Patent application number | Description | Published |
20080211349 | Stage Mechanism, Electron Microscope Having the Stage Mechanism and Method of Controlling Positioning of Stage Mechanism - An electron microscope stage mechanism capable of performing high-accuracy positioning while limiting vibration and drift. An ultrasonic motor is used in a stage drive mechanism, and a fixing mechanism capable of increasing stop stiffness is combined integrally with the motor. That is, a structure in which a piezoelectric actuator of the fixing mechanism is mounted in a pre-load mechanism together with the ultrasonic motor is used. When the stage is fixed by the fixing mechanism after acceleration, deceleration and positioning of the stage performed by the drive mechanism, the piezoelectric actuators positioned on opposite sides of the stage are extended to press the stage. | 09-04-2008 |
20080217534 | Scanning Electron Microscope - An object of the present invention is to provide a scanning electron microscope capable of facilitating the cleaning of an electrostatic chuck and also reducing unavailable time due to contamination of the electrostatic chuck. To solve the above problems, there is a proposal of an electron microscope in which a sample is loaded via an auxiliary evacuated chamber in order to carry out measurements and observations using an electron beam, the electron microscope including an electrostatic chuck replacement chamber that is different from the auxiliary evacuated chamber, and a vacuum pump for evacuating the replacement chamber. This configuration eliminates the need to restore a sample chamber to atmospheric pressure for the electrostatic chuck, and also enables effective cleaning of the electrostatic chuck. | 09-11-2008 |
20090236540 | STAGE AND ELECTRON MICROSCOPE APPARATUS - A sample stage for electron microscope according to an embodiment of the invention includes at least two actuators capable of expanding and contracting or capable of swinging for moving a target sample in a predetermined direction. With a coordination of the two actuators, various controls are available by combining the operations of the two actuators. Accordingly, a stage mechanism capable of reducing a stop drift as well as moving a stage can be provided. | 09-24-2009 |
Patent application number | Description | Published |
20120090865 | Method of manufacturing porous ultraviolet curable resin coated wire, porous ultraviolet curable resin coated wire and coaxial cable - A method of manufacturing a porous ultraviolet curable resin coated wire includes (a) preparing an ultraviolet curable resin composition not including a hydrous water absorbent polymer, (b) preparing a hydrous water absorbent polymer-dispersed ultraviolet curable resin composition having a water content of 40% or more by preparing a water-swollen hydrous water absorbent polymer including a water absorbent polymer and water, and then dispersing the hydrous water absorbent polymer into the ultraviolet curable resin composition, (c) forming a two-layer structure on a metal wire by coating the metal wire with the ultraviolet curable resin composition not including the hydrous water absorbent polymer and the hydrous water absorbent polymer, and (d) performing a dehydration on the two-layer structure. | 04-19-2012 |
20120090871 | HYDROUS WATER ABSORBENT POLYMER DISPERSED ULTRAVIOLET CURABLE RESIN COMPOSITION, INSULATED ELECTRIC WIRE USING THE SAME, METHOD FOR PRODUCING THE WIRE, AND COAXIAL CABLE - A hydrous water absorbent polymer dispersed ultraviolet curable resin composition includes an ultraviolet curable resin composition, and a hydrous water absorbent polymer swollen by water beforehand, and dispersed in the ultraviolet curable resin composition so that the hydrous water absorbent polymer dispersed ultraviolet curable resin composition has a moisture content of not less than 50 percent. The water absorption rate of the ultraviolet curable resin composition is not more than 2 percent. | 04-19-2012 |
20140079359 | OPTICAL-ELECTRICAL COMPOSITE CABLE - An optical-electrical composite cable includes an optical fiber, a tubular resin inner cover to enclose the optical fiber, a plurality of electric wires disposed on an outside of the inner cover, and a tubular outer cover to collectively cover the plurality of electric wires. The plurality of electric wires are helically wound around an outer peripheral surface of the inner cover so as to be situated between the inner cover and the outer cover. | 03-20-2014 |
20140211435 | CONDUCTIVE MEMBER CONNECTION STRUCTURE, CONDUCTIVE MEMBER CONNECTION METHOD AND OPTICAL MODULE - A conductive member connection structure includes a connection structure to electrically connect first and second conductive members that are positioned with a gap in between, a first metal member that is melted by heating and is welded to a connecting surface of the first conductive member and to a connecting surface of the second conductive member, and a second metal member that has a higher melting point than the first metal member and is covered with the first metal member without being melted by the heating. The second metal member is configured so as to prevent the first metal member from flowing out in a molten state thereof. | 07-31-2014 |
20140338951 | TERMINATION STRUCTURE, TERMINATION METHOD AND TERMINATION TERMINAL FOR HIGH-SPEED TRANSMISSION LINE - A termination structure for high-speed transmission line includes a high-speed transmission line including a signal line configured to transmit a signal, an insulation which covers the signal line and an external conductor disposed at an outer periphery of the insulation, and a termination terminal disposed at a terminal of the high-speed transmission line. The termination terminal includes a holder disposed sandwiching the external conductor exposed at the terminal of the high-speed transmission line from both sides. The holder includes a holding part to hold the high-speed transmission line and is electrically connected to the external conductor. The holding part is formed so as to have a shape along an outer shape of the external conductor. | 11-20-2014 |
20150041177 | OPTICAL-ELECTRIC COMPOSITE CABLE - An optical-electric composite cable includes an optical fiber, an inner tubular cover enclosing the optical fiber, a plurality of electric wires arranged outside the inner tubular cover, a binding member collectively bundling the plurality of electric wires, and an outer tubular cover covering an outer periphery of the binding member. A gap exists between the binding member and the outer tubular cover. | 02-12-2015 |
20150371736 | MULTIPAIR CABLE - A multipair cable includes an inner layer part including two differential signal transmission cables for an inner layer that are twisted together, a press winding tape wound around a periphery of the inner layer part, and an outer layer part including a plurality of differential signal transmission cables for an outer layer that are wound around an outer periphery of the press winding tape. The inner layer part further includes a buffer tape disposed between the two differential signal transmission cables. | 12-24-2015 |
Patent application number | Description | Published |
20090275644 | Novel adaptor protein that binds to mammalian toll-like receptor 3 and gene thereof - A novel adaptor protein and its gene are provided. The novel adaptor protein has a property of binding to mammalian Toll-like receptor 3, which controls type I interferon production that is effective for prevention/treatment of viral infectious disease such as hepatitis B, hepatitis C, and the like, treatment of tumors, and the other purposes. Novel adaptor protein TICAM-1, which has an amino acid sequence set forth in SEQ ID NO: 2 or 4, specifically binds to the mammalian Toll-like receptor 3 and induces production of type I interferon. A mutant of the adaptor protein TICAM-1 has similar properties, provided that it has TIR domain (an amino acid sequence ranging from 394-position to 532-position in the amino acid sequence set forth in SEQ ID NO: 2 or an amino acid sequence ranging 396-position to 534-position in the amino acid sequence set forth in SEQ ID NO: 4). The gene is a gene encoding the adaptor protein TICAM-1. | 11-05-2009 |
20100087510 | Novel Adaptor protein that binds to mammalian toll-like receptor 3 and gene thereof - A novel adaptor protein and its gene are provided. The novel adaptor protein has a property of binding to mammalian Toll-like receptor 3, which controls type I interferon production that is effective for prevention/treatment of viral infectious disease such as hepatitis B, hepatitis C, and the like, treatment of tumors, and the other purposes. Novel adaptor protein TICAM-1, which has an amino acid sequence set forth in SEQ ID NO: 2 or 4, specifically binds to the mammalian Toll-like receptor 3 and induces production of type I interferon. A mutant of the adaptor protein TICAM-1 has similar properties, provided that it has TIR domain (an amino acid sequence ranging from 394-position to 532-position in the amino acid sequence set forth in SEQ ID NO: 2 or an amino acid sequence ranging 396-position to 534-position in the amino acid sequence set forth in SEQ ID NO: 4). The gene is a gene encoding the adaptor protein TICAM-1. | 04-08-2010 |
20130178611 | Novel Nucleic Acid Having Adjuvanticity and Use Thereof - The disclosed nucleic acid at least containing a single-stranded DNA to be delivered to endosomes of dendritic cells and a double-stranded RNA capable of activating TLR3 can be delivered to endosomal TLR3 and has a strong adjuvanticity with few side effects, and therefore is useful as an active ingredient of immunostimulants, vaccine adjuvants, cancer therapeutic agents and the like. | 07-11-2013 |
Patent application number | Description | Published |
20090321252 | Sulfuric acid electrolytic cell and a sulfuric acid recycle type cleaning system applying the sulfuric acid electrolytic cell - In a sulfuric acid electrolytic cell to electrolyze sulfuric acid supplied to an anode compartment and a cathode compartment comprising a diaphragm, said anode compartment and said cathode compartment separated by said diaphragm, a cathode provided in said cathode compartment and a conductive diamond anode provided in said anode compartment, as said conductive diamond anode, a conductive diamond film is formed on the surface of said conductive substrate, the rear face of said conductive substrate is pasted, with conductive paste, on an current collector comprising a rigid body with size equal to, or larger than, said conductive substrate, an anode compartment frame constituting said anode compartment is contacted via gasket with the periphery on the side of the conductive diamond film of said diamond anode, said diaphragm is contacted with the front face of said anode compartment, further, with the front face of said diaphragm, the cathode compartment frame constituting said cathode compartment, a gasket, and said cathode are contacted in sequence, the rear face of said cathode is pasted with conductive paste to the current collector comprising a rigid body with size equal to, or larger than, said cathode and electric power is supplied from one current collector to the other current collector via said conductive paste. | 12-31-2009 |