Patent Applications by Panasonic Intellectual Property Management Co., Ltd. on March 27th, 2025

Panasonic Intellectual Property Management Co., Ltd.: 29 patent applications

Panasonic Intellectual Property Management Co., Ltd. has applied for patents in the areas of H01M4/02 (5), H01M4/38 (4), H01M4/36 (3), H01G9/15 (3), H01M4/04 (3) H01M4/364 (2), H01M50/507 (2), H01M4/382 (1), H04N23/685 (1), H04N23/667 (1)

With keywords such as: layer, electrode, collector, surface, current, positive, direction, material, power, and unit in patent application abstracts.

Patent Applications by Panasonic Intellectual Property Management Co., Ltd.

20250098687. PLANT DISEASE RESISTANCE INDUCING AGENT, PLANT DISEASE RESISTANCE INDUCING METHOD, AND METHOD FOR PRODUCING PLANT DISEASE RESISTANCE INDUCING AGENT_simplified_abstract_(panasonic intellectual property management co., ltd.)

Inventor(s): SEIJI KOJIMA of Nara JP for panasonic intellectual property management co., ltd.

IPC Code(s): A01N63/20, A01P21/00, C12N1/20

CPC Code(s): A01N63/20

Abstract: the present disclosure provides a plant disease resistance inducing agent that can effectively induce resistance to a plant disease. a plant disease resistance inducing agent according to the present disclosure contains a secretion product of a cyanobacterium.

20250102204. FREEZING APPARATUS_simplified_abstract_(panasonic intellectual property management co., ltd.)

Inventor(s): Yuya YAMADA of Saitama JP for panasonic intellectual property management co., ltd.

IPC Code(s): F25B40/04, F24D17/00, F25B1/10, F25B9/00, F25B40/02, F25B49/02

CPC Code(s): F25B40/04

Abstract: a freezing apparatus according to the present disclosure operates while switching the gas cooler used, the freezing apparatus comprising: a refrigerant circuit which is composed of a low-stage compression mechanism, a water-cooled intercooler that cools a refrigerant discharged from the low-stage compression mechanism, a high-stage compression mechanism that suctions and compresses the refrigerant that has passed through the water-cooled intercooler, a water-cooled gas cooler and an air-cooled gas cooler that cool the refrigerant discharged from the high-stage compression mechanism, an expansion mechanism, and an evaporator; and an injection circuit which connects a refrigerant pipe on the upstream side of the expansion mechanism and a suction refrigerant pipe of the high-stage compression mechanism via an injection expansion mechanism.

20250102329. MAGNETIC SENSOR SYSTEM, AND DISTANCE MEASURING METHOD FOR THE MAGNETIC SENSOR SYSTEM_simplified_abstract_(panasonic intellectual property management co., ltd.)

Inventor(s): Hideyuki TANIGAWA of Osaka JP for panasonic intellectual property management co., ltd.

IPC Code(s): G01D5/245, G01D18/00

CPC Code(s): G01D5/245

Abstract: a magnetic scale is disposed alongside of a magnetic sensor in a first direction and moves relative to the magnetic sensor in a second direction intersecting with the first direction. a moving distance transformer receives an output signal of the magnetic sensor and transforms the output signal into moving distance information. a controller receives the moving distance from the transformer and gives a movement instruction to either the magnetic sensor or the magnetic scale. the moving distance transformer includes a hysteresis corrector. the controller provides the hysteresis corrector with moving direction information about the magnetic sensor. the hysteresis corrector transforms the output signal into the moving distance information by making hysteresis correction to the output signal based on the moving direction information.

20250102780. OPTICAL SYSTEM, IMAGE PROJECTION APPARATUS, AND IMAGING APPARATUS_simplified_abstract_(panasonic intellectual property management co., ltd.)

Inventor(s): Takuya IMAOKA of Kanagawa JP for panasonic intellectual property management co., ltd.

IPC Code(s): G02B13/00, G02B9/64, G02B13/02, G02B15/14, G03B21/20

CPC Code(s): G02B13/0095

Abstract: the present disclosure is directed to an optical system internally having an intermediate imaging position that is conjugate with each of a magnification conjugate point on a magnification side and a reduction conjugate point on a reduction side, the optical system comprising: a magnification optical system including a plurality of lens elements and positioned on the magnification side with respect to the intermediate imaging position; and a relay optical system including a plurality of lens elements and positioned on the reduction side with respect to the intermediate imaging position; wherein a first lens element positioned closest to the magnification side of the magnification optical system has a positive power, and the optical system satisfies the following condition (1): 0.9≤f1/f2≤1.5 . . . (1), where f1 is a focal length of the magnification optical system, and f2 is a focal length of the relay optical system.

20250103713. SECURITY MONITORING DEVICE, SECURITY MONITORING METHOD, AND RECORDING MEDIUM_simplified_abstract_(panasonic intellectual property management co., ltd.)

Inventor(s): Tatsumi OBA of Chiba JP for panasonic intellectual property management co., ltd., Hiroyuki OKADA of Osaka JP for panasonic intellectual property management co., ltd.

IPC Code(s): G06F21/56

CPC Code(s): G06F21/56

Abstract: a security monitoring device according to one aspect of the present disclosure includes: a receiver that receives a first alert generated by a first security product detecting a threat and a second alert generated by a second security product detecting a threat, the second security product being different from the first security product; a similarity calculator that calculates a similarity between the first alert and the second alert; and a first determiner that determines whether the first alert and the second alert are alerts generated by detecting a same threat, based on the similarity between the first alert and the second alert.

20250103925. DATA ANALYSIS DEVICE, DATA ANALYSIS METHOD, AND PROGRAM_simplified_abstract_(panasonic intellectual property management co., ltd.)

Inventor(s): YIRAN JIANG of Osaka JP for panasonic intellectual property management co., ltd., YUICHIRO SADANAGA of Osaka JP for panasonic intellectual property management co., ltd., NOBUO HARA of Osaka JP for panasonic intellectual property management co., ltd.

IPC Code(s): G06N5/045, G06F17/18, G06N3/045

CPC Code(s): G06N5/045

Abstract: data analysis device () includes data acquisition unit () that acquires a plurality of explanatory variables x and e and objective variable y that can take different values depending on a time, first model derivation unit () that performs multiple regression analysis by using the plurality of explanatory variables x and e and objective variable y and derives first model m indicating a relationship between the plurality of explanatory variables x and e and objective variable y, change point detection unit () that detects change point tc that is a time when a predetermined explanatory variable (for example, e) among the plurality of explanatory variables x and e changes beyond a predetermined range, and second model derivation unit () that corrects first model m based on predetermined explanatory variable e starting from change point tc and derives second model m that is a corrected model.

20250103991. ANOMALY DETERMINATION METHOD AND PRODUCTION MANAGEMENT SYSTEM_simplified_abstract_(panasonic intellectual property management co., ltd.)

Inventor(s): Yuta SHIMAZAKI of Osaka JP for panasonic intellectual property management co., ltd., Akira MINEGISHI of Osaka JP for panasonic intellectual property management co., ltd.

IPC Code(s): G06Q10/0633, G06Q50/04

CPC Code(s): G06Q10/0633

Abstract: an anomaly determination method, in a production management system that manages a production line including first, second, and third production devices, includes: obtaining, from among first, second, and third operating status data of the first, second, and third production devices, respectively, at least the first and third operating status data; when it is determined that the second operating status data was not obtained, predicting a dummy operation timepoint corresponding to a planned production quantity of the second production device, and generating dummy operating status data including the planned production quantity and the dummy operation timepoint; performing anomaly determination processing on production processes as a whole based on the first and third operating status data and the dummy operating status data; and outputting determination result information representing a result of the anomaly determination processing to display the determination result information on a display device included in the production management system.

20250104926. ELECTROLYTIC CAPACITOR AND METHOD FOR PRODUCING ELECTROLYTIC CAPACITOR_simplified_abstract_(panasonic intellectual property management co., ltd.)

Inventor(s): Tatsuji AOYAMA of KYOTO FU JP for panasonic intellectual property management co., ltd., Yukiya SHIMOYAMA of YAMAGUCHI KEN JP for panasonic intellectual property management co., ltd., Yasuhiro NISHIMURA of HYOGO KEN JP for panasonic intellectual property management co., ltd., Honami SERIZAWA of OSAKA FU JP for panasonic intellectual property management co., ltd.

IPC Code(s): H01G9/00, H01G9/02, H01G9/035, H01G9/07, H01G9/145

CPC Code(s): H01G9/0029

Abstract: a disclosed manufacturing method is a method for manufacturing an electrolytic capacitor that includes an anode foil having a dielectric layer formed on a surface thereof, a cathode foil, and a separator. the manufacturing method includes, in the following order: a polymer layer formation step of forming a conductive polymer layer containing a conductive polymer component on the separator and at least one surface selected from a surface of the dielectric layer and a surface of the cathode foil; a stacked body formation step of forming a stacked body by stacking the anode foil, the cathode foil, and the separator; a liquid application step of impregnating the conductive polymer layer included in the stacked body with a liquid that includes water and an organic compound that does not boil at 100� c. under 1 atm; a removal step of removing a portion of the liquid with which the conductive polymer layer has been impregnated, such that the organic compound remains in the conductive polymer layer; and an impregnation step of impregnating the stacked body subjected to the removal step with a liquid component.

20250104927. SOLID ELECTROLYTIC CAPACITOR ELEMENT AND SOLID ELECTROLYTIC CAPACITOR_simplified_abstract_(panasonic intellectual property management co., ltd.)

Inventor(s): Katsuhiro OGASAWARA of KYOTO FU JP for panasonic intellectual property management co., ltd., Atsushi TANAKA of OSAKA FU JP for panasonic intellectual property management co., ltd., Hitoshi FUKUI of NARA KEN JP for panasonic intellectual property management co., ltd.

IPC Code(s): H01G9/012, H01G9/15

CPC Code(s): H01G9/012

Abstract: a disclosed solid electrolytic capacitor element includes an anode section disposed on one end side and a cathode section disposed on the other end side. the cathode section has a pair of principal surfaces, a pair of side surfaces each connecting the pair of principal surfaces to each other and extending along a direction connecting the one end and the other end, and a first end surface connecting the pair of principal surfaces to each other and located at the other end. at least one of the side surfaces has at least one recess including a first end on the one end side and a second end on the other end side. a distance d between the first end surface and the second end is 0.05 l or more, where the l represents a distance between the one end and the other end.

20250104928. ELECTROLYTIC CAPACITOR AND METHOD OF MANUFACTURING SAME_simplified_abstract_(panasonic intellectual property management co., ltd.)

Inventor(s): RYO KOSAKA of Osaka JP for panasonic intellectual property management co., ltd., NAOKI UMAHASHI of Osaka JP for panasonic intellectual property management co., ltd., TAKAHIRO YOSHII of Osaka JP for panasonic intellectual property management co., ltd., DAISUKE KUBO of Osaka JP for panasonic intellectual property management co., ltd.

IPC Code(s): H01G9/028, H01G9/00, H01G9/048, H01G9/15

CPC Code(s): H01G9/028

Abstract: an electrolytic capacitor includes at least one capacitor element including: an anode body including a porous part in a surface layer; a dielectric layer covering at least a part of a surface of the anode body; and a solid electrolyte layer covering at least a part of the dielectric layer. the solid electrolyte layer includes, in the anode body, a first portion disposed in a void of the porous part, and a second portion disposed outside a principal surface of the anode body. the second portion includes n or more conductive polymer layers on one principal surface of the anode body. following relational expressions are satisfied:

20250104928. ELECTROLYTIC CAPACITOR AND METHOD OF MANUFACTURING SAME_simplified_abstract_(panasonic intellectual property management co., ltd.)

Inventor(s): RYO KOSAKA of Osaka JP for panasonic intellectual property management co., ltd., NAOKI UMAHASHI of Osaka JP for panasonic intellectual property management co., ltd., TAKAHIRO YOSHII of Osaka JP for panasonic intellectual property management co., ltd., DAISUKE KUBO of Osaka JP for panasonic intellectual property management co., ltd.

IPC Code(s): H01G9/028, H01G9/00, H01G9/048, H01G9/15

CPC Code(s): H01G9/028

Abstract:

20250104930. ELECTRODE FOIL FOR ELECTROLYTIC CAPACITOR, ELECTROLYTIC CAPACITOR, AND METHOD FOR MANUFACTURING ELECTRODE FOIL FOR ELECTROLYTIC CAPACITOR_simplified_abstract_(panasonic intellectual property management co., ltd.)

Inventor(s): NAOMI KURIHARA of Osaka JP for panasonic intellectual property management co., ltd., HIDEYUKI KURAHASHI of Tokyo JP for panasonic intellectual property management co., ltd., MIWA OGAWA of Osaka JP for panasonic intellectual property management co., ltd.

IPC Code(s): H01G9/055, H01G9/045

CPC Code(s): H01G9/055

Abstract: a porous portion and a core portion continuous with the porous portion are provided. in a thickness direction of the porous portion, when the porous portion is equally divided into first to tenth regions in order from an outer surface side of the porous portion, a1 to a10 �m/�mrespectively represent pit circumferential lengths of the first to tenth regions. at this time, a high-capacitance electrolytic capacitor is provided by using an electrode foil for an electrolytic capacitor in which a maximum value aof the pit circumferential lengths among a1 to a10, a (n)th region indicating a, a minimum value aof the pit circumferential lengths among regions located at a side close to the outer surface of the porous portion with respect to the (n)th region, and a (n)th region indicating asatisfy a relationship of {(a/a−1)�100}/(n−n)≤6, 85≤a, and 2≤n.

20250104931. ELECTROLYTIC CAPACITOR_simplified_abstract_(panasonic intellectual property management co., ltd.)

Inventor(s): YUJI MIYACHI of Saga JP for panasonic intellectual property management co., ltd., TOMOAKI KIDA of Saga JP for panasonic intellectual property management co., ltd., TSUYOSHI KUSAKABE of Fukuoka JP for panasonic intellectual property management co., ltd., MASANORI KASHIHARA of Saga JP for panasonic intellectual property management co., ltd.

IPC Code(s): H01G9/08, H01G9/15

CPC Code(s): H01G9/08

Abstract: an electrolytic capacitor includes a capacitor element including an anode part and a cathode part, an anode lead frame electrically connected to the anode part, a cathode lead frame electrically connected to the cathode part, and an outer package covering the capacitor element. the anode lead frame includes an anode buried part buried in the outer package. the cathode lead frame includes a cathode buried part buried in the outer package. a first surface of at least one of the anode buried part or cathode buried part includes a plurality of recesses. a protrusions is provided at an outer edge of each of the plurality of recesses.

20250105251. SECONDARY BATTERY POSITIVE ELECTRODE AND SECONDARY BATTERY_simplified_abstract_(panasonic intellectual property management co., ltd.)

Inventor(s): Yuji Oura of Osaka JP for panasonic intellectual property management co., ltd., Yuki Tokuda of Osaka JP for panasonic intellectual property management co., ltd.

IPC Code(s): H01M4/13, H01M4/36, H01M4/48, H01M4/62, H01M10/0525

CPC Code(s): H01M4/13

Abstract: in the present invention, this positive electrode is provided with: a collector; and a composite material layer that is formed on at least one surface of the collector. the composite material layer includes a particulate aggregate formed from inorganic substance particles which do not occlude or emit li, a conductive material, and a binding material for binding the inorganic particles and the conductive material. according to an exemplary embodiment, the aggregate is present closer to the collector side at least with respect to the thickness-direction center of the composite material layer, and accounts for at least 1.3 vol % with respect to the volume of the composite material layer.

20250105257. ELECTRODE_simplified_abstract_(panasonic intellectual property management co., ltd.)

Inventor(s): Takayuki Gonjo of Osaka JP for panasonic intellectual property management co., ltd., Reiko Izumi of Osaka JP for panasonic intellectual property management co., ltd., Hiroki Yamashita of Osaka JP for panasonic intellectual property management co., ltd., Norihiro Kotani of Osaka JP for panasonic intellectual property management co., ltd.

IPC Code(s): H01M4/36, H01M4/02, H01M4/62

CPC Code(s): H01M4/364

Abstract: an electrode is provided with a conductive intermediate layer that is arranged between a core material and a mixture layer. the mixture layer contains an active material and a first binder; and the intermediate layer contains a conductive material and a second binder. the conductive material has a particle size distribution which has a first peak that is within the particle diameter range from 0.005 �m to 0.07 �m and a second peak that is within the particle diameter range from 0.5 �m to 10 �m. the content of the particles that constitute the first peak is 1% by mass to 40% by mass of the mass of the conductive material. the second binder is mainly composed of a thermoplastic resin that has a melting point of 100� c. to 200� c., and has a composition that is different from the composition of the first binder.

20250105259. NEGATIVE ELECTRODE ACTIVE MATERIAL FOR NONAQUEOUS ELECTROLYTE SECONDARY BATTERIES, NEGATIVE ELECTRODE, AND NONAQUEOUS ELECTROLYTE SECONDARY BATTERY_simplified_abstract_(panasonic intellectual property management co., ltd.)

Inventor(s): Takuya Jin of Osaka JP for panasonic intellectual property management co., ltd., Yusuke Saito of Osaka JP for panasonic intellectual property management co., ltd., Yosuke Sato of Osaka JP for panasonic intellectual property management co., ltd., Taisuke Asano of Hyogo JP for panasonic intellectual property management co., ltd.

IPC Code(s): H01M4/36, H01M4/02, H01M4/38, H01M4/58

CPC Code(s): H01M4/364

Abstract: a negative electrode active material for nonaqueous electrolyte secondary batteries according to the present invention is characterized by containing composite particles that contain sic and at least one of si and an si alloy, and is also characterized in that the composite particles have a crystallite diameter of 2.0 mm to 5.0 nm as calculated from the half width of the diffraction peak of the (111) plane of sic in an xrd pattern obtained by an x-ray diffraction method.

20250105268. BATTERY AND METHOD FOR PRODUCING ELECTRODE_simplified_abstract_(panasonic intellectual property management co., ltd.)

Inventor(s): Takashi Oto of Osaka JP for panasonic intellectual property management co., ltd., Masahisa Fujimoto of Osaka JP for panasonic intellectual property management co., ltd.

IPC Code(s): H01M4/38, H01M4/04, H01M4/66, H01M10/0562, H01M10/0569

CPC Code(s): H01M4/382

Abstract: a battery according to the present disclosure includes a first electrode a second electrode and an electrolyte layer positioned between the first electrode and the second electrode the first electrode includes a current collector and an active material layer positioned between the current collector and the electrolyte layer the active material layer includes an alloy, and the alloy includes bi and mn. a method for producing an electrode according to the present disclosure includes: forming a plating layer on a current collector by electroplating, the plating layer including a bi plating film and a mn plating film; and heating the current collector and the plating layer to obtain an electrode in which an active material layer including an alloy is formed on the current collector, the alloy including bi and mn.

20250105271. POSITIVE ELECTRODE FOR SECONDARY BATTERIES AND METHOD FOR PRODUCING POSITIVE ELECTRODE ACTIVE MATERIAL FOR SECONDARY BATTERIES_simplified_abstract_(panasonic intellectual property management co., ltd.)

Inventor(s): Youshin Lee of Osaka JP for panasonic intellectual property management co., ltd., Mitsuhiro Hibino of Kyoto JP for panasonic intellectual property management co., ltd., Kensuke Nakura of Osaka JP for panasonic intellectual property management co., ltd.

IPC Code(s): H01M4/505, H01M4/02, H01M4/04, H01M4/525, H01M10/0525

CPC Code(s): H01M4/505

Abstract: a positive electrode for secondary batteries according to the present invention comprises a positive electrode collector and a positive electrode mixture layer that is arranged on the positive electrode collector, and is characterized in that: the positive electrode mixture layer comprises a positive electrode active material that contains a lithium-containing composite oxide that is composed of secondary particles, each of which is formed of aggregated primary particles; a coating film that contains elemental nb is formed on the surface of each primary particle of the lithium-containing composite oxide; and the gini coefficient of elemental nb as calculated from an element mapping image that is obtained by time-of-flight secondary ion mass spectrometry (tof-sims) of a cross-section of the secondary particles is 0.5 or less.

20250105274. POSITIVE ELECTRODE FOR SECONDARY BATTERY, AND METHOD FOR PRODUCING POSITIVE ELECTRODE ACTIVE MATERIAL FOR SECONDARY BATTERY_simplified_abstract_(panasonic intellectual property management co., ltd.)

Inventor(s): Youshin Lee of Osaka JP for panasonic intellectual property management co., ltd., Mitsuhiro Hibino of Kyoto JP for panasonic intellectual property management co., ltd., Kensuke Nakura of Osaka JP for panasonic intellectual property management co., ltd.

IPC Code(s): H01M4/525, H01M4/02, H01M4/04, H01M10/0525

CPC Code(s): H01M4/525

Abstract: this positive electrode comprises a positive electrode current collector, and a positive electrode mixture layer disposed on the positive electrode current collector, wherein: the positive electrode mixture layer has a positive electrode active material containing a lithium-containing composite oxide composed of secondary particles in which primary particles are aggregated; the lithium-containing composite oxide has a nb element; the average particle diameter of the primary particles is 1 �m or less; and in a depth profile obtained by time-of-flight secondary ion mass spectrometry (tof-sims) of a cross-section of the positive electrode mixture layer, when the minimum ionic strength of nb in the region from the surface of the positive electrode mixture layer to 500 nm in the thickness direction is iand the maximum ionic strength of nb in a region from 500 nm to 1000 nm in the thickness direction is i, i/iis at least 1.5.

20250105288. NEGATIVE ELECTRODE FOR SECONDARY BATTERY AND SECONDARY BATTERY_simplified_abstract_(panasonic intellectual property management co., ltd.)

Inventor(s): Masaki Hasegawa of Osaka JP for panasonic intellectual property management co., ltd., Takashi Watanabe of Osaka JP for panasonic intellectual property management co., ltd., Naomichi Sato of Osaka JP for panasonic intellectual property management co., ltd.

IPC Code(s): H01M4/583, H01M4/02, H01M4/38

CPC Code(s): H01M4/583

Abstract: in a negative electrode () for a secondary battery which is one example of an embodiment of the present invention, a negative electrode active substance layer () has a first active substance layer (a) and a second active substance layer (b). a tortuosity �of the second active substance layer (b) is smaller than a tortuosity �of the first active substance layer (a), and the b value calculated using equation 2 is equal to 1.7 to 1 divided by the a value. equation 1: tortuosity of negative electrode active substance layer ()�thickness of negative electrode active substance layer ()=a value equation 2: content ratio of si-containing material to mass of active substance/a value=b value

20250105350. SOLID ELECTROLYTE AND ELECTRICITY STORAGE DEVICE INCLUDING THE SAME_simplified_abstract_(panasonic intellectual property management co., ltd.)

Inventor(s): Eiichi KOGA of Hokkaido JP for panasonic intellectual property management co., ltd., Yoshiko HIGASHI of Osaka JP for panasonic intellectual property management co., ltd.

IPC Code(s): H01M10/0562, H01M4/38

CPC Code(s): H01M10/0562

Abstract: a solid electrolyte according to the present disclosure contains li, pr, zr, o, and m and includes a crystalline phase having a garnet-type crystal structure, wherein the m is at least one selected from the group consisting of sb, bi, as, ge, and te. an electricity storage device according to the present disclosure may be, for example, a battery. the battery includes a positive electrode, a negative electrode, and an electrolyte layer provided between the positive electrode and the negative electrode. at least one selected from the group consisting of the positive electrode, the negative electrode, and the electrolyte layer may include the solid electrolyte according to the present disclosure.

20250105409. POWER STORAGE DEVICE_simplified_abstract_(panasonic intellectual property management co., ltd.)

Inventor(s): TAKESHI NAGAO of Osaka JP for panasonic intellectual property management co., ltd.

IPC Code(s): H01M50/152, H01G11/80, H01M50/107, H01M50/169

CPC Code(s): H01M50/152

Abstract: a power storage device (battery) includes: an outer covering can in a bottomed cylindrical shape, the outer covering can accommodating an electrode body; and a sealing member that closes an opening of the outer covering can. the sealing member includes a sealing plate and a reinforcing plate that is disposed on an outer peripheral side of the sealing plate, the reinforcing plate being joined with the sealing plate at a boundary extending in a thickness direction of the sealing plate, and the reinforcing plate is made of a member having a rigidity higher than rigidity of the sealing plate.

20250105465. ELECTRIC POWER STORAGE MODULE_simplified_abstract_(panasonic intellectual property management co., ltd.)

Inventor(s): KEISUKE NAGATA of Osaka JP for panasonic intellectual property management co., ltd., JIRO MURATSU of Osaka JP for panasonic intellectual property management co., ltd., HIROSHI TAKASAKI of Osaka JP for panasonic intellectual property management co., ltd., TATSUYA HIRANO of Osaka JP for panasonic intellectual property management co., ltd.

IPC Code(s): H01M50/507, H01G11/72, H01M50/213, H01M50/258, H01M50/262, H01M50/289

CPC Code(s): H01M50/507

Abstract: a battery module includes a plurality of batteries, current collector plates each connecting the plurality of batteries, and an upper holder including a part disposed between the plurality of batteries and the current collector plates. the plurality of batteries is arranged in a direction orthogonal to the height direction of the batteries. the upper holder includes a plurality of inclined surface parts which is inclined with respect to the arrangement direction and on which the current collector plate is mounted. a plurality of inclined surface parts is disposed in a row.

20250105466. ELECTRIC POWER STORAGE MODULE_simplified_abstract_(panasonic intellectual property management co., ltd.)

Inventor(s): KEISUKE NAGATA of Osaka JP for panasonic intellectual property management co., ltd., JIRO MURATSU of Osaka JP for panasonic intellectual property management co., ltd., HIROSHI TAKASAKI of Osaka JP for panasonic intellectual property management co., ltd., TATSUYA HIRANO of Osaka JP for panasonic intellectual property management co., ltd.

IPC Code(s): H01M50/507, H01M50/48, H01M50/503

CPC Code(s): H01M50/507

Abstract: a battery module includes a plurality of batteries arranged in a row, and a plurality of current collector plates electrically connected to the plurality of electric power storage devices, wherein the plurality of batteries is arranged in a direction orthogonal to a height direction of each battery. the plurality of current collector plates includes a flat plate shaped current collector main body that is inclined with respect to an arrangement direction of the plurality of batteries, and arranged in a row. the plurality of current collector plates includes a first current collector plate and a second current collector plate that are adjacent to each other, and a part of the current collector main body in the first current collector plate overlaps at least a part of the current collector main body in the second current collector plate in the height direction.

20250105674. HIGH-FREQUENCY PROCESSING DEVICE_simplified_abstract_(panasonic intellectual property management co., ltd.)

Inventor(s): TOSHIYUKI OKAJIMA of Shiga JP for panasonic intellectual property management co., ltd., TAKASHI UNO of Shiga JP for panasonic intellectual property management co., ltd., MIKIO FUKUI of Nara JP for panasonic intellectual property management co., ltd.

IPC Code(s): H02J50/20

CPC Code(s): H02J50/20

Abstract: a high-frequency processing device includes a high-frequency power supply, a high-frequency power radiation unit, an impedance adjustment unit, a power detection unit, and a control unit. the high-frequency power supply generates high-frequency power of variable magnitude. the high-frequency power radiation unit emits the high-frequency power toward a target object. the impedance adjustment unit adjusts a load impedance. the power detection unit detects supplied power and reflected power. the control unit calculates a reflectance and a phase difference to obtain the load impedance. the control unit determines whether or not the load impedance falls within a predetermined impedance region corresponding to output power of the high-frequency power supply. the control unit causes the impedance adjustment unit to guide the load impedance to and maintain the load impedance within the predetermined impedance region corresponding to the output power of the high-frequency power supply.

20250106375. CORRECTION METHOD, MEASUREMENT METHOD, AND HEAD-MOUNTED DISPLAY SYSTEM_simplified_abstract_(panasonic intellectual property management co., ltd.)

Inventor(s): Hirokazu NAKANISHI of Osaka JP for panasonic intellectual property management co., ltd., Yoshiichiro KASHIWAGI of Kyoto JP for panasonic intellectual property management co., ltd., Yoshihiro MORI of Osaka JP for panasonic intellectual property management co., ltd., Masayuki KOZUKA of Tokyo JP for panasonic intellectual property management co., ltd.

IPC Code(s): H04N13/327, H04N13/307, H04N13/383, H04N13/398

CPC Code(s): H04N13/327

Abstract: this correction method comprises: acquiring, by means of a processing circuit of a head-mounted display, projection angles via a photographic lens of dots of a correction test pattern corresponding to dots of a reference test pattern, the angle being calculated on the basis of the correction test pattern obtained by photographing the reference test pattern with the photographic lens through a correction lens that corrects the user's visual characteristics, the reference test pattern including one dot placed at a reference point and at least one dot placed on each of a plurality of straight lines extending in different directions from the reference point; and correcting, by means of the processing circuit, distortion in a virtual space image caused by the adjustment lens on the basis of projection angles corresponding to the dots of the reference test pattern.

20250106490. IMAGE CAPTURING DEVICE AND HEAT DISSIPATION UNIT_simplified_abstract_(panasonic intellectual property management co., ltd.)

Inventor(s): Norikazu KANEDA of Osaka JP for panasonic intellectual property management co., ltd.

IPC Code(s): H04N23/52, H04N23/51, H04N23/53, H05K7/20

CPC Code(s): H04N23/52

Abstract: an image capturing device includes: a casing; a heat source provided inside the casing; a monitor; a hinge provided to the casing and rotatably supporting the monitor; and a heat dissipation unit including a plurality of fins provided on an outer surface of the casing and thermally connected to the heat source. the monitor is configured to be rotatable by the hinge between a first position at which the monitor covers the plurality of fins of the heat dissipation unit, and a second position at which the monitor is away from the plurality of fins.

20250106505. IMAGING APPARATUS_simplified_abstract_(panasonic intellectual property management co., ltd.)

Inventor(s): Yoshiaki KUDO of Osaka JP for panasonic intellectual property management co., ltd., Jun SAIKI of Hyogo JP for panasonic intellectual property management co., ltd., Rintaro WADA of Osaka JP for panasonic intellectual property management co., ltd., Tomonori KONO of Osaka JP for panasonic intellectual property management co., ltd., Tetsuya TAKEDA of Nara JP for panasonic intellectual property management co., ltd.

IPC Code(s): H04N23/667, G03B13/36, H04N23/52, H04N23/65, H04N23/67

CPC Code(s): H04N23/667

Abstract: an imaging apparatus that performs image capturing operation in a plurality of operation modes, includes: an image sensor that captures a subject image via an optical system to generate image data; a temperature acquisition circuit that acquires temperature of the image sensor; and a controller that switches the plurality of operation modes based on the temperature of the image sensor. the plurality of operation modes includes a first operation mode and a second operation mode in which the image sensor consumes less power than in the first operation mode. the controller changes an operation mode of the imaging apparatus from the first operation mode to the second operation mode when the temperature of the image sensor increases to first temperature in image capturing operation in the first operation mode. the first temperature is lower than temperature at which execution of a predetermined function is restricted in the imaging apparatus.

20250106511. IMAGING SYSTEM AND MOBILE OBJECT HAVING SAME_simplified_abstract_(panasonic intellectual property management co., ltd.)

Inventor(s): Satoshi MATSUI of Kyoto JP for panasonic intellectual property management co., ltd., Norikazu Katsuyama of Osaka JP for panasonic intellectual property management co., ltd.

IPC Code(s): H04N23/68, G03B17/17

CPC Code(s): H04N23/685

Abstract: an imaging system includes an imaging device, a blur correction assembly that corrects a blur along a moving direction in a captured image, and a controller that controls an imaging timing of the imaging device. the blur correction assembly drives a blur corrector to make a blur correction along the moving direction. the blur corrector has a drive range including a reference position where an axis perpendicular to an imaging target surface is parallel to an optical axis of the imaging device, the optical axis being an axis of light injecting to the blur corrector from the imaging target surface. the controller causes the imaging device to start imaging when the blur corrector is located within a range where a difference from the reference position is less than or equal to a threshold during driving of the blur corrector.

20250107312. IMAGING DEVICE_simplified_abstract_(panasonic intellectual property management co., ltd.)

Inventor(s): Sanshiro SHISHIDO of Osaka JP for panasonic intellectual property management co., ltd., Takahiro KOYANAGI of Osaka JP for panasonic intellectual property management co., ltd., Yuuko TOMEKAWA of Osaka JP for panasonic intellectual property management co., ltd., Shinichi MACHIDA of Osaka JP for panasonic intellectual property management co., ltd.

IPC Code(s): H10K39/32, H10K30/30

CPC Code(s): H10K39/32

Abstract: an imaging device includes a first pixel and a second pixel adjacent to the first pixel. each of the first pixel and the second pixel includes a first electrode, a second electrode positioned on or above the first electrode and facing the first electrode, a photoelectric conversion layer positioned between the first electrode and the second electrode, and a first charge-blocking layer positioned between the first electrode and the photoelectric conversion layer. the first charge-blocking layer of the first pixel is separated from the first charge-blocking layer of the second pixel. the photoelectric conversion layer is disposed continuously to the first pixel and the second pixel. an area of the first charge-blocking layer of the first pixel is larger than an area of the first electrode of the first pixel in plan view.

Panasonic Intellectual Property Management Co., Ltd. patent applications on March 27th, 2025