Abstract: Light sources are mounted within a light-proof enclosure in which photovoltaic panels are mounted to produce electrical power irrespective of weather conditions outside the enclosure.

Abstract: The invention relates to photovoltaic modules with a specific thermoplastic adhesive layer and the production thereof.

Abstract: A computer processing method for designing an installation layout of solar cell modules on an installation surface of a photovoltaic power generation system is provided. Installation information of the solar cell modules are automatically calculated so as to be fit within the installable area of the installation surface on the basis of information on the solar cell module, information on the installation surface, and information on installation conditions of the solar cell modules, and the calculated installation information is outputted.

Abstract: An illuminating mailbox address indication device includes a generally rectangular shaped housing mounted on a top portion of a mailbox wherein at least one longitudinal wall is removable. Enclosed within the housing is a light means powered by at least one rechargeable battery energized by a solar cell mounted upon the housing top wall in a recess formed therein. A photosensitive cell operates a switch to permit the light means to illuminate when a pre-determined threshold has been exceeded relevant to the amount of ambient light present around the mailbox (i.e., at night). At least one of the longitudinal housing side walls is translucent and further supports indica stenciled thereupon which represents the address of the property associated with the mailbox.

Abstract: An electronic device, such as a solar cell, having improved moisture, heat, and wear resistance, formed by applying an insulating film over the surfaces of the electronic device utilizing a screen printing process and curing the film with heat.

Abstract: A polarized organic photonics device, including an LED or photovoltaic device, is comprised of a first conductive layer or electrode coated with a friction transferred alignment material, a photoactive material, and a second electrically conductive layer or electrode. The alignment material provides for the orientation of the subsequently deposited photoactive material such that the photoactive material interacts with or emits light preferentially along a selected polarization axis. Additional layers and sublayers optimize and tune the optical and electronic responses of the device.

Abstract: Solar modules in which the front side is composed of transparent polyurethane are made by RIM, injection molding and casting processes and combinations thereof.

Abstract: A concentrating photovoltaic module comprising: a lightguide member having at least one exit face and a plurality of entrance faces; and at least one solar cell placed immediately after the exit face of the lightguide member; wherein the lightguide member is comprised of a light transmissive, solid medium having no refractive-index-discontinuity portion and a surface of the lightguide member is smooth and wherein the lightguide member makes sunbeams incident on the plurality of entrance faces, totally reflected on side faces, and emergent from the exit face, whereby the sunbeams can be concentrated on the solar cell with high efficiency.

Abstract: The process of mitigation of spacecraft surface charging using ionized water vapor is used, since it helps taking excess surface electrons away from a spacecraft surface, leaving practically no residue after complete evaporation.

Abstract: A process for producing a zinc oxide acicular structure by growing an acicular zinc oxide on a substrate, the process comprising the steps of holding the substrate in an electrolytic solution in which at least zinc ions are present, and forming zinc oxide on the substrate by electrodeposition. The electrolytic solution contains at least one cosolute. Also disclosed is a photoelectric conversion device comprising a charge transport layer having the zinc oxide acicular structure.

Abstract: A self-powered sunroof assembly can be mounted in the roof of a vehicle and includes a movable panel, preferably a window, a motor for controlling movement of the movable panel, and a self-contained power supply unit that supplies power to the motor. The self-contained power supply unit contains a battery and at least one solar cell array that charges the battery. The solar cell array is preferably attached to the movable panel but may be located anywhere on the sunroof assembly that may be directly or indirectly exposed to sunlight. Additionally, placement of the solar cell array on the movable window does not decrease visibility through the window.

Abstract: In a photovoltaic device comprising a thin intrinsic amorphous semiconductor film inserted in a junction portion of a crystalline semiconductor substrate and an amorphous semiconductor film which have conductive types reverse to each other, an optical band gap of the intrinsic amorphous semiconductor film is expanded on a side in contact with the amorphous semiconductor film.

Abstract: There is disclosed a method of producing a photoelectric conversion device comprising the steps of forming a semiconductor substrate comprising a first and a second semiconductor layers with a separation layer therebetween; bonding a support substrate to a surface of the second semiconductor layer opposite to the separation-layer-side surface to form a bonded substrate; separating the first and the second semiconductor layers by the separation layer; and producing a photoelectric conversion device in the second semiconductor layer, wherein when bonding the semiconductor substrate and the support substrate to each other, at least a portion is formed in the bonded substrate in which at least a part of end portions of the semiconductor substrate and the support substrate is not bonded to the other substrate and a fluid is jetted against a side surface of the bonded substrate, thereby separating the first and the second semiconductor layers.

Abstract: According to a method for mounting a plurality of solar battery modules, an underlying member (roofing member) is fixed at a location where the solar battery modules are to be mounted. The underlying member has a wiring made of conductive material that is formed for drawing electric power from the solar battery modules and has connection terminals at respective positions to be connected with each solar battery module. Connection terminals of each solar battery module are coupled with the connection terminals of the underlying member to fasten each solar battery module.

Abstract: An insulator is formed on a substrate, on which numerous first conductivity-type crystalline semiconductor particles are deposited on and brought into contact with the substrate. A second conductivity-type semiconductor layer for forming a PN-junction between the layer and the crystalline semiconductor particles is formed over the crystalline semiconductor particles and the insulator. The second conductivity-type semiconductor layer comprises a semiconductor layer including a crystalline semiconductor and an amorphous semiconductor in a mixed manner.

Abstract: A photovoltaic building material comprises a substrate having one or more photovoltaic generating devices encapsulated thereupon. The substrate includes a body of contact adhesive material, preferably protected by a release layer. The material is readily installed onto a roof, wall or other portion of a building structure by use of the adhesive. The material can also be used for the custom fabrication of power generating modules, and such modules and methods for their manufacture are disclosed herein.

Abstract: Laminates of having a first outer layer of polyvinyl fluoride, at least one mid layer, and a second outer layer of polyvinyl fluoride, ethylene vinyl acetate or polyolefin with a surface of ionomer. The laminates are particularly useful for protecting photovoltaic cells, solar panels, and circuit boards.

Abstract: A process for depositing polycrystalline silicon on substrates, including foreign substrates, occurs in a chamber at about atmospheric pressure, wherein a temperature gradient is formed, and both the atmospheric pressure and the temperature gradient are maintained throughout the process. Formation of a vapor barrier within the chamber that precludes exit of the constituent chemicals, which include silicon, iodine, silicon diiodide, and silicon tetraiodide. The deposition occurs beneath the vapor barrier. One embodiment of the process also includes the use of a blanketing gas that precludes the entrance of oxygen or other impurities. The process is capable of repetition without the need to reset the deposition zone conditions.

Abstract: A method of fabricating a back surface point contact silicon solar cell having p-doped regions and n-doped regions on the same side by forming a passivating layer on a surface of the cell having opened windows at the p-doped regions and the n-doped regions, by depositing and patterning a first metal layer on the passivating layer in such a way that the first metal layer comes into contact with the p-doped regions and the n-doped regions, by depositing a first insulator layer of inorganic material on the first metal layer, by etching and patterning the first insulator layer in such a way that the insulator layer has opened windows at, at least one of the p-doped regions and the n-doped regions, by depositing a second insulator layer of organic material on the first insulator layer, by etching and patterning the second insulator layer in such a way that the insulator layer has opened windows at the one of the p-doped regions and the n-doped regions, by curing the second insulator layer by heating at a predeterm

Abstract: A wiring apparatus comprises a trunk cable, branch junctions, and branch cables diverging individually from the branch junctions. A plurality of photovoltaic modules, which are arranged side by side on a roof of a building or the like, or module units, composed of the modules, serve as generating sections. The respective outputs of the generating sections are lead into the building by means of a trunk conductor of the trunk cable. Each branch cable includes a branch conductor that is connected to the trunk conductor of the trunk cable. Each branch cable of the wiring apparatus is connected to a connector for use as an output terminal of the module units by means of a connector attached to the distal end portion thereof. The module units are connected in parallel with one another by means of the wiring apparatuses, and their respective outputs are supplied to loads in the building by means of a pair of lead-in wires.

Abstract: A solar collection system and method having means for receiving solar radiation through a main refractive interface and means for internally reflecting at least once, at least a portion of the received solar radiation. The refractive medium may be liquid, gel or solid. The device may be integrated with a photovoltaic device, photohydrolytic device, a heat engine, a light pipe or a photothermal receptor.

Abstract: A method for removing short circuits in thin film solar cell elements during manufacturing by applying a pseudo-alternating voltage between the substrate side and the back electrodes of the solar cell elements. The waveform of the pseudo-alternating voltage may be a sinusoidal wave, a half-wave sinusoidal wave, a sawtooth wave, a square wave or the like. The peak voltage in the reverse direction is up to the reverse breakdown voltage of the solar cell element, and the waveform may either contain a small forward component or no fond component The peak voltage in Se reverse direction may also momentarily exceed the reverse breakdown voltage. The period of the pseudo-alternating voltage matches the tine constant of the solar cell element determined by the capacity and reverse resistance of the solar cell element.

Abstract: A decal for use in forming a solar cell comprises an antireflective precursor material and a patterned electrically conductive material. The antireflective precursor material and the patterned electrically conductive material are disposed over a base material. The antireflective precursor material can be one or more layers of paste which form an antireflective coating upon being fired. A cover layer can be disposed over the antireflective precursor material and the electrically conductive material.

Abstract: A spectral selective absorbing surface on solar collector elements has a very high solar absorbing ability, in the range of 96% to 97% and a low thermal emittance, in the order of 10%, and can be produced with high capacity in industrial scale. A reactive gas in an amount of 1 to 50 cm 3/min kW, preferably 10 cm 3/min kW, distributed in the coating zone provides that the metal layer deposed onto the receiving material partly oxidizes during the deposition, whereby a layer is obtained that comprises a grain mixture of metallic material and metal oxide, whereby 40% to 80%, preferably about 50%, of metallic material is embedded into the metal oxide closest to the receiving material. The metallic material is successively decreased to about zero at the surface of the layer by increasing the addition of oxygen at the end of the coating zone.

Abstract: A radiated energy to electrical energy conversion device and technology is provided where there is a single absorber layer of semiconductor material. The thickness of the absorber layer is much less than had been appreciated as being useful heretofore in the art. Between opposing faces the layer is about 1/2 or less of the carrier diffusion length of the semiconductor material which is about 0.02 to 0.5 micrometers. The thickness of the absorber layer is selected for maximum electrical signal extraction efficiency and may also be selected to accommodate diffusion length damage over time by external radiation.

Abstract: A new combination is formed of a deployable solar array and a deployable perimeter truss reflector within a single structure, defining a deployable perimeter truss reflector and solar array combination. In that combination the pliant reflective mesh, which serves as the RF reflector, is located at one circular end of the perimeter truss and the solar array is located at the other end. The solar array is formed with photovoltaic cells formed on both sides of a pliant film base. The photovoltaic cells are exposed to sunlight, either directly, or through the mesh, which is eighty percent porous to sunlight. Constructed in deployed form, for storage the truss contracts to the conventional non-deployed condition of a barrel-like configuration; and both the pliant reflective mesh that forms the reflector and the pliant base supporting the photovoltaic cells become tucked in place inside opposite ends of the barrel.

Abstract: A method and apparatus for providing an automated process for fabricating a micro-solar assembly (66) consist of using printed circuit board manufacturing and etching techniques to provide first (8) and opposing (10) charge pathways. Printed circuit board techniques and its connection methodologies when applied to the fabrication of a micro-solar assembly (66) allows the solar chip (54) and diode (42) to be picked, placed and electrically and structurally bonded mechanically onto a printed circuit board (2), then covered with a polymer sealant (12) sprayed for impact resistance and electrical insulation, and additionally covered with a plastic lens cover (18) to focus light and facilitate automated insertion.

Abstract: For facilitating work and improving durability of a grounding conductor without a need for preparation of a separate grounding conductor for grounding a solar cell array, a solar cell array is provided comprising a plurality of solar cell modules each comprising a solar cell element and an electroconductive outer portion, the plurality of solar cell modules being electrically connected by an electric wire, wherein the electric wire has a plurality of cores, at least one of the cores being connected to an electric connection portion for leading a power of the solar cell elements out and at least one of the cores being connected to a grounding portion.

Abstract: An energy supply system for implantable medical devices generates an energy supply by a photovoltaic converter which transforms the light coming from outside of the body. The light is carried to the converter by an optical fiber. This system allows the implanted devices to work without the time restrictions of batteries and opens the door to the development of new devices with much higher power ratings. The system includes a light source (1) external to the patient's body, an optical fiber (3) which runs from a point on the surface of the patient to the implantable device (4) and a photovoltaic converter (5) placed inside the device where the optical fiber ends. Finally, a power conditioning stage (6) ensures that the electrical power generated suits the needs of the other components (7) of the implantable device.

Abstract: The present invention provides an improved electrically conductive composition for a solar cell. The composition of the present invention exhibits promoted grain growth and densification to thereby facilitate sintering of a thick film electrode. Moreover, the composition enables firing to be performed at a low temperature. The electrically conductive composition comprises Ag powder; at least one metal selected from among V, Mo, and W or a compound thereof; and an organic vehicle. The V, Mo, W or a compound these metals is added in an amount of about 0.2-16 parts by weight based on 100 parts by weight of the Ag powder.

Abstract: The present invention relates to a method for recycling crystalline silicon photovoltaic modules comprising (a) providing a crystalline silicon photovoltaic module having (i) a glass substrate, (ii) at least one layer of polymeric material, and (iii) at least one solar cell, (b) providing an inert atmosphere, and (c) heating the module in the inert atmosphere.

Abstract: A pole incorporating solar cells has a lighting device or like electric device attached thereto, and a required number of solar cell modules arranged approximately vertically on at least one portion of peripheral wall of the main body of the pole. The arrangement of solar cell modules has the function of generating the electric energy to be consumed by the electric device for one day, utilizing solar radiation afforded by at least scattered sunlight selected from scattered sunlight or direct sunlight. A storage device is provided in the pole main body and has a capacity to accumulate therein the electric energy to be consumed by the electric device for one day, and is repeatedly charged and discharged every day.

Abstract: An electrode structure is formed by superposing a bar-shaped or linear metal member on an electroconductive layer comprising a polymeric resin and an electroconductive filler dispersed therein. The electroconductive layer may be formed as an electroconductive sheet in advance and patterned before it is superposed with the metal member, followed by heat and pressure application to provide an electrode structure showing a low resistivity, a large adhesion even to an elevation and a high reliability. The electrode structure is suitably used for providing a collector electrode structure on a photo-electricity generating device.

Abstract: A photovoltaic power source includes a shadowing timer comprising at least one shadowing member (i.e. vane element) secured proximal to an array of photovoltaic solar cells electrically connected in series. The shadowing members are arranged such that they shadow individual solar cells or rows of cells as the sun moves through diurnal and annual cycles. The shadows cast by two or more vanes can modulate the array output power on two independent time scales: time of day and time of year. Because the individual solar cells are connected in series, a small shadow significantly reduces the array output power, thus enabling fine-scale temporal control.

Abstract: A method is shown for producing a PIN photodiode wherein an intrinsic layer of the photodiode can be made arbitrarily thin. A fabrication substrate is lightly doped to have a first conductivity type in order to form the intrinsic layer of the photodiode. A first active region of the photodiode having the first conductivity type is formed on a first surface of the fabrication substrate. An oxide layer is also formed upon the first surface of the fabrication substrate. A handling substrate is bonded to the first surface of the fabrication substrate. A second surface of the fabrication is then lapped to a obtain a preselected thickness of the intrinsic layer. And a second active region of the photodiode having a second conductivity type is formed on the second surface of the fabrication substrate.

Abstract: This invention relates to a photoelectric transfer device which comprises a photoelectric transfer element, a cholesteric liquid crystal layer and an ultraviolet cut-off layer, said cholesteric liquid crystal layer being arranged between said photoelectric transfer element and said ultraviolet cut-off layer and said ultraviolet cut-off layer being arranged at the side for the incidence of light. According to this invention, there is provided a colorful photoelectric transfer device which is prepared at an inexpensive cost without a marked decrease in the generation efficiency of the photoelectric transfer element and is fit to be used over a prolonged period.

Abstract: A photovoltaic apparatus includes a first conductive layer, a semiconductor layer and a second conductive layer on a substrate. The first conductive layer is divided into a first electrode layer and into a peripheral first electrode layer by the lower peripheral groove filled up with a first peripheral insulating material. The first upper peripheral groove is provided at the upper portion of the lower peripheral groove, to divide the semiconductor layer and the second conductive layer. The second peripheral insulating material is provided at the outer region of the lower peripheral groove to divide the semiconductor layer. The second upper part peripheral groove is provided at the upper part of the second peripheral insulating material to divide the semiconductor layer and the second conductive layer.

Abstract: The stainless steel sheet useful as a substrate for non-single crystalline semiconductor solar cells has minute ripples with undulations along a rolling direction, and its surface roughness is controlled in the range of R.sub.z 0.3-1.4 .mu.m and R.sub.max 0.5-1.7 .mu.m. It is manufactured by finish cold rolling a stainless steel strip with a reduction ratio of at least 20% at a rolling speed of at least 400 m/min. using work rolls polished with abrasives of gage #100-#400 at a final pass, annealing the rolled strip in an open-air atmosphere and then electrolytically pickling the annealed strip in a nitric acid solution. Since minute ripples with undulations are formed on the surface of the stainless steel sheet, an energy conversion efficiency is increased by acceleration of scattering and multiple reflection of incident light rays projected into a non-single crystalline semiconductor layer.

Abstract: In order to accurately and stably measure the output characteristics of a battery power supply device, especially, a large-scale solar cell module by an equipment that requires only a size and cost equivalent to those of an apparatus used for measuring a small-scale module, the light-receiving surface of the solar cell module is divided into areas each including a bypass diode, the output characteristics upon light illumination in units of divided areas are measured, the measured characteristics are synthesized, and the influence of bypass diode characteristics is subtracted from the synthesized characteristics, thereby calculating the output characteristics of the solar cell module.

Abstract: A solar collector exhibiting durable fluorescent properties comprising a polymeric matrix, dye, and hindered amine light stabilizer, wherein the polymeric matrix is comprised of polycarbonate and the dye is comprised of a dye selected from the group consisting essentially of thioxanthone, perylene imide and/or thioindigoid compounds. The solar collector exhibits durable fluorescence which resists degradation by ultraviolet or visible radiation. The invention is optionally combined with reflective elements so that the sunlight collected may be directed to a solar cell.

Abstract: A deposited film forming method includes the steps of: continuously carrying a long substrate into or out of a vacuum chamber, flowing a first deposited film forming gas in a reverse direction parallel to the substrate and opposite to a conveying direction of the substrate from first gas discharging means into the vacuum chamber, exhausting the gas from first gas exhausting means, flowing a second deposited film forming gas in a forward direction parallel to the substrate and equivalent to the conveying direction of the substrate, exhausting the gas through the second gas exhausting means, and applying a discharge energy to the first and second gases.

Abstract: An inexpensive method of improving photo-voltaic cell efficiency through preventive maintenance. An electro-static generator places a constant electro-static charge upon the surface of a photo-voltaic cell, or its facial housing. This charge then repels small, unwanted dust and dirt particles. The system also includes an electrical circuit which not only monitors the charge being applied to the cell, but also discharges the electro-static charge when it becomes too great.

Abstract: A thermal control surface for a spacecraft includes flexible OSR tiles (310) 0.0015 inches thick. Each tile includes a transparent substrate (312) with a reflective second surface (314), such as a coating of silver. The front or space-facing side is coated with a transparent, electrically conductive layer (316) of indium oxide (IO) or indium-tin oxide (ITO), which laps over the edges of the OSR tile, and is in electrical contact with the reflective coating.The IO or ITO coating, or a separate electrically conductive coating (610) such as nichrome, forms a protective coating for the reflective surface, and maintains contact with the front surface of the tile. The IO or ITO layer (316) in conjunction with the back side coating provides front-to-back electrical conduction. The OSR is mounted to an electrically conductive surface (110) of the spacecraft, such as an aluminum or graphite-fiber-reinforced epoxy resin, by a sheet of transfer adhesive (410).

Abstract: A solar electric conversion unit and system includes substantially increased efficiency with reduced losses and increased acceptance angles. The system employs a short focal length fresnel lens extruded to further include depending side walls. The free edges of the sides carry a heat sink supporting a photovoltaic cell. The extruded side walls function as light pipes for carrying light directly to the photovoltaic cell. The walls are reflective inwardly of the unit to further avoid loss of stray light.

Abstract: A solar cell assembly wherein a solar cell is provided with electrical layer contacts for both the p-type semiconductor layer and the n-type semiconductor layer which are exposed on a top side of the solar cell, so that electrical contact to both layers can be made from the top side of the cell, and a glass cover overlying the solar cell includes a pair of U-shaped electrical cell contacts extending over the sides of the glass cover so that one leg of each U makes contact with one of the layer contacts and the other leg is accessible from the top of the cover glass. External electrical contact to the cell is easily and conveniently made, and cells can be electrically joined to adjacent cells in an array using a connector bar. The glass cover also supports the solar cell so that excess material on the substrate of the solar cell can be etched away to reduce the weight of the solar cell assembly.

Abstract: A solar cell assembly wherein a solar cell is provided with electrical layer contacts for both the p-type semiconductor layer and the n-type semiconductor layer which are exposed on a top side of the solar cell, so that electrical contact to both layers can be made from the top side of the cell, and a glass cover overlying the solar cell includes a pair of U-shaped electrical cell contacts extending over the sides of the glass cover so that one leg of each U makes contact with one of the layer contacts and the other leg is accessible from the top of the cover glass. External electrical contact to the cell is easily and conveniently made, and cells can be electrically joined to adjacent cells in an array using a connector bar. The glass cover also supports the solar cell so that excess material on the substrate of the solar cell can be etched away to reduce the weight of the solar cell assembly.

Abstract: The present invention discloses a novel black ceramic and a method of producing the same. This method employs a variety of industrial wastes and natural ore as starting materials to greatly decrease the cost of producing black ceramic materials. The black ceramic material of the present invention has many uses, such as, infrared radiating elements, fillers in plastics and rubbers, pigments in decorative architectural coatings and surfaces.

Abstract: A solar energy electric generating system for space vehicles is provided which directly generates alternating current from ambient light without the use of inefficient power conversion. Light incident to photocell arrays is mechanically or electrically gated to produce fluctuating DC. A number of transforming devices are provided to convert the fluctuating direct current to alternating current. By varying the frequency and duty cycle of the pulsing output voltage, frequency and phase relative to some reference may be controlled. Additionally, direct current may also be produced efficiently from the same photocell arrays. A closed-loop system is provided for regulation. The rotational torque produced by a rotating shutter version may also be used, under inertial navigation control, to provide a rotational torque for vehicle positioning.

Abstract: This invention deals with a composite electromotive apparatus utilizing solar energy and the like, comprising composite electromotive elements such as a thermoelectromotive unit, a photovoltaic unit, a magnetic electromotive unit utilizing convection, radiation, and/or other phenomena and so forth, to aim to gain electromotive even if momentarily small but as often as possible, with less limits in spite of any conditions, environment, etc., but without taking huge spaces and the like.

Abstract: An antireflective film (7, 8) for photoelectric devices comprises at least a layer having a refractive index being the largest on the side abutting on the light receiving surface (2a) or the light emitting surface of a photoelectric device and continuously decreasing according to the distance outward from said side.