Patent application number | Description | Published |
20090025780 | Light Receiving or Light Emitting Semiconductor Module - In the solar battery module | 01-29-2009 |
20090108285 | Rod-Shaped Semiconductor Device - 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. | 04-30-2009 |
20090173959 | Panel-Shaped Semiconductor Module - 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. | 07-09-2009 |
20090277497 | Panel-shaped semiconductor module - 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. | 11-12-2009 |
20100006865 | SEMICONDUCTOR MODULE FOR POWER GENERATION OR LIGHT EMISSION - 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 | 01-14-2010 |
20100018568 | Stacked solar cell device - This stacked solar battery device includes a plurality of solar battery units | 01-28-2010 |
20100132776 | SOLAR CELL - A solar cell which is comprising a p | 06-03-2010 |
20110132435 | SEE-THROUGH TYPE SOLAR BATTERY MODULE - A see-through type solar battery module includes optically transparent first and second substrates and a plurality of annular clusters, with each cluster including: 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 plurality of clusters arranged in an annular configuration, in a snowflake configuration, or in a single rectilinear pattern, 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. | 06-09-2011 |
20110132436 | SEE-THROUGH TYPE SOLAR BATTERY MODULE - 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. | 06-09-2011 |
20130145588 | WOVEN MESH SUBSTRATE WITH SEMICONDUCTOR ELEMENTS, AND METHOD AND DEVICE FOR MANUFACTURING THE SAME - 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. | 06-13-2013 |