Patents by Inventor Ming Ta Lei
Ming Ta Lei 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: 20210273069Abstract: A transistor device with a recessed gate structure is provided. In some embodiments, the transistor device comprises a semiconductor substrate comprising a device region surrounded by an isolation structure and a pair of source/drain regions disposed in the device region and laterally spaced apart one from another in a first direction. A gate structure overlies the device region and the isolation structure and arranged between the pair of source/drain regions. The gate structure comprises a pair of recess regions disposed on opposite sides of the device region in a second direction perpendicular to the first direction. A channel region is disposed in the device region underneath the gate structure. The channel region has a channel width extending in the second direction from one of the recess regions to the other one of the recess regions.Type: ApplicationFiled: July 15, 2020Publication date: September 2, 2021Inventors: Chen-Liang Chu, Chien-Chih Chou, Chih-Chang Cheng, Yi-Huan Chen, Kong-Beng Thei, Ming-Ta Lei, Ruey-Hsin Liu, Ta-Yuan Kung
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Publication number: 20210273119Abstract: Various embodiments of the present disclosure are directed towards a method for forming a varactor comprising a reduced surface field (RESURF) region. The method includes forming a drift region having a first doping type within a substrate. A RESURF region having a second doping type is formed within the substrate such that the RESURF region is below the drift region. A gate structure is formed on the substrate. A pair of contact regions is formed within the substrate on opposing sides of the gate structure. The contact regions respectively abut the drift region and have the first doping type, and wherein the first doping type is opposite the second doping type.Type: ApplicationFiled: May 19, 2021Publication date: September 2, 2021Inventors: Liang-Yu Su, Chih-Wen Yao, Hsiao-Chin Tuan, Ming-Ta Lei
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Patent number: 11107899Abstract: A semiconductor device and method for forming the semiconductor device are provided. In some embodiments, a semiconductor substrate comprises a device region. An isolation structure extends laterally in a closed path to demarcate the device region. A first source/drain region and a second source/drain region are in the device region and laterally spaced. A sidewall of the first source/drain region directly contacts the isolation structure at a first isolation structure sidewall, and remaining sidewalls of the first source/drain region are spaced from the isolation structure. A selectively-conductive channel is in the device region, and extends laterally from the first source/drain region to the second source/drain region. A plate comprises a central portion and a first peripheral portion. The central portion overlies the selectively-conductive channel, and the first peripheral portion protrudes from the central portion towards the first isolation structure sidewall.Type: GrantFiled: April 1, 2020Date of Patent: August 31, 2021Assignee: Taiwan Semiconductor Manufacturing Company, Ltd.Inventors: Chih-Chang Cheng, Fu-Yu Chu, Ming-Ta Lei, Ruey-Hsin Liu, Shih-Fen Huang
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Publication number: 20210226025Abstract: A semiconductor device includes a semiconductor substrate, a gate dielectric, a gate electrode, and a pair of source/drain regions. The gate dielectric is disposed in the semiconductor substrate having an upper boundary lower than an upper surface of the semiconductor substrate, and an upper surface flush with the upper surface of the semiconductor substrate. The gate electrode is disposed over the gate dielectric having a first section over the upper boundary of the gate dielectric and a second section over the upper surface of the gate dielectric. The second section partially covers and partially exposes the upper surface of the gate dielectric. The pair of source/drain regions are disposed on opposing sides of the gate dielectric.Type: ApplicationFiled: April 7, 2021Publication date: July 22, 2021Inventors: TA-YUAN KUNG, RUEY-HSIN LIU, CHEN-LIANG CHU, CHIH-WEN YAO, MING-TA LEI
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Patent number: 11018266Abstract: Various embodiments of the present disclosure are directed towards a varactor comprising a reduced surface field (RESURF) region. In some embodiments, the varactor includes a drift region, a gate structure, a pair of contact regions, and a RESURF region. The drift region is within a substrate and has a first doping type. The gate structure overlies the drift region. The contact regions are within the substrate and overlie the drift region. Further, the contact regions have the first doping type. The gate structure is laterally sandwiched between the contact regions. The RESURF region is in the substrate, below the drift region, and has a second doping type. The second doping type is opposite the first doping type. The RESURF region aids in depleting the drift region under the gate structure, which decreases the minimum capacitance of the varactor and increases the tuning range of the varactor.Type: GrantFiled: June 7, 2019Date of Patent: May 25, 2021Assignee: Taiwan Semiconductor Manufacturing Co., Ltd.Inventors: Liang-Yu Su, Chih-Wen Yao, Hsiao-Chin Tuan, Ming-Ta Lei
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Patent number: 11011610Abstract: A semiconductor device and method for forming the semiconductor device are provided. In some embodiments, a semiconductor substrate comprises a device region. An isolation structure extends laterally in a closed path to demarcate the device region. A first source/drain region and a second source/drain region are in the device region and laterally spaced. A sidewall of the first source/drain region directly contacts the isolation structure at a first isolation structure sidewall, and remaining sidewalls of the first source/drain region are spaced from the isolation structure. A selectively-conductive channel is in the device region, and extends laterally from the first source/drain region to the second source/drain region. A plate comprises a central portion and a first peripheral portion. The central portion overlies the selectively-conductive channel, and the first peripheral portion protrudes from the central portion towards the first isolation structure sidewall.Type: GrantFiled: April 1, 2020Date of Patent: May 18, 2021Assignee: Taiwan Semiconductor Manufacturing Co., Ltd.Inventors: Chih-Chang Cheng, Fu-Yu Chu, Ming-Ta Lei, Ruey-Hsin Liu, Shih-Fen Huang
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Publication number: 20210134964Abstract: Various embodiments of the present disclosure are directed towards an integrated chip including a field plate. A gate electrode overlies a substrate between a source region and a drain region. A drift region is arranged laterally between the gate electrode and the drain region. A plurality of inter-level dielectric (ILD) layers overlie the substrate. The plurality of ILD layers includes a first ILD layer underlying a second ILD layer. A plurality of conductive interconnect layers is disposed within the plurality of ILD layers. The field plate extends from a top surface of the first ILD layer to a point that is vertically separated from the drift region by the first ILD layer. The field plate is laterally offset the gate electrode by a non-zero distance in a direction toward the drain region. The field plate includes a same material as at least one of the plurality of conductive interconnect layers.Type: ApplicationFiled: November 1, 2019Publication date: May 6, 2021Inventors: Chia-Cheng Ho, Ming-Ta Lei, Yu-Chang Jong
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Patent number: 10985256Abstract: A semiconductor device includes a semiconductor substrate, a gate dielectric, a gate electrode, a pair of source/drain regions, a pair of first well regions, a second well region, a pair of contact regions and a pair of third well regions. The gate dielectric is disposed in the semiconductor substrate having a concave profile that defines an upper boundary lower than an upper surface of the semiconductor substrate. The gate electrode is disposed over the gate dielectric. The pair of source/drain regions are disposed on opposing sides of the gate dielectric. The pair of first well regions are disposed under the pair of source/drain regions. The second well region is disposed between the pair of first well regions. The pair of contact regions are disposed on opposing sides of the pair of source/drain regions. The pair of third well regions are disposed under the pair of contact regions.Type: GrantFiled: June 1, 2020Date of Patent: April 20, 2021Assignee: TAIWAN SEMICONDUCTOR MANUFACTURING COMPANY LTD.Inventors: Ta-Yuan Kung, Ruey-Hsin Liu, Chen-Liang Chu, Chih-Wen Yao, Ming-Ta Lei
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Publication number: 20200295148Abstract: A semiconductor device includes a semiconductor substrate, a gate dielectric, a gate electrode, a pair of source/drain regions, a pair of first well regions, a second well region, a pair of contact regions and a pair of third well regions. The gate dielectric is disposed in the semiconductor substrate having a concave profile that defines an upper boundary lower than an upper surface of the semiconductor substrate. The gate electrode is disposed over the gate dielectric. The pair of source/drain regions are disposed on opposing sides of the gate dielectric. The pair of first well regions are disposed under the pair of source/drain regions. The second well region is disposed between the pair of first well regions. The pair of contact regions are disposed on opposing sides of the pair of source/drain regions. The pair of third well regions are disposed under the pair of contact regions.Type: ApplicationFiled: June 1, 2020Publication date: September 17, 2020Inventors: TA-YUAN KUNG, RUEY-HSIN LIU, CHEN-LIANG CHU, CHIH-WEN YAO, MING-TA LEI
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Publication number: 20200227528Abstract: A semiconductor device and method for forming the semiconductor device are provided. In some embodiments, a semiconductor substrate comprises a device region. An isolation structure extends laterally in a closed path to demarcate the device region. A first source/drain region and a second source/drain region are in the device region and laterally spaced. A sidewall of the first source/drain region directly contacts the isolation structure at a first isolation structure sidewall, and remaining sidewalls of the first source/drain region are spaced from the isolation structure. A selectively-conductive channel is in the device region, and extends laterally from the first source/drain region to the second source/drain region. A plate comprises a central portion and a first peripheral portion. The central portion overlies the selectively-conductive channel, and the first peripheral portion protrudes from the central portion towards the first isolation structure sidewall.Type: ApplicationFiled: April 1, 2020Publication date: July 16, 2020Inventors: Chih-Chang Cheng, Fu-Yu Chu, Ming-Ta Lei, Ruey-Hsin Liu, Shih-Fen Huang
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Publication number: 20200227529Abstract: A semiconductor device and method for forming the semiconductor device are provided. In some embodiments, a semiconductor substrate comprises a device region. An isolation structure extends laterally in a closed path to demarcate the device region. A first source/drain region and a second source/drain region are in the device region and laterally spaced. A sidewall of the first source/drain region directly contacts the isolation structure at a first isolation structure sidewall, and remaining sidewalls of the first source/drain region are spaced from the isolation structure. A selectively-conductive channel is in the device region, and extends laterally from the first source/drain region to the second source/drain region. A plate comprises a central portion and a first peripheral portion. The central portion overlies the selectively-conductive channel, and the first peripheral portion protrudes from the central portion towards the first isolation structure sidewall.Type: ApplicationFiled: April 1, 2020Publication date: July 16, 2020Inventors: Chih-Chang Cheng, Fu-Yu Chu, Ming-Ta Lei, Ruey-Hsin Liu, Shih-Fen Huang
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Patent number: 10686047Abstract: A semiconductor device includes a semiconductor substrate, a gate dielectric, a gate electrode and a pair of source/drain regions. The gate dielectric is disposed in the semiconductor substrate having a concave profile that defines an upper boundary lower than an upper surface of the semiconductor substrate. The gate electrode is disposed over the gate dielectric. The pair of source/drain regions are disposed on opposing sides of the gate dielectric.Type: GrantFiled: May 23, 2018Date of Patent: June 16, 2020Assignee: TAIWAN SEMICONDUCTOR MANUFACTURING COMPANY LTD.Inventors: Ta-Yuan Kung, Ruey-Hsin Liu, Chen-Liang Chu, Chih-Wen Yao, Ming-Ta Lei
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Patent number: 10680019Abstract: Some embodiments of the present disclosure relate to a method of forming a transistor. The method includes forming a gate dielectric over a substrate and forming a gate over the gate dielectric. The gate includes polysilicon extending between a first outermost sidewall and a second outermost sidewall of the gate. A mask is formed over the gate. The mask exposes a first gate region extending to the first outermost sidewall and covers a second gate region extending between the first gate region and the second outermost sidewall. Dopants are selectively implanted into the first gate region according to the mask. Source and drain regions are formed within the substrate. The source region and the drain region are asymmetric with respect to an interface of the first gate region and the second gate region and extend to substantially equal distances past the first and second outermost sidewalls of the gate, respectively.Type: GrantFiled: April 12, 2019Date of Patent: June 9, 2020Assignee: Taiwan Semiconductor Manufacturing Co., Ltd.Inventors: Chen-Liang Chu, Chih-Wen Albert Yao, Ruey-Hsin Liu, Ming-Ta Lei
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Patent number: 10658482Abstract: A semiconductor device and method for forming the semiconductor device are provided. In some embodiments, a semiconductor substrate comprises a device region. An isolation structure extends laterally in a closed path to demarcate the device region. A first source/drain region and a second source/drain region are in the device region and laterally spaced. A sidewall of the first source/drain region directly contacts the isolation structure at a first isolation structure sidewall, and remaining sidewalls of the first source/drain region are spaced from the isolation structure. A selectively-conductive channel is in the device region, and extends laterally from the first source/drain region to the second source/drain region. A plate comprises a central portion and a first peripheral portion. The central portion overlies the selectively-conductive channel, and the first peripheral portion protrudes from the central portion towards the first isolation structure sidewall.Type: GrantFiled: November 1, 2017Date of Patent: May 19, 2020Assignee: Taiwan Semiconductor Manufacturing Co., Ltd.Inventors: Chih-Chang Cheng, Fu-Yu Chu, Ming-Ta Lei, Ruey-Hsin Liu, Shih-Fen Huang
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Publication number: 20200127146Abstract: Various embodiments of the present disclosure are directed towards a varactor comprising a reduced surface field (RESURF) region. In some embodiments, the varactor includes a drift region, a gate structure, a pair of contact regions, and a RESURF region. The drift region is within a substrate and has a first doping type. The gate structure overlies the drift region. The contact regions are within the substrate and overlie the drift region. Further, the contact regions have the first doping type. The gate structure is laterally sandwiched between the contact regions. The RESURF region is in the substrate, below the drift region, and has a second doping type. The second doping type is opposite the first doping type. The RESURF region aids in depleting the drift region under the gate structure, which decreases the minimum capacitance of the varactor and increases the tuning range of the varactor.Type: ApplicationFiled: June 7, 2019Publication date: April 23, 2020Inventors: Liang-Yu Su, Chih-Wen Yao, Hsiao-Chin Tuan, Ming-Ta Lei
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Publication number: 20200109476Abstract: The present disclosure provides a method of manufacturing a gas sensor. The method includes the following operations: a substrate is received; a conductor layer is formed over the substrate; the conductor layer is patterned to form a conductor with a plurality of openings by an etching operation, the openings being arranged in a repeating pattern, a minimal dimension of the opening being about 4 micrometers; and a gas-sensing film is formed over the conductor.Type: ApplicationFiled: December 6, 2019Publication date: April 9, 2020Inventors: MING-TA LEI, CHIA-HUA CHU, HSIN-CHIH CHIANG, TUNG-TSUN CHEN, CHUN-WEN CHENG
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Patent number: 10508345Abstract: Some embodiments of the present disclosure provide a gas sensor in an IOT. The gas sensor includes a substrate, a conductor disposed above the substrate, and a sensing film disposed over the conductor. The conductor has a top-view pattern including a plurality of openings, a minimal dimension of the opening being less than about 4 micrometer; and a perimeter enclosing the opening. Some embodiments of the present disclosure provide a method of manufacturing a gas sensor. The method includes receiving a substrate; forming a conductor, over the substrate; patterning the conductor to form a plurality of openings in the conductor by an etching operation, and forming a gas-sensing film over the conductor. The openings are arranged in a repeating pattern, and a minimal dimension of the opening being about 4 micrometer.Type: GrantFiled: October 8, 2015Date of Patent: December 17, 2019Assignee: TAIWAN SEMICONDUCTOR MANUFACTURING COMPANY LTD.Inventors: Ming-Ta Lei, Chia-Hua Chu, Hsin-Chih Chiang, Tung-Tsun Chen, Chun-Wen Cheng
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Publication number: 20190363165Abstract: A semiconductor device includes a semiconductor substrate, a gate dielectric, a gate electrode and a pair of source/drain regions. The gate dielectric is disposed in the semiconductor substrate having a concave profile that defines an upper boundary lower than an upper surface of the semiconductor substrate. The gate electrode is disposed over the gate dielectric. The pair of source/drain regions are disposed on opposing sides of the gate dielectric.Type: ApplicationFiled: May 23, 2018Publication date: November 28, 2019Inventors: TA-YUAN KUNG, RUEY-HSIN LIU, CHEN-LIANG CHU, CHIH-WEN YAO, MING-TA LEI
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Publication number: 20190237485Abstract: Some embodiments of the present disclosure relate to a method of forming a transistor. The method includes forming a gate dielectric over a substrate and forming a gate over the gate dielectric. The gate includes polysilicon extending between a first outermost sidewall and a second outermost sidewall of the gate. A mask is formed over the gate. The mask exposes a first gate region extending to the first outermost sidewall and covers a second gate region extending between the first gate region and the second outermost sidewall. Dopants are selectively implanted into the first gate region according to the mask. Source and drain regions are formed within the substrate. The source region and the drain region are asymmetric with respect to an interface of the first gate region and the second gate region and extend to substantially equal distances past the first and second outermost sidewalls of the gate, respectively.Type: ApplicationFiled: April 12, 2019Publication date: August 1, 2019Inventors: Chen-Liang Chu, Chih-Wen Albert Yao, Ruey-Hsin Liu, Ming-Ta Lei
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Publication number: 20190131414Abstract: A semiconductor device and method for forming the semiconductor device are provided. In some embodiments, a semiconductor substrate comprises a device region. An isolation structure extends laterally in a closed path to demarcate the device region. A first source/drain region and a second source/drain region are in the device region and laterally spaced. A sidewall of the first source/drain region directly contacts the isolation structure at a first isolation structure sidewall, and remaining sidewalls of the first source/drain region are spaced from the isolation structure. A selectively-conductive channel is in the device region, and extends laterally from the first source/drain region to the second source/drain region. A plate comprises a central portion and a first peripheral portion. The central portion overlies the selectively-conductive channel, and the first peripheral portion protrudes from the central portion towards the first isolation structure sidewall.Type: ApplicationFiled: November 1, 2017Publication date: May 2, 2019Inventors: Chih-Chang Cheng, Fu-Yu Chu, Ming-Ta Lei, Ruey-Hsin Liu, Shih-Fen Huang