Patents by Inventor Shahida Rana
Shahida Rana 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: 6927382Abstract: The disclosure is directed toward an optical excitation/detection device that includes an arrayed plurality of photodetectors and separately formed photoemitters, as well as a method for making such a device. A CMOS fabricated photodetector array including a plurality of individual photoreceptors is selectively etched back between photoreceptor locations to reveal a plurality of recessed regions having a certain geographic profile. A plurality of semiconductor blocks, each having light emitting capability and each having a certain geometric profile that is complementary in size and shape to the certain geometric profile of the recessed regions, are separately fabricated. These blocks are included within a fluid to form a slurry. The slurry is then flowed over the CMOS fabricated photodetector array in accordance with a fluidic self-assembly technique, and the included semiconductor blocks are individually deposited within each of the plurality of recessed regions in the CMOS fabricated photodetector array.Type: GrantFiled: May 22, 2002Date of Patent: August 9, 2005Assignee: Agilent TechnologiesInventors: David Andrew King, Richard J. Pittaro, Shahida Rana, Edward Verdonk, Frederick A. Stawitcke, Richard D. Pering
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Patent number: 6821793Abstract: The disclosure is directed toward an optical excitation/detection device that includes an arrayed plurality of photodetectors and discrete photoemitters, as well as a method for making such a device. A CMOS fabricated photodetector array includes an arrayed plurality of photoreceptor areas and photoemitter areas, wherein each photoreceptor area includes a CMOS integrated photoreceptor and each photoemitter area includes at least two buried electric contact pads. The CMOS array is selectively etched back at the locations of the photoemitter areas for regions to reveal the buried contact pads. A plurality of discrete semiconductor photoemitter devices (such as, for example, light emitting diodes) are inserted into, and mechanically retained within, the regions of the CMOS fabricated photodetector array.Type: GrantFiled: September 22, 2003Date of Patent: November 23, 2004Assignee: Agilent Technologies, Inc.Inventors: Edward Verdonk, Richard J. Pittaro, Shahida Rana, David Andrew King, Frederick A. Stawitcke, Richard D. Pering
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Publication number: 20040222357Abstract: The disclosure is directed toward an optical excitation/detection device that includes an arrayed plurality of photodetectors and separately formed photoemitters, as well as a method for making such a device. A CMOS fabricated photodetector array including a plurality of individual photoreceptors is selectively etched back between photoreceptor locations to reveal a plurality of recessed regions having a certain geographic profile. A plurality of semiconductor blocks, each having light emitting capability and each having a certain geometric profile that is complementary in size and shape to the certain geometric profile of the recessed regions, are separately fabricated. These blocks are included within a fluid to form a slurry. The slurry is then flowed over the CMOS fabricated photodetector array in accordance with a fluidic self-assembly technique, and the included semiconductor blocks are individually deposited within each of the plurality of recessed regions in the CMOS fabricated photodetector array.Type: ApplicationFiled: May 22, 2002Publication date: November 11, 2004Inventors: David Andrew King, Richard J. Pittaro, Shahida Rana, Edward Verdonk, Frederick A. Stawitcke, Richard D. Pering
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Publication number: 20040056262Abstract: The disclosure is directed toward an optical excitation/detection device that includes an arrayed plurality of photodetectors and discrete photoemitters, as well as a method for making such a device. A CMOS fabricated photodetector array includes an arrayed plurality of photoreceptor areas and photoemitter areas, wherein each photoreceptor area includes a CMOS integrated photoreceptor and each photoemitter area includes at least two buried electric contact pads. The CMOS array is selectively etched back at the locations of the photoemitter areas for regions to reveal the buried contact pads. A plurality of discrete semiconductor photoemitter devices (such as, for example, light emitting diodes) are inserted into, and mechanically retained within, the regions of the CMOS fabricated photodetector array.Type: ApplicationFiled: September 22, 2003Publication date: March 25, 2004Inventors: Edward Verdonk, Richard J. Pittaro, Shahida Rana, David Andrew King, Frederick A. Stawitcke, Richard D. Pering
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Patent number: 6707958Abstract: A biochemical assay device optically scans individual biological sample containing wells in an assay plate. The device includes an imaging system overlaying the assay plate wherein a scanning light propagates by total internal reflection within an optical waveguide. The waveguide includes a plurality of pixel locations, each aligned with a well in the assay plate, at which total internal reflection is selectively frustrated to output an incident beam of light. That light illuminates the well and causes generation of an emission beam of light that is detected by a photoreceptor. The device further includes a driver circuit that controls the selective frustration of total internal reflection at each pixel location in order to scan each well in the assay plate. A processor is also included in the device to process the detected emission beams of light generated by the scanned wells for purposes of assaying the biological sample contained in each scanned well.Type: GrantFiled: November 20, 2001Date of Patent: March 16, 2004Assignee: Agilent Technologies, Inc.Inventors: Richard D. Pering, David A. King, Richard J. Pittaro, Shahida Rana, Frederick A. Stawitcke, Edward D. Verdonk
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Patent number: 6657235Abstract: The disclosure is directed toward an optical excitation/detection device that includes an arrayed plurality of photodetectors and discrete photoemitters, as well as a method for making such a device. A CMOS fabricated photodetector array includes an arrayed plurality of photoreceptor areas and photoemitter areas, wherein each photoreceptor area includes a CMOS integrated photoreceptor and each photoemitter area includes at least two buried electric contact pads. The CMOS array is selectively etched back at the locations of the photoemitter areas for regions to reveal the buried contact pads. A plurality of discrete semiconductor photoemitter devices (such as, for example, light emitting diodes) are inserted into, and mechanically retained within, the regions of the CMOS fabricated photodetector array.Type: GrantFiled: May 22, 2002Date of Patent: December 2, 2003Assignee: Agilent Technologies, Inc.Inventors: Edward Verdonk, Richard J. Pittaro, Shahida Rana, David Andrew King, Frederick A. Stawitcke, Richard D. Pering
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Publication number: 20030218174Abstract: The disclosure is directed toward an optical excitation/detection device that includes an arrayed plurality of photodetectors and discrete photoemitters, as well as a method for making such a device. A CMOS fabricated photodetector array includes an arrayed plurality of photoreceptor areas and photoemitter areas, wherein each photoreceptor area includes a CMOS integrated photoreceptor and each photoemitter area includes at least two buried electric contact pads. The CMOS array is selectively etched back at the locations of the photoemitter areas for regions to reveal the buried contact pads. A plurality of discrete semiconductor photoemitter devices (such as, for example, light emitting diodes) are inserted into, and mechanically retained within, the regions of the CMOS fabricated photodetector array.Type: ApplicationFiled: May 22, 2002Publication date: November 27, 2003Inventors: Edward Verdonk, Richard J. Pittaro, Shahida Rana, David Andrew King, Frederick A. Stawitcke, Richard D. Pering
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Patent number: 6642498Abstract: The present invention is directed to a micromirror optical multiplexer for directing light to an array of sensors. The micromirror optical multiplexer directs light from one or more sources onto multiple, coplanar sensors for the purpose of exciting fluorescence. The micromirror optical multiplexer includes at least one light source and a micromirror array having a top face and up to four side faces. Pivotable mirrors of the micromirror array are arranged in a multiple row, multiple column format on the top face. In addition, each of the side faces of the micromirror array has at least one row of pivotable mirrors. By pivoting one side face mirror and one top face mirror, a light source entering at one corner of the micromirror array can be directed to exit near normal incidence anywhere on the bottom of the device.Type: GrantFiled: November 21, 2001Date of Patent: November 4, 2003Assignee: Agilent Technologies, Inc.Inventors: Edward Verdonk, David A. King, Richard D. Pering, Richard J. Pittaro, Shahida Rana, Frederick A. Stawitcke
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Patent number: 6640197Abstract: A sensor array is bonded to or molded together with a micro-lens array to form a sensor cartridge. The micro-lenses of the micro-lens array are configured to focus light incident on the sensors, into the sensors. An alignment structure has a mating profile that receives and engages one or more micro-lenses from the micro-lens array to laterally align the cartridge to enable repeatable precise positioning of the cartridge.Type: GrantFiled: February 8, 2002Date of Patent: October 28, 2003Assignee: Agilent Technologies, Inc.Inventors: Richard J. Pittaro, David Andrew King, Richard D. Pering, Shahida Rana, Frederick A. Stawitcke, Edward Verdonk
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Publication number: 20030154046Abstract: A sensor array is bonded to or molded together with a micro-lens array to form a sensor cartridge. The micro-lenses of the micro-lens array are configured to focus light incident on the sensors, into the sensors. An alignment structure has a mating profile that receives and engages one or more micro-lenses from the micro-lens array to laterally align the cartridge to enable repeatable precise positioning of the cartridge.Type: ApplicationFiled: February 8, 2002Publication date: August 14, 2003Inventors: Richard J. Pittaro, David Andrew King, Richard D. Pering, Shahida Rana, Frederick A. Stawitcke, Edward Verdonk
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Publication number: 20030095764Abstract: A biochemical assay device optically scans individual biological sample containing wells in an assay plate. The device includes an imaging system overlaying the assay plate wherein a scanning light propagates by total internal reflection within an optical waveguide. The waveguide includes a plurality of pixel locations, each aligned with a well in the assay plate, at which total internal reflection is selectively frustrated to output an incident beam of light. That light illuminates the well and causes generation of an emission beam of light that is detected by a photoreceptor. The device further includes a driver circuit that controls the selective frustration of total internal reflection at each pixel location in order to scan each well in the assay plate. A processor is also included in the device to process the detected emission beams of light generated by the scanned wells for purposes of assaying the biological sample contained in each scanned well.Type: ApplicationFiled: November 20, 2001Publication date: May 22, 2003Inventors: Richard D. Pering, David A. King, Richard A. Pittaro, Shahida Rana, Frederick A. Stawitcke, Edward D. Verdonk
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Publication number: 20030094564Abstract: The present invention is directed to a micromirror optical multiplexer for directing light to an array of sensors. The micromirror optical multiplexer directs light from one or more sources onto multiple, coplanar sensors for the purpose of exciting fluorescence. The micromirror optical multiplexer includes at least one light source and a micromirror array having a top face and up to four side faces. Pivotable mirrors of the micromirror array are arranged in a multiple row, multiple column format on the top face. In addition, each of the side faces of the micromirror array has at least one row of pivotable mirrors. By pivoting one side face mirror and one top face mirror, a light source entering at one comer of the micromirror array can be directed to exit near normal incidence anywhere on the bottom of the device.Type: ApplicationFiled: November 21, 2001Publication date: May 22, 2003Inventors: Edward Verdonk, David A. King, Richard D. Pering, Richard J. Pittaro, Shahida Rana, Frederick A. Stawitcke
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Patent number: 6400493Abstract: An optical imaging assembly for imaging light from a display. The optical assembly is constructed from first and second linear polarization filters, first and second lenses that are preferably concave-convex lenses, and first and second ¼ wave plates. The first linear polarization filter passes light polarized in a first direction, and second linear polarization filter passes light polarized in a second direction that is orthogonal to the first direction. A folded imaging assembly is constructed from the first and second lenses and the first ¼ wave plate. The first and second lenses have partially reflecting coatings on one surface of each lens. The folded imaging assembly and the second ¼ wave plate are located between the first and second linear polarization filters.Type: GrantFiled: October 26, 1999Date of Patent: June 4, 2002Assignee: Agilent Technologies, Inc.Inventors: Pierre H. Mertz, Shahida Rana
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Patent number: 6046867Abstract: A compact optical imaging system that transmits light received from an object located at an image plane to an exit pupil to form an image comprises a first prism, a second prism, a converging reflective element, and a converging transmissive element. The first prism includes a first face, a second face, and a third face that faces the image plane. The included angle between the first face and the second face of the first prism is .alpha.. The second prism includes a first face facing the exit pupil and substantially parallel to the first face of the first prism, and a second face adjacent the second face of the first prism. The converging reflective element is adjacent the first face of the first prism. The converging transmissive element is on or adjacent the first face of the second prism. The included angle .alpha.Type: GrantFiled: April 26, 1999Date of Patent: April 4, 2000Assignee: Hewlett-Packard CompanyInventor: Shahida Rana