Patents by Inventor Hirokazu Sayama
Hirokazu Sayama 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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Patent number: 9129841Abstract: A semiconductor device in which a reliable high voltage p-channel transistor is formed without an increase in cost and the number of manufacturing steps. The transistor includes: a semiconductor substrate having a main surface and a p-type region therein; a p-type well region located over the p-type region and in the main surface, having a first p-type impurity region to obtain a drain electrode; an n-type well region adjoining the p-type well region along the main surface and having a second p-type impurity region to obtain a source electrode; a gate electrode between the first and second p-type impurity regions along the main surface; and a p-type buried channel overlying the n-type well region and extending along the main surface. The border between the n-type and p-type well regions is nearer to the first p-type impurity region than the gate electrode end near to the first p-type impurity region.Type: GrantFiled: December 7, 2011Date of Patent: September 8, 2015Assignee: RENESAS ELECTRONICS CORPORATIONInventor: Hirokazu Sayama
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Patent number: 9112013Abstract: Provided are a semiconductor device having a high breakdown voltage and attaining the restraint of the action of a parasite bipolar transistor, and a method for producing the device. A high-breakdown-voltage p-channel-type transistor included in the semiconductor device has a first n-type semiconductor layer arranged in a semiconductor substrate and at a main-surface-side (upside) of a p-type region in the semiconductor substrate, and a local n-type buried region arranged just below a first p-type dopant region to contact the first n-type semiconductor layer.Type: GrantFiled: March 5, 2013Date of Patent: August 18, 2015Assignee: Renesas Electronics CorporationInventor: Hirokazu Sayama
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Publication number: 20150194428Abstract: A method of manufacturing a semiconductor device with NMOS and PMOS transistors is provided. The semiconductor device can lessen a short channel effect, can reduce gate-drain current leakage, and can reduce parasitic capacitance due to gate overlaps, thereby inhibiting a reduction in the operating speed of circuits. An N-type impurity such as arsenic is ion implanted to a relatively low concentration in the surface of a silicon substrate (1) in a low-voltage NMOS region (LNR) thereby to form extension layers (61). Then, a silicon oxide film (OX2) is formed to cover the whole surface of the silicon substrate (1). The silicon oxide film (OX2) on the side surfaces of gate electrodes (51-54) is used as an offset sidewall. Then, boron is ion implanted to a relatively low concentration in the surface of the silicon substrate (1) in a low-voltage PMOS region (LPR) thereby to form P-type impurity layers (621) later to be extension layers (62).Type: ApplicationFiled: March 19, 2015Publication date: July 9, 2015Applicant: Renesas Electronics CorporationInventors: Kazunobu OTA, Hirokazu SAYAMA, Hidekazu ODA
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Patent number: 8987081Abstract: A method of manufacturing a semiconductor device with NMOS and PMOS transistors is provided. The semiconductor device can lessen a short channel effect, can reduce gate-drain current leakage, and can reduce parasitic capacitance due to gate overlaps, thereby inhibiting a reduction in the operating speed of circuits. An N-type impurity such as arsenic is ion implanted to a relatively low concentration in the surface of a silicon substrate (1) in a low-voltage NMOS region (LNR) thereby to form extension layers (61). Then, a silicon oxide film (OX2) is formed to cover the whole surface of the silicon substrate (1). The silicon oxide film (OX2) on the side surfaces of gate electrodes (51-54) is used as an offset sidewall. Then, boron is ion implanted to a relatively low concentration in the surface of the silicon substrate (1) in a low-voltage PMOS region (LPR) thereby to form P-type impurity layers (621) later to be extension layers (62).Type: GrantFiled: September 9, 2014Date of Patent: March 24, 2015Assignee: Renesas Electronics CorporationInventors: Kazunobu Ota, Hirokazu Sayama, Hidekazu Oda
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Publication number: 20140377920Abstract: A method of manufacturing a semiconductor device with NMOS and PMOS transistors is provided. The semiconductor device can lessen a short channel effect, can reduce gate-drain current leakage, and can reduce parasitic capacitance due to gate overlaps, thereby inhibiting a reduction in the operating speed of circuits. An N-type impurity such as arsenic is ion implanted to a relatively low concentration in the surface of a silicon substrate (1) in a low-voltage NMOS region (LNR) thereby to form extension layers (61). Then, a silicon oxide film (OX2) is formed to cover the whole surface of the silicon substrate (1). The silicon oxide film (OX2) on the side surfaces of gate electrodes (51-54) is used as an offset sidewall. Then, boron is ion implanted to a relatively low concentration in the surface of the silicon substrate (1) in a low-voltage PMOS region (LPR) thereby to form P-type impurity layers (621) later to be extension layers (62).Type: ApplicationFiled: September 9, 2014Publication date: December 25, 2014Applicant: Renesas Electronics CorporationInventors: Kazunobu OTA, Hirokazu Sayama, Hidekazu Oda
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Publication number: 20140322878Abstract: A gate insulating film and a gate electrode of non-single crystalline silicon for forming an nMOS transistor are provided on a silicon substrate. Using the gate electrode as a mask, n-type dopants having a relatively large mass number (70 or more) such as As ions or Sb ions are implanted, to form a source/drain region of the nMOS transistor, whereby the gate electrode is amorphized. Subsequently, a silicon oxide film is provided to cover the gate electrode, at a temperature which is less than the one at which recrystallization of the gate electrode occurs. Thereafter, thermal processing is performed at a temperature of about 1000° C., whereby high compressive residual stress is exerted on the gate electrode, and high tensile stress is applied to a channel region under the gate electrode. As a result, carrier mobility of the nMOS transistor is enhanced.Type: ApplicationFiled: July 8, 2014Publication date: October 30, 2014Applicant: Renesas Electronics CorporationInventors: Hirokazu SAYAMA, Kazunobu Ohta, Hidekazu Oda, Kouhei Sugihara
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Patent number: 8859360Abstract: A method of manufacturing a semiconductor device with NMOS and PMOS transistors is provided. The semiconductor device can lessen a short channel effect, can reduce gate-drain current leakage, and can reduce parasitic capacitance due to gate overlaps, thereby inhibiting a reduction in the operating speed of circuits. An N-type impurity such as arsenic is ion implanted to a relatively low concentration in the surface of a silicon substrate (1) in a low-voltage NMOS region (LNR) thereby to form extension layers (61). Then, a silicon oxide film (OX2) is formed to cover the whole surface of the silicon substrate (1). The silicon oxide film (OX2) on the side surfaces of gate electrodes (51-54) is used as an offset sidewall. Then, boron is ion implanted to a relatively low concentration in the surface of the silicon substrate (1) in a low-voltage PMOS region (LPR) thereby to form P-type impurity layers (621) later to be extension layers (62).Type: GrantFiled: December 24, 2013Date of Patent: October 14, 2014Assignee: Renesas Electronics CorporationInventors: Kazunobu Ota, Hirokazu Sayama, Hidekazu Oda
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Patent number: 8809186Abstract: A gate insulating film and a gate electrode of non-single crystalline silicon for forming an nMOS transistor are provided on a silicon substrate. Using the gate electrode as a mask, n-type dopants having a relatively large mass number (70 or more) such as As ions or Sb ions are implanted, to form a source/drain region of the nMOS transistor, whereby the gate electrode is amorphized. Subsequently, a silicon oxide film is provided to cover the gate electrode, at a temperature which is less than the one at which recrystallization of the gate electrode occurs. Thereafter, thermal processing is performed at a temperature of about 1000° C., whereby high compressive residual stress is exerted on the gate electrode, and high tensile stress is applied to a channel region under the gate electrode. As a result, carrier mobility of the nMOS transistor is enhanced.Type: GrantFiled: September 27, 2013Date of Patent: August 19, 2014Assignee: Renesas Electronics CorporationInventors: Hirokazu Sayama, Kazunobu Ohta, Hidekazu Oda, Kouhei Sugihara
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Patent number: 8742497Abstract: A semiconductor device is provided, in which work of a parasitic bipolar transistor can be suppressed and a potential difference can be provided between a source region and a back gate region. A high voltage tolerant transistor formed over a semiconductor substrate includes: a well region of a first conductivity type; a first impurity region as the source region; and a second impurity region as a drain region. The semiconductor device further includes a third impurity region and a gate electrode for isolation. The third impurity region is formed, in planar view, between a pair of the first impurity regions, and from which a potential of the well region is extracted. The gate electrode for isolation is formed over the main surface between the first impurity region and the third impurity region.Type: GrantFiled: April 11, 2013Date of Patent: June 3, 2014Assignee: Renesas Electronics CorporationInventor: Hirokazu Sayama
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Publication number: 20140113418Abstract: A method of manufacturing a semiconductor device with NMOS and PMOS transistors is provided. The semiconductor device can lessen a short channel effect, can reduce gate-drain current leakage, and can reduce parasitic capacitance due to gate overlaps, thereby inhibiting a reduction in the operating speed of circuits. An N-type impurity such as arsenic is ion implanted to a relatively low concentration in the surface of a silicon substrate (1) in a low-voltage NMOS region (LNR) thereby to form extension layers (61). Then, a silicon oxide film (OX2) is formed to cover the whole surface of the silicon substrate (1). The silicon oxide film (OX2) on the side surfaces of gate electrodes (51-54) is used as an offset sidewall. Then, boron is ion implanted to a relatively low concentration in the surface of the silicon substrate (1) in a low-voltage PMOS region (LPR) thereby to form P-type impurity layers (621) later to be extension layers (62).Type: ApplicationFiled: December 24, 2013Publication date: April 24, 2014Applicant: Renesas Electronics CorporationInventors: Kazunobu Ota, Hirokazu Sayama, Hidekazu Oda
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Patent number: 8642418Abstract: A method of manufacturing a semiconductor device with NMOS and PMOS transistors is provided. The semiconductor device can lessen a short channel effect, can reduce gate-drain current leakage, and can reduce parasitic capacitance due to gate overlaps, thereby inhibiting a reduction in the operating speed of circuits. An N-type impurity such as arsenic is ion implanted to a relatively low concentration in the surface of a silicon substrate (1) in a low-voltage NMOS region (LNR) thereby to form extension layers (61). Then, a silicon oxide film (OX2) is formed to cover the whole surface of the silicon substrate (1). The silicon oxide film (OX2) on the side surfaces of gate electrodes (51-54) is used as an offset sidewall. Then, boron is ion implanted to a relatively low concentration in the surface of the silicon substrate (1) in a low-voltage PMOS region (LPR) thereby to form P-type impurity layers (621) later to be extension layers (62).Type: GrantFiled: August 12, 2013Date of Patent: February 4, 2014Assignee: Renesas Electronics CorporationInventors: Kazunobu Ota, Hirokazu Sayama, Hidekazu Oda
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Publication number: 20140024194Abstract: A gate insulating film and a gate electrode of non-single crystalline silicon for forming an nMOS transistor are provided on a silicon substrate. Using the gate electrode as a mask, n-type dopants having a relatively large mass number (70 or more) such as As ions or Sb ions are implanted, to form a source/drain region of the nMOS transistor, whereby the gate electrode is amorphized. Subsequently, a silicon oxide film is provided to cover the gate electrode, at a temperature which is less than the one at which recrystallization of the gate electrode occurs. Thereafter, thermal processing is performed at a temperature of about 1000° C., whereby high compressive residual stress is exerted on the gate electrode, and high tensile stress is applied to a channel region under the gate electrode. As a result, carrier mobility of the nMOS transistor is enhanced.Type: ApplicationFiled: September 27, 2013Publication date: January 23, 2014Applicant: Renesas Electronics CorporationInventors: Hirokazu SAYAMA, Kazunobu Ohta, Hidekazu Oda, Kouhei Sugihara
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Publication number: 20130330890Abstract: A method of manufacturing a semiconductor device with NMOS and PMOS transistors is provided. The semiconductor device can lessen a short channel effect, can reduce gate-drain current leakage, and can reduce parasitic capacitance due to gate overlaps, thereby inhibiting a reduction in the operating speed of circuits. An N-type impurity such as arsenic is ion implanted to a relatively low concentration in the surface of a silicon substrate (1) in a low-voltage NMOS region (LNR) thereby to form extension layers (61). Then, a silicon oxide film (OX2) is formed to cover the whole surface of the silicon substrate (1). The silicon oxide film (OX2) on the side surfaces of gate electrodes (51-54) is used as an offset sidewall. Then, boron is ion implanted to a relatively low concentration in the surface of the silicon substrate (1) in a low-voltage PMOS region (LPR) thereby to form P-type impurity layers (621) later to be extension layers (62).Type: ApplicationFiled: August 12, 2013Publication date: December 12, 2013Applicant: Renesas Electronics CorporationInventors: Kazunobu OTA, Hirokazu Sayama, Hidekazu Oda
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Patent number: 8586475Abstract: A gate insulating film and a gate electrode of non-single crystalline silicon for forming an nMOS transistor are provided on a silicon substrate. Using the gate electrode as a mask, n-type dopants having a relatively large mass number (70 or more) such as As ions or Sb ions are implanted, to form a source/drain region of the nMOS transistor, whereby the gate electrode is amorphized. Subsequently, a silicon oxide film is provided to cover the gate electrode, at a temperature which is less than the one at which recrystallization of the gate electrode occurs. Thereafter, thermal processing is performed at a temperature of about 1000° C., whereby high compressive residual stress is exerted on the gate electrode, and high tensile stress is applied to a channel region under the gate electrode. As a result, carrier mobility of the nMOS transistor is enhanced.Type: GrantFiled: January 16, 2013Date of Patent: November 19, 2013Assignee: Renesas Electronics CorporationInventors: Hirokazu Sayama, Kazunobu Ohta, Hidekazu Oda, Kouhei Sugihara
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Publication number: 20130277738Abstract: A semiconductor device is provided, in which work of a parasitic bipolar transistor can be suppressed and a potential difference can be provided between a source region and a back gate region. A high voltage tolerant transistor formed over a semiconductor substrate includes: a well region of a first conductivity type; a first impurity region as the source region; and a second impurity region as a drain region. The semiconductor device further includes a third impurity region and a gate electrode for isolation. The third impurity region is formed, in planar view, between a pair of the first impurity regions, and from which a potential of the well region is extracted. The gate electrode for isolation is formed over the main surface between the first impurity region and the third impurity region.Type: ApplicationFiled: April 11, 2013Publication date: October 24, 2013Applicant: Renesas Electronics CorporationInventor: Hirokazu SAYAMA
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Patent number: 8541272Abstract: A method of manufacturing a semiconductor device with NMOS and PMOS transistors is provided. The semiconductor device can lessen a short channel effect, can reduce gate-drain current leakage, and can reduce parasitic capacitance due to gate overlaps, thereby inhibiting a reduction in the operating speed of circuits. An N-type impurity such as arsenic is ion implanted to a relatively low concentration in the surface of a silicon substrate (1) in a low-voltage NMOS region (LNR) thereby to form extension layers (61). Then, a silicon oxide film (OX2) is formed to cover the whole surface of the silicon substrate (1). The silicon oxide film (OX2) on the side surfaces of gate electrodes (51-54) is used as an offset sidewall. Then, boron is ion implanted to a relatively low concentration in the surface of the silicon substrate (1) in a low-voltage PMOS region (LPR) thereby to form P-type impurity layers (621) later to be extension layers (62).Type: GrantFiled: March 15, 2013Date of Patent: September 24, 2013Assignee: Renesas Electronics CorporationInventors: Kazunobu Ota, Hirokazu Sayama, Hidekazu Oda
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Publication number: 20130234258Abstract: Provided are a semiconductor device having a high breakdown voltage and attaining the restraint of the action of a parasite bipolar transistor, and a method for producing the device. A high-breakdown-voltage p-channel-type transistor included in the semiconductor device has a first n-type semiconductor layer arranged in a semiconductor substrate and at a main-surface-side (upside) of a p-type region in the semiconductor substrate, and a local n-type buried region arranged just below a first p-type dopant region to contact the first n-type semiconductor layer.Type: ApplicationFiled: March 5, 2013Publication date: September 12, 2013Applicant: RENESAS ELECTRONICS CORPORATIONInventor: Hirokazu SAYAMA
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Patent number: 8415213Abstract: A method of manufacturing a semiconductor device with NMOS and PMOS transistors is provided. The semiconductor device can lessen a short channel effect, can reduce gate-drain current leakage, and can reduce parasitic capacitance due to gate overlaps, thereby inhibiting a reduction in the operating speed of circuits. An N-type impurity such as arsenic is ion implanted to a relatively low concentration in the surface of a silicon substrate (1) in a low-voltage NMOS region (LNR) thereby to form extension layers (61). Then, a silicon oxide film (OX2) is formed to cover the whole surface of the silicon substrate (1). The silicon oxide film (OX2) on the side surfaces of gate electrodes (51-54) is used as an offset sidewall. Then, boron is ion implanted to a relatively low concentration in the surface of the silicon substrate (1) in a low-voltage PMOS region (LPR) thereby to form P-type impurity layers (621) later to be extension layers (62).Type: GrantFiled: July 19, 2011Date of Patent: April 9, 2013Assignee: Renesas Electronics CorporationInventors: Kazunobu Ota, Hirokazu Sayama, Hidekazu Oda
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Patent number: 8372747Abstract: A gate insulating film and a gate electrode of non-single crystalline silicon for forming an nMOS transistor are provided on a silicon substrate. Using the gate electrode as a mask, n-type dopants having a relatively large mass number (70 or more) such as As ions or Sb ions are implanted, to form a source/drain region of the nMOS transistor, whereby the gate electrode is amorphized. Subsequently, a silicon oxide film is provided to cover the gate electrode, at a temperature which is less than the one at which recrystallization of the gate electrode occurs. Thereafter, thermal processing is performed at a temperature of about 1000° C., whereby high compressive residual stress is exerted on the gate electrode, and high tensile stress is applied to a channel region under the gate electrode. As a result, carrier mobility of the nMOS transistor is enhanced.Type: GrantFiled: May 9, 2011Date of Patent: February 12, 2013Assignee: Renesas Electronics CorporationInventors: Hirokazu Sayama, Kazunobu Ohta, Hidekazu Oda, Kouhei Sugihara
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Publication number: 20120153388Abstract: A semiconductor device in which a reliable high voltage p-channel transistor is formed without an increase in cost and the number of manufacturing steps. The transistor includes: a semiconductor substrate having a main surface and a p-type region therein; a p-type well region located over the p-type region and in the main surface, having a first p-type impurity region to obtain a drain electrode; an n-type well region adjoining the p-type well region along the main surface and having a second p-type impurity region to obtain a source electrode; a gate electrode between the first and second p-type impurity regions along the main surface; and a p-type buried channel overlying the n-type well region and extending along the main surface. The border between the n-type and p-type well regions is nearer to the first p-type impurity region than the gate electrode end near to the first p-type impurity region.Type: ApplicationFiled: December 7, 2011Publication date: June 21, 2012Inventor: Hirokazu SAYAMA