35th week of 2015 patent applcation highlights part 57 |
Patent application number | Title | Published |
20150243399 | CONDUCTIVE FILM, METHOD FOR PRODUCING THE SAME AND ARRAY SUBSTRATE COMPRISING THE SAME - A conductive film, a method for producing the same and an array substrate comprising the same are provided, so that copper atoms can be efficiently prevented from diffusing into an adjacent semiconductor layer or interlaminated insulation film. The conductive film comprises a base film made of copper or copper alloy, in which hydrogen and/or carbon atoms are distributed. | 2015-08-27 |
20150243400 | FINE SILVER PARTICLE POWDER, METHOD FOR MANUFACTURING THE SAME, SILVER PASTE USING THE POWDER AND METHOD OF USE OF THE PASTE - A method suitable for mass production of nanoparticles with a uniform particle diameter is provided. It is an object to provide a powder of the nanoparticle obtained by this method, a dispersion containing the nanoparticles, and a paste containing the nanoparticles. There is provided a method for manufacturing silver particles including the step of reducing silver in a silver solution containing a protective agent composed of an organic material and a copper component in an amount of 1 to 1,000 ppm relative to the amount of silver to obtain particles having an average particle diameter (D | 2015-08-27 |
20150243401 | CONDUCTOR, AND ELECTRIC WIRE AND CABLE USING THE SAME - A conductor includes a copper alloy including crystal grains. The crystal grains include a first crystal grain group having a grain size larger than a predetermined standard grain size and a second crystal grain group having a grain size smaller than the predetermined standard grain size. The crystal grains have a local maximum value of grain size distribution in each of the first crystal grain group and the second crystal grain group. | 2015-08-27 |
20150243402 | NANOPARTICLE MULTILAYER FILM - A nanoparticle multilayer thin film is provided in which nanoparticles which are not electrically insulated from each other are spaced apart from one another at a reduced distance. The nanoparticle multilayer film includes: at least one first nanoparticle layer including first nanoparticles that are surface-modified with a cationic metal-chalcogenide compound; and at least one second nanoparticle layer including second nanoparticles that are surface-modified with an anionic metal-chalcogenide compound, wherein the first nanoparticle layer and the second nanoparticle layer are alternately stacked upon one another. | 2015-08-27 |
20150243403 | FINE POWDER OF TRANSPARENT AND ELECTRIC CONDUCTIVE OXIDE COMPOSITES AND PRODUCTION METHOD THEREOF AND TRANSPARENT ELECTRIC CONDUCTIVE FILM - Fine powder of transparent conductive oxide composites is obtained by covering a surface of a rod-like rutile-type titanium oxide particle having a long axis diameter of 0.05 μm or higher and 0.15 μm or lower, a short axis diameter of 0.01 μm or higher and lower than 0.03 μm, and an axis ratio of 5 or higher, with a doped tin oxide using a wet method, wherein antimony is doped at 10 to 25 wt % as Sb against SnO | 2015-08-27 |
20150243404 | Polydimethylsiloxane (PDMS) Based Composite and Synthesis Method Thereof - A PDMS-based composite and a synthesis method thereof are disclosed. The PDMS-based composite comprises a PDMS gel and a plurality of conducting particles distributed within the PDMS gel. The weight percentage of the conducting particles in the PDMS-based composite is in the range of 86% to 91%. The synthesis method comprises the steps of: wetting a plurality of conducting particles using a low flash point solvent; mixing the wetted conducting particles with a PDMS gel; evaporating the low flash point solvent to form a mixture; and curing the mixture to form the product per se. | 2015-08-27 |
20150243405 | TRANSPARENT CONDUCTIVE LAMINATE - A transparent conductive laminate comprising a substrate comprising a thermoplastic resin A, and a layer laminated on one surface of the substrate, the layer having at least carbon nanotubes and a thermoplastic resin B, wherein the transparent conductive laminate undergoes a surface resistance change (VR | 2015-08-27 |
20150243406 | Non-Oleic Triglyceride Based, Low Viscosity, High Flash Point Dielectric Fluids - A vegetable-based dielectric fluid comprising in weight percent of triglycerides based on the weight of the fluid: A. Greater than 0 to 100% of at least one of C14:1 or C16:1 fatty acids; and at least one of: B. No more than (≦) 10% of C18:1 fatty acids; C. No more than (≦) 12% of one or more polyunsaturated fatty acids; and D. No more than (≦) 7% of one or more saturated fatty acids. The dielectric fluid is a useful transformer oil. | 2015-08-27 |
20150243407 | Oleic and Medium Chain Length Triglyceride Based, Low Viscosity, High Flash Point Dielectric Fluids - A dielectric fluid comprising in weight percent based on the weight of the composition: A. 30 to 70% C18:1 fatty acids; B. 10 to 55% of a mixture of C8 and C10 fatty acids in which the mixture comprises 50 to 70 wt %, based on the weight of the mixture, of C8 fatty acids; C. No more than 13% polyunsaturated fatty acids; and D. No more than 7% of saturated fatty acids of which each contains at least 12 carbon atoms. | 2015-08-27 |
20150243408 | SILVER-PLATED PRODUCT AND METHOD FOR PRODUCING SAME - There is provided a silver-plated product which has a good bendability and which can restrain the rise of the contact resistance thereof even if it is used in a high-temperature environment, and a method for producing the same. In a silver-plated product wherein a surface layer of silver is formed on the surface of a base material of copper or a copper alloy, or on the surface of an underlying layer of copper or a copper alloy formed on the base material, the percentage of an X-ray diffraction intensity on {200} plane of the surface layer with respect to the sum of X-ray diffraction intensities on {111}, {200}, {220} and {311} planes of the surface layer is 40% or more. | 2015-08-27 |
20150243409 | INSULATED WINDING WIRE CONTAINING SEMI-CONDUCTIVE LAYERS - An insulated winding wire may include a conductor and a plurality of adjacent layers of semi-conductive material formed around the conductor. First and second layers of semi-conductive material included in the plurality of adjacent layers may have different conductivities. For example a first layer of semi-conductive material may have a first conductivity, and a second layer of semi-conductive material may have a second conductivity lower than the first conductivity. Additionally, at least one layer of insulation material may be formed around the conductor, for example, on the second layer of semi-conductive material. | 2015-08-27 |
20150243410 | Insulated Winding Wire - An insulated winding wire may include a conductor and insulation formed around the conductor. The insulation may include a base insulation layer formed around the conductor and having a first dielectric constant (∈ | 2015-08-27 |
20150243411 | COOLING APPARATUS FOR ELECTRICAL WIRE - Described are electrical wires accommodated inside a shield tube to be cooled down. A plurality of electrical wires | 2015-08-27 |
20150243412 | CHIP COMPONENT AND PRODUCTION METHOD THEREFOR - A chip part according to the present invention includes a substrate having a front surface and a side surface, an electrode integrally formed on the front surface and the side surface so as to cover an edge portion of the front surface of the substrate, and an insulating film interposed between the electrode and the substrate. A circuit assembly according to the present invention includes the chip part according to the present invention and a mounting substrate having a land, bonded by solder to the electrode, on a mounting surface facing the front surface of the substrate. | 2015-08-27 |
20150243413 | Solid-State Resistor for Pulsed Power Machines - A flexible solid-state resistor comprises a string of ceramic resistors that can be used to charge the capacitors of a linear transformer driver (LTD) used in a pulsed power machine. The solid-state resistor is able to absorb the energy of a switch prefire, thereby limiting LTD cavity damage, yet has a sufficiently low RC charge time to allow the capacitor to be recharged without disrupting the operation of the pulsed power machine. | 2015-08-27 |
20150243414 | MAGNETOELECTRIC CHROMIA HAVING INCREASED CRITICAL TEMPERATURE - A magnetoelectric composition of boron and chromia is provided. The boron and chromia alloy can contain boron doping of 1%-10% in place of the oxygen in the chromia. The boron-doped chromia exhibits an increased critical temperature while maintaining magnetoelectric characteristics. The composition can be fabricated by depositing chromia in the presence of borane. The boron substitutes oxygen in the chromia, enhancing the exchange energy and thereby increasing Neel temperature. | 2015-08-27 |
20150243415 | Method for manufacturing NdFeB rare earth permanent magnet containing Ce - A method for manufacturing a NdFeB rare earth permanent magnet containing Ce whose raw material includes a Ce-LR-Fe—B-Ma alloy, a Ce-HR-Fe—B-Mb alloy, and metallic oxide micro-powder; wherein the LR at least includes Nd and Pr, and the LR does not include Ce; wherein the HR at least includes Dy or Tb, and the HR does not include Ce; wherein the Ma is selected from a group consisting of Al, Co, Nb, Ga, Zr and Cu; wherein the Mb is selected from a group consisting of Al, Co, Nb, Ga, Zr, Cu and Mo; includes steps of: melting the Ce-LR-Fe—B-Ma alloy, melting the Ce-HR-Fe—B-Mb alloy, providing hydrogen decrepitating, adsorbing with the metallic oxide micro-powder and powdering, providing magnetic field pressing, sintering and ageing, for forming a NdFeB rare earth permanent magnet. | 2015-08-27 |
20150243416 | Method for manufacturing high-performance NdFeB rare earth permanent magnetic device - A method for manufacturing a high-performance NdFeB rare earth permanent magnetic device which is made of an R—Fe—Co—B-M strip casting alloy, a micro-crystal HR—Fe alloy fiber, and T | 2015-08-27 |
20150243417 | Method and equipment for processing NdFeB rare earth permanent magnetic alloy with hydrogen pulverization - A method and an equipment for processing NdFeB rare earth permanent magnetic alloy with a hydrogen pulverization are provided. The method includes steps of: providing a continuous hydrogen pulverization equipment; while driving by a transmission device, passing a charging box loaded with rare earth permanent magnetic alloy flakes orderly through a hydrogen absorption chamber, having a temperature of 50-350° C. for absorbing hydrogen, a heating and dehydrogenizing chamber, having a temperature of 600-900° C. for dehydrogenating, and a cooling chamber of the continuous hydrogen pulverization equipment; receiving the charging box by a discharging chamber through a discharging valve; pouring out the alloy flakes after the hydrogen pulverization into a storage tank at a lower part of the discharging chamber; sealing up the storage tank under a protection of nitrogen; and, moving the charging box out through a discharging door of the discharging chamber and re-loading, for repeating the previous steps. | 2015-08-27 |
20150243418 | Hot Rolled Silicon Steel Producing Method - A hot rolled silicon steel producing method comprises: silicon steel slab heating process, rough rolling process and finish rolling process. The heating process comprises a pre-heating stage, a heating stage and a soaking stage. The pre-heating stage satisfies the following formula (1). In the formula, VTp is a temperature increasing rate, in the pre-heating stage, whose unit is ° C./min; t is a total heating time of the slab in the heating furnace, and t=180-240 min; and Tc is an initial temperature when the slab is put into the furnace, whose unit is ° C. By using the foregoing formula, the heating process and the rough rolling process are changed, an occurrence rate of edge defects during the production of the hot rolled silicon steel can be reduced, and the hot rolled silicon steel with good surface quality can be produced. | 2015-08-27 |
20150243419 | METHOD FOR PRODUCING GRAIN-ORIENTED ELECTRICAL STEEL SHEET - In a method for producing a grain-oriented electrical steel sheet by hot rolling a steel slab containing, in terms of mass %, C: 0.001˜0.20%, Si: 1.0˜5.0%, Mn: 0.03˜1.0%, one or two of S and Se: 0.005˜0.040% in total, sol. Al: 0.003˜0.050% and N: 0.0010˜0.020%, subjecting to a cold rolling to a final thickness and to a primary recrystallization annealing, applying an annealing separator composed mainly of MgO and then subjecting to final annealing, a heating rate S | 2015-08-27 |
20150243420 | SOFT MAGNETIC MIXED POWDER - Provided is soft magnetic powder used to manufacture a dust core having good mechanical strength and superior formability while iron loss is reduced. The soft magnetic powder for dust cores according to the invention is soft magnetic mixed powder that includes pure iron powder and soft magnetic iron-base alloy powder, wherein the proportion of the soft magnetic iron-base alloy powder in the mixture is 5 to 60 mass %, the ratio of the modes of the particle size distributions of the soft magnetic iron-base alloy powder and the pure iron powder ((the mode of the particle size distribution of the soft magnetic iron-base alloy powder)/(the mode of the particle size distribution of the pure iron powder)) is 0.9 or more and less than 5, and the ratio R | 2015-08-27 |
20150243421 | ULTRAFINE-CRYSTALLINE ALLOY RIBBON, FINE-CRYSTALLINE, SOFT-MAGNETIC ALLOY RIBBON, AND MAGNETIC DEVICE COMPRISING IT - An ultrafine-crystalline alloy ribbon having a composition represented by the general formula of Fe | 2015-08-27 |
20150243422 | ROTARY RESISTANCE DEVICE - A rotary resistance device providing resistance to rotary object includes a magnetic field generating assembly having a magnetizable main body, an even number of magnetizable extended bodies, magnetizable coils and separators, two first caps, and two shaft sections; a magnetizable outer cylinder enclosing the magnetic field generating assembly therein and rotatably connected to the shaft sections; and a magnetorheological fluid filled in a space formed between the magnetic field generating assembly and the magnetizable outer cylinder. The magnetizable extended bodies have the magnetizable coils wound thereon and are radially equally spaced on the magnetizable main body; the separators are respectively connected to between two adjacent magnetizable extended bodies; the first caps are closed onto two ends of the assembled magnetizable main body, magnetizable extended bodies and separators to seal the magnetizable coils in the magnetic field generating assembly; and the shaft sections are fixedly connected to the first caps. | 2015-08-27 |
20150243423 | SUPERCONDUCTING MAGNET OPERATING IN OCCASIONAL IDLING MODE - Methods and systems are disclosed for saving energy while a superconducting magnet system is not being used and for reducing the time required for the re-establishment of the operating conditions of the system. Traditionally, during an inactive time interval, the temperature of the magnet coils is not allowed to rise, and the system is kept ON, in operating conditions. This results in wasting a large amount of energy for keeping the magnet coils at cryogenic temperatures. Turning the system OFF has never been an option since re-establishment of the operating conditions is very time consuming and costly. The present disclosure offers methods and systems that allow idling of a system in temperatures higher than the magnet coils' intended operating temperature, which results in noticeable savings. | 2015-08-27 |
20150243424 | MAGNETIC DEVICE - According to one embodiment, a magnetic device includes a first extending magnetic portion, a first conductive portion, a first inserted magnetic portion, and a first intermediate portion. The first extending magnetic portion is conductive, and includes a first magnetic region and a second magnetic region. The first magnetic region extends in a first extending direction, includes a first part, and has a first magnetization being changeable. The second magnetic region extends in the first extending direction, having a magnetization being changeable and different form the first magnetization. The first conductive portion is provided apart from the first part in a stacking direction intersecting the first extending direction. The first inserted magnetic portion is provided between the first conductive portion and the first part, and has a second magnetization being changeable. The first intermediate portion is provided between the first part and the first inserted magnetic portion. | 2015-08-27 |
20150243425 | AGGREGATION AND CONTROL OF MAGNETO-RESPONSIVE ENTITIES - Applicants have discovered a novel apparatus and method to aggregate and displace a plurality of magneto-responsive entities (steerable self-propelled entities or SSPEs) in three dimensions using time-multiplexing. The apparatus for controlling aggregation of SSPEs in a body comprises at least three sets of magnetic field sources arranged in three axes for generating a controlled magnetic field and a controller connected to at least one of said magnetic field sources to create a three dimensional convergence point. The method for aggregating the entities can comprise using a first set and a second set of said magnetic field sources to generate opposed magnetic field gradients in each said set to cause aggregation of said magneto-responsive entities in two axes and wherein the controller is configured to reverse a direction of said magnetic field gradient in a third set of magnetic field sources in a third axis according to a first pre-determined program. | 2015-08-27 |
20150243426 | Coupling with Solenoid Release Locking Mechanism - A solenoid locking mechanism connects a solenoid body to a male coupling member. The male coupling member surrounds a housing at the end of the solenoid. A pair of ball bearings is retained in the housing and extends into the coupling member. Movement of the ball bearings by the plunger control locking or releasing the coupling member. In an alternate embodiment the solenoid locking mechanism secures the coupling mechanism to a lockable rod that has a ball nose at one end. The locking mechanism has a locking chamber or socket with a ball bearing mounted in the chamber wall. The ball bearing is moveable between a position in which it extends into the locking chamber or can be moved out from the locking chamber. The movement of the ball bearing is controlled by a plunger in the solenoid body. The ball nose is selectively locked in the locking chamber or released from the locking chamber depending on the position of the plunger which controls the position and movement of the ball bearing. | 2015-08-27 |
20150243427 | MAGNETIZATION DEVICE FOR MAGNETIC ENCODER - In a magnetization device, while an annular magnetic body including plural rows of annular un-magnetized magnetic encoder tracks which are arranged adjacent to each other and integrated therewith is rotated, magnetization is performed, thereby providing a magnetic encoder. The magnetization device includes: a magnetizing yoke including a pair of opposed end portions opposed to each other across a magnetic gap; an exciting coil wound on the magnetizing yoke; a magnetization power source supplying a magnetizing current to the exciting coil to pass magnetic flux between the opposed end portions; and a magnetic shield which is provided to the magnetizing yoke and shields flow of the magnetic flux to the rows of magnetic encoder tracks other than a magnetization target. | 2015-08-27 |
20150243428 | METHODS AND SYSTEMS OF FIELD UPGRADEABLE TRANSFORMERS - Methods and systems of field upgradeable transformers are provided. Voltage transformation, intelligence, communications, and control are integrated in a flexible and cost effective manner. A field upgradeable transformer may comprise a transformer module and a cold plate. The transformer module provides voltage transformation. The transformer module is enclosed in a housing containing coolant with dielectric properties, such as mineral oil. The cold plate may be mounted to the housing and thermally coupled to the coolant. Interfaces to the primary side and/or secondary side of transformer module may be configured to be disposed on the surface of the housing. A field upgradable transformer may comprise various electronic modules that are configured to be mounted to the cold plate. An electronic module may be thermally coupled to the coolant, and may be configured to be coupled to the transformer module. An electronic module may monitor the voltage level of the primary side and/or the secondary side of the field upgradeable transformer, the current level through the field upgradeable transformer, the power factor, and/or the coolant temperature; create an outage alert; communicate with a control center; provide electromechanical tap changing; regulate line voltages, power factor, and/or harmonics; and/or mitigate voltage sags. | 2015-08-27 |
20150243429 | MAGNETIC MODULE AND CASING THEREOF - A magnetic module includes a magnetic element and a casing. The magnetic element includes a bobbin, a magnetic core assembly, a plurality of first pins and a plurality of second pins. A winding coil assembly is wound around the bobbin. The magnetic core assembly is partially embedded within the bobbin. The first pins are connected with at least one first outlet part of the winding coil assembly. The second pins are connected with at least one second outlet part of the winding coil assembly. The casing may cover the magnetic element. When the magnetic element is covered by the casing, the first pins and the second pins are exposed outside the casing. The casing is made of a composite material containing a ceramic material and a metallic material. | 2015-08-27 |
20150243430 | COIL STRUCTURE AND ELECTROMAGNETIC COMPONENT USING THE SAME - An electromagnetic component including a multi-layer, spiral coil structure embedded in a molded body is disclosed. Each layer of the coil structure makes approximately one and a quarter turns of a winding. Each layer of the coil structure has a loose middle segment, two slim end segments overlapping each other with a spacing therebetween, and tapered neck segments respectively connecting the loose middle segment with the two slim end segments. | 2015-08-27 |
20150243431 | Transformer Construction - The invention relates to a transformer construction comprising a plurality of transformer cores configured to share magnetic flux paths and, as a result, at least one of the cores comprises a post and an associated sidewall having an effective cross-sectional area which is less than that of the post. Such a construction may be employed in a power conditioning unit, for example, for a photovoltaic module, which is configured to operate the cores out of phase from each other. Also described is a transformer winding comprising a longitudinal spine having a first turn emanating from a first portion of the spine in a first transverse direction and a second turn emanating from a second portion of the spine in a second transverse direction, wherein the second transverse direction is opposite to the first transverse direction. | 2015-08-27 |
20150243432 | LOW COST WIRELESS (RESISTIVE) SENSOR BASED ON IMPEDANCE COUPLING/MODULATION USING MRC - A system for transmitting data signals from a sensor on a vehicle through magnetic resonance coupling (MRC). The system includes a control circuit having a base coil, a variable current source, a variable capacitor and a control load, where the variable current source and the capacitor are tuned to provide a predetermined AC current to the base coil so as to generate an oscillating magnetic field at a predetermined frequency. The system also includes a receiver circuit associated with the sensor, where the receiver circuit includes a receiver coil, a tuning capacitor and a variable resistive load. The receiver coil is tuned and magnetically coupled to the base coil at the predetermined frequency. A change in the variable resistive load in the receiver circuit in response to a sensor measurement causes a change in the voltage across the control load that gives an indication of the sensor measurement. | 2015-08-27 |
20150243433 | Method for producing neodymium-iron-boron rare earth permanent magnetic material - A method for producing neodymium-iron-boron rare earth permanent magnetic materials comprises: controlling technological parameters of alloy smelting, coarsely pulverization, milling by jet mill, and compaction; and adding nano-sized micro powder of oxide, in such a manner that a particle size of milling by the jet mill is decreased, and fine powder collected by the powder filter and powder collected by a cyclone collector are mixed. Utilization rate of the materials and performance of magnets are significantly improved. Usage amount of rare earth is significantly saved, especially usage amount of heavy rare earth. Thus, the scarce resources are protected. | 2015-08-27 |
20150243434 | Method and apparatus for sintering NdFeB Rare Earth Permanent Magnet - A method for sintering NdFeB rare earth permanent magnet includes steps of: providing a continuous vacuum sintering furnace to sinter; loading a sintering box with compacted magnet blocks onto a loading frame; while driving by a transmission apparatus, sending the loading frame orderly through a preparation chamber, a pre-heating and degreasing chamber, a first degassing chamber, a second degassing chamber, a pre-sintering chamber, a sintering chamber, an aging chamber and a cooling chamber of the continuous vacuum sintering furnace, respectively for pre-heating to remove organic impurities, and further for heating to dehydrogenate and degas, pre-sintering, sintering, aging and cooling. A continuous vacuum sintering apparatus is also provided. | 2015-08-27 |
20150243435 | METHOD AND DEVICE FOR PRODUCING SOFT MAGNETIC STRIP MATERIAL FOR STRIP RING CORES - A method producing soft magnetic strip material for roll tape-wound cores with the following steps: preparing a band-shaped material, applying a heat-treatment temperature to the band-shaped material, and applying a tensile force to the temperature-applied band-shaped material in one longitudinal direction of the band-shaped material in order to produce a tensile stress in the band-shaped material, to produce the soft magnetic strip material from the band-shaped material, the method, moreover, comprising determining at least one magnetic measurement value of the soft magnetic strip material that has been produced and controlling the tensile force for setting the tensile stress in a reaction to the determined magnetic measurement value. Furthermore, a device for carrying out the method and a roll tape-wound core produced by means of the method are made available. | 2015-08-27 |
20150243436 | WINDING APPARATUS AND WINDING METHOD - A winding apparatus includes a nozzle for feeding a wire to a first end side of a magnetic pole in a winding position, a first latch pawl capable of latching the wire fed from the nozzle, a first latch pawl moving mechanism that moves the first latch pawl from the first end side to a second end side of the multi-pole armature, and a nozzle moving mechanism that moves the nozzle in both the radial direction and the circumferential direction of the multi-pole armature. A width of the first latch pawl in the circumferential direction of the multi-pole armature is set at a width enabling insertion of the wire wound around and bent back by the first latch pawl into slots formed on both sides of one or more of the magnetic poles in the winding position. | 2015-08-27 |
20150243437 | BST CAPACITOR - A capacitor having a capacitance settable by biasing, including: a series association of a plurality of first capacitive elements between two first terminals defining the capacitor electrodes; and two second terminals of application of bias voltages respectively connected, via resistive elements, to the opposite electrodes of each of the first capacitive elements. | 2015-08-27 |
20150243438 | MULTILAYER CERAMIC CAPACITOR AND BOARD HAVING THE SAME - A multilayer ceramic capacitor and a board having the same are provided. The multilayer ceramic capacitor includes three external electrodes including a conductive layer, a nickel plating layer, and a tin plating layer sequentially stacked on a mounting surface of the ceramic body, and spaced apart from each other. When an outermost portion of a lead-out portion of an internal electrode exposed to the mounting surface is P, a total thickness of the conductive layer, the nickel plating layer, and the tin plating layer in a normal line direction of the conductive layer from P is a, a thickness of the conductive layer in the normal line direction of the conductive layer from P is b, and a sum of pore heights of pores existing in the conductive layer in the normal line direction of the conductive layer from P is b | 2015-08-27 |
20150243439 | MULTILAYER CERAMIC ELECTRONIC COMPONENT AND BOARD HAVING THE SAME MOUNTED THEREON - A multilayer ceramic electronic component may include: a ceramic body including dielectric layers; an active layer configured to form capacitance by stacking internal electrodes alternately exposed to end surfaces of the ceramic body with the dielectric layers interposed therebetween; upper and lower cover layers formed on and below the active layer; and first and second external electrodes formed on end portions of the ceramic body. In a cross-section of the ceramic body in length-thickness direction, the external electrodes may include conductive layers formed at corner portions of the ceramic body, base electrodes covering the conductive layers, and terminal electrodes formed on the base electrodes, the conductive layers being positioned outside the active layer of the ceramic body. | 2015-08-27 |
20150243440 | NON-UNIFORM DIELECTRIC LAYER CAPACITOR FOR VIBRATION AND ACOUSTICS IMPROVEMENT - A Non-Uniform Dielectric Layer, Multi-Layer-Ceramic-Capacitor (MLCC) has upper and lower dielectric layers separating upper and lower electrode layers, where the lower dielectric layers have a greater vertical thickness than the upper dielectric layers to reduce piezoelectric effect driven capacitor reaction forces on a printed circuit board (PCB) on which the capacitor is mounted. Such an MLCC may include an upper set of dielectric layers that separate adjacent pairs of upper electrode layers in a top portion of the MLCC, and a lower set of dielectric layers that separate adjacent pairs of lower electrode layers in a bottom portion of the MLCC. A bottom portion of the MLCC may be mounted on a PCB. The thickness of the lower dielectric layers may be between 1.5 and 3.5 times greater than the upper dielectric layers to reduce piezoelectric effect driven capacitor reaction forces in the audio range of human hearing. | 2015-08-27 |
20150243441 | METHOD FOR FORMING PATTERN - The invention provides a process and an apparatus for producing a high quality electronic component by reducing sagging at pattern side walls, which may occur when patterns of a wiring, an electrode, etc. are printed by a screen printing process using an electroconductive paste, an insulation paste, or a semiconductor paste, and reducing a mesh mark on the patterns of a wiring, an electrode, etc., or a full solid surface film, as well as a pattern formation process, by which screen printing can be applied and double face printing can be conducted with the number of process steps less than a conventional process. A pattern is formed by that a pattern is printed on a blanket having a surface comprising polydimethylsiloxane using an electroconductive paste, an insulation paste, or a semiconductor paste by a screen printing process, and the pattern is transferred from the blanket to a printing object. | 2015-08-27 |
20150243442 | VARIABLE CAPACITANCE ELEMENT, PACKAGED CIRCUIT, RESONANT CIRCUIT, COMMUNICATION APPARATUS, COMMUNICATION SYSTEM, WIRELESS CHARGING SYSTEM, POWER SUPPLY APPARATUS, AND ELECTRONIC APPARATUS - The present provides a variable capacitance element enabling a further reduction in capacitance variation among variable capacitance elements, and provides a packaged circuit including the variable capacitance element. A variable capacitance element is configured to include an element body unit, a compensation unit, a first external terminal for signals, a second external terminal for signals, external terminals for control, and external terminals for capacitance compensation. The compensation unit has second variable-capacitance capacitor units C | 2015-08-27 |
20150243443 | PHOTOSEMICONDUCTOR ELECTRODE, PHOTOELECTROCHEMICAL CELL, AND ENERGY SYSTEM - A photosemiconductor electrode ( | 2015-08-27 |
20150243444 | BI- AND TRI- LAYER INTERFACIAL LAYERS IN PEROVSKITE MATERIAL DEVICES - Photovoltaic devices such as solar cells, hybrid solar cell-batteries, and other such devices may include an active layer disposed between two electrodes. The active layer may have perovskite material and other material such as mesoporous material, interfacial layers, thin-coat interfacial layers, and combinations thereof. The perovskite material may be photoactive. The perovskite material may be disposed between two or more other materials in the photovoltaic device. Inclusion of these materials in various arrangements within an active layer of a photovoltaic device may improve device performance. Other materials may be included to further improve device performance, such as, for example: additional perovskites, and additional interfacial layers. | 2015-08-27 |
20150243445 | PHOTOELECTRIC CONVERSION ELEMENT AND METHOD FOR PRODUCING THE SAME - To provide a photoelectric conversion element being excellent in photoelectric conversion efficiency and stability of photoelectric conversion function, a method for producing the photoelectric conversion element, and a solar cell using the photoelectric conversion element. A photoelectric conversion element having a substrate, a first electrode, a photoelectric conversion layer containing a semiconductor and a sensitizing pigment, a hole transport layer having a conductive polymer, and a second electrode, wherein the hole transport layer is formed by bringing the photoelectric conversion layer into contact with a solution containing a conductive polymer precursor and an oxidizer at a ratio of 0.1<[Ox]/[M] (wherein [Ox] is the molar concentration of the oxidizer; and [M] is the molar concentration of the conductive polymer precursor), and irradiating the photoelectric conversion layer with light. | 2015-08-27 |
20150243446 | PHOTOVOLTAIC CELL - A photovoltaic cell including: (a) a housing adapted to enclose the photovoltaic cell, and including an at least partially transparent cell wall; (b) an electrolyte, disposed within the cell wall, and containing a corrosive redox species; (c) an at least partially transparent conductive coating disposed on an interior surface of the cell wall, within the photovoltaic cell; (d) an anode disposed on the conductive coating, the anode including a porous film adapted to make intimate contact with the redox species, and a dye, absorbed on a surface of the porous film, the dye and the film adapted to convert photons to electrons; (e) a cathode, disposed within an interior surface of the housing and disposed substantially opposite the anode, including a conductive carbon layer, and a catalytic component, associated with the carbon layer and adapted to catalyze a redox reaction, the carbon layer adapted to transfer electrons from the catalytic component to a current collection component of the cathode, and (f) at least one metal strip or wire, electrically associated with the anode and with the conductive coating, the strip or wire having sufficient thickness to form a protrusion protruding above a plane of the porous film by at least 50 micrometers, wherein a distance between a surface of the catalytic component and a surface of the porous film is less than 20 micrometers. | 2015-08-27 |
20150243447 | DYE-SENSITIZED SOLAR CELL ELEMENT - A dye-sensitized solar cell element has at least one dye-sensitized solar cell, the dye-sensitized solar cell is equipped with a conductive substrate having a transparent substrate and a transparent conductive layer provided on one surface of the transparent substrate, a counter substrate facing the conductive substrate, an oxide semiconductor layer provided on the conductive substrate or the counter substrate, and an annular sealing portion bonding the conductive substrate and the counter substrate. The transparent conductive layer has a main body portion disposed on an inner side of the sealing portion, a groove is formed in the transparent conductive layer, and at least a part of the groove has a first groove formed along an external shape of the sealing portion, and an insulating material also continuously covers an edge portion of the main body portion as well as enters into at least a part of the first groove. | 2015-08-27 |
20150243448 | DYE-SENSITIZED SOLAR CELL ELEMENT FOR LOW ILLUMINANCE - The dye-sensitized solar cell element includes at least one dye-sensitized solar cell (DSC), a first current extracting portion and a second current extracting portion for extracting current from the at least one DSC. The DSC comprises a first electrode having a transparent substrate and a transparent conductive layer provided on the surface of the substrate, a second electrode facing the first electrode and having a metal substrate, an oxide semiconductor layer provided on the first electrode, and an annular sealing portion bonding the first electrode with the second electrode. The first current extracting portion is included in the conductive film of one DSC of the at least one DSC, the second current extracting portion is connected with the metal substrate of the second electrode of one DSC of the at least one DSC, and the first and second current extracting portions are disposed next to each other. | 2015-08-27 |
20150243449 | Lithium Ion Capacitor - Provided is a lithium ion capacitor that is safe and has a high energy density and a high output. | 2015-08-27 |
20150243450 | ELECTRICITY STORAGE MODULE - A electricity storage module is provided with a stack formed by stacking a plurality of electricity storage elements having positive and negative lead terminals that protrude outward from end portions thereof and insulating holder members made of an insulating material for holding the electricity storage elements. A connecting portion formed by connecting different polarized lead terminals of adjacent electric cells is disposed in a position shifted from other connecting portions than that connecting portion as seen from the stacking direction of the stack, and the insulating holder members are provided with windows that correspond to the connecting portions. | 2015-08-27 |
20150243451 | METHOD FOR PREPARING CARBON NANOFIBER COMPOSITE AND CARBON NANOFIBER COMPOSITE PREPARED THEREBY - The present invention relates to a method for preparing a carbon nanofiber composite, and a carbon nanofiber composite prepared thereby. The method for preparing a carbon nanofiber composite provided by the present invention has reduced costs and is economical and efficient compared with a convention method for preparing a carbon nanofiber composite. In addition, the carbon nanofiber composite of the present invention can provide remarkable decomposition performance of organic pollutants, and a carbon nanofiber composite prepared by the preparation method of the present invention can be used in an electrode for an electric double-layer supercapacitor, a fuel cell electrode, a filter, a hydrogen storage material, and the like. | 2015-08-27 |
20150243452 | CHARGE STORAGE DEVICES CONTAINING CARBON NANOTUBE FILMS AS ELECTRODES AND CHARGE COLLECTORS - An energy storage device includes a nanostructured network and an electrolyte in contact with the nanostructured network. The nanostructured network is an electrically conducting nanostructured network that provides combined functions of an electrode and a charge collector of the energy storage device. An electrical device includes an energy storage device that includes a nanostructured network and an electrolyte in contact with the nanostructured network, and a load-bearing electrical circuit electrically connected to the electrical energy storage device. The energy storage device is suitable to power the electrical device while in operation. | 2015-08-27 |
20150243453 | ELECTRICITY STORAGE DEVICE AND METHOD FOR MANUFACTURING SAME - An electricity storage device includes an electricity storage element formed by winding an electrode body of an anode or cathode side along with a separator, an electrode leading section having an inclined edge is formed on an element end-face of the electricity storage element by a part of the electrode body. | 2015-08-27 |
20150243454 | COMMON SWITCH DEVICE FOR VEHICLE - A common switch device for a vehicle capable of serving as a communicative switch module and a non-communicative switch module includes a switch module including a plurality of common switches. A connector module is detachably coupled with the switch module. The connector module includes a housing installed with a printed circuit board (PCB) in which a communication chip is built in. A plurality of connectors mounted on the PCB, each being connected to one of the common switches of the switch module, and separately connected to the communication chip. | 2015-08-27 |
20150243455 | CONTROL CIRCUIT OF SWITCH DEVICE - The invention provides a control circuit of a switch device. A single output pin of the control unit outputs an enable signal to control terminals of two switch units to control an on-state of the two switch units, and adjust a current size of a control current of the on-state of the switch device. One of the switch units after receiving the enable signal for a predetermined time is switched to an off-state, so as to reduce power consumption of the switch device. | 2015-08-27 |
20150243456 | KEYSWITCH - A keyswitch includes a casing having a first magnetic area, a key cap, and a support device including first and second support members rotatably connected to the key cap and the base plate. The first support member has a receiving opening and a second magnetic area disposed within the receiving opening. When the key cap is not pressed, a magnetic attraction force between the first and second magnetic areas keeps the key cap at a non-pressed position. When the key cap is pressed by an external force, the key cap moves with the support device toward a pressed position. When the external force is removed, the second magnetic area moves toward the first magnetic area due to the magnetic attraction force such that the key cap moves with the support device from the pressed position toward the non-pressed position. | 2015-08-27 |
20150243457 | LOW-TRAVEL KEY MECHANISMS USING BUTTERFLY HINGES - A key mechanism including one or more butterfly hinges. Each butterfly hinge may include a double wing design operative to move between a depressed position and non-depressed position. Hinged coupling mechanisms couple respective arms of the wings together. Additionally or alternatively, a key mechanism can include one or more half-butterfly hinges. Each half-butterfly hinge includes a double wing design operative to move between a depressed position and non-depressed position. A hinged coupling mechanism couples one set of corresponding arms of the wings together, while the other set of corresponding arms are not coupled together. | 2015-08-27 |
20150243458 | DIRECT CURRENT SWITCH WITH A DEVICE FOR ARC EXTINCTION INDEPENDENT OF CURRENT DIRECTION - A direct current switch with a device for arc extinction independent of current direction includes at least two interconnected switch units, each switch unit having at least one current path having an interruption surface and having at least two switch contact elements for forming the interruption surface. An arc extinction device is associated with one or a plurality of current paths of the switch units. Devices for magnetic field generation are included, each generated magnetic field being assigned to different switch units' interruption surface and oriented such that its field lines run transversally to the respective interruption surface. Given a current flow direction, deflection forces of at least two generated magnetic fields act through flow paths contrary to arcs extending longitudinally to respective interruption surface such that an arc is deflected towards the arc extinction device and a further arc is deflected away from the arc extinction device. | 2015-08-27 |
20150243459 | AIR BREAK ELECTRICAL SWITCH HAVING A BLADE TOGGLE MECHANISM - A high voltage/high current air break switch, the switch including a support frame and a blade pivotally supported by the support frame, so as to be pivotable relative to the support frame. The blade includes a load interrupter between a blade support and the distal end of the blade. And a method of operating an air break electrical switch with a swinging blade mounted on a support and having blade contacts brought into and out of engagement with a terminal with terminal contacts, and a load interrupter with contacts in a vacuum bottle, the method steps comprising turning the support to move the blade relative to the terminal, then turning the support to move the vacuum bottle electrical contacts and to move the blade contacts relative to the terminal contacts. | 2015-08-27 |
20150243460 | PARTICULATE AND PRESSURE REDIRECTION SHIELD FOR AN ELECTRIC CIRCUIT BREAKER - Featured is a particulate and pressure redirection barrier for an electrical breaker as well as a breaker embodying such a barrier. Such a barrier includes first through fifth segments, where the first segment includes a first and second side section and a bottom section that are coupled to each other so as to form a generally U shaped structure. The second segment is coupled to the first side section so it extends outwardly at an angle from the first side section. The third segment is coupled to the second side section so as to extend outwardly and at an angle from the second side section. The fourth segment is coupled to the second segment so as to extend outwardly from and at an angle with respect to the second segment. The fifth segment is coupled to the third segment so as to extend outwardly from and at an angle with respect to the third segment. Such a configuration of the fourth and fifth segments is such that gas flowing along a surface of the second or third segments is redirected at an angle with respect to that surface. | 2015-08-27 |
20150243461 | SWITCHING APPARATUS, SWITCHING SYSTEMAND SWITCHING METHOD - The present disclosure relates to a switching device, comprising an input for a sensor signal, the sensor signal having a sensor signal amplitude; and processing circuitry to determine a switching threshold based on the sensor signal amplitude and a weighting factor depending on said sensor signal amplitude and to generate a switching signal when a level of the sensor signal crosses the switching threshold. | 2015-08-27 |
20150243462 | MAGNETIC TRIPPING DEVICE AND OVERCURRENT TRIPPING DEVICE OF AN ELECTRICAL SWITCH AND ELECTRICAL SWITCH AND METHOD FOR CALIBRATING THE MAGNETIC TRIPPING OF A MAGNETIC TRIPPING DEVICE - An overcurrent tripping device of an electrical switch for interrupting a current flow in an electrical circuit in the event of the occurrence of an overload or a short circuit is disclosed. In an embodiment, the overcurrent tripping device includes a thermal tripping device and a magnetic tripping device. A magnetic tripping device is disclosed which, in an embodiment, includes at least one yoke element for generating a magnetic field, an armature element responding to the magnetic field, and a spring element. The armature element is arranged on an armature carrier element, separated from the yoke element, by way of a first armature element end and is mounted pivotably about an armature element rotation axis. In addition, an electrical switch including an overcurrent tripping device, and a method for calibrating magnetic tripping of a magnetic tripping device of an electrical switch, are disclosed. | 2015-08-27 |
20150243463 | CIRCUIT INTERRUPTION DEVICE EMPLOYING SHAPE MEMORY ALLOY ELEMENT - A circuit interruption device includes a support, a set of separable contacts, a first member movable between an OFF position and an ON position, a second member, and a transport mechanism that includes a shape memory alloy element. When the first member is in the OFF position, the second member is in an extended position, the shape memory alloy element is in its first shape, and the first surface and the another first surface are engaged with one another and resist movement of the first member away from the OFF position. Responsive to an electrical pulse, the shape memory alloy element transforms into its second shape and moves the first member toward the ON position. When the second member is in the extended position, the another second surface engages with the second surface to resist movement of the first member away from the ON position. | 2015-08-27 |
20150243464 | CIRCUIT PROTECTION APPARATUS AND METHOD OF SETTING TRIP PARAMETERS THEREOF - A circuit protection apparatus includes separable contacts, an operating mechanism, an electronic trip unit storing a plurality of trip parameter combinations, wherein each of the trip parameter combinations specifies a certain value for each of a plurality of individual trip parameters, and a multi-position selector moveable among a plurality of predetermined positions and configured to enable selection of one of the predetermined positions. Each of the positions corresponds to a respective one of the trip parameter combinations, wherein the electronic trip unit is structured to, responsive to a chosen one of the plurality of predetermined positions being selected by the multi-position selector, cause the one of the trip parameter combinations corresponding to the chosen one of the plurality of predetermined positions to be used by the electronic trip unit to determine whether to cause the operating mechanism to trip open the separable contacts. | 2015-08-27 |
20150243465 | MAGNETIC TRIP DEVICE OF A THERMAL MAGNETIC CIRCUIT BREAKER HAVING AN ADJUSTMENT ELEMENT - A magnetic trip device of a thermal magnetic circuit breaker and a thermal magnetic circuit breaker including such a magnetic trip device, and also a method for adjusting a magnetic field area of a magnetic trip device of a thermal magnetic circuit breaker, are disclosed. In at least one embodiment, the magnetic trip device includes at least an armature locator moveable arranged at a pin in order to adjust a magnetic field area, and an armature element fixed on a lower surface of the armature locator in order to interact with a yoke, arranged near a current conductive element for conducting electric energy. The armature locator includes an adjustment element arranged between a spring element and the yoke. The spring element surrounding at least a part of the pin is arranged between the armature element and the yoke. | 2015-08-27 |
20150243466 | MAGNETIC TRIP DEVICE OF A THERMAL MAGNETIC CIRCUIT BREAKER HAVING A STABILIZER ELEMENT - A magnetic trip device of a thermal magnetic circuit breaker, a thermal magnetic circuit breaker that includes such a magnetic trip device, and a method for adjusting a magnetic field area of a magnetic trip device of a thermal magnetic circuit breaker, are disclosed. In an embodiment, the magnetic trip device includes at least an armature locator moveable arranged on a pin in order to adjust a magnetic field area, and an armature element fixed on a lower surface of the armature locator in order to interact with a yoke. The armature locator includes a stabilizer element in order to increase a contact area between the pin and the armature locator and/or a recess in order to receive at least an upper end of a spring element in order to space the armature element and the yoke from each other at least partially. | 2015-08-27 |
20150243467 | FUSE LOAD-BREAK SWITCH FOR LOW-VOLTAGE HIGH-POWER FUSES - Fuse load-break switch ( | 2015-08-27 |
20150243468 | APPLICATIONS OF GRAPHENE GRIDS IN VACUUM ELECTRONICS - Graphene grids are configured for applications in vacuum electronic devices. A multilayer graphene grid is configured as a filter for electrons in a specific energy range, in a field emission device or other vacuum electronic device. A graphene grid can be deformable responsive to an input to vary electric fields proximate to the grid. A mesh can be configured to support a graphene grid. | 2015-08-27 |
20150243469 | X-RAY SOURCE ASSEMBLY - An apparatus includes an X-ray tube, X-ray optics, one or more coils and control circuitry. The X-ray tube is configured to direct an electron beam onto an anode so as to emit an X-ray beam. The X-ray optics which configured to receive the X-ray beam emitted from the X-ray tube and to direct the X-ray beam onto a target. The coils are configured to steer the electron beam in the X-ray tube using electrical currents flowing through the coils. The control circuitry is configured to compensate for misalignment between the X-ray tube and the X-ray optics by analyzing the X-ray beam output by the X-ray optics, and setting the electrical currents based on the analyzed X-ray beam. | 2015-08-27 |
20150243470 | PLATEN SUPPORT STRUCTURE - A platen support structure adapted to thermally insulate a heated platen portion from a cold base plate while providing substantially leak-free gas transport therebetween and while allowing thermal expansion and contraction of the platen portion. Various examples provide of the support structure provide a tubular flexure having an internal gas conduit, a platen portion mounting tab connected to the flexure and having an internal gas input slot that is in fluid communication with the internal gas conduit of the flexure, the platen portion mounting tab being adapted for connection to a platen portion of a platen, and a base plate mounting tab connected to the flexure and having an internal gas output slot that is in fluid communication with the internal gas conduit of the flexure, the base plate mounting tab being adapted for connection to a base plate of the platen. | 2015-08-27 |
20150243471 | Alignment Marking for Rock Sample Analysis - A method for using a Focused Ion Beam and/or Scanning Electron Microscope (FIB/SEM) for etching one or more alignment markers on a rock sample, the one or more alignment markers being etched on the rock sample using the FIB/SEM. The one or more alignment markers may further be deposited with a platinum alloy or other suitable compositions for increasing alignment marker visibility. | 2015-08-27 |
20150243472 | Electron Microscope and Sample Movement Device - The present invention is intended to reduce drift in a sample which occurs because of distortion in an O-ring which seals off from the atmosphere a sample chamber in which vacuum is retained. Provided is an electron microscope, wherein a sample holder ( | 2015-08-27 |
20150243473 | WORKPIECE TRANSPORT AND POSITIONING APPARATUS - An automated workpiece processing apparatus including a processing section including a processing module configured for processing a workpiece at a process location, a transport module including a first shuttle stage, a second shuttle stage independent of the first stage, and an end effector connected to at least one of the first and second stages, the end effector being configured to hold and transport the workpiece into and out of the processing module, and having a range of motion, defined by a combination of the first and second stage, extending from a workpiece holding station outside the processing module to the processing location inside the processing module so the end effector defines a processing stage of the processing module, and an automated loading and transport section including a load port module through which workpieces are loaded into the automated loading and transport section, and being communicably connected to the transport module. | 2015-08-27 |
20150243474 | METHOD OF EXAMINING A SAMPLE IN A CHARGED-PARTICLE MICROSCOPE - Examining a sample in a charged-particle microscope of a scanning transmission type includes:
| 2015-08-27 |
20150243475 | SCANNING ELECTRON MICROSCOPE, AN INTERFACE AND A METHOD FOR OBSERVING AN OBJECT WITHIN A NON-VACUUM ENVIRONMENT - An interface, a scanning electron microscope and a method for observing an object that is positioned in a non-vacuum environment. The method includes: generating an electron beam in the vacuum environment; scanning a region of the object with the electron beam while the object is located below an object holder; wherein the scanning comprises allowing the electron beam to pass through an aperture of an aperture array, pass through an ultra thin membrane that seals the aperture, and pass through the object holder; wherein the ultra thin membrane withstands a pressure difference between the vacuum environment and the non-vacuum environment; and detecting particles generated in response to an interaction between the electron beam and the object. | 2015-08-27 |
20150243476 | APPARATUS AND METHODS FOR IMPLEMENTING PREDICTED SYSTEMATIC ERROR CORRECTION IN LOCATION SPECIFIC PROCESSING - A method of modifying an upper layer of a workpiece using a gas cluster ion beam (GCIB) is described. The method includes collecting parametric data relating to an upper layer of a workpiece, and determining a predicted systematic error response for applying a GCIB to the upper layer to alter an initial profile of a measured attribute by using the parametric data. Additionally, the method includes identifying a target profile of the measured attribute, directing the GCIB toward the upper layer of the workpiece, and spatially modulating an applied property of the GCIB, based at least in part on the predicted systematic error response and the parametric data, as a function of position on the upper layer of the workpiece to achieve the target profile of the measured attribute. | 2015-08-27 |
20150243477 | Bulk Deposition for Tilted Mill Protection - To reduce artifacts in a surface exposed by a focused ion beam for viewing, a trench is milled next to the region of interest, and the trench is filled to create a bulkhead. The ion beam is directed through the bulkhead to expose a portion of the region of interest for viewing. The trench is filled, for example, by charged particle beam-induced deposition. The trench is typically milled and filled from the top down, and then the ion beam is angled with respect to the sample surface to expose the region of interest. | 2015-08-27 |
20150243478 | High Aspect Ratio Structure Analysis - Curtaining artifacts on high aspect ratio features are reduced by reducing the distance between a protective layer and feature of interest. For example, the ion beam can mill at an angle to the work piece surface to create a sloped surface. A protective layer is deposited onto the sloped surface, and the ion beam mills through the protective layer to expose the feature of interest for analysis. The sloped mill positions the protective layer close to the feature of interest to reduce curtaining. | 2015-08-27 |
20150243479 | DIGITAL PATTERN GENERATOR (DPG) FOR E-BEAM LITHOGRAPHY - A method of lithography including providing a first mirror array and a second mirror array of a digital pattern generator (DPG); the second mirror array is offset from the first mirror array in a first direction. A first data piece and a second data piece associated with an IC device, are received by the DPG. The first and second data piece each defines a state of a pixel of the DPG. The first data piece is provided to a first pixel of the DPG. The second data piece is also provided to the first pixel of the DPG. A first point on a photosensitive layer on a target substrate is exposed. The first point is defined by the first data piece and the second data piece. The target substrate moved in a second direction, perpendicular to the first direction to expose a second point. | 2015-08-27 |
20150243480 | CHARGED PARTICLE BEAM EXPOSURE APPARATUS AND METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - The invention relates to a charged particle beam exposure apparatus configured to expose cut patterns or via patterns on a substrate having a plurality of line patterns | 2015-08-27 |
20150243481 | PROXIMITY EFFECT CORRECTION IN A CHARGED PARTICLE LITHOGRAPHY SYSTEM - The invention relates to a method for performing charged particle beam proximity effect correction, comprising the steps of: receiving a digital layout pattern to be patterned onto a target using one or more charged particle beams; selecting a base proximity function comprising a sum of an alpha and a beta proximity function, wherein said alpha proximity function models a short range proximity effect and said beta proximity function models a long range proximity effect, wherein a constant η is defined as a ratio between the beta proximity function and the alpha proximity function in said sum, with 0<η<1;
| 2015-08-27 |
20150243482 | ELECTRON BEAM EXPOSURE METHOD - An electron beam exposure method includes the steps of: preparing an exposure mask having a plurality of opening patterns formed by dividing a drawing object pattern into exposable regions; and drawing the drawing object pattern by performing exposure with an electron beam passing through the opening patterns of the exposure mask. Each end portion serving as a joint in each opening pattern of the exposure mask is provided with a joining portion tapered in a width of the opening pattern. The exposure is performed in such a way that portions drawn through adjacent joining portions overlap each other. | 2015-08-27 |
20150243483 | TUNABLE RF FEED STRUCTURE FOR PLASMA PROCESSING - A chamber for plasma processing semiconductor wafers is provided, comprising: a support chuck disposed in the chamber; a top electrode disposed over the support chuck and within the chamber; an RF supply rod electrically connected between an RF power source and the support chuck for providing RF power to the chamber, the RF supply rod having a corrugated surface, the corrugated surface having recessed and protruded regions that are arranged in a lengthwise repeating pattern along a segment of the RF supply rod, the corrugated surface producing a lengthwise minimum surface path along the segment that is greater than a length of the segment, the lengthwise minimum surface path defining a target length of the RF supply rod. | 2015-08-27 |
20150243484 | Plasma Source - This invention relates to magnetically enhanced cathodic plasma deposition and cathodic plasma discharges where the charged particles can be guided in a rarefied vacuum system. Specifically, a cluster or combination of cathodic plasma sources is described where a least two plasma source units are arranged in a rarefied gas vacuum system in such way that the resulting magnetic field interaction offers a guided channelling escape path of electrons in essentially perpendicular direction to the main bulk of neutral particles and droplets generated in the cathodic plasma source. In addition the cathodic plasma source arrangement of the present invention would generate a zone of very low magnetic field where the electrons are trapped via electric and magnetic fields. Ions generated by the plasma cluster would follow electrons via escape paths determined by electric and magnetic fields. The direction for the ions is fundamentally different from those of the neutral particles offering in this manner a charged particles filtering method. The invention could take form in different embodiments and different arrangements of these plasma clusters, interacting by magnetic interactions in such a way that the plasma would cross areas for the desired plasma treatment and/or coating of suitable substrates. | 2015-08-27 |
20150243485 | Device for Treating an Object with Plasma - A system for treating an object with plasma includes a vacuum processing chamber having a holder on which the object to be treated is placed, at least two subassemblies each including at least one plasma source able to generate a plasma and being supplied with radio-frequency power Pi and with a gas i of independent flow rate ni. The plasma generated by one of the subassemblies is a partially ionized gas or gas mixture of different chemical nature from the plasma generated by the other subassembly or subassemblies. A process for selectively treating a composite object employing such a device is described. | 2015-08-27 |
20150243486 | PLASMA PROCESSING APPARATUS - In a plasma processing apparatus including an upper electrode arranged above a sample stage on which a sample to be processed in a processing chamber is mounted to supply an electric field, and a high frequency power supply to output first high frequency power to form the electric field to the upper electrode, an insulating layer has an impedance smaller than the impedance of the feeding path for bias or the feeding path for electrostatic chuck and a current of the first high frequency power flows through a circuit that passes through the conductive plate and a member constituting an inner sidewall surface of the processing chamber from the upper electrode via the top surface of the sample stage to return to the high frequency power supply. | 2015-08-27 |
20150243487 | COMPRESSION MEMBER FOR USE IN SHOWERHEAD ELECTRODE ASSEMBLY - A compression member for use in a showerhead electrode assembly of a capacitively coupled plasma chamber. The member applies a compression force to a portion of a film heater adjacent a power supply boot on an upper surface of a thermal control plate and is located between the thermal control plate and a temperature-controlled top plate. The member is composed of an electrically insulating elastomeric material which can work over a large range of compressions and temperatures. | 2015-08-27 |
20150243488 | FOCUS RING - There is provided a focus ring formed without an adhesive that can suppress abnormal electric discharge and obtain uniform plasma environment in a circumferential direction in a plasma processing apparatus. The focus ring includes a plurality of arc-shaped members and a plurality of connecting members connecting the plurality of the arc-shaped members to form a ring shape without an adhesive, and is formed such that a thickness between an upper surface of the connecting member and a bottom surface of a concave fitting portion of the connecting member is greater than a thickness between an upper surface of the arc-shaped member and a bottom surface of a second depression of the arc-shaped member. | 2015-08-27 |
20150243489 | CLEANING METHOD FOR PLASMA PROCESSING APPARATUS - A Ti-containing remaining in a chamber of a plasma processing apparatus can be simply and efficiently removed. In a Low-k film etching process, immediately after a dry etching process (process S | 2015-08-27 |
20150243490 | SUBSTRATE PROCESSING APPARATUS AND SUBSTRATE PROCESSING METHOD - The present invention relates to a substrate processing apparatus and a substrate processing method, the substrate processing apparatus including: a load-lock chamber; a transfer chamber disposed on one side of the load-lock chamber; a process chamber disposed on one side of the transfer chamber; and a substrate transfer robot disposed inside the transfer chamber to transfer a substrate between the load-lock chamber and the process chamber, wherein the process chamber includes a plurality of substrate support plates configured to support the substrate, a plurality of gas spray units configured to respectively spray process gases on the plurality of substrate support plates, a turntable configured to transfer the substrate between the plurality of substrate support plates, a first gate through which an unprocessed substrate is taken in, and a second gate through which a processed substrate is taken out; and the substrate transfer robot independently transfers the unprocessed substrate and the processed substrate through the first gate and the second gate, thereby improving substrate processing efficiency. | 2015-08-27 |
20150243491 | DISCHARGE LAMP AND LIGHT SOURCE DEVICE - A discharge lamp includes a housing including a dielectric portion having a light transmission area formed of a dielectric material and transmitting light, and a main body portion forming a discharge-gas-filled space together with the dielectric portion, the discharge-gas-filled space being filled with a discharge gas; an electron emission source disposed in the discharge-gas-filled space to face the light transmission area; a discharge path limiting member separating the electron emission source and the light transmission area, in the discharge-gas-filled space, and including an electron passage hole that transmits electrons emitted from the electron emission source; and an external electrode disposed at an outer side of the housing to face the electron emission source across the dielectric portion, and including an opening that passes the light transmitted through the light transmission area. | 2015-08-27 |
20150243492 | APPARATUS AND METHOD OF FORMING SILICON NITRIDE FILM - An apparatus of forming silicon nitride film includes: a reaction chamber accommodating a workpiece; a source gas supply unit supplying a source gas into the reaction chamber; a nitriding gas supply unit supplying a nitriding gas into the reaction chamber; a controller configured to form the silicon nitride film on the workpiece by controlling the source gas supply unit such that the silicon is adsorbed to the workpiece by supplying the source gas into the reaction chamber, and controlling the nitriding gas supply unit such that the silicon adsorbed to the workpiece is nitrided by supplying the nitriding gas into the reaction chamber; a flow path where the nitriding gas supplied into the reaction chamber flows until reaching the workpiece; and members arranged in the flow path. The members have a coating with platinum-group metals that activates the nitriding gas supplied from the nitriding gas supply unit. | 2015-08-27 |
20150243493 | METHOD FOR PROCESSING SUBSTRATE AND SUBSTRATE PROCESSING APPARATUS - There is provided a substrate processing method, comprising the steps of: supplying source gas into a processing chamber in which substrates are accommodated; removing the source gas and an intermediate body of the source gas remained in the processing chamber; supplying ozone into the processing chamber in a state of substantially stopping exhaust of an atmosphere in the processing chamber; and removing the ozone and the intermediate body of the ozone remained in the processing chamber; with these steps repeated multiple number of times, to thereby form an oxide film on the surface of the substrates by supplying the source gas and the ozone alternately so as not to be mixed with each other. | 2015-08-27 |
20150243494 | MECHANICALLY ROBUST SILICON SUBSTRATE HAVING GROUP IIIA-N EPITAXIAL LAYER THEREON - A method of forming an epitaxial article includes growing a crystal of elemental silicon having a minimum boron doping level of 3.2×10 | 2015-08-27 |
20150243495 | APPARATUS AND PROCESS FOR WAFER CLEANING - A process and apparatus for cleaning a wafer, the wafer having a front side and a back side, are provided. The process begins with placing the wafer on a platform, and a first gas stream delivering in a direction from a center to an edge of the front side of the wafer. The first gas stream prevents liquid drops entering a work piece region on the front side of the wafer and protects the integrity of the integrated circuits. A cleaning brush is rinsed by a first liquid stream and contacting the edge of the wafer for cleaning the wafer. The cleaning brush scrubs unwanted residual materials from the edge of the wafer, and the first liquid stream flushes the cleaning brush to recover the cleaning ability. | 2015-08-27 |
20150243496 | Method and Apparatus of Forming Carbon-Containing Silicon Film - A method of forming a carbon-containing silicon film includes: adsorbing a silicon source on a workpiece by supplying a silicon source gas containing at least one chlorine group into a reaction chamber accommodating the workpiece and activating the supplied silicon source gas to react the activated silicon source gas with the workpiece; and removing chlorine from the adsorbed silicon source containing chlorine by supplying an alkyl metal gas into the reaction chamber and activating the supplied alkyl metal gas to react the activated alkyl metal gas with the adsorbed silicon source. Adsorbing a silicon source and removing chlorine are sequentially repeated plural times. | 2015-08-27 |
20150243497 | BACK-END TRANSISTORS WITH HIGHLY DOPED LOW-TEMPERATURE CONTACTS - A back end of line device and method for fabricating a transistor device include a substrate having an insulating layer formed thereon and a channel layer formed on the insulating layer. A gate structure is formed on the channel layer. Dopants are implanted into an upper portion of the channel layer on opposite sides of the gate structure to form shallow source and drain regions using a low temperature implantation process. An epitaxial layer is selectively grown on the shallow source and drain regions to form raised regions above the channel layer and against the gate structure using a low temperature plasma enhanced chemical vapor deposition process, wherein low temperature is less than about 400 degrees Celsius. | 2015-08-27 |
20150243498 | Method of Manufacturing Semiconductor Device and Substrate Processing Method - A method of manufacturing a semiconductor device for forming a thin film having characteristics of low permittivity, high etching resistance and high leak resistance is provided. The method includes: forming a film containing a predetermined element, oxygen, carbon and nitrogen on a substrate by performing a cycle a predetermined number of times. The cycle includes: (a) supplying a source gas containing the predetermined element and a halogen element to the substrate; (b) supplying a first reactive gas containing three elements including carbon, nitrogen and hydrogen wherein a number of carbon atoms in each molecule of the first reactive gas is greater than that of nitrogen atoms in each molecule of the first reactive gas to the substrate; (c) supplying a nitriding gas as a second reactive gas to the substrate; and (d) supplying an oxidizing gas as a third reactive gas to the substrate, wherein (a) through (d) are non-simultaneously performed. | 2015-08-27 |