Patents by Inventor Hajime Yamanaka
Hajime Yamanaka 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: 11925046Abstract: Provided is a light-emitting device including an organic light-emitting element and a control unit that controls the organic light-emitting element. The organic light-emitting element includes a first electrode, a second electrode, and an organic light-emitting layer which is disposed between the first electrode and the second electrode and in which separation of charges occurs due to incidence of excited light. The control unit changes a potential difference between the first electrode and the second electrode so that recoupling of the charges occurs, in a second period after passage of a delay period from a first period in which the excited light is incident to the organic light-emitting layer.Type: GrantFiled: July 29, 2020Date of Patent: March 5, 2024Assignees: KYUSHU UNIVERSITY, NATIONAL UNIVERSITY CORPORATION, HAMAMATSU PHOTONICS K.K.Inventors: Chihaya Adachi, Hajime Nakanotani, Takahiko Yamanaka, Shigeo Hara, Toru Hirohata
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Patent number: 9938620Abstract: A gas supply mechanism of supplying a raw material gas obtained from a raw material of a solid state or a liquid state into a chamber configured to perform a film forming process on a workpiece is disclosed. The gas supply mechanism includes a gas supply controller configured to control a flow rate of a carrier gas by means of a flow rate controller, and to enable the carrier gas to flow while closing a material gas supply/shut-off valve to thereby increase internal pressures of a raw material container and a raw material gas supply pipe to be a high-pressure condition and then control the raw material gas supply/shut-off valve to be opened.Type: GrantFiled: March 26, 2015Date of Patent: April 10, 2018Assignee: TOKYO ELECTRON LIMITEDInventors: Masayuki Moroi, Hajime Yamanaka, Yasushi Aiba, Takanobu Hotta
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Patent number: 9777377Abstract: STEP 1 (Pressure increasing step) increases pressure within a raw material container to first pressure by supplying carrier gas to the inside of the raw material container by PCV. STEP 2 (Pressure decreasing step) decreases the pressure within the raw material container to second pressure by operating an exhaust device and discarding the raw material gas from a raw material gas supply pipe via an exhaust bypass pipe. STEP 3 (Stabilization step) stabilizes the vaporization efficiency for vaporizing the raw material inside the raw material container by operating the exhaust device and discarding the raw material gas while introducing the carrier gas into the raw material container. STEP 4 (Film forming step) supplies the raw material gas to the inside of the processing container via the raw material gas supply pipe and deposits a thin film on a wafer by CVD.Type: GrantFiled: June 11, 2013Date of Patent: October 3, 2017Assignee: TOKYO ELECTRON LIMITEDInventors: Shigeyuki Okura, Hajime Yamanaka
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Publication number: 20150275367Abstract: A gas supply mechanism of supplying a raw material gas obtained from a raw material of a solid state or a liquid state into a chamber configured to perform a film forming process on a workpiece is disclosed. The gas supply mechanism includes a gas supply controller configured to control a flow rate of a carrier gas by means of a flow rate controller, and to enable the carrier gas to flow while closing a material gas supply/shut-off valve to thereby increase internal pressures of a raw material container and a raw material gas supply pipe to be a high-pressure condition and then control the raw material gas supply/shut-off valve to be opened.Type: ApplicationFiled: March 26, 2015Publication date: October 1, 2015Inventors: Masayuki MOROI, Hajime YAMANAKA, Yasushi AIBA, Takanobu HOTTA
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Publication number: 20150152557Abstract: STEP 1 (Pressure increasing step) increases pressure within a raw material container to first pressure by supplying carrier gas to the inside of the raw material container by PCV. STEP 2 (Pressure decreasing step) decreases the pressure within the raw material container to second pressure by operating an exhaust device and discarding the raw material gas from a raw material gas supply pipe via an exhaust bypass pipe. STEP 3 (Stabilization step) stabilizes the vaporization efficiency for vaporizing the raw material inside the raw material container by operating the exhaust device and discarding the raw material gas while introducing the carrier gas into the raw material container. STEP 4 (Film forming step) supplies the raw material gas to the inside of the processing container via the raw material gas supply pipe and deposits a thin film on a wafer by CVD.Type: ApplicationFiled: June 11, 2013Publication date: June 4, 2015Applicant: TOKYO ELECTRON LIMITEDInventors: Shigeyuki Okura, Hajime Yamanaka
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Patent number: 7755852Abstract: A molding material is heated and pressed plural times when molded is an optical element having a radius of curvature smaller than a radius of a sphere having the same volume as the optical element. When such an optical element is molded, a closed space is formed between a molding material and a transfer surface of a mold in a state where the molding material is placed thereon. Thus, an appearance defect such as a recess is easily generated on the molded optical element. However, since the molding material is molded plural times, it is possible to place the molding materials on the transfer surfaces of the molds after a size of the closed space is adjusted so as not to generate the appearance defect prior to each heating/pressing process. Thereby, it is possible to suppress generation of an appearance defect in the molded optical element.Type: GrantFiled: July 29, 2008Date of Patent: July 13, 2010Assignee: Fujinon CorporationInventors: Toshiaki Katsuma, Hajime Yamanaka
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Publication number: 20090052056Abstract: A molding material is heated and pressed plural times when molded is an optical element having a radius of curvature smaller than a radius of a sphere having the same volume as the optical element. When such an optical element is molded, a closed space is formed between a molding material and a transfer surface of a mold in a state where the molding material is placed thereon. Thus, an appearance defect such as a recess is easily generated on the molded optical element. However, since the molding material is molded plural times, it is possible to place the molding materials on the transfer surfaces of the molds after a size of the closed space is adjusted so as not to generate the appearance defect prior to each heating/pressing process. Thereby, it is possible to suppress generation of an appearance defect in the molded optical element.Type: ApplicationFiled: July 29, 2008Publication date: February 26, 2009Inventors: Toshiaki KATSUMA, Hajime YAMANAKA
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Publication number: 20090052058Abstract: An optical element is molded by placing at least two glass materials between a pair of molding dies having optical-function transfer surfaces, a total volume of the two glass materials being same as that of the optical element, the two glass materials being made of a same material and being formed to individually come in contact with centers of the optical-function transfer surfaces when they are pressed; and by heating and pressing the glass materials using the pair of molding dies. Thereby, closed spaces are not formed between the optical-function transfer surfaces and the glass materials coming in contact with the centers of the optical-function transfer surfaces. Therefore, it is possible to reduce a load of the molding process while preventing an appearance defect of the optical element by applying just a single cycle of a placing process, a transferring (heating and pressing) process and a cooling process.Type: ApplicationFiled: July 29, 2008Publication date: February 26, 2009Inventor: Hajime YAMANAKA
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Patent number: 7365508Abstract: A motor comprises: coil on/off switching devices for switching between an on-state wherein current is supplied to the coils, and a first off-state wherein the coil terminals are open-circuited or a second off-state wherein the coil terminals are short-circuited; and a coil current control device for controlling switching operations of the coil on/off switching devices according to commands input to the motor. In the event that motor movement with great mechanical compliance is required, the ratio of the period of the first off-state is increased, and on the other hand, in the event that motor movement with great viscosity resistance is required, the ratio of the period of the second off-state is increased. This solves the problems of torque loss and cogging during a period wherein no current is applied to the coil.Type: GrantFiled: November 28, 2003Date of Patent: April 29, 2008Assignee: Sony CorporationInventors: Masatsugu Iribe, Hajime Yamanaka, Yoshihiro Itoh, Shinya Suzuki
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Patent number: 7065985Abstract: A molding die for an optical element with a lens-barrel in which the lens-barrel is set in the molding die includes a tubular guide die, a upper die and a lower die sliding in the guide die Also an optical raw material is placed in the lens-barrel and the optical element is sandwiched, heated and pressurized between the upper die having a transfer surface and the lower die having a transfer surface, thereby integrally forming the optical element in the lens-barrel. Outside diameter portions designed to be equal to the inner diameter of the guide die are provided for the upper die and lower die, wherein the outside diameter portion is fitted in the guide die so as to be able to slide only in the axial direction.Type: GrantFiled: September 17, 2002Date of Patent: June 27, 2006Assignee: Fujinon CorporationInventor: Hajime Yamanaka
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Publication number: 20060098295Abstract: A method for forming an optical element having a rotationally asymmetric optically functional surface from an optical block comprises the steps of putting a polygonal optical block chamfered at respective corners in a cavity formed between upper and lower moulds, advancing the upper and lower moulds to each other so as to bring a rotationally asymmetric transfer surface of the mold into contact with a center of the block, and pressing the block between the upper and lower moulds from the center toward a periphery of the block so as thereby to transfer the rotationally asymmetric transfer surface to the block.Type: ApplicationFiled: October 31, 2005Publication date: May 11, 2006Inventor: Hajime Yamanaka
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Patent number: 6998809Abstract: To appropriately detect overload which may break a motor or deform a body and reduce the overload in the motor. The DC component of a load torque is derived from the sum of absolute values of a torque applied to a link connected to the output shaft of a motor and the generated torque of the motor, and it is determined that overload has been applied when the DC component exceeds a first threshold value for a prescribed period of time or longer. In addition, considering such a characteristic that the variation of energy applied to the output shaft of a motor is in proportion to a product of the torque and the angular velocity of the motor, the AC component of the load torque is detected based on the variation of energy, and it is predicted that overload will be applied when the AC component exceeds a second threshold value.Type: GrantFiled: April 5, 2005Date of Patent: February 14, 2006Assignee: Sony CorporationInventors: Masatsugu Iribe, Hajime Yamanaka
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Patent number: 6995535Abstract: To appropriately detect overload which may break a motor or deform a body and reduce the overload in the motor. The DC component of a load torque is derived from the sum of absolute values of a torque applied to a link connected to the output shaft of a motor and the generated torque of the motor, and it is determined that overload has been applied when the DC component exceeds a first threshold value for a prescribed period of time or longer. In addition, considering such a characteristic that the variation of energy applied to the output shaft of a motor is in proportion to a product of the torque and the angular velocity of the motor, the AC component of the load torque is detected based on the variation of energy, and it is predicted that overload will be applied when the AC component exceeds a second threshold value.Type: GrantFiled: April 5, 2005Date of Patent: February 7, 2006Assignee: Sony CorporationInventors: Masatsugu Iribe, Hajime Yamanaka
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Patent number: 6989645Abstract: To appropriately detect overload which may break a motor or deform a body and reduce the overload in the motor. The DC component of a load torque is derived from the sum of absolute values of a torque applied to a link connected to the output shaft of a motor and the generated torque of the motor, and it is determined that overload has been applied when the DC component exceeds a first threshold value for a prescribed period of time or longer. In addition, considering such a characteristic that the variation of energy applied to the output shaft of a motor is in proportion to a product of the torque and the angular velocity of the motor, the AC component of the load torque is detected based on the variation of energy, and it is predicted that overload will be applied when the AC component exceeds a second threshold value.Type: GrantFiled: April 5, 2005Date of Patent: January 24, 2006Assignee: Sony CorporationInventors: Masatsugu Iribe, Hajime Yamanaka
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Patent number: 6987374Abstract: To appropriately detect overload which may break a motor or deform a body and reduce the overload in the motor. The DC component of a load torque is derived from the sum of absolute values of a torque applied to a link connected to the output shaft of a motor and the generated torque of the motor, and it is determined that overload has been applied when the DC component exceeds a first threshold value for a prescribed period of time or longer. In addition, considering such a characteristic that the variation of energy applied to the output shaft of a motor is in proportion to a product of the torque and the angular velocity of the motor, the AC component of the load torque is detected based on the variation of energy, and it is predicted that overload will be applied when the AC component exceeds a second threshold value.Type: GrantFiled: April 5, 2005Date of Patent: January 17, 2006Assignee: Sony CorporationInventors: Masatsugu Iribe, Hajime Yamanaka
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Patent number: 6979969Abstract: To appropriately detect overload which may break a motor or deform a body and reduce the overload in the motor. The DC component of a load torque is derived from the sum of absolute values of a torque applied to a link connected to the output shaft of a motor and the generated torque of the motor, and it is determined that overload has been applied when the DC component exceeds a first threshold value for a prescribed period of time or longer. In addition, considering such a characteristic that the variation of energy applied to the output shaft of a motor is in proportion to a product of the torque and the angular velocity of the motor, the AC component of the load torque is detected based on the variation of energy, and it is predicted that overload will be applied when the AC component exceeds a second threshold value.Type: GrantFiled: April 5, 2005Date of Patent: December 27, 2005Assignee: Sony CorporationInventors: Masatsugu Iribe, Hajime Yamanaka
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Patent number: 6965210Abstract: To appropriately detect overload which may break a motor or deform a body and reduce the overload in the motor. The DC component of a load torque is derived from the sum of absolute values of a torque applied to a link connected to the output shaft of a motor and the generated torque of the motor, and it is determined that overload has been applied when the DC component exceeds a first threshold value for a prescribed period of time or longer. In addition, considering such a characteristic that the variation of energy applied to the output shaft of a motor is in proportion to a product of the torque and the angular velocity of the motor, the AC component of the load torque is detected based on the variation of energy, and it is predicted that overload will be applied when the AC component exceeds a second threshold value.Type: GrantFiled: March 21, 2005Date of Patent: November 15, 2005Assignee: Sony CorporationInventors: Masatsugu Iribe, Hajime Yamanaka
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Patent number: 6956346Abstract: To appropriately detect overload which may break a motor or deform a body and reduce the overload in the motor. The DC component of a load torque is derived from the sum of absolute values of a torque applied to a link connected to the output shaft of a motor and the generated torque of the motor, and it is determined that overload has been applied when the DC component exceeds a first threshold value for a prescribed period of time or longer. In addition, considering such a characteristic that the variation of energy applied to the output shaft of a motor is in proportion to a product of the torque and the angular velocity of the motor, the AC component of the load torque is detected based on the variation of energy, and it is predicted that overload will be applied when the AC component exceeds a second threshold value.Type: GrantFiled: March 21, 2005Date of Patent: October 18, 2005Assignee: Sony CorporationInventors: Masatsugu Iribe, Hajime Yamanaka
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Patent number: 6956345Abstract: To appropriately detect overload which may break a motor or deform a body and reduce the overload in the motor. The DC component of a load torque is derived from the sum of absolute values of a torque applied to a link connected to the output shaft of a motor and the generated torque of the motor, and it is determined that overload has been applied when the DC component exceeds a first threshold value for a prescribed period of time or longer. In addition, considering such a characteristic that the variation of energy applied to the output shaft of a motor is in proportion to a product of the torque and the angular velocity of the motor, the AC component of the load torque is detected based on the variation of energy, and it is predicted that overload will be applied when the AC component exceeds a second threshold value.Type: GrantFiled: December 10, 2003Date of Patent: October 18, 2005Assignee: Sony CorporationInventors: Masatsugu Iribe, Hajime Yamanaka
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Publication number: 20050184697Abstract: To appropriately detect overload which may break a motor or deform a body and reduce the overload in the motor. The DC component of a load torque is derived from the sum of absolute values of a torque applied to a link connected to the output shaft of a motor and the generated torque of the motor, and it is determined that overload has been applied when the DC component exceeds a first threshold value for a prescribed period of time or longer. In addition, considering such a characteristic that the variation of energy applied to the output shaft of a motor is in proportion to a product of the torque and the angular velocity of the motor, the AC component of the load torque is detected based on the variation of energy, and it is predicted that overload will be applied when the AC component exceeds a second threshold value.Type: ApplicationFiled: April 5, 2005Publication date: August 25, 2005Applicant: Sony CorporationInventors: Masatsugu Iribe, Hajime Yamanaka