Abstract: A method for manufacturing a solar battery module according to the present invention includes the steps of forming a solar battery cell (25) on a front-side insulation substrate (22), disposing a sealing member (24) on the front-side insulation substrate (22) on which the solar battery cell (25) is formed, the sealing member (24) having a shape smaller than outer shapes of the front-side insulation substrate (22) and a back-side insulation substrate (23) and having an uneven shape on a side that faces the solar battery cell (25), disposing the back-side insulation substrate (23) on the sealing member (24), sealing the solar battery cell (25) between the front-side insulation substrate (22) and the back-side insulation substrate (23) by applying heat under pressure from above the back-side insulation substrate (23) in vacuum conditions so as to squeeze the uneven portion of the sealing member (24) and bring the sealing member into intimate contact with the solar battery cell (25), and cooling and thereby harde

Abstract: To transfer signal charges generated by a semiconductor photoelectric conversion element in opposite directions, the center line of a first transfer gate electrode and that of a second transfer gate electrodes are arranged on the same straight line, and a U-shaped first exhausting gate electrode and a second exhausting gate electrode are arranged to oppose to each other. The first exhausting gate electrode exhausts background charges generated by a background light in the charge generation region, and the second exhausting gate electrode exhausts background charges generated by the background light in the charge generation region. The background charges exhausted by the first exhausting gate electrode are received by a first exhausting drain region and the background charges exhausted by the second exhausting gate electrode are received by a first exhausting drain region.

Abstract: An information server apparatus 116 includes a communication portion 118 receiving a request for getting information including a set of information source specifying information and time specifying information from a client, a user request information analyzing portion 122 and a table reference portion 129 analyzing the request for getting information and selecting information to be transmitted to the client terminal apparatus based on the result of analysis. Further, communication portion 118 returns the selected information to the client.

Abstract: Edge face sealing member(s) 1 may be roughly c-shaped in cross-section, may be frame-like in shape and formed in more or less parallel fashion with respect to outer shape(s) of solar cell module body or bodies, may comprise upper sealing region(s) 11 abutting front surface(s) of solar cell module(s), may further comprise lower sealing region(s) 12 abutting back surface(s) of solar cell module(s), and may further comprise side sealing region(s) 13 abutting edge face(s) of solar cell module(s). Furthermore, respectively formed on facing surfaces of upper sealing region(s) 11 and lower sealing region(s) 12 there may be projections 11b, 12b. Furthermore, polypropylenic and/or polystyrenic elastomer resin(s) may be used as material(s) making up edge face sealing member(s) 1, and magnesium silicate may be present as additive(s) for prevention of yellowing of sealing resin layer(s) at solar cell module body or bodies.

Abstract: A liquid crystal display device comprising: a first substrate having a signal electrode and a scanning electrode insulated from each other through an insulating layer, said first substrate being further provided with a switching transistor and a pixel electrode both in association with an intersection of said signal electrode and said scanning electrode; a liquid crystal layer containing a liquid crystal material of a positive dielectric anisotropy dispersed or impregnated in a transparent fluoro-type polymer of a fluoroalkyl acrylate or metacrylate or its copolymer with an alkyl acrylate or metacrylate; and a second substrate having a counter electrode to be placed at least opposite to said pixel electrode, said first and second substrate being disposed as opposed to each other so as to sandwich said liquid crystal layer.

Abstract: Each of many two-color light emitting diode elements which make up a display panel includes two light emitting diode chips emitting light of different colors. These elements are so arranged in the panel that chips emitting light of the same color are adjacent to each other in the direction along which two chips in each of these elements are aligned and that chips emitting light of different colors are alternately aligned along the direction perpendicular thereto.