Patents by Inventor Hung P. Nguyen
Hung P. Nguyen 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: 10769769Abstract: A dual mode inspector includes an optical inspector configured to detect a defect located at a first location on a sample, a microscope configured to capture an image of the defect at the first location on the sample, and a platform that is configured to support the sample. The sample is not removed from the platform between the detecting of the defect located at the first location on the sample and the capturing of the image of the defect at the first location on the sample. The dual mode optical inspector also includes a controller that causes the optical inspector to detect the defect located at the first location on the sample and causes the microscope to capture the image of the defect at the first location on the sample. The dual mode inspector also performs scanning lens distortion correction to improve the capturing of defect images.Type: GrantFiled: July 1, 2016Date of Patent: September 8, 2020Assignee: KLA-TENCOR CORPORATIONInventors: Steven W. Meeks, Rusmin Kudinar, Ronny Soetarman, Hung P. Nguyen, James Jianguo Xu
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Patent number: 10475173Abstract: A dual mode inspector includes an optical inspector configured to detect a defect located at a first location on a sample, a microscope configured to capture an image of the defect at the first location on the sample, and a platform that is configured to support the sample. The sample is not removed from the platform between the detecting of the defect located at the first location on the sample and the capturing of the image of the defect at the first location on the sample. The dual mode optical inspector also includes a controller that causes the optical inspector to detect the defect located at the first location on the sample and causes the microscope to capture the image of the defect at the first location on the sample. The dual mode inspector also performs scanning lens distortion correction to improve the capturing of defect images.Type: GrantFiled: July 1, 2016Date of Patent: November 12, 2019Assignee: KLA-TENCOR CORPORATIONInventors: Steven W. Meeks, Rusmin Kudinar, Ronny Soetarman, Hung P. Nguyen, James Jianguo Xu
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Patent number: 10094787Abstract: An optical inspector includes a time varying beam reflector, a radiating source that irradiates the time varying beam reflector, a telecentric scan lens configured to direct the radiation reflected by the time varying beam reflector onto a first surface of a transparent sample, a first detector that receives at least a portion of top surface specular reflection, a second detector that receives at least a portion of the bottom surface specular reflection. A turning mirror may also be included. The turning mirror is a switchable mirror that can be adjusted to a first position where the turning mirror reflects the top and bottom surface specular reflection, and can be adjusted to a second position where the turning mirror does not reflect the top or the bottom surface specular reflection. A first and second polarizing element may also be included to detect additional types of defects on either surface.Type: GrantFiled: May 19, 2016Date of Patent: October 9, 2018Assignee: KLA-TENCOR CORPORATIONInventors: Steven W. Meeks, Rusmin Kudinar, Ronny Soetarman, Hung P. Nguyen
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Patent number: 9921169Abstract: A method for detecting defects includes directing a scanning beam to a location on a surface of a transparent sample, measuring top and bottom surface specular reflection intensity, and storing coordinate values of the first location and the top and bottom surface specular reflection intensity in a memory. The method may further include comparing the top surface specular reflection intensity measured at each location with a first threshold value, comparing the bottom surface specular reflection intensity measured at each location with a second threshold value, and determining if a defect is present at each location and on which surface the defect is present. The method may further include comparing the top surface specular reflection intensity measured at each location with a first intensity range, comparing the bottom surface specular reflection intensity measured at each location with a second intensity range, and determining on which surface the defect is present.Type: GrantFiled: May 19, 2016Date of Patent: March 20, 2018Assignee: ZETA INSTRUMENTS, INC.Inventors: Steven W. Meeks, Rusmin Kudinar, Ronny Soetarman, Hung P. Nguyen
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Publication number: 20180005364Abstract: A dual mode inspector includes an optical inspector configured to detect a defect located at a first location on a sample, a microscope configured to capture an image of the defect at the first location on the sample, and a platform that is configured to support the sample. The sample is not removed from the platform between the detecting of the defect located at the first location on the sample and the capturing of the image of the defect at the first location on the sample. The dual mode optical inspector also includes a controller that causes the optical inspector to detect the defect located at the first location on the sample and causes the microscope to capture the image of the defect at the first location on the sample. The dual mode inspector also performs scanning lens distortion correction to improve the capturing of defect images.Type: ApplicationFiled: July 1, 2016Publication date: January 4, 2018Inventors: Steven W. Meeks, Rusmin Kudinar, Ronny Soetarman, Hung P. Nguyen, James Jianguo Xu
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Publication number: 20170336330Abstract: A method for detecting defects includes directing a scanning beam to a location on a surface of a transparent sample, measuring top and bottom surface specular reflection intensity, and storing coordinate values of the first location and the top and bottom surface specular reflection intensity in a memory. The method may further include comparing the top surface specular reflection intensity measured at each location with a first threshold value, comparing the bottom surface specular reflection intensity measured at each location with a second threshold value, and determining if a defect is present at each location and on which surface the defect is present. The method may further include comparing the top surface specular reflection intensity measured at each location with a first intensity range, comparing the bottom surface specular reflection intensity measured at each location with a second intensity range, and determining on which surface the defect is present.Type: ApplicationFiled: May 19, 2016Publication date: November 23, 2017Inventors: Steven W. Meeks, Rusmin Kudinar, Ronny Soetarman, Hung P. Nguyen
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Publication number: 20170336331Abstract: An optical inspector includes a time varying beam reflector, a radiating source that irradiates the time varying beam reflector, a telecentric scan lens configured to direct the radiation reflected by the time varying beam reflector onto a first surface of a transparent sample, a first detector that receives at least a portion of top surface specular reflection, a second detector that receives at least a portion of the bottom surface specular reflection. A turning mirror may also be included. The turning mirror is a switchable mirror that can be adjusted to a first position where the turning mirror reflects the top and bottom surface specular reflection, and can be adjusted to a second position where the turning mirror does not reflect the top or the bottom surface specular reflection. A first and second polarizing element may also be included to detect additional types of defects on either surface.Type: ApplicationFiled: May 19, 2016Publication date: November 23, 2017Inventors: Steven W. Meeks, Rusmin Kudinar, Ronny Soetarman, Hung P. Nguyen
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Publication number: 20150026715Abstract: A choice-based ad unit format wherein a user chooses his or her pre-roll ad or can choose to wait for the main content to load. Once the video advertisement selected loads, the user can then choose to skip the ad or view the entire ad experience. Preferably, the ad viewing experience is integrated with a site to enable the ad unit to have unlimited access to in-stream inventory that is otherwise available from the site.Type: ApplicationFiled: July 22, 2013Publication date: January 22, 2015Applicant: Visible Measures Corp.Inventors: David Bernstein, Hung P. Nguyen
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Patent number: 8896825Abstract: An optical inspector includes a radiating source, a time varying beam reflector, a telecentric scan lens, a first and second lens, a field stop, and a detector. The radiating source irradiates a first position of on the time varying beam reflector with a source beam. The time varying beam reflector directs the source beam to the telecentric scan lens, which in turn directs the source beam to a sample. The first lens focuses scattered radiation from the sample to generate multiple scan lines at a first focal plane. The field stop is positioned at the first focal plane to block one or more scan lines at the first focal plane. The scan line not blocked by the field stop propagates to the second lens. The second lens de-scans the scan line and generates a point of scattered radiation at a second focal plane where the detector input is located.Type: GrantFiled: February 1, 2013Date of Patent: November 25, 2014Assignee: Zeta Instruments, Inc.Inventors: Steven W. Meeks, Rusmin Kudinar, Hung P. Nguyen
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Publication number: 20140307255Abstract: An optical inspector includes a radiating source, a time varying beam reflector, a telecentric scan lens, a first and second waveplate, a polarizing beam splitter, a first detector, a focusing lens, a blocker, and a second detector. The radiating source irradiates the first waveplate generating circularly polarized source beam that irradiates a first position of on the time varying beam reflector with a source beam. The time varying beam reflector directs the source beam to the telecentric scan lens, which in turn directs the source beam to a sample. Reflected radiation from a sample is directed to the second waveplate generating linearly polarized beam that irradiates the polarizing beam splitter which directs a portion of the reflected radiation to the first detector. Scattered radiation from the sample is directed by the focusing lens to the second detector. Contemporaneous measurements by the first and second detectors are compared to differentiate.Type: ApplicationFiled: April 12, 2013Publication date: October 16, 2014Applicant: Zeta Instruments, Inc.Inventors: Steven W. Meeks, Rusmin Kudinar, Hung P. Nguyen
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Patent number: 8848181Abstract: An optical inspector includes a radiating source, a time varying beam reflector, a telecentric scan lens, a first and second waveplate, a polarizing beam splitter, a first detector, a focusing lens, a blocker, and a second detector. The radiating source irradiates the first waveplate generating circularly polarized source beam that irradiates a first position of on the time varying beam reflector with a source beam. The time varying beam reflector directs the source beam to the telecentric scan lens, which in turn directs the source beam to a sample. Reflected radiation from a sample is directed to the second waveplate generating linearly polarized beam that irradiates the polarizing beam splitter which directs a portion of the reflected radiation to the first detector. Scattered radiation from the sample is directed by the focusing lens to the second detector. Contemporaneous measurements by the first and second detectors are compared to differentiate.Type: GrantFiled: April 12, 2013Date of Patent: September 30, 2014Assignee: Zeta Instruments, Inc.Inventors: Steven W. Meeks, Rusmin Kudinar, Hung P. Nguyen
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Patent number: 8836935Abstract: An optical inspector includes a radiating source, a time varying beam reflector, a telecentric scan lens, a blocker, a focusing lens, an aperture, and a detector. The radiating source irradiates a first position of on the time varying beam reflector with a source beam. The time varying beam reflector directs the source beam to the telecentric scan lens, which in turn directs the source beam to a transparent sample. A portion of the source beam travels through the transparent sample to another surface. The blocker blocks scattered radiation originating at the other surface. Scattered radiation originating from the transparent sample is not redirected by the blocker and is focused by the focusing lens to a first focal plane. The focused scattered radiation passes through the aperture before irradiating the detector. The detector output an intensity measurement of the scattered radiation that irradiates the detector.Type: GrantFiled: April 12, 2013Date of Patent: September 16, 2014Assignee: Zeta Instruments, Inc.Inventors: Steven W. Meeks, Rusmin Kudinar, Hung P. Nguyen
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Patent number: 8830456Abstract: An optical inspector includes a radiating source, a time varying beam reflector, a telecentric scan lens, a separating mirror, and a first and second detector. The radiating source is configured to irradiate a first position on the time varying beam reflector with a source beam. The time varying beam reflector directs the source beam to the telecentric scan lens, which in turn directs the source beam to a sample. The telecentric scan lens directs specular reflection and near specular scattered radiation to the time varying beam reflector. The specular reflection is directed by the separating mirror to the first detector. The near specular scattered radiation is not reflected by the separating mirror and propagates to the second detector. In response, the optical inspector determines the total reflectivity, the surface slope, or the near specular scattered radiation intensity of the sample.Type: GrantFiled: February 1, 2013Date of Patent: September 9, 2014Assignee: Zeta Instruments, Inc.Inventors: Steven W. Meeks, Rusmin Kudinar, Hung P. Nguyen
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Patent number: 8830457Abstract: An optical inspector includes a radiating source, a time varying beam reflector, a telecentric scan lens, a first waveplate, a second waveplate, a polarizing beam splitter, and a detector. The radiating source irradiates the first waveplate with a linearly polarized source beam generating a circularly polarized source beam, which irradiates a first position of on the time varying beam reflector. The time varying beam reflector directs the source beam to the telecentric scan lens, which in turn directs the source beam to a transparent sample. The reflected radiation from the transparent sample is directed via the telecentric lens and the time varying beam reflector to the second waveplate, which converts circularly polarized reflected radiation to linearly polarized reflected radiation including radiation that is vertically polarized and radiation that is horizontally polarized.Type: GrantFiled: April 12, 2013Date of Patent: September 9, 2014Assignee: Zeta Instruments, Inc.Inventors: Steven W. Meeks, Rusmin Kudinar, Hung P. Nguyen
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Patent number: 8823935Abstract: A system to detect and classify defects on a surface of a substrate. A first targeting assembly directs radiation in a first beam onto the substrate. A first collecting assembly collects first radiation specularly reflected from the substrate and produces first signals, a second collecting assembly collects first radiation scattered from the surface of the substrate by defects and not micro-roughness and produces second signals, and a third collecting assembly collects first radiation scattered from the surface of the substrate by defects and micro-roughness and produces third signals. A second targeting assembly directs radiation in a second beam onto the substrate. A fourth collecting assembly collects second radiation scattered from the substrate and produces fourth signals. A processor receives the first, second, third, and fourth signals.Type: GrantFiled: September 10, 2009Date of Patent: September 2, 2014Assignee: KLA-Tencor CorporationInventors: Steven W. Meeks, Xiaoqian Xu, Hung P. Nguyen, Alireza Shahdoost Moghadam, Mahendra Prabhu Ramachandran
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Publication number: 20140218722Abstract: An optical inspector includes a radiating source, a time varying beam reflector, a telecentric scan lens, a first and second lens, a field stop, and a detector. The radiating source irradiates a first position of on the time varying beam reflector with a source beam. The time varying beam reflector directs the source beam to the telecentric scan lens, which in turn directs the source beam to a sample. The first lens focuses scattered radiation from the sample to generate multiple scan lines at a first focal plane. The field stop is positioned at the first focal plane to block one or more scan lines at the first focal plane. The scan line not blocked by the field stop propagates to the second lens. The second lens de-scans the scan line and generates a point of scattered radiation at a second focal plane where the detector input is located.Type: ApplicationFiled: February 1, 2013Publication date: August 7, 2014Applicant: Zeta Instruments, Inc.Inventors: Steven W. Meeks, Rusmin Kudinar, Hung P. Nguyen
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Publication number: 20140218724Abstract: An optical inspector includes a radiating source, a time varying beam reflector, a telecentric scan lens, a separating minor, and a first and second detector. The radiating source is configured to irradiate a first position on the time varying beam reflector with a source beam. The time varying beam reflector directs the source beam to the telecentric scan lens, which in turn directs the source beam to a sample. The telecentric scan lens directs specular reflection and near specular scattered radiation to the time varying beam reflector. The specular reflection is directed by the separating mirror to the first detector. The near specular scattered radiation is not reflected by the separating minor and propagates to the second detector. In response, the optical inspector determines the total reflectivity, the surface slope, or the near specular scattered radiation intensity of the sample.Type: ApplicationFiled: February 1, 2013Publication date: August 7, 2014Applicant: ZETA INSTRUMENTS, INC.Inventors: Steven W. Meeks, Rusmin Kudinar, Hung P. Nguyen
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Patent number: 8325334Abstract: An apparatus for inspecting an edge of a substrate. A light source produces a light beam, and a two-dimensional beam deflector receives the light beam and creates a semi-annular scanning beam. A first flared parabolic surface receives the semi-annular scanning beam and directs the semi-annular scanning beam onto the edge of the substrate, thereby creating specularly reflected light from the edge of the substrate. A second flared parabolic surface receives and directs the specularly reflected light to a detector. The detector receives the directed specularly reflected light and produces signals. An analyzer analyzes the signals and detects defects at the edge of the substrate.Type: GrantFiled: August 18, 2010Date of Patent: December 4, 2012Assignee: KLA-Tencor CorporationInventors: Mahendra P. Ramachandran, Steven W. Meeks, Alireza S. Moghadam, Hung P. Nguyen
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Publication number: 20110058174Abstract: An apparatus for inspecting an edge of a substrate. A light source produces a light beam, and a two-dimensional beam deflector receives the light beam and creates a semi-annular scanning beam. A first flared parabolic surface receives the semi-annular scanning beam and directs the semi-annular scanning beam onto the edge of the substrate, thereby creating specularly reflected light from the edge of the substrate. A second flared parabolic surface receives and directs the specularly reflected light to a detector. The detector receives the directed specularly reflected light and produces signals. An analyzer analyzes the signals and detects defects at the edge of the substrate.Type: ApplicationFiled: August 18, 2010Publication date: March 10, 2011Applicant: KLA-TENCOR CORPORATIONInventors: Mahendra P. Ramachandran, Steven W. Meeks, Alireza S. Moghadam, Hung P. Nguyen
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Patent number: 6930765Abstract: A combined optical profiler, ellipsometer, reflectometer and scatterometer is described which is configured to have user selectable spot sizes. An attached computer allows the user to select via software the desired spot size on the substrate.Type: GrantFiled: April 19, 2002Date of Patent: August 16, 2005Assignee: KLA-Tencor TechnologiesInventors: Steven W. Meeks, Hung P. Nguyen