Patents by Inventor Bing Deng
Bing Deng 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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Publication number: 20240130324Abstract: Disclosed is a Flammlina filiformis with a fruiting body of a golden cap and a white stipe. The Flammlina filiformis has a strain number of “Jin Jin No. 1” and has been preserved on Jun. 16, 2022 at the China General Microbiological Culture Collection Center with a registration number of CGMCC No. 40222. Colors of the cap and the stipe of the Flammlina filiformis “Jin Jin No. 1” have obvious differences. Compared with a parent white Flammlina filiformis strain F0012, the Flammlina filiformis “Jin Jin No. 1” has an equivalent average yield, an initial harvest period 1-2 days late, and a golden cap.Type: ApplicationFiled: August 29, 2023Publication date: April 25, 2024Inventors: Jingyu Liu, Mingchang Chang, Bing Deng, Junlong Meng, Ludan Hou, Min Zhang
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Publication number: 20240118218Abstract: A stroboscopic stepped illumination defect detection system for appearance defect detection of a product is provided. The system includes an image extraction unit, a brightness adjustment unit, a data processing unit, and a stroboscopic control unit. The image extraction unit is connected to the stroboscopic control unit and used for obtaining stable and clear images in various transmission/reflection visual bright fields/dark fields; and the brightness adjustment unit is connected to the stroboscopic control unit and used for setting various transmission/reflection visual bright fields/dark fields and converting in the various transmission/reflection visual bright fields/dark fields.Type: ApplicationFiled: November 11, 2021Publication date: April 11, 2024Applicants: Casi Vision Technology (Luoyang) Co., Ltd., Casi Vision Technology (Beijing) Co., Ltd.Inventors: Xiaosong Hu, Bing Pian, Wujie Zhang, Hao Deng, Chenglin Zhang
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Publication number: 20240116094Abstract: Method and system for soil remediation by flash Joule heating. A contaminated soil that includes organic pollutants and/or one or more metal pollutants can be mixed with carbon black or other conductive additive to form a mixture. The mixture then undergoes flash Joule heating to clean the soil (by the decomposing of the organic pollutants and/or removing of the one or more toxic metals, such as by vaporization).Type: ApplicationFiled: February 2, 2022Publication date: April 11, 2024Applicant: WILLIAM MARSH RICE UNIVERSITYInventors: James M. Tour, Bing Deng
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Publication number: 20240065332Abstract: A low-oxygen heating-type cigarette assembly, comprising a low-oxygen heating-type smoking set (B) and a low-oxygen heating-type cigarette (A). The low-oxygen heating-type smoking set (B) comprises a heating section (4) and a smoke extracting member (2) detachably arranged with the heating section (4), wherein the heating section (4) is provided with a cigarette receiving chamber (4-1), and the smoke extracting member (2) comprises a hollow smoke extracting cone (2-1) and a smoke transmission tube (2-2).Type: ApplicationFiled: December 25, 2020Publication date: February 29, 2024Inventors: Bin LI, Shuang WANG, Ke ZHANG, Nan DENG, Le WANG, Feng HUANG, Mingjian ZHANG, Bing WANG
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Publication number: 20230374623Abstract: Ultrafast flash Joule heating synthesis methods and systems, and more particularly, ultrafast synthesis methods to recover metal from ores, fly ash, and bauxite residue (red mud).Type: ApplicationFiled: September 24, 2021Publication date: November 23, 2023Applicant: WILLIAM MARSH RICE UNIVERSITYInventors: James M. Tour, Bing Deng
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Publication number: 20230357885Abstract: Ultrafast flash Joule heating synthesis methods and systems, and more particularly, ultrafast synthesis methods to recover precious metals recovery and other metals from electronic waste (e-waste).Type: ApplicationFiled: September 24, 2021Publication date: November 9, 2023Applicant: WILLIAM MARSH RICE UNIVERSITYInventors: James M. Tour, Bing Deng
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Patent number: 11760641Abstract: A method for preparing suspended graphene support film by selectively etching growth substrate is disclosed in present invention. The transfer process of graphene is avoided. The process of present invention is efficient and low in cost, suspended graphene support film can be prepared in a single etching step. The prepared graphene support film does not need any support by polymer film and polymer fiber. The prepared graphene support film has controllable number of layers and high intactness (90%-97%), large suspended area (diameter is 10-50 ?m), wide clean area (>100 nm) and can be mass-produced. In addition, the graphene support film can be directly used as transmission electron microscope support film, and can be used to achieve high resolution imaging of nanoparticles.Type: GrantFiled: October 14, 2019Date of Patent: September 19, 2023Assignee: PEKING UNIVERSITYInventors: Hailin Peng, Liming Zheng, Bing Deng
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Publication number: 20210395092Abstract: A method for preparing suspended graphene support film by selectively etching growth substrate is disclosed in present invention. The transfer process of graphene is avoided. The process of present invention is efficient and low in cost, suspended graphene support film can be prepared in a single etching step. The prepared graphene support film does not need any support by polymer film and polymer fiber. The prepared graphene support film has controllable number of layers and high intactness (90%-97%), large suspended area (diameter is 10-50 ?m), wide clean area (>100 nm) and can be mass-produced. In addition, the graphene support film can be directly used as transmission electron microscope support film, and can be used to achieve high resolution imaging of nanoparticles.Type: ApplicationFiled: October 14, 2019Publication date: December 23, 2021Inventors: Hailin PENG, Liming ZHENG, Bing DENG
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Patent number: 10983160Abstract: Circuits and methods for measuring a working current of a circuit module. An exemplary circuit for measuring a working current of a circuit module includes a capacitor. The capacitor supplies a voltage to the circuit module using a voltage on the two terminals of the capacitor. The circuit also includes a voltage measuring module. The voltage measuring module measures a voltage change amount on the two terminals of the capacitor in an unit time. The working current of the circuit module is determined by the circuit according to the voltage change amount on the two terminals of the capacitor in the unit time and a capacitance of the capacitor.Type: GrantFiled: June 7, 2018Date of Patent: April 20, 2021Assignees: Semiconductor Manufacturing International (Shanghai) Corporation, Semiconductor Manufacturing International (Beijing) CorporationInventors: Chia Chi Yang, Zhi Bing Deng, Teng Ye Wang, Wen Jun Weng
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Publication number: 20200318474Abstract: A method is provided for remote monitoring, decision making and operation of one or more parameters of on-site well operation equipment. The method includes collecting data corresponding to the at least one parameter by one or more on-site sensor modules assigned to the equipment for monitoring joint make-up of tubing and casing connections; transmitting the collected data to an on-site make-up monitoring system; transmitting said collected data from the on-site make-up monitoring system to a cloud or edge-based system for storage, display and analysis; accessing collected day by one or more users via one or more dedicated remote portals for review or analysis; and transmitting instructions from any one or more users via the remote portal and cloud or edge-based system back to the on-site make-up monitoring system for modifying the operation of the equipment within predefined limits.Type: ApplicationFiled: April 3, 2020Publication date: October 8, 2020Inventors: Gareth Dustin Sonnier, Bing Deng, Richard Chism, Andrei Dmitriev
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Patent number: 10744109Abstract: Disclosed are a sustained release suspension containing dezocine analogue ester and a preparation method therefor. According to the present invention, an injectable oily auxiliary material which may pharmaceutically serve as a sustained-release depot and an excipient are selected, and micronization technology is used jointly with high pressure homogenization technology and an anti-solvent technique to prepare an injectable long-acting suspension. The main components of the suspension are a compound represented by formula (I), the injectable oil, and the like.Type: GrantFiled: August 7, 2018Date of Patent: August 18, 2020Assignee: SHANDONG DANHONG PHARMACEUTICAL CO., LTD.Inventors: Yang Zhang, Bing Deng, Jiahu Wu, Wentao Wu, Zhixiang Li
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Publication number: 20200188342Abstract: Disclosed are a sustained release suspension containing dezocine analogue ester and a preparation method therefor. According to the present invention, an injectable oily auxiliary material which may pharmaceutically serve as a sustained-release depot and an excipient are selected, and micronization technology is used jointly with high pressure homogenization technology and an anti-solvent technique to prepare an injectable long-acting suspension. The main components of the suspension are a compound represented by formula (I), the injectable oil, and the like.Type: ApplicationFiled: August 7, 2018Publication date: June 18, 2020Inventors: Yang ZHANG, Bing DENG, Jiahu WU, Wentao WU, Zhixiang LI
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Patent number: 10671108Abstract: A bandgap reference circuit and method of using the same are provided. The bandgap reference circuit includes a startup component; an output component; and a bandgap core component coupled there-between. The bandgap core component includes a reference point having a voltage associated with an output signal of the output component. A controller is configured for controlling the bandgap core component and the output component to switch between a low power consumption mode and a normal operation mode based on the voltage at the reference point. When the bandgap core component and the output component operate in the normal operation mode, the bandgap reference circuit outputs a stable voltage and has a first power consumption. When the bandgap core component and the output component operate in the low power consumption mode, the bandgap reference circuit has a second power consumption less than the first power consumption.Type: GrantFiled: November 3, 2017Date of Patent: June 2, 2020Assignees: Semiconductor Manufacturing International (Shanghai) Corporation, Semiconductor Manufacturing International (Beijing) CorporationInventors: Josh Yang, Zhi Bing Deng, Cheng Tai Huang, Cheng Yi Huang, Wen Jun Weng, Jun Tao Guo
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Patent number: 10522196Abstract: A method operates a bandgap voltage reference circuit that includes a bias circuit for receiving a feedback signal and outputting a bias signal, an amplifier for receiving the bias signal and outputting a first reference signal as the feedback signal, an output circuit for receiving the first reference signal and outputting a second reference signal, and an output switch for outputting the second reference signal as an output signal. The method includes, after powering up the bandgap voltage reference circuit, determining whether the output signal is stable, when the output signal is stable, turning off the output switch; turning off the bias circuit; and turning off the output circuit. The sequential turning off the output switch, the output circuit, and the bias circuit puts the bandgap voltage reference circuit into a sleep mode to save power.Type: GrantFiled: September 25, 2017Date of Patent: December 31, 2019Assignees: SEMICONDUCTOR MANUFACTURING INTERNATIONAL (SHANGHAI) CORPORATION, SEMICONDUCTOR MANUFACTURING INTERNATIONAL (BEIJING) CORPORATIONInventors: Chia Chi Yang, Zhi Bing Deng, Cheng-Tai Huang
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Patent number: 10429873Abstract: The present disclosure relates to the field of intelligent wearable technologies, and provides a power supply circuit, a power supply circuit generation method, and a power supply circuit control method. The present disclosure provides a power supply circuit, including: a bandgap voltage reference Bandgap, a real-time detection and control module, and an alternate voltage source module, where the real-time detection and control module adjusts an output point voltage of the alternate voltage source module according to an output voltage of the Bandgap; and when the output point voltage of the alternate voltage source module reaches a target voltage, the real-time detection and control module closes the Bandgap and supplies power by using the alternate voltage source module.Type: GrantFiled: May 15, 2018Date of Patent: October 1, 2019Assignees: SEMICONDUCTOR MANF. INTL. (SHANGHAI) Corp., SEMICONDUCTOR MANF. INTL. (BEIJING) Corp.Inventors: Teng Ye Wang, Chia Chi Yang, Zhi Bing Deng, Xian Lei Zhang
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Patent number: 10386881Abstract: A power supply circuit, its generating and control methods are presented, relating to smart wearable devices. The power supply circuit comprises a Bandgap voltage reference, a real-time detection and control circuit, and a substitute voltage source. The real-time detection and control circuit is connected to the Bandgap voltage reference and the substitute voltage source, and adjusts an output voltage of the substitute voltage source to match an output voltage of the Bandgap voltage reference. After these output voltages are equal, the output voltage of the power supply circuit is provided by the substitute voltage source, and the Bandgap voltage reference can be disconnected from the circuit. This circuit can lower the power consumption of the Bandgap voltage reference without affecting the stability of the voltage output.Type: GrantFiled: June 28, 2018Date of Patent: August 20, 2019Assignees: SEMICONDUCTOR MANUFACTURING INTERNATIONAL (SHANGHAI) CORPORATION, SEMICONDUCTOR MANUFACTURING INTERNATIONAL (BEIJING) CORPORATIONInventors: Chia Chi Yang, Chen Yi Huang, Zhi Bing Deng, Cheng Tai Huang, Wen Jun Weng
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Publication number: 20190227176Abstract: A system and method of determining a geographical location of a vehicle. The method carried out by the system includes: obtaining geographical coordinates of the vehicle; determining a lateral ground displacement within a roadway on which the vehicle is traveling; receiving geographical map data that includes one or more roadways including the roadway on which the vehicle is traveling; and adjusting the geographical coordinates of the vehicle based on the lateral ground displacement and the geographical map data.Type: ApplicationFiled: January 23, 2018Publication date: July 25, 2019Inventors: Xiaofeng F. Song, Bing Deng, Jun Yuan
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Patent number: 10331141Abstract: A system for determining and executing an autonomous-vehicle vehicle travel route, including a hardware-based processing unit and a non-transitory computer-readable storage medium. The storage medium includes an input-interface module that, when executed by the hardware-based processing unit, obtains factor data indicating factors relevant to determining a vehicle travel route. The storage medium also includes a route-generation module comprising a route-complexity sub-module. The route-complexity sub-module determines, based on the factor data, route-complexity indexes corresponding to respective optional routes. The route-generation module determines the vehicle travel route based on the route-complexity indexes. The storage in various embodiments includes other sub-modules associated with other elements, such as autonomous-driving safety, comfort, stress, pollution, scenery, or infrastructure-accessibility, for determining and executing an autonomous-driving travel route.Type: GrantFiled: June 30, 2016Date of Patent: June 25, 2019Assignee: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Donald K. Grimm, Fan Bai, Jenne-tai Wang, Bing Deng
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Publication number: 20190004557Abstract: A power supply circuit, its generating and control methods are presented, relating to smart wearable devices. The power supply circuit comprises a Bandgap voltage reference, a real-time detection and control circuit, and a substitute voltage source. The real-time detection and control circuit is connected to the Bandgap voltage reference and the substitute voltage source, and adjusts an output voltage of the substitute voltage source to match an output voltage of the Bandgap voltage reference. After these output voltages are equal, the output voltage of the power supply circuit is provided by the substitute voltage source, and the Bandgap voltage reference can be disconnected from the circuit. This circuit can lower the power consumption of the Bandgap voltage reference without affecting the stability of the voltage output.Type: ApplicationFiled: June 28, 2018Publication date: January 3, 2019Inventors: Chia Chi YANG, Chen Yi HUANG, Zhi Bing DENG, Cheng Tai HUANG, Wen Jun WENG
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Publication number: 20190004556Abstract: The present disclosure relates to the field of intelligent wearable technologies, and provides a power supply circuit, a power supply circuit generation method, and a power supply circuit control method. The present disclosure provides a power supply circuit, including: a bandgap voltage reference Bandgap, a real-time detection and control module, and an alternate voltage source module, where the real-time detection and control module adjusts an output point voltage of the alternate voltage source module according to an output voltage of the Bandgap; and when the output point voltage of the alternate voltage source module reaches a target voltage, the real-time detection and control module closes the Bandgap and supplies power by using the alternate voltage source module.Type: ApplicationFiled: May 15, 2018Publication date: January 3, 2019Applicants: Semiconductor Manufacturing International (Shanghai) Corporation, Semiconductor Manufacturing International (Beijing) CorporationInventors: Teng Ye Wang, Chia Chi Yang, Zhi Bing Deng, Xian Lei Zhang