Patents by Inventor Shinichiro Kimura

Shinichiro Kimura 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).

  • Patent number: 7259422
    Abstract: A memory cell includes a selective gate and a memory gate arranged on one side surface of the selective gate. The memory gate includes one part formed on one side surface of the selective gate and the other part electrically isolated from the selective gate and a p-well through an ONO layer formed below the memory gate. A sidewall-shaped silicon oxide is formed on side surfaces of the selective gate, and a sidewall-shaped silicon dioxide layer and a silicon dioxide layer are formed on side surfaces of the memory gate. The ONO layer formed below the memory gate is terminated below the silicon oxide, and prevents generation of a low breakdown voltage region in the silicon oxide near an end of the memory gate during deposition of the silicon dioxide layer.
    Type: Grant
    Filed: January 17, 2007
    Date of Patent: August 21, 2007
    Assignee: Renesas Technology Corp.
    Inventors: Digh Hisamoto, Kan Yasui, Shinichiro Kimura, Daisuke Okada
  • Publication number: 20070183206
    Abstract: An operation scheme for operating stably a semiconductor nonvolatile memory device is provided. When hot-hole injection is conducted in the semiconductor nonvolatile memory device of a split gate structure, the hot-hole injection is verified using a crossing point that does not change with time. Thus, an erased state can be verified without being aware of any time-varying changes. Also, programming or programming/erasure is conducted by repeating pulse voltage or multi-step voltage application to a gate section multiple times.
    Type: Application
    Filed: March 27, 2007
    Publication date: August 9, 2007
    Inventors: Digh Hisamoto, Kan Yasui, Tetsuya Ishimaru, Shinichiro Kimura, Daisuke Okada
  • Patent number: 7247890
    Abstract: Disclosed is herein a semiconductor device having a DRAM with less scattering of threshold voltage of MISFET in a memory cell and having good charge retainability of a capacitor, and a manufacturing method of the semiconductor device. An anti-oxidation film is formed to the side wall of a gate electrode before light oxidation thereby suppressing the oxidation of the side wall for the gate electrode and decreasing scattering of the thickness of the film formed to the sidewall in an asymmetric diffusion region structure in which the impurity concentration of an n-type semiconductor region and a p-type semiconductor region on the side of the data line is made relatively higher than the impurity concentration in the n-type semiconductor region and p-type semiconductor region on the side of the capacitor, respectively.
    Type: Grant
    Filed: September 1, 2004
    Date of Patent: July 24, 2007
    Assignee: Hitachi, Ltd.
    Inventors: Tomoko Sekiguchi, Shinichiro Kimura, Renichi Yamada, Kikuo Watanabe, Hiroshi Miki, Kenichi Takeda
  • Patent number: 7235441
    Abstract: In a split gate type nonvolatile memory cell in which a MOS transistor for a nonvolatile memory using a charge storing film and a MOS transistor for selecting it are adjacently formed, the charge storing characteristic is improved and the resistance of the gate electrode is reduced. In order to prevent the thickness reduction at the corner portion of the charge storing film and improve the charge storing characteristic, a taper is formed on the sidewall of the select gate electrode. Also, in order to stably perform a silicide process for reducing the resistance of the self-aligned gate electrode, the sidewall of the select gate electrode is recessed. Alternatively, a discontinuity is formed between the upper portion of the self-aligned gate electrode and the upper portion of the select gate electrode.
    Type: Grant
    Filed: July 29, 2004
    Date of Patent: June 26, 2007
    Assignee: Renesas Technology Corp.
    Inventors: Kan Yasui, Digh Hisamoto, Shinichiro Kimura
  • Patent number: 7212444
    Abstract: An operation scheme for operating stably a semiconductor nonvolatile memory device is provided. When hot-hole injection is conducted in the semiconductor nonvolatile memory device of a split gate structure, the hot-hole injection is verified using a crossing point that does not change with time. Thus, an erased state can be verified without being aware of any time-varying changes. Also, programming or programming/erasure is conducted by repeating pulse voltage or multi-step voltage application to a gate section multiple times.
    Type: Grant
    Filed: May 26, 2005
    Date of Patent: May 1, 2007
    Assignee: Renesas Technology Corp.
    Inventors: Digh Hisamoto, Kan Yasui, Tetsuya Ishimaru, Shinichiro Kimura, Daisuke Okada
  • Patent number: 7196368
    Abstract: A capacitor consisting of a storage electrode (19), a capacitor dielectric film (20) and a plate electrode (21) is formed in a trench formed through dielectric films (6, 8, 10 and 12) stacked on a semiconductor substrate (1) and buried wiring layers (9 and 11) are formed under the capacitor. As the capacitor is formed not in the semiconductor substrate but over it, there is room in area in which the capacitor can be formed and the difficultly of forming wiring is reduced by using the wiring layers (9 and 11) for a global word line and a selector line. As the upper face of an dielectric film (32) which is in contact with the lower face of wiring (34) in a peripheral circuit area is extended into a memory cell area and is in contact with the side of the capacitor (33), step height between the peripheral circuit area and the memory cell area is remarkably reduced.
    Type: Grant
    Filed: August 10, 2004
    Date of Patent: March 27, 2007
    Assignee: Renesas Technology Corp.
    Inventors: Shinichiro Kimura, Toshiaki Yamanaka, Kiyoo Itoh, Takeshi Sakata, Tomonori Sekiguchi, Hideyuki Matsuoka
  • Publication number: 20070040208
    Abstract: A non-volatile semiconductor memory device with good write/erase characteristics is provided. A selection gate is formed on a p-type well of a semiconductor substrate via a gate insulator, and a memory gate is formed on the p-type well via a laminated film composed of a silicon oxide film, a silicon nitride film, and a silicon oxide film. The memory gate is adjacent to the selection gate via the laminated film. In the regions on both sides of the selection gate and the memory gate in the p-type well, n-type impurity diffusion layers serving as the source and drain are formed. The region controlled by the selection gate and the region controlled by the memory gate located in the channel region between said impurity diffusion layers have the different charge densities of the impurity from each other.
    Type: Application
    Filed: October 30, 2006
    Publication date: February 22, 2007
    Inventors: Digh Hisamoto, Shinichiro Kimura, Kan Yasui, Nozomu Matsuzaki
  • Patent number: 7132718
    Abstract: A non-volatile semiconductor memory device with good write/erase characteristics is provided. A selection gate is formed on a p-type well of a semiconductor substrate via a gate insulator, and a memory gate is formed on the p-type well via a laminated film composed of a silicon oxide film, a silicon nitride film, and a silicon oxide film. The memory gate is adjacent to the selection gate via the laminated film. In the regions on the both sides of the selection gate and the memory gate in the p-type well, n-type impurity diffusion layers serving as the source and drain are formed. The region controlled by the selection gate and the region controlled by the memory gate located in the channel region between said impurity diffusion layers have the different charge densities of the impurity from each other.
    Type: Grant
    Filed: December 4, 2003
    Date of Patent: November 7, 2006
    Assignee: Renesas Technology Corp.
    Inventors: Digh Hisamoto, Shinichiro Kimura, Kan Yasui, Nozomu Matsuzaki
  • Publication number: 20060234454
    Abstract: After forming a first dielectric film on the main surface of a semiconductor substrate, a first conductive film is formed on the first dielectric film, and then, the surface of the first conductive film is planarized by a CMP method. Subsequently, the first conductive film and the first dielectric film are etched, thereby forming a select gate having a first gate electrode and a first gate dielectric film. Subsequently, after forming a second dielectric film on the sidewall of the first gate electrode and the main surface, a second conductive film is formed on the second dielectric film, and the second conductive film is etched, thereby forming a memory gate having a second gate electrode and a second gate dielectric film.
    Type: Application
    Filed: April 17, 2006
    Publication date: October 19, 2006
    Inventors: Kan Yasui, Shinichiro Kimura, Digh Hisamoto, Tetsuya Ishimaru
  • Publication number: 20060081836
    Abstract: In a field effect semiconductor device for high frequency power amplification, it is difficult to achieve size reduction and increased efficiency simultaneously while ensuring voltage withstanding. A further improvement in efficiency is attained by using a strained Si channel for LDMOS at an output stage for high frequency power amplification. Further, the efficiency is improved as much as possible while decreasing a leak current, by optimizing the film thickness of the strained Si layer having a channel region, inactivation of defects and a field plate structure.
    Type: Application
    Filed: October 14, 2005
    Publication date: April 20, 2006
    Inventors: Yoshinobu Kimura, Nobuyuki Sugii, Shinichiro Kimura, Ryuta Tsuchiya, Shinichi Saito
  • Publication number: 20060022260
    Abstract: Provided is a nonvolatile semiconductor memory device having a split gate structure, wherein a memory gate is formed over a convex shaped substrate and side surfaces of it is used as a channel. The nonvolatile semiconductor memory device according to the present invention is excellent in read current driving power even if a memory cell is scaled down.
    Type: Application
    Filed: July 15, 2005
    Publication date: February 2, 2006
    Inventors: Digh Hisamoto, Kan Yasui, Shinichiro Kimura, Tetsuya Ishimaru
  • Publication number: 20050265080
    Abstract: An operation scheme for operating stably a semiconductor nonvolatile memory device is provided. When hot-hole injection is conducted in the semiconductor nonvolatile memory device of a split gate structure, the hot-hole injection is verified using a crossing point that does not change with time. Thus, an erased state can be verified without being aware of any time-varying changes. Also, programming or programming/erasure is conducted by repeating pulse voltage or multi-step voltage application to a gate section multiple times.
    Type: Application
    Filed: May 26, 2005
    Publication date: December 1, 2005
    Inventors: Digh Hisamoto, Kan Yasui, Tetsuya Ishimaru, Shinichiro Kimura, Daisuke Okada
  • Publication number: 20050230736
    Abstract: In a situation where a memory cell includes an ONO film, which comprises a silicon nitride film for charge storage and oxide films positioned above and below the silicon nitride film; a memory gate above the ONO film; a select gate, which is adjacent to a lateral surface of the memory gate via the ONO film; a gate insulator positioned below the select gate; a source region; and a drain region, an erase operation is performed by injecting holes generated by BTBT into the silicon nitride film while applying a positive potential to the source region, applying a negative potential to the memory gate, applying a positive potential to the select gate, and flowing a current from the drain region to the source region, thus improving the characteristics of a nonvolatile semiconductor memory device.
    Type: Application
    Filed: January 10, 2005
    Publication date: October 20, 2005
    Inventors: Tetsuya Ishimaru, Digh Hisamoto, Kan Yasui, Shinichiro Kimura
  • Patent number: 6953728
    Abstract: This semiconductor device manufacturing method comprises the steps of: forming a thick gate oxide film (thick oxide film) in a first region of a substrate, forming a thin gate oxide film (thin oxide layer) in a second region, and then, applying oxynitridation to these gate oxide films; forming gate electrodes to 1d on these gate oxide films; and implanting an ion that contains nitrogen or nitrogen atoms into at least one part of an interface between the hick gate oxide film (thick oxide film) and the substrate before or after the step of forming the gate electrodes, thereby forming a highly oxy-nitrided region. In this manner, in a semiconductor device in which there coexist a MISFET having a thin gate insulation film and a MISFET having a thick gate insulation film, hot carrier reliability of the MISFET having the thick gate insulation film is improved.
    Type: Grant
    Filed: February 11, 2004
    Date of Patent: October 11, 2005
    Assignee: Hitachi, Ltd.
    Inventors: Eiichi Murakami, Akio Nishida, Kazunori Umeda, Kousuke Okuyama, Toshiaki Yamanaka, Jiro Yugami, Shinichiro Kimura
  • Publication number: 20050208716
    Abstract: A refresh characteristic of a DRAM memory cell is improved and the performance of a MISFET formed in the periphery thereof and constituting a logic circuit is improved. Each gate electrode in a memory cell area is formed of p type polycrystalline silicon, and a cap insulating film on each gate electrode and a sidewall film on the sidewall thereof are formed of a silicon oxide film. A polycrystalline silicon film formed on the gate electrodes and between the gate electrodes is polished by a CMP method, and thereby contact electrodes are formed. Also, sidewall films each composed of a laminated film of the silicon oxide film and the polycrystalline silicon film are formed on the sidewall of the gate electrodes in the logic circuit area, and these films are used as a mask to form semiconductor areas. As a result, it is possible to reduce the boron penetration and form contact electrodes in a self-alignment manner. In addition, the performance of the MISFET constituting the logic circuit can be improved.
    Type: Application
    Filed: May 17, 2005
    Publication date: September 22, 2005
    Inventors: Norikatsu Takaura, Hideyuki Matsuoka, Shinichiro Kimura, Ryo Nagai, Satoru Yamada
  • Patent number: 6900492
    Abstract: A refresh characteristic of a DRAM memory cell is improved and the performance of a MISFET formed in the periphery thereof and constituting a logic circuit is improved. Each gate electrode in a memory cell area is formed of p type polycrystalline silicon, and a cap insulating film on each gate electrode and a sidewall film on the sidewall thereof are formed of a silicon oxide film. A polycrystalline silicon film formed on the gate electrodes and between the gate electrodes is polished by a CMP method, and thereby contact electrodes are formed. Also, sidewall films each composed of a laminated film of the silicon oxide film and the polycrystalline silicon film are formed on the sidewall of the gate electrodes in the logic circuit area, and these films are used as a mask to form semiconductor areas. As a result, it is possible to reduce the boron penetration and form contact electrodes in a self-alignment manner. In addition, the performance of the MISFET constituting the logic circuit can be improved.
    Type: Grant
    Filed: June 7, 2002
    Date of Patent: May 31, 2005
    Assignees: Hitachi, Ltd., NEC Corporation, NEC Electronics Corporation
    Inventors: Norikatsu Takaura, Hideyuki Matsuoka, Shinichiro Kimura, Ryo Nagai, Satoru Yamada
  • Publication number: 20050098813
    Abstract: Disclosed is herein a semiconductor device having a DRAM with less scattering of threshold voltage of MISFET in a memory cell and having good charge retainability of a capacitor, and a manufacturing method of the semiconductor device. An anti-oxidation film is formed to the side wall of a gate electrode before light oxidation thereby suppressing the oxidation of the side wall for the gate electrode and decreasing scattering of the thickness of the film formed to the sidewall in an asymmetric diffusion region structure in which the impurity concentration of an n-type semiconductor region and a p-type semiconductor region on the side of the data line is made relatively higher than the impurity concentration in the n-type semiconductor region and p-type semiconductor region on the side of the capacitor, respectively.
    Type: Application
    Filed: September 1, 2004
    Publication date: May 12, 2005
    Inventors: Tomoko Sekiguchi, Shinichiro Kimura, Renichi Yamada, Kikuo Watanabe, Hiroshi Miki, Kenichi Takeda
  • Publication number: 20050085039
    Abstract: In a split gate type nonvolatile memory cell in which a MOS transistor for a nonvolatile memory using a charge storing film and a MOS transistor for selecting it are adjacently formed, the charge storing characteristic is improved and the resistance of the gate electrode is reduced. In order to prevent the thickness reduction at the corner portion of the charge storing film and improve the charge storing characteristic, a taper is formed on the sidewall of the select gate electrode. Also, in order to stably perform a silicide process for reducing the resistance of the self-aligned gate electrode, the sidewall of the select gate electrode is recessed. Alternatively, a discontinuity is formed between the upper portion of the self-aligned gate electrode and the upper portion of the select gate electrode.
    Type: Application
    Filed: July 29, 2004
    Publication date: April 21, 2005
    Inventors: Kan Yasui, Digh Hisamoto, Shinichiro Kimura
  • Patent number: 6878586
    Abstract: A semiconductor memory device having STC cells wherein the major portions of active regions consisting of channel-forming portions are inclined at an angle of 45 degrees with respect to word lines and bit lines that meet at right angles with each other, thereby enabling the storage capacity portions to be arranged very densely and a sufficiently large capacity to be maintained with very small cell areas. Since the storage capacity portions are formed even on the bit lines, the bit lines are shielded, so that the capacity decreases between the bit lines and, hence, the memory array noise decreases. It is also possible to design the charge storage capacity portion so that a part of thereof has a form of a wall substantially vertical to the substrate in order to increase the capacity.
    Type: Grant
    Filed: June 11, 2003
    Date of Patent: April 12, 2005
    Assignee: Renesas Technology Corp.
    Inventors: Shinichiro Kimura, Naotaka Hashimoto, Yoshio Sakai, Tokuo Kure, Yoshifumi Kawamoto, Toru Kaga, Eiji Takeda
  • Patent number: 6867090
    Abstract: By using a solid solution of tantalum pentoxide and niobium pentoxide as a dielectric film installed between upper electrode and lower electrode in a capacitor which is used in a semiconductor device, the capacitor structure can be simplified to improve reliability of the semiconductor device while reducing the production cost thereof.
    Type: Grant
    Filed: April 24, 2003
    Date of Patent: March 15, 2005
    Assignee: Hitachi, Ltd.
    Inventors: Masahiko Hiratani, Shinichiro Kimura, Tomoyuki Hamada