Patent application number | Description | Published |
20090294280 | Multilayer Film Forming Method and Multilayer Film Forming Apparatus - A multilayer film formation method enables the formation of a multilayer including a complex oxide layer and having the desired shape of an element without performing an etching process. The method positions a first mask ( | 12-03-2009 |
20090311417 | FILM FORMING METHOD AND FILM FORMING APPARATUS - A film forming method in which crystalline film having PZT ( | 12-17-2009 |
20100000673 | FILM FORMING METHOD AND FILM FORMING APPARATUS - A film forming method in which a crystalline film having PZT (111) as a principal component thereof is laminated on a foundation film having a (111) oriented noble metal as a principal component thereof, the method including the steps of: forming an oxide film whose interplanar spacing is closer to the PZT (111) than to the noble metal, on a surface of the foundation film; and forming the crystalline film on the surface of the foundation film by an MOCVD method. | 01-07-2010 |
20100032290 | METHOD FOR FORMING CHALCOGENIDE FILM AND METHOD FOR MANUFACTURING RECORDING ELEMENT - A method for forming a chalcogenide film within a contact hole formed in an insulating layer on a substrate, includes: preparing a target having a composition the same as that of the chalcogenide film; setting a ratio L/T of a distance L with respect to a diameter T of the target to a value not less than 0.5 and not more than 1.5, where the diameter of the target is T (m) and the distance between the target and the substrate is L (m); and forming a chalcogenide film within the contact hole by a sputtering process in which a bias electric power is applied to the substrate and a sputtering electric power is applied to the target. | 02-11-2010 |
20100038234 | Method for Forming Multilayer Film and Apparatus for Forming Multilayer Film - A multilayer thin film formation method and a multilayer thin film formation apparatus that improve dielectric characteristics and piezoelectric characteristics of a thin film formed from a lead-based perovskite complex oxide. The multilayer thin film formation method includes formation of a lower electrode layer ( | 02-18-2010 |
20100314599 | CHALCOGENIDE FILM AND METHOD OF MANUFACTURING SAME - A chalcogenide film of the invention is formed by a sputtering within a contact hole formed in an insulating layer on a substrate, and is made of a chalcogen compound including a melting-point lowering material that lowers a melting point. | 12-16-2010 |
20110198555 | CHALCOGENIDE FILM AND MANUFACTURING METHOD THEREOF - A chalcogenide film of the present invention is deposited, by sputtering, in a contact hole formed in an insulating layer on a substrate. The chalcogenide film comprises an underlayer film formed at least on a bottom portion of the contact hole and a crystal layer made of a chalcogen compound, and formed onto the underlayer film and in the contact hole. | 08-18-2011 |
20130220799 | METHOD FOR FORMING DIELECTRIC THIN FILM - A method for forming a dielectric thin film that forms a PZT thin film having a (100)/(001) orientation. After a seed layer is formed by adhering PbO gas to a surface of a substrate, a voltage is applied to a target of lead zirconate titanate (PZT) and perform sputtering, while the substrate is heated inside of an evacuated vacuum chamber. Then, a PZT thin film is formed on the surface of the substrate. Because Pb and O are supplied from the seed layer, a PZT film having a (001)/(100) orientation can be formed without lack of Pb. | 08-29-2013 |
20130228453 | DIELECTRIC FILM FORMING APPARATUS AND METHOD FOR FORMING DIELECTRIC FILM - A dielectric film forming apparatus and a method for forming a dielectric film so as to form a dielectric film with a (100)/(001) orientation. A dielectric film forming apparatus includes a deposition preventive plate heating portion that heats a deposition preventive plate disposed in a position where particles discharged from a target adhere. Sputtering gas is introduced from a sputtering gas introduction unit into a vacuum chamber. The deposition preventive plate is heated to a temperature higher than a film forming temperature so as to emit vapor from a thin film adhered to the deposition preventive plate. After a seed layer is formed on a substrate, the substrate is heated to the film forming temperature, and AC voltage is applied to the target from a power supply and then, the target is sputtered so as to form a dielectric film on the substrate. | 09-05-2013 |
Patent application number | Description | Published |
20090048391 | COMPOSITION FOR AQUEOUS COATING MATERIAL AND PROCESS FOR ITS PRODUCTION, AND TWO-COMPONENT CURABLE AQUEOUS COATING MATERIAL KIT - A composition for aqueous coating material which has a low content of an organic solvent and presents little burden on the environment and which is excellent in storage stability. | 02-19-2009 |
20090239993 | AQUEOUS COATING COMPOSITION, PROCESS FOR PRODUCING IT AND TWO-PACK TYPE CURABLE AQUEOUS COATING KIT - To provide an aqueous coating composition which has a low content of an organic solvent, whereby a burden on an environment is small; in which an increase of the molecular weight, gelation, etc. are suppressed; which performs excellent storage stability and provides a coating film having good water permeability/water resistance. | 09-24-2009 |
20100120971 | COMPOSITION FOR AQUEOUS COATING MATERIAL AND PROCESS FOR ITS PRODUCTION, AND TWO-COMPONENT CURABLE AQUEOUS COATING MATERIAL KIT - A composition for aqueous coating material which has a low content of an organic solvent and presents little burden on the environment and which is excellent in storage stability. | 05-13-2010 |
20100190917 | AQUEOUS COATING COMPOSITION, PROCESS FOR PRODUCING IT AND TWO-PACK TYPE CURABLE AQUEOUS COATING KIT - To provide an aqueous coating composition which has a low content of an organic solvent, whereby a burden on an environment is small; in which an increase of the molecular weight, gelation, etc. are suppressed; which performs excellent storage stability and provides a coating film having good water permeability/water resistance. | 07-29-2010 |
Patent application number | Description | Published |
20090129393 | MULTI-PLANE CELL SWITCH FABRIC SYSTEM - Cells which arrive in random sequence from the asynchronously operating exchange parts are restored into the original by a small amount of hardware. Distributing parts as inputs of a switch fabric manage serial numbers continuous for each destination. The distributing part divides an inputted variable length packet into fixed length cells, adds serial numbers corresponding to destinations to the cells, and outputs the cells to the exchange parts. The respective exchange parts deliver the cells to the objected destinations. Alignment parts as outputs of the switch fabric classify the reception cells by the number of the distributing part, and compare an expected serial number managed by the alignment part with a serial number of the destination (alignment part) of the reception cell. An identical one is stored in an aligned FIFO queue, and cells of from a packet start cell to a packet end cell are taken out. | 05-21-2009 |
20090198864 | NETWORK SWITCH AND METHOD OF SWITCHING IN NETWORK - A network switch with a plurality of crossbar switches that is available to suppress increase in the circuit scale is provided. The network switch has: the plurality of crossbar switches that transfer unit data in a specified format; a receiving side transfer unit that transfers data received from a network to the plurality of crossbar switches in the unit data basis; and a plurality of transmitting side transfer units that transmit data transferred from the plurality of crossbar switches to the network. The receiving side transfer sets a consecutive serial number to the unit data in transfer sequence, and distributes the unit data to the plurality of crossbar switches. Each of the plurality of transmitting side transfer units has a plurality of queues for the respective crossbar switches that stores the transferred unit data, and extracts the unit data with smallest serial number of the unit data stored in the queues when all of the queues store the unit data. | 08-06-2009 |
20090252168 | MULTI-PLANE CELL SWITCH FABRIC SYSTEM - A multi-plane cell switch fabric system prevents a decrease of the effective switching capacity when switching the variable-length packets. Distribution units classify input variable-length packets for each address, arranges the packets by a first division length unit, divides the packets into fixed-length cell payloads by a second division length unit that is an integer multiple being twice or more as large as the first division length unit, and forms a fixed-length cell by providing destination information, a source ID, a sequential number, and packet head tail information to each of the cell payloads. The cells are distributed to all the switching units one by one whenever the cells are collected to be the same number as the plural switching units. The reordering units classify the cells, reorder the sequential number in an original order, and reassemble the packets by the packet head tail information of the cell. | 10-08-2009 |
20110228792 | NETWORK SWITCHING DEVICE - Network switching arrangements including: setting an operation mode of a target switching block to a operation mode that is different from an operation mode of a first switching block while the first switching block is handling a switching process, the target switching block being one switching block selected from second switching blocks; performing a switchover process including starting the switching process using the target switching block instead of the first switching block, after completion of setting the operation mode of the target switching block; and copying the switching information held by the first switching block to the target switching block, prior to starting the switching process using the target switching block, after completion of setting the operation mode of the target switching block. | 09-22-2011 |
20140003280 | NETWORK SWITCHING DEVICE | 01-02-2014 |