A solid-state imaging device of this embodiment includes a plurality of pixels. Each pixel includes an APD and a first element that is a variable resistor or a switch, one end of which is connected to one end of the APD. Other ends of the plurality of first elements are connected in parallel. Other ends of the plurality of APDs are connected in parallel and connected to a variable resistor. A resistance value of the variable resistor is controlled by a control device.
H04N 25/77 - Circuits de pixels, p. ex. mémoires, convertisseurs A/N, amplificateurs de pixels, circuits communs ou composants communs
H10F 30/225 - Dispositifs individuels à semi-conducteurs sensibles au rayonnement dans lesquels le rayonnement commande le flux de courant à travers les dispositifs, p. ex. photodétecteurs les dispositifs ayant des barrières de potentiel, p. ex. phototransistors les dispositifs étant sensibles au rayonnement infrarouge, visible ou ultraviolet les dispositifs ayant une seule barrière de potentiel, p. ex. photodiodes la barrière de potentiel fonctionnant en régime d'avalanche, p. ex. photodiodes à avalanche
2.
ALL-SOLID-STATE BATTERY AND METHOD FOR PRODUCING SAME
All-solid-state battery (100) includes positive electrode current collector (7), positive electrode layer (20) including positive electrode active materials (3), solid electrolyte (1), a solid electrolyte (2), and conductive fiber (9), solid electrolyte layer (40) including solid electrolyte (6), negative electrode layer (30) including negative electrode active material (4) and solid electrolyte (5), and negative electrode current collector (8), all of which are stacked in this order. Positive electrode layer (20) includes a solvent component of 50 ppm or less. Positive electrode layer (20) includes plate-shaped compressed body (11) between positive electrode active materials (3), the plate-shaped compressed body including at least a part of solid electrolyte (1) and at least a part of conductive fiber (9). Compressed body (11) has a first maximum length in a first direction orthogonal to a thickness direction of compressed body (11) and a second maximum length in a second direction orthogonal to the thickness direction of compressed body (11) and the first direction, at least one of the first maximum length and the second maximum length being 5 times or more and 50 times or less an average thickness of compressed body (11).
An electrolytic capacitor includes a capacitor element and a liquid component, wherein the capacitor element includes an anode body having a dielectric layer and a solid electrolyte in contact with the dielectric layer, the liquid component contains a solvent and a solute, the solvent contains a glycol ether as a first component, the glycol ether contains at least one selected from the group consisting of monoalkyl ether and dialkyl ether, and the glycol ether has a —(CH2O)n— structure, where n is an integer of 1 or more.
H01G 11/60 - Électrolytes liquides caractérisés par le solvant
H01G 11/24 - Électrodes caractérisées par les propriétés structurelles des matériaux composant les électrodes ou inclus dans les électrodes, p. ex. forme, surface ou porositéÉlectrodes caractérisées par les propriétés structurelles des poudres ou particules utilisées à cet effet
H01G 11/56 - Électrolytes solides, p. ex. gelsAdditifs pour ceux-ci
H01G 11/62 - Électrolytes liquides caractérisés par le soluté, p. ex. sels, anions ou cations
4.
PARALLAX INFORMATION GENERATION DEVICE, PARALLAX INFORMATION GENERATION METHOD, AND PARALLAX INFORMATION GENERATION PROGRAM
A parallax information generation device includes: an imaging unit; a process target area determination unit configured to determine a process target area to be subjected to a predetermined image processing in a base image and a reference image captured by the imaging unit; and an image processing unit configured to perform the predetermined image processing to the process target area to generate parallax information. The process target area determination unit identifies a dynamic area in an image capturing scene, by comparing the images between frames, and determines, as the process target area, an area including a part or the entirety of the dynamic area and a part of a static area that is an area other than the dynamic area.
H04N 13/178 - Métadonnées, p. ex. informations sur la disparité
H04N 13/239 - Générateurs de signaux d’images utilisant des caméras à images stéréoscopiques utilisant deux capteurs d’images 2D dont la position relative est égale ou en correspondance à l’intervalle oculaire
H04N 13/25 - Générateurs de signaux d’images utilisant des caméras à images stéréoscopiques utilisant plusieurs capteurs d’images aux caractéristiques différentes autres que la position ou le point de vue, p. ex. avec des différences dans la résolution ou les propriétés de saisie de couleursCommande des caractéristiques d’un capteur par les signaux d’images d’un autre capteur
5.
RESIN COMPOSITION FOR OPTICAL WAVEGUIDES, DRY FILM FOR OPTICAL WAVEGUIDES, AND OPTICAL WAVEGUIDE
A resin composition according to the present disclosure is designed for use in optical waveguides. The resin composition contains an epoxy resin (A) and a photocuring agent (B). The photocuring agent (B) includes a borate (B-1) having a boron anion.
C08G 59/68 - Macromolécules obtenues par polymérisation à partir de composés contenant plusieurs groupes époxyde par molécule en utilisant des agents de durcissement ou des catalyseurs qui réagissent avec les groupes époxyde caractérisées par les catalyseurs utilisés
C08G 59/32 - Composés époxydés contenant au moins trois groupes époxyde
C08G 59/38 - Composés époxydés contenant au moins trois groupes époxyde en mélange avec des composés diépoxydés
G02B 1/04 - Éléments optiques caractérisés par la substance dont ils sont faitsRevêtements optiques pour éléments optiques faits de substances organiques, p. ex. plastiques
6.
NEGATIVE ELECTRODE MATERIAL FOR SECONDARY BATTERIES, AND SECONDARY BATTERY
A negative electrode for a secondary battery includes a silicon-containing particle, and a coating layer that covers at least a portion of the surface of the silicon-containing particle. The silicon-containing particle includes an ion-conducting phase, and silicon phases dispersed in the ion-conducting phase. The coating layer includes a lithium sulfonate compound and a linear saturated fatty acid compound having 10 or more carbon atoms.
An electronic apparatus includes a controller, a storage, and a battery that supplies power to the controller and the storage. The controller acquires conference information related to a web conference. The conference information includes information for specifying an application used in the web conference, a date and time of the web conference, and information related to a conference place or a conference participant. The controller determines information related to a use function or a use apparatus used in the application of the web conference based on the acquired conference information, calculates predicted power consumption consumed in the web conference based on the determined information related to the use function or the use apparatus, and calculates a change in the remaining capacity of the battery based on the calculated predicted power consumption and remaining capacity of the battery.
A nonaqueous electrolyte secondary battery including: an electrode group including a first electrode having a first current collector, a second electrode having a second current collector, and a separator interposed between the first electrode and the second electrode; a nonaqueous electrolyte; and a battery case housing the electrode group and the nonaqueous electrolyte. The first electrode and the second electrode are wound with the separator interposed therebetween, in which an outermost layer of the first electrode is disposed further outside than an outermost layer of the second electrode. The winding-finish end of the first electrode is an end of an excess portion which is wound around an outer surface of the first electrode on the inner layer side, with neither the second electrode nor the separator interposed therebetween, and the excess portion is an exposed portion of the first current collector.
H01M 10/0587 - Structure ou fabrication d'accumulateurs ayant uniquement des éléments de structure enroulés, c.-à-d. des électrodes positives enroulées, des électrodes négatives enroulées et des séparateurs enroulés
A secondary battery includes: a wound electrode group including a pair of electrodes and a separator disposed between the pair of electrodes; a core member disposed in a hollow part of the electrode group; and a non-aqueous electrolyte. At least one of the pair of electrodes includes an active material layer and a resin film supporting the active material layer.
H01M 4/62 - Emploi de substances spécifiées inactives comme ingrédients pour les masses actives, p. ex. liants, charges
H01M 10/0587 - Structure ou fabrication d'accumulateurs ayant uniquement des éléments de structure enroulés, c.-à-d. des électrodes positives enroulées, des électrodes négatives enroulées et des séparateurs enroulés
H01M 50/449 - Séparateurs, membranes ou diaphragmes caractérisés par le matériau ayant une structure en couches
H01M 50/489 - Séparateurs, membranes, diaphragmes ou éléments d’espacement dans les cellules caractérisés par leurs propriétés physiques, p. ex. degré de gonflement, hydrophilicité ou propriétés pour court-circuiter
10.
THERMOELECTRIC CONVERSION ELEMENT, JOINING MATERIAL, THERMOELECTRIC CONVERSION MODULE, THERMOELECTRIC CONVERSION SYSTEM, METHOD FOR GENERATING ELECTRIC POWER, AND METHOD FOR PRODUCING THERMOELECTRIC CONVERSION ELEMENT
The present disclosure provides a thermoelectric conversion element that is advantageous from the viewpoint of inhibiting an increase in electric resistance in high-temperature air. A thermoelectric conversion element according to the present disclosure includes a first metal layer and a thermoelectric convertor. The thermoelectric convertor contains Mg and at least one selected from the group consisting of Sb and Bi. The thermoelectric convertor includes a thermoelectric conversion layer and a first joining layer. The first joining layer contains at least one selected from the group consisting of Fe and Ni. The first joining layer satisfies a condition of 2.5≤α/β≤6.5. In the condition, α is the content of Mg in terms of number of atoms in the first joining layer, and β is the sum of the contents of Sb and Bi in terms of number of atoms in the first joining layer.
H10N 10/17 - Dispositifs thermoélectriques comportant une jonction de matériaux différents, c.-à-d. dispositifs présentant l'effet Seebeck ou l'effet Peltier fonctionnant exclusivement par les effets Peltier ou Seebeck caractérisés par la structure ou la configuration de la cellule ou du thermocouple constituant le dispositif
H10N 10/853 - Matériaux actifs thermoélectriques comprenant des compositions inorganiques comprenant de l'arsenic, de l'antimoine ou du bismuth
A common mode noise filter includes a body, a plurality of conductor layers, and a via conductor. An even number of conductor layers, belonging to the plurality of conductor layers, are spiral layers. The spiral layer includes a spiral conductor and at least one via pad. An outer edge of the via pad includes an outwardly facing portion. The outwardly facing portion has a shape conforming with a shape of an inwardly facing portion of a corresponding spiral layer, belonging to an even number of spiral layers, when viewed in an upward/downward direction.
A gas meter is a gas meter located at each of consumer's places. The gas meter includes: an acceleration sensor that detects acceleration; a controller; and a battery that supplies electric power to the acceleration sensor and the controller. Based on the acceleration detected by the acceleration sensor, the controller changes from a normal mode to at least one calculation mode in which power consumption of the battery is larger than power consumption of the battery in the normal mode. When an integrated value of a value related to the power consumption exceeds a predetermined assumed integrated value, the controller outputs a warning signal.
G01F 15/063 - Dispositifs d'indication ou d'enregistrement pour l'indication à distance utilisant des moyens électriques
G01F 3/22 - Mesure du débit volumétrique des fluides ou d'un matériau solide fluent dans laquelle le fluide passe à travers le compteur par quantités successives et plus ou moins séparées, le compteur étant entraîné par l'écoulement avec des chambres de mesure qui se dilatent ou se contractent au cours du mesurage ayant des parois élastiques mobiles, p. ex. des diaphragmes, soufflets pour les gaz
A non-aqueous electrolyte secondary battery according to one embodiment of the present invention comprises a positive electrode 11, a negative electrode 12, and a non-aqueous electrolyte. The negative electrode 12 contains graphite, a Si-containing material, and carbon nanotubes. The non-aqueous electrolyte includes at least one compound selected from the group consisting of first compounds represent by formula 1 and second compounds represented by formula 2.
A non-aqueous electrolyte secondary battery according to one embodiment of the present invention comprises a positive electrode 11, a negative electrode 12, and a non-aqueous electrolyte. The negative electrode 12 contains graphite, a Si-containing material, and carbon nanotubes. The non-aqueous electrolyte includes at least one compound selected from the group consisting of first compounds represent by formula 1 and second compounds represented by formula 2.
A loop circuit (21) that is electrically connected to an IC chip (30) is formed on a film (20). The loop circuit (21) has metal wiring (20b) disposed in a recessed section (21a) of the film (20). The metal wiring (20b) has: a first terminal section (21b1) that is electrically connected to the IC chip (30); a second terminal section (21b2) that is electrically connected to the first terminal section (21b1) via the IC chip (30); and a wiring section (21b3) that connects the first terminal section (21b1) and the second terminal section (21b2). The wiring section (21b3) has a thickness of 10 μm or less and a line width of 0.2 mm or less.
This information processing method comprises: a step (S11) for acquiring facility data of a facility managed in each of a plurality of energy management systems (20); a step (S12) for extracting and grouping energy management systems (20) pertaining to facility data similar to facility data pertaining to one energy management system (20); a step (S11) for acquiring energy supply/demand data; and a step (S13) for evaluating the validity of the energy saving performance of the one energy management system (20) and outputting the evaluation result by comparing the respective pieces of energy supply/demand data of the grouped energy management systems (20).
H02J 13/00 - Circuits pour pourvoir à l'indication à distance des conditions d'un réseau, p. ex. un enregistrement instantané des conditions d'ouverture ou de fermeture de chaque sectionneur du réseauCircuits pour pourvoir à la commande à distance des moyens de commutation dans un réseau de distribution d'énergie, p. ex. mise en ou hors circuit de consommateurs de courant par l'utilisation de signaux d'impulsion codés transmis par le réseau
16.
INFORMATION PROCESSING METHOD, INFORMATION PROCESSING DEVICE, AND PROGRAM
This information processing method acquires, when moving a non-fungible token (NFT) associated one-to-one with a physical item or a service, or referring to the NFT, country information indicating countries or a group of countries serving as a source and destination for movement or reference of the NFT (S30), and executes different processing related to movement of the NFT depending on whether, as a first case, the countries or group of countries serving as the source and destination for movement or reference of the NFT are different from each other, or as a second case, the countries or group of countries serving as the source and destination for movement of the NFT are the same (S50, S60).
Provided is a non-aqueous electrolyte secondary battery with further improved safety. A non-aqueous electrolyte secondary battery according to one aspect of the present disclosure comprises: a wound electrode body in which a belt-like positive electrode and a belt-like negative electrode are wound with a separator therebetween; and an exterior body that accommodates the electrode body. The negative electrode has a negative electrode current collector and a negative electrode mixture layer formed on the surface of the negative electrode current collector. The positive electrode has a positive electrode current collector, a positive electrode mixture layer formed on the surface of the positive electrode current collector, and a reinforcement layer applied to the surface of the positive electrode current collector on the winding start side beyond the winding start end of the positive electrode mixture layer. The reinforcement layer includes a non-facing part that is not facing the negative electrode mixture layer with the separator therebetween.
H01M 50/586 - Moyens pour empêcher un usage ou une décharge indésirables pour empêcher les contacts incorrects à l’intérieur ou à l’extérieur des batteries à l’intérieur des batteries p. ex. les contacts incorrects des électrodes
H01M 10/0587 - Structure ou fabrication d'accumulateurs ayant uniquement des éléments de structure enroulés, c.-à-d. des électrodes positives enroulées, des électrodes négatives enroulées et des séparateurs enroulés
According to the present invention, in a DAB converter, when stepping down and transmitting power from a first DC unit (E1, Ca) to a second DC unit (E2, Cb), a control circuit (13) performs control so as to include a first period in which the first DC unit (E1, Ca) and a primary winding (n1) of an isolation transformer (TR1) conduct electricity and a second period in which both ends of the primary winding (n1) of the isolation transformer (TR1) are short-circuited within a first bridge circuit (11). The control circuit (13) generates: a first pattern in which a fourth switching element (Q4) turns off and a transition from the first period to the second period occurs; a second pattern in which a second switching element (Q2) turns off and a transition from the first period to the second period occurs; a third pattern in which a first switching element (Q1) turns off and a transition from the first period to the second period occurs; and a fourth pattern in which a third switching element (Q3) turns off and a transition from the first period to the second period occurs.
H02M 3/28 - Transformation d'une puissance d'entrée en courant continu en une puissance de sortie en courant continu avec transformation intermédiaire en courant alternatif par convertisseurs statiques utilisant des tubes à décharge avec électrode de commande ou des dispositifs à semi-conducteurs avec électrodes de commande pour produire le courant alternatif intermédiaire
19.
PROJECTION DEVICE, PROJECTION SYSTEM, AND PROJECTION METHOD
A projection device (20) comprises: a projecting unit (23) that projects drawing data of a building onto a projection surface (50) of the building during construction; a distance measuring unit (22) that measures the distance from each of three or more points on the projection surface (50) to the projection device (20); and a control unit (24) that causes the projection unit (23) to project the drawing data to a projection position on the projection surface (50) determined on the basis of the measured distance and an angle of the distance measuring unit (22) when the distance was measured. When a user is selecting each of the three or more points, the control unit (24) forms, on the projection surface (50), a light emission point based on light emitted by the distance measuring unit (22), thereby presenting the position of the point that the user is about to select to the user, and shining guide light for guiding the position of the light emission point onto the projection surface (50).
The present invention comprises a positive electrode, a negative electrode, a separator positioned between the positive electrode and the negative electrode, and an electrolyte, wherein the positive electrode has a positive electrode current collector and a positive electrode mixture layer that is positioned on a surface of the positive electrode current collector, the positive electrode mixture layer includes a positive electrode active material and a positive electrode conductive agent, and the positive electrode conductive agent contains single-walled carbon nanotubes. The positive electrode active material contains a lithium metal composite oxide, and the atomic ratio of Ni among non-Li metal elements contained in the lithium metal composite oxide is 80% or more. The surface of the positive electrode active material is covered by a compound that contains at least one element selected from the group consisting of B, F, P, S, Cl, Mg, Sr, Ca, Ti, W, Zr, rare earths, and Al.
H01M 4/131 - Électrodes à base d'oxydes ou d'hydroxydes mixtes, ou de mélanges d'oxydes ou d'hydroxydes, p. ex. LiCoOx
H01M 4/36 - Emploi de substances spécifiées comme matériaux actifs, masses actives, liquides actifs
H01M 4/505 - Emploi de substances spécifiées comme matériaux actifs, masses actives, liquides actifs d'oxydes ou d'hydroxydes inorganiques de manganèse d'oxydes ou d'hydroxydes mixtes contenant du manganèse pour insérer ou intercaler des métaux légers, p. ex. LiMn2O4 ou LiMn2OxFy
H01M 4/525 - Emploi de substances spécifiées comme matériaux actifs, masses actives, liquides actifs d'oxydes ou d'hydroxydes inorganiques de nickel, de cobalt ou de fer d'oxydes ou d'hydroxydes mixtes contenant du fer, du cobalt ou du nickel pour insérer ou intercaler des métaux légers, p. ex. LiNiO2, LiCoO2 ou LiCoOxFy
H01M 4/62 - Emploi de substances spécifiées inactives comme ingrédients pour les masses actives, p. ex. liants, charges
The present invention addresses the problem of accurately controlling the light energy density distribution of a projected image to a desired distribution when the projected image dynamically changes. A lighting device (100) is provided with a light source (3), a first optical system (1), a modulation element (5), and a second optical system (2). The first optical system (1) guides light output from the light source (3) to the modulation element (5). The modulation element (5) outputs modulated light from an output region, the modulated light being obtained by dynamically changing the intensity distribution of light that has entered via an entry region (500). The second optical system (2) forms a projected image (800) obtained by enlarging the modulated light and projecting the modulated light onto an irradiated surface (80). The entry region (500) has a trapezoidal shape of which the length of a short side (501) is S1 and the length of a long side (502) is S2. The optical energy density D1 at the short side (501) is greater than the optical energy density D2 at the long side (502).
F21S 2/00 - Systèmes de dispositifs d'éclairage non prévus dans les groupes principaux ou , p. ex. à construction modulaire
G02F 1/13 - Dispositifs ou dispositions pour la commande de l'intensité, de la couleur, de la phase, de la polarisation ou de la direction de la lumière arrivant d'une source lumineuse indépendante, p. ex. commutation, ouverture de porte ou modulationOptique non linéaire pour la commande de l'intensité, de la phase, de la polarisation ou de la couleur basés sur des cristaux liquides, p. ex. cellules d'affichage individuelles à cristaux liquides
The present invention is provided with a positive electrode, a negative electrode, a separator disposed between the positive electrode and the negative electrode, and an electrolyte. The positive electrode has a positive electrode current collector and a positive electrode mixture layer disposed on the surface of the positive electrode current collector. The positive electrode mixture layer contains a positive electrode active material and a positive electrode conductive agent. The positive electrode conductive agent contains carbon nanotubes. The carbon nanotubes contain single-walled carbon nanotubes. The density of the positive electrode mixture layer is 3.65 g/cm3 or more. The negative electrode has a negative electrode current collector and a negative electrode mixture layer disposed on the surface of the negative electrode current collector. The negative electrode mixture layer contains a silicon-containing material as a negative electrode active material, and the content ratio of the silicon-containing material in the negative electrode mixture layer is 5 mass% or more.
H01M 4/131 - Électrodes à base d'oxydes ou d'hydroxydes mixtes, ou de mélanges d'oxydes ou d'hydroxydes, p. ex. LiCoOx
H01M 4/134 - Électrodes à base de métaux, de Si ou d'alliages
H01M 4/36 - Emploi de substances spécifiées comme matériaux actifs, masses actives, liquides actifs
H01M 4/38 - Emploi de substances spécifiées comme matériaux actifs, masses actives, liquides actifs d'éléments simples ou d'alliages
H01M 4/48 - Emploi de substances spécifiées comme matériaux actifs, masses actives, liquides actifs d'oxydes ou d'hydroxydes inorganiques
H01M 4/505 - Emploi de substances spécifiées comme matériaux actifs, masses actives, liquides actifs d'oxydes ou d'hydroxydes inorganiques de manganèse d'oxydes ou d'hydroxydes mixtes contenant du manganèse pour insérer ou intercaler des métaux légers, p. ex. LiMn2O4 ou LiMn2OxFy
H01M 4/525 - Emploi de substances spécifiées comme matériaux actifs, masses actives, liquides actifs d'oxydes ou d'hydroxydes inorganiques de nickel, de cobalt ou de fer d'oxydes ou d'hydroxydes mixtes contenant du fer, du cobalt ou du nickel pour insérer ou intercaler des métaux légers, p. ex. LiNiO2, LiCoO2 ou LiCoOxFy
H01M 4/58 - Emploi de substances spécifiées comme matériaux actifs, masses actives, liquides actifs de composés inorganiques autres que les oxydes ou les hydroxydes, p. ex. sulfures, séléniures, tellurures, halogénures ou LiCoFyEmploi de substances spécifiées comme matériaux actifs, masses actives, liquides actifs de structures polyanioniques, p. ex. phosphates, silicates ou borates
H01M 4/62 - Emploi de substances spécifiées inactives comme ingrédients pour les masses actives, p. ex. liants, charges
A power conversion device (1) comprises: a first switch (AH); a second switch (AL); a third switch (BH); a fourth switch (BL); an isolation transformer (T1); a resonant capacitor (Cr) and a resonant inductor (Lr); and a control unit (10) that controls the switching of the first switch (AH), the second switch (AL), the third switch (BH), and the fourth switch (BL), using a trained model that outputs an output parameter when receiving an input parameter, or using table data that has the function of the trained model.
H02M 3/28 - Transformation d'une puissance d'entrée en courant continu en une puissance de sortie en courant continu avec transformation intermédiaire en courant alternatif par convertisseurs statiques utilisant des tubes à décharge avec électrode de commande ou des dispositifs à semi-conducteurs avec électrodes de commande pour produire le courant alternatif intermédiaire
An electrode mixture layer (12) of an electrode (10) according to the present disclosure contains an electrode active material, a rubber-based binder, and a water-soluble binder. The electrode mixture layer (12) satisfies relational expressions (1), (2), and (3) when: division layers obtained by dividing the electrode mixture layer (12) into four layers in the thickness direction are a first division layer (12a), a second division layer (12b), a third division layer (12c), and a fourth division layer (12d) in this order from the front surface side of the electrode mixture layer (12) toward the electrode current collector (11) side; the mass ratios (%) of rubber-based binders contained in the first division layer, the second division layer, the third division layer, and the fourth division layer to the total mass of the rubber-based binders contained in the electrode mixture layer (12) are A1, B1, C1, and D1, respectively; and the mass ratios (%) of the water-soluble binders contained in the first division layer, the second division layer, the third division layer, and the fourth division layer to the total mass of the water-soluble binders contained in the electrode mixture layer (12) are A2, B2, C2, and D2, respectively. (1) A1+D1
A remote operation assistance method according to the present disclosure is executed by a remote operation assistance device for assisting remote operation in which an operator remotely operates a movable body on the basis of an image for remote operation captured by a camera mounted in the movable body. The remote operation assistance method comprises: executing assistance control for assisting the remote operation if the distance from the movable body to be remotely operated to an object at the periphery of the movable body is less than a threshold; if the image for remote operation is switched, comparing distance sense information indicating the operator's sense of distance with respect to the distance to the object in the image for remote operation before and after the switching; and if the comparison result of the distance sense information satisfies a predetermined assistance criterion, changing the threshold for remote operation between before and after the switching.
A positive electrode (11) has one or more positive electrode core exposed parts (35) which are adjacent to a positive electrode mixture layer (32) in the positive electrode width direction, and in which a positive electrode core (30) is exposed. Positive electrode tabs (20) are bonded one by one to the positive electrode core exposed parts (35). In the positive electrode core exposed parts (35), edges (37) adjacent to the positive electrode mixture layer (32) in the positive electrode width direction include a longitudinally extended edge (37a) extending substantially parallel to the positive electrode longitudinal direction. With regard to at least one of the positive electrode core exposed parts (35), when the elongation rate in the positive electrode longitudinal direction of the longitudinally extended edge (37a) after 100 charge-discharge cycles from a reference time is x%, the distance in the positive electrode width direction between the positive electrode tab (20) and the longitudinally extended edge (37a) is a mm, and the maximum length of the positive electrode core exposed part (35) in the positive electrode width direction is b mm, x ≥ 1% and a/b ≥ 2-3/(2x) hold.
H01M 10/0587 - Structure ou fabrication d'accumulateurs ayant uniquement des éléments de structure enroulés, c.-à-d. des électrodes positives enroulées, des électrodes négatives enroulées et des séparateurs enroulés
H01M 50/107 - Boîtiers primairesFourreaux ou enveloppes caractérisés par leur forme ou leur structure physique ayant une section transversale courbe, p. ex. ronde ou elliptique
H01M 50/152 - Couvercles caractérisés par leur forme pour des cellules ayant une section transversale courbée, p. ex. ronde ou elliptique
H01M 50/167 - Couvercles caractérisés par le procédé d’assemblage des boîtiers avec des couvercles par sertissage
H01M 50/538 - Connexions de plusieurs conducteurs ou languettes d’électrodes empilées enroulées ou pliées
One aspect of the present invention relates to a resin composition which contains a polyphenylene ether compound (A) that has a functional group containing a carbon-carbon unsaturated double bond, a silica filler (B), and a curing agent (C), wherein: the silica filler (B) has an average particle diameter of 0.5 μm or more and 5.0 μm or less, the average particle diameter being obtained by arithmetically averaging the volume-based frequency distribution of the particle size distribution; and when D10 is the volume-based 10% cumulative particle diameter, D50 is the volume-based 50% cumulative particle diameter, and D90 is the volume-based 90% cumulative particle diameter in the particle size distribution of the silica filler (B), at least one of the ratio V (D10/D50) of the D10 to the D50 and the ratio W (D50/D90) of the D50 to the D90 is 0.6 or more in cases where the average particle diameter is less than 1.0 μm, and is 0.7 or more in cases where the average particle diameter is 1.0 μm or more.
C08F 299/02 - Composés macromoléculaires obtenus par des interréactions de polymères impliquant uniquement des réactions entre des liaisons non saturées carbone-carbone, en l'absence de monomères non macromoléculaires à partir de polycondensats non saturés
C08L 71/00 - Compositions contenant des polyéthers obtenus par des réactions créant une liaison éther dans la chaîne principaleCompositions contenant des dérivés de tels polymères
H05K 1/03 - Emploi de matériaux pour réaliser le substrat
28.
RESIN COMPOSITION, AND PREPREG, RESIN-COATED FILM, RESIN-COATED METAL FOIL, METAL-CLAD LAMINATE, AND WIRING BOARD EACH OBTAINED USING SAME
One aspect of the present invention relates to a resin composition comprising a polyfunctional vinyl aromatic copolymer (A) and a silica filler (B), wherein the silica filler (B) has a particle size distribution having a volume-based 10%-cumulative particle diameter (D10) of 0.7 μm or larger, a volume-based 50%-cumulative particle diameter (D50) of 0.9-4.0 μm, and a volume-based 90%-cumulative particle diameter (D90) of 4.5 μm or less.
C08L 25/02 - Homopolymères ou copolymères d'hydrocarbures
B32B 15/08 - Produits stratifiés composés essentiellement de métal comprenant un métal comme seul composant ou comme composant principal d'une couche adjacente à une autre couche d'une substance spécifique de résine synthétique
B32B 27/30 - Produits stratifiés composés essentiellement de résine synthétique comprenant une résine vinyliqueProduits stratifiés composés essentiellement de résine synthétique comprenant une résine acrylique
C08J 5/24 - Imprégnation de matériaux avec des prépolymères pouvant être polymérisés en place, p. ex. fabrication des "prepregs"
This disclosure provides a feature for preventing degradation in performance of a thermoelectric conversion element including Mg and at least one selected from the group consisting of Sb and Bi even when a cutting liquid containing water is used. A method for manufacturing a thermoelectric conversion element according to the present disclosure includes: bringing an alkaline aqueous solution into contact with a wafer (20) that is a workpiece including Mg and at least one selected from the group consisting of Sb and Bi; and cutting the wafer (20) using the alkaline aqueous solution as a cutting liquid (21).
The present invention addresses the problem of providing a capacitor for which it is not necessary to prepare a mold for manufacturing the whole exterior body for each change in specifications. A capacitor (1) comprises a capacitor element (2), an exterior body (3) that accommodates the capacitor element (2), and a resin cured product (4) that is filled into the exterior body (3) and seals the capacitor element (2). The exterior body (3) includes a housing part (5) having an accommodation space (7) that accommodates the capacitor element (2), and an attachment part (30) that can be attached to an external device and is coupled to the housing part (5). In the accommodation space (7), at least part of a bonding location between the housing part (5) and the attachment part (30) is buried in the resin cured product (4).
Provided is a washing machine that can prevent a liquid agent from remaining in a liquid agent discharge flow path. A washing machine according to the present disclosure comprises: a washing tub; a water supply device; a liquid agent tank for storing a liquid agent to be supplied to the washing tub; a guide flow path for guiding the liquid agent and water to the washing tub; a pipe part connected between the water supply device and the guide flow path and supplying, to the guide flow path, water supplied from the water supply device; and a liquid agent supply device having a discharge part for discharging the liquid agent stored in the liquid agent tank to an internal flow path of the pipe part. The pipe part has: an upstream pipe extending in a direction including a component in a first horizontal direction; a downstream pipe extending in a direction including a component in a second horizontal direction opposite to the first horizontal direction; and a bent part that is bent and connects the upstream pipe and the downstream pipe. The discharge part of the liquid agent supply device is connected to the downstream pipe.
The purpose of the present invention is to achieve downsizing while suppressing common mode noise. This step-down converter (100) comprises a first capacitor (1), a second capacitor (2), a first inductor (11), a second inductor (12), a first switching element (Q1), a second switching element (Q2), a third inductor (13), a fourth inductor (14), a third capacitor (3), a fourth capacitor (4), a fifth capacitor (5), a ground conductor part (10), a sixth capacitor (6), a seventh capacitor (7), a fifth inductor (15), an eighth capacitor (8), and a resistor (31). The fifth inductor (15) is connected between a fifth node (N5) and the first capacitor (1). The eighth capacitor (8) is connected in series to the fifth inductor (15) between the fifth node (N5) and the first capacitor (1). The resistor (31) is connected in series to the fifth inductor (15) between the fifth node (N5) and the first capacitor (1).
H02M 3/155 - Transformation d'une puissance d'entrée en courant continu en une puissance de sortie en courant continu sans transformation intermédiaire en courant alternatif par convertisseurs statiques utilisant des tubes à décharge avec électrode de commande ou des dispositifs à semi-conducteurs avec électrode de commande utilisant des dispositifs du type triode ou transistor exigeant l'application continue d'un signal de commande utilisant uniquement des dispositifs à semi-conducteurs
Provided is a quality control system for managing the quality of cargo on the basis of odors in a container in which the cargo is stored. The quality control system comprises: a plurality of sensors including at least an odor sensor for measuring odors in the container to generate odor data, the plurality of sensors measuring conditions in the container to generate measurement data; a calculation device for analyzing a state of the cargo on the basis of the odor data; and a monitoring device that determines whether to execute an alarm operation for giving a notification of the state of the cargo on the basis of an alarm level corresponding to the analysis result of the state of the cargo, analyzes an abnormality cause on the basis of the measurement data and a prescribed threshold corresponding to the measurement data when the alarm operation has been executed, and executes a prescribed action on the basis of the alarm level and the abnormality factor.
A disclosed cylindrical lithium primary battery (100) includes: an electrode group (10) in which a positive electrode (1), a negative electrode (2), and a separator (3) are wound; a short-circuit metal sheet (21) disposed on the negative electrode (1); and a battery case that accommodates the electrode group (10) and functions as a negative electrode terminal. The positive electrode (1) includes: a positive electrode current collector having a plurality of through holes; and a positive electrode mixture layer disposed on the positive electrode current collector. The positive electrode has a current collector exposed part (1c) where a part of the positive electrode current collector is exposed. The negative electrode (2) includes a lithium-containing metal sheet. The short-circuit metal sheet (21) contains at least one metal element M selected from the group consisting of copper, iron, nickel, and zinc. At least a part of the short-circuit metal sheet (21) and at least a part of the current collector exposed part (1c) face each other across the separator (3). The short-circuit metal sheet (21) is electrically connected to the battery case not through the lithium-containing metal sheet.
Disclosed is a cylindrical lithium primary battery (100) including: an electrode group (10) in which a positive electrode (1), a negative electrode (2), and a separator (3) are wound; an electrically insulating layer (22) disposed inside the electrode group (10); a short-circuiting metal sheet (21) disposed on the negative electrode (2); and a battery case (9). The positive electrode (1) includes a positive electrode mixture layer disposed on a positive electrode current collector. The negative electrode (2) includes a lithium-containing metal sheet. The short-circuiting metal sheet (21) contains at least one metal element M selected from the group consisting of copper, iron, nickel, and zinc. The lithium-containing metal sheet, the short-circuiting metal sheet (21), and the battery case (9) are electrically connected. The electrode group (10) has a layered portion (10x) in which the electrically insulating layer (22) is disposed. In the layered portion, the lithium-containing metal sheet, the short-circuiting metal sheet (21), the separator (3), the positive electrode (1), and the electrically insulating layer (22) are laminated in a prescribed order.
Provided are a projection member, a piping member, and a piping system with which the flow rate can be improved while a reduction in size can also be achieved. A projection member (6-1) partially reduces the flow passage cross-sectional area of a straight pipe part (vertical pipe 3) as a constituent of the piping system, the member being located inside the straight pipe part (vertical pipe 3). The projection member (6-1) has: a top part (6c) that is located between an upstream-side end (first end 6a) and a downstream-side end (second end 6b) in the flow direction of the fluid flowing through the straight pipe part (vertical pipe 3), and that reduces the flow passage cross-sectional area of the straight pipe part (vertical pipe 3) to the greatest extent; and a surface (60a) that can contact the fluid. The surface (60a) includes a water-repellent region (600) that is water-repellent. At least part of the water-repellent region (600) is located between the upstream-side end (first end 6a) and the top part (6c).
A control method according to the present disclosure is for controlling, by means of a computer with the support of an operator, an autonomous moving body which is capable of moving autonomously and performing a prescribed task, wherein actual measurement of the load of the operator is performed on the basis of first information indicating the status of the autonomous moving body, which is operating according to an operation schedule of the autonomous moving body, an actual measured load is calculated, and the autonomous moving body is controlled so as to increase the load of the operator if the actual measured load is equal to or less than a first threshold value.
A drive element (1) is provided with: a movable part (11); a drive part (12); a fixing part (15); and a plurality of electrode pads (16a) that are installed on the upper surface of the fixing part (15) and connected to the drive part (12). A plurality of electrode pads (21a) are arranged at positions facing the plurality of electrode pads (16a) on the lower surface of a support substrate (2). The upper surface of the fixing part (15) is fixed to the lower surface of the support substrate (2) by an adhesive (23) in which elastic modulus decreases as the temperature rises in a plurality of portions that are discrete from each other. The plurality of portions include a portion corresponding to an antinode of vibrations of the fixing part (15) that occur during the resonant drive of the movable part (11). The electrode pads (16a, 21a) serving as a set are connected to each other at any of the plurality of portions.
B81B 3/00 - Dispositifs comportant des éléments flexibles ou déformables, p. ex. comportant des membranes ou des lamelles élastiques
G02B 26/08 - Dispositifs ou dispositions optiques pour la commande de la lumière utilisant des éléments optiques mobiles ou déformables pour commander la direction de la lumière
39.
POSITIVE ELECTRODE ACTIVE MATERIAL FOR NON-AQUEOUS ELECTROLYTE SECONDARY BATTERY, AND NON-AQUEOUS ELECTROLYTE SECONDARY BATTERY
Provided is a positive electrode active material which contributes to an improvement in the durability of a non-aqueous electrolyte secondary battery. This positive electrode active material included in the non-aqueous electrolyte secondary battery comprises a lithium transition metal composite oxide, wherein: the lithium transition metal composite oxide contains Ni, Ca, and Sr, and contains secondary particles formed by aggregating primary particles; adhered particles including fibrous particles are present on the surfaces of the secondary particles; and the fibrous particles contain at least one among Ca and Sr.
H01M 4/525 - Emploi de substances spécifiées comme matériaux actifs, masses actives, liquides actifs d'oxydes ou d'hydroxydes inorganiques de nickel, de cobalt ou de fer d'oxydes ou d'hydroxydes mixtes contenant du fer, du cobalt ou du nickel pour insérer ou intercaler des métaux légers, p. ex. LiNiO2, LiCoO2 ou LiCoOxFy
H01M 4/36 - Emploi de substances spécifiées comme matériaux actifs, masses actives, liquides actifs
A control method according to the present disclosure is executed by a device, and includes: acquiring action information relating to an action by a user with respect to an article, said action being for improving the condition of the article (S116); on the basis of the action information, calculating a degree of improvement representing the extent of improvement in the condition of the article (S123); and, on the basis of the degree of improvement, determining an amount of tokens to be granted to the user (S124).
This display method comprises: an acquisition step (S13) of acquiring detection frame information indicating the positions and sizes of detection frames indicating food captured in an image of the inside of a refrigerator (20) detected by a machine learning model; a selection step (S14) of selecting a plurality of first detection frames indicating the same type of food from among the detection frames indicated by the acquired detection frame information; a generation step (S14) of generating a second detection frame obtained by merging a pair of first detection frames satisfying a predetermined requirement among the plurality of selected first detection frames; and an output step (S15) of outputting information for displaying the generated second detection frame on the image.
This video processing method makes it possible to more easily detect a pattern image superimposed on a video in order to correct the deviation of the display position of the video without the pattern image being recognized by a viewer. In this video processing method, a pattern image (a third pattern image) is acquired from the acquired one or more superimposed subframes. In the video processing method, the deviation of the display position of a video projected on a display surface by comparing a feature point of the acquired pattern image with a standard feature point. In the video processing method, increase/decrease processing for increasing or decreasing the degree of acquiring the pattern image from the acquired one or more superimposed subframes according to the acquired result of the pattern image is executed.
H04N 5/74 - Dispositifs de projection pour reproduction d'image, p. ex. eidophor
G09G 5/00 - Dispositions ou circuits de commande de l'affichage communs à l'affichage utilisant des tubes à rayons cathodiques et à l'affichage utilisant d'autres moyens de visualisation
This electric motor is provided with: a rotor having a rotation shaft; a commutator attached to the rotation shaft; a brush in contact with the commutator; a stator for generating a magnetic force acting on the rotor; a frame in which the stator is housed; a resin plate disposed so as to cover the opening of the frame; and a seal member disposed on the bottom surface of a step part provided on the outer surface of an outer peripheral end part of the plate and positioned between a rising surface of the step part and an inner peripheral surface of the frame. A plurality of support parts for supporting the plate are provided along the circumferential direction on the inner peripheral surface of the frame. The plate has a plurality of reception parts for receiving the plurality of support parts. When a circle centered on the axis of the rotation shaft is equally divided into a plurality of regions along the circumferential direction by a plurality of division lines with the width of the brush as a reference unit, the plurality of reception parts are respectively positioned on the plurality of division lines.
H02K 13/00 - Association structurelle de collecteurs de courant et de moteurs ou de génératrices, p. ex. plaques de montage des balais ou connexions avec les enroulementsAgencement des collecteurs de courant dans les moteurs ou les génératricesDispositions pour améliorer la commutation
H02K 5/10 - Enveloppes ou enceintes caractérisées par leur configuration, leur forme ou leur construction avec des dispositions empêchant l'introduction de corps étrangers, p. ex. de l'eau ou des doigts
44.
EPOXY RESIN COMPOSITION, EPOXY RESIN COMPOSITION FOR OPTICAL WAVEGUIDE, EPOXY RESIN COMPOSITION FOR INTERLAYER INSULATION, RESIN-COATED FILM, AND LIQUID MATERIAL
Epoxy resin compositions each comprising an epoxy resin (A), one or more ester compounds (B), and a photopolymerization initiator (C), wherein the ester compounds (B) include at least one compound selected from among active ester compounds (B1) having a vinyl group and an aromatic ring and acid anhydride compounds (B2) having a vinyl group.
C08G 59/40 - Macromolécules obtenues par polymérisation à partir de composés contenant plusieurs groupes époxyde par molécule en utilisant des agents de durcissement ou des catalyseurs qui réagissent avec les groupes époxyde caractérisées par les agents de durcissement utilisés
C08F 2/50 - Polymérisation amorcée par énergie ondulatoire ou par rayonnement corpusculaire par la lumière ultraviolette ou visible avec des agents sensibilisants
C08G 59/17 - Polycondensats modifiés par post-traitement chimique par des acides monocarboxyliques ou par leurs anhydrides, halogénures ou esters à bas poids moléculaire par l'acide acrylique ou méthacrylique
G02B 6/12 - Guides de lumièreDétails de structure de dispositions comprenant des guides de lumière et d'autres éléments optiques, p. ex. des moyens de couplage du type guide d'ondes optiques du genre à circuit intégré
H05K 1/03 - Emploi de matériaux pour réaliser le substrat
45.
RESIN COMPOSITION FOR OPTICAL WAVE GUIDE AND DRY FILM AND OPTICAL WAVEGUIDE USING SAID COMPOSITION
This resin composition for an optical waveguide contains an epoxy compound (A). The epoxy compound (A) contains a first epoxy compound (a1) having a norbornane structure and a second epoxy compound (a2) having a silicon structure having 1 to 6 Si. The content of the second epoxy compound (a2) is 5 to 60 parts by mass per 100 parts by mass of the first epoxy compound (a1).
G02B 6/12 - Guides de lumièreDétails de structure de dispositions comprenant des guides de lumière et d'autres éléments optiques, p. ex. des moyens de couplage du type guide d'ondes optiques du genre à circuit intégré
This secondary battery is characterized by comprising: an electrode body in which a positive electrode (11) and a negative electrode (12) are wound with a separator (13) interposed therebetween; a negative electrode current collector plate (17) electrically connected to the negative electrode (12); and an electrolyte solution, the negative electrode (12) having a negative electrode core body (40) and negative electrode mixture layers (42) disposed on the negative electrode core body (40), a negative electrode core body exposed part (44) on which the negative electrode mixture layers (42) are not disposed being provided at one end of the negative electrode core body (40) in the winding axis direction of the electrode body, the negative electrode core body exposed part (44) being joined to the negative electrode current collector plate (17), a swellable resin layer (46) being provided on the negative electrode core body exposed part (44).
H01M 10/0587 - Structure ou fabrication d'accumulateurs ayant uniquement des éléments de structure enroulés, c.-à-d. des électrodes positives enroulées, des électrodes négatives enroulées et des séparateurs enroulés
H01M 50/586 - Moyens pour empêcher un usage ou une décharge indésirables pour empêcher les contacts incorrects à l’intérieur ou à l’extérieur des batteries à l’intérieur des batteries p. ex. les contacts incorrects des électrodes
A secondary battery (10) comprises a bottomed cylindrical exterior body (16) that has an opening part, a sealing body (18) for sealing the opening part, an electrode body 12 that is accommodated in the exterior body (16), an electrolytic solution that is accommodated in the exterior body (16), and an insulating member (20) that is accommodated in the exterior body (16). The secondary battery (10) is characterized in that: the exterior body (16) has a groove part (26) formed therein, where a part of a side surface of the exterior body (16) is recessed inward thereof to support the sealing body (18); the insulating member (20) has a flat plate part (22) positioned between the electrode body (12) and the groove part (26), and a protruding part (24) protruding from the sealing body-side surface of the flat plate part (22), the protruding part (24) contacting the inner wall of the groove part (26); and the length of the protruding part (24) from one end of the protruding part (24) on the flat plate part (22) side to the tip of the protruding part (24) is longer than the length in the vertical direction from the sealing body-side surface of the flat plate part (22) to the upper surface of the groove part (26) on the inner wall side.
H01M 50/477 - Éléments d'espacement à l'intérieur des cellules autres que les séparateurs, les membranes ou les diaphragmesLeurs procédés de fabrication caractérisés par leur forme
H01M 50/107 - Boîtiers primairesFourreaux ou enveloppes caractérisés par leur forme ou leur structure physique ayant une section transversale courbe, p. ex. ronde ou elliptique
H01M 50/167 - Couvercles caractérisés par le procédé d’assemblage des boîtiers avec des couvercles par sertissage
H01M 50/474 - Éléments d'espacement à l'intérieur des cellules autres que les séparateurs, les membranes ou les diaphragmesLeurs procédés de fabrication caractérisés par leur position dans les cellules
H01M 50/489 - Séparateurs, membranes, diaphragmes ou éléments d’espacement dans les cellules caractérisés par leurs propriétés physiques, p. ex. degré de gonflement, hydrophilicité ou propriétés pour court-circuiter
The present invention comprises: an electrode body (14) in which a first electrode (positive electrode (11)) and a second electrode (negative electrode (12)) are disposed with a separator (13) therebetween; and an exterior body (16) that accommodates the electrode body (14). The first electrode (positive electrode (11)) has a tip portion that extends beyond an end portion of the second electrode (negative electrode (12)) in a first direction. After bending, the tip portion is connected to a first current collector plate (upper current collector plate (19)). A plurality of openings are formed in the tip portion.
H01M 50/533 - Connexions d’électrodes dans un boîtier de batterie caractérisées par la forme des conducteurs ou des languettes
H01M 50/536 - Connexions d’électrodes dans un boîtier de batterie caractérisées par le procédé de fixation des conducteurs aux électrodes, p. ex. soudage
H01M 50/548 - Bornes caractérisées par la position des terminaux sur les cellules sur des côtés opposés de la cellule
An estimation device (101) according to the present invention generates a multicarrier signal, causes a transmission antenna unit (100) having M transmission antenna elements to transmit the multicarrier signal and, for a first period corresponding to a period derived from activity of a living body, observes a reception signal received by N reception antenna elements of a reception antenna unit (130), the reception signal including a reflection signal that results from the multicarrier signal transmitted from the M transmission antenna elements and reflected or scattered by the living body. A plurality of complex transfer functions respectively representing propagation characteristics between the M transmission antenna elements and the N reception antenna elements are calculated for each of a plurality of subcarriers by using the reception signal observed in the first period, squared values of amplitudes of the plurality of complex transfer functions are calculated, and the distance of a path from the transmission antenna to the reception antenna via the living body is estimated on the basis of the square value.
G01S 13/42 - Mesure simultanée de la distance et d'autres coordonnées
A61B 5/11 - Mesure du mouvement du corps entier ou de parties de celui-ci, p. ex. tremblement de la tête ou des mains ou mobilité d'un membre
A61B 5/113 - Mesure du mouvement du corps entier ou de parties de celui-ci, p. ex. tremblement de la tête ou des mains ou mobilité d'un membre se produisant au cours de la respiration
G01S 7/02 - Détails des systèmes correspondant aux groupes , , de systèmes selon le groupe
The present disclosure provides an alkaline battery capable of suppressing the leakage of an alkaline electrolyte. This alkaline battery comprises a battery case (1) having an opening, a power generation element accommodated in the battery case (1), and a sealing unit (9) for sealing the opening, wherein: the power generation element includes a positive electrode (2), a negative electrode (3), and a separator (4) interposed between the positive electrode (2) and the negative electrode (3); the sealing unit (9) includes a negative electrode terminal plate (7), a negative electrode current collector (6) joined to the negative electrode terminal plate (7), and a gasket (5); the negative electrode current collector (6) has a columnar body part (6a), and a head part (6b) which protrudes in a radially outward direction from one end portion of the columnar body part (6a) in the longitudinal direction; the gasket (5) is formed of a polypropylene resin and includes a boss part having a through-hole through which the body part (6a) passes, an outer peripheral part which is in contact with an opening end portion of the battery case (1), and a connection part which connects the boss part and the outer peripheral part; the head part (6b) of the negative electrode current collector (6) is disposed on one end side of the boss part in the longitudinal direction; and the elastic modulus, measured at the central section on the outer peripheral surface of the boss part in a state in which the body part (6a) passes through the through-hole, is 1.50-2.50 GPa.
H01M 50/198 - Éléments de scellement caractérisés par le matériau caractérisés par les propriétés physiques, p. ex. adhérence ou dureté
H01M 50/107 - Boîtiers primairesFourreaux ou enveloppes caractérisés par leur forme ou leur structure physique ayant une section transversale courbe, p. ex. ronde ou elliptique
H01M 50/152 - Couvercles caractérisés par leur forme pour des cellules ayant une section transversale courbée, p. ex. ronde ou elliptique
H01M 50/184 - Éléments de scellement caractérisés par leur forme ou leur structure
H01M 50/188 - Éléments de scellement caractérisés par la position des éléments de scellement les éléments de scellement étant arrangés entre le couvercle et la borne
The present disclosure provides a manganese dry cell in which an explosion-proof mechanism operates reliably even in a high-temperature environment. Disclosed is a manganese dry cell (100) comprising: a hollow cylindrical positive electrode mixture (1); a negative electrode can (4); a separator (3) disposed between the positive electrode mixture (1) and the negative electrode can (4); a positive electrode current collector (2) inserted into a hollow part of the positive electrode mixture (1); a positive electrode terminal plate electrically connected to the positive electrode current collector (2); a sealing body (5) insulating the positive electrode terminal plate and the negative electrode can (4) from one another; and an electrolyte. The sealing body (5) has: a tubular part that holds the positive electrode current collector (2); an outer circumferential part in contact with the inner wall of the negative electrode can (4); and a connecting part connecting the tubular part with the outer circumferential part. The positive electrode terminal plate has an annular part in contact with the connecting part. In a part of the circumferential direction, the connecting part has a first recess. A first space is formed between the annular part and the connecting part by the first recess, and a second space is formed between an upper surface perpendicular to the axis of the tubular part and the positive electrode terminal plate in at least a part of the circumferential direction.
H01M 6/06 - Éléments secs, c.-à-d. éléments dans lesquels l'électrolyte est rendu non fluide
H01M 50/184 - Éléments de scellement caractérisés par leur forme ou leur structure
H01M 50/188 - Éléments de scellement caractérisés par la position des éléments de scellement les éléments de scellement étant arrangés entre le couvercle et la borne
One embodiment of a training data generation device according to the present disclosure comprises: a memory that stores a target model and a concealment model; and a processor that generates, as training data, an image in which a portion of the target model is hidden by the concealment model such that the concealment rate of a feature region designated on a screen that displays the target model is less than a first threshold value.
This information processing method comprises: a step (S11) for acquiring weather data pertaining to a plurality of renewable energy power generation systems; a step (S12) for extracting renewable energy power generation systems pertaining to weather data similar to weather data pertaining to one renewable energy power generation system, and grouping the extracted renewable energy power generation systems together with the one renewable energy power generation system; a step (S11) for acquiring power generation amount data of each of the grouped renewable energy power generation systems; and a step (S13) for evaluating the validity of the power generation performance of the one renewable energy power generation system and outputting the evaluation result by comparing the respective pieces of power generation amount data of the grouped renewable energy power generation systems.
H02J 3/00 - Circuits pour réseaux principaux ou de distribution, à courant alternatif
H02J 3/38 - Dispositions pour l’alimentation en parallèle d’un seul réseau, par plusieurs générateurs, convertisseurs ou transformateurs
H02J 13/00 - Circuits pour pourvoir à l'indication à distance des conditions d'un réseau, p. ex. un enregistrement instantané des conditions d'ouverture ou de fermeture de chaque sectionneur du réseauCircuits pour pourvoir à la commande à distance des moyens de commutation dans un réseau de distribution d'énergie, p. ex. mise en ou hors circuit de consommateurs de courant par l'utilisation de signaux d'impulsion codés transmis par le réseau
H02S 50/00 - Surveillance ou tests de systèmes PV, p. ex. équilibrage de charge ou identification des défauts
The present disclosure provides a dust collection adapter that has a simple configuration and makes it possible to efficiently collect dust in a gas without causing a loss in pressure. This dust collection adapter is arranged in the interior of the housing of a gas meter and collects dust in a gas. The dust collection adapter comprises: a shutoff valve attachment joint having one end connected to an inlet-side gas passage; an outlet opening that is provided to the other end of the shutoff valve attachment joint and opens inside the housing; and a collision wall facing the outlet opening.
G01F 3/22 - Mesure du débit volumétrique des fluides ou d'un matériau solide fluent dans laquelle le fluide passe à travers le compteur par quantités successives et plus ou moins séparées, le compteur étant entraîné par l'écoulement avec des chambres de mesure qui se dilatent ou se contractent au cours du mesurage ayant des parois élastiques mobiles, p. ex. des diaphragmes, soufflets pour les gaz
G01F 1/00 - Mesure du débit volumétrique ou du débit massique d'un fluide ou d'un matériau solide fluent, dans laquelle le fluide passe à travers un compteur par un écoulement continu
This secondary battery is characterized in that: the secondary battery comprises an electrode body (14) in which a positive electrode (11) and a negative electrode (12) are wound with a separator (13) therebetween, a negative electrode current collector plate (17) electrically connected to the negative electrode (12), and an electrolyte solution; the negative electrode (12) includes a belt-like negative electrode core body and a negative electrode mixture layer disposed on the negative electrode core body; the electrode body (14) of the negative electrode core body includes, at one end in the winding axis direction thereof, a negative electrode core body exposed part (44) on which the negative electrode mixture layer is not disposed; the negative electrode core body exposed part (44) is joined to the negative electrode current collector plate (17); the positive electrode (11) includes a belt-like positive electrode core body and a positive electrode mixture layer disposed on the positive electrode core body; the positive electrode mixture layer includes a positive electrode active material and carbon nanotubes; and the carbon nanotubes include at least one of single-walled carbon nanotubes and multi-walled carbon nanotubes.
H01M 10/0587 - Structure ou fabrication d'accumulateurs ayant uniquement des éléments de structure enroulés, c.-à-d. des électrodes positives enroulées, des électrodes négatives enroulées et des séparateurs enroulés
H01M 50/531 - Connexions d’électrodes dans un boîtier de batterie
A stator structure (20) according to an embodiment comprises a stator (30) and a stator frame (40) that is formed into a bottomed cylindrical shape having an opening and accommodates the stator (30). The stator structure (20) also comprises: a filling resin (70) that fills a space between a bottom (41) of the stator frame (40) and the stator (30); and a bearing (BR) that is disposed on the bottom (41) of the stator frame (40) and has an outer diameter larger than the inner diameter of the stator (30). The bottom (41) of the stator frame (40) comprises: a retaining wall (42) that retains the outer peripheral surface of the bearing (BR); and a resin-contacting wall (43) that is provided between the retaining wall (42) and the stator (30), extends radially inward of the retaining wall (42), and contacts the filling resin (70).
This electricity storage device comprises: an electrode body (14) in which a first electrode plate and a second electrode plate are wound with a separator interposed therebetween; and an exterior body (15) that accommodates the electrode body. The first electrode plate has a first core body and a first mixture layer formed on the surface of a first core body. First exposed portions where the first core body is exposed are disposed at one side end portion of the electrode body in the winding axis direction. Each first exposed portion has a folded portion obtained by folding back one or more times and folding so as to overlap. The folded portions are tilted in a first direction, and the folded portions of the adjacent circumferential portions of the first electrode plate overlap. A current collecting portion is formed at the one side end portion in the winding axis direction.
H01M 10/0587 - Structure ou fabrication d'accumulateurs ayant uniquement des éléments de structure enroulés, c.-à-d. des électrodes positives enroulées, des électrodes négatives enroulées et des séparateurs enroulés
H01M 50/536 - Connexions d’électrodes dans un boîtier de batterie caractérisées par le procédé de fixation des conducteurs aux électrodes, p. ex. soudage
H01M 50/538 - Connexions de plusieurs conducteurs ou languettes d’électrodes empilées enroulées ou pliées
H01M 50/586 - Moyens pour empêcher un usage ou une décharge indésirables pour empêcher les contacts incorrects à l’intérieur ou à l’extérieur des batteries à l’intérieur des batteries p. ex. les contacts incorrects des électrodes
This resistor includes an insulating substrate, a pair of upper-surface electrodes, a resistor, a pair of bottom-surface electrodes, a pair of end-face electrodes, and a pair of plating layers. The pair of upper-surface electrodes are formed on a first main surface positioned on one side in the thickness direction of the insulating substrate. The resistor is formed on the first main surface and electrically connects the pair of upper-surface electrodes to each other. The pair of bottom-surface electrodes are formed on a second main surface located on the other side in the thickness direction of the insulating substrate. The pair of end-face electrodes are formed on end faces (outer peripheral surfaces) along the thickness direction of the insulating substrate, and electrically connect the pair of upper-surface electrodes and the pair of bottom-surface electrodes. The pair of plating layers are formed on the pair of upper-surface electrodes, the pair of bottom-surface electrodes, and the pair of end-face electrodes. The pair of bottom-surface electrodes have an asymmetric shape when viewed from a direction perpendicular to the second main surface.
H01C 1/142 - Bornes ou points de prise spécialement adaptés aux résistancesDispositions de bornes ou points de prise sur les résistances les bornes ou points de prise étant constitués par un revêtement appliqué sur l'élément résistif
H01C 7/00 - Résistances fixes constituées par une ou plusieurs couches ou revêtementsRésistances fixes constituées de matériaux conducteurs en poudre ou de matériaux semi-conducteurs en poudre avec ou sans matériaux isolants
This electric motor is provided with: a rotor having a rotating shaft that extends in the axial direction; a stator; and a bearing that rotatably supports the rotating shaft. The electric motor has two support parts of a first support part and a second support part as locations supported by a support base to which the electric motor is attached. The first support part and the second support part are present at mutually different positions in the axial direction in which the rotating shaft extends, and the positions of the first support part and the second support part are different from the positions of the bearings.
H02K 5/167 - Moyens de support des paliers, p. ex. supports isolants ou moyens pour ajuster les paliers dans leurs flasques utilisant des paliers à contact lisse ou des chapeaux de palier sphériques
A connector set (100) comprises: a first board (14); a first connector (10) disposed underneath the first board (14) and electrically connected to the first board (14); a cover member (17) covering the top and sides of the first connector (10); a second connector (20) connected to the first connector (10); and a first securing member (31) and a second securing member that are secured to the second connector (20). The cover member (17) has a first hole (181) provided in a first side wall (171) of the cover member (17) and a second hole provided in a second side wall of the cover member (17) opposite the first side wall (171). The first securing member (31) is inserted into the first hole (181), and the second securing member is inserted into the second hole. The width (A31) of the first securing member (31) in the vertical direction is less than the distance (A100) between a lower surface (141) of the first board (14) and a lower edge of the second connector (20) in the vertical direction.
A non-aqueous electrolyte secondary battery (10) is provided with: an electrode body (14); a bottomed cylindrical outer can (20) that contains a first metal material; and a sealing body (30) that closes an opening (24) of the outer can (20). The non-aqueous electrolyte secondary battery (10) is characterized in that the side surface of the outer can (20) on the opening (24) side is provided with an annular groove (23) that is recessed inward in the radial direction of the outer can, inside the annular groove (23), there is a protective member (40) that abuts at least a portion of the surface of the annular groove (23) and contains a second metal material, and the melting point of the second metal material is lower than the melting point of the first metal material and is 500°C or lower.
H01M 50/107 - Boîtiers primairesFourreaux ou enveloppes caractérisés par leur forme ou leur structure physique ayant une section transversale courbe, p. ex. ronde ou elliptique
H01M 50/128 - Boîtiers primairesFourreaux ou enveloppes caractérisés par le matériau ayant une structure en couches comprenant au moins trois couches dont au moins deux couches de matériaux inorganiques uniquement
The present invention suppresses a reduction in a detection magnetic field. A magnetoresistance pattern portion (31) of a first magnetoresistance effect element (111) and the magnetoresistance pattern portion (31) of a third magnetoresistance effect element (121) overlap in a plan view from a first direction (D1). The magnetoresistance pattern portion (31) of a second magnetoresistance effect element (112) and the magnetoresistance pattern portion (31) of a fourth magnetoresistance effect element (122) overlap in a plan view from the first direction (D1). A magnetoresistance pattern portion (32) of a fifth magnetoresistance effect element (211) and the magnetoresistance pattern portion (32) of a seventh magnetoresistance effect element (221) overlap in a plan view from a second direction (D2). The magnetoresistance pattern portion (32) of a sixth magnetoresistance effect element (212) and the magnetoresistance pattern portion (32) of an eighth magnetoresistance effect element (222) overlap in a plan view from the second direction (D2).
G01R 33/09 - Mesure de la direction ou de l'intensité de champs magnétiques ou de flux magnétiques en utilisant des dispositifs galvano-magnétiques des dispositifs magnéto-résistifs
G01D 5/16 - Moyens mécaniques pour le transfert de la grandeur de sortie d'un organe sensibleMoyens pour convertir la grandeur de sortie d'un organe sensible en une autre variable, lorsque la forme ou la nature de l'organe sensible n'imposent pas un moyen de conversion déterminéTransducteurs non spécialement adaptés à une variable particulière utilisant des moyens électriques ou magnétiques influençant la valeur d'un courant ou d'une tension en faisant varier la résistance
G01R 33/02 - Mesure de la direction ou de l'intensité de champs magnétiques ou de flux magnétiques
This battery pack comprises: a battery core pack that connects a plurality of battery blocks in a straight line; an exterior case that houses the core pack; and a securing part, wherein the exterior case comprises an outer cylinder part, a first lid part, and a second lid part, the securing part comprises a connecting shaft to be inserted into the plurality of battery blocks, a connecting nut, and a set screw, the connecting nut has on one end a first threaded hole into which the connecting shaft is screwed and has on the other end a second threaded hole into which the set screw is screwed, the core pack is clamped between the connecting nut and the connecting shaft to secure the battery blocks in a stacked state, and the set screw penetrates through the first lid part to secure the first lid part to the core pack.
H01M 50/213 - Bâtis, modules ou blocs de multiples batteries ou de multiples cellules caractérisés par leur forme adaptés aux cellules ayant une section transversale courbée, p. ex. ronde ou elliptique
H01M 50/204 - Bâtis, modules ou blocs de multiples batteries ou de multiples cellules
H01M 50/264 - MonturesBoîtiers secondaires ou cadresBâtis, modules ou blocsDispositifs de suspensionAmortisseursDispositifs de transport ou de manutentionSupports avec des moyens de fixation, p. ex. des serrures pour des cellules ou des batteries, p. ex. cadres périphériques, courroies ou tiges
H01M 50/271 - Couvercles des boîtiers secondaires, des bâtis ou des blocs
H01M 50/291 - MonturesBoîtiers secondaires ou cadresBâtis, modules ou blocsDispositifs de suspensionAmortisseursDispositifs de transport ou de manutentionSupports caractérisés par des éléments d’espacement ou des moyens de positionnement dans les racks, les cadres ou les blocs caractérisés par leur forme
This non-aqueous electrolyte secondary battery comprises: a bottomed cylindrical outer can (15); a non-aqueous electrolyte and an electrode body housed in the outer can (15); a sealing body (16) for closing an opening (15a) of the outer can (15); a gasket (27) disposed between the outer can (15) and the sealing body (16); and a sealing material (30) disposed between the outer can (15) and the gasket (27), the sealing material (30) having a layered structure in which a first sealing material layer (31) and a second sealing material layer (32) are arranged in said order from the outer can (15) side, the second sealing material layer (32) having oil repellency with respect to the non-aqueous electrolyte more than the first sealing material layer (31), the first sealing material layer (31) and/or the second sealing material layer (32) containing an alkaline compound.
H01M 50/107 - Boîtiers primairesFourreaux ou enveloppes caractérisés par leur forme ou leur structure physique ayant une section transversale courbe, p. ex. ronde ou elliptique
H01M 50/184 - Éléments de scellement caractérisés par leur forme ou leur structure
Provided are an adjustment assistance device, an adjustment assistance method, and a program with which it is possible to handle various use cases of a user. The adjustment assistance device (80) assists in adjustment of each value of a control parameter group in a plurality of operation conditions, which are set in a servo control device (40) when the servo control device (40) controls a servo motor (30), in order to search for the optimal value of the control parameter group. The adjustment assistance device (80) comprises: a storage unit (83); and a generation unit (841) that, when a prescribed condition is satisfied, generates a backup file relating to each value of the control parameter group and stores the backup file in the storage unit (83). The backup file includes history data relating to the history of the adjustment and resumption data necessary for resuming the adjustment.
G05B 13/02 - Systèmes de commande adaptatifs, c.-à-d. systèmes se réglant eux-mêmes automatiquement pour obtenir un rendement optimal suivant un critère prédéterminé électriques
A classification method includes calculating a plurality of pieces of reference calculation data from a plurality of pieces of data belonging to a second classification by using a machine learning model that has learned learning data including a plurality of pieces of data belonging to a first classification, calculating classification calculation data from one piece of acquisition data by using the machine learning model, and comparing data based on the plurality of pieces of reference calculation data with the classification calculation data to classify whether the one piece of acquisition data belongs to the second classification. The plurality of pieces of data belonging to the first classification, the plurality of pieces of data belonging to the second classification, and the one piece of acquisition data have a statistical deviation, and the second classification is different from a classification of the plurality of pieces of data included in the learning data.
G06F 18/2413 - Techniques de classification relatives au modèle de classification, p. ex. approches paramétriques ou non paramétriques basées sur les distances des motifs d'entraînement ou de référence
67.
NEGATIVE-ELECTRODE MATERIAL FOR SECONDARY BATTERY, AND SECONDARY BATTERY
A negative electrode material for a secondary battery includes a silicon-containing particle, and a coating layer that covers at least a portion of the surface of the silicon containing particle. The silicon-containing particle includes an ion-conducting phase, and silicon phases dispersed in the ion-conducting phase. The coating layer includes a lithium sulfonate compound and a hydrophobic polymer compound.
H01M 4/36 - Emploi de substances spécifiées comme matériaux actifs, masses actives, liquides actifs
H01M 4/38 - Emploi de substances spécifiées comme matériaux actifs, masses actives, liquides actifs d'éléments simples ou d'alliages
H01M 4/58 - Emploi de substances spécifiées comme matériaux actifs, masses actives, liquides actifs de composés inorganiques autres que les oxydes ou les hydroxydes, p. ex. sulfures, séléniures, tellurures, halogénures ou LiCoFyEmploi de substances spécifiées comme matériaux actifs, masses actives, liquides actifs de structures polyanioniques, p. ex. phosphates, silicates ou borates
H01M 4/62 - Emploi de substances spécifiées inactives comme ingrédients pour les masses actives, p. ex. liants, charges
H01M 10/0525 - Batteries du type "rocking chair" ou "fauteuil à bascule", p. ex. batteries à insertion ou intercalation de lithium dans les deux électrodesBatteries à l'ion lithium
68.
INFORMATION PROCESSING METHOD, INFORMATION PROCESSING DEVICE, AND RECORDING MEDIUM
An information processing method includes: obtaining sensing information generated by sensing a vicinity of a first mobile body that travels autonomously; detecting a second mobile body present in the vicinity of the first mobile body, based on the sensing information; determining, when at least two second mobile bodies are detected as the second mobile body present in the vicinity of the first mobile body, whether the at least two second mobile bodies have a predetermined relationship, based on the sensing information; and executing, when the determining is made that the at least two second mobile bodies have the predetermined relationship, a predetermined operation to avoid contact between the first mobile body and the at least two second mobile bodies.
A power storage device includes: an electrode body formed by winding a positive electrode, a negative electrode, and a separator; a cap disposed close to one end of the electrode body in a winding axis direction of the electrode body; and a plurality of positive electrode tabs connecting the positive electrode to the cap, the plurality of positive electrode tabs at least partially overlapping each other forming an overlapped part that is joined to the cap.
H01M 50/538 - Connexions de plusieurs conducteurs ou languettes d’électrodes empilées enroulées ou pliées
H01M 10/0587 - Structure ou fabrication d'accumulateurs ayant uniquement des éléments de structure enroulés, c.-à-d. des électrodes positives enroulées, des électrodes négatives enroulées et des séparateurs enroulés
H01M 50/107 - Boîtiers primairesFourreaux ou enveloppes caractérisés par leur forme ou leur structure physique ayant une section transversale courbe, p. ex. ronde ou elliptique
H01M 50/152 - Couvercles caractérisés par leur forme pour des cellules ayant une section transversale courbée, p. ex. ronde ou elliptique
H01M 50/536 - Connexions d’électrodes dans un boîtier de batterie caractérisées par le procédé de fixation des conducteurs aux électrodes, p. ex. soudage
H01M 50/548 - Bornes caractérisées par la position des terminaux sur les cellules sur des côtés opposés de la cellule
70.
ELECTRODE PLATE, METHOD OF MANUFACTURING ELECTRODE PLATE
A first metal foil has a first surface and a second surface, a first end and a second end being arranged at ends of the first metal foil in one direction. In a second metal foil, a third end and a fourth end are arranged at ends of the second metal foil in the one direction. The second end and the fourth end are aligned, and the second metal foil is stacked on the first surface of the first metal foil. A bending point is arranged between a central position and the second end, and the first metal foil and the second metal foil are bent at the bending point to place the second surface of the first metal foil in contact. The second surface of the first metal foil is exposed between the first end and the second end.
H01M 10/0525 - Batteries du type "rocking chair" ou "fauteuil à bascule", p. ex. batteries à insertion ou intercalation de lithium dans les deux électrodesBatteries à l'ion lithium
A sensitive membrane contains a sensitive material and conductive particles. The sensitive material adsorbs an analyte. The conductive particles are modified with at least one of alkylsilane or arylsilane.
G01N 27/12 - Recherche ou analyse des matériaux par l'emploi de moyens électriques, électrochimiques ou magnétiques en recherchant l'impédance en recherchant la résistance d'un corps solide dépendant de l'absorption d'un fluideRecherche ou analyse des matériaux par l'emploi de moyens électriques, électrochimiques ou magnétiques en recherchant l'impédance en recherchant la résistance d'un corps solide dépendant de la réaction avec un fluide
A capacitor disclosed includes an anode body having a dielectric layer formed on a surface of the anode body, and a conductive layer formed on the dielectric layer and made of a metal oxide. The conductive layer includes a first conductive layer formed on the dielectric layer, and a second conductive layer formed on the first conductive layer. The average thickness of the second conductive layer is larger than the average thickness of the first conductive layer.
A semiconductor relay includes at least a housing, a first input terminal, a second input terminal, a first output terminal, a second output terminal, a light emitting element, a light receiving element, a first MOSFET, and a second MOSFET. The light emitting element is disposed on a first principal surface of a first base, and a light receiving drive element is disposed on a second principal surface of a second base. A source electrode of the light receiving drive element and the second base are connected to each other with the same potential. The second base is disposed between the first MOSFET and the second MOSFET as viewed along a first axis. The normal to the first principal surface of the first base crosses the normal to the second principal surface of the second base.
H10F 55/255 - Dispositifs à semi-conducteurs sensibles au rayonnement couverts par les groupes , ou structurellement associés à des sources lumineuses électriques et électriquement ou optiquement couplés avec lesdites sources dans lesquels la source lumineuse électrique commande les dispositifs à semi-conducteurs sensibles au rayonnement, p. ex. optocoupleurs dans lesquels les dispositifs sensibles au rayonnement et la source lumineuse électrique sont tous des dispositifs à semi-conducteurs formés dans ou sur un même substrat
H03K 17/785 - Commutation ou ouverture de porte électronique, c.-à-d. par d'autres moyens que la fermeture et l'ouverture de contacts caractérisée par l'utilisation de composants spécifiés par l'utilisation, comme éléments actifs, de dispositifs opto-électroniques, c.-à-d. des dispositifs émetteurs de lumière et des dispositifs photo-électriques couplés électriquement ou optiquement commandant des commutateurs à transistors à effet de champ
H10F 55/20 - Dispositifs à semi-conducteurs sensibles au rayonnement couverts par les groupes , ou structurellement associés à des sources lumineuses électriques et électriquement ou optiquement couplés avec lesdites sources dans lesquels la source lumineuse électrique commande les dispositifs à semi-conducteurs sensibles au rayonnement, p. ex. optocoupleurs
74.
BATTERY ANALYSIS SYSTEM, BATTERY ANALYSIS METHOD, AND NON-TRANSITORY COMPUTER-READABLE RECORDING MEDIUM
A battery-specific characteristic generation unit estimates, for each battery pack, an SOC (State of Charge)-OCV (Open Circuit Voltage) curve of a cell block included in the battery pack, a resistance of the cell block, and a capacity of the cell block, and calculates a resistance capacity product derived from multiplying the resistance of the cell block by the capacity of the cell block. A cell type identification unit identifies a type of the cell included in an undefined battery pack based on a degree of agreement between the SOC-OCV curve of the cell block of the undefined battery pack and the SOC-OCV curve of an already-defined cell block and based on a degree of agreement between the resistance capacity product of the cell block of the undefined battery pack and the resistance capacity product of the already-defined cell block.
G01R 31/388 - Détermination de la capacité ampère-heure ou de l’état de charge faisant intervenir des mesures de tension
G01R 31/367 - Logiciels à cet effet, p. ex. pour le test des batteries en utilisant une modélisation ou des tables de correspondance
G01R 31/389 - Mesure de l’impédance interne, de la conductance interne ou des variables similaires
G01R 31/392 - Détermination du vieillissement ou de la dégradation de la batterie, p. ex. état de santé
G01R 31/396 - Acquisition ou traitement de données pour le test ou la surveillance d’éléments particuliers ou de groupes particuliers d’éléments dans une batterie
H01M 10/42 - Procédés ou dispositions pour assurer le fonctionnement ou l'entretien des éléments secondaires ou des demi-éléments secondaires
This cylindrical secondary battery comprises: an electrode body having a positive electrode and a negative electrode; a bottomed cylindrical exterior body, having an outer diameter of 25 mm or more; and a sealing body. The positive electrode includes a positive-electrode current collector, and a positive-electrode mixture layer, the positive-electrode mixture layer containing a positive-electrode active material and a sulfonic acid compound represented by general formula (I). The positive-electrode active material includes a lithium-containing composite oxide having a layered rock-salt structure. The weight per unit area of the positive-electrode mixture layer is 250 g/m2 or more. In the electrode body, three or more positive-electrode leads are led out.
This cylindrical secondary battery comprises: an electrode body having a positive electrode and a negative electrode; a bottomed cylindrical exterior body, having an outer diameter of 25 mm or more; and a sealing body. The positive electrode includes a positive-electrode current collector, and a positive-electrode mixture layer, the positive-electrode mixture layer containing a positive-electrode active material and a sulfonic acid compound represented by general formula (I). The positive-electrode active material includes a lithium-containing composite oxide having a layered rock-salt structure. The weight per unit area of the positive-electrode mixture layer is 250 g/m2 or more. In the electrode body, three or more positive-electrode leads are led out.
This cylindrical secondary battery comprises: an electrode body having a positive electrode and a negative electrode; a bottomed cylindrical exterior body, having an outer diameter of 25 mm or more; and a sealing body. The positive electrode includes a positive-electrode current collector, and a positive-electrode mixture layer, the positive-electrode mixture layer containing a positive-electrode active material and a sulfonic acid compound represented by general formula (I). The positive-electrode active material includes a lithium-containing composite oxide having a layered rock-salt structure. The weight per unit area of the positive-electrode mixture layer is 250 g/m2 or more. In the electrode body, three or more positive-electrode leads are led out.
(In the formula, A is a group 1 element or a group 2 element, R is a hydrocarbon group, and n is 1 or 2.)
H01M 4/58 - Emploi de substances spécifiées comme matériaux actifs, masses actives, liquides actifs de composés inorganiques autres que les oxydes ou les hydroxydes, p. ex. sulfures, séléniures, tellurures, halogénures ou LiCoFyEmploi de substances spécifiées comme matériaux actifs, masses actives, liquides actifs de structures polyanioniques, p. ex. phosphates, silicates ou borates
H01M 10/0587 - Structure ou fabrication d'accumulateurs ayant uniquement des éléments de structure enroulés, c.-à-d. des électrodes positives enroulées, des électrodes négatives enroulées et des séparateurs enroulés
H01M 50/107 - Boîtiers primairesFourreaux ou enveloppes caractérisés par leur forme ou leur structure physique ayant une section transversale courbe, p. ex. ronde ou elliptique
H01M 50/186 - Éléments de scellement caractérisés par la position des éléments de scellement
H01M 50/538 - Connexions de plusieurs conducteurs ou languettes d’électrodes empilées enroulées ou pliées
A vibration module (3) comprises a drive element (1) and a support substrate (2) that supports the drive element (1). The drive element (1) comprises: a movable part (11); a drive part (12) that rotates the movable part (11) about a rotation axis (R0); a fixed part (15) that is fixed to the lower surface of the support substrate (2) by an adhesive; a coupling part (14) that couples the drive part (12) to the fixed part (15); and a first electrode pad that is installed on the upper surface of the fixed part (15) and that is connected to a drive source of the drive part (12) by a wiring pattern. On the lower surface of the support substrate (2), a second electrode pad is disposed at a position facing the first electrode pad. The support substrate (2) is fixed to the fixed part (15) so that the first electrode pad and the second electrode pad are connected and the support substrate (2) is retracted from the coupling part (14) to the fixed part (15) side.
B81B 3/00 - Dispositifs comportant des éléments flexibles ou déformables, p. ex. comportant des membranes ou des lamelles élastiques
G02B 26/08 - Dispositifs ou dispositions optiques pour la commande de la lumière utilisant des éléments optiques mobiles ou déformables pour commander la direction de la lumière
A non-aqueous electrolyte secondary battery (10) comprises an electrode body (14) that has a positive electrode (11) and a negative electrode (12), and a non-aqueous electrolyte, said non-aqueous electrolyte secondary battery (10) being characterized in that: the positive electrode (11) has a positive electrode collector (30) and a positive electrode mixture layer (32) which is provided on the positive electrode collector (30); the negative electrode (12) has a negative electrode collector (40) and a negative electrode mixture layer (42) which is provided on the negative electrode collector (40); the positive electrode mixture layer (32) contains a positive electrode active material; the positive electrode active material has first and second peaks in a volume-based particle size distribution curve; the negative electrode mixture layer (42) contains a negative electrode active material; the negative electrode active material contains at least a silicon-containing material; and the discharge capacity per 1.0 g of the negative electrode mixture layer (42) is not less than 0.60Ah.
The present invention provides a non-aqueous electrolyte secondary battery comprising an electrode body in which a positive electrode (11) and a negative electrode are wound along the lengthwise direction of the electrodes with a separator therebetween, said non-aqueous electrolyte secondary battery being characterized in that: the positive electrode (11) has a band-shaped positive electrode collector (32), positive electrode mixture layers (34) which are disposed on both surfaces of the positive electrode collector (32), and a pair of exposed portions (36a, 36b) in which both surfaces of the positive electrode collector (32) are exposed; a positive electrode tab (20) is bonded to the exposed portion (36a); a first protective film (38) which contains a resin is disposed on the positive electrode (11) so as to cover the exposed portion (36a); a second protective film (40) which contains a resin is disposed on the positive electrode (11) so as to cover the exposed portion (36b); and end-portion side surfaces (38a, 38b, 40a, 40b) of the first protective film (38) and the second protective film (40) which extend in the short direction of the positive electrode (11) are formed in a slope shape.
H01M 50/586 - Moyens pour empêcher un usage ou une décharge indésirables pour empêcher les contacts incorrects à l’intérieur ou à l’extérieur des batteries à l’intérieur des batteries p. ex. les contacts incorrects des électrodes
H01M 10/0587 - Structure ou fabrication d'accumulateurs ayant uniquement des éléments de structure enroulés, c.-à-d. des électrodes positives enroulées, des électrodes négatives enroulées et des séparateurs enroulés
The present invention makes it less likely for motor control to be affected by friction. A control system (1) comprises a speed control unit (11), a friction compensation unit (12), a model error compensation unit (13), a calculation unit (14), and a drive control unit (10). The speed control unit (11) controls the speed of a motor. The friction compensation unit (12) calculates a compensation amount for friction generated on the motor side. The model error compensation unit (13) outputs a compensation amount based on the difference between a first motor speed, which is a speed serving as a control result of the motor driven on the basis of output results from the friction compensation unit (12) and the speed control unit (11), and a second motor speed obtained by inputting, to a normative model, a signal based on an output result from the speed control unit (11). The calculation unit (14) calculates a command for driving the motor on the basis of the output results of the speed control unit (11), the friction compensation unit (12), and the model error compensation unit (13). The drive control unit (10) performs drive control of the motor on the basis of a command from the calculation unit (14).
In a DAB converter, a control circuit (13) performs control so that, when transmitting power from a first DC part (E1, Ca) to a second DC part (E2, Cb) by boosting the voltage, a second bridge circuit (12) includes a first period in which both ends of a secondary winding (n2) of an isolation transformer (TR1) are short-circuited within the second bridge circuit (12), and a second period in which the secondary winding (n2) of the isolation transformer (TR1) and the second DC part (E2, Cb) are conducted. The control circuit (13) generates a first pattern in which the first period shifts to the second period by turn-off of a seventh switching element (Q7), a second pattern in which the first period shifts to the second period by turn-off of a fifth switching element (Q5), a third pattern in which the first period shifts to the second period by turn-off of a sixth switching element (Q6), and a fourth pattern in which the first period shifts to the second period by turn-off of an eighth switching element (Q8).
H02M 3/28 - Transformation d'une puissance d'entrée en courant continu en une puissance de sortie en courant continu avec transformation intermédiaire en courant alternatif par convertisseurs statiques utilisant des tubes à décharge avec électrode de commande ou des dispositifs à semi-conducteurs avec électrodes de commande pour produire le courant alternatif intermédiaire
A current sensor (10) comprises: a flat-plate-shaped first metal body (11) having a first fastening portion (14); a flat-plate-shaped second metal body (12) having a second fastening portion (15); and a flat-plate-shaped resistor (13) to which the first metal body (11) and the second metal body (12) are joined and which has a higher resistance value than the first metal body (11) and the second metal body (12). A first joining surface (16), which is the interface at which the first metal body (11) and the resistor (13) are joined, and a second joining surface (17), which is the interface at which the second metal body (12) and the resistor (13) are joined, are positioned on different surfaces of the resistor (13). At least one of (1) and (2) is satisfied. (1) The first joining surface (16) is configured from at least one of a plate surface of the first metal body (11) and a plate surface of the resistor (13). (2) The second joining surface (17) is configured from at least one of a plate surface of the second metal body (12) and a plate surface of the resistor (13).
[Problem] To enable a user to easily continue imaging without imposing a significant burden on the user, even if the imaging range is extensive, elevated imaging is necessary, or the like. [Solution] This invention comprises: a sensor unit (11) comprising a camera for imaging a location to be measured; a display input panel unit 12 including a touch panel display 36 for displaying a screen for assisting the user in imaging work and also detecting a screen operation by the user; and a rod-shaped support body 13 for supporting the sensor unit and the display input panel unit. The support body comprises a grip section 35 that the user grips with one hand; the sensor unit is fixed to an end of the support body on the side opposite the grip section; and the display input panel unit is fixed to a location on the support body between the grip section and the sensor unit. In particular, the support body comprises a telescopic rod section 32 that changes the position of the sensor unit with respect to the grip section. In addition, the display input panel unit is fixed to the support body so that the orientation can be adjusted in the pan and tilt directions.
A product delivery method according to the present disclosure includes acquiring waiting line information. The waiting line information is information about a waiting line. The waiting line includes a user. The product delivery method includes acquiring situation information. The situation information is information about the situation of the user. The product delivery method includes identifying, on the basis of the waiting line information and the situation information, one or more candidate locations where a product can be picked up in the waiting line. The product delivery method includes creating a delivery plan for delivering a product to a pickup location in response to a pickup request. The pickup request specifies, as the pickup location, a candidate location selected from among one or more candidate locations through the user's terminal. The product delivery method includes causing a mobile body carrying the product to travel in accordance with the delivery plan.
A food product identification system (10) comprises: an acquiring unit (54) that acquires an identification result, obtained by means of a machine learning model, of a food product shown in an image of the inside of a storage cabinet; and an output unit (55) that, when a candidate food product determined to have the highest probability of being the food product by means of the machine learning model, among a plurality of candidate food products indicated by the acquired identification result, is the same as a candidate food product presented in the past, outputs, on the basis of correction information indicating that the candidate food product presented in the past was corrected to a food product specified by the user, presentation information for presenting at least some of the plurality of candidate food products and the specified food product as options to the user.
This rotor comprises: a rotation shaft; a rotor core through which the rotation shaft is inserted; and a plurality of magnets which are disposed inside the rotor core and arranged in a ring shape centered on the rotation shaft. The rotor core has an inner core through which the rotation shaft passes and an outer core which is positioned radially outward of the inner core and which holds the plurality of magnets. The outer core has a plurality of first cores which are arranged in a ring shape centered on the rotation shaft and a pair of second cores which sandwich the plurality of first cores in the axial direction of the rotation shaft. Each of the plurality of magnets is inserted into a gap between two adjacent first cores among the plurality of first cores. Each of the pair of second cores has a plurality of core parts which correspond one-to-one with the plurality of first cores and a plurality of linking parts which successively link two adjacent core parts among the plurality of core parts.
A first electrode of a non-aqueous electrolyte secondary battery according to the present disclosure has a current collector and a mixture layer formed on the surface of the current collector. An exposed portion in which the current collector is exposed is formed on the surface of the first electrode. The exposed portion is in contact with only one end portion of both end portions in the lateral direction of the first electrode, and an electrode tab is connected to the exposed portion and led out from one end portion. The mixture layer contains an active material, granular carbon, and fibrous carbon. When the mixture layer is divided into a first mixture layer aligned with the exposed portion in the longitudinal direction of the first electrode and a second mixture layer adjacent to the exposed portion and the first mixture layer in the lateral direction of the first electrode, the first mixture layer contains granular carbon, and the second mixture layer contains fibrous carbon. The content of fibrous carbon in the first mixture layer is 0.1 mass % or less, and the content of the fibrous carbon in the second mixture layer is higher than the content of the fibrous carbon in the first mixture layer.
H01M 10/0587 - Structure ou fabrication d'accumulateurs ayant uniquement des éléments de structure enroulés, c.-à-d. des électrodes positives enroulées, des électrodes négatives enroulées et des séparateurs enroulés
H01M 50/531 - Connexions d’électrodes dans un boîtier de batterie
The present invention provides a cylindrical lithium-ion secondary battery having a positive electrode plate that constitutes an electrode body. The positive electrode plate has a positive electrode mixture layer formed on the surface of a positive electrode core, a positive electrode tab bonded to an exposed surface formed on only one side, in the electrode plate transverse direction, of at least a part of the positive electrode plate in the electrode plate longitudinal direction, and an insulating tape applied to the positive electrode plate to cover the exposed surface. The positive electrode mixture layer includes a raised part with a maximum thickness that is 10% or more greater than the average thickness of the positive electrode core in the vicinity of a first exposed end of the exposed surface in the electrode plate longitudinal direction. The insulating tape covers the exposed surface and a portion of the raised part beyond a maximum thickness position M in the electrode plate longitudinal direction, the portion beyond the maximum thickness position going farther beyond the position where the thickness is less than 1.05 times the average thickness of the positive electrode mixture layer.
H01M 10/0587 - Structure ou fabrication d'accumulateurs ayant uniquement des éléments de structure enroulés, c.-à-d. des électrodes positives enroulées, des électrodes négatives enroulées et des séparateurs enroulés
H01M 4/13 - Électrodes pour accumulateurs à électrolyte non aqueux, p. ex. pour accumulateurs au lithiumLeurs procédés de fabrication
H01M 50/538 - Connexions de plusieurs conducteurs ou languettes d’électrodes empilées enroulées ou pliées
H01M 50/586 - Moyens pour empêcher un usage ou une décharge indésirables pour empêcher les contacts incorrects à l’intérieur ou à l’extérieur des batteries à l’intérieur des batteries p. ex. les contacts incorrects des électrodes
According to the present invention, a first plane surface, a second plane surface, and a third plane surface are provided on the bottom face of an exterior can of a cylindrical battery. The first plane surface is provided in a portion including at least part of the outer circumferential edge of the bottom face. The second plane surface is provided in a portion including the center of the bottom face. In the third plane surface, at least part of the bottom face is located radially closer to the outer circumference than the outermost circumferential position of the second plane surface. The circumferential length of the third plane surface at the radial inner end is 1/10 or less the circumferential length of a circle passing through the radial outer end of the second plane surface. A connecting portion and/or a hole to be sealed by a sealing portion is provided on the inner face of the third plane surface on the opposite side in the thickness direction. The height positions T1, T2, and T3 of the first, second, and third plane surfaces are related such that T1 < T3 ≤ T2.
H01M 50/107 - Boîtiers primairesFourreaux ou enveloppes caractérisés par leur forme ou leur structure physique ayant une section transversale courbe, p. ex. ronde ou elliptique
A die head (10) comprises: a first block (20); a second block (30); a third block (40) disposed between the first block (20) and the second block (30); a first shim (51) disposed between the first block (20) and the third block (40) so as to form a first flow path; and a second shim (52) disposed between the second block (30) and the third block (40) so as to form a second flow path having a common outlet with the first flow path. Each of the first to third blocks (20, 30, 40) has side surfaces (21, 31, 41) in the same direction, and at least one first pin (71) is provided on each of the side surfaces (21, 31, 41). The die head (10) further comprises a side plate (60) that is disposed facing the side surfaces (21, 31, 41) of the first to third blocks (20, 30, 40), has at least one first hole (81) into which the first pin (71) is inserted, and fixes the relative positions of the first to third blocks (20, 30, 40).
B05C 5/02 - Appareillages dans lesquels un liquide ou autre matériau fluide est projeté, versé ou répandu sur la surface de l'ouvrage à partir d'un dispositif de sortie en contact, ou presque en contact, avec l'ouvrage
Provided is a nonaqueous electrolyte secondary battery which is provided with an electrode body that is obtained by winding a positive electrode (11) and a negative electrode along the long-side direction of the electrodes with a separator being interposed therebetween, the nonaqueous electrolyte secondary battery being characterized in that: the positive electrode (11) has a belt-shaped positive electrode current collector (32), a positive electrode mixture layer (34) disposed on both surfaces of the positive electrode current collector (32), and a pair of exposure parts (36a, 36b) in which both surfaces of the positive electrode current collector (32) are exposed; a positive electrode tab (20) is joined to the exposure part (36a); a first protective layer (38) is disposed on the positive electrode (11) so as to cover the exposure part (36a); a second protective layer (40) is disposed on the positive electrode (11) so as to cover the exposure part (36b); and, with respect to the first protective layer (38), end parts (38a, 38b) that extend in the short-side direction of the positive electrode (11) are each formed in a non-linear shape in a plan view seen from the thickness direction of the positive electrode (11).
H01M 10/0587 - Structure ou fabrication d'accumulateurs ayant uniquement des éléments de structure enroulés, c.-à-d. des électrodes positives enroulées, des électrodes négatives enroulées et des séparateurs enroulés
H01M 50/586 - Moyens pour empêcher un usage ou une décharge indésirables pour empêcher les contacts incorrects à l’intérieur ou à l’extérieur des batteries à l’intérieur des batteries p. ex. les contacts incorrects des électrodes
A training data generation device according to one embodiment of the present disclosure comprises: a memory that stores a person model, an object model, and affordance information which defines an action that can be taken with respect to the object model; and a processor that generates, as training data, an image in which the person model and the object model are arranged so that the person model performs the action defined by the affordance information with respect to the object model.
G06V 10/774 - Génération d'ensembles de motifs de formationTraitement des caractéristiques d’images ou de vidéos dans les espaces de caractéristiquesDispositions pour la reconnaissance ou la compréhension d’images ou de vidéos utilisant la reconnaissance de formes ou l’apprentissage automatique utilisant l’intégration et la réduction de données, p. ex. analyse en composantes principales [PCA] ou analyse en composantes indépendantes [ ICA] ou cartes auto-organisatrices [SOM]Séparation aveugle de source méthodes de Bootstrap, p. ex. "bagging” ou “boosting”
G06T 1/00 - Traitement de données d'image, d'application générale
92.
FUEL CELL STACK AND FUEL CELL UNIT PROVIDED WITH PLURALITY OF SAID FUEL CELL STACKS
A non-aqueous electrolyte secondary battery (10) comprises: an electrode body (14); a bottomed cylindrical exterior can (20); and a sealing body (30) that closes an opening (24) of the exterior can (20). The non-aqueous electrolyte secondary battery is characterized in that: an annular groove (23) that is recessed inward in the radial direction of the exterior can is provided in the side surface of the exterior can (20); a protective member (40) is provided inside the annular groove (23); the thickness direction of the protective member (40) is parallel to the axial direction of the exterior can (20); and the protective member (40) is in contact with surfaces on both sides of the annular groove (23) in the width direction.
H01M 50/107 - Boîtiers primairesFourreaux ou enveloppes caractérisés par leur forme ou leur structure physique ayant une section transversale courbe, p. ex. ronde ou elliptique
H01M 50/167 - Couvercles caractérisés par le procédé d’assemblage des boîtiers avec des couvercles par sertissage
94.
POSITIVE ELECTRODE ACTIVE MATERIAL FOR NON-AQUEOUS ELECTROLYTE SECONDARY BATTERY, METHOD FOR MANUFACTURING POSITIVE ELECTRODE ACTIVE MATERIAL, AND NON-AQUEOUS ELECTROLYTE SECONDARY BATTERY
In the present invention, a positive electrode active material for a non-aqueous electrolyte secondary battery comprises: first lithium transition metal composite oxide particles in which the molar ratio of Ni to the total molar amount of elements excluding Li and O is 50 mol% or greater, D50 is greater than 8 μm but not greater than 30 μm, and (D90–D10)/D50 is 0.7–1.5; and second lithium transition metal composite oxide particles in which the molar ratio of Ni to the total molar amount of elements excluding Li and O is 50 mol% or greater, D50 is greater than 1 μm but not greater than 6 μm, and D90–D10 is 6 μm or less. The first and/or second lithium transition metal composite oxide particles include(s) at least one element selected from the group consisting of Ca, Sr, B, Ti, and Nb.
H01M 4/525 - Emploi de substances spécifiées comme matériaux actifs, masses actives, liquides actifs d'oxydes ou d'hydroxydes inorganiques de nickel, de cobalt ou de fer d'oxydes ou d'hydroxydes mixtes contenant du fer, du cobalt ou du nickel pour insérer ou intercaler des métaux légers, p. ex. LiNiO2, LiCoO2 ou LiCoOxFy
H01M 4/36 - Emploi de substances spécifiées comme matériaux actifs, masses actives, liquides actifs
H01M 4/505 - Emploi de substances spécifiées comme matériaux actifs, masses actives, liquides actifs d'oxydes ou d'hydroxydes inorganiques de manganèse d'oxydes ou d'hydroxydes mixtes contenant du manganèse pour insérer ou intercaler des métaux légers, p. ex. LiMn2O4 ou LiMn2OxFy
A positive electrode (11) has one or more positive electrode core exposed parts (35) that are adjacent to a positive electrode mixture layer (32) in the positive electrode width direction and in which a positive electrode core (30) is exposed. One positive electrode tab (20) is bonded to each positive electrode core exposed part (35). The center (20b) of an innermost peripheral positive electrode tab (20a) in the positive electrode longitudinal direction is located one or more turns outside a winding inner end (11a) of the positive electrode (11) with respect to the positive electrode longitudinal direction. According to the cylindrical secondary battery of the present disclosure, it is easy to increase the capacitance and also easy to reduce the electrical resistance.
H01M 10/0587 - Structure ou fabrication d'accumulateurs ayant uniquement des éléments de structure enroulés, c.-à-d. des électrodes positives enroulées, des électrodes négatives enroulées et des séparateurs enroulés
H01M 50/107 - Boîtiers primairesFourreaux ou enveloppes caractérisés par leur forme ou leur structure physique ayant une section transversale courbe, p. ex. ronde ou elliptique
H01M 50/152 - Couvercles caractérisés par leur forme pour des cellules ayant une section transversale courbée, p. ex. ronde ou elliptique
H01M 50/167 - Couvercles caractérisés par le procédé d’assemblage des boîtiers avec des couvercles par sertissage
H01M 50/538 - Connexions de plusieurs conducteurs ou languettes d’électrodes empilées enroulées ou pliées
This power storage module (battery module) that accommodates a plurality of power storage devices (batteries) includes: a holder that accommodates one end side of the plurality of power storage devices to separate and hold the plurality of power storage devices from each other; a plurality of rod-shaped portions that are disposed between a pair of power storage devices among the plurality of power storage devices and extend in a first direction; and a heat radiator that is disposed on the opposite surface of the plurality of power storage devices of the holder and includes a flat plate portion to which one end of each of the plurality of rod-shaped portions is connected.
H01M 50/204 - Bâtis, modules ou blocs de multiples batteries ou de multiples cellules
H01M 50/213 - Bâtis, modules ou blocs de multiples batteries ou de multiples cellules caractérisés par leur forme adaptés aux cellules ayant une section transversale courbée, p. ex. ronde ou elliptique
H01M 50/291 - MonturesBoîtiers secondaires ou cadresBâtis, modules ou blocsDispositifs de suspensionAmortisseursDispositifs de transport ou de manutentionSupports caractérisés par des éléments d’espacement ou des moyens de positionnement dans les racks, les cadres ou les blocs caractérisés par leur forme
This power storage module comprises a plurality of power storage devices (10) and a current collector plate (30). The power storage module has a first row including a plurality of power storage devices and a second row including a plurality of power storage devices. The current collector plate connects first electrodes of the plurality of power storage devices in the first row in parallel, and also connects the first electrodes of the plurality of power storage devices in the first row in series with second electrodes of the plurality of power storage devices in the second row. The current collector plate includes: a base part; first leads (36) extending from the base part and connected to the first electrodes of the power storage devices in the first row; second leads (38) extending from the base part and connected to the second electrodes of the power storage devices in the second row; a plurality of first connection parts where the plurality of first leads and the base part are connected; and a plurality of second connection parts where the plurality of second leads and the base part are connected. A pair of first connection parts are disposed between a pair of second connection parts adjacent to each other in a first direction among the plurality of second connection parts, and the pair of first connection parts are arranged in the first direction.
H01M 50/503 - Interconnecteurs pour connecter les bornes des batteries adjacentesInterconnecteurs pour connecter les cellules en dehors d'un boîtier de batterie caractérisées par la forme des interconnecteurs
H01G 11/10 - Condensateurs hybrides ou condensateurs EDL multiples, p. ex. réseaux ou modules
H01M 50/505 - Interconnecteurs pour connecter les bornes des batteries adjacentesInterconnecteurs pour connecter les cellules en dehors d'un boîtier de batterie comprenant une barre omnibus unique
H01M 50/509 - Interconnecteurs pour connecter les bornes des batteries adjacentesInterconnecteurs pour connecter les cellules en dehors d'un boîtier de batterie caractérisées par le type de connexion, p. ex. connexions mixtes
H01M 50/55 - Bornes caractérisées par la position des terminaux sur les cellules sur le même côté de la cellule
This imaging device comprises a photoelectric conversion unit that converts light into electric charges, a semiconductor substrate that includes a first impurity region and a second impurity region, and a first plug that is connected to the first impurity region and includes a silicide region, one of the first impurity region and the second impurity region being a charge accumulation region electrically connected to the photoelectric conversion unit, and the semiconductor substrate including, at a position facing the silicide region with the first impurity region interposed therebetween, a third impurity region that contains a group 14 element other than silicon.
The present disclosure provides an alkaline dry battery that can suppress the occurrence of internal short-circuiting during medium-load intermittent discharge. An alkaline dry battery according to the present disclosure comprises a hollow tubular positive electrode (2) that is provided in a battery case (1), a gel-like negative electrode (3) that is filled in a hollow part of the positive electrode (2), and a separator (4) that is disposed between the positive electrode (2) and the negative electrode (3), wherein the negative electrode (3) contains a zinc powder and a surfactant. The negative electrode (3) further contains a sulfate in the range of 0.01-0.5 mass%, in terms of sulfuric acid ions with respect to the mass of the negative electrode.
An information processing device (3) is provided with: a storage unit (31) that stores input data (D10) to be optimized; and a control unit (30) that, on the basis of the input data, executes optimization calculation in which candidates for a solution optimized for one or more management indexes are repeatedly calculated. The input data includes constraint conditions for limiting the solution optimized in the optimization calculation. The control unit stores, into a storage unit, a calculation history including a solution violating the constraint conditions among a plurality of solutions calculated as the candidates in the optimization calculation (S12), and generates a plan in which at least a part of the management indexes is improved from the result of the optimization calculation by referring to the stored calculation history (S14).
brevets
