公开(公告)号：US20240315109A1

公开(公告)日：2024-09-19

申请号：US18571105

申请日：2022-04-26

Applicant: Apple Inc.

Inventor： Lixia Zhou ,  Joy M Johnson ,  Sandeep Chalasani ,  Ting Sun ,  Yang Deng ,  Majid Gharghi ,  Majid Esfandyarpour ,  Young Cheol Yang ,  Yuchi Che ,  Warren S Rieutort-Louis ,  Kyounghwan Kim ,  Sebastian Knitter ,  Yi Qiao ,  Jean-Pierre S Guillou ,  Ze Yuan ,  Adam Backer ,  Yi-Pai Huang ,  Chaohao Wang

IPC: H10K59/65 ,  H10K59/131

CPC classification number: H10K59/65 ,  H10K59/131

Abstract: An electronic device may include a display and an optical sensor formed underneath the display. The electronic device may include a locally modified region that overlaps the optical sensor. The locally modified region of the display may have a modification relative to a normal region of the display that does not overlap the optical sensor. The modification may mitigate diffractive artifacts that would otherwise impact the optical sensor that senses light passing through the display. To mitigate diffraction artifacts, the locally modified region of the display may use spatial randomization (e.g., spatial randomization of signal paths and/or spatial randomization of via locations), opaque structures may be formed with circular footprints, a black masking layer may be formed with circular openings, apodization may be used, and/or a phase randomization film may be included.

公开(公告)号：US20230171988A1

公开(公告)日：2023-06-01

申请号：US17968280

申请日：2022-10-18

Applicant: Apple Inc.

Inventor： Prashant Mandlik ,  Bhadrinarayana Lalgudi Visweswaran ,  Ankit Mahajan ,  Chia-Hao Chang ,  Christopher E Glazowski ,  David L Wei ,  Hui Lu ,  Takahide Ishii ,  Themistoklis Afentakis ,  Han Liu ,  Cheng-Chih Hsieh ,  Asli Sirman ,  Shih Chang Chang ,  Ko-Wei Chen ,  Shang-Chih Lin ,  Tsung-Ting Tsai ,  Jae Won Choi ,  Abbas Jamshidi Roudbari ,  Ting-Kuo Chang ,  Jean-Pierre S Guillou

IPC: H01L51/52 ,  H01L27/32

CPC classification number: H01L51/5253 ,  H01L51/5262 ,  H01L51/5293 ,  H01L27/323

Abstract: An electronic device may have a display such as an organic light-emitting diode display. The organic light-emitting diode (OLED) display may have an array of organic light-emitting diode pixels that each have OLED layers interposed between a cathode and an anode. A first passivation layer, a first planarization layer, and a second passivation layer may be formed over the cathode. The first and second passivation layers may be formed from inorganic material. A second planarization layer may be formed over the second passivation layer between the second passivation layer and a polarizer. The second planarization layer may planarize the polarizer at the edges of the active area of the display where the polarizer would otherwise have a steep taper. Planarizing the polarizer in this way mitigates undesirable secondary reflections off of the polarizer. The first and second planarization layers may be formed from organic material.

公开(公告)号：US12185616B1

公开(公告)日：2024-12-31

申请号：US17840472

申请日：2022-06-14

Applicant: Apple Inc.

Inventor： Ricardo A Peterson ,  Yuchi Che ,  Warren S Rieutort-Louis ,  Abbas Jamshidi Roudbari ,  Yi Qiao ,  Yue Cui ,  Jean-Pierre S Guillou ,  Shyuan Yang ,  Tsung-Ting Tsai

IPC: H10K59/88 ,  H10K59/35

Abstract: An electronic device may include a display and an optical sensor formed underneath the display. The display may have both a full pixel density region and a pixel removal region with a plurality of high-transmittance areas that overlap the optical sensor. To mitigate reflectance mismatch between the full pixel density region and the pixel removal region, the pixel removal region may include a transition region at one or more edges. In the transition region, one or more components may have a gradual density change between the full pixel density region and a central portion of the pixel removal region. Components that may have a changing density in the transition region include dummy thin-film transistor sub-pixels, dummy anodes, a cathode layer, and a touch sensor metal layer. The transition region may also include anodes that gradually change shape and/or size.

公开(公告)号：US20240203332A1

公开(公告)日：2024-06-20

申请号：US18509592

申请日：2023-11-15

Applicant: Apple Inc.

Inventor： Mario Miscuglio ,  Kingsuk Brahma ,  Jie Won Ryu ,  Shengkui Gao ,  Yuchi Che ,  Graeme M Williams ,  Yi Qiao ,  Wei H Yao ,  Jean-Pierre S Guillou

IPC: G09G3/3208 ,  G09G3/32

CPC classification number: G09G3/3208 ,  G09G3/32 ,  G09G2300/0828 ,  G09G2320/0276

Abstract: In a display characterized by regions with different pixel responses due, for example, to local pixel density variation, voltage-to-luminance matching may be non-universal. Therefore, in order to avoid visual artifacts that may hinder a desired visualization of displayed content, it may be advantageous to compensate the different gamma responses. In some cases, such as with electronic devices having a single pixel density across the display, optical calibration may be performed to determine voltage-to-luminance matching. However, in electronic devices with local pixel density variations, it may be disadvantageous to perform optical calibrations for each region with a different pixel density. Instead of using two distinct gamma curves which may include dedicated optical calibration, a global nonlinear scaler (GNLS) compensation may be applied. Embodiments may pertain to techniques for applying a per-channel and band-global gamma-to-voltage compensation to reduce or minimize a relative luminance error amongst different responses of display regions.

公开(公告)号：US20240210995A1

公开(公告)日：2024-06-27

申请号：US18483653

申请日：2023-10-10

Applicant: Apple Inc.

Inventor： Prashant Mandlik ,  Bhadrinarayana Lalgudi Visweswaran ,  Mahendra Chhabra ,  Chia-Hao Chang ,  Shiyi Liu ,  Siddharth Harikrishna Mohan ,  Zhen Zhang ,  Han-Chieh Chang ,  Yi Qiao ,  Yue Cui ,  Tyler R Kakuda ,  Michael Vosgueritchian ,  Sudirukkuge T. Jinasundera ,  Warren S Rieutort-Louis ,  Tsung-Ting Tsai ,  Jae Won Choi ,  Jiun-Jye Chang ,  Jean-Pierre S Guillou ,  Rui Liu ,  Po-Chun Yeh ,  Chieh Hung Yang ,  Ankit Mahajan ,  Takahide Ishii ,  Pei-Ling Lin ,  Pei Yin ,  Gwanwoo Park ,  Markus Einzinger ,  Martijn Kuik ,  Abhijeet S Bagal ,  Kyounghwan Kim ,  Jonathan H Beck ,  Chiang-Jen Hsiao ,  Chih-Hao Kung ,  Chih-Lei Chen ,  Chih-Yu Chung ,  Chuan-Jung Lin ,  Jung Yen Huang ,  Kuan-Chi Chen ,  Shinya Ono ,  Wei Jung Hsieh ,  Wei-Chieh Lin ,  Yi-Pu Chen ,  Yuan Ming Chiang ,  An-Di Sheu ,  Chi-Wei Chou ,  Chin-Fu Lee ,  Ko-Wei Chen ,  Kuan-Yi Lee ,  Weixin Li ,  Shin-Hung Yeh ,  Shyuan Yang ,  Themistoklis Afentakis ,  Asli Sirman ,  Baolin Tian ,  Han Liu

IPC: G06F1/16 ,  H10K59/131 ,  H10K59/40 ,  H10K77/10

CPC classification number: G06F1/1652 ,  H10K59/131 ,  H10K59/40 ,  H10K77/111 ,  H10K2102/311

Abstract: A display may have a stretchable portion with hermetically sealed rigid pixel islands. A flexible interconnect region may be interposed between the hermetically sealed rigid pixel islands. The hermetically sealed rigid pixel islands may include organic light-emitting diode (OLED) pixels. A conductive cutting structure may have an undercut that causes a discontinuity in a conductive OLED layer to mitigate lateral leakage. The conductive cutting structure may also be electrically connected to a cathode for the OLED pixels and provide a cathode voltage to the cathode. First and second inorganic passivation layers may be formed over the OLED pixels. Multiple discrete portions of an organic inkjet printed layer may be interposed between the first and second inorganic passivation layers.

公开(公告)号：US11003015B1

公开(公告)日：2021-05-11

申请号：US16285419

申请日：2019-02-26

Applicant: Apple Inc.

Inventor： Yi Qiao ,  Jean-Pierre S Guillou ,  Michael J. Brown ,  Ming Xu ,  Tyler R. Kakuda

IPC: F21V8/00 ,  G02B6/08 ,  G02F1/1333 ,  G02F1/1335 ,  H01L27/32 ,  H01L33/44 ,  H01L33/58 ,  H01L27/15 ,  H01L51/52

Abstract: A light guiding layer may be incorporated into an electronic device with multiple displays to create a seamless display surface between the adjacent displays. The light guiding layer may have a first portion that overlaps the active area of a first display panel, a second portion that overlaps the active area of a second, adjacent display panel, and a third portion that overlaps the inactive areas of the first and second display panels. The light guiding layer may redirect light from the active area of each display panel to the region above the inactive areas of the display panels where it is emitted towards the viewer. The light guiding layer therefore effectively hides the border between the two display panels by emitting light in that region. The light guiding layer may include light leakage promotion structures to ensure light is emitted in the border region.