Patents by Inventor Juping LI
Juping LI 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: 20260033346Abstract: A lead-wire frame structure for packaging and a sensor package structure, which are applied to the field of sensor preparation. The lead-wire frame structure comprises: a bonding-pad component and a plurality of pin components, wherein the bonding-pad component is provided with an inward recess in a plane direction of a coplane which is formed by the bonding-pad component and the plurality of pin components. In the plane direction, arc-shaped packaging interfaces for offsetting stresses are formed in an aligned manner on an inner contour of the recess and an outer contour of the recess in the bonding-pad component. In the present application, the bonding-pad component is provided with the inward recess in the plane direction, and the aligned packaging interfaces of the inner contour of the recess and the outer contour of the recess arc designed to be of arc-shaped structures, which can offset internal and external stresses.Type: ApplicationFiled: September 28, 2025Publication date: January 29, 2026Applicant: NINGBO CRRC TIMES TRANSDUCER TECHNOLOGY CO., LTDInventors: Yang LV, Yanan SHI, Juping LI, Xiaowei HOU, Hao JIANG, Mingming WU
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Patent number: 12222251Abstract: A measurement circuit of thin-film temperature sensor comprises: out-phase input end and output end of first operational amplifier are connected to first end of thin-film resistor; first end of first resistor is connected to output end of first operational amplifier, second end of first resistor is connected to in-phase input end of first operational amplifier; second end of first resistor is grounded via second resistor; output end of second operational amplifier is connected to first end of potentiometer; second end of the potentiometer is connected to the constant current source and in-phase input end of second operational amplifier respectively; first end of third resistor is connected to output end of second operational amplifier, second end of third resistor is connected to out-phase input end of second operational amplifier; second end of third resistor is grounded via fourth resistor; voltage value of second end of potentiometer is output signal.Type: GrantFiled: July 15, 2020Date of Patent: February 11, 2025Assignee: NINGBO CRRC TIMES TRANSDUCER TECHNOLOGY CO., LTD.Inventors: Xiaowei Hou, Yang Lv, Liangguang Zheng, Junjie Guo, Juping Li, Po Zhang
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Patent number: 12153102Abstract: A micro-fluxgate sensor has a double-iron core assembly, a self-oscillating module, a current superimposing and amplifying module and a voltage acquisition module. The double-iron core assembly comprises a first iron core and a second iron core. The first iron core is provided with a first winding coil. The second iron core is provided with a second winding coil. The first winding coil and the second winding coil are respectively connected with an input end of the self-oscillating module, and an output end of the self-oscillating module is respectively connected with the current superimposing and amplifying module and the voltage acquisition module. The fluxgate sensor is simple in processing circuit without manual debugging and is easily integrated.Type: GrantFiled: November 19, 2019Date of Patent: November 26, 2024Assignee: NINGBO CRRC TIMES TRANSDUCER TECHNOLOGY CO., LTD.Inventors: Juping Li, Liangguang Zheng, Xiaowei Hou, Tao Jiang, Junjie Guo, Zhujian Chen, Po Zhang, Fangliang Zhu, Hang Zhao
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Publication number: 20230213598Abstract: A manufacturing method for a fluxgate chip, comprising: firstly, selecting two high-resistance silicon wafers, electroplating a ferromagnetic core on the surface of one of the two high-resistance silicon wafers, and providing a ferromagnetic core cavity on the surface of the other high-resistance silicon wafer; then, bonding the two high-resistance silicon wafers up and down; next, respectively providing coil grooves, through grooves and electrode windows on the surfaces of opposite sides of the two high-resistance silicon wafers to form a silicon wafer mold; and finally, filling the surface of the silicon wafer mold with alloy. By means of electroplating, post-bonding and final etching, on the one hand, the formed fluxgate chip has both small thickness and sufficient strength, on the other hand, large-scale batch production of the fluxgate chip can be achieved, the working efficiency is improved, and the production cost is reduced.Type: ApplicationFiled: July 15, 2020Publication date: July 6, 2023Inventors: Xiaowei HOU, Yang LV, Liangguang ZHENG, Juping LI, Po ZHANG, Peng WU
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Publication number: 20230026496Abstract: A measurement circuit of thin-film temperature sensor comprises: out-phase input end and output end of first operational amplifier are connected to first end of thin-film resistor; first end of first resistor is connected to output end of first operational amplifier, second end of first resistor is connected to in-phase input end of first operational amplifier; second end of first resistor is grounded via second resistor; output end of second operational amplifier is connected to first end of potentiometer; second end of the potentiometer is connected to the constant current source and in-phase input end of second operational amplifier respectively, first end of third resistor is connected to output end of second operational amplifier, second end of third resistor is connected to out-phase input end of second operational amplifier; second end of third resistor is grounded via fourth resistor; voltage value of second end of potentiometer is output signal.Type: ApplicationFiled: July 15, 2020Publication date: January 26, 2023Inventors: Xiaowei HOU, Yang LV, Liangguang ZHENG, Junjie GUO, Juping LI, Po ZHANG
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Publication number: 20220260652Abstract: A micro-fluxgate sensor has a double-iron core assembly, a self-oscillating module, a current superimposing and amplifying module and a voltage acquisition module. The double-iron core assembly comprises a first iron core and a second iron core. The first iron core is provided with a first winding coil. The second iron core is provided with a second winding coil. The first winding coil and the second winding coil are respectively connected with an input end of the self-oscillating module, and an output end of the self-oscillating module is respectively connected with the current superimposing and amplifying module and the voltage acquisition module. The fluxgate sensor is simple in processing circuit without manual debugging and is easily integrated.Type: ApplicationFiled: November 19, 2019Publication date: August 18, 2022Inventors: Juping LI, Liangguang ZHENG, Xiaowei HOU, Tao JIANG, Junjie GUO, Zhujian CHEN, Po ZHANG, Fangliang ZHU, Hang ZHAO
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Patent number: 10392691Abstract: A semiconductor silicon-germanium thin film preparation method, comprising the following steps: cleaning a mono-crystalline silicon substrate and then disposing the same on a substrate table; respectively sputtering a silicon single thin film and a germanium single thin film; depositing a silicon-germanium alloy thin film having different components on another single crystal silicon substrate using a co-sputtering method, measuring the thickness of the deposited thin film, and obtaining a silicon-germanium alloy thin film having different component ratios.Type: GrantFiled: August 10, 2016Date of Patent: August 27, 2019Assignee: NINGBO CRRC TIMES TRANSDUCER TECHNOLOGY CO., LTD.Inventors: Xiaowei Hou, Junjie Guo, Dacheng Ni, Fei Wang, Huaxiong Zheng, Liangguang Zheng, Juping Li
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Publication number: 20180245204Abstract: A semiconductor silicon-germanium thin film preparation method, comprising the following steps: cleaning a single crystal mono-crystalline silicon substrate and then disposing the same on a substrate table; respectively sputtering a silicon single thin film and a germanium single thin film; depositing a silicon-germanium alloy thin film having different components on another single crystal silicon substrate using a co-sputtering method, measuring the thickness of the deposited thin film, and obtaining a silicon-germanium alloy thin film having different component ratios.Type: ApplicationFiled: August 10, 2016Publication date: August 30, 2018Applicant: NINGBO CRRC TIMES TRANSDUCER TECHNOLOGY CO., LTD.Inventors: Xiaowei HOU, Junjie GUO, Dacheng NI, Fei WANG, Huaxiong ZHENG, Liangguang ZHENG, Juping LI