Patents Assigned to LensVector Inc.
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Patent number: 9599852Abstract: A method of manufacturing a liquid crystal optical device such as a lens, a beam steering device or an optical image stabilization device is described. The method includes edge bonding a thin substrate onto a carrier substrate to obtain a combined substrate; manipulating the combined substrate by the carrier substrate for wafer level fabricating at least one liquid crystal optical device on the central portion of the first thin substrate. Each liquid crystal optical device includes liquid crystal cell walls. To form the at least one liquid crystal optical device a second thin substrate is provided and bonded to the combined substrate. The cell walls support and interconnect the thin first substrate to the second thin substrate. The at least one liquid crystal optical device is singulated by dicing the combined substrate within the peripheral bonding zone.Type: GrantFiled: August 5, 2014Date of Patent: March 21, 2017Assignee: Lensvector, Inc.Inventor: Tigran Galstian
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Publication number: 20170075163Abstract: An electro-optic device having at least one liquid crystal cell for providing spatially variable control of light includes: a pair of opposed substrates sandwiching a liquid crystal layer therebetween; a pair of electrodes for applying an electric field therebetween, each electrode being deposited on a corresponding substrate; and a liquid crystal reservoir wall defining a lateral extent of the liquid crystal layer between the substrates. The reservoir wall includes: a first bottom barrier deposited on a bottom one of the pair of substrates; and a second curable top barrier deposited on the top substrate outside the first barrier. The first barrier and second uncured barrier are configured to merge on contact to retain liquid crystal material inside the reservoir wall prior to curing the second barrier. Also, a method of wafer level manufacturing and assembly of a liquid crystal optical device.Type: ApplicationFiled: May 4, 2015Publication date: March 16, 2017Applicant: LensVector Inc.Inventors: Tigran GALSTIAN, Aram BAGRAMYAN, Amir TORK, David YOON, Sergei YAKOVENKO
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Patent number: 9500889Abstract: Variable liquid crystal devices for controlling the propagation of light through a liquid crystal layer use a frequency dependent material to dynamically reconfigure effective electrode structures in the device. The drive signal source uses pulse-width modulation to set a frequency and an amplitude of the drive signal.Type: GrantFiled: January 14, 2016Date of Patent: November 22, 2016Assignee: LENSVECTOR INC.Inventors: Tigran Galstian, Vladimir Presniakov, Karen Asatryan, Amir Tork, Armen Zohrabyan, Aram Bagramyan
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Patent number: 9448456Abstract: A liquid crystal optical device has a layered structure with split liquid crystal layers having alignment surfaces that define in a liquid crystal material pre-tilt angles of opposite signs. Four liquid crystal layers can provide two directions of linear polarization. In the case of a lens, the device can be a gradient index lens, and the alignment surfaces can have a spatially uniform pre-tilt.Type: GrantFiled: October 8, 2013Date of Patent: September 20, 2016Assignee: LENSVECTOR, INC.Inventors: Karen Asatryan, Tigran Galstian, Aram Bagramyan, Vladimir Presniakov, Amir Tork, Armen Zohrabyan, Peter P. Clark
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Patent number: 9429799Abstract: Variable liquid crystal devices for controlling the propagation of light through a liquid crystal layer use a frequency dependent material to dynamically reconfigure effective electrode structures in the device. The frequency of a drive signal that generates an electric field in the device can be varied, and the frequency dependent material has different charge mobilities for the different frequencies. At a low charge mobility, the frequency dependent material has little effect on the existing electrode structures. However, at a high charge mobility, the frequency dependent material appears as an extension of the fixed electrodes, and can be used to change the effective electrode structure and, thereby, the spatial profile of the electric field. This, in turn, changes the optical properties of the liquid crystal, thus allowing the optical device to be frequency controllable.Type: GrantFiled: April 23, 2015Date of Patent: August 30, 2016Assignee: LENSVECTOR INC.Inventors: Tigran Galstian, Vladimir Presniakov, Karen Asatryan, Armen Zohrabyan
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Patent number: 9405093Abstract: An auto-focus system employing a tunable liquid crystal lens is provided that collects images at different optical power values as the liquid crystal molecules are excited between a ground state and a maximum optical power state tracking image focus scores. An image is acquired at a desired optical power value less than maximum optical power established with the liquid crystal molecules closer a fully excited state than the maximum optical power state having the same image focus score. This drive signal employed during image acquisition uses more power than was used to achieve the same optical power value during the auto-focus scan, while actively driving the liquid crystal molecules is fast. A pause due to image transfer/processing delays after acquisition is employed to allow slow relaxation of the liquid crystal molecules back to the ground state in preparation for a subsequent focus search.Type: GrantFiled: April 7, 2015Date of Patent: August 2, 2016Assignee: LENSVECTOR INC.Inventors: Armen Zohrabyan, Tigran Galstian, Karen Asatryan, Vladimir Presniakov, Marco Thiboutot, Aram Bagramyan, Amir Tork, Jeffrey James Parker, Ted Cooper, Behzad Khodadad, Gongjian Hu, Chong I Cheang
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Patent number: 9314148Abstract: A motionless adaptive focus stereoscopic scene capture apparatus employing tuneable liquid crystal lenses is provided. The apparatus includes at least two image sensors preferably fabricated as a monolithic stereo image capture component and at least two corresponding tuneable liquid crystal lenses preferably fabricated as a monolithic focus adjustment component. Using a variable focus tuneable liquid crystal lens at each aperture stop provides constant magnification focus control. Controlled spatial variance of a spatially variant electric field applied to the liquid crystal of each tuneable liquid crystal lens provides optical axis shift enabling registration between stereo images. A controller implements coupled auto-focusing methods employing multiple focus scores derived from at least two camera image sensors and providing multiple tuneable liquid crystal lens drive signals for synchronous focus acquisition of a three dimensional scene.Type: GrantFiled: December 5, 2011Date of Patent: April 19, 2016Assignee: LENSVECTOR, INC.Inventors: Tigran Galstian, Peter P Clark, Suresh Venkatraman
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Patent number: 9244297Abstract: Variable liquid crystal devices for controlling the propagation of light through a liquid crystal layer use a frequency dependent material to dynamically reconfigure effective electrode structures in the device. The drive signal source uses pulse-width modulation to set a frequency and an amplitude of the drive signal.Type: GrantFiled: March 27, 2015Date of Patent: January 26, 2016Assignee: LENSVECTOR INC.Inventors: Tigran Galstian, Vladimir Presniakov, Karen Asatryan, Amir Tork, Armen Zohrabyan, Aram Bagramyan
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Patent number: 9239479Abstract: A tunable liquid crystal optical device is described. The optical device has an electrode arrangement associated with a liquid crystal cell and includes a hole patterned electrode, wherein control of the liquid crystal cell depends on electrical characteristics of liquid crystal optical device layers. The optical device further has a circuit for measuring said electrical characteristics of the liquid crystal optical device layers, and a drive signal circuit having at least one parameter adjusted as a function of the measured electrical characteristics. The drive signal circuit generates a control signal for the electrode arrangement.Type: GrantFiled: September 21, 2011Date of Patent: January 19, 2016Assignee: LENSVECTOR INC.Inventors: Behzad Khodadad, Michael J. Nystrom, Bahram Afshari, Karen Asatryan, Tigran Galstian
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Publication number: 20160000557Abstract: A liquid crystal optical device is provided, including a layered structure including at least two support substrates. An external hole patterned control electrode is provided on one of the substrates and has an aperture. An internal hole patterned control electrode is provided on one of the substrates within the aperture, the internal and outer control electrodes being separated by a gap, which forms part of the aperture. A weakly conductive material is provided on one of the substrates over the aperture. A planar transparent electrode is provided on another one of the substrates. An alignment surface is provided on the substrates over the electrodes. A layer of liquid crystal material is contained by the substrates and in contact with the alignment surface of the substrates. A floating transparent electrode is provided on a side of one of the substrates opposite the outer and the internal hole patterned electrode.Type: ApplicationFiled: December 18, 2013Publication date: January 7, 2016Applicant: LENSVECTOR INC.Inventors: Tigran GALSTIAN, Karen ASATRYAN, Vladimir PRESNIAKOV, Aram BAGRAMYAN, Amir TORK, Armen ZOHRABYAN, Simon CAREAU
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Patent number: 9229254Abstract: Variable liquid crystal devices for controlling the propagation of light through a liquid crystal layer use a frequency dependent material to dynamically reconfigure effective electrode structures in the device. The drive signal source uses pulse-width modulation to set a frequency and an amplitude of the drive signal.Type: GrantFiled: September 30, 2014Date of Patent: January 5, 2016Assignee: LENSVECTOR INC.Inventors: Tigran Galstian, Vladimir Presniakov, Karen Asatryan, Amir Tork, Armen Zohrabyan, Aram Bagramyan
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Patent number: 9201285Abstract: An electrode structure is proposed for controlling a spatially non-uniform electric field driving a tunable liquid crystal lens or beam steering device. The spatially non-uniform electrode structure enables the generation of a predetermined spatially non-uniform electric field profile where complex capacitive coupling between multiple different electrically floating neighboring electrode segments is employed for the generation of the electrical field of desired form by supplying an initial electric potential to a limited number of electrodes.Type: GrantFiled: November 11, 2013Date of Patent: December 1, 2015Assignee: LENSVECTOR INC.Inventors: Tigran Galstian, Vladimir Presniakov, Karen Asatryan, Amir Tork, Armen Zohrabyan, Aram Bagramyan, Simon Careau
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Publication number: 20150301427Abstract: A spatially non-uniform electrode structure is proposed for controlling a spatially non-uniform electric field driving a tunable liquid crystal lens. The spatially non-uniform electrode structure enables the generation of a predetermined spatially non-uniform electric field profile where complex capacitive coupling between multiple different electrically floating neighboring electrode segments is employed for the generation of the electrical field of desired form by supplying an initial electric potential to a limited number of electrodes.Type: ApplicationFiled: November 12, 2013Publication date: October 22, 2015Applicant: LENSVECTOR INC.Inventors: Tigran GALSTIAN, Vladimir PRESNIAKOV, Karen ASATRYAN, Amir TORK, Armen ZOHRABYAN, Aram BAGRAMYAN, Simon CAREAU
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Publication number: 20150301307Abstract: An auto-focus system employing a tunable liquid crystal lens is provided that collects images at different optical power values as the liquid crystal molecules are excited between a ground state and a maximum optical power state tracking image focus scores. An image is acquired at a desired optical power value less than maximum optical power established with the liquid crystal molecules closer a fully excited state than the maximum optical power state having the same image focus score. This drive signal employed during image acquisition uses more power than was used to achieve the same optical power value during the auto-focus scan, while actively driving the liquid crystal molecules is fast. A pause due to image transfer/processing delays after acquisition is employed to allow slow relaxation of the liquid crystal molecules back to the ground state in preparation for a subsequent focus search.Type: ApplicationFiled: April 7, 2015Publication date: October 22, 2015Applicant: LENSVECTOR INC.Inventors: Armen ZOHRABYAN, Tigran GALSTIAN, Karen ASATRYAN, Vladimir PRESNIAKOV, Marco THIBOUTOT, Aram BAGRAMYAN, Amir TORK, Jeffrey James PARKER, Ted COOPER, Behzad KHODADAD, Gongjian HU, Chong I CHEANG
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Patent number: 9161681Abstract: A motionless adaptive focus stereoscopic scene capture apparatus employing tunable liquid crystal lenses is provided. The apparatus includes at least two image sensors preferably fabricated as a monolithic stereo image capture component and at least two corresponding tunable liquid crystal lenses preferably fabricated as a monolithic focus adjustment component. Using a variable focus tunable liquid crystal lens at each aperture stop provides constant magnification focus control. Controlled spatial variance of a spatially variant electric field applied to the liquid crystal of each tunable liquid crystal lens provides optical axis shift enabling registration between stereo images. A controller implements coupled auto-focusing methods employing multiple focus scores derived from at least two camera image sensors and providing multiple tunable liquid crystal lens drive signals for synchronous focus acquisition of a three dimensional scene.Type: GrantFiled: December 5, 2011Date of Patent: October 20, 2015Assignee: LENSVECTOR, INC.Inventors: Tigran Galstian, Peter P Clark, Suresh Venkatraman
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Patent number: 9140920Abstract: Methods and apparatus for testing operation of a single or multiple tunable active optical device(s) operated by one or more driving electrodes are described Test methods and apparatus are provided for device testing without necessarily requiring direct physical contact with the driving electrodes Testing subjects devices to incident light along an optical path and to an external electric field applied to the device producing a dipolar charge distribution within the electrodes, causing the device to operate The effect of device operation on incident light is optically sensed The sensed effect is analyzed to identify device defects Test methods and apparatus are provided for testing multiple unsingulated devices during fabrication employing a strip contact structure having contact strips connected to multiple devices and extending to wafer edges, such that singulating devices leaves portions of the strip contact structure exposed on device dice edges providing electrical contacts in use.Type: GrantFiled: October 27, 2010Date of Patent: September 22, 2015Assignee: LensVector, Inc.Inventors: Bahram Afshari, Karen Asatryan, Peter P. Clark, Tigran Galstian, Michael J. Nystrom, Vladimir Presniakov, Sergei Yakovenko, Armen Zohrabyan
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Patent number: 9065991Abstract: Methods are provided for wafer scale manufacturing camera modules without adjustment components to compensate for assembly errors and optical errors incurred within manufacturing tolerances. Camera modules are assembled in wafer arrays from arrays of image sensors, arrays of lens structures and arrays of optical trim elements. At least one of the arrays is a wafer. Lens structures are configured to provide less optical power than necessary to focus an image at infinity on image sensors without trim elements. A test performed during the wafer scale assembly of camera modules, after at least the sensor array and the lens structure array assembled, determines optical errors by identifying optical distortions and aberrations quantified in terms of optical power, astigmatism, coma, optical axis shift and optical axis reorientation deficiencies. Corresponding trim elements are configured to counteract distortions and aberrations prior to singulating useful camera modules from the array.Type: GrantFiled: November 1, 2011Date of Patent: June 23, 2015Assignee: LensVector Inc.Inventors: Tigran Galstian, Armen Zohrabyan, Karen Asatryan, Amir Tork, Vladimir Presniakov, Aram Bagramyan
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Patent number: 9036102Abstract: Variable liquid crystal devices for controlling the propagation of light through a liquid crystal layer use a frequency dependent material to dynamically reconfigure effective electrode structures in the device. The frequency of a drive signal that generates an electric field in the device can be varied, and the frequency dependent material has different charge mobilities for the different frequencies. At a low charge mobility, the frequency dependent material has little effect on the existing electrode structures. However, at a high charge mobility, the frequency dependent material appears as an extension of the fixed electrodes, and can be used to change the effective electrode structure and, thereby, the spatial profile of the electric field. This, in turn, changes the optical properties of the liquid crystal, thus allowing the optical device to be frequency controllable.Type: GrantFiled: December 23, 2010Date of Patent: May 19, 2015Assignee: LensVector Inc.Inventors: Tigran Galstian, Vladimir Presniakov, Karen Asatryan, Armen Zohrabyan
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Patent number: 9030595Abstract: An auto-focus system employing a tunable liquid crystal lens is provided that collects images at different optical power values as the liquid crystal molecules are excited between a ground state and a maximum optical power state tracking image focus scores. An image is acquired at a desired optical power value less than maximum optical power established with the liquid crystal molecules closer a fully excited state than the maximum optical power state having the same image focus score. This drive signal employed during image acquisition uses more power than was used to achieve the same optical power value during the auto-focus scan, while actively driving the liquid crystal molecules is fast. A pause due to image transfer/processing delays after acquisition is employed to allow slow relaxation of the liquid crystal molecules back to the ground state in preparation for a subsequent focus search.Type: GrantFiled: October 14, 2011Date of Patent: May 12, 2015Assignee: Lensvector Inc.Inventors: Tigran Galstian, Karen Asatryan, Vladimir Presniakov, Marco Thiboutot, Armen Zohrabyan, Aram Bagramyan, Amir Tork, Ted Cooper, Behzad Khodadad, Gongjian Hu, Chong I Cheang, Jeffrey James Parker
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Patent number: 8994915Abstract: A liquid crystal optical device is provided. The optical device includes a liquid crystal cell controlling optical properties of light passing therethrough and has: a liquid crystal layer, a planar electrode located to one side of said liquid crystal layer; an electric field control structure located to the opposite side of the liquid crystal layer; and a wavefront adjustment structure configured to provide optical phase front adjustment. In some embodiments the wavefront adjustment structure is a conductive floating electrode. In other embodiments the wavefront adjustment structure is a weakly conductive structure having spatially variable sheet resistance. In other embodiments the wavefront adjustment structure a weakly conductive structure having spatially variable sheet resistance having a frequency dependent characteristic.Type: GrantFiled: January 27, 2012Date of Patent: March 31, 2015Assignee: LensVector Inc.Inventors: Armen Zohrabyan, Karen Asatryan, Tigran Galstian, Vladimir Presniakov, Amir Tork, Aram Bagramyan