Patents by Inventor Junjun XING
Junjun XING 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: 20240246959Abstract: Disclosed are a compound of formula (I), a preparation method therefor, and a medical application thereof. In particular, provided are the compound of formula (I) or a stereoisomer, tautomer, or pharmaceutically acceptable salt thereof. These compounds are agonists of a glucagon-like peptide-1 receptor (GLP-1R). The present invention also relates to a pharmaceutical composition containing these compounds and use of the compound in a drug for treating diseases such as diabetes.Type: ApplicationFiled: November 26, 2021Publication date: July 25, 2024Applicant: Shenzhen Salubris Pharmaceuticals Co., Ltd.Inventors: Junjun WU, Yinsuo LU, Jianli WU, Ying XIAO, Wei XING
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Publication number: 20230112037Abstract: The present disclosure provides a semiconductor structure and a method of forming the same. The semiconductor structure includes: a substrate doped with a first ion, a deep trench structure disposed in the substrate, a barrier doped region disposed on a top of the substrate and the deep trench structure, a first epitaxial layer disposed on the barrier doped region, a body region disposed in the first epitaxial layer, a source region disposed in the body region, a gate structure disposed in the first epitaxial layer, and a collector region disposed at a bottom of the substrate. By means of the semiconductor structure, performance of an insulated gate bipolar transistor can be improved.Type: ApplicationFiled: August 11, 2022Publication date: April 13, 2023Applicant: Shanghai Huahong Grace Semiconductor Manufacturing CorporationInventors: Jia PAN, Peng SUN, Yiping YAO, Jiye YANG, Junjun XING, Chong CHEN, Xuan HUANG, Tongbo ZHANG
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Publication number: 20230101771Abstract: An IGBT device and a method for manufacturing it, the device includes a super junction structure that has several N-type pillars and P-type pillars arranged alternately; a cell unit that is located in an N-type epitaxial layer, and the N-type epitaxial layer is located above the N-type substrate; each cell unit includes a trench gate, a P-type body region, and a source region; an N-type carrier injection layer, the N-type carrier injection layer is located in the N-type epitaxial layer, and the N-type carrier injection layer is spaced apart from the N-type substrate by the N-type epitaxial layer; the bottom of the P-type body region is located in the N-type carrier injection layer; and a collector region that is located at the bottom of the N-type substrate.Type: ApplicationFiled: September 12, 2022Publication date: March 30, 2023Inventors: Jia PAN, Tongbo ZHANG, Yiping YAO, Jiye YANG, Junjun XING, Chong CHEN, Xuan HUANG, Peng SUN
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Publication number: 20210376117Abstract: A method for manufacturing an IGBT device includes: forming a cell structure of the IGBT device in a substrate; forming front metal layers on the substrate; thinning the substrate; forming a collector region on the back of the substrate; forming back metal layers on the back of the substrate; and forming target metal on the front and back of the substrate via electroless plating processes.Type: ApplicationFiled: September 11, 2020Publication date: December 2, 2021Applicant: Shanghai Huahong Grace Semiconductor Manufacturing CorporationInventors: Jia PAN, Jiye YANG, Junjun XING, Xuan HUANG
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Patent number: 11139391Abstract: An IGBT device comprises a super-junction structure arranged in a drift region and formed by a plurality of N-type pillars and a plurality of P-type pillars which are alternately arrayed. Device cell structures of the IGBT device are formed in an N-type epitaxial layer at the tops of super-junction cells. Each device cell structure comprises a body region, a gate structure and an emitter region. N-type isolation layers having a doping concentration greater than that of the N-type epitaxial layer are formed between the bottom surfaces of the body regions and the top surfaces of the P-type pillars and are used for isolating the body regions from the P-type pillars. The super-junction structure and the N-type isolation layers can increase the current density of the device, decrease the on-state voltage drop of the device and reduce the turn-off loss of the device.Type: GrantFiled: September 10, 2019Date of Patent: October 5, 2021Assignee: Shanghai Huahong Grace Semiconductor Manufacturing CorporationInventors: Jiye Yang, Junjun Xing, Jia Pan, Hao Li, Yi Lu, Longjie Zhao, Xukun Zhang, Xuan Huang, Chong Chen
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Patent number: 11133407Abstract: A super-junction IGBT device comprises a plurality of N-type pillars and a plurality of P-type pillars which are alternately arrayed in a horizontal direction. Device cell structures are formed at tops of super-junction cells and each comprise a trench gate having a gate trench striding across an interface of the corresponding P-type pillar and the corresponding N-type pillar. A body region is formed at a top of the corresponding N-type pillar, and a source region is formed on a surface of the body region. The top of each N-type pillar is provided with one body region and two trench gates located on two sides of the body region, and each body region is isolated from the P-type pillars on the two sides of the body region through the corresponding trench gates. The invention further discloses a method for manufacturing a super-junction IGBT device. Self-isolation of the P-type pillars is realized, the on-state current capacity of the device is improved, and the on-state voltage drop of the device is reduced.Type: GrantFiled: October 11, 2019Date of Patent: September 28, 2021Assignee: Shanghai Huahong Grace Semiconductor Manufacturing CorporationInventors: Xukun Zhang, Junjun Xing, Jia Pan, Hao Li, Yi Lu
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Publication number: 20200235230Abstract: A super-junction IGBT device comprises a plurality of N-type pillars and a plurality of P-type pillars which are alternately arrayed in a horizontal direction. Device cell structures are formed at tops of super-junction cells and each comprise a trench gate having a gate trench striding across an interface of the corresponding P-type pillar and the corresponding N-type pillar. A body region is formed at a top of the corresponding N-type pillar, and a source region is formed on a surface of the body region. The top of each N-type pillar is provided with one body region and two trench gates located on two sides of the body region, and each body region is isolated from the P-type pillars on the two sides of the body region through the corresponding trench gates. The invention further discloses a method for manufacturing a super-junction IGBT device. Self-isolation of the P-type pillars is realized, the on-state current capacity of the device is improved, and the on-state voltage drop of the device is reduced.Type: ApplicationFiled: October 11, 2019Publication date: July 23, 2020Applicant: SHANGHAI HUAHONG GRACE SEMICONDUCTOR MANUFACTURING CORPORATIONInventors: Xukun ZHANG, Junjun XING, Jia PAN, Hao LI, Yi LU
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Publication number: 20200219996Abstract: An IGBT device comprises a super-junction structure arranged in a drift region and formed by a plurality of N-type pillars and a plurality of P-type pillars which are alternately arrayed. Device cell structures of the IGBT device are formed in an N-type epitaxial layer at the tops of super-junction cells. Each device cell structure comprises a body region, a gate structure and a source region. N-type isolation layers having a doping concentration greater than that of the N-type epitaxial layer are formed between the bottom surfaces of the body regions and the top surfaces of the P-type pillars and are used for isolating the body regions from the P-type pillars. The super-junction structure and the N-type isolation layers can increase the current density of the device, decrease the on-state voltage drop of the device and reduce the turn-off loss of the device.Type: ApplicationFiled: September 10, 2019Publication date: July 9, 2020Applicant: SHANGHAI HUAHONG GRACE SEMICONDUCTOR MANUFACTURING CORPORATIONInventors: Jiye YANG, Junjun XING, Jia PAN, Hao LI, Yi LU, Longjie ZHAO, Xukun ZHANG, Xuan HUANG, Chong CHEN
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Patent number: 9543432Abstract: A high voltage LDMOS device having high side source voltage, an n type buried layer and a p type buried layer situated on the interface between a p type substrate and an n type epitaxial layer; a lateral surface of the n type buried layer and a lateral surface of the p type buried layer not in contact, and are distant from one another with a distance, thereby increasing the withstand voltage between the n type buried layer and the p type buried layer; the p type buried layer and the drain overlap at least partially in a vertical direction, enabling the p type buried layer to exert a reduced surface field action on the drain, to increase the withstand voltage of the drain against the source; the source and the body terminal centrally on top of the n type buried layer.Type: GrantFiled: December 29, 2015Date of Patent: January 10, 2017Assignee: Shanghai Huahong Grace Semiconductor Manufacturing CorporationInventors: Wei Yue, Junjun Xing, Wenqing Yang
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Publication number: 20160240660Abstract: A high voltage LDMOS device having high side source voltage, an n type buried layer and a p type buried layer situated on the interface between a p type substrate and an n type epitaxial layer; a lateral surface of the n type buried layer and a lateral surface of the p type buried layer not in contact, and are distant from one another with a distance, thereby increasing the withstand voltage between the n type buried layer and the p type buried layer; the p type buried layer and the drain overlap at least partially in a vertical direction, enabling the p type buried layer to exert a reduced surface field action on the drain, to increase the withstand voltage of the drain against the source; the source and the body terminal centrally on top of the n type buried layer.Type: ApplicationFiled: December 29, 2015Publication date: August 18, 2016Applicant: SHANGHAI HUAHONG GRACE SEMICONDUCTOR MANUFACTURING CORPORATIONInventors: Wei YUE, Junjun XING, Wenqing YANG