Patents by Inventor Moti Margalit
Moti Margalit 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: 8735287Abstract: A microelectronic unit can include a semiconductor element having a front surface, a microelectronic semiconductor device adjacent to the front surface, contacts at the front surface and a rear surface remote from the front surface. The semiconductor element can have through holes extending from the rear surface through the semiconductor element and through the contacts. A dielectric layer can line the through holes. A conductive layer may overlie the dielectric layer within the through holes. The conductive layer can conductively interconnect the contacts with unit contacts.Type: GrantFiled: June 5, 2012Date of Patent: May 27, 2014Assignee: Invensas Corp.Inventors: Belgacem Haba, Giles Humpston, Moti Margalit
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Publication number: 20140132542Abstract: An integrated display and input device including a pixel array operative to provide a visually sensible output, at least one sensor operative to sense at least a position of at least one object with respect to the pixel array when the at least one object has at least a predetermined degree of propinquity to the pixel array and circuitry receiving an output from the at least one sensor and providing a non-imagewise input representing the position of the at least one object relative to the pixel array to utilization circuitry.Type: ApplicationFiled: January 6, 2014Publication date: May 15, 2014Applicant: POWER2B, INC.Inventors: Sarah Michelle Lipman, Eran Kali, Boris Gutin, Moti Margalit, Robert Michael Lipman, Ken Zwiebel
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Publication number: 20140118286Abstract: An interactive assembly including at least one interactive surface element, at least a first region of the at least one interactive surface element having first user sensible functionality and at least a second region of the at least one interactive surface element having second functionality, different from the first user sensible functionality, input sensor functionality, including at least one input sensor located in propinquity to at least one of the at least one interactive surface element, operative to sense impingement of an electromagnetic radiation spot on at least one of the at least one first region and the at least one second region of the at least one interactive surface element and utilization functionality for employing outputs of the input sensor functionality in respect of impingement on either or both of the at least one first region and the at least one second region.Type: ApplicationFiled: December 16, 2013Publication date: May 1, 2014Applicant: POWER 2B INC.Inventors: SARAH MICHELLE LIPMAN, ERAN KALI, BORIS GUTIN, MOTI MARGALIT, ROBERT MICHAEL LIPMAN, KEN ZWIEBEL
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Publication number: 20140061650Abstract: An electronic device is presented, such as a thin film transistor. The device comprises a patterned electrically-conductive layer associated with an active element of the electronic device. The electrically-conductive layer has a pattern defining an array of spaced-apart electrically conductive regions. This technique allows for increasing an electric current through the device.Type: ApplicationFiled: September 16, 2013Publication date: March 6, 2014Applicant: TECHNION RESEARCH AND DEVELOPMENT FOUNDATION LTD.Inventors: Nir TESSLER, Moti MARGALIT, Oded GLOBERMAN, Roy SHENHAR
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Publication number: 20140027931Abstract: A stacked microelectronic unit is provided which has a top surface and a bottom surface remote from the top surface and a plurality of vertically stacked microelectronic elements therein, including at least one microelectronic element having a front face adjacent to the top surface and a rear face oriented towards the bottom surface. Each of the microelectronic elements has traces extending from contacts at the front face beyond edges of the microelectronic element. A dielectric layer contacts edges of the microelectronic elements and underlies the rear face of the at least one microelectronic element. Leads are connected to the traces extending along the dielectric layer. Unit contacts, exposed at the top surface, are connected to the leads.Type: ApplicationFiled: September 25, 2013Publication date: January 30, 2014Applicant: TESSERA, INC.Inventors: Osher Avsian, Andrey Grinman, Giles Humpston, Moti Margalit
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Patent number: 8624850Abstract: An integrated display and input device including a pixel array operative to provide a visually sensible output, at least one sensor operative to sense at least a position of at least one object with respect to the pixel array when the at least one object has at least a predetermined degree of propinquity to the pixel array and circuitry receiving an output from the at least one sensor and providing a non-imagewise input representing the position of the at least one object relative to the pixel array to utilization circuitry.Type: GrantFiled: March 14, 2007Date of Patent: January 7, 2014Assignee: POWER2BInventors: Sarah Michelle Lipman, Eran Kali, Boris Gutin, Moti Margalit, Robert Michael Lipman, Ken Zwiebel
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Patent number: 8610675Abstract: An interactive assembly including at least one interactive surface element, at least a first region of the at least one interactive surface element having first user sensible functionality and at least a second region of the at least one interactive surface element having second functionality, different from the first user sensible functionality, input sensor functionality, including at least one input sensor located in propinquity to at least one of the at least one interactive surface element, operative to sense impingement of an electromagnetic radiation spot on at least one of the at least one first region and the at least one second region of the at least one interactive surface element and utilization functionality for employing outputs of the input sensor functionality in respect of impingement on either or both of the at least one first region and the at least one second region.Type: GrantFiled: March 13, 2008Date of Patent: December 17, 2013Assignee: Power2B, Inc.Inventors: Sarah Michelle Lipman, Eran Kali, Boris Gutin, Moti Margalit, Robert Michael Lipman, Ken Zwiebel
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Patent number: 8551815Abstract: A stacked microelectronic unit is provided which has a top surface and a bottom surface remote from the top surface and a plurality of vertically stacked microelectronic elements therein, including at least one microelectronic element having a front face adjacent to the top surface and a rear face oriented towards the bottom surface. Each of the microelectronic elements has traces extending from contacts at the front face beyond edges of the microelectronic element. A dielectric layer contacts edges of the microelectronic elements and underlies the rear face of the at least one microelectronic element. Leads are connected to the traces extending along the dielectric layer. Unit contacts, exposed at the top surface, are connected to the leads.Type: GrantFiled: August 1, 2008Date of Patent: October 8, 2013Assignee: Tessera, Inc.Inventors: Osher Avsian, Andrey Grinman, Giles Humpston, Moti Margalit
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Patent number: 8552422Abstract: An electronic device is presented, such as a thin film transistor. The device comprises a patterned electrically-conductive layer associated with an active element of the electronic device. The electrically-conductive layer has a pattern defining an array of spaced-apart electrically conductive regions. This technique allows for increasing an electric current through the device.Type: GrantFiled: November 2, 2012Date of Patent: October 8, 2013Assignee: Technion Research and Development Foundation Ltd.Inventors: Nir Tessler, Moti Margalit, Oded Globerman, Roy Shenhar
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Patent number: 8309953Abstract: An electronic device is presented, such as a thin film transistor. The device comprises a patterned electrically-conductive layer associated with an active element of the electronic device. The electrically-conductive layer has a pattern defining an array of spaced-apart electrically conductive regions. This technique allows for increasing an electric current through the device.Type: GrantFiled: January 9, 2007Date of Patent: November 13, 2012Assignee: Technion Research and Development Foundation Ltd.Inventors: Nir Tessler, Moti Margalit, Oded Globerman, Roy Shehhar
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Publication number: 20120241976Abstract: A microelectronic unit can include a semiconductor element having a front surface, a microelectronic semiconductor device adjacent to the front surface, contacts at the front surface and a rear surface remote from the front surface. The semiconductor element can have through holes extending from the rear surface through the semiconductor element and through the contacts. A dielectric layer can line the through holes. A conductive layer may overlie the dielectric layer within the through holes. The conductive layer can conductively interconnect the contacts with unit contacts.Type: ApplicationFiled: June 5, 2012Publication date: September 27, 2012Applicant: DigitalOptics Corporation Europe LimitedInventors: Belgacem Haba, Giles Humpston, Moti Margalit
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Patent number: 8193615Abstract: A microelectronic unit 400 can include a semiconductor element 401 having a front surface, a microelectronic semiconductor device adjacent to the front surface, contacts 403 at the front surface and a rear surface remote from the front surface. The semiconductor element 401 can have through holes 410 extending from the rear surface through the semiconductor element 401 and through the contacts 403. A dielectric layer 411 can line the through holes 410. A conductive layer 412 may overlie the dielectric layer 411 within the through holes 410. The conductive layer 412 can conductively interconnect the contacts 403 with unit contacts.Type: GrantFiled: July 31, 2008Date of Patent: June 5, 2012Assignee: DigitalOptics Corporation Europe LimitedInventors: Belgacem Haba, Giles Humpston, Moti Margalit
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Publication number: 20110248410Abstract: A stacked microelectronic unit is provided which has a top surface and a bottom surface remote from the top surface and a plurality of vertically stacked microelectronic elements therein, including at least one microelectronic element having a front face adjacent to the top surface and a rear face oriented towards the bottom surface. Each of the microelectronic elements has traces extending from contacts at the front face beyond edges of the microelectronic element. A dielectric layer contacts edges of the microelectronic elements and underlies the rear face of the at least one microelectronic element. Leads are connected to the traces extending along the dielectric layer. Unit contacts, exposed at the top surface, are connected to the leads.Type: ApplicationFiled: August 1, 2008Publication date: October 13, 2011Applicant: TESSERA, INC.Inventors: Osher Avsian, Andrey Grinman, Giles Humpston, Moti Margalit
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Publication number: 20110128234Abstract: An integrated display and input device including a pixel array operative to provide a visually sensible output, at least one sensor operative to sense at least a position of at least one object with respect to the pixel array when the at least one object has at least a predetermined degree of propinquity to the pixel array and circuitry receiving an output from the at least one sensor and providing a non-imagewise input representing the position of the at least one object relative to the pixel array to utilization circuitry.Type: ApplicationFiled: March 14, 2007Publication date: June 2, 2011Applicant: Power2B, INC.Inventors: Sarah Michelle Lipman, Eran Kali, Boris Gutin, Moti Margalit, Robert Michael Lipman, Ken Zwiebel
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Publication number: 20100110027Abstract: An interactive assembly including at least one interactive surface element, at least a first region of the at least one interactive surface element having first user sensible functionality and at least a second region of the at least one interactive surface element having second functionality, different from the first user sensible functionality, input sensor functionality, including at least one input sensor located in propinquity to at least one of the at least one interactive surface element, operative to sense impingement of an electromagnetic radiation spot on at least one of the at least one first region and the at least one second region of the at least one interactive surface element and utilization functionality for employing outputs of the input sensor functionality in respect of impingement on either or both of the at least one first region and the at least one second region.Type: ApplicationFiled: March 13, 2008Publication date: May 6, 2010Applicant: POWER2B, INC.Inventors: Sarah Michelle Lipman, Eran Kali, Boris Gutin, Moti Margalit, Robert Michael Lipman, Ken Zwiebel
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Publication number: 20090065907Abstract: A microelectronic unit 400 can include a semiconductor element 401 having a front surface, a microelectronic semiconductor device adjacent to the front surface, contacts 403 at the front surface and a rear surface remote from the front surface. The semiconductor element 401 can have through holes 410 extending from the rear surface through the semiconductor element 401 and through the contacts 403. A dielectric layer 411 can line the through holes 410. A conductive layer 412 may overlie the dielectric layer 411 within the through holes 410. The conductive layer 412 can conductively interconnect the contacts 403 with unit contacts.Type: ApplicationFiled: July 31, 2008Publication date: March 12, 2009Applicant: Tessera, Inc.Inventors: Belgacem Haba, Giles Humpston, Moti Margalit
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Publication number: 20090021488Abstract: An integrated display and input device including a first pixel array operative to provide a visually sensible output, a second pixel array operative to sense at least a position of an object with respect to the first pixel array and circuitry receiving an output from the second pixel array and providing a non-imagewise input to utilization circuitry.Type: ApplicationFiled: September 7, 2006Publication date: January 22, 2009Applicant: Power2B, Inc.Inventors: Eran Kali, Sarah Michelle Lipman, Boris Gutin, Moti Margalit
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Publication number: 20090008634Abstract: An electronic device is presented, such as a thin film transistor. The device comprises a patterned electrically-conductive layer associated with an active element of the electronic device. The electrically-conductive layer has a pattern defining an array of spaced-apart electrically conductive regions. This technique allows for increasing an electric current through the device.Type: ApplicationFiled: January 9, 2007Publication date: January 8, 2009Applicant: TECHNION RESEARCH AND DEVELOPMENT FOUNDATION LTD.Inventors: Nir Tessler, Moti Margalit
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Publication number: 20080267564Abstract: Disclosed are an asymmetric Y-shaped optical waveguide structure and an optical transceiver using the structure. The asymmetric Y-shaped optical waveguide structure includes a main axis optical waveguide extended in a longitudinal direction; and a branch optical waveguide extended from an extension start point in the main axis optical waveguide in a longitudinal direction as much as a predetermined region and then diverged outside. The main axis optical waveguide and the branch optical waveguide have effective refractive indexes, the magnitude relation of which is reversed for optical signals having first and second wavelength range. The optical transceiver includes an asymmetric Y-shaped optical waveguide structure, an optical fiber optically coupled to the structure for transmitting/receiving of the bi-directional optical signal, a laser diode and a photodiode. Accordingly, it is possible to miniaturize the optical transceiver, reduce a packaging cost, and improve reliability of the optical transceiver.Type: ApplicationFiled: May 12, 2004Publication date: October 30, 2008Inventors: Jae-Ho Han, Sang-Gil Shin, Sung-Wook Moon, Jung-Ho Choi, Moti Margalit, Daphna Bortman-Aviv, Nikolai Berkovitch, Eitan Avni
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Publication number: 20080112670Abstract: The present invention provides a method and apparatus for improved wavelength filtering and for producing a wavelength filter with improved wavelength filtering. The wavelength filter may include a waveguide to transmit an optical signal through a substrate, and a periodic series of grooves across a portion of the waveguide to effect reflection of a portion of the signal, the grooves having varying depths into the waveguide, wherein the varying depths affect a spectrum of the reflected portion.Type: ApplicationFiled: November 15, 2006Publication date: May 15, 2008Inventors: David Brooks, Moshe Price, Moti Margalit