Patents by Inventor Yuchi Che
Yuchi Che 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: 11882752Abstract: An electronic device display may have an active area with pixels. An optical sensor may be formed under a sensor region in the active area. During operation, ambient light and/or other light associated with the optical sensor may pass through the sensor region. To ensure that the light for the optical sensor can pass through the display, the display may have one or more layers with sensor openings such as a metal layer and a pressure sensitive adhesive layer that attaches the metal layer to the pixels of the display. To help minimize visibility of the openings in the sensor region, the pressure sensitive adhesive layer may be configured to have a reflectivity that matches the appearance of the display in the sensor region to surrounding areas. Undesired light output uniformity can be reduced by ensuring that the substrate material in the display has a low light absorption coefficient.Type: GrantFiled: July 16, 2021Date of Patent: January 23, 2024Assignee: Apple Inc.Inventors: Zhao Wang, Alexis G. Soyseven, David S. Hum, Graeme M. Williams, Ing-Jye Wang, Jae Won Choi, Jimmy H. Huang, Ming Xu, Sungki Lee, Timothy H. Ellis, Yu Cheng Chen, Yuchi Che
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Patent number: 11854490Abstract: To reduce the amount of space occupied in the inactive area of a display by gate driver circuitry, at least a portion of the gate driver circuitry may be positioned in the active area of the display. To accommodate the gate driver circuitry, emissive sub-pixels may be laterally shifted relative to corresponding thin-film transistor sub-pixels. This allows for the thin-film transistor sub-pixels to be grouped adjacent to the central area of the active area, leaving room along an edge of the active area to accommodate one or more additional display components such as gate driver circuitry or fanout portions of data lines.Type: GrantFiled: August 2, 2022Date of Patent: December 26, 2023Assignee: Apple Inc.Inventors: Levent Erdal Aygun, Chin-Wei Lin, Yun Wang, Xin Lin, Aida R Colon-Berrios, Shih Chang Chang, Fan Gui, Mohammad Reza Esmaeili Rad, Ran Tu, Warren S Rieutort-Louis, Abbas Jamshidi Roudbari, Bhadrinarayana Lalgudi Visweswaran, Cheng-Chih Hsieh, Ricardo A Peterson, Shyuan Yang, Ting-Kuo Chang, Tsung-Ting Tsai, Yuchi Che
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Publication number: 20230410718Abstract: A light emitter that operates through a display may cause display artifacts, even when the light emitter operates using non-visible wavelengths. Display artifacts caused by a light emitter that operates through a display may be referred to as emitter artifacts. To mitigate emitter artifacts, operating conditions for a display frame may be used to determine an optimal firing time for the light emitter during that display frame. The operating conditions used to determine the optimal firing time may include emitter operating conditions, display content statistics, display brightness, temperature, and refresh rate. Operating conditions from one or more previous frames may be stored in a frame buffer and may be used to help determine the optimal firing time for the light emitter during a display frame. Pixel values for the display may be modified to mitigate emitter artifacts.Type: ApplicationFiled: March 15, 2023Publication date: December 21, 2023Inventors: Jenny Hu, Chaohao Wang, Christopher E Glazowski, Clint M Perlaki, David R Manly, Feng Wen, Graeme M Williams, Hei Kam, Hyun H Boo, Kevin J Choboter, Kyounghwan Kim, Lu Yan, Mahesh B Chappalli, Mark T Winkler, Na Zhu, Peter F Holland, Tong Chen, Warren S Rieutort-Louis, Wenrui Cai, Ximeng Guan, Yingying Tang, Yuchi Che
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Publication number: 20230389384Abstract: An electronic device may include a display having display pixels formed in an active area of the display. The display further includes display driver circuitry for driving gate lines that are routed across the display. A hole such as a through hole, optical window, or other inactive region may be formed within the active area of the display. Multiple gate lines carrying the same signal may be merged together prior to being routed around the hole to help minimize the routing line congestion around the border of the hole. Dummy circuits may be coupled to the merged segment portion to help increase the parasitic loading on the merged segments. The hole may have a tapered shape to help maximize the size of the active area. The hole may have an asymmetric shape to accommodate multiple sub-display sensor components.Type: ApplicationFiled: August 14, 2023Publication date: November 30, 2023Inventors: Warren S. Rieutort-Louis, Abbas Jamshidi Roudbari, Yuchi Che, Tsung-Ting Tsai, Jiun-Jye Chang, Shih Chang Chang, Ting-Kuo Chang
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Publication number: 20230337467Abstract: An electronic device may include a display and an optical sensor formed underneath the display. The electronic device may include a plurality of transparent windows that overlap the optical sensor. The resolution of the display panel may be reduced in some areas due to the presence of the transparent windows. To mitigate diffraction artifacts, a first sensor (13-1) may sense light through a first pixel removal region having transparent windows arranged according to a first pattern. A second sensor (13-2) may sense light through a second pixel removal region having transparent windows arranged according to a second pattern that is different than the first pattern. The first and second patterns of the transparent windows may result in the first and second sensors having different diffraction artifacts. Therefore, an image from the first sensor may be corrected for diffraction artifacts based on an image from the second sensor.Type: ApplicationFiled: July 7, 2021Publication date: October 19, 2023Inventors: Yuchi Che, Abbas Jamshidi Roudbari, Jean-Pierre S. Guillou, Majid Esfandyarpour, Sebastian Knitter, Warren S. Rieutort-Louis, Tsung-Ting Tsai
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Patent number: 11778874Abstract: An electronic device may include a display having display pixels formed in an active area of the display. The display further includes display driver circuitry for driving gate lines that are routed across the display. A hole such as a through hole, optical window, or other inactive region may be formed within the active area of the display. Multiple gate lines carrying the same signal may be merged together prior to being routed around the hole to help minimize the routing line congestion around the border of the hole. Dummy circuits may be coupled to the merged segment portion to help increase the parasitic loading on the merged segments. The hole may have a tapered shape to help maximize the size of the active area. The hole may have an asymmetric shape to accommodate multiple sub-display sensor components.Type: GrantFiled: January 11, 2021Date of Patent: October 3, 2023Assignee: Apple Inc.Inventors: Warren S. Rieutort-Louis, Abbas Jamshidi Roudbari, Yuchi Che, Tsung-Ting Tsai, Jiun-Jye Chang, Shih Chang Chang, Ting-Kuo Chang
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Publication number: 20230297199Abstract: Touch electrode architecture techniques can be used to reduce or eliminate metal mesh within the one or more high-transmittance regions of a touch screen including one or more high-transmittance regions. In some examples, one or more optical devices can be integrated with a touch screen such that light associated with the one or more optical devices passes through one or more layers of the touch screen. In some such examples, to avoid degrading performance of the optical devices, one or more high-transmittance regions can be used. Additionally or alternatively, in some examples, the high-transmittance can be achieved using touch electrode architecture techniques that use transparent or semi-transparent materials instead of opaque metal mesh within the high-transmittance regions.Type: ApplicationFiled: February 24, 2023Publication date: September 21, 2023Inventors: Christophe BLONDIN, Ashray Vinayak GOGTE, Ricardo A. PETERSON, Warren S. RIEUTORT-LOUIS, Yuchi CHE
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Patent number: 11762490Abstract: An electronic device may have a display with an active area configured to display images and an inactive area that is free of pixels and that does not display images. Touch sensor sense lines may have portions located in the active area and portions located in the inactive area. The active and inactive areas may be characterized by respective reflectivity values. To match the reflectivities of the active and inactive areas and thereby avoid undesired visually distinguishable differences in the appearances of these areas, the touch sensor circuitry in the inactive areas may be configured to match the reflectivity values of the active and inactive areas. Sense line portions in the inactive area may have metal traces of enhanced reflectivity and/or uneven surface topology to enhance ambient light reflections through a circular polarizer that overlaps the active and inactive areas.Type: GrantFiled: August 20, 2021Date of Patent: September 19, 2023Assignee: Apple Inc.Inventors: Kyounghwan Kim, Abbas Jamshidi Roudbari, Chia-Hsiang Chen, Chien-Ya Lee, Ching-Sang Chuang, Jae Won Choi, Jonathan H. Beck, Ming E. Tai, Warren S. Rieutort-Louis, Wen-I Hsieh, Yuchi Che
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Publication number: 20230284503Abstract: A display may have both a full pixel density region and a pixel removal region with a plurality of high-transmittance areas that overlap an optical sensor. Each high-transmittance area may be devoid of thin-film transistors and other display components. To improve transmission while maintaining satisfactory touch sensing performance, one or more segments of the touch sensor metal in the pixel removal region may have a reduced width relative to the touch sensor metal in the full pixel density region and/or one or more segments of the touch sensor metal in the pixel removal region may be omitted relative to the touch sensor metal in the full pixel density region. To mitigate a different appearance between the pixel removal region and the full pixel density region at off-axis viewing angles, the position of the touch sensor metal in the pixel removal region may be tuned.Type: ApplicationFiled: June 16, 2022Publication date: September 7, 2023Inventors: Ricardo A Peterson, Abbas Jamshidi Roudbari, Ashray Vinayak Gogte, Christophe Blondin, Sebastian Knitter, Warren S Rieutort-Louis, Yuchi Che, Yurii Morozov, Matthew D Hollands, Chuang Qian, Michael H Lim, Matthew J Schwendeman, Kenny Kim, Tsung-Ting Tsai, Yue Qu
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Patent number: 11751462Abstract: A display may have both a full pixel density region and a pixel removal region with a plurality of high-transmittance areas that overlap an optical sensor. Each high-transmittance area may be devoid of thin-film transistors and other display components. To improve transmission while maintaining satisfactory touch sensing performance, one or more segments of the touch sensor metal in the pixel removal region may have a reduced width relative to the touch sensor metal in the full pixel density region and/or one or more segments of the touch sensor metal in the pixel removal region may be omitted relative to the touch sensor metal in the full pixel density region. To mitigate a different appearance between the pixel removal region and the full pixel density region at off-axis viewing angles, the position of the touch sensor metal in the pixel removal region may be tuned.Type: GrantFiled: June 16, 2022Date of Patent: September 5, 2023Assignee: Apple Inc.Inventors: Ricardo A Peterson, Abbas Jamshidi Roudbari, Ashray Vinayak Gogte, Christophe Blondin, Sebastian Knitter, Warren S Rieutort-Louis, Yuchi Che, Yurii Morozov, Matthew D Hollands, Chuang Qian, Michael H Lim, Matthew J Schwendeman, Kenny Kim, Tsung-Ting Tsai, Yue Qu
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Publication number: 20230092986Abstract: An electronic device may include a display and an optical sensor formed underneath the display. A pixel removal region on the display may at least partially overlap with the sensor. The pixel removal region may include a plurality of non-pixel regions each of which is devoid of thin-film transistors. The plurality of non-pixel regions is configured to increase the transmittance of light through the display to the sensor. In addition to removing thin-film transistors in the pixel removal region, additional layers in the display stack-up may be removed. In particular, a cathode layer, polyimide layer, and/or substrate in the display stack-up may be patterned to have an opening in the pixel removal region. A polarizer may be bleached in the pixel removal region for additional transmittance gains. The cathode layer may be removed using laser ablation with a spot laser or blanket illumination.Type: ApplicationFiled: February 2, 2021Publication date: March 23, 2023Inventors: Warren S. Rieutort-Louis, Meng-Huan Ho, Abbas Jamshidi Roudbari, Chih Jen Yang, Chin Wei Hsu, Jae Won Choi, Jean-Pierre S. Guillou, Ming Xu, Rui Liu, Yi Qiao, Yu-Wen Liu, Yuchi Che, Yue Cui
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Publication number: 20220165814Abstract: An electronic device may include a display and a sensor under the display. The display may include an array of subpixels for displaying an image to a user of the electronic device. At least a portion of the array of subpixels may be selectively removed in a pixel removal region to improve optical transmittance to the sensor through the display. The pixel removal region may include a plurality of pixel free regions that are devoid of thin-film transistor structures, that are devoid of power supply lines, that have continuous open areas due to rerouted row/column lines, that are partially devoid of touch circuitry, that optionally include dummy contacts, and/or have selectively patterned display layers.Type: ApplicationFiled: April 8, 2020Publication date: May 26, 2022Inventors: Warren S. Rieutort-Louis, Woo Shik Jung, Abbas Jamshidi Roudbari, Shin-Hung Yeh, Christopher E. Glazowski, Jean-Pierre S. Guillou, Yuchi Che
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Patent number: 11295664Abstract: In some embodiments, a device includes a light-emitting display, and an optical emitter positioned behind the light-emitting display. The optical emitter is configured to emit light through the light-emitting display. A processor is configured to synchronize a first illumination timing of the optical emitter and a second illumination timing of the light-emitting display. In some embodiments, a device includes an optical transceiver processor and a display processor. The display processor is configured to output timing information to a light-emitting display and to the optical transceiver processor, and the optical transceiver processor is configured to cause an optical transceiver to emit or receive light in synchronization with the timing information output by the display processor.Type: GrantFiled: March 11, 2020Date of Patent: April 5, 2022Assignee: Apple Inc.Inventors: Tong Chen, Dong Zheng, Graeme M. Williams, Mark T. Winkler, Warren S. Rieutort-Louis, Yuchi Che
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Patent number: 11251259Abstract: An organic light-emitting diode display may have rounded corners. A negative power supply path may be used to distribute a negative voltage to a cathode layer, while a positive power supply path may be used to distribute a positive power supply voltage to each pixel in the display. The positive power supply path may have a cutout that is occupied by the negative power supply path to decrease resistance of the negative power supply path in a rounded corner of the display. To mitigate reflections caused by the positive power supply path being formed over tightly spaced data lines, the positive power supply path may be omitted in a rounded corner of the display, a shielding layer may be formed over the positive power supply path in the rounded corner, or non-linear gate lines may be formed over the positive power supply path.Type: GrantFiled: July 27, 2020Date of Patent: February 15, 2022Assignee: Apple Inc.Inventors: Tiffany T. Moy, Yuchi Che, Seonpil Jang, Warren S. Rieutort-Louis, Bhadrinarayana Lalgudi Visweswaran, Jae Won Choi, Abbas Jamshidi Roudbari, Myung-Kwan Ryu, Hirokazu Yamagata, Keisuke Otsu
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Publication number: 20210305350Abstract: An electronic device may include a display having display pixels formed in an active area of the display. The display further includes display driver circuitry for driving gate lines that are routed across the display. A hole such as a through hole, optical window, or other inactive region may be formed within the active area of the display. Multiple gate lines carrying the same signal may be merged together prior to being routed around the hole to help minimize the routing line congestion around the border of the hole. Dummy circuits may be coupled to the merged segment portion to help increase the parasitic loading on the merged segments. The hole may have a tapered shape to help maximize the size of the active area. The hole may have an asymmetric shape to accommodate multiple sub-display sensor components.Type: ApplicationFiled: January 11, 2021Publication date: September 30, 2021Inventors: Warren S. Rieutort-Louis, Abbas Jamshidi Roudbari, Yuchi Che, Tsung-Ting Tsai, Jiun-Jye Chang, Shih Chang Chang, Ting-Kuo Chang
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Publication number: 20210287602Abstract: In some embodiments, a device includes a light-emitting display, and an optical emitter positioned behind the light-emitting display. The optical emitter is configured to emit light through the light-emitting display. A processor is configured to synchronize a first illumination timing of the optical emitter and a second illumination timing of the light-emitting display. In some embodiments, a device includes an optical transceiver processor and a display processor. The display processor is configured to output timing information to a light-emitting display and to the optical transceiver processor, and the optical transceiver processor is configured to cause an optical transceiver to emit or receive light in synchronization with the timing information output by the display processor.Type: ApplicationFiled: March 11, 2020Publication date: September 16, 2021Inventors: Tong Chen, Dong Zheng, Graeme M. Williams, Mark T. Winkler, Warren S. Rieutort-Louis, Yuchi Che
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Patent number: 11101337Abstract: An organic light-emitting diode display may have thin-film transistor circuitry formed on a substrate. The display and substrate may have rounded corners. A pixel definition layer may be formed on the thin-film transistor circuitry. Openings in the pixel definition layer may be provided with emissive material overlapping respective anodes for organic light-emitting diodes. A cathode layer may cover the array of pixels. A ground power supply path may be used to distribute a ground voltage to the cathode layer. The ground power supply path may be formed from a metal layer that is shorted to the cathode layer using portions of a metal layer that forms anodes, may be formed from a mesh shaped metal pattern, may have L-shaped path segments, and may include laser-deposited metal on the cathode layer. Data lines may be formed from metal layers in the active area to accommodate the rounded corners of the display.Type: GrantFiled: May 12, 2020Date of Patent: August 24, 2021Assignee: Apple Inc.Inventors: Yuchi Che, Warren S. Rieutort-Louis, Tsung-Ting Tsai, Abbas Jamshidi Roudbari, Jiun-Jye Chang, Ting-Kuo Chang, Shih Chang Chang, Chin-Wei Lin, Stephen S. Poon, Cheng-Ho Yu, ChoongHo Lee, Doh-Hyoung Lee, Vasudha Gupta, Younggu Lee
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Publication number: 20200357879Abstract: An organic light-emitting diode display may have rounded corners. A negative power supply path may be used to distribute a negative voltage to a cathode layer, while a positive power supply path may be used to distribute a positive power supply voltage to each pixel in the display. The positive power supply path may have a cutout that is occupied by the negative power supply path to decrease resistance of the negative power supply path in a rounded corner of the display. To mitigate reflections caused by the positive power supply path being formed over tightly spaced data lines, the positive power supply path may be omitted in a rounded corner of the display, a shielding layer may be formed over the positive power supply path in the rounded corner, or non-linear gate lines may be formed over the positive power supply path.Type: ApplicationFiled: July 27, 2020Publication date: November 12, 2020Inventors: Tiffany T. Moy, Yuchi Che, Seonpil Jang, Warren S. Rieutort-Louis, Bhadrinarayana Lalgudi Visweswaran, Jae Won Choi, Abbas Jamshidi Roudbari, Myung-Kwan Ryu, Hirokazu Yamagata, Keisuke Otsu
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Patent number: 10763323Abstract: An organic light-emitting diode display may have rounded corners. A negative power supply path may be used to distribute a negative voltage to a cathode layer, while a positive power supply path may be used to distribute a positive power supply voltage to each pixel in the display. The positive power supply path may have a cutout that is occupied by the negative power supply path to decrease resistance of the negative power supply path in a rounded corner of the display. To mitigate reflections caused by the positive power supply path being formed over tightly spaced data lines, the positive power supply path may be omitted in a rounded corner of the display, a shielding layer may be formed over the positive power supply path in the rounded corner, or non-linear gate lines may be formed over the positive power supply path.Type: GrantFiled: April 4, 2019Date of Patent: September 1, 2020Assignee: Apple Inc.Inventors: Tiffany T. Moy, Yuchi Che, Seonpil Jang, Warren S. Rieutort-Louis, Bhadrinarayana Lalgudi Visweswaran, Jae Won Choi, Abbas Jamshidi Roudbari, Myung-Kwan Ryu, Hirokazu Yamagata, Keisuke Otsu
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Publication number: 20200273928Abstract: An organic light-emitting diode display may have thin-film transistor circuitry formed on a substrate. The display and substrate may have rounded corners. A pixel definition layer may be formed on the thin-film transistor circuitry. Openings in the pixel definition layer may be provided with emissive material overlapping respective anodes for organic light-emitting diodes. A cathode layer may cover the array of pixels. A ground power supply path may be used to distribute a ground voltage to the cathode layer. The ground power supply path may be formed from a metal layer that is shorted to the cathode layer using portions of a metal layer that forms anodes, may be formed from a mesh shaped metal pattern, may have L-shaped path segments, and may include laser-deposited metal on the cathode layer. Data lines may be formed from metal layers in the active area to accommodate the rounded corners of the display.Type: ApplicationFiled: May 12, 2020Publication date: August 27, 2020Inventors: Yuchi Che, Warren S. Rieutort-Louis, Tsung-Ting Tsai, Abbas Jamshidi Roudbari, Jiun-Jye Chang, Ting-Kuo Chang, Shih Chang Chang, Chin-Wei Lin, Stephen S. Poon, Cheng-Ho Yu, ChoongHo Lee, Doh-Hyoung Lee, Vasudha Gupta, Younggu Lee