Patents by Inventor Jie Shu

Jie Shu 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).

  • Publication number: 20240387368
    Abstract: A semiconductor device and method of manufacture are presented in which a first pad and a second pad are formed adjacent to each other. A first set of dummy pads is manufactured between the first pad and the second pad and bonding pads are formed in electrical connection to the first pad and the second pad.
    Type: Application
    Filed: July 30, 2024
    Publication date: November 21, 2024
    Inventors: Chin-Yi Lin, Jie Chen, Sheng-Han Tsai, Yuan Sheng Chiu, Chou-Jui Hsu, Yu Kuei Yeh, Tsung-Shu Lin
  • Publication number: 20240294445
    Abstract: A continuous process for preparing exo-THDCPD by isomerization of endo-THDCPD includes the step of passing endo-THDCPD and hydrogen gas successively through a first reaction zone filled with a hydrogenation protectant and a second reaction zone filled with an isomerization catalyst to perform a hydroisomerization reaction so as to obtain exo-THDCPD, wherein the hydrogenation protectant is a supported metal hydrogenation catalyst, and the isomerization catalyst is a metal-modified molecular sieve catalyst. The process converts endo-THDCPD to exo-THDCPD, with a conversion of greater than 86% and a target product selectivity of greater than 94%.
    Type: Application
    Filed: September 23, 2022
    Publication date: September 5, 2024
    Inventors: Zhaolin FU, Zhiping TAO, Enhui XING, Yibin LUO, Xingtian SHU, Jie ZHAO, Rui YAN, Dandan JIA, Zhongpeng ZHU, Weiping ZHENG
  • Patent number: 11835393
    Abstract: A microprobe is provided that includes a microsphere optical resonator operatively coupled to a nanoscatterer. The microsphere optical resonator includes a back surface and a front surface opposite the front surface. The front surface is configured to receive a focused laser beam, and the nanoscatterer is positioned adjacent to the back surface.
    Type: Grant
    Filed: December 11, 2018
    Date of Patent: December 5, 2023
    Assignee: Washington University
    Inventors: Lan Yang, Fang-Jie Shu, Xuefeng Jiang, Guangming Zhao
  • Patent number: 11245284
    Abstract: A method and an electronic device for power allocation of multi-parallel power electronic transformers, the method including: determining a quantity of conversion stages of the power electronic transformers; obtaining a load ratio-efficiency relationship between the two ports of each conversion stage in turn, performing a curve fitting to obtain a load ratio-efficiency curve of each conversion stage of the power electronic transformers; calculating a load ratio-loss relationship of each conversion stage, based on the load ratio-efficiency curve of each conversion stage; obtaining a multi-parallel minimum-operation-loss power allocation curve of each conversion stage; performing a piecewise curve fitting of the minimum-operation-loss power allocation curve to obtain a multi-parallel optimum power allocation mathematical model of each stage; and determining an optimum power allocation to each port of the multi-parallel power electronic transformers, based on the multi-parallel optimum power allocation mathemati
    Type: Grant
    Filed: October 9, 2018
    Date of Patent: February 8, 2022
    Assignee: GUANGZHOU INSTITUTE OF ENERGY CONVERSION, CHINESE ACADEMY OF SCIENCES
    Inventors: Lei Huang, Jie Shu, Qiong Cui, Jiyuan Zhang, Hao Wang
  • Publication number: 20210359541
    Abstract: A method and an electronic device for power allocation of multi-parallel power electronic transformers, the method including: determining a quantity of conversion stages of the power electronic transformers; obtaining a load ratio-efficiency relationship between the two ports of each conversion stage in turn, performing a curve fitting to obtain a load ratio-efficiency curve of each conversion stage of the power electronic transformers; calculating a load ratio-loss relationship of each conversion stage, based on the load ratio-efficiency curve of each conversion stage; obtaining a multi-parallel minimum-operation-loss power allocation curve of each conversion stage; performing a piecewise curve fitting of the minimum-operation-loss power allocation curve to obtain a multi-parallel optimum power allocation mathematical model of each stage; and determining an optimum power allocation to each port of the multi-parallel power electronic transformers, based on the multi-parallel optimum power allocation mathemati
    Type: Application
    Filed: October 9, 2018
    Publication date: November 18, 2021
    Applicant: GUANGZHOU INSTITUTE OF ENERGY CONVERSION, CHINESE ACADEMY OF SCIENCES
    Inventors: Lei HUANG, Jie SHU, Qiong CUI, Jiyuan ZHANG, Hao WANG
  • Publication number: 20190257698
    Abstract: A microprobe is provided that includes a microsphere optical resonator operatively coupled to a nanoscatterer. The microsphere optical resonator includes a back surface and a front surface opposite the front surface. The front surface is configured to receive a focused laser beam, and the nanoscatterer is positioned adjacent to the back surface.
    Type: Application
    Filed: December 11, 2018
    Publication date: August 22, 2019
    Applicant: Washington University
    Inventors: Lan Yang, Fang-Jie Shu, Xuefeng Jiang, Guangming Zhao
  • Publication number: 20180046924
    Abstract: A whole-life-cycle power output classification prediction system for photovoltaic systems. The power output classification prediction system comprises a basic information storage module, a database module, a prediction model judgment module, a prediction data pre-processing module and a prediction modeling module. The system selects different prediction models to carry out training and predication according to acquired data types and operation time of the photovoltaic system, is a modularized and multi-type photovoltaic system output power prediction system, can be suitable for output power prediction requirements of a majority of photovoltaic systems at present, can carry out customization according to the scale of the photovoltaic system, user requirements, etc., can both meet economic requirements and reliability requirements, and has good adaptability and transportability. The prediction method can update automatically. The prediction system can carry out automatic operation management.
    Type: Application
    Filed: September 24, 2015
    Publication date: February 15, 2018
    Applicant: GUANGZHOU INSTITUTE OF ENERGY CONVERSION, CHINESE ACADEMY OF SCIENCES
    Inventors: Lei HUANG, Jie SHU, Guixiu JIANG, Zhifeng WU, Qiong CUI, Hao WANG
  • Patent number: 9234565
    Abstract: A two-speed transmission is provided. The transmission comprises a planetary gear train (8) having a sun gear, a fixed annular gear (8b), at least one planet gear (8c) and a planet carrier (8d). A dual clutch (10) is disposed between the planetary gear train and a prime mover which outputs rotational movement. The dual clutch is configured to be driven into a first clutching mode in which it kinematically couples the sun gear with the prime mover, and a second clutching mode in which it kinematically couples the planet carrier with the prime mover. And an actuator is configured to selectively drive the dual clutch into one of its first and second clutching modes. An electric vehicle comprises the two-speed transmission.
    Type: Grant
    Filed: May 31, 2012
    Date of Patent: January 12, 2016
    Assignee: Robert Bosch GmbH
    Inventors: MingLiang Zhang, Futang Zhu, Jie Shu, Chengliang Yin
  • Patent number: 9106342
    Abstract: A device for modulating terahertz waves includes a metal layer (703) including a continuous metal portion (705) and island metal portions (707). The metal portions (705, 707) are separated by apertures (709). The device further includes a semiconductor layer (715) affixed to a bottom surface of the metal layer (703). The semiconductor layer (715) includes carrier regions (717) located below the apertures (709). The transmission of terahertz waves through the apertures (709) is modulated by changing a voltage applied across the aperture via voltage source (715). By injecting free carriers into carrier regions (717) due to a change of the voltage an extraordinary terahertz transmission effect of the metal layer (703) can be switched off. A small increase in the free-carrier absorption is significantly enhanced by the Fabry-Perot resonance, resulting in a substantial decrease in transmission.
    Type: Grant
    Filed: May 3, 2012
    Date of Patent: August 11, 2015
    Assignee: William Marsh Rice University
    Inventors: Quinfan Xu, Jie Shu, Daniel M. Mittleman, Ciyuan Qiu
  • Publication number: 20150141191
    Abstract: A two-speed transmission is provided. The transmission comprises a planetary gear train (8) having a sun gear, a fixed annular gear (8b), at least one planet gear (8c) and a planet carrier (8d). A dual clutch (10) is disposed between the planetary gear train and a prime mover which outputs rotational movement. The dual clutch is configured to be driven into a first clutching mode in which it kinematically couples the sun gear with the prime mover, and a second clutching mode in which it kinematically couples the planet carrier with the prime mover. And an actuator is configured to selectively drive the dual clutch into one of its first and second clutching modes. An electric vehicle comprises the two-speed transmission.
    Type: Application
    Filed: May 31, 2012
    Publication date: May 21, 2015
    Applicant: Robert Bosch GmbH
    Inventors: MingLiang Zhang, Futang Zhu, Jie Shu, Chengliang Yin
  • Publication number: 20140048710
    Abstract: A device for modulating terahertz waves includes a metal layer (703) including a continuous metal portion (705) and island metal portions (707). The metal portions (705, 707) are separated by apertures (709). The device further includes a semiconductor layer (715) affixed to a bottom surface of the metal layer (703). The semiconductor layer (715) includes carrier regions (717) located below the apertures (709). The transmission of terahertz waves through the apertures (709) is modulated by changing a voltage applied across the aperture via voltage source (715). By injecting free carriers into carrier regions (717) due to a change of the voltage an extraordinary terahertz transmission effect of the metal layer (703) can be switched off. A small increase in the free-carrier absorption is significantly enhanced by the Fabry-Perot resonance, resulting in a substantial decrease in transmission.
    Type: Application
    Filed: May 3, 2012
    Publication date: February 20, 2014
    Inventors: Quinfan Xu, Jie Shu, Daniel M. Mittleman, Ciyuan Qiu
  • Patent number: 8231492
    Abstract: A torque transmitting device includes a plurality of clutch plates, a ramp member that is selectively rotatable about an axis and that defines a ramp surface, a worm gear that is operatively connected to the ramp member for rotation therewith about the axis, and a roller element contacting the ramp surface. The ramp surface is configured such that, when the ramp member is rotated about the axis, the roller element exerts a reaction force on the ramp surface that urges the ramp member to move in a first axial direction and thereby transmit the reaction force to the clutch plates.
    Type: Grant
    Filed: April 16, 2009
    Date of Patent: July 31, 2012
    Assignees: GM Global Technology Operations LLC, Shanghai Jiao Tong University
    Inventors: Li Chen, Chengliang Yin, Jie Shu, Jian Yao, Chunhao J. Lee, Chi-Kuan Kao, Farzad Samie, Yu Dong
  • Publication number: 20100263978
    Abstract: A torque transmitting device includes a plurality of clutch plates, a ramp member that is selectively rotatable about an axis and that defines a ramp surface, a worm gear that is operatively connected to the ramp member for rotation therewith about the axis, and a roller element contacting the ramp surface.
    Type: Application
    Filed: April 16, 2009
    Publication date: October 21, 2010
    Applicants: GM GLOBAL TECHNOLOGY OPERATIONS. INC., Shanghai Jiao Tong University
    Inventors: Li Chen, Chengliang Yin, Jie Shu, Jian Yao, Chunhao J. Lee, Chi-Kuan Kao, Farzad Samie, Yu Dong