Abstract: The occurrence of separation or reaggregation is suppressed in a suspension such as a battery electrode slurry. A battery electrode slurry distributing apparatus includes: a circulation pipe via which a positive electrode slurry is to be circulated; and a control unit that controls the supply of the positive electrode slurry to each of coaters. In a period in which either the coater is allowed to receive the supply of the positive electrode slurry, the control unit inhibits the supply of the positive electrode slurry to the other coater. The circulation pipe is structured in a polygonal loop. The coaters are connected to respective elbow portions formed in the circulation pipe via the pipes, respectively.

Abstract: An electronic component that includes an electronic element; a base member having an upper surface on which the electronic element is mounted; and a lid member bonded to the base member via a bonding member such that the electronic element is hermetically sealed therebetween. The bonding member is made of an insulating material containing a first metal. The lid member has an outermost layer formed on at least a surface of the lid member facing the base member. The outermost layer of the lid member has a solid solution layer of the first metal and a second metal at at least a portion of the outermost layer.

Abstract: A plurality of area lines extends in a first direction while being aligned in a second direction perpendicular to the first direction in a predetermined area. A plurality of lead-out lines electrically connects a plurality of terminal parts and the area lines to each other. Two or more of the lead-out lines include width adjusting lines determined to have widths differing from each other to make the respective resistance values of all of the lead-out lines lower than the resistance value of the area lines.

Abstract: A plurality of first lattice passing line segments are defined. The first lattice passing line segments extend in a first direction through lattice points adjacent to each other among a plurality of lattice points at which a plurality of first component portions and a plurality of second component portions of a black matrix are connected to each other. Ones of two or more first partial wires and two or more first lattice passing line segments are arranged in straight lines extending in the first direction, and the other ones are arranged along the first direction and located at unequal distances from the ones.

Abstract: A plurality of excitation electrodes, each disposed along a row direction, are provided on a back side of a transparent substrate, and a plurality of detection electrodes, each disposed along a column direction, a plurality of tactile sensation generation row electrodes, each disposed along the row direction, and a plurality of tactile sensation generation column electrodes, each disposed along the column direction, are provided on the front side of the transparent substrate. The front side of the transparent substrate is defined as an operation screen. The excitation electrodes and the tactile sensation generation row electrodes are formed independently of each other, and the detection electrodes and the tactile sensation generation column electrodes are formed independently of each other. In the configuration, the excitation electrodes among the electrodes are situated furthest from the operation screen.

Abstract: A touch screen according to the present invention includes: a substrate; and a plurality of row direction wirings and a plurality of column direction wirings which are disposed on the substrate to intersect through an insulating film in a stereoscopic view, and at an intersection portion of each of the row direction wirings and each of the column direction wirings, wiring width of at least one of the row direction wiring and the column direction wiring is wider than a portion other than the intersection portion in a plan view.

Abstract: A touch screen according to the present invention includes: a transparent substrate; a plurality of row-direction wirings and a plurality of column-direction wirings provided on the transparent substrate, the row-direction wirings and the column-direction wirings intersecting via an inter-layer insulating film with each other in a stereoscopic view; a plurality of lead-out wirings each provided to be electrically extended from each of first ends of the said row-direction wirings and the column-direction wirings; and a shield wiring provided to surround in a planar view the row-direction wirings, the column-direction wirings, and the lead-out wirings, wherein the row-direction wirings, the column-direction wirings, and the shield wiring have comb-teeth parts which are formed to have comb-teeth shapes such that distances from the shield wiring to the row-direction wirings and the column-direction wirings are small at predetermined parts.

Abstract: The present invention relates to a cover tape and to an electronic component package that uses the cover tape, the cover tape including at least a substrate layer, a heat seal layer, and an antistatic layer, the antistatic layer containing (A) an ionic liquid including a cyclic quaternary nitrogen-containing cation, (B) a quaternary ammonium salt, and (C) a polyalkylene glycol being formed on a surface toward the heat seal layer, and an anion constituting the (A) ionic liquid including a cyclic quaternary nitrogen-containing cation and the (B) quaternary ammonium salt being one or more anions selected from the group consisting of carboxylic acids, sulfuric acid esters, phosphoric acid esters, sulfonic acids, and phosphoric acids.

Abstract: Detection column wires and detection row wires are configured of thin wires made of a conductive material having light reflectivity, such as a metal or alloy including silver and aluminum. A predetermined plural number of detection column wires are electrically connected to form a plurality of column-direction bundle wires. A predetermined plural number of detection row wires are electrically connected to form a plurality of row-direction bundle wires. A reflected-light distribution pattern is further provided. When viewed in a direction vertical to the surface of the touch screen, the reflected-light distribution pattern includes a curved portion, and the normal lines of the curved portion head for all directions.

Abstract: Detection column wires and detection row wires are formed by fine wires made of a light-reflective conductive material. The detection column wires are divided into a plurality of column-direction wire bundles each including a predetermined number of detection column wires electrically connected to one another. The detection row wires are divided into a plurality of row-direction wire bundles each including a predetermined number of detection row wires electrically connected to one another. Reflected light distribution patterns are further provided. The reflected light distribution patterns each include a curved portion that is curved when viewed from a direction perpendicular to a surface of a touch screen, are arranged so that normals to the curved portion are directed towards all directions, and are dispersed so that regions, of curved portions, in which normals are perpendicular to a longitudinal direction of pixels are not aligned with each other in the longitudinal direction of the pixels.

Abstract: Detection column wires and detection row wires are configured of thin wires made of a conductive material having light reflectivity, such as a metal or alloy including silver and aluminum. A predetermined plural number of detection column wires are electrically connected to form a plurality of column-direction bundle wires. A predetermined plural number of detection row wires are electrically connected to form a plurality of row-direction bundle wires. A reflected-light distribution pattern is further provided. When viewed in a direction vertical to the surface of the touch screen, the reflected-light distribution pattern includes a curved portion, and the normal lines of the curved portion head for all directions.

Abstract: A display panel includes: a display functional portion formed of a display functional layer sandwiched between transparent substrates facing each other; and a touch screen portion that includes lower wiring and upper wiring made of a conductive metal material, that includes an interlayer insulating film located between the lower wiring and the upper wiring, and that includes a protective film covering the lower wiring, the upper wiring, and the interlayer insulating film. The lower wiring of the touch screen portion is formed on a surface on an observer side of the transparent substrate on the observer side.

Abstract: A touch screen according to the present invention includes a transparent substrate, a first detection electrode formed on the transparent substrate, a second detection electrode disposed to sterically cross the first detection electrode via an interlayer insulating film, and a polarizing plate bonded to cover the second detection electrode. Each of the first detection electrode and the second detection electrode includes, as a repetition unit, thin wire electrodes that incline in different directions and cross each other. The thin wire electrodes are formed of a combination of a plurality of conductive thin wires extending in a direction inclined 10 degrees or less from a transmission axis direction or an absorption axis direction of the polarizing plate.

Abstract: A plurality of first lattice passing line segments are defined. The first lattice passing line segments extend in a first direction through lattice points adjacent to each other among a plurality of lattice points at which a plurality of first component portions and a plurality of second component portions of a black matrix are connected to each other. Ones of two or more first partial wires and two or more first lattice passing line segments are arranged in straight lines extending in the first direction, and the other ones are arranged along the first direction and located at unequal distances from the ones.

Abstract: A plurality of area lines extends in a first direction while being aligned in a second direction perpendicular to the first direction in a predetermined area. A plurality of lead-out lines electrically connects a plurality of terminal parts and the area lines to each other. Two or more of the lead-out lines include width adjusting lines determined to have widths differing from each other to make the respective resistance values of all of the lead-out lines lower than the resistance value of the area lines.

Abstract: A touch screen includes a column-direction wire and a row-direction wire. The column-direction wire and the row-direction wire three-dimensionally intersect each other in a region that is a detection cell. At least one of the column-direction wire and the row-direction wire has an end portion whose width is larger than a width of another portion of the wire, the end portion being a wire-end expansion portion. The wire-end expansion portion is provided so as to be located outside an edge of an outermost column-direction wire and an outermost row-direction wire that are disposed on the outermost side of a detectable area formed of a plurality of the column-direction wires and a plurality of the row-direction wires. The column-direction wire and the row-direction wire each have a mesh structure in which a plurality of conductor wires are disposed in a mesh pattern. The wire-end expansion portion has the mesh structure.

Abstract: A touch screen includes a first shield wiring surrounding a plurality of sensor wirings and a plurality of lead wirings, and capacitors. The distance between the first shield wiring and the outermost lead wiring which is the outermost wiring, out of the plurality of lead wirings, is larger than the intervals between the plurality of lead wirings. The capacitors are constituted by first and second electrodes including extending portions which extend in the extending direction.

Abstract: A touch screen according to a disclosed embodiment may have a small cross capacitance between row-direction wiring and column-direction wiring, and a large change of the cross capacitance when the touch screen is touched by an indication body. A row-direction wiring includes a first portion and a second portion having a smaller wiring width than a wiring width of the first portion. A wiring width of the column-direction wiring is smaller than a length in a row direction of the second portion. The row-direction and column-direction wiring intersect in the second portion, and gaps are formed between the row-direction and column-direction wiring in planar view in an intersection portion. The touch screen further includes floating wiring that fills the gaps in planar view, and the floating wiring is formed in the same layer as the row-direction wiring or the column-direction wiring, and is insulated from both wirings.

Abstract: In an intersecting region of a bundle of wirings in a column direction and a bundle of wirings in a row direction, a column wiring block region arranged with detection column wirings and first floating wirings and a row wiring block region arranged with detection row wirings and second floating wirings are disposed in a staggered manner. The bundle of wirings in the column direction includes a first compensation region arranged with the detection column wirings which connect between the detection column wirings in the column wiring block regions adjacent to each other in a diagonal direction. The bundle of wirings in the row direction includes a second compensation region arranged with the detection row wirings which electrically connect between the detection row wirings in the row wiring block regions adjacent to each other in a diagonal direction.

Abstract: An organic electroluminescent element includes: first and second electrodes; and luminous units between the electrodes on a substrate, adjacent luminous units each being separated by an intermediate electrode layer, wherein at least one of the electrodes is a transparent electrode; the luminous units are each an organic functional layer including an organic luminous layer; the intermediate electrode layer includes an independent connecting terminal for electrical connection; a thin-film layer is disposed on a surface of the transparent electrode being at least one of the electrodes; and the thin-film layer has a variable refractive index across a thickness of the thin-film layer, the variable refractive index having an extreme value at which the refractive index changes from an increase to a decrease or an extreme value at which the refractive index changes from a decrease to an increase.