Panasonic Intellectual Property Management Co., Ltd. patent applications on March 20th, 2025
Patent Applications by Panasonic Intellectual Property Management Co., Ltd. on March 20th, 2025
Panasonic Intellectual Property Management Co., Ltd.: 30 patent applications
Panasonic Intellectual Property Management Co., Ltd. has applied for patents in the areas of H01G9/15 (2), H01M4/62 (2), H01G9/028 (2), H04N23/695 (2), B28B3/12 (1) H04N23/695 (2), H01G9/028 (2), B28B3/126 (1), G06T7/344 (1), H05K13/0812 (1)
With keywords such as: optical, electrode, device, imaging, data, layer, part, between, axis, and direction in patent application abstracts.
Patent Applications by Panasonic Intellectual Property Management Co., Ltd.
Inventor(s): Satoru Maeda of Kanagawa JP for panasonic intellectual property management co., ltd.
IPC Code(s): B28B3/12
CPC Code(s): B28B3/126
Abstract: a stretching and conveying device for a green compact includes a first roll and a second roll structured to convey by rotation the green compact by sandwiching the green compact between the first roll and the second roll and stretch the green compact using a circumferential speed difference between the first roll and the second roll. the second roll has a curvature radius larger than a curvature radius of the first roll, and is positioned downstream of the first roll. the green compact is conveyed while being supported on a circumferential surface of the first roll, delivered to the second roll side at a position where the first roll and the second roll face each other, and conveyed while being supported on a circumferential surface of the second roll.
Inventor(s): Manano TAGUCHI of Kanagawa JP for panasonic intellectual property management co., ltd., Masashi TAKEMURA of Kanagawa JP for panasonic intellectual property management co., ltd., Ryota SAITO of Kanagawa JP for panasonic intellectual property management co., ltd.
IPC Code(s): B60L53/80, B60L53/30, B60L53/62, B60L53/66, G06Q30/0645
CPC Code(s): B60L53/80
Abstract: a management server stores administrator setting information for managing an expanded rental mode for each battery station based on specification by an administrator, controls, by referring to the administrator setting information, switching between the expanded rental mode and a normal rental mode which permits rental of only fully charged battery devices at each battery station, and displays a station guidance screen on a user terminal, the station guidance screen providing the user with guidance on the battery stations based on control of the rental mode thereof and including information on a transition state to the expanded rental mode at each battery station.
Inventor(s): Masafumi KAWAKAMI of Nara JP for panasonic intellectual property management co., ltd., Takanori NAKANO of Nara JP for panasonic intellectual property management co., ltd.
IPC Code(s): B62M6/50, B62J45/411, B62J45/413, B62J45/421, B62M6/70, F16D41/30
CPC Code(s): B62M6/50
Abstract: a motor unit comprises a case, a motor, an input shaft, an output structure, a transmission member, a first tooth portion, a torque detection unit, and a rotator. the case includes a first supporting portion located at a first end of an inside of the case in the axial direction and rotatably supporting the rotator, and a second supporting portion located at a second end of the inside of the case in the axial direction and rotatably supporting the rotator. the rotator includes a second tooth portion meshing with the first tooth portion. a meshing part of the first tooth portion with the second tooth portion is arranged between the input shaft and the rotator in a direction perpendicular to the axis and is arranged radially outward of the rotator than the first supporting portion and the second supporting portion.
Inventor(s): Hiroki SAKAMOTO of Fukui JP for panasonic intellectual property management co., ltd., Soichiro HIRAOKA of Hyogo JP for panasonic intellectual property management co., ltd., Hideaki NISHIWAKI of Fukui JP for panasonic intellectual property management co., ltd., Ritsu NAKAYOSHI of Fukui JP for panasonic intellectual property management co., ltd., Natsuki MIYASHITA of Ishikawa JP for panasonic intellectual property management co., ltd., Kouhei YAMADA of Fukui JP for panasonic intellectual property management co., ltd.
IPC Code(s): B81B7/04, B81C1/00, G01P1/02
CPC Code(s): B81B7/04
Abstract: a compound sensor includes a package, a first acceleration detector, a second acceleration detector, and an angular velocity detector. the first acceleration detector is disposed in a first cavity. the second acceleration detector is disposed in a second cavity. the angular velocity detector is disposed in a third cavity. an inner pressure of the first cavity is higher than an inner pressure of the second cavity. an inner pressure of the third cavity is lower than the inner pressure of the second cavity.
Inventor(s): Yujun LU of Shiga JP for panasonic intellectual property management co., ltd., Hiroki MURASE of Aichi JP for panasonic intellectual property management co., ltd.
IPC Code(s): C02F5/02
CPC Code(s): C02F5/02
Abstract: water softening device () of the present disclosure includes water softening tank (), neutralization tank (), electrolytic tank (), water pump (), current value detector (), and controller () that controls a regeneration treatment. in the regeneration treatment, controller () continues the regeneration treatment when a current value of water pump () detected by current value detector () is more than or equal to a predetermined value, and stops the regeneration treatment and shifts to a hardness component discharge treatment of discharging a hardness component in the water softening device to the outside of the water softening device when the current value of water pump () detected by current value detector () is less than the predetermined value.
Inventor(s): MASASHI HAMABE of Osaka JP for panasonic intellectual property management co., ltd., MASAYOSHI IMANISHI of Fukui JP for panasonic intellectual property management co., ltd., TOSHIFUMI NAGINO of Osaka JP for panasonic intellectual property management co., ltd., SHOUMA NISHINO of Fukui JP for panasonic intellectual property management co., ltd.
IPC Code(s): C08K7/02, C08L23/12
CPC Code(s): C08K7/02
Abstract: the composite resin composition includes: a base resin; a low molecular weight resin; a compatibilizer; and a filler. the low molecular weight resin and the base resin belong to a same kind of resin, a molecular weight of the low molecular weight resin is lower than a molecular weight of the base resin, and the compatibilizer has a molecular structure that is substantially a same as a molecular structure of the base resin.
Inventor(s): MASAYOSHI IMANISHI of Fukui JP for panasonic intellectual property management co., ltd., MASASHI HAMABE of Osaka JP for panasonic intellectual property management co., ltd., TOSHIFUMI NAGINO of Osaka JP for panasonic intellectual property management co., ltd., SHOUMA NISHINO of Fukui JP for panasonic intellectual property management co., ltd., AMI FUKU of Osaka JP for panasonic intellectual property management co., ltd.
IPC Code(s): C08L1/02, C08J3/205, C08J5/04
CPC Code(s): C08L1/02
Abstract: a cellulose fiber composite resin composition includes: a base resin; a cellulose fiber, and a dispersant. the cellulose fiber is contained in an amount of 50 mass % or more and 90 mass % or less, the cellulose fiber has an average particle diameter of 10 �m or more and 70 �m or less, the cellulose fiber includes a cellulose fiber having a particle diameter of 710 �m or less in a ratio of 95% or more, and the cellulose fiber includes a cellulose fiber having an aspect ratio of 5 or more and 100 or less in a ratio of 95% or more.
Inventor(s): KAZUMA OIKAWA of Osaka JP for panasonic intellectual property management co., ltd., RYOU KUWABARA of Osaka JP for panasonic intellectual property management co., ltd.
IPC Code(s): D01F9/17, C01B32/184
CPC Code(s): D01F9/17
Abstract: a conductive porous material includes a skeleton structure containing a fibrous carbonaceous material of biological origin, and graphene held by the skeleton structure. a volume resistivity of the conductive porous material measured under pressure of less than or equal to 10 mpa is 1.0�10to 1.0�10��cm. a biomass degree of the conductive porous material, as measured by accelerator mass spectrometry (ams) method, is in a range of 5 to 55 pmc. an electrode includes the conductive porous material.
Inventor(s): KENICHIRO MASE of Osaka JP for panasonic intellectual property management co., ltd.
IPC Code(s): F21V5/00, F21V11/14
CPC Code(s): F21V5/007
Abstract: a lighting device that emits light to a lighting target surface and includes a light source, and a lens having an incident surface that receives light emitted from the light source and an emission surface that emits the light received by the incident surface. the emission surface is a convex curved surface. the curvature of the emission surface along a first direction perpendicular to an optical axis direction of the lens is smaller than the curvature of the emission surface along a second direction perpendicular to the optical axis direction and the first direction.
Inventor(s): YOSHIKAZU KAWABE of for panasonic intellectual property management co., ltd., SEISHI IITAKA of Shiga JP for panasonic intellectual property management co., ltd., AKIRA HIWATA of Shiga JP for panasonic intellectual property management co., ltd.
IPC Code(s): F25B41/42, F25B49/02
CPC Code(s): F25B41/42
Abstract: provided are branch part () that distributes a refrigerant having flowed out of condenser () into main circuit () communicating with evaporator () and bypass circuit () that bypasses evaporator (), confluence part () that merges the refrigerant from main circuit () and the refrigerant from bypass circuit (), first throttle () that decompresses and expands the refrigerant between condenser () and evaporator (), first inter-refrigerant heat exchanger () that exchanges heat between the refrigerant between condenser () and first throttle (), and the refrigerant between confluence part () and suction into compressor (), second throttle () that is disposed in bypass circuit (), and decompresses and expands the refrigerant distributed at branch part (), and second inter-refrigerant heat exchanger () that is disposed in bypass circuit () and exchanges heat between the refrigerant decompressed and expanded by second throttle () and the refrigerant having flowed out of the condensation-side outlet of first inter-refrigerant heat exchanger ().
Inventor(s): TATSUYA SAKUMA of Osaka JP for panasonic intellectual property management co., ltd.
IPC Code(s): G01B5/20, G01B5/012
CPC Code(s): G01B5/20
Abstract: a shape measurement method of the present disclosure is configured to measure a three-dimensional shape of a surface of a measurement object, the shape measuring method including the steps of: dividing the surface of the measurement object into a plurality of measurement regions; acquiring a plurality of sets of partial measurement data; calculating a first coordinate transformation parameter for performing global alignment of the plurality of sets of partial measurement data; acquiring error calculation data including a normal line at each of a plurality of measurement points of the plurality of sets of partial measurement data; extracting an overlapping region based on the plurality of sets of partial measurement data and the first coordinate transformation parameter; calculating a second coordinate transformation parameter for performing local alignment of the plurality of sets of partial measurement data based on the error calculation data in the extracted overlapping region; and generating composite data by combining the plurality of sets of partial measurement data based on the first coordinate transformation parameter and the second coordinate transformation parameter.
Inventor(s): JUNICHI KAMATANI of Nara JP for panasonic intellectual property management co., ltd., TATSURO SHIRAISHI of Osaka JP for panasonic intellectual property management co., ltd.
IPC Code(s): G02B6/36
CPC Code(s): G02B6/3616
Abstract: a method for connecting an optical waveguide includes supplying adhesive () to near a light input unit on an optical circuit board, aligning optical fiber block () holding optical fiber () with respect to the optical circuit board to maximize intensity of light emitted from the optical circuit board, starting curing of the adhesive, measuring a curing degree of the adhesive and an adhesive curing time during the curing of the adhesive, and repeating the alignment of the optical fiber block holding the optical fiber with respect to the optical circuit board to maximize the intensity of the light emitted from the optical circuit board in a state where the degree of curing is less than or equal to a certain threshold value.
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): G03B5/00, G03B17/56
CPC Code(s): G03B5/00
Abstract: an imaging system includes an imaging device performing imaging in a first imaging state and a second imaging state of different optical axes, an attitude detector that detects an attitude change amount of the mobile object, an optical axis changing assembly that changes, while the mobile object is moving in a first direction, an optical axis of the imaging device from a state of a first optical axis at a time when the imaging device performs imaging in the first imaging state to a state of a second optical axis inclined in a second direction intersecting the first direction at a time of imaging in the second imaging state, and a controller that sets an optical axis change amount by which the optical axis changing assembly changes the optical axis of the imaging device, based on the attitude change amount.
Inventor(s): MIKIO USHIODA 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): G05B13/02, G06N7/01
CPC Code(s): G05B13/0265
Abstract: evaluation device () is a device that evaluates, by bayesian optimization, unknown characteristic points corresponding to a plurality of candidate control points at a second time following a first time based on known characteristic points corresponding to controlled control points at the first time, the device including: reception controller () that acquires control result data () indicating the controlled control points at the first time and the known characteristic points at the first time, purpose data () indicating an optimization purpose, constraint condition data () indicating a constraint condition, and region reduction rule data (); evaluation value calculating unit () that calculates an evaluation value of each of the plurality of unknown characteristic points based on control result data (), purpose data (), constraint condition data (), and region reduction rule data (); and evaluation value output unit () that outputs an evaluation value.
Inventor(s): Andre IVAN of Singapore SG for panasonic intellectual property management co., ltd., Zong Sheng TANG of Singapore SG for panasonic intellectual property management co., ltd., Ariel BECK of Singapore SG for panasonic intellectual property management co., ltd.
IPC Code(s): G06T7/00, G06T7/12, G06T7/60, G06V30/14, G06V30/148, G06V30/18, G06V30/19
CPC Code(s): G06T7/0008
Abstract: the present disclosure discloses a method and system for visual inspection of a target product. the method includes a) receiving an image associated with the target product; generating a plurality of region of interests (rois) associated with the image; identifying, based on the plurality of non-terminal rois, a first set of features and a second set of features associated with the image. the first set of features and the second set of features are indicative of one of a presence of defect within the image or an absence of defect within the image. the method also includes determining, based on the first set of features and the second set of features, a result of the visual inspection of the target product associated with the image. the result is a success result or a failure result.
Inventor(s): Masaki FUKUDA of Osaka JP for panasonic intellectual property management co., ltd., Toshiyasu SUGIO of Osaka JP for panasonic intellectual property management co., ltd., Toru MATSUNOBU of Osaka JP for panasonic intellectual property management co., ltd., Satoshi YOSHIKAWA of Hyogo JP for panasonic intellectual property management co., ltd., Kensho TERANISHI of Osaka JP for panasonic intellectual property management co., ltd.
IPC Code(s): G06T7/33, G06T17/00, G06T19/20
CPC Code(s): G06T7/344
Abstract: an object amount calculation apparatus includes: a receiver configured to obtain a first three-dimensional model and a second three-dimensional model different from the first three-dimensional model, each of the first three-dimensional model and the second three-dimensional model representing a same space, each of the first three-dimensional model and the second three-dimensional model being constituted with regions having respective attributes; and a processor configured to: align the first three-dimensional model and the second three-dimensional model based on at least one attribute of the first three-dimensional model and the second three-dimensional model; calculate, for each of the attributes, a difference between the first three-dimensional model aligned and the second three-dimensional model aligned; and output (i) a total amount of differences corresponding to two or more attributes among the attributes and (ii) information on the two or more attributes.
Inventor(s): Masashi ISHIMARU of Osaka JP for panasonic intellectual property management co., ltd., Yoshihiro MATSUMURA of Osaka JP for panasonic intellectual property management co., ltd., Hiroki KAMEI of Osaka JP for panasonic intellectual property management co., ltd., Jakusei KIYOSAKI of Hyogo JP for panasonic intellectual property management co., ltd., Yaming ZHANG of Osaka JP for panasonic intellectual property management co., ltd., Yuki KUNUGIDA of Osaka JP for panasonic intellectual property management co., ltd., Takuya YAMAMURA of Osaka JP for panasonic intellectual property management co., ltd.
IPC Code(s): G10L15/22, G10L25/51
CPC Code(s): G10L15/22
Abstract: an estimation method includes: obtaining a first voice feature group of a plurality of persons who speak a first language; obtaining a second voice feature group of a plurality of persons who speak a second language; obtaining a voice feature of a subject; correcting the voice feature of the subject according to a relationship between the first voice feature group and the second voice feature group; estimating, from the voice feature of the subject that has been corrected, an oral function or a cognitive function of the subject by using an estimation process for an oral function or a cognitive function based on the second language; and outputting a result of estimation of the oral function or the cognitive function of the subject.
Inventor(s): Tatsuji AOYAMA of KYOTO FU JP for panasonic intellectual property management co., ltd., Shumpei MATSUSHITA of YAMAGUCHI KEN JP for panasonic intellectual property management co., ltd., Tomoyuki TASHIRO of YAMAGUCHI KEN JP for panasonic intellectual property management co., ltd.
IPC Code(s): H01G9/028, H01G9/00, H01G9/035, H01G9/15
CPC Code(s): H01G9/028
Abstract: a disclosed electrolytic capacitor includes a stacked body and a liquid component with which the stacked body is impregnated. the stacked body includes an anode foil having a dielectric layer formed on a surface thereof, a cathode foil, a separator, and conductive polymer layers. the conductive polymer layers include a first conductive polymer layer formed on the dielectric layer, a second conductive polymer layer formed on the cathode foil, and a third conductive polymer layer formed on the separator. the first conductive polymer layer and the third conductive polymer layer are in contact with each other at a first interface, and the second conductive polymer layer and the third conductive polymer layer are in contact with each other at a second interface. when the amount of the liquid component contained in the stacked body has decreased, an electrical resistance between the first conductive polymer layer and the third conductive polymer layer and an electrical resistance between the second conductive polymer layer and the third conductive polymer layer increase.
Inventor(s): TAKAHIRO YOSHII of Osaka JP for panasonic intellectual property management co., ltd., KEI HIROTA of Okayama JP for panasonic intellectual property management co., ltd., YOSHIHARU KATAOKA of Kyoto JP for panasonic intellectual property management co., ltd.
IPC Code(s): H01G9/028, H01G9/012, H01G9/15
CPC Code(s): H01G9/028
Abstract: a capacitor element includes an anode body including a first portion including a first end and a second portion including a second end, and a separation part disposed on a part positioned between the first end and the second end of the anode body. the conductive polymer layer includes an inner layer filled in at least a part of the porous part, and an outer layer positioned outside a principal surface of the anode body. the separation part includes an end a and an end b, the end b being positioned closer to the second end than the end a is. a filling proportion in a region c included in a cross section of a portion of the porous part from the end b to 0.05l is more than or equal to 46%, where l represents a length from the end b to an end of the cathode part at the second end side.
Inventor(s): Daizo Jito of Osaka JP for panasonic intellectual property management co., ltd., Akihiro Kawakita of Hyogo JP for panasonic intellectual property management co., ltd., Masaki Deguchi of Hyogo JP for panasonic intellectual property management co., ltd., Katsuya Inoue of Hyogo JP for panasonic intellectual property management co., ltd., Takeshi Ogasawara of Hyogo JP for panasonic intellectual property management co., ltd.
IPC Code(s): H01M4/36, H01M4/131, H01M4/525, H01M4/62, H01M10/052
CPC Code(s): H01M4/366
Abstract: a positive electrode active material which is to be included in this nonaqueous electrolyte secondary battery and contains a lithium-containing complex oxide having a prescribed composition which has a layered evaporitic structure, wherein: the lithium-containing complex oxide contains secondary particles formed by clumping primary particles with one another; and a sulfonic acid compound represented by general formula i, one or more types of element selected from ca and sr, and one or more types of element selected from w, mo, ti, si, nb and zr are present on the surface of the secondary particles or at the interface between the primary particles. (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.)
Inventor(s): Daizo Jito of Osaka JP for panasonic intellectual property management co., ltd., Akihiro Kawakita of Hyogo JP for panasonic intellectual property management co., ltd., Masaki Deguchi of Hyogo JP for panasonic intellectual property management co., ltd., Katsuya Inoue of Hyogo JP for panasonic intellectual property management co., ltd., Takeshi Ogasawara of Hyogo JP for panasonic intellectual property management co., ltd.
IPC Code(s): H01M4/36, H01M4/131, H01M4/525, H01M4/62, H01M10/052
CPC Code(s): H01M4/366
Abstract:
Inventor(s): Yoshiaki TANAKA of Kyoto JP for panasonic intellectual property management co., ltd., Keita MIZUNO of Osaka JP for panasonic intellectual property management co., ltd., Akihiro SAKAI of Nara JP for panasonic intellectual property management co., ltd.
IPC Code(s): H01M4/485, C01G31/00, H01M4/62
CPC Code(s): H01M4/485
Abstract: a vanadium oxide of the present disclosure is represented by a composition formula (1): livmo. in the composition formula (1), 0.03<�<1.0 and 0≤x<1.0 are satisfied, and m is at least one selected from the group consisting of tetravalent metal elements. a battery of the present disclosure includes a positive electrode , a negative electrode , and an electrolyte layer disposed between the positive electrode and the negative electrode . the negative electrode includes the vanadium oxide of the present disclosure.
Inventor(s): Yuta Kuroda of Osaka Fu JP for panasonic intellectual property management co., ltd., Yosuke Sato of Osaka Fu JP for panasonic intellectual property management co., ltd., Keiko Kato of Osaka Fu JP for panasonic intellectual property management co., ltd.
IPC Code(s): H01M4/583, H01M4/02, H01M4/133
CPC Code(s): H01M4/583
Abstract: a negative electrode for a secondary battery includes a negative electrode current collector and a negative electrode mixture layer including a negative electrode active material, wherein the negative electrode active material includes carbon particles and si-containing particles, and in a distribution in a plane direction of the negative electrode mixture layer of a presence probability of si element in a thickness direction of the negative electrode mixture layer, a difference of an upper limit value rmax and a lower limit value rmin in a 1� region: rmax−rmin is 20% or less.
Inventor(s): EIICHI KOGA of Hokkaido JP for panasonic intellectual property management co., ltd.
IPC Code(s): H01M10/0562, H01M4/04
CPC Code(s): H01M10/0562
Abstract: the solid electrolyte material of the present disclosure is a solid electrolyte material containing li, ti, and f, comprising an amorphous substance containing li, ti, and f. the solid electrolyte material of the present disclosure may further comprise a crystalline phase containing li, ti, and f. the solid electrolyte material production method of the present disclosure comprises: (a) synthesizing a compound comprising a crystalline phase containing li, ti, and f; and (b) performing a treatment to disturb the crystal of the compound. the compound may be mechanochemically treated in the step (b).
Inventor(s): Tetsuji OMURA of Hyogo JP for panasonic intellectual property management co., ltd., Toshiya GOTOU of Osaka JP for panasonic intellectual property management co., ltd., Shinya MOTOKAWA of Hyogo JP for panasonic intellectual property management co., ltd.
IPC Code(s): H01M10/6556, H01M10/613, H01M10/647, H01M10/653, H01M10/6553, H01M10/6567, H01M10/658, H01M50/209, H01M50/224, H01M50/227, H01M50/276, H01M50/278, H01M50/289, H01M50/50, H01M50/526
CPC Code(s): H01M10/6556
Abstract: battery module includes a plurality of batteries (secondary batteries), one or more bus bars that electrically connect the plurality of batteries, and cooling plate that is in contact with bus bar and has one or more passages through which a coolant flows. each of the plurality of batteries has: an electrode body; an outer can that accommodates the electrode body; a lid that seals an opening of the outer can; and positive electrode terminal and negative electrode terminal that are individually inserted through a pair of through holes provided on the lid, are insulated from the lid, and are electrically connected to the electrode body. one of positive electrode terminal and negative electrode terminal is connected to bus bar.
20250096516. LASER DEVICE_simplified_abstract_(panasonic intellectual property management co., ltd.)
Inventor(s): TASUKU NAKAMURA of Osaka JP for panasonic intellectual property management co., ltd., SHINYA OKAMOTO of Kyoto JP for panasonic intellectual property management co., ltd., KAZUYA HISADA of Nara JP for panasonic intellectual property management co., ltd., YASUHISA INADA of Osaka JP for panasonic intellectual property management co., ltd., KATSUYA NOZAWA of Osaka JP for panasonic intellectual property management co., ltd.
IPC Code(s): H01S3/10, H01S3/00, H01S3/13
CPC Code(s): H01S3/10046
Abstract: a laser device includes a first optical comb laser, a second optical comb laser having a repetition frequency different from the first optical comb laser, a detection unit that detects interfering light between light output from the first optical comb laser and light output from the second optical comb laser and a control circuit. the control circuit controls at least one of a first ceo frequency, which is a carrier-envelope offset frequency of the first optical comb laser, or a second ceo frequency, which is a carrier-envelope offset frequency of the second optical comb laser, on the basis of output of the detection unit and thus changes a difference frequency, which is a difference between the first ceo frequency and the second ceo frequency.
Inventor(s): Takahiro NISHI of Nara JP for panasonic intellectual property management co., ltd., Tadamasa TOMA of Osaka JP for panasonic intellectual property management co., ltd.
IPC Code(s): H04N19/98, H04N19/136, H04N19/44, H04N19/46, H04N19/895, H04N21/236, H04N21/2362, H04N21/431, H04N21/434, H04N21/845
CPC Code(s): H04N19/98
Abstract: provided is a video reception method performed by a video reception apparatus including a display. the video reception method includes: receiving a reception signal multiplexed from video data and audio data; outputting, as first transfer characteristics information, transfer characteristics obtained by demultiplexing the reception signal; outputting, as second transfer characteristics information, transfer characteristics obtained by decoding the video data, the second transfer characteristics information being information for specifying, at frame accuracy, a transfer function corresponding to a luminance dynamic range of the video data; and displaying the video data while controlling a luminance dynamic range of the display at frame accuracy according to the second transfer characteristics information.
Inventor(s): Ryoji Okubo of Osaka JP for panasonic intellectual property management co., ltd., Yoshinori OKAZAKI of Osaka JP for panasonic intellectual property management co., ltd., Hiroshi SAITO of Osaka JP for panasonic intellectual property management co., ltd.
IPC Code(s): H04N23/695, H04N7/18, H04N23/69
CPC Code(s): H04N23/695
Abstract: an information processing device is an information processing device that outputs a video stream by using a video captured by an imaging device capable of changing at least one parameter among pan, tilt, and zoom, and includes a parameter controller that controls at least one parameter of the imaging device. the parameter controller instructs the imaging device to change the at least one parameter, and outputs a switching permission signal for permitting switching of the video stream output from the information processing device when the change of the at least one parameter of the imaging device is completed.
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): H04N23/695, G03B5/06, G03B30/00, H04N23/667, H04N23/68
CPC Code(s): H04N23/695
Abstract: an optical axis changing assembly changes an optical axis of an imaging device to states of k optical axes, so that the optical axis of the imaging device changes from a state of a first optical axis of the imaging device during capturing a first image to a state of a second optical axis displaced in a second direction intersecting a first direction during capturing a second image, to sequentially change the optical axis of the imaging device in a second direction. the imaging device is installed with an installation inclination so that a predetermined optical axis among the k optical axes is inclined at a predetermined angle smaller than an optical axis change angle of the optical axis changing assembly with respect to a direction from an installation position of the imaging device to an imaging target region in a plane including the k optical axes.
Inventor(s): Yusuke TAKECHI of Osaka JP for panasonic intellectual property management co., ltd., Ryo FUJITA of Hyogo JP for panasonic intellectual property management co., ltd.
IPC Code(s): H05K13/08, H05K13/04
CPC Code(s): H05K13/0812
Abstract: a mounting head includes a drive part that moves in a vertical direction to apply a load to an electronic component, a float part supported by the drive part in a vertically movable manner, and a linear motor that applies a vertical upward pressing force to the float part. the linear motor includes a stator fixed on the drive part and a moving member fixed on the float part. the drive part moves downward in the vertical direction to apply the load due to own weight of the float part to the electronic component to mount the electronic component onto the board. the linear motor is driven to control a magnitude of 10 the load applied to the electronic component by applying the vertical upward pressing force to the float part.
Inventor(s): Yuuko TOMEKAWA of Osaka JP for panasonic intellectual property management co., ltd., Yoshihiro SATO of Osaka JP for panasonic intellectual property management co., ltd.
IPC Code(s): H01L27/146
CPC Code(s): H10F39/811
Abstract: an imaging device includes a semiconductor substrate and pixels. each of the pixels includes a first capacitive element including a first electrode provided above the semiconductor substrate, a second electrode provided above the semiconductor substrate, and a dielectric layer located between the first electrode and the second electrode. at least one selected from the group consisting of the first electrode and the second electrode has a first electrical contact point electrically connected to a first electrical element and a second electrical contact point electrically connected to a second electrical element different from the first electrical element. the first capacitive element includes at least one trench portion having a trench shape.
Panasonic Intellectual Property Management Co., Ltd. patent applications on March 20th, 2025
- Panasonic Intellectual Property Management Co., Ltd.
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- CPC B28B3/126
- Panasonic intellectual property management co., ltd.
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- F16D41/30
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- B81C1/00
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- C08K7/02
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- G03B30/00
- H04N23/667
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- H05K13/08
- H05K13/04
- CPC H05K13/0812
- H01L27/146
- CPC H10F39/811