Patents by Inventor Shaofeng Yu

Shaofeng Yu 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: 20120146054
    Abstract: An integrated circuit contains a transistor with a stress enhancement region on the source side only. In a DeMOS transistor, forming the stress enhancement region on the source side only and not forming a stress enhancement region in the drain extension increases the resistance of the drain extension region enabling formation of a DeMOS transistor with reduced area. In a MOS transistor, by forming the stress enhancement region on the source side only and eliminating the stress enhancement region from the drain side, transistor leakage is reduced and CHC reliability improved.
    Type: Application
    Filed: November 3, 2011
    Publication date: June 14, 2012
    Applicant: TEXAS INSTRUMENTS INCORPORATED
    Inventors: Samuel Zafar Nawaz, Shaofeng Yu, Jeffrey E. Brighton, Song Zhao
  • Publication number: 20120104510
    Abstract: An integrated circuit containing an SAR SRAM and CMOS logic, in which sidewall spacers on the gate extension of the SAR SRAM cell are thinner than sidewall spacers on the logic PMOS gates, so that the depth of the drain node SRAM PSD layer is maintained under the stretch contact. A process of forming an integrated circuit containing an SAR SRAM and CMOS logic, including selectively etch the sidewall spacers on the on the gate extension of the SAR SRAM cell, so that the depth of the drain node SRAM PSD layer is maintained under the stretch contact. A process of forming an integrated circuit containing an SAR SRAM and CMOS logic, including selectively implanting extra p-type dopants in the drain node SRAM PSD layer, so that the depth of the drain node SRAM PSD layer is maintained under the stretch contact.
    Type: Application
    Filed: October 28, 2011
    Publication date: May 3, 2012
    Applicant: TEXAS INSTRUMENTS INCORPORATED
    Inventors: Shaofeng Yu, Russell Carlton McMullan, Wah Kit Loh
  • Patent number: 8062966
    Abstract: Semiconductor devices and fabrication methods are provided, in which metal transistor replacement gates are provided for CMOS transistors. The process provides dual or differentiated work function capability (e.g., for PMOS and NMOS transistors) in CMOS processes.
    Type: Grant
    Filed: December 24, 2009
    Date of Patent: November 22, 2011
    Assignee: Texas Instruments Incorporated
    Inventors: Freido Mehrad, James J. Chambers, Shaofeng Yu
  • Publication number: 20110248347
    Abstract: An integrated circuit is disclosed having symmetric and asymmetric MOS transistors of the same polarity, oriented perpendicularly to each other, formed by concurrent halo ion, LDD ion and/or S/D ion implant processes using angled, rotated sub-implants which vary the tilt angle, dose and/or energy between rotations. Implanted halo, LDD and/or S/D source and drain regions formed by angled subimplants may have different extents of overlap with, or lateral separation from, gates of the two types of transistors, producing transistors with two different sets of electrical properties. A process for concurrently fabricating the two types of transistors is also disclosed. Specific embodiments of processes for concurrently forming symmetric and asymmetric transistors are disclosed.
    Type: Application
    Filed: June 23, 2011
    Publication date: October 13, 2011
    Applicant: TEXAS INSTRUMENTS INCORPORATED
    Inventors: Kamel BENAISSA, Greg C. BALDWIN, Shaofeng YU, Shashank S. EKBOTE
  • Patent number: 7994009
    Abstract: An integrated circuit is disclosed having symmetric and asymmetric MOS transistors of the same polarity, oriented perpendicularly to each other, formed by concurrent halo ion, LDD ion and/or S/D ion implant processes using angled, rotated sub-implants which vary the tilt angle, dose and/or energy between rotations. Implanted halo, LDD and/or S/D source and drain regions formed by angled subimplants may have different extents of overlap with, or lateral separation from, gates of the two types of transistors, producing transistors with two different sets of electrical properties. A process for concurrently fabricating the two types of transistors is also disclosed. Specific embodiments of processes for concurrently forming symmetric and asymmetric transistors are disclosed.
    Type: Grant
    Filed: June 26, 2009
    Date of Patent: August 9, 2011
    Inventors: Kamel Benaissa, Greg C. Baldwin, Shaofeng Yu, Shashank S. Ekbote
  • Publication number: 20110186912
    Abstract: Various embodiments of the invention relate to a PMOS device having a transistor channel of silicon germanium material on a substrate, a gate dielectric having a dielectric constant greater than that of silicon dioxide on the channel, a gate electrode conductor material having a work function in a range between a valence energy band edge and a conductor energy band edge for silicon on the gate dielectric, and a gate electrode semiconductor material on the gate electrode conductor material.
    Type: Application
    Filed: April 7, 2011
    Publication date: August 4, 2011
    Inventors: Anand Murthy, Boyan Boyanov, Suman Datta, Brian S. Doyle, Been-Yih Jin, Shaofeng Yu, Robert Chau
  • Patent number: 7968957
    Abstract: Various embodiments of the invention relate to a PMOS device having a transistor channel of silicon germanium material on a substrate, a gate dielectric having a dielectric constant greater than that of silicon dioxide on the channel, a gate electrode conductor material having a work function in a range between a valence energy band edge and a conductor energy band edge for silicon on the gate dielectric, and a gate electrode semiconductor material on the gate electrode conductor material.
    Type: Grant
    Filed: September 29, 2010
    Date of Patent: June 28, 2011
    Assignee: Intel Corporation
    Inventors: Anand Murthy, Boyan Boyanov, Suman Datta, Brian S. Doyle, Been-Yih Jin, Shaofeng Yu, Robert Chau
  • Patent number: 7943456
    Abstract: A method for fabricating a CMOS integrated circuit (IC) and ICs therefrom includes providing a substrate having a semiconductor surface including PMOS regions for PMOS devices and NMOS regions for NMOS devices. A gate stack including a gate electrode layer is formed on a gate dielectric layer in or on both the PMOS regions and the NMOS regions. An n-type doping is used to create n-type wet etch sensitized regions on opposing sides of the gate stack in both the PMOS and said NMOS regions. Wet etching removes the n-type wet etch sensitized regions in (i) at least a portion of said PMOS regions to form a plurality of PMOS source/drain recesses or (ii) in at least a portion of said NMOS regions to form a plurality of NMOS source/drain recesses, or (i) and (ii). At least one of a compressive strain inducing epitaxial layer is formed in the plurality of PMOS source/drain recesses and a tensile strain inducing epitaxial layer is formed in the plurality of NMOS source/drain recesses.
    Type: Grant
    Filed: December 31, 2008
    Date of Patent: May 17, 2011
    Assignee: Texas Instruments Incorporated
    Inventors: Shaofeng Yu, Freidoon Mehrad, Brian K. Kirkpatrick
  • Publication number: 20110108893
    Abstract: Optimizing carrier mobilities in MOS transistors in CMOS ICs requires forming (100)-oriented silicon regions for NMOS and (110) regions for PMOS. Methods such as amorphization and templated recrystallization (ATR) have disadvantages for fabrication of deep submicron CMOS. This invention is a method of forming an integrated circuit (IC) which has (100) and (110)-oriented regions. The method forms a directly bonded silicon (DSB) layer of (110)-oriented silicon on a (100)-oriented substrate. The DSB layer is removed in the NMOS regions and a (100)-oriented silicon layer is formed by selective epitaxial growth (SEG), using the substrate as the seed layer. NMOS transistors are formed on the SEG layer, while PMOS transistors are formed on the DSB layer. An integrated circuit formed with the inventive method is also disclosed.
    Type: Application
    Filed: January 14, 2011
    Publication date: May 12, 2011
    Applicant: TEXAS INSTRUMENTS INCORPORATED
    Inventors: Angelo Pinto, Frank S. Johnson, Benjamin P. McKee, Shaofeng Yu
  • Patent number: 7892908
    Abstract: Optimizing carrier mobilities in MOS transistors in CMOS ICs requires forming (100)-oriented silicon regions for NMOS and (110) regions for PMOS. Methods such as amorphization and templated recrystallization (ATR) have disadvantages for fabrication of deep submicron CMOS. This invention is a method of forming an integrated circuit (IC) which has (100) and (110)-oriented regions. The method forms a directly bonded silicon (DSB) layer of (110)-oriented silicon on a (100)-oriented substrate. The DSB layer is removed in the NMOS regions and a (100)-oriented silicon layer is formed by selective epitaxial growth (SEG), using the substrate as the seed layer. NMOS transistors are formed on the SEG layer, while PMOS transistors are formed on the DSB layer. An integrated circuit formed with the inventive method is also disclosed.
    Type: Grant
    Filed: December 24, 2008
    Date of Patent: February 22, 2011
    Assignee: Texas Instruments Incorporated
    Inventors: Angelo Pinto, Frank S. Johnson, Benjamin P. McKee, Shaofeng Yu
  • Publication number: 20110031557
    Abstract: A method for fabricating a CMOS integrated circuit (IC) and ICs therefrom includes the steps of providing a substrate having a semiconductor surface, wherein the semiconductor surface has PMOS regions for PMOS devices and NMOS regions for NMOS devices. A gate dielectric layer is formed on the PMOS regions and NMOS regions. An original gate electrode layer is formed on the gate dielectric layer. A gate masking layer is applied on the gate electrode layer. Etching is used to pattern the original gate electrode layer to simultaneously form original gate electrodes for the PMOS devices and NMOS devices. Source and drain regions are formed for the PMOS devices and NMOS devices. The original gate electrodes are removed for at least one of the PMOS devices and NMOS devices to form trenches using an etch process, such as a hydroxide-based solution, wherein at least a portion and generally substantially all of the gate dielectric layer is preserved.
    Type: Application
    Filed: October 20, 2010
    Publication date: February 10, 2011
    Applicant: Texas Instruments Incorporated
    Inventors: Brian K. Kirkpatrick, Freidoon Mehrad, Shaofeng Yu
  • Publication number: 20110018031
    Abstract: Various embodiments of the invention relate to a PMOS device having a transistor channel of silicon germanium material on a substrate, a gate dielectric having a dielectric constant greater than that of silicon dioxide on the channel, a gate electrode conductor material having a work function in a range between a valence energy band edge and a conductor energy band edge for silicon on the gate dielectric, and a gate electrode semiconductor material on the gate electrode conductor material.
    Type: Application
    Filed: September 29, 2010
    Publication date: January 27, 2011
    Inventors: Anand Murthy, Boyan Boyanov, Suman Datta, Brian S. Doyle, Been-Yih Jin, Shaofeng Yu, Robert Chau
  • Patent number: 7871916
    Abstract: Various embodiments of the invention relate to a PMOS device having a transistor channel of silicon germanium material on a substrate, a gate dielectric having a dielectric constant greater than that of silicon dioxide on the channel, a gate electrode conductor material having a work function in a range between a valence energy band edge and a conductor energy band edge for silicon on the gate dielectric, and a gate electrode semiconductor material on the gate electrode conductor material.
    Type: Grant
    Filed: September 2, 2009
    Date of Patent: January 18, 2011
    Assignee: Intel Corporation
    Inventors: Anand Murthy, Boyan Boyanov, Suman Datta, Brian S. Doyle, Been-Yih Jin, Shaofeng Yu, Robert Chau
  • Publication number: 20100327374
    Abstract: An integrated circuit is disclosed having symmetric and asymmetric MOS transistors of the same polarity, oriented perpendicularly to each other, formed by concurrent halo ion, LDD ion and/or S/D ion implant processes using angled, rotated sub-implants which vary the tilt angle, dose and/or energy between rotations. Implanted halo, LDD and/or S/D source and drain regions formed by angled subimplants may have different extents of overlap with, or lateral separation from, gates of the two types of transistors, producing transistors with two different sets of electrical properties. A process for concurrently fabricating the two types of transistors is also disclosed. Specific embodiments of processes for concurrently forming symmetric and asymmetric transistors are disclosed.
    Type: Application
    Filed: June 26, 2009
    Publication date: December 30, 2010
    Inventors: Kamel Benaissa, Greg C. Baldwin, Shaofeng Yu, Shashank S. Ekbote
  • Publication number: 20100327361
    Abstract: An integrated circuit is disclosed containing two types of MOS transistors of the same polarity, oriented perpendicularly to each other, formed by concurrent halo ion, LDD ion and/or S/D ion implant processes using angled, rotated sub-implants which vary the tilt angle, dose and/or energy between rotations. Implanted halo, LDD and/or S/D source and drain regions formed by angled subimplants may have different extents of overlap with, or lateral separation from, gates of the two types of transistors, producing transistors with two different sets of electrical properties. A process for concurrently fabricating the two types of transistors is also disclosed.
    Type: Application
    Filed: June 26, 2009
    Publication date: December 30, 2010
    Inventors: KAMEL BENAISSA, Greg C. Baldwin, Shaofeng Yu
  • Patent number: 7855111
    Abstract: Hybrid orientation technology (HOT) substrates for CMOS ICs include (100)-oriented silicon regions for NMOS and (110) regions for PMOS for optimizing carrier mobilities in the respective MOS transistors. Boundary regions between (100) and (110) regions must be sufficiently narrow to support high gate densities and SRAM cells. This invention provides a method of forming a HOT substrate containing regions with two different silicon crystal lattice orientations, with boundary morphology less than 40 nanometers wide. Starting with a direct silicon bonded (DSB) wafer of a (100) substrate wafer and a (110) DBS layer, NMOS regions in the DSB layer are amorphized by a double implant and recrystallized on a (100) orientation by solid phase epitaxy (SPE). Crystal defects during anneal are prevented by a low temperature oxide layer on the top surface of the wafer. An integrated circuit formed with the inventive method is also disclosed.
    Type: Grant
    Filed: August 7, 2009
    Date of Patent: December 21, 2010
    Assignee: Texas Instruments Incorporated
    Inventors: Haowen Bu, Shaofeng Yu, Angelo Pinto, Ajith Varghese
  • Patent number: 7838356
    Abstract: A method for fabricating a CMOS integrated circuit (IC) and ICs therefrom includes the steps of providing a substrate having a semiconductor surface, wherein the semiconductor surface has PMOS regions for PMOS devices and NMOS regions for NMOS devices. A gate dielectric layer is formed on the PMOS regions and NMOS regions. An original gate electrode layer is formed on the gate dielectric layer. A gate masking layer is applied on the gate electrode layer. Etching is used to pattern the original gate electrode layer to simultaneously form original gate electrodes for the PMOS devices and NMOS devices. Source and drain regions are formed for the PMOS devices and NMOS devices. The original gate electrodes are removed for at least one of the PMOS devices and NMOS devices to form trenches using an etch process, such as a hydroxide-based solution, wherein at least a portion and generally substantially all of the gate dielectric layer is preserved.
    Type: Grant
    Filed: December 31, 2008
    Date of Patent: November 23, 2010
    Assignee: Texas Instruments Incorporated
    Inventors: Brian K. Kirkpatrick, Freidoon Mehrad, Shaofeng Yu
  • Patent number: 7785970
    Abstract: Source and drain regions are formed in a first-type semiconductor device. Then, a high tensile stress capping layer is formed over the source and drain regions. A thermal process is then performed to re-crystallize the source and drain regions and to introduce tensile strain into the source and drain regions of the first-type semiconductor device. Afterwards, source and drain regions are formed in a second-type semiconductor device. Then, a high compressive stress capping layer is formed over the source and drain regions of the second-type semiconductor device. A thermal process is performed to re-crystallize the source and drain regions and to introduce compressive strain into the source and drain regions of the second-type semiconductor device.
    Type: Grant
    Filed: August 20, 2007
    Date of Patent: August 31, 2010
    Assignee: Texas Instruments Incorporated
    Inventors: Frank Scott Johnson, Shaofeng Yu
  • Publication number: 20100176462
    Abstract: A method of simultaneously siliciding a polysilicon gate and source/drain of a semiconductor device, and related device. At least some of the illustrative embodiments are methods comprising forming a gate stack over a semiconductor substrate (the gate stack comprising a first polysilicon layer, a first nitride layer, and a second polysilicon layer), forming a second nitride layer over an active region in the semiconductor substrate adjacent to the gate stack, performing a chemical mechanical polishing that stops on the first nitride layer and on the second nitride layer, removing the first nitride layer and the second nitride layer, and performing a simultaneous silicidation of the first polysilicon layer and the active region.
    Type: Application
    Filed: March 25, 2010
    Publication date: July 15, 2010
    Applicant: TEXAS INSTRUMENTS INCORPORATED
    Inventors: Freidoon Mehrad, Shaofeng Yu, Steven A. Vitale, Joe G. Tran
  • Publication number: 20100164006
    Abstract: A method for fabricating a CMOS integrated circuit (IC) and ICs therefrom includes the steps of providing a substrate having a semiconductor surface, wherein the semiconductor surface has PMOS regions for PMOS devices and NMOS regions for NMOS devices. A gate dielectric layer is formed on the PMOS regions and NMOS regions. An original gate electrode layer is formed on the gate dielectric layer. A gate masking layer is applied on the gate electrode layer. Etching is used to pattern the original gate electrode layer to simultaneously form original gate electrodes for the PMOS devices and NMOS devices. Source and drain regions are formed for the PMOS devices and NMOS devices. The original gate electrodes are removed for at least one of the PMOS devices and NMOS devices to form trenches using an etch process, such as a hydroxide-based solution, wherein at least a portion and generally substantially all of the gate dielectric layer is preserved.
    Type: Application
    Filed: December 31, 2008
    Publication date: July 1, 2010
    Applicant: TEXAS INSTRUMENTS INC
    Inventors: BRIAN K. KIRKPATRICK, Freidoon Mehrad, Shaofeng Yu