium and a release sheet comprising an electrically conductive layer.Type: ApplicationFiled: October 15, 2010Publication date: February 10, 2011Applicant: E INK CORPORATIONInventors: Guy M. Danner, Jonathan L. Zalesky, John E. Ritter, Timothy J. O'Malley, Thomas H. Whitesides, Shamus Ford Patry, Alain Bouchard, Richard M. Webber
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Publication number: 20110032595Abstract: An electro-optic display comprises, in order, a backplane comprising a plurality of pixel electrodes; a layer of a solid electro-optic medium; a main adhesive layer; and at least one of a light-transmissive protective layer and a light-transmissive electrically-conductive layer. The electro-optic layer may be in direct contact with the backplane or separated therefrom by a thin auxiliary layer of adhesive. The main adhesive layer may be colored to provide a color filter array. An inverted front plane laminate useful in forming such a display comprises the same layers except that the backplane is replaced by a release sheet. The display combines good low temperature performance and good resolution at higher temperatures.Type: ApplicationFiled: October 15, 2010Publication date: February 10, 2011Applicant: E INK CORPORATIONInventors: Thomas H. Whitesides, Richard J. Paolini, JR., Michael D. Walls, Seungman Sohn, Michael D. McCreary, Guy M. Danner, Charles Howie Honeyman, Gregg M. Duthaler, Michael L. Steiner, John E. Ritter
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Patent number: 7848006Abstract: An electrophoretic medium has walls defining a microcavity containing an internal phase. This internal phase comprises electrophoretic particles suspended in a suspending fluid and capable of moving therethrough upon application of an electric field to the electrophoretic medium. The average height of the microcavity differs by not more than about 5 ?m from the saturated particle thickness of the electrophoretic particle divided by the volume fraction of the electrophoretic particles in the internal phase.Type: GrantFiled: May 15, 2008Date of Patent: December 7, 2010Assignee: E Ink CorporationInventors: Russell J. Wilcox, Lan Cao, Guy M. Danner, Richard J. Paolini, Jr., Jonathan D. Albert, Barrett Comiskey
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Patent number: 7843624Abstract: A first sub-assembly useful in an electro-optic display is produced by: providing an electro-optic sub-assembly comprising a layer of electro-optic medium; providing an adhesive sub-assembly comprising an adhesive layer, the adhesive layer being larger than the layer of electro-optic medium and having one or more apertures; adhering the adhesive sub-assembly to the electro-optic sub-assembly so that a part of the adhesive layer adheres to the layer of electro-optic medium but the aperture(s) are spaced from the layer of electro-optic medium. A second sub-assembly comprises a conductive layer and a layer of electro-optic medium. The conductive layer has a main section covered by the electro-optic medium, an exposed section free from the electro-optic medium, and a weak section connecting the main section and the exposed section, so that the exposed section can be manipulated to rupture the weak section, thus separating the exposed section from the main section without substantial damage.Type: GrantFiled: June 25, 2008Date of Patent: November 30, 2010Assignee: E Ink CorporationInventors: Guy M. Danner, Sandra Rifai, Valerie C. Northrop
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Patent number: 7843621Abstract: A laminate comprising a solid electro-optic medium and an electrically conductive layer is tested by passing it over a pair of electrodes at different potentials, with the electrically conductive layer lying on the opposed side of the electro-optic medium from the electrodes. An article which can be tested by this method, and which is useful in the manufacture of electro-optic displays, comprises a layer of a solid electro-optic medium and a release sheet comprising an electrically conductive layer.Type: GrantFiled: November 20, 2006Date of Patent: November 30, 2010Assignee: E Ink CorporationInventors: Guy M. Danner, Jonathan L. Zalesky, John E. Ritter, Timothy J. O'Malley, Thomas H. Whitesides, Shamus Ford Patry, Alain Bouchard, Richard M. Webber
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Patent number: 7839564Abstract: An electro-optic display comprises, in order, a backplane comprising a plurality of pixel electrodes; a layer of a solid electro-optic medium; a main adhesive layer; and at least one of a light-transmissive protective layer and a light-transmissive electrically-conductive layer. The electro-optic layer may be in direct contact with the backplane or separated therefrom by a thin auxiliary layer of adhesive. The main adhesive layer may be colored to provide a color filter array. An inverted front plane laminate useful in forming such a display comprises the same layers except that the backplane is replaced by a release sheet. The display combines good low temperature performance and good resolution at higher temperatures.Type: GrantFiled: October 17, 2006Date of Patent: November 23, 2010Assignee: E Ink CorporationInventors: Thomas H. Whitesides, Richard J. Paolini, Jr., Michael D. Walls, Seungman Sohn, Michael D. McCreary, Guy M. Danner, Charles Howie Honeyman, Gregg M. Duthaler, Michael L. Steiner, John E. Ritter
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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
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Publication number: 20100265561Abstract: The invention relates to electro-optic displays and methods for driving such displays. The invention provides (i) electrochromic displays with solid charge transport layers; (ii) apparatus and methods for improving the contrast and reducing the cost of electrochromic displays; (iii) apparatus and methods for sealing electrochromic displays from the outside environment and preventing ingress of contaminants into such a display; and (iv) methods for adjusting the driving of electro-optic displays to allow for environmental and operating parameters.Type: ApplicationFiled: June 30, 2010Publication date: October 21, 2010Applicant: E INK CORPORATIONInventors: Holly G. Gates, Charles H. Honeyman, Ara N. Knaian, Steven J. O'Neil, Richard J. Paolini, JR., Jonathan L. Zalesky, Robert W. Zehner, Ian D. Morrison, Anthony Edward Pullen, Jianna Wang, John Edward Cronin, Justin Abramson, Karl R. Amundson, Guy M. Danner, Gregg M. Duthaler
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Patent number: 7787169Abstract: The invention relates to electro-optic displays and methods for driving such displays. The invention provides (i) electrochromic displays with solid charge transport layers; (ii) apparatus and methods for improving the contrast and reducing the cost of electrochromic displays; (iii) apparatus and methods for sealing electrochromic displays from the outside environment and preventing ingress of contaminants into such a display; and (iv) methods for adjusting the driving of electro-optic displays to allow for environmental and operating parameters.Type: GrantFiled: March 23, 2005Date of Patent: August 31, 2010Assignee: E Ink CorporationInventors: Justin J. Abramson, Karl R. Amundson, Guy M. Danner, Gregg M. Duthaler, Holly G. Gates, Charles H. Honeyman, Ara N. Knaian, Ian D. Morrison, Steven J. O'Neil, Richard J. Paolini, Jr., Anthony Edward Pullen, Jianna Wang, Jonathan L. Zalesky, Robert W. Zehner, John E. Cronin
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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
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Publication number: 20100165446Abstract: A display assembly comprises a backplane assembly comprising a plurality of spaced backplane areas, each backplane area comprising a plurality of electrodes, the backplane areas being separated by gutter areas free from electrodes; an adhesive layer overlying the plurality of spaced backplane areas; and a layer of a solid electro-optic medium overlying the adhesive layer in the plurality of spaced backplane areas. The display sub-assembly can be produced via a single lamination and severed to form a plurality of separate electro-optic displays. Processes for producing the display assembly are also described.Type: ApplicationFiled: August 31, 2009Publication date: July 1, 2010Applicant: E Ink CorporationInventors: Guy M. Danner, Valerie C. Northrop, Jonathan L. Zalesky, Matthew Joseph Kayal, Steven J. O'Neil