Abstract: A power generating device includes: a photoelectric conversion unit having a photoelectric conversion film; an electret layer for holding electric charges; an electret power generator configured of a light transmissive material; and an insulating layer which is covering a photoelectric conversion film and transmits light in all wavelength bands available for the photoelectric conversion film or some of the all wavelength bands. The electret layer is stacked on the insulating layer.

Abstract: A rectenna controller connected to a rectenna that receives radio frequency power and converts the radio frequency power into direct current power, the rectenna controller controlling the direct current power received from the rectenna and supplying the controlled direct current power to a load, the rectenna controller including: an input terminal receiving the direct current power converted by the rectenna; an output terminal supplying the controlled direct current power to the load; a first switching element disposed in a current path connecting the input terminal to the output terminal; and a controller controlling the first switching element, wherein when the controller does not operate, the first switching element becomes conducting to render the current path conductive.

Abstract: A rectenna controller connected to a rectenna that receives radio frequency power and converts the radio frequency power into direct current power, the rectenna controller controlling the direct current power received from the rectenna and supplying the controlled direct current power to a load, the rectenna controller including: an input terminal receiving the direct current power converted by the rectenna; an output terminal supplying the controlled direct current power to the load; a first switching element disposed in a current path connecting the input terminal to the output terminal; and a controller controlling the first switching element, wherein when the controller does not operate, the first switching element becomes conducting to render the current path conductive.

Abstract: A power generating device includes: a photoelectric conversion unit having a photoelectric conversion film; an electret layer for holding electric charges; an electret power generator configured of a light transmissive material; and an insulating layer which is covering a photoelectric conversion film and transmits light in all wavelength bands available for the photoelectric conversion film or some of the all wavelength bands. The electret layer is stacked on the insulating layer.

Abstract: A method for diagnosing a solar cell module includes an analysis of measuring frequency characteristics including a resonance point of impedance between two poles of a solar cell module, and frequency characteristics including a resonance point of impedance between an output cable and a frame, and determining equivalent circuit constants of the solar cell module, and a determination of comparing the equivalent circuit constants determined in the analysis with equivalent circuit constants obtained previously to determine change in condition of the solar cell module.

Abstract: A method for diagnosing a solar cell module includes an analysis of measuring frequency characteristics including a resonance point of impedance between two poles of a solar cell module, and frequency characteristics including a resonance point of impedance between an output cable and a frame, and determining equivalent circuit constants of the solar cell module, and a determination of comparing the equivalent circuit constants determined in the analysis with equivalent circuit constants obtained previously to determine change in condition of the solar cell module.

Abstract: A thin film solar cell module including a plurality of cells in which a transparent electrode, a photoelectric conversion layer, and a rear surface electrode are stacked in this order includes a first photoelectric conversion layer separation trench and a rear surface electrode separation trench in which the photoelectric conversion layer is removed between a cell connection apertural area and a transparent electrode separation trench and between the cell connection apertural area and a rear surface electrode separation trench, and white reflection materials having an insulation property are formed at the inside of the trenches. The structure improves light use efficiency of thin film solar cells, and achieves thin film solar cell modules easily manufacturable.