FUJIFILM Corporation patent applications on September 26th, 2024
Patent Applications by FUJIFILM Corporation on September 26th, 2024
FUJIFILM Corporation: 32 patent applications
FUJIFILM Corporation has applied for patents in the areas of G03F7/00 (3), H04N23/68 (3), A61B1/00 (2), G11B5/78 (2), G11B5/735 (2) G11B5/588 (2), B41J29/13 (2), A61B1/000094 (1), G02F1/133757 (1), H04N23/80 (1)
With keywords such as: light, image, layer, optical, liquid, imaging, portion, provided, value, and plate in patent application abstracts.
Patent Applications by FUJIFILM Corporation
Inventor(s): Kentaro OSHIRO of Kanagawa (JP) for fujifilm corporation
IPC Code(s): A61B1/00
CPC Code(s): A61B1/000094
Abstract: provided are an endoscopic image observation support device and an endoscope system that can provide a user interface with high visibility even if having a plurality of support functions. the endoscopic image observation support device supports observation of an image captured by an endoscope and includes a processor. the processor is configured to cause a display device to display the image. in addition, the processor is configured to set degrees of priority of a plurality of pieces of support information to be displayed on the display device, and cause the display device to display the plurality of pieces of support information based on the degrees of priority.
Inventor(s): Atsushi OSAWA of Kanagawa (JP) for fujifilm corporation, Hisatsugu HORIUCHI of Kanagawa (JP) for fujifilm corporation, Keiji TSUBOTA of Kanagawa (JP) for fujifilm corporation, Sayaka SAITO of Kanagawa (JP) for fujifilm corporation
IPC Code(s): A61B6/00, A61B6/04, A61B6/46, A61B6/50, A61B8/00, A61B8/08
CPC Code(s): A61B6/5247
Abstract: a compression member puts a breast disposed between a radiation source and a radiation detector into a compressed state, and includes a first marker that is formed of a first material, which is visible in an ultrasound image and is not visible in a radiation image, and of which a position in the compression member is discriminative, and a second marker that is provided at a position, which does not affect an image interpretation of the radiation image, and is formed of a second material which is visible in the radiation image.
Inventor(s): Keiji TSUBOTA of Kanagawa (JP) for fujifilm corporation
IPC Code(s): A61B8/00, G08B21/18
CPC Code(s): A61B8/4472
Abstract: provided are a control method of an ultrasound diagnostic apparatus and an ultrasound diagnostic apparatus that enable a user to smoothly start an examination even in a case where there are a plurality of ultrasound probes or a plurality of apparatus bodies.
Inventor(s): Keiji TSUBOTA of Kanagawa (JP) for fujifilm corporation
IPC Code(s): A61B8/00, G08B21/18
CPC Code(s): A61B8/4472
Abstract: there is provided an ultrasound diagnostic apparatus including: an ultrasound probe; and an apparatus body wirelessly connected to the ultrasound probe, in which the ultrasound probe performs wireless communication with the apparatus body, the ultrasound probe and the apparatus body have notification units, and in a case where a first device consisting of one of the ultrasound probe and the apparatus body is in a sleep state, wireless communication is performed from a second device consisting of the other to the first device in response to a predetermined operation performed by a user with respect to the second device so that the first device is switched from the sleep state to an activation state, and the notification unit of the first device issues a notification that the first device is activated by the second device.
20240315970. COMPOUND OR SALT THEREOF AND LIPID PARTICLES_simplified_abstract_(fujifilm corporation)
Inventor(s): Shintaro TANABE of Ashigarakami-gun (JP) for fujifilm corporation, Masahiko YAMAMOTO of Ashigarakami-gun (JP) for fujifilm corporation, Kimihiko SATO of Ashigarakami-gun (JP) for fujifilm corporation, Motomasa TAKAHASHI of Ashigarakami-gun (JP) for fujifilm corporation, Kazuhiro TSUNA of Ashigarakami-gun (JP) for fujifilm corporation, Yasutaka TASAKI of Ashigarakami-gun (JP) for fujifilm corporation, Taisuke ENDO of Ashigarakami-gun (JP) for fujifilm corporation, Issei DOI of Ashigarakami-gun (KR) for fujifilm corporation, Hirofumi FUKUNAGA of Ashigarakami-gun (JP) for fujifilm corporation
IPC Code(s): A61K9/127, C07C219/06, C12N15/88
CPC Code(s): A61K9/1272
Abstract: an object of the present invention is to provide a compound or a salt thereof constituting lipid particles that can achieve a high nucleic acid encapsulation rate and excellent delivery of nucleic acids, and to provide lipid particles that can achieve a high nucleic acid encapsulation rate and excellent delivery of nucleic acids. according to an aspect of the present invention, a compound represented by formula (1) or a salt thereof is provided.
20240315970. COMPOUND OR SALT THEREOF AND LIPID PARTICLES_simplified_abstract_(fujifilm corporation)
Inventor(s): Shintaro TANABE of Ashigarakami-gun (JP) for fujifilm corporation, Masahiko YAMAMOTO of Ashigarakami-gun (JP) for fujifilm corporation, Kimihiko SATO of Ashigarakami-gun (JP) for fujifilm corporation, Motomasa TAKAHASHI of Ashigarakami-gun (JP) for fujifilm corporation, Kazuhiro TSUNA of Ashigarakami-gun (JP) for fujifilm corporation, Yasutaka TASAKI of Ashigarakami-gun (JP) for fujifilm corporation, Taisuke ENDO of Ashigarakami-gun (JP) for fujifilm corporation, Issei DOI of Ashigarakami-gun (KR) for fujifilm corporation, Hirofumi FUKUNAGA of Ashigarakami-gun (JP) for fujifilm corporation
IPC Code(s): A61K9/127, C07C219/06, C12N15/88
CPC Code(s): A61K9/1272
Abstract:
20240315970. COMPOUND OR SALT THEREOF AND LIPID PARTICLES_simplified_abstract_(fujifilm corporation)
Inventor(s): Shintaro TANABE of Ashigarakami-gun (JP) for fujifilm corporation, Masahiko YAMAMOTO of Ashigarakami-gun (JP) for fujifilm corporation, Kimihiko SATO of Ashigarakami-gun (JP) for fujifilm corporation, Motomasa TAKAHASHI of Ashigarakami-gun (JP) for fujifilm corporation, Kazuhiro TSUNA of Ashigarakami-gun (JP) for fujifilm corporation, Yasutaka TASAKI of Ashigarakami-gun (JP) for fujifilm corporation, Taisuke ENDO of Ashigarakami-gun (JP) for fujifilm corporation, Issei DOI of Ashigarakami-gun (KR) for fujifilm corporation, Hirofumi FUKUNAGA of Ashigarakami-gun (JP) for fujifilm corporation
IPC Code(s): A61K9/127, C07C219/06, C12N15/88
CPC Code(s): A61K9/1272
Abstract: in the formula, x represents —nr— or —o—, rrepresents a hydrogen atom, a hydrocarbon group, or the like, rand reach independently represent a hydrogen atom, a hydrocarbon group, or the like, r, r, r, r, r, r, r, r, and reach independently represent a hydrogen atom or an alkyl group,
20240316937. PRINTING DEVICE_simplified_abstract_(fujifilm corporation)
Inventor(s): Kazumasa HATTORI of Kanagawa (JP) for fujifilm corporation
IPC Code(s): B41J2/165
CPC Code(s): B41J2/16552
Abstract: provided is a printing device that suppresses remaining of a mixture of an ink and a washing solution in a case of washing a print head. in a case where a length of a nozzle surface of a print head, which jets the ink from a plurality of nozzles disposed on a nozzle surface, in a first direction is defined as lp, a length of a nozzle region of the nozzle surface, which has liquid repellency, in the first direction is defined as ln, and a length of the washing solution holding surface of a washing solution holding member, which washes the nozzle surface facing the washing solution holding surface with the washing solution applied to the washing solution holding surface, in the first direction is defined as lc, a relationship of ln<lc<lp is satisfied.
20240316968. HOUSING STRUCTURE AND IMAGE FORMATION DEVICE_simplified_abstract_(fujifilm corporation)
Inventor(s): Masaaki TAKENOUCHI of Kanagawa (JP) for fujifilm corporation
IPC Code(s): B41J29/13, G03G21/16
CPC Code(s): B41J29/13
Abstract: a housing structure includes a cover portion including a first cover portion provided on one surface of a first housing, and a second cover portion provided on the one surface of the first housing below the first cover portion; a first inclined portion provided at a lower end portion of the first cover portion and inclined toward an inside of the first housing; a second inclined portion provided at an upper end portion of the second cover portion and inclined toward the inside of the first housing; and a first handle portion which is a handle for opening and closing the cover portion, in which a distal end portion of the handle is located on an inclined surface of the first inclined portion, and which is formed to include a grip portion of the handle on a side opposite to the inclined surface of the first inclined portion.
20240316969. APPARATUS_simplified_abstract_(fujifilm corporation)
Inventor(s): Masahiko YAMAMOTO of Kanagawa (JP) for fujifilm corporation, Hidetoshi KIMURA of Kanagawa (JP) for fujifilm corporation
IPC Code(s): B41J29/13, B41J2/01
CPC Code(s): B41J29/13
Abstract: an apparatus includes a housing in which a band-shaped portion extending over a side surface and a front surface of the apparatus is formed, and a push button disposed within a range of the band-shaped portion on the side surface, the push button protruding from the band-shaped portion in a pressing direction.
Inventor(s): Masato SHIRAKAWA of Haibara-gun (JP) for fujifilm corporation
IPC Code(s): B41N1/16, B41C1/18, G03F7/00, G03F7/105, G03F7/20
CPC Code(s): B41N1/16
Abstract: an object of the present invention is to provide a flexographic printing plate precursor which has few mask defects, is unlikely to contaminate an apparatus during development, and is capable of obtaining a flexographic printing plate having excellent concave line reproducibility and being unlikely to cause ink entanglement; and a manufacturing method of a flexographic printing plate using the flexographic printing plate precursor. the flexographic printing plate precursor of the present invention is a flexographic printing plate precursor including, at least, in the following order, a support, a photosensitive resin layer, and a heat-sensitive image forming layer, in which the heat-sensitive image forming layer contains a pigment as an infrared absorber and a dye as an ultraviolet absorber, and an optical density of the heat-sensitive image forming layer is 3.0 or more.
Inventor(s): Tetsuya KAMIMURA of Haibara-gun (JP) for fujifilm corporation, Satomi TAKAHASHI of Haibara-gun (JP) for fujifilm corporation, Tadashi OOMATSU of Haibara-gun (JP) for fujifilm corporation, Tetsuya SHIMIZU of Haibara-gun (JP) for fujifilm corporation
IPC Code(s): B65D85/00, B65D25/14, B65D81/26, G03F7/00, G03F7/32
CPC Code(s): B65D85/70
Abstract: the present invention provides a chemical liquid having excellent defect suppressing properties. the present invention further provides a chemical liquid storage body containing the chemical liquid. the chemical liquid of the present invention is a chemical liquid containing a compound other than an alkane and an alkene, and one or more organic solvents selected from the group consisting of decane and undecane, in which the chemical liquid further contains one or more organic components selected from the group consisting of alkanes having 12 to 50 carbon atoms and alkenes having 12 to 50 carbon atoms, and a content of the organic component is 0.10 to 1,000,000 mass ppt with respect to a total mass of the chemical liquid.
Inventor(s): Daisuke NAKAGAWA of Kanagawa (JP) for fujifilm corporation, Hiroaki TSUYAMA of Kanagawa (JP) for fujifilm corporation, Hayato YOSHIDA of Kanagawa (JP) for fujifilm corporation, Takuma MOGI of Kanagawa (JP) for fujifilm corporation
IPC Code(s): C07K1/06, C07C43/23, C07C217/58, C07C271/16, C07K1/30
CPC Code(s): C07K1/062
Abstract: an object of the present invention is to provide a method for producing a peptide compound with an excellent yield, a protective group-forming reagent having an excellent yield, and a novel substituted benzyl compound. according to the present invention, there is provided a method for producing a peptide compound, including a step of using a substituted benzyl compound represented by formula (1).
Inventor(s): Daisuke NAKAGAWA of Kanagawa (JP) for fujifilm corporation, Hiroaki TSUYAMA of Kanagawa (JP) for fujifilm corporation, Hayato YOSHIDA of Kanagawa (JP) for fujifilm corporation, Takuma MOGI of Kanagawa (JP) for fujifilm corporation
IPC Code(s): C07K1/06, C07C43/23, C07C217/58, C07C271/16, C07K1/30
CPC Code(s): C07K1/062
Abstract:
Inventor(s): Daisuke NAKAGAWA of Kanagawa (JP) for fujifilm corporation, Hiroaki TSUYAMA of Kanagawa (JP) for fujifilm corporation, Hayato YOSHIDA of Kanagawa (JP) for fujifilm corporation, Takuma MOGI of Kanagawa (JP) for fujifilm corporation
IPC Code(s): C07K1/06, C07C43/23, C07C217/58, C07C271/16, C07K1/30
CPC Code(s): C07K1/062
Abstract: in formula (1), y represents —oh, —nhr, —sh, or —x, r represents a hydrogen atom, an alkyl group, an arylalkyl group, a heteroarylalkyl group, or a 9-fluorenylmethoxycarbonyl group, x represents cl, br, or i, m represents 1 or 2, n represents an integer of 1 to 5, r's each independently represent an aliphatic hydrocarbon group, r, s each independently represent an aliphatic hydrocarbon group or an organic group having an aliphatic hydrocarbon group, where the number of carbon atoms in at least one aliphatic hydrocarbon group is 12 or more, and a benzene ring in formula (1) may further have a substituent in addition to r.
Inventor(s): Takuma KAWAMOTO of Kanagawa (JP) for fujifilm corporation, Misato SASADA of Kanagawa (JP) for fujifilm corporation
IPC Code(s): C09D11/101, B41M7/00, C09D11/38, C09K19/38
CPC Code(s): C09D11/101
Abstract: provided are an image recorded material including a substrate and an image recorded on the substrate, in which the image includes a cholesteric liquid crystal layer, the cholesteric liquid crystal layer has a stripe pattern of a bright portion and a dark portion, observed by a scanning electron microscope, in a cross section along a thickness direction of the image, in a case where an angle between a continuous line which is the bright portion or the dark portion and a main surface of the substrate is defined as an alignment angle, at least two regions in which an absolute value of a difference of the alignment angles is 5� or more are provided, and both of the two regions have a length of width of 1 mm or more in an in-plane direction of the substrate; and applications thereof.
20240319189. ASSAY KIT AND CHROMATOGRAPHIC METHOD_simplified_abstract_(fujifilm corporation)
Inventor(s): Atsuhiko WADA of Ashigarakami-gun (JP) for fujifilm corporation
IPC Code(s): G01N33/569, B01D15/38, G01N33/543
CPC Code(s): G01N33/56983
Abstract: an object of the present invention is to provide an assay kit for performing a chromatographic method, combined with a nasal mucus receiving medium in which a sample is easily visible and the sample is easily collected, and a chromatographic method including detecting presence or absence of a test substance in nasal mucus by using the above-descried assay kit. according to the present invention, there is provided an assay kit including (a) a nasal mucus receiving medium that includes a medium in which a visibility of a portion in contact with nasal mucus is changed in a case where nasal mucus is brought into contact with the portion, and an impermeable sheet, and (b) a chromatographic kit that includes a label substance modified with a first binding substance for a test substance, and a porous carrier having a second binding substance for the test substance or a binding substance for the first binding substance.
20240319420. OPTICAL ELEMENT AND OPTICAL SENSOR_simplified_abstract_(fujifilm corporation)
Inventor(s): Yukito SAITOH of Minamiashigara-shi (JP) for fujifilm corporation, Kazuya HISANAGA of Minamiashigara-shi (JP) for fujifilm corporation, Yujiro YANAI of Minamiashigara-shi (JP) for fujifilm corporation
IPC Code(s): G02B5/28, G01N21/41
CPC Code(s): G02B5/28
Abstract: an object of the present invention is to provide an optical element that reflects light in a specific wavelength range by a guided-mode resonance phenomenon of a liquid crystal diffraction element and can narrow a reflection wavelength range, and an optical sensor including the optical element. the optical element according to the embodiment of the present invention is an optical element including a liquid crystal layer that is formed of a composition including a liquid crystal compound, in which the liquid crystal layer has a liquid crystal alignment pattern in which a direction of an optical axis derived from the liquid crystal compound changes while continuously rotating toward at least one in-plane direction, the liquid crystal layer is formed by immobilizing a cholesteric liquid crystalline phase, and the liquid crystal layer further has a resonance structure.
Inventor(s): Kanji NAGASHIMA of Kanagawa (JP) for fujifilm corporation
IPC Code(s): F21V8/00, B41J2/045
CPC Code(s): G02B6/0091
Abstract: the presently disclosed technology enables to define appropriate disposition of a light guide plate depending on a condition of the light guide plate. in an illumination device including a light guide plate using total reflection, in a case in which a total length of the light guide plate in a thickness direction is denoted by w, a refractive index of a periphery of the light guide plate is denoted by n, a refractive index of the light guide plate is denoted by n, and a maximum incidence angle with respect to a first surface corresponding to the number of reflections is denoted by �, the light guide plate is disposed at a position at which a distance from an emission surface to an illumination target area is equal to or shorter than l, which is calculated by l={(�)�(n/n)�w}/tan�.
Inventor(s): Akihiro UCHIDA of Saitama-shi (JP) for fujifilm corporation
IPC Code(s): G02B7/09, G02B7/34, G02B7/36, G03B13/36, H04N23/10, H04N23/55, H04N23/667, H04N23/67, H04N25/704
CPC Code(s): G02B7/09
Abstract: an imaging device and a focusing control method are provided. the imaging device includes: an imaging element, having pixels including phase-difference detecting pixels and imaging a subject through an imaging optical system including a focus lens; and a focusing controller, selectively performing focusing control using a phase difference af method or focusing control using a contrast af method in a mode in which focusing control for focusing on a main subject by driving the focus lens is continuously performed multiple times. the focusing controller performs the focusing control using the contrast af method in a case where a state in which a degree of reliability of the focusing control using the phase difference af method is equal to or less than a threshold value persists n times (n=2 or more), while the focusing control using the phase difference af method is continuously performed.
Inventor(s): Hiroshi SATO of Minamiashigara-shi (JP) for fujifilm corporation, Yukito SAITOH of Minamiashigara-shi (JP) for fujifilm corporation
IPC Code(s): G02B27/01, G02F1/1335, G02F1/13363
CPC Code(s): G02B27/0172
Abstract: provide are an optical element that can improve a utilization efficiency of light while increasing an optical path length, an image display unit, and a head-mounted display. the optical element includes, in the following order: a first absorptive linearly polarizing plate; a first reflective linearly polarizing plate; a first retardation plate; a partially reflecting mirror; a second retardation plate; and a second reflective linearly polarizing plate, in which a turning direction of circularly polarized light that is reflected from the first reflective linearly polarizing plate in a case where light transmits through the first retardation plate and is incident into the first reflective linearly polarizing plate is opposite to a turning direction of circularly polarized light that is reflected from the second reflective linearly polarizing plate in a case where light transmits through the second retardation plate and is incident into the second reflective linearly polarizing plate.
Inventor(s): Takashi YONEMOTO of Minamiashigara-shi (JP) for fujifilm corporation, Masaaki SUZUKI of Minamiashigara-shi (JP) for fujifilm corporation, Koji IIJIMA of Minamiashigara-shi (JP) for fujifilm corporation, Hiroshi SATO of Minamiashigara-shi (JP) for fujifilm corporation, Ayato SEKINE of Minamiashigara-shi (JP) for fujifilm corporation
IPC Code(s): G02F1/1335, G02B27/01, G02F1/13363
CPC Code(s): G02F1/133504
Abstract: provided are a liquid crystal diffraction element, an image display apparatus, and a head mounted display where occurrence of a ghost in a head mounted display such as vr glasses can be suppressed. the liquid crystal diffraction element includes at least an optically-anisotropic layer that is formed of a liquid crystal composition including a liquid crystal compound, in which the optically-anisotropic layer has a liquid crystal alignment pattern in which an orientation of an optical axis derived from the liquid crystal compound changes while continuously rotating in at least one in-plane direction, in a case where a length over which the optical axis rotates by 180 degrees in the one direction is set as a single period, the single period gradually changes in the one direction, and in a case where an average period of 50 periods in the one direction from a period having a longest length of the single period is represented by �a and a main surface of the optically-anisotropic layer in a region having a period shorter than or equal to the average period �a is observed with an optical microscope, both of a ratio between a maximum value and a minimum value among widths of 30 continuous bright lines and a ratio between a maximum value and a minimum value among widths of 30 continuous dark lines in the region are 1.2 or less.
Inventor(s): Masao MORI of Saitama-shi (JP) for fujifilm corporation, Yu KITAHARA of Saitama-shi (JP) for fujifilm corporation
IPC Code(s): G02F1/1337, G02F1/29, G03F7/00
CPC Code(s): G02F1/133757
Abstract: provided are an exposure system that simply manufactures an alignment film corresponding to an optical element where a focal length continuously changes, a method of forming an alignment film using the exposure system, a method of manufacturing an optical element using the alignment film, and an optical element. the exposure system includes: a light source; a beam splitter that splits light emitted from the light source; a beam combiner that combines the light split by the beam splitter and includes a first surface allowing transmission of light and a second surface reflecting light; focusing elements that is provided upstream of the beam combiner; and a polarization conversion element, in which one or more of the focusing elements have a focal length continuously changes in a direction orthogonal to an optical axis and away from the optical axis, and a ratio of a maximum value to a minimum value of the focal length is more than 1.1.
20240319830. TOUCH SENSOR_simplified_abstract_(fujifilm corporation)
Inventor(s): Tokuju OIKAWA of Kanagawa (JP) for fujifilm corporation
IPC Code(s): G06F3/044, G06F3/047
CPC Code(s): G06F3/0443
Abstract: provided are a touch sensor that can suppress shading unevenness of a touch detection electrode, and a method for producing the touch sensor.
20240319830. TOUCH SENSOR_simplified_abstract_(fujifilm corporation)
Inventor(s): Tokuju OIKAWA of Kanagawa (JP) for fujifilm corporation
IPC Code(s): G06F3/044, G06F3/047
CPC Code(s): G06F3/0443
Abstract: the touch sensor comprises a substrate and conductive layers formed on the substrate, in which the conductive layer has a touch detection electrode () that is composed of a plurality of fine metal wires arranged in a mesh shape and extends over an electrode length l1 from a first end part (a) to a second end part (b), the plurality of the fine metal wires of the touch detection electrode each have a layer to be plated and a metal plating layer, and an average line width hm of the layers to be plated of the plurality of the fine metal wires in a region (r) between the first end part (a) and a position (p) apart from the first end part (a) toward the second end part (b) side by 1/10 of the electrode length l is narrower than an average line width hs of the layers to be plated of the plurality of the fine metal wires at a position (p) apart from the first end part (a) toward the second end part (b) side by � of the electrode length l
20240320877. IMAGE PROCESSING APPARATUS_simplified_abstract_(fujifilm corporation)
Inventor(s): Norimasa SHIGETA of Kanagawa (JP) for fujifilm corporation
IPC Code(s): G06T11/00, A61B1/00, A61B1/04, G06T7/40
CPC Code(s): G06T11/001
Abstract: a processor device that is an image processing apparatus functions as an image obtaining unit that obtains an endoscopic image obtained by capturing an image of a photographic subject, a biological information calculation unit that calculates biological information concerning the photographic subject by using the endoscopic image or a display image generated by using the endoscopic image, and a texture processing unit that superimposes a plurality of textures representing the biological information on the endoscopic image or the display image and shows a boundary between adjacent textures.
20240321301. MAGNETIC TAPE APPARATUS_simplified_abstract_(fujifilm corporation)
Inventor(s): Norihito KASADA of Minamiashigara-shi (JP) for fujifilm corporation
IPC Code(s): G11B5/588, G11B5/008
CPC Code(s): G11B5/588
Abstract: provided is a magnetic tape apparatus. during running of a magnetic tape in the magnetic tape apparatus, an angle � formed by an axis of an element array of a magnetic head with respect to a width direction of the magnetic tape is changed. the magnetic tape satisfies expression 1, the equation 1: tdsage+tdsenv−tc≤0.10 �m. in expression 1, tdsage is a maximum value of an absolute value of a difference between a servo band interval obtained before storage and a servo band interval obtained after the storage in a predetermined environment for 36 hours. tdsenv is a value calculated by multiplying a difference between a maximum value and a minimum value in the servo band intervals obtained in each of predetermined five environments by �, and tc is a value calculated by tc=l{cos(�−��)−cos(�+��)}.
20240321302. MAGNETIC TAPE APPARATUS_simplified_abstract_(fujifilm corporation)
Inventor(s): Norihito KASADA of Minamiashigara-shi (JP) for fujifilm corporation
IPC Code(s): G11B5/588, G11B5/008
CPC Code(s): G11B5/588
Abstract: provided is a magnetic tape apparatus. a maximum value of an absolute value of a difference between a servo band interval obtained before storage in a predetermined environment and a servo band interval obtained after storage for a storage time t in the above-described environment is defined as a, and a medium life is equal to or longer than 5 years, which is calculated by a linear function of a and a logarithm logt of t, which are derived from a value of a and a value of the logarithm logt of t, each of which is obtained by setting t as a plurality of predetermined times. the medium life is t in a case where a satisfies a predetermined equation. the magnetic tape includes a polyethylene naphthalate support having a young's modulus in the width direction, which is equal to or more than 10000 mpa.
20240321303. MAGNETIC TAPE APPARATUS_simplified_abstract_(fujifilm corporation)
Inventor(s): Norihito KASADA of Minamiashigara-shi (JP) for fujifilm corporation
IPC Code(s): G11B5/592, G11B5/706, G11B5/735, G11B5/78, G11B15/43
CPC Code(s): G11B5/5928
Abstract: provided is a magnetic tape apparatus. in a case where a maximum value of an absolute value of a difference between a servo band interval obtained before the following storage and a servo band interval obtained after the storage of n cycles, in which a predetermined storage is set as one cycle, is denoted by a, and a medium life is equal to or longer than 5 years, which is calculated by a linear function of a and a logarithm logt of t derived from a value of a and a value of the logarithm logt of a total storage time t of the storage of the n cycles, each of which is obtained by setting n as 1, 2, 3, 4, or 5. the medium life is t, in a case where a satisfies expression a: a=1.5−b+c.
Inventor(s): Norihito KASADA of Minamiashigara-shi (JP) for fujifilm corporation
IPC Code(s): G11B5/706, G11B5/708, G11B5/714, G11B5/735, G11B5/78
CPC Code(s): G11B5/70678
Abstract: provided is a magnetic tape, in which, in an environment with a temperature of 23� c. and a relative humidity of 50%, an alfesil abrasion valueof a surface of the magnetic layer, which is measured at a tilt angle of 45� of an alfesil square bar, is 20 �m or more and 50 �m or less, and standard deviation of alfesil abrasion values of the surface of the magnetic layer, which are respectively measured at tilt angles of 0�, 15�, 30�, and 45� of the alfesil square bar, is 30 �m or less. the tilt angle of the alfesil square bar is an angle formed by a longitudinal direction of the alfesil square bar and a width direction of the magnetic tape. the magnetic tape includes a polyethylene naphthalate support having a young's modulus in a width direction of 10000 mpa or more.
20240321482. CONDUCTIVE FILM_simplified_abstract_(fujifilm corporation)
Inventor(s): Hideki TOMIZAWA of Kanagawa (JP) for fujifilm corporation, Kazuhiro HASEGAWA of Kanagawa (JP) for fujifilm corporation, Takahiro OHNO of Kanagawa (JP) for fujifilm corporation
IPC Code(s): H01B5/14, H01B1/22, H01B1/24
CPC Code(s): H01B5/14
Abstract: a conductive film having excellent adhesiveness of a conductive thin wire after a durability test film includes: a transparent substrate; and a mesh pattern that is disposed on the transparent substrate and is formed of a conductive thin wire, in which the conductive thin wire includes a black layer including carbon black, a palladium-containing layer, and a metal plating layer in order from the transparent substrate side.
20240322096. LED DISPLAY DEVICE_simplified_abstract_(fujifilm corporation)
Inventor(s): Wakahiko KANEKO of Minamiashigara-shi (JP) for fujifilm corporation, Wataru MAJIMA of Minamiashigara-shi (JP) for fujifilm corporation, Tatsuya OBA of Minamiashigara-shi (JP) for fujifilm corporation
IPC Code(s): H01L33/60, H01L25/16, H01L33/50
CPC Code(s): H01L33/60
Abstract: provided is an led display device that can improve utilization efficiency of light with a simple configuration having a small number of components. the led display device includes an led array formed by arranging a plurality of light emitting diodes that emit excitation light having a wavelength of less than 420 nm, on a substrate; a color conversion layer; a wavelength-selective reflection layer disposed on a side opposite to the led array; and an rgb reflection layer disposed on an led array side with respect to the color conversion layer, in which the color conversion layer is disposed at each of positions corresponding to the light emitting diodes of the led array, and includes a red color conversion region emitting red light, a green color conversion region emitting green light, and a blue color conversion region emitting blue light, which are excited by the excitation light, and a partition wall that divides each region, a height h of the partition wall is 20 �m or less and a ratio w/h of a width w between partition walls to the height h is 2 or more, the wavelength-selective reflection layer selectively reflects light having a wavelength of the excitation light and is integrally formed at positions corresponding the respective regions, and the rgb reflection layer reflects at least light having a wavelength of 450 nm to 650 nm.
Inventor(s): Tomonori MASUDA of Saitama (JP) for fujifilm corporation, Hiroshi TAMAYAMA of Saitama (JP) for fujifilm corporation
IPC Code(s): H04N23/67, G01C3/06, G01C3/08, G01S17/10, G01S17/89, G03B13/36, G03B17/20, H04N23/56, H04N23/63, H04N23/68, H04N23/71, H04N23/73
CPC Code(s): H04N23/673
Abstract: a distance measurement device includes an imaging optical system, an imaging unit, an emission unit, a derivation unit which performs a distance measurement to derive a distance to a subject based on a timing at which directional light is emitted by the emission unit and a timing at which reflected light is received by a light receiving unit, a shake correction unit which performs shake correction as correction of shake of the subject image caused by variation of an optical axis of the imaging optical system, and a control unit which performs control such that the shake correction unit does not perform shake correction or performs shake correction with a correction amount smaller than a normal correction amount determined in advance in a case of performing the distance measurement and performs shake correction with the normal correction amount in a case of not performing the distance measurement.
Inventor(s): Takuro ABE of Saitama (JP) for fujifilm corporation, Kouhei AWAZU of Saitama (JP) for fujifilm corporation
IPC Code(s): H04N23/68, H04N23/52
CPC Code(s): H04N23/687
Abstract: there are provided a shake correction device and an imaging apparatus capable of mechanically suppressing movement of a movable unit and efficiently radiating heat of the movable unit.
Inventor(s): Takuro ABE of Saitama (JP) for fujifilm corporation, Kouhei AWAZU of Saitama (JP) for fujifilm corporation
IPC Code(s): H04N23/68, H04N23/52
CPC Code(s): H04N23/687
Abstract: a shake correction device includes: a movable unit that holds an imaging element; a fixed unit that supports the movable unit to be movable within a plane that intersects an optical axis of the imaging element; and a lock mechanism that presses a first region of a first member connected to the fixed unit against a second member of the movable unit to suppress movement of the movable unit, in which heat of the movable unit is conducted to the fixed unit from a second region of the first member different from the first region via the first region from the second member by the pressing.
Inventor(s): Tetsuya FUJIKAWA of Saitama-shi (JP) for fujifilm corporation, Tomoharu SHIMADA of Saitama-shi (JP) for fujifilm corporation
IPC Code(s): H04N23/695, H04N7/18, H04N23/66, H04N23/68
CPC Code(s): H04N23/695
Abstract: a control device controls a revolution mechanism causing an imaging apparatus to revolve. the control device includes a processor. the processor is configured to switch between first control and second control that are related to an operation of the revolution mechanism based on at least any one of an imaging condition of the imaging apparatus or operating information of the revolution mechanism, the first control is continuous control in which an input factor is a command value of a speed, and the second control is discrete control in which the input factor is a command value of a position.
Inventor(s): Takuto YANAGISAWA of Kanagawa (JP) for fujifilm corporation
IPC Code(s): H04N23/698
CPC Code(s): H04N23/698
Abstract: an imaging support device includes a processor, the processor being configured to: extract, based on first position information related to a position of each of a plurality of captured images and on second position information related to a position of an imaging device, an overlap candidate image, which is a candidate to be overlapped with an imaging target region of the imaging device, from the plurality of captured images; derive an overlap ratio between the imaging target region and the overlap candidate image; and output a first signal to the imaging device in a case where the overlap ratio is equal to or greater than a predetermined overlap ratio.
Inventor(s): Tetsuya FUJIKAWA of Saitama-shi (JP) for fujifilm corporation, Masahiko SUGIMOTO of Saitama-shi (JP) for fujifilm corporation, Junichi TANAKA of Saitama-shi (JP) for fujifilm corporation
IPC Code(s): H04N23/80, G03B15/00, H04N23/90
CPC Code(s): H04N23/80
Abstract: an imaging system includes a processor, a first imaging apparatus including a first optical system, and a second imaging apparatus including a second optical system. a focal length of the first optical system is longer than a focal length of the second optical system. the processor performs registration between a first captured image obtained by imaging with the first imaging apparatus and a second captured image obtained by imaging with the second imaging apparatus, acquires information that is related to a registration result, and output the first captured image, the second captured image, and the information to a display.
20240324428. ORGANIC EL DISPLAY DEVICE_simplified_abstract_(fujifilm corporation)
Inventor(s): Fumitake MITOBE of Kanagawa (JP) for fujifilm corporation, Keigo SHIGA of Kanagawa (JP) for fujifilm corporation, Eiichiro AMINAKA of Kanagawa (JP) for fujifilm corporation, Shinichi YOSHINARI of Kanagawa (JP) for fujifilm corporation
IPC Code(s): H10K59/80, G02B5/30
CPC Code(s): H10K59/8792
Abstract: an organic el display device capable of suppressing a change in tint in a case where white display is visually recognized from an oblique direction. the organic el display device includes an organic el display element and a light absorption anisotropic layer, in which the light absorption anisotropic layer is a light absorption anisotropic layer formed of a composition containing a liquid crystal compound and a dichroic substance, an angle between a transmittance central axis of the light absorption anisotropic layer and a normal line of a layer plane of the light absorption anisotropic layer is 0� or more and 450 or less, and a(�) of the light absorption anisotropic layer represented by expression (1) a(�)={kz(�)−(kx(�)+ky(�))/2}�d, is 15 to 225 nm at a maximal absorption wavelength of the light absorption anisotropic layer.
FUJIFILM Corporation patent applications on September 26th, 2024
- FUJIFILM Corporation
- A61B1/00
- CPC A61B1/000094
- Fujifilm corporation
- A61B6/00
- A61B6/04
- A61B6/46
- A61B6/50
- A61B8/00
- A61B8/08
- CPC A61B6/5247
- G08B21/18
- CPC A61B8/4472
- A61K9/127
- C07C219/06
- C12N15/88
- CPC A61K9/1272
- B41J2/165
- CPC B41J2/16552
- B41J29/13
- G03G21/16
- CPC B41J29/13
- B41J2/01
- B41N1/16
- B41C1/18
- G03F7/00
- G03F7/105
- G03F7/20
- CPC B41N1/16
- B65D85/00
- B65D25/14
- B65D81/26
- G03F7/32
- CPC B65D85/70
- C07K1/06
- C07C43/23
- C07C217/58
- C07C271/16
- C07K1/30
- CPC C07K1/062
- C09D11/101
- B41M7/00
- C09D11/38
- C09K19/38
- CPC C09D11/101
- G01N33/569
- B01D15/38
- G01N33/543
- CPC G01N33/56983
- G02B5/28
- G01N21/41
- CPC G02B5/28
- F21V8/00
- B41J2/045
- CPC G02B6/0091
- G02B7/09
- G02B7/34
- G02B7/36
- G03B13/36
- H04N23/10
- H04N23/55
- H04N23/667
- H04N23/67
- H04N25/704
- CPC G02B7/09
- G02B27/01
- G02F1/1335
- G02F1/13363
- CPC G02B27/0172
- CPC G02F1/133504
- G02F1/1337
- G02F1/29
- CPC G02F1/133757
- G06F3/044
- G06F3/047
- CPC G06F3/0443
- G06T11/00
- A61B1/04
- G06T7/40
- CPC G06T11/001
- G11B5/588
- G11B5/008
- CPC G11B5/588
- G11B5/592
- G11B5/706
- G11B5/735
- G11B5/78
- G11B15/43
- CPC G11B5/5928
- G11B5/708
- G11B5/714
- CPC G11B5/70678
- H01B5/14
- H01B1/22
- H01B1/24
- CPC H01B5/14
- H01L33/60
- H01L25/16
- H01L33/50
- CPC H01L33/60
- G01C3/06
- G01C3/08
- G01S17/10
- G01S17/89
- G03B17/20
- H04N23/56
- H04N23/63
- H04N23/68
- H04N23/71
- H04N23/73
- CPC H04N23/673
- H04N23/52
- CPC H04N23/687
- H04N23/695
- H04N7/18
- H04N23/66
- CPC H04N23/695
- H04N23/698
- CPC H04N23/698
- H04N23/80
- G03B15/00
- H04N23/90
- CPC H04N23/80
- H10K59/80
- G02B5/30
- CPC H10K59/8792
