Patents by Inventor Zhisheng Yun
Zhisheng Yun 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: 11327324Abstract: A display system including an imager for forming an image, and a projection lens system for projecting the image formed by the imager is described. For each pixel in the plurality of pixels, the imager is configured to emit a cone of light having a central ray having a direction that varies with location of the pixel in the imager. The variation may increase a brightness of an image projected through the projection lens system by at least 30 percent. The display system may include a light guide having a light insertion portion adapted to receive light; a light transport portion disposed to receive light from the light insertion portion; and a light extraction portion disposed to receive light from the light transport portion.Type: GrantFiled: May 30, 2017Date of Patent: May 10, 2022Assignee: 3M INNOVATIVE PROPERTIES COMPANYInventors: Andrew J. Ouderkirk, Timothy L. Wong, Erin A. McDowell, Zhisheng Yun, Gilles J. Benoit, Jo Anne Etter
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Patent number: 11325330Abstract: Optical systems including a partial reflector, a reflective polarizer, and a retarder disposed between the partial reflector and the reflective polarizer are described. The reflective polarizer is curved about two orthogonal axes and includes at least one layer that is substantially optically uniaxial at at least one location. The optical system is adapted to provide an adjustable focus.Type: GrantFiled: May 10, 2019Date of Patent: May 10, 2022Assignee: 3M INNOVATIVE PROPERTIES COMPANYInventors: Timothy L. Wong, Andrew J. Ouderkirk, Zhisheng Yun, Erin A. McDowell, Gregg A. Ambur
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Patent number: 11314097Abstract: An optical system for displaying an object to a viewer is described. The optical system includes an integral first optical assembly, an integral second optical assembly, and an integral third optical assembly disposed between the integral first and second optical assemblies. The integral first optical assembly has a first focal length and includes one or more first optical lenses, and a reflective polarizer. The integral second optical assembly has a second focal length and includes one or more second optical lenses, and a partial reflector having an average optical reflectance of at least 30% for a desired plurality of wavelengths. The integral third optical assembly has a third focal length and includes a curved first phase retarder. The third focal length is greater than a smaller of the first and second focal lengths.Type: GrantFiled: December 13, 2017Date of Patent: April 26, 2022Assignee: 3M INNOVATIVE PROPERTIES COMPANYInventors: Andrew J. Ouderkirk, Zhisheng Yun, Jo Anne Etter
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Patent number: 11281026Abstract: An optical lens including first and second polarizers, a partial reflector disposed between the first and second polarizers, a first phase retarder disposed between the first polarizer and the partial reflector, and a second phase retarder disposed between the partial reflector and the second polarizer is described. The optical lens is a single piece configured for use in an eyewear. Eyewear including at least one of the optical lenses is also described.Type: GrantFiled: November 8, 2017Date of Patent: March 22, 2022Assignee: 3M INNOVATIVE PROPERTIES COMPANYInventors: Zhisheng Yun, Andrew J. Ouderkirk, Susan L. Kent, Erin A. McDowell, Timothy L. Wong, John D. Le, Michael L. Steiner
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Patent number: 11262565Abstract: Optical systems for displaying an image are described. The optical systems include spaced apart first and second optical lenses. A partial reflector is disposed on and conforms to a major surface of the first optical lens where the major surface can have a best-fit spherical radius of curvature in a range from 20 mm to 200 mm. A reflective polarizer is disposed on and conforms to a major surface of the second optical lens where the major surface can have a best-fit spherical radius of curvature in a range from 14 mm to 250 mm. A retarder layer is disposed between the reflective polarizer and the partial reflector. The first optical lens can have an optical birefringence of less than 15 nm/cm and the second optical lens can have an optical birefringence of greater than 15 nm/cm. A method of fabricating an optical assembly is described.Type: GrantFiled: May 14, 2018Date of Patent: March 1, 2022Assignee: 3M INNOVATIPVE PROPERTIES C OMPANYInventors: Jo A. Etter, Timothy L. Wong, Zhisheng Yun, Gregg A. Ambur, Benjamin G. Sonnek, Robert M. Jennings
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Publication number: 20220057632Abstract: An optical system, including a reflective polarizer, and a display and a mirror disposed on a same side of, and generally facing, the reflective polarizer. The reflective polarizer may transmit at least 80% of incident light having a first polarization state and may reflect at least 80% of incident light having a second polarization state, and the mirror may reflect at least 80% of the incident light for each of the first and second polarization states. The central locations of the display, reflective polarizer, and mirror may define a midplane which includes first, second, and third regions, such that the first region includes portions of the image rays that pass at least once across the region, the second region includes portions of the image rays that pass at least twice across the region, and the third region includes portions of the image rays that pass three times across the region.Type: ApplicationFiled: December 17, 2019Publication date: February 24, 2022Inventors: Zhisheng Yun, Hao Wu, Stephen J. Willett, Craig R. Schardt, Stephan J. Pankratz, Gilles J. Benoit
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Publication number: 20220011557Abstract: An optical system including one or more optical lenses, at least one retarder layer, a reflective polarizer, and a partial reflector is provided. The at least one retarder layer may include first and second retarder layers having different wavelength dispersion curves. The at least one retarder layer may include a first retarder layer having a non-uniform fast axis orientation and/or a non-uniform retardance.Type: ApplicationFiled: September 23, 2021Publication date: January 13, 2022Inventors: Michael L. Steiner, Andrew J. Ouderkirk, Timothy L. Wong, Zhisheng Yun, Jo A. Etter, Gilles J. Benoit, John D. Le, Erin A. McDowell
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Publication number: 20220004015Abstract: An optical film and a polarizing beam splitter (PBS) including the optical film is described. The optical film includes a first optical stack disposed on, and spaced apart by one or more spacer layers from, a second optical stack. When the optical film is disposed between, and adhered to, hypotenuses of first and second prisms to form a PBS and a cone of light is incident on the PBS making an incident angle of about 40 to 50 degrees with the optical film, the PBS has: an average optical reflectance Rs greater than about 95% for a first polarization state; an average optical transmittance Ts less than about 0.012% for the first polarization state; an average optical transmittance Tp less than about 98.5% for a second polarization state; and an average optical reflectance Rp less than about 0.25% for the second polarization state.Type: ApplicationFiled: December 4, 2019Publication date: January 6, 2022Inventors: David J.W. Aastuen, Zhisheng Yun, Timothy J. Nevitt, John D. Le, Susan L. Kent, Gilles J. Benoit, David T. Yust
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Patent number: 11156814Abstract: An optical system including one or more optical lenses, at least one retarder layer, a reflective polarizer, and a partial reflector is provided. The at least one retarder layer may include first and second retarder layers having different wavelength dispersion curves. The at least one retarder layer may include a first retarder layer having a non-uniform fast axis orientation and/or a non-uniform retardance.Type: GrantFiled: March 21, 2018Date of Patent: October 26, 2021Assignee: 3M INNOVATIVE PROPERTIES COMPANYInventors: Michael L. Steiner, Andrew J. Ouderkirk, Timothy L. Wong, Zhisheng Yun, Jo A. Etter, Gilles J. Benoit, John D. Le, Erin A. McDowell
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Publication number: 20210294012Abstract: An optical system for displaying an image to a viewer includes a pixelated display including a plurality of pixels emitting unpolarized image light; a partial reflector having an average optical reflectance of at least 30% in a predetermined wavelength range; a first retarder layer disposed between the pixelated display and the partial reflector; a second retarder layer disposed between the first retarder layer and the partial reflector; and a reflective polarizer disposed between the first and second retarder layers. The reflective polarizer is adapted to increase a brightness of a pixelated image emitted by the pixelated display and displayed to the viewer by recycling at least a portion of unpolarized image light emitted by the pixels; and receive an image ray reflected by the partial reflector and reflect the received image ray toward the viewer.Type: ApplicationFiled: August 13, 2019Publication date: September 23, 2021Inventors: Timothy L. Wong, David J.W. Aastuen, Takashi Fujita, Zhisheng Yun, Timothy J. Nevitt
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Publication number: 20210286183Abstract: An optical system includes a partial reflector having an average optical reflectance of at least 30% in a desired plurality of wavelengths, a display panel disposed to emit image light toward the partial reflector, and a multilayer reflective polarizer disposed proximate the partial reflector. The multilayer reflective polarizer is curved about two orthogonal axes and includes at least one layer substantially optically uniaxial at at least one location. The image light is transmitted by the multilayer reflective polarizer after it is first reflected by the multilayer reflective polarizer. A quarter wave retarder may be disposed between the reflective polarizer and the partial reflector.Type: ApplicationFiled: June 1, 2021Publication date: September 16, 2021Inventors: Andrew J. Ouderkirk, Timothy L. Wong, Zhisheng Yun, Erin A. McDowell, Gregg A. Ambur
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Publication number: 20210278677Abstract: A display system includes an optical system and a curved display disposed to emit light toward the optical system. The optical system includes at least a first optical lens, a partial reflector and a reflective polarizer. The optical system has an optical axis such that a light ray propagating along the optical axis passes through the first optical lens the partial reflector and the reflective polarizer without being substantially refracted. At least one major surface of the optical system can be rotationally asymmetric about the optical axis. A major surface of the optical system may have a first portion defined by a first equation and a second portion adjacent the first portion defined by a different equation. The first optical lens may have a contoured edge adapted to be placed adjacent an eye of a viewer and substantially conform to the viewer's face.Type: ApplicationFiled: May 25, 2021Publication date: September 9, 2021Inventors: Andrew J. Ouderkirk, Zhisheng Yun, Timothy L. Wong, Erin A. McDowell, Jo A. Etter, Robert M. Jennings
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Publication number: 20210278679Abstract: A display system includes a pixelated display being curved about at least one axis and including a plurality of groups of pixels; a plurality of light redirecting elements where each light redirecting element corresponds to a different group of pixels in the plurality of groups of pixels; and an optical lens system adapted to receive light emitted by the pixelated display and transmitted by the plurality of light redirecting elements. The optical lens system transmits at least a portion of the received light. For at least one pixel in the plurality of groups of pixels, the light redirecting element corresponding to the pixel reduces an angle between a central light ray emitted by the pixel and a chief light ray emitted by the pixel.Type: ApplicationFiled: May 25, 2021Publication date: September 9, 2021Inventors: Andrew J. Ouderkirk, Timothy L. Wong, Erin A. McDowell, Zhisheng Yun, Gilles J. Benoit, Jo Anne Etter
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Publication number: 20210215865Abstract: Optical films, such as reflective polarizer films, and optical systems including the optical films are described. An optical system includes one or more optical lenses having at least one curved major surface, a partial reflector, and a reflective polarizer. For a substantially normally incident light in a predetermined wavelength range extending at least from about 450 nm to about 600 nm: the partial reflector has an average optical reflectance of at least 30%, and the reflective polarizer has an average optical reflectance Rs for a first polarization state, an average optical transmittance Tp for an orthogonal second polarization state, and an average optical reflectance Rp for the second polarization state, where Tp?80%, Rp?1%, and 50%?Rs?95%.Type: ApplicationFiled: July 11, 2019Publication date: July 15, 2021Inventors: John D. Le, Zhisheng Yun, Timothy L. Wong, Timothy J. Nevitt, Adam D. Haag, Arthur L. Kotz
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Patent number: 11061233Abstract: A folded light path illuminator is provided. The illuminator may include a polarizing beam splitter having an input face, an output face and an imager face, a light source disposed adjacent the input face and defining an input active area on the input face, and an image forming device disposed adjacent the imager face for receiving light emitted from the light source and emitting a patterned light, which may be a converging patterned light. The image forming device may have a largest image area which defines an output active area on the output face. One or both of the input active area and the output active area may be less than about half the largest image area. The polarizing beam splitter may include first and second prisms and the volume of the first prism may be no greater than half the volume of the second prism.Type: GrantFiled: June 17, 2016Date of Patent: July 13, 2021Assignee: 3M INNOVATIVE PROPERTIES COMPANYInventors: Andrew J. Ouderkirk, Zhisheng Yun, Erin A. McDowell, Timothy L. Wong, Kandyce M. Bohannon
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Publication number: 20210168269Abstract: The disclosure describes an example vehicle assistance system including a light sensor, a pixelated filter array adjacent the light sensor, and a full-field optically-selective element adjacent the pixelated filter array. The optically-selective element is configured to selectively direct an optical component of light incident on the optically-selective element across the pixelated filter array to the light sensor.Type: ApplicationFiled: July 29, 2019Publication date: June 3, 2021Inventors: John A. WHEATLEY, Gilles J.B. BENOIT, John D. LE, Zhisheng YUN, Jonah SHAVER, Susannah C. CLEAR, Timothy J. NEVITT, Kui CHEN-HO, Kenneth L. SMITH, David J.W. AASTUEN
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Publication number: 20210165230Abstract: Projection systems and components thereof are described that are well suited to miniaturization.Type: ApplicationFiled: February 16, 2021Publication date: June 3, 2021Inventors: Andrew J. Ouderkirk, Erin A. McDowell, Zhisheng Yun
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Patent number: 10955666Abstract: Projection systems and components thereof are described that are well suited to miniaturization.Type: GrantFiled: December 18, 2015Date of Patent: March 23, 2021Assignee: 3M INNOVATIVE PROPERTIES COMPANYInventors: Andrew J. Ouderkirk, Erin A. McDowell, Zhisheng Yun
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Patent number: 10921594Abstract: Methods of making optical films and optical stacks are described. A method of making an optical lens molded to a first curved optical film includes providing a first optical film including alternating first and second polymeric layers; providing a thermoform tool having a curved surface; heating and conforming the first optical film to the curved surface to form a first curved optical film; and molding an optical lens onto the first curved optical film.Type: GrantFiled: May 23, 2018Date of Patent: February 16, 2021Assignee: 3M INNOVATIVE PROPERTIES COMPANYInventors: Gregg A. Ambur, Timothy L. Wong, Andrew J. Ouderkirk, Zhisheng Yun
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Patent number: 10906212Abstract: Provided are devices for applying actinic radiation to a curable resin. The devices include a housing having a front face, an actinic radiation source arranged within the housing such that actinic radiation emerges from the housing through the front face, and a proximity detector. The proximity detector is functionally connected to the actinic radiation source such that the actinic radiation source is shut off unless the proximity detector detects the presence of a surface within a safe distance from the front face. Optionally, the device includes a surface temperature sensor functionally connected to the actinic radiation source such that the actinic radiation source is shut off if the surface temperature sensor senses a surface temperature exceeding a maximum safe surface temperature.Type: GrantFiled: July 18, 2016Date of Patent: February 2, 2021Assignee: 3M INNOVATIVE PROPERTIES COMPANYInventors: Charlie P. Blackwell, Charles L. Bruzzone, Michael E. Griffin, Michael D. Swan, Sheng Ye, Zhisheng Yun