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164
resultados
Última actualización
22/03/2026 [06:59:00]
Resumen de: FR3166276A1
Procédé de coloration en agriculture Procédé de coloration de fruits (F) de végétaux (A), notamment d’arbres fruitiers, situés sous des capteurs photovoltaïques orientables (C), l’ombre projetée sur les végétaux étant modifiée par le changement d’orientation des capteurs (C), procédé dans lequel on agit automatiquement sur l’orientation des capteurs en fonction de l’état de coloration des fruits (F) de manière à augmenter l’ensoleillement par rapport à une référence de pilotage des capteurs appliquée lorsque la coloration souhaitée est atteinte ou lorsque les fruits sont non encore colorés, pour favoriser l’action du soleil sur la coloration. Figure pour l’abrégé : Fig. 2
Resumen de: FR3166275A1
Procédé de pollinisation en agriculture Procédé de pollinisation de végétaux (A), notamment d’arbres fruitiers, situés sous des capteurs photovoltaïques orientables (C), l’ombre projetée sur les végétaux étant modifiée par le changement d’orientation des capteurs, procédé dans lequel on agit automatiquement sur l’orientation des capteurs en fonction de l’état de floraison de manière à augmenter l’ensoleillement et/ou l’exposition au vent, par rapport à une référence de pilotage des capteurs appliquée lorsque la floraison est non mature ou non démarrée, pour encourager l’activité des pollinisateurs et/ou favoriser l’action du vent sur la pollinisation. Figure pour l’abrégé : Fig. 2
Resumen de: US20260082726A1
The present invention discloses a back contact solar cell. The back contact solar cell includes a semiconductor substrate having a front surface and a rear surface; a first conductive type semiconductor region having a first conductive type and a second conductive type semiconductor region having a second conductive type at an interval on the rear surface of the semiconductor substrate. Furthermore, the rear surface of the semiconductor substrate has a texturing structure at the interval between the first conductive type semiconductor region and the second conductive type semiconductor region.
Resumen de: US20260082729A1
A controlling device has at least a light-based energy harvesting system disposed within the controlling device housing. The light-based energy harvesting system is operative to supply power to at least one of a processing device and a transmitter of the controlling device. The light-based energy harvesting system includes s a substrate having a photovoltaic (PV) active area and a lens, separate from the substrate, disposed over the PV active area.
Resumen de: DE102024126763A1
Die Erfindung betrifft eine Vorrichtung zur Energiegewinnung durch eine mono- und oder polykristaline Siliciumbeschichtung eines Werkstücks umfassend sechs Module (A,B,C,D,E,F), wobei im Verbund die Module (A und B) und die Module (D, E und F) ebenfalls im Verbund , eine Rotationsbewegung von 360° über den Horizont erreichen, und wobei im Modul (C) die mono- und oder polykristaline Siliciumbeschichtung installiert ist und die inneren Kammern der Module (A, B, D und E) die Sonnenphotonen durch Reflexionen in das Modul (C) transportieren, wo sie dann durch die installierte Photovoltaik effektiv in Elektroenergie umgewandelt werden, und das Modul (C) aus einem Zylinder besteht, wo auf der jeweiligen Endung eine Halbkugel (11), ein Kardanisches Lager (5) und ein Rotations-Kugellager (4) installiert sind, was eine Hochzeit mit den jeweiligen Modulen (B und D) ermöglicht.
Resumen de: DE102024208760A1
Es wird ein Photovoltaik-Modul mit einer farbigen Dekorfolie beschrieben, die die optisch aktive Oberseite des Photovoltaik-Moduls abdeckt, wobei die Dekorfolie aus einer Kunststofffolie gebildet ist, die ein oder mehrere farbgebende Mittel, bevorzugt Pigmente, enthält, und die Dekorfolie im Wellenlängenbereich von 750 bis 1150 nm einen mittleren Transmissionsgrad von mindestens 50% aufweist.
Resumen de: DE102024126784A1
Solarfassadenmodul zur Befestigung an einem Bauwerk, aufweisend ein Tragegestell, mindestens eine an dem Tragegestell gehaltene Abdeckeinrichtung, und mindestens ein Solarmodul zur Strom- und/oder Wärmegewinnung aus Sonneneinstrahlung, wobei das Solarmodul und/oder die Abdeckeinrichtung beweglich an dem Tragegestell gelagert ist, derart, dass das Solarmodul relativ zur Abdeckeinrichtung bewegbar ist, und wobei das Solarmodul in einer ersten Betriebsstellung von der Abdeckeinrichtung derart abgedeckt ist, dass die Abdeckeinrichtung in einem Abdeckbereich des Solarmoduls eine das Solarmodul schützende Abdeckwirkung erzielt und das Solarmodul in einer zweiten Betriebsstellung von der Abdeckeinrichtung derart freigelegt ist, dass die in der ersten Betriebsstellung erzielte Abdeckwirkung aufgehoben ist.
Resumen de: DE102024126906A1
Die Erfindung betrifft eine Lamelle (1) einer Beschattungseinrichtung, zumindest aufweisend einen Grundkörper (3), an dessen mindestens einer Längskante zumindest teilweise ein in Richtung einer Oberseite des Grundkörpers (3) zeigender Halteschenkel (4) ausgebildet ist, mindestens ein auf der Oberseite des Grundkörpers (3) angeordnetes Photovoltaikmodul (2) zur Stromerzeugung. Die Erfindung betrifft zudem eine Beschattungseinrichtung, insbesondere ein Raffstore oder eine Jalousie, mit einer Vielzahl von Lamellen (1). Schließlich betrifft die Erfindung auch ein Verfahren zum Befestigen eines Photovoltaikmoduls (2) an einem Grundkörper (3) einer Lamelle (1).
Resumen de: WO2026057790A1
The invention relates to a photovoltaic module (4) having a colored decorative film (2) which covers the optically active upper face of the photovoltaic module, wherein the decorative film is formed by a plastic film containing one or more coloring agents, preferably pigments, and the decorative film has an average transmittance of at least 50% in the wavelength range of 750-1150 nm.
Resumen de: WO2026057329A1
The invention relates to a method for encapsulating a solar cell assembly (10). The method has the steps of: providing (S110) a first hybrid laminating film (110) and a second hybrid laminating film (120); forming (S120) a stack (200) comprising the first hybrid laminating film (110), the solar cell assembly (10), and the second hybrid laminating film (120), the solar cell assembly (10) being situated between the first hybrid laminating film (110) and the second hybrid laminating film (120); and fusing (S130) the first hybrid laminating film (110) and the second hybrid laminating film (120) in order to encapsulate the solar cell assembly (10). The first hybrid laminating film and the second hybrid laminating film comprise, in an inner region (112, 122), an encapsulation material for encapsulating the solar cell assembly and, in an edge region (114, 122) surrounding the inner region, a sealing material. The sealing material differs from the encapsulation material in order to form a laterally water-impermeable seal.
Resumen de: WO2026059486A1
An offshore platform (10) for energy farming is provided. The offshore platform (10) includes a plurality of first beams (12) arranged to receive a plurality of solar panels, the first beams (12) defining a first layer (16), a plurality of second beams (14) arranged 5 to define a second layer (18), and a plurality of posts (20) separating the first and second layers (16, 18). A plurality of hollow pipes (22) is attached to a base of the second layer (18), the hollow pipes (22) extending across the second layer (18).
Resumen de: WO2026059095A1
Disclosed is an information processing system. The information processing system comprises: a memory; and one processor connected to the memory and configured to execute at least one computer-readable program included in the memory. The at least one program includes instructions for: acquiring land cover data on the basis of satellite aerial image data; predicting data associated with an environment and solar radiation data by analyzing, on the basis of a wavelength, data collected from an environmental satellite and a weather observation system; and predicting data associated with the air quality on the basis of the land cover data and the data associated with the environment.
Resumen de: WO2026057079A1
A hail-protection shade (14, 114, 214, 314, 414, 514) readily retrofittable to a solar photovoltaic module (10) having a frame (13), comprises a bracket (18a, 18b, 118, 218, 318, 418a, 418b) with a recess (27, 127, 327) complementary to a section of the frame (13), the recess (21, 127, 327) including a pair of bracket abutment faces (28, 29, 127, 128) that are substantially orthogonal to one another and adapted for abutting respective exterior surfaces of the section of the frame. Edges of a net (21, 121, 221) adapted for intercepting hailstones are supported by a framework (90, 190, 290) having an inboard side fixed or fixable to the bracket (18a, 18b, 118, 218, 318, 418a, 418b) and an outboard side that projects in a cantilever manner. The framework (90, 190, 290) comprises a pair of arm portions (19a, 19b) elongated substantially parallel to one another to receive the net (21, 121, 221) therebetween.
Resumen de: WO2026059521A1
The invention relates to a floating solar energy system (10) comprising a floating platform (11 ); at least one support frame (12) for mounting at least one solar panel; and at least one support provider (13) for ensuring that the aforementioned support frame (12) remains fixed on the aforementioned floating platform (11 ). Accordingly, its novelty is characterized by comprising at least one sensor (14) placed on the floating platform (11 ) for measuring the water level and generating a height output; at least one movement mechanism (15) placed on the support provider (13) for enabling the movement of the carrier frame (12) between a first direction in which it approaches the floating platform (11 ) and a second direction in which it moves away from the floating platform (11 ); a control unit (16) that, based on the height output received from the sensor (14), enables the operation of the movement mechanism to allow the carrier frame (12) to move between the first direction and the second direction.
Resumen de: WO2026056678A1
An oscillating photovoltaic (panel) stable power generation system, comprising a photovoltaic support and a photovoltaic panel, wherein the photovoltaic panel is provided with a buffer mechanism and an overload release device; the buffer mechanism can effectively absorb kinetic energy, limit the oscillation amplitude of the photovoltaic panel, decelerate the oscillation speed of the photovoltaic panel, and automatically restore the photovoltaic panel to the original position after strong winds. The overload release device can automatically transfer the photovoltaic panel to the buffer mechanism after strong winds so as to limit the oscillation amplitude of the photovoltaic panel, thereby automatically protecting the photovoltaic panel from damage caused by strong wind impact. The present application overcomes the technical shortcomings of existing static wind‑resistance designs, reduces the wind resistance of the system, and can not only withstand super typhoons, but also ensure stable power generation and irrigation, thereby promoting agricultural production.
Resumen de: WO2026056490A1
The present application relates to the technical field of outdoor umbrellas, and discloses an outdoor umbrella integrated with photovoltaic panels, comprising ribs, a canopy, photovoltaic panels, and a power supply line. The ribs support the canopy from the lower side, and the photovoltaic panels are fixed to the upper surface of the canopy. The power supply line is simultaneously connected to the plurality of photovoltaic panels, and is configured to output power to the outside. There are a plurality of photovoltaic panels, and the plurality of photovoltaic panels are circumferentially distributed by taking the top end of the canopy as the center. Compared with the prior art, in the present application, a plurality of photovoltaic panels are circumferentially distributed by taking the top end of a canopy as the center, so that the total area of the photovoltaic panels can be significantly increased, thereby increasing the photovoltaic power generation power, improving the power output capability, and meeting actual use requirements.
Resumen de: WO2026058444A1
A solar radiation amount data processing device estimates, on the basis of past power generation result data and past weather data from at least one first site where a photovoltaic power generation facility is established, a solar radiation amount estimation value which is the past solar radiation amount at the first site, and generates, on the basis of the past solar radiation amount estimation value and the past weather data at the first site, an interpolation model for outputting a solar radiation amount interpolation value obtained by interpolating the solar radiation amount from at least one second site where no photovoltaic power generation facility is established.
Resumen de: WO2026058273A1
The present invention relates to a system and method for predicting photovoltaic (PV) power generation, detecting faults, and enhancing the performance of PV generating stations The system comprises a data collection module (14) that acquires actual data on environmental conditions and PV system performance and transmits sensor data to a cloud platform for analysis, the data analysis module (15) processes data to predict PV power generation, optimize system performance, and identify potential issues, and user interface (16) display system performance, provide accurate understandings, and enable remote monitoring. The system and method utilize advanced machine learning techniques to improve the accuracy of PV power generation predictions, detect faults, and optimize system performance, resulting in increased energy production and reduced operational costs.
Resumen de: WO2026056402A1
Disclosed are a back-contact photovoltaic module and system. The back-contact photovoltaic module comprises: a cell string (10A, 10B) comprising solar cells connected in series, the solar cells comprising a first solar cell (11) and a second solar cell (12) arranged in a first direction, and the first solar cell being located at an end of the cell string; a first insulating strip (21) located at the end of the second solar cell close to the first solar cell; a first busbar (31) located on the side of the first insulating strip facing away from the second solar cell, the first insulating strip and the first busbar both extending in a second direction, and the first direction intersecting the second direction; and a first solder strip (41) configured to electrically connect the first busbar and the first solar cell, where an extension section (311) is provided at the end of the first busbar close to the first solar cell, the extension section extends beyond an edge of the first insulating strip in the first direction and is electrically connected to the first solder strip, and a connection end (312) is formed at the joint between the extension section and the first solder strip.
Resumen de: WO2026056247A1
Disclosed in the present application is a flexible photovoltaic assembly, which comprises a photovoltaic module, the photovoltaic module comprising a mounting frame and a flexible photovoltaic panel. The mounting frame is formed having a stepped hole extending vertically, and a relatively upper end of the stepped hole along a vertical direction is configured as a large-diameter hole; an outer edge of the flexible photovoltaic panel is fixed in the large-diameter hole by means of a first sealing adhesive; a small-diameter hole of the stepped hole is provided with a reinforcing rib, and the reinforcing rib is fixed to a relatively lower end surface of the flexible photovoltaic panel along the vertical direction by means of a second sealing adhesive. The present application can enhance the flatness of the flexible photovoltaic panel mounted in the mounting frame, effectively preventing the problem of gradual deformation and bending of the flexible photovoltaic panel, which could lead to hidden cracks after long-term outdoor operation of the flexible photovoltaic assembly.
Resumen de: WO2026056549A1
A power conversion device (10), comprising: a switch apparatus (400), a power conversion circuit, and a controller (600). The switch apparatus comprises a plurality of layers of switches stacked in an extension direction of a rotary shaft, the plurality of layers of switches comprising a first layer of switches and second layers of switches. The number of the first layer of switches is smaller than the number of second layers of switches. The flow-through capacity of the first layer of switches is greater than the flow-through capacities of the second layers of switches. The first layer of switches is connected to all first poles of N photovoltaic strings, and each second layer of switches is connected to second poles of part of the N photovoltaic strings. When there is a fault in the N photovoltaic strings, all of the plurality of layers of switches are disconnected in a linked manner, and at most two or three photovoltaic strings among the N photovoltaic strings are connected in parallel, thereby adapting to different numbers of connected photovoltaic strings, reducing the number of layers of switches, and ensuring safety.
Resumen de: WO2026056349A1
Provided in the present disclosure is a photovoltaic module. The photovoltaic module comprises: a solar cell, which has grid lines provided on the surface thereof; a solder ribbon, which is located on the side of the grid lines away from the solar cell; a first intermetallic compound layer, which is located between the surface of the solar cell and the solder ribbon and is formed by means of soldering a first solder paste to the grid lines; and a second intermetallic compound layer, which is located between the first intermetallic compound layer and the solder ribbon and is formed by means of soldering the first solder paste to the solder ribbon. By means of the present disclosure, since the photovoltaic module having the first intermetallic compound layer and the second intermetallic compound layer has excellent soldering pull strength, mass production can be realized; and the problem of the mass production of photovoltaic modules being affected by an excessively wide or narrow soldering window is solved.
Resumen de: WO2026056244A1
A lightweight photovoltaic product system, which relates to the technical field of photovoltaic products. The lightweight photovoltaic product system comprises: metal tiles, lightweight photovoltaic panels, and metal clamp assemblies. The lightweight photovoltaic panels are of a multi-layer plate-shaped structure, and each comprise an ultra-thin glass front plate, a first adhesive film layer, a cell, a second adhesive film layer, and a polymer backplate that are laminated in sequence. Each lightweight photovoltaic panel is arranged on the surface of the metal tiles by means of several metal clamp assemblies, and the metal clamp assemblies are detachably mounted at the peaks of the metal tiles. By means of such configurations, different numbers of metal clamp assemblies can be selected on the basis of different areas of the metal tiles to be laid, so as to fixedly mount the lightweight photovoltaic panels, and the position where the lightweight photovoltaic panels are arranged can also be adjusted on the basis of the actual shape of the metal tiles. Each lightweight photovoltaic panel can be quickly mounted by means of several detachable metal clamp assemblies; in addition, the cooperative use of the plurality of metal clamp assemblies can also improve the stability of the lightweight photovoltaic panel.
Resumen de: WO2026059440A1
The present invention relates to a composite pane comprising an exterior pane (1) and an interior pane (2), which are joined face to face, wherein preferably at least one photovoltaic component (4) is incorporated into the composite pane between the exterior pane (1) and the interior pane (2) and wherein the composite pane comprises an insulating unit (5) which has, in order, - an outer pane (5a) facing the exterior pane (1), - an evacuated aerogel layer (5c) and - an inner pane (5b), and wherein (i) the insulating unit (5) is incorporated into the composite pane between the exterior pane (1) and the interior pane (2) and has a smaller distance from the interior pane (2) than the at least one photovoltaic component (4) or (ii) the interior pane (2) of the composite pane forms the inner pane (5b) of the insulating unit (5).
Nº publicación: WO2026056149A1 19/03/2026
Solicitante:
SHENZHEN HELLO TECH ENERGY CO LTD [CN]
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Resumen de: WO2026056149A1
Disclosed are an insulation impedance detection circuit (10), a control method and control apparatus therefor, and a photovoltaic device. The insulation impedance detection circuit (10) is used for detecting a ground impedance of a direct-current bus; the direct-current bus comprises a positive electrode bus (PV+) and negative electrode buses (PV-); the insulation impedance detection circuit (10) comprises sub-detection circuits; the sub-detection circuits each comprise a positive electrode detection resistor (R1) and a negative electrode detection resistor (R2), and are used for detecting bus voltages between the positive electrode bus (PV+) and the negative electrode buses (PV-) by means of the positive electrode detection resistors (R1), and detecting negative ground voltages of the negative electrode buses (PV-) by means of the negative electrode detection resistors (R2); the sub-detection circuits comprise a first sub-detection circuit (102) and a second sub-detection circuit (104); resistance values of the positive electrode detection resistor (R1) and the negative electrode detection resistor (R2) in the first sub-detection circuit (102) are not equal; and resistance values of the positive electrode detection resistor (R1) and the negative electrode detection resistor (R2) in the second sub-detection circuit (104) are equal.
BOPI
Sede Electrónica
