Patents by Inventor Shotaro Okabe
Shotaro Okabe 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: 20030075717Abstract: The present invention provides a semiconductor element comprising a semiconductor junction composed of silicon-based films, the element being characterized in that at least one of the silicon-based films contains a microcrystal, and microcrystal located in at least one interface region of the silicon-based films containing the microcrystal has no orientation property. Further, the present invention provides a semiconductor element comprising a semiconductor junction composed of silicon-based films, wherein at least one of the silicon-based films contains a microcrystal, and the orientation property of the microcrystal in the silicon-based film containing the microcrystal changes in a film thickness direction of the silicon-based film containing the microcrystal.Type: ApplicationFiled: March 8, 2002Publication date: April 24, 2003Inventors: Takaharu Kondo, Shotaro Okabe, Masafumi Sano, Akira Sakai, Ryo Hayashi, Shuichiro Sugiyama
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Patent number: 6530341Abstract: A deposition apparatus of the present invention is arranged so that a surface area of a radio-frequency power applying cathode electrode disposed in a glow discharge space, in a space in contact with discharge is greater than a surface area of the whole of a ground electrode (anode electrode) including a beltlike member in the discharge space. This structure can maintain the potential (self-bias) of the cathode electrode disposed in the glow discharge space automatically at a positive potential with respect to the ground (anode) electrode including the beltlike member. As a result, the bias is applied in the direction of irradiation of ions with positive charge to a deposit film on the beltlike member, so that the ions existing in the plasma discharge are accelerated more efficiently toward the beltlike member, thereby effectively giving energy to the surface of deposit film by ion bombardment.Type: GrantFiled: February 25, 1999Date of Patent: March 11, 2003Assignee: Canon Kabushiki KaishaInventors: Yuzo Kohda, Shotaro Okabe, Masahiro Kanai, Akira Sakai, Tadashi Hori, Tomonori Nishimoto, Takahiro Yajima
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Publication number: 20030022519Abstract: The invention provides a process for producing a semiconductor layer by introducing a raw gas into a discharge chamber and supplying high-frequency power to the chamber to decompose the raw gas by discharge, thereby forming a semiconductor layer on a substrate within the discharge chamber, the process comprising the steps of supplying high-frequency power of at least very high frequency (VHF) as the high-frequency power; supplying bias power of direct current power and/or high-frequency power of radio-frequency (RF) together with the high-frequency power of VHF to the discharge chamber; and controlling a direct current component of an electric current flowing into an electrode, to which the bias power is supplied, so as to fall within a range of from 0.1 A/m2 to 10 A/m2 in terms of a current density based on the area of an inner wall of the discharge chamber. A good-quality semiconductor layer can be deposited over a large area at a high speed.Type: ApplicationFiled: September 11, 2002Publication date: January 30, 2003Inventors: Yasushi Fujioka, Shotaro Okabe, Masahiro Kanai, Akira Sakai, Tadashi Sawayama, Yuzo Yoda, Takahiro Yajima
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Patent number: 6495392Abstract: A process for producing a semiconductor device such as a photovoltaic element including a solar cell or a photosensor having a photoelectric conversion semiconductor layer formed by sequentially forming a p-type or n-type semiconductor layer composed of a non-single crystalline silicon series semiconductor material, an i-type semiconductor layer composed of a non-single crystalline silicon series semiconductor material, and an n-type or p-type semiconductor layer composed of a non-single crystalline silicon series semiconductor material on a substrate by means of plasma CVD, characterized in that at least one i-type semiconductor as said i-type semiconductor layer is formed in a discharge chamber having a cathode electrode by means of VHF plasma CVD using a silicon-containing raw material gas, wherein a VHF power of a wattage which is two times or less that of a VHF power required for decomposing 100% of said silicon-containing raw material gas is applied to said cathode electrode.Type: GrantFiled: July 23, 2001Date of Patent: December 17, 2002Assignee: Canon Kabushiki KaishaInventors: Akira Sakai, Yasushi Fujioka, Shotaro Okabe, Masahiro Kanai, Tadashi Sawayama, Yuzo Koda, Takahiro Yajima
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Patent number: 6472296Abstract: A process for producing a semiconductor layer by introducing a raw gas into a discharge chamber and supplying high-frequency power to the chamber to decompose the raw gas by discharge, thereby forming a semiconductor layer on a substrate within the discharge chamber, the process comprising the steps of supplying high-frequency power of at least very high frequency (VHF) as the high-frequency power; supplying bias power of direct current power and/or high-frequency power of radio-frequency (RF) together with the high-frequency power of VHF to the discharge chamber; and controlling a direct current component of an electric current flowing into an electrode, to which the bias power is supplied, so as to fall within a range of from 0.1 A/m2 to 10 A/m2 in terms of a current density based on the area of an inner wall of the discharge chamber. A good-quality semiconductor layer can be deposited over a large area at a high speed.Type: GrantFiled: July 26, 2001Date of Patent: October 29, 2002Assignee: Canon Kabushiki KaishaInventors: Yasushi Fujioka, Shotaro Okabe, Masahiro Kanai, Akira Sakai, Tadashi Sawayama, Yuzo Koda, Takahiro Yajima
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Patent number: 6436797Abstract: A film-forming apparatus for forming a non-single crystalline silicon series semiconductor film on a substrate in a film-forming space provided in a vacuum chamber using a very high frequency power supplied through a high frequency power supply means comprising a bar-like shaped electrode, wherein said bar-like shaped electrode is arranged such that the longitudinal direction thereof intersects a direction for said substrate to be moved, and a length of said film-forming space relative to the direction for said substrate to be moved is in a range of from {fraction (1/16)} to ½ of a wavelength of said very high frequency power supplied in said film-forming space. A film-forming method for forming a non-single crystalline silicon series semiconductor film on a substrate using said film-forming apparatus.Type: GrantFiled: May 26, 2000Date of Patent: August 20, 2002Assignee: Canon Kabushiki KaishaInventors: Yasushi Fujioka, Shotaro Okabe, Masahiro Kanai, Akira Sakai, Tadashi Sawayama, Yuzo Koda, Takahiro Yajimaa
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Patent number: 6399411Abstract: A method for forming a non-single-crystal semiconductor thin film and a photovoltaic device using an apparatus, which has a film deposition chamber with a film-forming space surrounded by a film deposition chamber wall and a belt-like substrate. An external chamber surrounding the deposition chamber wall is provided in the apparatus. While the belt-like substrate is moved in a longitudinal direction, a film-forming gas is introduced through a gas supply device into the film-forming space and microwave energy is radiated from a microwave applicator into the film-forming space to induce a microwave plasma, and thereby form a non-single-crystal semiconductor thin film on a surface of the belt-like substrate. A cooling mechanism and a temperature-increasing mechanism covering a part of an outside surface of the deposition chamber wall provide temperature control.Type: GrantFiled: June 15, 2000Date of Patent: June 4, 2002Assignee: Canon Kabushiki KaishaInventors: Tadashi Hori, Shotaro Okabe, Akira Sakai, Yuzo Kohda, Takahiro Yajima
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Patent number: 6368944Abstract: The photovoltaic element of the present invention is a photovoltaic element comprised of a semiconductor-junctioned element, characterized in that the element includes a first electrically conductive type semiconductor layer, a non-crystalline i type semiconductor layer, a microcrystalline i type semiconductor layer and a microcrystalline second electrically conductive type semiconductor layer and is pin-junctioned, and a method of and an apparatus for manufacturing the same are characterized by efficiently and continuously mass-producing the photovoltaic element having an excellent current-voltage characteristic and excellent photoelectric conversion efficiency.Type: GrantFiled: September 18, 2000Date of Patent: April 9, 2002Assignee: Canon Kabushiki KaishaInventors: Shotaro Okabe, Yasushi Fujioka, Masahiro Kanai, Akira Sakai, Tadashi Sawayama, Yuzo Kohda, Tadashi Hori, Takahiro Yajima
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Publication number: 20020016017Abstract: A process for producing a semiconductor device such as a photovoltaic element including a solar cell or a photosensor hating a photoelectric conversion semiconductor layer formed by sequentially forming a p-type or n-type semiconductor layer composed of a non-single crystalline silicon series semiconductor material, an i-type semiconductor layer composed of a non-single crystalline silicon series semiconductor material, and an n-type or p-type semiconductor layer composed of a non-single crystalline silicon series semiconductor material on a substrate by means of plasma CVD, characterized in that at least one i-type semiconductor as said i-type semiconductor layer is formed in a discharge chamber having a cathode electrode by means of VHF plasma CVD using a silicon-containing raw material gas, wherein a VHF power of a wattage which is two times or less that of a VHF power required for decomposing 100% of said silicon-containing raw material gas is applied to said cathode electrode.Type: ApplicationFiled: July 23, 2001Publication date: February 7, 2002Inventors: Akira Sakai, Yasushi Fujioka, Shotaro Okabe, Masahiro Kanai, Tadashi Sawayama, Yuzo Koda, Takahiro Yajima
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Publication number: 20020006477Abstract: A chemical-reaction inducing means is provided in an exhaust line connecting a processing space for subjecting a substrate or a film to plasma processing to an exhaust means, and at least either an unreacted gas or byproduct exhausted from the processing space are caused to chemically react without allowing plasma in the processing space to reach the chemical-reaction inducing means, thereby improving the processing ability of the chemical-reaction inducing means to process the unreacted gas or byproduct.Type: ApplicationFiled: April 2, 2001Publication date: January 17, 2002Inventors: Takeshi Shishido, Shotaro Okabe, Masahiro Kanai, Yuzo Koda, Yasuyoshi Takai, Tadashi Hori, Koichiro Moriyama, Hidetoshi Tsuzuki, Hiroyuki Ozaki
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Publication number: 20020001924Abstract: The invention provides a process for producing a semiconductor layer by introducing a raw gas into a discharge chamber and supplying high-frequency power to the chamber to decompose the raw gas by discharge, thereby forming a semiconductor layer on a substrate within the discharge chamber, the process comprising the steps of supplying high-frequency power of at least very high frequency (VHF) as the high-frequency power; supplying bias power of direct current power and/or high-frequency power of radio-frequency (RF) together with the high-frequency power of VHF to the discharge chamber; and controlling a direct current component of an electric current flowing into an electrode, to which the bias power is supplied, so as to fall within a range of from 0.1 A/m2 to 10 A/m2 in terms of a current density based on the area of an inner wall of the discharge chamber. A good-quality semiconductor layer can be deposited over a large area at a high speed.Type: ApplicationFiled: July 26, 2001Publication date: January 3, 2002Inventors: Yasushi Fujioka, Shotaro Okabe, Masahiro Kanai, Akira Sakai, Tadashi Sawayama, Yuzo Koda, Takahiro Yajima
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Publication number: 20010039924Abstract: To provide an apparatus for forming a deposited film, which is a parallel plate electrode type CVD apparatus, with a discharge vessel receiving a material gas flowing therein and discharging air therefrom, decomposing the material gas by the aid of a plasma generated therein, and depositing the film on the substrate, in which the exhaust port of the material gas exhaust means has an opening wider in the lateral direction than the parallel plate electrode. This structure diminishes the stagnant region of the material gas during the deposited film forming process and controls formation of by-products, to deposit the film uniform in quality and thickness.Type: ApplicationFiled: March 5, 2001Publication date: November 15, 2001Inventors: Hiroyuki Ozaki, Shotaro Okabe, Masahiro Kanai, Yuzo Koda, Tadashi Hori
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Patent number: 6313430Abstract: A high frequency plasma processing apparatus and a high frequency plasma processing method according to the invention can suitably be used for uniformly forming on a substrate a deposition film over a large area. The apparatus and the related method solve the problem wherein high frequency power supplied to a known plasma processing apparatus can become distorted to produce harmonics and give rise to difficulty in correctly reading the incident and reflected powers and realizing an accurate matching when a VHF is used in order to raise the processing rate.Type: GrantFiled: February 26, 1999Date of Patent: November 6, 2001Assignee: Canon Kabushiki KaishaInventors: Yasushi Fujioka, Shotaro Okabe, Masahiro Kanai, Akira Sakai, Tadashi Sawayama, Yuzo Kohda
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Patent number: 6287943Abstract: The invention provides a process for producing a semiconductor layer by introducing a raw gas into a discharge chamber and supplying high-frequency power to the chamber to decompose the raw gas by discharge, thereby forming a semiconductor layer on a substrate within the discharge chamber, the process comprising the steps of supplying high-frequency power of at least very high frequency (VHF) as the high-frequency power; supplying bias power of direct current power and/or high-frequency power of radio-frequency (RF) together with the high-frequency power of VHF to the discharge chamber; and controlling a direct current component of an electric current flowing into an electrode, to which the bias power is supplied, so as to fall within a range of from 0.1 A/m2 to 10 A/m2 in terms of a current density based on the area of an inner wall of the discharge chamber. A good-quality semiconductor layer can be deposited over a large area at a high speed.Type: GrantFiled: July 30, 1999Date of Patent: September 11, 2001Assignee: Canon Kabushiki KaishaInventors: Yasushi Fujioka, Shotaro Okabe, Masahiro Kanai, Akira Sakai, Tadashi Sawayama, Yuzo Koda, Takahiro Yajima
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Patent number: 6271055Abstract: A process for forming a deposited film, a process for manufacturing a semiconductor element and a process for manufacturing a photoelectric conversion element are disclosed which each comprises a step of forming a first conductivity type semiconductor layer comprising a non-monocrystalline semiconductor on a substrate, a step of forming a substantially i-type semiconductor layer comprising an amorphous semiconductor on the first conductivity type semiconductor layer, a step of forming a substantially i-type semiconductor layer comprising a microcrystalline semiconductor on the substantially i-type semiconductor layer comprising the amorphous semiconductor while decreasing the film forming rate thereof and a step of forming a second conductivity type semiconductor layer comprising a non-monocrystalline semiconductor on the substantially i-type semiconductor layer comprising the microcrystalline semiconductor.Type: GrantFiled: March 9, 1998Date of Patent: August 7, 2001Assignee: Canon Kabushiki KaishaInventors: Takahiro Yajima, Yasushi Fujioka, Shotaro Okabe, Masahiro Kanai, Hirokazu Ohtoshi, Akira Sakai, Tadashi Sawayama, Yuzo Kohda
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Patent number: 6162988Abstract: The photovoltaic element of the present invention is a photovoltaic element comprised of a semiconductor-junctioned element, characterized in that the element includes a first electrically conductive type semiconductor layer, a non-crystalline i type semiconductor layer, a microcrystalline i type semiconductor layer and a microcrystalline second electrically conductive type semiconductor layer and is pin-junctioned, and a method of and an apparatus for manufacturing the same are characterized by efficiently and continuously mass-producing the photovoltaic element having an excellent current-voltage characteristic and excellent photoelectric conversion efficiency.Type: GrantFiled: September 4, 1997Date of Patent: December 19, 2000Assignee: Canon Kabushiki KaishaInventors: Shotaro Okabe, Yasushi Fujioka, Masahiro Kanai, Akira Sakai, Tadashi Sawayama, Yuzo Kohda, Tadashi Hori, Takahiro Yajima
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Patent number: 6159763Abstract: There is provided a method of forming a photovoltaic element, in which a p-type semiconductor layer is formed in a device for forming a semiconductor thin film having a cathod electrode structure, in which in a plasma discharge space, the surface area of a cathod electrode in a plasma discharge space is larger than the sum of surface areas of a belt-like member and an anode electrode, a potential of said cathod electrode at the time of excitation of glow discharge is positive relative to the belt-like member and the anode electrode, and a separator electrode partially constituting the cathod electrode is configured to have a form of a fin or a block, and an n-type semiconductor layer is formed in a device for forming a semiconductor thin film having a cathod electrode structure of a capacitive-coupling, parallel-plate type.Type: GrantFiled: September 10, 1997Date of Patent: December 12, 2000Assignee: Canon Kabushiki KaishaInventors: Akira Sakai, Yasushi Fujioka, Shotaro Okabe, Masahiro Kanai, Yuzo Kohda, Tadashi Hori, Takahiro Yajima
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Patent number: 6159300Abstract: An apparatus for forming a non-single-crystal semiconductor thin film comprising a film deposition chamber having a film-forming space surrounded by a film deposition chamber wall and a beltlike substrate, and an external chamber surrounding the deposition chamber wall is provided. While the beltlike substrate is moved in a longitudinal direction, a film-forming gas is introduced through a gas supply device into the film-forming space and microwave energy is radiated from a microwave applicator into the film-forming space to induce a microwave plasma, and thereby form a non-single-crystal semiconductor thin film on a surface of the beltlike substrate. A cooling mechanism and a temperature-increasing mechanism are provided to cover a part of an outside surface of the deposition chamber wall. An apparatus for forming a non-single-crystal semiconductor thin film where the gas supply device comprises a gas manifold set apart from the deposition chamber wall is another embodiment.Type: GrantFiled: December 15, 1997Date of Patent: December 12, 2000Assignee: Canon Kabushiki KaishaInventors: Tadashi Hori, Shotaro Okabe, Akira Sakai, Yuzo Kohda, Takahiro Yajima
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Patent number: 6153013Abstract: The deposited-film-forming apparatus of the present invention is an apparatus for forming deposited films while continuously passing a belt-like member through the insides of a plurality of vacuum chambers connected via connecting members and superposingly forming a plurality of different thin films on the surface of the belt-like member by plasma-assisted CVD, wherein the vacuum chambers are fixed to a stand for supporting the vacuum chambers, and a mechanism for relaxing stress acting in the transport direction of the belt-like member, generated in the vacuum chambers by the action of expansion and contraction due to thermal expansion of the vacuum chambers, is provided between each vacuum chamber and each connecting member.Type: GrantFiled: February 14, 1997Date of Patent: November 28, 2000Assignee: Canon Kabushiki KaishaInventors: Akira Sakai, Shotaro Okabe, Masahiro Kanai, Yuzo Kohda, Tadashi Hori, Tomonori Nishimoto, Takahiro Yajima
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Patent number: 5968274Abstract: The present invention aims to provide a continuous forming method and apparatus for functional deposited films having excellent characteristics while preventing any mutual mixture of gases between film forming chambers having different pressures, wherein semiconductor layers of desired conductivity type are deposited on a strip-like substrate within a plurality of film forming chambers, by plasma CVD, while the strip-like substrate is moved continuously in a longitudinal direction thereof through the plurality of film forming chambers connected via gas gates having means for introducing a scavenging gas into a slit-like separation passage, characterized in that at least one of the gas gates connecting the i-type layer film forming chamber for forming the semiconductor junction and the n- or p-type layer film forming chamber having higher pressure than the i-type layer film forming chamber has the scavenging gas introducing position disposed on the n- or p-type layer film forming chamber side off from the centType: GrantFiled: November 20, 1996Date of Patent: October 19, 1999Assignee: Canon Kabushiki KaishaInventors: Yasushi Fujioka, Shotaro Okabe, Masahiro Kanai, Takehito Yoshino, Akira Sakai, Tadashi Hori