Patents by Inventor Haim Chayet
Haim Chayet 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: 10058454Abstract: An apparatus, system or method for aiding the vision of visually impaired individuals having a retina with reduced functionality, which overcomes the drawbacks of the background art by overcoming such reduced and/or uneven retinal function.Type: GrantFiled: August 19, 2013Date of Patent: August 28, 2018Assignee: IC INSIDE LTD.Inventors: Haim Chayet, Boris Greenberg, Lior Ben-Hur
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Patent number: 9893223Abstract: A solar electricity generator including an array of photovoltaic power generating elements, and a single continuous smooth solar reflecting surface, the surface being arranged to reflect light from the sun onto the array of photovoltaic power generating elements, wherein the flux per area at a point of minimum flux per area on the array is approximately 75% of the flux per area at a point of maximum flux per area, the intercept factor of the array is at least 70%, and the optical fill factor of the array is at least 60%.Type: GrantFiled: November 16, 2010Date of Patent: February 13, 2018Assignee: SUNCORE PHOTOVOLTAICS, INC.Inventors: Rani Moran, Haim Chayet, Ori Kost
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Publication number: 20150238362Abstract: An apparatus, system or method for aiding the vision of visually impaired individuals having a retina with reduced functionality, which overcomes the drawbacks of the background art by overcoming such reduced and/or uneven retinal function.Type: ApplicationFiled: August 19, 2013Publication date: August 27, 2015Inventors: Haim Chayet, Boris Greenberg, Lior Ben-Hur
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Patent number: 8885985Abstract: In one exemplary embodiment, a method comprises transmitting an optical signal via the optical line, measuring a relative change in spectral intensity of the optical signal near a clock frequency (or half of that frequency) while varying a polarization of the optical signal between a first state of polarization and a second state of polarization, and using the relative change in spectral intensity of the optical signal to determine and correct the DGD of the optical line. Another method comprises splitting an optical signal traveling through the optical line into a first and second portions having a first and second principal states of polarization of the optical line, converting the first and second portions into a first and second electrical signals, delaying the second electrical signal to create a delayed electrical signal that compensates for a DGD of the optical line, and combining the delayed electrical signal with the first electrical signal to produce a fixed output electrical signal.Type: GrantFiled: August 29, 2012Date of Patent: November 11, 2014Assignee: Kailight Photonics, Inc.Inventors: Er'el Granot, Shalva Ben-Ezra, Gil Blecher, Shai Tzadok, Reuven Zaibel, Roni Dadon, Motti Caspi, Haim Chayet, Yehuda Ganz, Arieh Sher
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Publication number: 20140238465Abstract: A solar electricity generator including an array of solar electricity generating elements, a solar energy concentrating element operative to transmit concentrated solar radiation from the sun onto the array, voltage measuring functionality operative to measure at least one of a total row voltage generated by at least one row of the electricity generating elements in the array and a total column voltage generated by at least one column of the electricity generating elements in the array.Type: ApplicationFiled: February 19, 2014Publication date: August 28, 2014Inventors: Ori Kost, Ilan Lozovsky, Rani Moran, Haim Chayet, Mordechay Golan, Menachem Tipris
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Publication number: 20120321298Abstract: In one exemplary embodiment, a method comprises transmitting an optical signal via the optical line, measuring a relative change in spectral intensity of the optical signal near a clock frequency (or half of that frequency) while varying a polarization of the optical signal between a first state of polarization and a second state of polarization, and using the relative change in spectral intensity of the optical signal to determine and correct the DGD of the optical line. Another method comprises splitting an optical signal traveling through the optical line into a first and second portions having a first and second principal states of polarization of the optical line, converting the first and second portions into a first and second electrical signals, delaying the second electrical signal to create a delayed electrical signal that compensates for a DGD of the optical line, and combining the delayed electrical signal with the first electrical signal to produce a fixed output electrical signal.Type: ApplicationFiled: August 29, 2012Publication date: December 20, 2012Applicant: Kailight Photonics, Inc.Inventors: Er'el Granot, Shalva Ben-Ezra, Gil Blecher, Shai Tzadok, Reuven Zaibel, Roni Dadon, Motti Caspi, Haim Chayet, Yehuda Ganz, Arieh Sher
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Patent number: 8260092Abstract: In one exemplary embodiment, a method comprises transmitting an optical signal via the optical line, measuring a relative change in spectral intensity of the optical signal near a clock frequency (or half of that frequency) while varying a polarization of the optical signal between a first state of polarization and a second state of polarization, and using the relative change in spectral intensity of the optical signal to determine and correct the DGD of the optical line. Another method comprises splitting an optical signal traveling through the optical line into a first and second portions having a first and second principal states of polarization of the optical line, converting the first and second portions into a first and second electrical signals, delaying the second electrical signal to create a delayed electrical signal that compensates for a DGD of the optical line, and combining the delayed electrical signal with the first electrical signal to produce a fixed output electrical signal.Type: GrantFiled: February 21, 2011Date of Patent: September 4, 2012Assignee: Kailight Photonics, Inc.Inventors: Er'el Granot, Shalva Ben-Ezra, Gil Blecher, Shai Tzadok, Reuven Zaibel, Roni Dadon, Motti Caspi, Haim Chayet, Yehuda Ganz, Arieh Sher
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Patent number: 8229254Abstract: In one exemplary embodiment, a method comprises transmitting an optical signal via the optical line, measuring a relative change in spectral intensity of the optical signal near a clock frequency (or half of that frequency) while varying a polarization of the optical signal between a first state of polarization and a second state of polarization, and using the relative change in spectral intensity of the optical signal to determine and correct the DGD of the optical line. Another method comprises splitting an optical signal traveling through the optical line into a first and second portions having a first and second principal states of polarization of the optical line, converting the first and second portions into a first and second electrical signals, delaying the second electrical signal to create a delayed electrical signal that compensates for a DGD of the optical line, and combining the delayed electrical signal with the first electrical signal to produce a fixed output electrical signal.Type: GrantFiled: November 14, 2008Date of Patent: July 24, 2012Assignee: Kailight Photonics, Inc.Inventors: Er'el Granot, Shalva Ben-Ezra, Gil Blecher, Shai Tzadok, Reuven Zaibel, Roni Dadon, Motti Caspi, Haim Chayet, Yehuda Ganz, Arieh Sher
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Patent number: 8195012Abstract: In one exemplary embodiment, a method comprises transmitting an optical signal via the optical line, measuring a relative change in spectral intensity of the optical signal near a clock frequency (or half of that frequency) while varying a polarization of the optical signal between a first state of polarization and a second state of polarization, and using the relative change in spectral intensity of the optical signal to determine and correct the DGD of the optical line. Another method comprises splitting an optical signal traveling through the optical line into a first and second portions having a first and second principal states of polarization of the optical line, converting the first and second portions into a first and second electrical signals, delaying the second electrical signal to create a delayed electrical signal that compensates for a DGD of the optical line, and combining the delayed electrical signal with the first electrical signal to produce a fixed output electrical signal.Type: GrantFiled: November 14, 2008Date of Patent: June 5, 2012Assignee: Kailight Photonics, Inc.Inventors: Er'el Granot, Shalva Ben-Ezra, Gil Blecher, Shai Tzadok, Reuven Zaibel, Roni Dadon, Motti Caspi, Haim Chayet, Yehuda Ganz, Arieh Sher
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Publication number: 20120118351Abstract: A solar electricity generator including an array of photovoltaic power generating elements, and a single continuous smooth solar reflecting surface, the surface being arranged to reflect light from the sun onto the array of photovoltaic power generating elements, wherein the flux per area at a point of minimum flux per area on the array is approximately 75% of the flux per area at a point of maximum flux per area, the intercept factor of the array is at least 70%, and the optical fill factor of the array is at least 60%.Type: ApplicationFiled: November 16, 2010Publication date: May 17, 2012Applicant: ZENITH SOLAR LTD.Inventors: Rani MORAN, Haim CHAYET, Ori KOST
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Publication number: 20110142445Abstract: In one exemplary embodiment, a method comprises transmitting an optical signal via the optical line, measuring a relative change in spectral intensity of the optical signal near a clock frequency (or half of that frequency) while varying a polarization of the optical signal between a first state of polarization and a second state of polarization, and using the relative change in spectral intensity of the optical signal to determine and correct the DGD of the optical line. Another method comprises splitting an optical signal traveling through the optical line into a first and second portions having a first and second principal states of polarization of the optical line, converting the first and second portions into a first and second electrical signals, delaying the second electrical signal to create a delayed electrical signal that compensates for a DGD of the optical line, and combining the delayed electrical signal with the first electrical signal to produce a fixed output electrical signal.Type: ApplicationFiled: February 21, 2011Publication date: June 16, 2011Inventors: Er'el Granot, Shalva Ben-Ezra, Gil Blecher, Shai Tzadok, Reuven Zaibel, Roni Dadon, Motti Caspi, Haim Chayet, Yehuda Ganz, Arieh Sher
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Patent number: 7907798Abstract: In one exemplary embodiment, a method comprises transmitting an optical signal via the optical line, measuring a relative change in spectral intensity of the optical signal near a clock frequency (or half of that frequency) while varying a polarization of the optical signal between a first state of polarization and a second state of polarization, and using the relative change in spectral intensity of the optical signal to determine and correct the DGD of the optical line. Another method comprises splitting an optical signal traveling through the optical line into a first and second portions having a first and second principal states of polarization of the optical line, converting the first and second portions into a first and second electrical signals, delaying the second electrical signal to create a delayed electrical signal that compensates for a DGD of the optical line, and combining the delayed electrical signal with the first electrical signal to produce a fixed output electrical signal.Type: GrantFiled: November 17, 2008Date of Patent: March 15, 2011Assignee: Kailight Photonics, Inc.Inventors: Er'el Granot, Shalva Ben-Ezra, Gil Blecher, Shai Tzadok, Reuven Zaibel, Roni Dadon, Motti Caspi, Haim Chayet, Yehuda Ganz, Arieh Sher
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Patent number: 7827912Abstract: An optical imaging head for direct engraving of flexographic printing plates, comprising: at least two groups of radiation sources, each group comprising at least one radiation source, wherein the radiation sources within each group emit radiation having the same intensity and spot size, different from the intensity and spot size of radiation sources in the other groups, said groups of radiation sources operating simultaneously.Type: GrantFiled: December 22, 2006Date of Patent: November 9, 2010Assignee: Eastman Kodak CompanyInventors: Alon Siman-Tov, Haim Chayet
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Publication number: 20100097700Abstract: A method of coupling laser radiation from a single emitter to achieve an increased power concentration on a radiated area comprising the steps of: providing a laser diode emitter (11) emitting laser radiation; splitting the laser radiation into a first beam (10a) and a second beam (10b); rotating a polarization of the first beam; optically combining the first beam and the second beam into a combined laser radiation beam; and directing the combined laser beam on an imaging media (22).Type: ApplicationFiled: June 18, 2007Publication date: April 22, 2010Inventors: Kobi Goldstein, Haim Chayet
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Publication number: 20090080883Abstract: In one exemplary embodiment, a method comprises transmitting an optical signal via the optical line, measuring a relative change in spectral intensity of the optical signal near a clock frequency (or half of that frequency) while varying a polarization of the optical signal between a first state of polarization and a second state of polarization, and using the relative change in spectral intensity of the optical signal to determine and correct the DGD of the optical line. Another method comprises splitting an optical signal traveling through the optical line into a first and second portions having a first and second principal states of polarization of the optical line, converting the first and second portions into a first and second electrical signals, delaying the second electrical signal to create a delayed electrical signal that compensates for a DGD of the optical line, and combining the delayed electrical signal with the first electrical signal to produce a fixed output electrical signal.Type: ApplicationFiled: November 17, 2008Publication date: March 26, 2009Applicant: Kailight Photonics, Inc.Inventors: Er'el Granot, Shalva Ben-Ezra, Gil Blecher, Shai Tzadok, Reuven Zaibel, Roni Dadon, Motti Caspi, Haim Chayet, Yehuda Ganz, Arieh Sher
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Publication number: 20090073561Abstract: In one exemplary embodiment, a method comprises transmitting an optical signal via the optical line, measuring a relative change in spectral intensity of the optical signal near a clock frequency (or half of that frequency) while varying a polarization of the optical signal between a first state of polarization and a second state of polarization, and using the relative change in spectral intensity of the optical signal to determine and correct the DGD of the optical line. Another method comprises splitting an optical signal traveling through the optical line into a first and second portions having a first and second principal states of polarization of the optical line, converting the first and second portions into a first and second electrical signals, delaying the second electrical signal to create a delayed electrical signal that compensates for a DGD of the optical line, and combining the delayed electrical signal with the first electrical signal to produce a fixed output electrical signal.Type: ApplicationFiled: November 14, 2008Publication date: March 19, 2009Applicant: Kailight Photonics, Inc.Inventors: Er'el Granot, Shalva Ben-Ezra, Gil Blecher, Shai Tzadok, Reuven Zaibel, Roni Dadon, Motti Caspi, Haim Chayet, Yehuda Ganz, Arieh Sher
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Publication number: 20090073560Abstract: In one exemplary embodiment, a method comprises transmitting an optical signal via the optical line, measuring a relative change in spectral intensity of the optical signal near a clock frequency (or half of that frequency) while varying a polarization of the optical signal between a first state of polarization and a second state of polarization, and using the relative change in spectral intensity of the optical signal to determine and correct the DGD of the optical line. Another method comprises splitting an optical signal traveling through the optical line into a first and second portions having a first and second principal states of polarization of the optical line, converting the first and second portions into a first and second electrical signals, delaying the second electrical signal to create a delayed electrical signal that compensates for a DGD of the optical line, and combining the delayed electrical signal with the first electrical signal to produce a fixed output electrical signal.Type: ApplicationFiled: November 14, 2008Publication date: March 19, 2009Applicant: Kailight Photonics, Inc.Inventors: Er'el Granot, Shalva Ben-Ezra, Gil Blecher, Shai Tzadok, Reuven Zaibel, Roni Dadon, Motti Caspi, Haim Chayet, Yehuda Ganz, Arieh Sher
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Publication number: 20090029292Abstract: An apparatus for direct engraving comprises: a plurality of laser diode emitting at different wavelengths; a multiplexer (11) for collecting the plurality of laser sources into a single laser beam; a rare earth doped fiber amplifier (12) to amplify the single laser beam to form an amplified single laser beam; a demultiplexer to split the single laser beam into a plurality of amplified laser sources; and an imaging means to apply the plurality of amplified laser sources for imaging a printing plate (55).Type: ApplicationFiled: July 23, 2007Publication date: January 29, 2009Inventor: Haim Chayet
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Publication number: 20080302262Abstract: A printing apparatus for direct printing comprises an image bearing printing surface (10) that comprises a plurality of cells (12) for storing ink; a means for loading ink into the cells; a means for imaging direction on a substrate (55) by affecting ink properties in a first group of cells to form ink affinity to the substrate; a means for unloading ink by affecting ink properties in a second group of cells to nullify ink affinity to the substrate; and a means for collecting the unloaded ink from the second group of cells.Type: ApplicationFiled: June 7, 2007Publication date: December 11, 2008Inventors: Yariv Y. Pinto, Haim Chayet
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Patent number: 7454092Abstract: In one exemplary embodiment, a method comprises transmitting an optical signal via the optical line, measuring a relative change in spectral intensity of the optical signal near a clock frequency (or half of that frequency) while varying a polarization of the optical signal between a first state of polarization and a second state of polarization, and using the relative change in spectral intensity of the optical signal to determine and correct the DGD of the optical line. Another method comprises splitting an optical signal traveling through the optical line into a first and second portions having a first and second principal states of polarization of the optical line, converting the first and second portions into a first and second electrical signals, delaying the second electrical signal to create a delayed electrical signal that compensates for a DGD of the optical line, and combining the delayed electrical signal with the first electrical signal to produce a fixed output electrical signal.Type: GrantFiled: October 24, 2006Date of Patent: November 18, 2008Assignee: Kailight Photonics, Inc.Inventors: Er'el Granot, Shalva Ben-Ezra, Gil Blecher, Shai Tzadok, Reuven Zaibel, Roni Dadon, Motti Caspi, Haim Chayet, Yehuda Ganz, Arieh Sher