Patents by Inventor Wu-Chieh Liu
Wu-Chieh Liu 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: 8698781Abstract: An optical touch device includes a transparent substrate and at least a light emitting and receiving unit. The transparent substrate has a touch surface, a first light incidence surface and a first light emitting surface. Each light emitting and receiving unit includes a linear light source, a light path adjusting component and a light sensing component. The linear light source is disposed beside the first light incidence surface. The light path adjusting component is disposed between the linear light source and the first light incidence surface and configured for adjusting the incidence angles of the optical signals striking at the first incidence surface so that each of the optical signals enters into the transparent substrate through the first incidence surface with a predetermined angle. The light sensing component is disposed beside the first light emitting surface. The optical touch device has a high light utility efficiency.Type: GrantFiled: October 29, 2010Date of Patent: April 15, 2014Assignee: Pixart Imaging Inc.Inventors: Hui-Hsuan Chen, Wu-Chieh Liu, Hung-Ching Lai, Chiang-Yuan Chuang
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Patent number: 8624877Abstract: An optical touch display apparatus includes a light-transmitting display panel, a backlight module, a visible light source, an invisible light source, an image sensing apparatus and a processing circuit. The light-transmitting display panel has a first surface and a second surface opposite to each other. The first surface has a display area. The backlight module is disposed on the second surface. The image sensing apparatus is configured to sense an image above the display area. When a pointer is located in the display area and reflects invisible light which passes through the display area so that the image sensing apparatus senses the invisible light reflected by the pointer, the processing circuit calculates the position of the pointer related to the display area according to the image sensed by the image sensing apparatus. In addition, an optical operation apparatus is also provided.Type: GrantFiled: February 15, 2011Date of Patent: January 7, 2014Assignee: Pixart Imaging Inc.Inventors: Hung-Ching Lai, Wu-Chieh Liu, Hui-Hsuan Chen
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Patent number: 8624173Abstract: A sensing pixel structure for generating a sensed image with uniform resolution is applied in a light sensor. The sensing pixel structure includes a plurality of first sensing pixels and a plurality of second sensing pixels. The location of the plurality of first sensing pixels corresponds to a center region of a lens. Each of the plurality of first sensing pixels has a first pixel area. The location of the plurality of second sensing pixels corresponds to the peripheral region of the lens. Each of the plurality of second sensing pixels has a second pixel area. The first pixel area is larger than the second pixel area, so that number of the sensing pixels corresponding to the peripheral region of the lens is larger than that corresponding to the center region of the lens. Therefore, the light sensor generates the sensed image with uniform resolution.Type: GrantFiled: November 13, 2011Date of Patent: January 7, 2014Assignee: PixArt Imaging Inc.Inventors: Sen-Huang Huang, Hui-Hsuan Chen, Wu-Chieh Liu
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Publication number: 20120241592Abstract: A sensing pixel structure for generating a sensed image with uniform resolution is applied in a light sensor. The sensing pixel structure includes a plurality of first sensing pixels and a plurality of second sensing pixels. The location of the plurality of first sensing pixels corresponds to a center region of a lens. Each of the plurality of first sensing pixels has a first pixel area. The location of the plurality of second sensing pixels corresponds to the peripheral region of the lens. Each of the plurality of second sensing pixels has a second pixel area. The first pixel area is larger than the second pixel area, so that number of the sensing pixels corresponding to the peripheral region of the lens is larger than that corresponding to the center region of the lens. Therefore, the light sensor generates the sensed image with uniform resolution.Type: ApplicationFiled: November 13, 2011Publication date: September 27, 2012Inventors: Sen-Huang Huang, Hui-Hsuan Chen, Wu-Chieh Liu
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Patent number: 8213085Abstract: An anti-reflection structure for transmitting a light source is disclosed. The anti-reflection structure comprises a first dielectric layer of a first refractive index and a second dielectric layer of a second refractive index different from the first refractive index. The first dielectric layer has a plurality of protrusions randomly arranged on a top surface thereof, in which the plurality of protrusions and the intervals therebetween has an average size smaller than the wavelength of the light source. The second dielectric layer has a bottom surface conformally attached to the top surface of the first dielectric layer. The invention also discloses an image sensor device having the anti-reflection structure.Type: GrantFiled: January 18, 2008Date of Patent: July 3, 2012Assignee: VisEra Technologies Company LimitedInventors: Wu-Chieh Liu, Chin-Poh Pang
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Patent number: 8164042Abstract: Color filter arrays (CFA) and image sensors using same are provided. A color filter array includes a plurality of first color filter patterns respectively interlaced with a plurality of second color filter patterns, wherein the first and second color filter patterns comprise a plurality of color filters of at least three different colors of red (R), green (G) and blue (B) filters, and the first and second color filter patterns are not mirror symmetrical, and a blue (B) filter in one of the first color filter patterns is adjoined by a red (R) filter in one of the second color filter patterns adjacent thereto and/or a red (R) filter in one of the first color filter patterns is adjoined by a blue filter in one of the color filter patterns adjacent thereto.Type: GrantFiled: November 6, 2008Date of Patent: April 24, 2012Assignee: VisEra Technologies Company LimitedInventors: Chi-Xiang Tseng, Chin-Poh Pang, Cheng-Lin Yang, Wu-Chieh Liu
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Publication number: 20120062517Abstract: An optical touch control apparatus and a touch sensing method thereof are provided. The optical touch control apparatus comprises a light source supply module, an image sensing apparatus and a processing circuit. The light source supply module is used for supplying a light source to illuminate an object located on a plane. The image sensing apparatus is used for detecting the light of the light source reflected by the surface of the object to acquire an image. The processing circuit receives the image and calculates the object position related to the plane according to the image features of the object image in the received image and the imaging position of the object on the image sensing apparatus.Type: ApplicationFiled: February 1, 2011Publication date: March 15, 2012Applicant: PixArt Imaging Inc.Inventors: Hung-Ching Lai, Wu-Chieh Liu, Hui-Hsuan Chen
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Publication number: 20110279413Abstract: An optical touch display apparatus includes a light-transmitting display panel, a backlight module, a visible light source, an invisible light source, an image sensing apparatus and a processing circuit. The light-transmitting display panel has a first surface and a second surface opposite to each other. The first surface has a display area. The backlight module is disposed on the second surface. The image sensing apparatus is configured to sense an image above the display area. When a pointer is located in the display area and reflects invisible light which passes through the display area so that the image sensing apparatus senses the invisible light reflected by the pointer, the processing circuit calculates the position of the pointer related to the display area according to the image sensed by the image sensing apparatus. In addition, an optical operation apparatus is also provided.Type: ApplicationFiled: February 15, 2011Publication date: November 17, 2011Applicant: PixArt Imaging Inc.Inventors: Hung-Ching Lai, Wu-Chieh Liu, Hui-Hsuan Chen
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Publication number: 20110234538Abstract: An optical touch device includes a transparent substrate and at least a light emitting and receiving unit. The transparent substrate has a touch surface, a first light incidence surface and a first light emitting surface. Each light emitting and receiving unit includes a linear light source, a light path adjusting component and a light sensing component. The linear light source is disposed beside the first light incidence surface. The light path adjusting component is disposed between the linear light source and the first light incidence surface and configured for adjusting the incidence angles of the optical signals striking at the first incidence surface so that each of the optical signals enters into the transparent substrate through the first incidence surface with a predetermined angle. The light sensing component is disposed beside the first light emitting surface. The optical touch device has a high light utility efficiency.Type: ApplicationFiled: October 29, 2010Publication date: September 29, 2011Applicant: PixArt Imaging Inc.Inventors: HUI-HSUAN CHEN, Wu-Chieh Liu, Hung-Ching Lai, Chiang-Yuan Chuang
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Patent number: 7897986Abstract: A microlens array is provided, including a base layer with a plurality of first microlenses formed over a first region thereof, wherein the first microlenses are formed with a first height. A plurality of second microlenses are formed over a second region of the base layer, wherein the second region surrounds the first region and the second microlenses are formed with a second height lower than the first height. A plurality of third microlenses are formed over a third region of the base layer, wherein the third region surrounds the second and three regions, and the microlenses are formed with a third height lower than the first and second heights.Type: GrantFiled: April 17, 2008Date of Patent: March 1, 2011Assignee: VisEra Technologies Company LimitedInventors: Wu-Chieh Liu, Chin-Poh Pang, Chi-Xiang Tseng, Cheng-Lin Yang
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Patent number: 7812302Abstract: The present invention provides an image sensor which comprises improved microlenses to cope with different optical requirements for oblique incident light or different components of light. In one embodiment, the image sensor comprises at least two microlenses having different radii of curvature. In another embodiment, the image sensor comprises at least one asymmetrical microlens.Type: GrantFiled: October 17, 2008Date of Patent: October 12, 2010Assignee: VisEra Technologies Company LimitedInventors: Chin-Chen Kuo, Wu-Chieh Liu, Hsiao-Wen Lee, Bii-Cheng Chang
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Publication number: 20100108866Abstract: Color filter arrays (CFA) and image sensors using same are provided. A color filter array includes a plurality of first color filter patterns respectively interlaced with a plurality of second color filter patterns, wherein the first and second color filter patterns comprise a plurality of color filters of at least three different colors of red (R), green (G) and blue (B) filters, and the first and second color filter patterns are not mirror symmetrical, and a blue (B) filter in one of the first color filter patterns is adjoined by a red (R) filter in one of the second color filter patterns adjacent thereto and/or a red (R) filter in one of the first color filter patterns is adjoined by a blue filter in one of the color filter patterns adjacent thereto.Type: ApplicationFiled: November 6, 2008Publication date: May 6, 2010Inventors: Chi-Xiang TSENG, Chin-Poh PANG, Cheng-Lin YANG, Wu-Chieh LIU
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Patent number: 7687757Abstract: A method for designing a microlens array on a pixel array is disclosed. A radial distance of each pixel from a central pixel in a pixel array is calculated, in which the central pixel acts as an origin of an X-Y coordinate. A chief ray angle of each pixel is determined according to the corresponding radial distance. A microlens shift with respect to the corresponding pixel is determined according to the corresponding chief ray angle. Each microlens shift combines an X-axis direction shift with a Y-axis direction shift, and the X-axis direction shift ratio is different from the Y-axis direction shift ratio. A plurality of microlenses is arranged according to the corresponding microlens shifts to form a microlens array on the pixel array.Type: GrantFiled: January 29, 2009Date of Patent: March 30, 2010Assignee: VisEra Technologies Company LimitedInventors: Chi-Xiang Tseng, Chin-Poh Pang, Cheng-Lin Yang, Wu-Chieh Liu
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Publication number: 20090305453Abstract: A method for fabricating an image sensor device is disclosed. A substrate having a sensing area comprising a pixel array therein is provided. A photoresist layer is coated over the substrate. Exposure is performed on at least two regions of the photoresist layer by at least two binary half-tone masks, respectively, in which a first and second binary half-tone masks of the two binary half-tone masks have different optical transparency distributions. Development is performed on the exposed photoresist layer to form a convex microlens array corresponding to the pixel array of the sensing area and comprising at least two microlenses with different convex profiles.Type: ApplicationFiled: June 10, 2008Publication date: December 10, 2009Inventors: Cheng-Lin YANG, Chin-Poh PANG, Wu-Chieh LIU, Chi-Xiang TSENG
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Publication number: 20090261439Abstract: A microlens array is provided, including a base layer with a plurality of first microlenses formed over a first region thereof, wherein the first microlenses are formed with a first height. A plurality of second microlenses are formed over a second region of the base layer, wherein the second region surrounds the first region and the second microlenses are formed with a second height lower than the first height. A plurality of third microlenses are formed over a third region of the base layer, wherein the third region surrounds the second and three regions, and the microlenses are formed with a third height lower than the first and second heights.Type: ApplicationFiled: April 17, 2008Publication date: October 22, 2009Inventors: Wu-Chieh Liu, Chin-Poh Pang, Chi-Xiang Tseng, Cheng-Lin Yang
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Publication number: 20090189055Abstract: Embodiments disclose an image sensor device, comprising a substrate comprising a plurality of photosensor cells located therein or thereon, a plurality of optical guide structures corresponding to the photosensor cells respectively, and a stacked layer surrounding the optical guide structures, comprising a plurality of top portions with sharp corners adjacent to the top edges of the optical guide structures.Type: ApplicationFiled: January 25, 2008Publication date: July 30, 2009Inventors: Chien-Pang Lin, Chung-Jung Hsu, Shiu-Fang Yen, Wu-Chieh Liu
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Publication number: 20090185275Abstract: An anti-reflection structure for transmitting a light source is disclosed. The anti-reflection structure comprises a first dielectric layer of a first refractive index and a second dielectric layer of a second refractive index different from the first refractive index. The first dielectric layer has a plurality of protrusions randomly arranged on a top surface thereof, in which the plurality of protrusions and the intervals therebetween has an average size smaller than the wavelength of the light source. The second dielectric layer has a bottom surface conformally attached to the top surface of the first dielectric layer. The invention also discloses an image sensor device having the anti-reflection structure.Type: ApplicationFiled: January 18, 2008Publication date: July 23, 2009Inventors: Wu-Chieh Liu, Chin-Poh Pang
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Publication number: 20090101947Abstract: An image sensor device is disclosed. The image sensor device comprises a substrate having a pixel array therein. A first transparent layer with a curved surface is disposed on the substrate. A micro lens array is conformally disposed on the curved surface of the first transparent layer and corresponds to the pixel array in the substrate. The invention also discloses an electronic assembly for an image sensor device and a fabrication method thereof.Type: ApplicationFiled: October 17, 2007Publication date: April 23, 2009Inventors: Chien-Pang Lin, Chin-Poh Pang, Wu-Chieh Liu, Shiu-Fang Yen
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Publication number: 20090096900Abstract: An image sensor device is disclosed. The device comprises a plurality of unit pixels, and each unit pixel comprises a substrate and a non-absorptive color separating device overlying the substrate. The substrate comprises a plurality of photodiodes horizontally arranged in a row, and at least one bevel boundary area between the photodiodes. The non-absorptive color separating device disperses incident white light into components thereof arranged in the row according to a gradient of wave lengths of the components of white light, and introduces the components of white light to the photodiodes.Type: ApplicationFiled: October 11, 2007Publication date: April 16, 2009Inventors: Chin-Poh PANG, Wu-Chieh Liu
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Publication number: 20090078855Abstract: The present invention provides an image sensor which comprises improved microlenses to cope with different optical requirements for oblique incident light or different components of light. In one embodiment, the image sensor comprises at least two microlenses having different radii of curvature. In another embodiment, the image sensor comprises at least one asymmetrical microlens.Type: ApplicationFiled: October 17, 2008Publication date: March 26, 2009Inventors: Chin-Chen Kuo, Wu-Chieh Liu, Hsiao-Wen Lee, Bii-Cheng Chang