Patents by Inventor Benjamin Tsai
Benjamin Tsai 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: 6867406Abstract: A semiconductor wafer inspection system and method is provided which uses a multiple element arrangement, such as an offset fly lens array. The preferred embodiment uses a laser to transmit light energy toward a beam expander, which expands the light energy to create an illumination field. An offset fly lens array converts light energy from the illumination field into an offset pattern of illumination spots. A lensing arrangement, including a first lens, a transmitter/reflector, an objective, and a Mag tube imparts light energy onto the specimen and passes the light energy toward a pinhole mask. The pinhole mask is mechanically aligned with the offset fly lens array. Light energy passing through each pinhole in the pinhole mask is directed toward a relay lens, which guides light energy onto a sensor. The offset fly lens array corresponds to the pinhole mask.Type: GrantFiled: March 23, 2000Date of Patent: March 15, 2005Assignee: KLA-Tencor CorporationInventors: Christopher R. Fairley, Tao-Yi Fu, Bin-Ming Benjamin Tsai, Scott A. Young
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Publication number: 20040252297Abstract: The broadband brightfield/darkfield wafer inspection system provided receives broadband brightfield illumination information via a defect detector, which signals for initiation of darkfield illumination. The defect detector forms a two dimensional histogram of the defect data and a dual mode defect decision algorithm and post processor assess defects. Darkfield radiation is provided by two adjustable height laser beams which illuminate the surface of the wafer from approximately 6 to 39 degrees. Each laser is oriented at an azimuth angle 45 degrees from the orientation of the manhattan geometry on the wafer, and 90 degrees in azimuth from one another. Vertical angular adjustability is provided by modifying cylindrical lens position to compensate for angular mirror change by translating an adjustable mirror, positioning the illumination spot into the sensor field of view, rotating and subsequently moving the cylindrical lens.Type: ApplicationFiled: July 9, 2004Publication date: December 16, 2004Applicant: KLA-Tencor Technologies CorporationInventors: Christopher R. Fairley, Tao-Yi Fu, Gershon Perelman, Bin-Ming Benjamin Tsai
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Publication number: 20040223146Abstract: A method and inspection system to inspect a first pattern on a specimen for defects against a second pattern that is intended to be the same where the second pattern has known responses to at least one probe. The inspection is performed by applying at least one probe to a point of the first pattern on the specimen to generate at least two responses from the specimen. Then the first and second responses are detected from the first pattern, and each of those responses is then compared with the corresponding response from the same point of the second pattern to develop first and second response difference signals. Those first and second response difference signals are then processed together to unilaterally determine a first pattern defect list.Type: ApplicationFiled: June 17, 2004Publication date: November 11, 2004Applicant: KLA INSTRUMENTS CORPORATIONInventors: Bin-Ming Benjamin Tsai, Russell M. Pon
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Patent number: 6816249Abstract: The broadband brightfield/darkfield wafer inspection system provided receives broadband brightfield illumination information via a defect detector, which signals for initiation of darkfield illumination. The defect detector forms a two dimensional histogram of the defect data and a dual mode defect decision algorithm and post processor assess defects. Darkfield radiation is provided by two adjustable height laser beams which illuminate the surface of the wafer from approximately 6 to 39 degrees. Each laser is oriented at an azimuth angle 45 degrees from the orientation of the manhattan geometry on the wafer, and 90 degrees in azimuth from one another. Vertical angular adjustability is provided by modifying cylindrical lens position to compensate for angular mirror change by translating an adjustable mirror, positioning the illumination spot into the sensor field of view, rotating and subsequently moving the cylindrical lens.Type: GrantFiled: July 17, 2001Date of Patent: November 9, 2004Assignee: KLA-Tencor CorporationInventors: Christopher R Fairley, Tao-Yi Fu, Gershon Perelman, Bin-Ming Benjamin Tsai
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Patent number: 6771806Abstract: Disclosed is a method for detecting electrical defects on test structures of a semiconductor die. The test structures includes a plurality of electrically-isolated test structures and a plurality of non-electrically-isolated test structures. The test structures each has a portion located partially within a scan area. The portion of the test structures located within the scan area is scanned to obtain voltage contrast images of the test structures' portions. In a multi-pixel processor, the obtained voltage contrast images are analyzed to determine whether there are defects present within the test structures. In a preferred embodiment, the multi-pixel processor operates with pixel resolution sizes in a range of about 25 nm to 200 nm. In another aspect, the processor operates with a pixel size nominally equivalent to two times a width of the test structure's line width to maximize throughput at optimal signal to noise sensitivity.Type: GrantFiled: August 25, 2000Date of Patent: August 3, 2004Assignee: KLA-TencorInventors: Akella V. S. Satya, David L. Adler, Bin-Ming Benjamin Tsai, David J. Walker
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Publication number: 20040095573Abstract: A system and method for inspecting a specimen, such as a semiconductor wafer, including illuminating at least a portion of the specimen using an excimer source using at least one relatively intense wavelength from the source, detecting radiation received from the illuminated portion of the specimen, analyzing the detected radiation for potential defects present in the specimen portion.Type: ApplicationFiled: March 12, 2002Publication date: May 20, 2004Inventors: Bin-Ming Benjamin Tsai, Yung-Ho Chuang, J. Joseph Armstrong, David Lee Brown
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Publication number: 20040017562Abstract: A method and inspection system to inspect a first pattern on a specimen for defects against a second pattern that is intended to be the same where the second pattern has known responses to at least one probe. The inspection is performed by applying at least one probe to a point of the first pattern on the specimen to generate at least two responses from the specimen. Then the first and second responses are detected from the first pattern, and each of those responses is then compared with the corresponding response from the same point of the second pattern to develop first and second response difference signals. Those first and second response difference signals are then processed together to unilaterally determine a first pattern defect list.Type: ApplicationFiled: July 28, 2003Publication date: January 29, 2004Applicant: KLA INSTRUMENTS CORPORATIONInventors: Bin-Ming Benjamin Tsai, Russell M. Pon
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Publication number: 20030063274Abstract: A method and inspection system to inspect a first pattern on a specimen for defects against a second pattern that is intended to be the same where the second pattern has known responses to at least one probe. The inspection is performed by applying at least one probe to a point of the first pattern on the specimen to generate at least two responses from the specimen. Then the first and second responses are detected from the first pattern, and each of those responses is then compared with the corresponding response from the same point of the second pattern to develop first and second response difference signals. Those first and second response difference signals are then processed together to unilaterally determine a first pattern defect list.Type: ApplicationFiled: November 7, 2002Publication date: April 3, 2003Inventors: Bin-Ming Benjamin Tsai, Russell M. Pon
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Patent number: 6524873Abstract: Disclosed is, a method for detecting electrical defects on test structures of a semiconductor die. The semiconductor die includes a plurality of electrically-isolated test structures and a plurality of non-electrically-isolated test structures. Voltages are established for the plurality of electrically-isolated test structures. These voltages are different than the voltages of the plurality of non-electrically-isolated test structures. A region of the semiconductor die is continuously inspected in a first direction thereby obtaining voltage contrast data indicative of whether there are defective test structures. The voltage contrast data is analyzed to determine whether there are one or more defective test structures.Type: GrantFiled: August 25, 2000Date of Patent: February 25, 2003Assignee: KLA-TencorInventors: Akella V. S. Satya, David L. Adler, Bin-Ming Benjamin Tsai, Neil Richardson, David J. Walker
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Patent number: 6445199Abstract: Disclosed is a method of inspecting a sample. The sample is illuminated with an incident beam, thereby causing voltage contrast within structures present on the sample. Voltage contrast is detected within the structures. Information from the detected voltage contrast is stored, and position data concerning the location of features corresponding to at least a portion of the stored voltage contrast information is also stored. In a specific embodiment, the features represent electrical defects present on the sample. In another embodiment, the stored position data is in the form of a two dimensional map. In another aspect, the sample is re-inspected and the stored position data is used in analyzing data resulting from the re-inspection.Type: GrantFiled: August 25, 2000Date of Patent: September 3, 2002Assignee: KLA-Tencor CorporationInventors: Akella V. S. Satya, Brian C. Leslie, Gustavo A. Pinto, Robert Thomas Long, Neil Richardson, Bin-Ming Benjamin Tsai
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Publication number: 20020118359Abstract: The broadband brightfield/darkfield wafer inspection system provided receives broadband brightfield illumination information via a defect detector, which signals for initiation of darkfield illumination. The defect detector forms a two dimensional histogram of the defect data and a dual mode defect decision algorithm and post processor assess defects. Darkfield radiation is provided by two adjustable height laser beams which illuminate the surface of the wafer from approximately 6 to 39 degrees. Each laser is oriented at an azimuth angle 45 degrees from the orientation of the manhattan geometry on the wafer, and 90 degrees in azimuth from one another. Vertical angular adjustability is provided by modifying cylindrical lens position to compensate for angular mirror change by translating an adjustable mirror, positioning the illumination spot into the sensor field of view, rotating and subsequently moving the cylindrical lens.Type: ApplicationFiled: July 17, 2001Publication date: August 29, 2002Applicant: KLA-Tencor Technologies CorporationInventors: Christopher R. Fairley, Tao-Yi Fu, Gershon Perelman, Bin-Ming Benjamin Tsai
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Patent number: 6433561Abstract: Disclosed is a method of inspecting a sample. At least a portion of the sample is illuminated. Signals received from the illuminated portion are detected, and the detected signals are processed to find defects present on the sample. The processing of the detected signals is optimized, at least in part, based upon results obtained from voltage contrast testing. In one implementation, the illumination is an optical illumination. In another embodiment, the processing comprises automated defect classification, and setup of the automated classification is optimized using the results obtained from voltage contrast testing. In another implementation, the results relate to a probability that a feature present on the sample represents an electrical defect.Type: GrantFiled: August 25, 2000Date of Patent: August 13, 2002Assignee: KLA-Tencor CorporationInventors: Akella V. S. Satya, Gustavo A. Pinto, Robert Thomas Long, Bin-Ming Benjamin Tsai, Brian C. Leslie
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Publication number: 20020054291Abstract: A method and inspection system to inspect a first pattern on a specimen for defects against a second pattern that is intended to be the same where the second pattern has known responses to at least one probe. The inspection is performed by applying at least one probe to a point of the first pattern on the specimen to generate at least two responses from the specimen. Then the first and second responses are detected from the first pattern, and each of those responses is then compared with the corresponding response from the same point of the second pattern to develop first and second response difference signals. Those first and second response difference signals are then processed together to unilaterally determine a first pattern defect list.Type: ApplicationFiled: November 5, 2001Publication date: May 9, 2002Inventors: Bin-Ming Benjamin Tsai, Russell M. Pon
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Patent number: 6288780Abstract: The broadband brightfield/darkfield wafer inspection system provided receives broadband brightfield illumination information via a defect detector, which signals for initiation of darkfield illumination. The defect detector forms a two dimensional histogram of the defect data and a dual mode defect decision algorithm and post processor assess defects. Darkfield radiation is provided by two adjustable height laser beams which illuminate the surface of the wafer from approximately 6 to 39 degrees. Each laser is oriented at an azimuth angle 45 degrees from the orientation of the Manhattan geometry on the wafer, and 90 degrees in azimuth from one another. Vertical angular adjustability is provided by modifying cylindrical lens position to compensate for angular mirror change by translating an adjustable mirror, positioning the illumination spot into the sensor field of view, rotating and subsequently moving the cylindrical lens.Type: GrantFiled: December 16, 1997Date of Patent: September 11, 2001Assignee: KLA-Tencor Technologies Corp.Inventors: Christopher R Fairley, Tao-Yi Fu, Gershon Perelman, Bin-Ming Benjamin Tsai
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Patent number: 6188785Abstract: An image signal of a large number of patterns of the same shape on an LSI wafer obtained by an image sensor is held in a memory circuit, by using a CMOS image sensor chip incorporating a one-dimensional CMOS photodiode array, an analog-to-digital conversion circuit, a memory circuit and a processing circuit. Then, the image signal and one-cycle and two-cycle displaced image signals cyclically displaced from the image signal by the processing circuit are algebraically processed by a defect detection algorithm in the processing circuit of the CMOS image sensor. By this processing, a defect image is extracted without using a normal inspection pattern. Thus, a high-speed processing, a simplification of a configuration of an apparatus and a miniaturization of the apparatus become possible.Type: GrantFiled: May 19, 1998Date of Patent: February 13, 2001Assignee: NEC CorporationInventors: Toyokazu Nakamura, Benjamin Tsai
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Patent number: 6137570Abstract: Disclosed is a method and apparatus for using far field scattered and diffracted light to determine whether a collection of topological features on a surface (e.g., a semiconductor wafer) conforms to an expected condition or quality. This determination is made by comparing the far field diffraction pattern of a surface under consideration with a corresponding diffraction pattern (a "baseline"). If the baseline diffraction pattern and far field diffraction pattern varies by more than a prescribed amount or in characteristic ways, it is inferred that the surface features are defective. The method may be implemented as a die-to-die comparison of far field diffraction patterns of two dies on a semiconductor wafer. The portion of the far field scattered and diffracted light sensitive to a relevant condition or quality can also be reimaged to obtain an improved signal-to-noise ratio.Type: GrantFiled: June 30, 1998Date of Patent: October 24, 2000Assignee: KLA-Tencor CorporationInventors: Yung-Ho Chuang, J. Joseph Armstrong, David L. Brown, Jason Z. Lin, Bin-Ming Benjamin Tsai
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Patent number: 6078386Abstract: A method and inspection system to inspect a first pattern on a specimen for defects against a second pattern that is intended to be the same where the second pattern has known responses to at least one probe. The inspection is performed by applying at least one probe to a point of the first pattern on the specimen to generate at least two responses from the specimen. Then the first and second responses are detected from the first pattern, and each of those responses is then compared with the corresponding response from the same point of the second pattern to develop first and second response difference signals. Those first and second response difference signals are then processed together to unilaterally determine a first pattern defect list.Type: GrantFiled: July 13, 1998Date of Patent: June 20, 2000Assignee: KLA Instruments CorporationInventors: Bin-Ming Benjamin Tsai, Russell M. Pon
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Patent number: 5999310Abstract: An ultra-broadband ultraviolet (UV) catadioptric imaging microscope system with wide-range zoom capability. The microscope system, which comprises a catadioptric lens group and a zooming tube lens group, has high optical resolution in the deep UV wavelengths, continuously adjustable magnification, and a high numerical aperture. The system integrates microscope modules such as objectives, tube lenses and zoom optics to reduce the number of components, and to simplify the system manufacturing process. The preferred embodiment offers excellent image quality across a very broad deep ultraviolet spectral range, combined with an all-refractive zooming tube lens. The zooming tube lens is modified to compensate for higher-order chromatic aberrations that would normally limit performance.Type: GrantFiled: August 7, 1997Date of Patent: December 7, 1999Inventors: David Ross Shafer, Yung-Ho Chuang, Bin-Ming Benjamin Tsai
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Patent number: 5822055Abstract: A method and inspection system to inspect a first pattern on a specimen for defects against a second pattern that is intended to be the same where the second pattern has known responses to at least one probe. The inspection is performed by applying at least one probe to a point of the first pattern on the specimen to generate at least two responses from the specimen. Then the first and second responses are detected from the first pattern, and each of those responses is then compared with the corresponding response from the same point of the second pattern to develop first and second response difference signals. Those first and second response difference signals are then processed together to unilaterally determine a first pattern defect list.Type: GrantFiled: June 27, 1997Date of Patent: October 13, 1998Assignee: KLA Instruments CorporationInventors: Bin-Ming Benjamin Tsai, Russell M. Pon