Patents Assigned to Kyosemi Corporation
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Patent number: 9159856Abstract: A laminated solar battery (200) wherein four solar cell modules are incorporated and integrally laminated is provided with four types of solar cell modules (90, 100, 70 and 60) which have different sensitivity wavelength bands and are so laminated that the shorter the center wavelength in the sensitivity wavelength band is, the more near the module is located to the incidental side of sunlight, wherein each of the three types solar cell modules (90, 100 and 70) is constituted with cell group modules having plural nearly spherical solar cells (30, 40 and 10) aligned in plural columns and plural rows and the lowest solar cell module (60) is constituted with a planar light receiving module.Type: GrantFiled: April 23, 2012Date of Patent: October 13, 2015Assignee: Kyosemi CorporationInventor: Josuke Nakata
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Patent number: 8716590Abstract: This stacked solar battery device includes a plurality of solar battery units 4, an enclosure case made of a metal plate to house these solar battery units 4 therein, a cover glass having a partial cylindrical lens formed. The plurality of solar battery units 4 are housed in a plurality of recesses of the enclosure case, and are sealed with a sealing material of synthetic resin. The solar battery unit 4 has a planar light receiving solar battery module 10, and rod light receiving solar battery modules 30 and 50 stacked so that the module having a shorter center wavelength of the sensitivity wavelength band is positioned closer to the incident side of the sunlight. The solar battery module 10 is configured so that five planar light receiving solar-battery cells 11 are connected in parallel with four connection rods 20a and 20b, and the sunlight modules 30 and 50 are configured so that five sub modules 31 and 51 are connected in parallel respectively with the connection rods 40a, 40b, 60a and 60b.Type: GrantFiled: November 17, 2006Date of Patent: May 6, 2014Assignee: Kyosemi CorporationInventor: Josuke Nakata
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Patent number: 8709841Abstract: A woven mesh substrate with semiconductor elements and a method and a device for manufacturing such a substrate, and more particularly a technique that makes it possible to exploit a woven mesh substrate with semiconductor elements in which a plurality of spherical semiconductor elements having a light receiving function or a light-emitting function are installed on a woven mesh substrate in net form that is made up from a plurality of vertical strands that are insulating and a plurality of horizontal strands that are conductive.Type: GrantFiled: February 8, 2011Date of Patent: April 29, 2014Assignee: Kyosemi CorporationInventor: Josuke Nakata
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Patent number: 8686280Abstract: A see-through type solar battery module includes optically transparent first and second substrates and a plurality of annular clusters. Each cluster includes: a plurality of spherical solar cells; a conductive layer to which first electrodes of the plurality of solar cells are electrically connected in parallel; a conductive member to which second electrodes of the plurality of solar cells are electrically connected in parallel; a bypass diode connected to the conductive layer and the conductive member; and a conductive connection member that electrically connects the conductive layer to conductive member of the cluster that is adjacent in a predetermined direction. By providing the clusters in a snowflake configuration, or in a single rectilinear pattern, the scope is enlarged for selecting the ratio between sunlight transmission ratio and electrical generation capability, so that enhanced freedom of design for use as a window material is obtained.Type: GrantFiled: August 8, 2008Date of Patent: April 1, 2014Assignee: Kyosemi CorporationInventor: Josuke Nakata
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Patent number: 8586860Abstract: A module includes optically transparent first and second substrates and a plurality of clusters, with each cluster including: a plurality of rod type solar cells; a conductive layer to which first electrodes of the plurality of solar cells are electrically connected in parallel; a conductive member to which second electrodes of the plurality of solar cells are electrically connected in parallel; a bypass diodes connected to the conductive layer and the conductive member; and a conductive connection member that electrically connects the conductive layer to conductive member of the cluster that is adjacent in a predetermined direction. By providing the plurality of clusters arranged in a hexagonal or rectilinear configuration, it is possible to enlarge the permitted scope for selection of the ratio between sunlight transmission ratio and electrical generation capability, so that it is possible to obtain enhanced freedom of design for use as a window material.Type: GrantFiled: August 8, 2008Date of Patent: November 19, 2013Assignee: Kyosemi CorporationInventor: Josuke Nakata
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Patent number: 8552519Abstract: In order to collect a plurality of semiconductor elements easily from a semiconductor module where a plurality of rod-like semiconductor elements for power generation or light emission are built in and to reuse or repair them, two split modules 61 are arranged in series in a containing case 62 in a semiconductor module 60. In each split module 61, power generating semiconductor elements 1 arranged in a matrix of a plurality of rows and columns, and a conductive connection mechanism for connecting the plurality of semiconductor elements 1 in each row in series and the plurality of semiconductor elements 1 in each column in parallel are molded with transparent synthetic resin, and a connection conductor 67 is allowed to project at the end. A conductive waved spring 70 and an external terminal 76 are provided on the end side of the containing case 62, and series connection of the two split modules 61 is ensured by mechanical pressing force of the conductive waved spring 70.Type: GrantFiled: August 7, 2006Date of Patent: October 8, 2013Assignee: Kyosemi CorporationInventor: Josuke Nakata
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Patent number: 8395102Abstract: A photoelectric conversion module includes a photoelectric conversion element that converts an arriving optical signal transmitted via an optical fiber into an electrical signal, a signal output section that outputs a photoelectrically converted electrical signal to the exterior, an impedance matching circuit provided between an output electrode of the photoelectric conversion element and the signal output section, and a substrate upon which this impedance matching circuit is mounted, with the impedance matching circuit including a plurality of metallic coating layers formed upon the surface of the substrate with gaps being left between them, and a plurality of metallic connecting lines that electrically connect together adjacent ones of these metallic coating layers.Type: GrantFiled: December 4, 2007Date of Patent: March 12, 2013Assignee: Kyosemi CorporationInventors: Hachinori Ogawa, Atsushi Kanayama
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Patent number: 8362495Abstract: A rod-shaped semiconductor device having a light-receiving or light-emitting function is equipped with a rod-shaped substrate made of p-type or n-type semiconductor crystal, a separate conductive layer which is formed on a part of the surface of the substrate excluding a band-shaped part parallel to the axis of the substrate and has a different conduction type from the conduction type of the substrate, a pn-junction formed with the substrate and separate conductive layer, a band-shaped first electrode which is formed on the surface of the band-shaped part on the substrate and ohmic-connected to the substrate, and a band-shaped second electrode which is formed on the opposite side of the first electrode across the shaft of said substrate and ohmic-connected to the separate conductive layer.Type: GrantFiled: August 2, 2011Date of Patent: January 29, 2013Assignee: Kyosemi CorporationInventor: Josuke Nakata
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Publication number: 20120222724Abstract: This solar cell module (1) comprises a plurality of solar cell arrays (11). Each solar cell array (11) includes a plurality of spherical semiconductor elements (20) arranged in a row, at least a pair of bypass diodes (40), and a pair of lead members (14) that connect the plurality of spherical semiconductor elements (20) and the plurality of bypass diodes (40) in parallel. Each of the lead members (14) includes one or plural lead strings (15) to which the plurality of spherical semiconductor elements (20) are electrically connected and having a width less than or equal to the radius of the spherical semiconductor element (20), and plural lead pieces (16) formed integrally with the lead strings (15) at least at both end portions of the lead member (14), on which the bypass diodes (40) are electrically connected in reverse parallel to the spherical semiconductor elements (20), and having width larger than or equal to the width of the bypass diodes (40).Type: ApplicationFiled: December 19, 2008Publication date: September 6, 2012Applicant: KYOSEMI CORPORATIONInventor: Josuke Nakata
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Publication number: 20120199179Abstract: A laminated solar battery (200) wherein four solar cell modules are incorporated and integrally laminated is provided with four types of solar cell modules (90, 100, 70 and 60) which have different sensitivity wavelength bands and are so laminated that the shorter the center wavelength in the sensitivity wavelength band is, the more near the module is located to the incidental side of sunlight, wherein each of the three types solar cell modules (90, 100 and 70) is constituted with cell group modules having plural nearly spherical solar cells (30, 40 and 10) aligned in plural columns and plural rows and the lowest solar cell module (60) is constituted with a planar light receiving module.Type: ApplicationFiled: April 23, 2012Publication date: August 9, 2012Applicant: KYOSEMI CORPORATIONInventor: Josuke NAKATA
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Patent number: 8237045Abstract: A laminated solar battery (200) wherein four solar cell modules are incorporated and integrally laminated is provided with four types of solar cell modules (90, 100, 70 and 60) which have different sensitivity wavelength bands and are so laminated that the shorter the center wavelength in the sensitivity wavelength band is, the more near the module is located to the incidental side of sunlight, wherein each of the three types solar cell modules (90, 100 and 70) is constituted with cell group modules having plural nearly spherical solar cells (30, 40 and 10) aligned in plural columns and plural rows and the lowest solar cell module (60) is constituted with a planar light receiving module.Type: GrantFiled: March 12, 2004Date of Patent: August 7, 2012Assignee: Kyosemi CorporationInventor: Josuke Nakata
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Publication number: 20110297968Abstract: A rod-shaped semiconductor device having a light-receiving or light-emitting function is equipped with a rod-shaped substrate made of p-type or n-type semiconductor crystal, a separate conductive layer which is formed on a part of the surface of the substrate excluding a band-shaped part parallel to the axis of the substrate and has a different conduction type from the conduction type of the substrate, a pn-junction formed with the substrate and separate conductive layer, a band-shaped first electrode which is formed on the surface of the band-shaped part on the substrate and ohmic-connected to the substrate, and a band-shaped second electrode which is formed on the opposite side of the first electrode across the shaft of said substrate and ohmic-connected to the separate conductive layer.Type: ApplicationFiled: August 2, 2011Publication date: December 8, 2011Applicant: KYOSEMI CORPORATIONInventor: Josuke Nakata
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Patent number: 8053788Abstract: A rod-shaped semiconductor device having a light-receiving or light-emitting function is equipped with a rod-shaped substrate made of p-type or n-type semiconductor crystal, a separate conductive layer which is formed on a part of the surface of the substrate excluding a band-shaped part parallel to the axis of the substrate and has a different conduction type from the conduction type of the substrate, a pn-junction formed with the substrate and separate conductive layer, a band-shaped first electrode which is formed on the surface of the band-shaped part on the substrate and ohmic-connected to the substrate, and a band-shaped second electrode which is formed on the opposite side of the first electrode across the shaft of said substrate and ohmic-connected to the separate conductive layer.Type: GrantFiled: June 14, 2006Date of Patent: November 8, 2011Assignee: Kyosemi CorporationInventor: Josuke Nakata
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Patent number: 8053663Abstract: A solar battery module as a panel-shaped semiconductor module comprises multiple spherical or nearly spherical, granular electric power generation semiconductor elements arranged in multiple rows and columns, a conductive connection mechanism electrically connecting in parallel multiple semiconductor elements in each row and connecting in series multiple semiconductor elements in each column, and a conductive inner metal case housing the multiple semiconductor elements and constituting the conductive connection mechanism, wherein each row of semiconductor elements is housed in each reflecting surface-forming groove of the inner metal case, the positive electrodes of the semiconductor electrodes are connected to the bottom plate and the negative electrodes are connected to finger leads, the bottom plate of each reflecting surface-forming grove has a cutoff slit, and the top is covered with a transparent cover member.Type: GrantFiled: July 7, 2006Date of Patent: November 8, 2011Assignees: Kyosemi Corporation, Energy Related Devices, Inc.Inventor: Josuke Nakata
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Patent number: 8030569Abstract: Multiple semiconductor elements in a semiconductor module in which multiple spherical light receiving or emitting semiconductor elements are installed can easily be retrieved, reused, or repaired. In a semiconductor module 60, two segment modules 61 are serially arranged in a storage casing 62. The segment modules 61 are each formed by molding solar battery cells 10 arranged in a matrix of multiple rows and columns, and a conductive connection mechanism serially-connecting the solar battery cells 10 in each column and parallel-connecting the solar battery cells 10 in each row in a synthetic resin with connection conductors 67 protruding at the ends. Conductive corrugated springs 70 and external terminals 76 are provided at the ends of the storage casing 62. The mechanical pressing force of the conductive corrugated springs 70 ensures that the two segment modules 61 are serially connected.Type: GrantFiled: January 11, 2006Date of Patent: October 4, 2011Assignee: Kyosemi CorporationInventor: Josuke Nakata
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Patent number: 8013238Abstract: With small dimensional optics, small photovoltaic cells have heat distribution surfaces, very high concentrations and subsequently high utilization of the semiconductors can be achieved. Discrete photodiodes can be formed as spherical and other geometric shaped, cells with high performance characteristics, precision dimensions, and low cost. This invention positions discrete photovoltaic cells by using their geometric shape, elastic electrical mounts, couples them to small optical concentrator systems of refractory and or reflective optics and makes electrical network connections to those photodiodes, reliably, adjusting for thermal expansion, and at low cost to form low cost and reliable electrical power arrays. The electrical connectors and network can form part of the reflective optics and heat removal system. The electrical interconnection system can also form a reliable network that is self-correcting and tolerant of point failures.Type: GrantFiled: July 9, 2007Date of Patent: September 6, 2011Assignees: Energy Related Devices, Inc., Kyosemi CorporationInventor: Robert G. Hockaday
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Patent number: 7947894Abstract: In the solar battery module 20, solar battery cells 10 arranged in a matrix of eight rows and four columns with their conducting direction aligned and five plate spring members 22 having nearly an inverted U-shaped cross-section are housed in an inner space surrounded by a support substrate 21, an outer frame, a rubber packing frame, and a glass casing plate 25, and the plate spring members 22 each have a pair of connection flanges 22a at the bottom. The plate spring members 22 are provided on either side of columns of multiple solar battery cells 10. Eight solar battery cells 10 are interposed between the connection flanges 22a of the plate spring members on either side of them, whereby they are parallel-connected. Four columns of solar battery cells 10 are serially-connected by five plate spring members 22 and the output is retrieved through the positive electrode coating 28 and negative electrode coating 29.Type: GrantFiled: February 6, 2006Date of Patent: May 24, 2011Assignee: Kyosemi CorporationInventor: Josuke Nakata
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Patent number: 7910947Abstract: A solar battery module as a panel-shaped semiconductor module comprises multiple rod-shaped electric power generation semiconductor elements arranged in multiple rows and columns, a conductive connection mechanism connecting in series multiple semiconductor elements in each column and electrically connecting in parallel multiple semiconductor elements in each row, and a conductive inner metal case housing the multiple semiconductor elements and constituting the conductive connection mechanism, wherein each row of semiconductor elements is housed in each reflecting surface-forming groove of the inner metal case, the positive electrodes of the semiconductor electrodes are connected to the bottom plate and the negative electrodes are connected to finger leads, and the top is covered with a transparent cover member.Type: GrantFiled: July 4, 2006Date of Patent: March 22, 2011Assignee: Kyosemi CorporationInventor: Josuke Nakata
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Publication number: 20100230582Abstract: A photoelectric conversion module includes a photoelectric conversion element that converts an arriving optical signal transmitted via an optical fiber into an electrical signal, a signal output section that outputs a photoelectrically converted electrical signal to the exterior, an impedance matching circuit provided between an output electrode of the photoelectric conversion element and the signal output section, and a substrate upon which this impedance matching circuit is mounted, with the impedance matching circuit including a plurality of metallic coating layers formed upon the surface of the substrate with gaps being left between them, and a plurality of metallic connecting lines that electrically connect together adjacent ones of these metallic coating layers.Type: ApplicationFiled: December 4, 2007Publication date: September 16, 2010Applicant: KYOSEMI CORPORATIONInventors: Hachinori Ogawa, Atsushi Kanayama
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Patent number: D688411Type: GrantFiled: January 27, 2012Date of Patent: August 20, 2013Assignee: Kyosemi CorporationInventors: Masahiko Inoue, Takashi Matsui, Shigeki Hattori, Josuke Nakata, Hidetoshi Nakamura, Toshinori Matsumoto, Norifumi Nagatomo