Energía solar fotovoltaica

Procédé de coloration en agriculture

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

Procédé de pollinisation

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

ORGANIC ELECTRONIC COMPONENT AND METHOD FOR PRODUCING AN ORGANIC ELECTRONIC COMPONENT

Resumen de: US20260082802A1

The invention relates to an organic electronic component comprising a cathode, an anode, at least one light-emitting layer which is arranged between the anode and the cathode, a first layer, which comprises a first matrix material and a dopant, a second layer, which comprises a second matrix material, wherein the first layer is arranged between the second layer and the anode, wherein the second layer is arranged between the anode and the at least one light-emitting layer, wherein the dopant is a fluorinated sulfonimide metal salt of the following formula 1:

COMPOSITE PANE WITH EVACUATED AEROGEL LAYER

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).

PHOTOVOLTAIC MODULE MOUNT WITH INTEGRATED CABLE MANAGEMENT FEATURE

Resumen de: US20260081558A1

A photovoltaic (PV) module mount having an integrated cable management feature, a system incorporating a PV module mount, and a method for making a PV module mount are disclosed. In one embodiment, a PV module mount may include a mounting rail configured to be secured to a PV module. The mounting rail may include a first side wall having a top edge and a bottom edge, a second side wall having a top edge and a bottom edge, a connecting structure connecting the first side wall to the second side wall, and a cable management feature configured to retain one or more electrical cables. The cable management feature may be integrally formed with at least one of the first side wall, the second side wall, and the connecting structure.

BALANCE-CONVERTER CIRCUIT FOR SOLAR MODULES

Resumen de: US20260081557A1

A circuit includes: an adjustment section; a power supply section; and a regulator management section. The adjustment section is configured to drive an output voltage, from a set of solar substrings, to a target output voltage. The power supply section is configured to output a regulated voltage that powers the adjustment section. The regulator management section includes: a management switch configured to selectively couple the set of solar substrings to the adjustment section; and a comparator. The comparator is configured to, in response to an input voltage of the regulator falling below a threshold voltage, output a control signal to: a gate of the management switch to transition the management switch into an inactive state to decouple the set of solar substrings from the adjustment section; and a control terminal of the adjustment section to suspend operation of the adjustment section and drive the input voltage toward the threshold voltage.

THERMOPHOTOVOLTAIC (TPV) POWER GENERATOR

Resumen de: US20260081554A1

A thermophotovoltaic (TPV) electric power generator may include a hot section configured to receive a portion of high temperature combustion gases via a conduit from a combustion chamber of an engine and receive heat from the combustion gases. An emitter/TPV cell section thermally coupled to the first hot section may be configured to receive and convert heat from the hot section into electric power. The emitter/TPV cell section may include thermal emitting material which ejects/emits photonic particles/energy at given radiative wavelengths and a plurality of TPV cells operable to convert the photonic particles/energy into electric power. Thermally coupled to the emitter/TPV cell section may be a cold section configured to extract heat from the emitter/TPV cell section.

PHOTOVOLTAIC ASSEMBLY

Resumen de: US20260081559A1

A photovoltaic assembly includes a photovoltaic module and a heat dissipation module. The heat dissipation module is configured to be connected to an external object. The photovoltaic module includes a light-incident side configured to receive sunlight and a back side opposite to the light-incident side. The photovoltaic module is configured to convert the sunlight to electrical energy. The heat dissipation module is arranged on the back side of the photovoltaic module and configured to dissipate heat generated by the photovoltaic module.

MODULE COUPLING CLAMP

Resumen de: US20260081556A1

A coupling clamp is provided that includes a top clamp and a bottom clamp. The top clamp may include a top vertical flange and a top lateral flange. The bottom clamp may include a bottom vertical flange and one or more bottom lateral flanges that extend laterally in opposite directions. At least one of the bottom lateral flanges may include a first portion having a surface configured to engage with a solar module and a second portion connected to the bottom vertical flange at an intersection below the surface of the first portion. The coupling clamp may be installed onto one or more solar modules that are positioned onto a rail that has an installed rail clamp. Another solar module may be positioned on the coupling clamp and rail and then slid under the rail clamp, which may be tightened to secure the other solar module to the rail.

ATTACHMENT STRUCTURE FOR VEHICLE SOLAR PANEL

Resumen de: US20260081555A1

An attachment structure for vehicle solar panel includes: a vehicle-body configuring member configuring a part of a vehicle body; a solar panel provided on the vehicle-body configuring member, the solar panel including a glass exposed to an outside of the vehicle body, and a solar module provided on a vehicle inner-side surface of the glass; and a coupling member that couples the vehicle-body configuring member and the solar module. The coupling member includes: a panel-side attachment portion connected to the solar module; a vehicle-body-side attachment portion connected to the vehicle-body configuring member; and a connection portion that connects the panel-side attachment portion and the vehicle-body-side attachment portion and has flexibility.

ELECTRONIC DEVICE

Resumen de: US20260079536A1

An electronic device is provided by the present disclosure and includes an electronic structure, a cover structure, and a second adhesive. The cover structure is adhered to the electronic structure and includes a first substrate, a second substrate, and a first adhesive. The first adhesive is disposed between the first substrate and the second substrate. The second adhesive is disposed between the electronic structure and the cover structure, and the first substrate is disposed between the first adhesive and the second adhesive. The electronic structure includes an electronic layer and a substrate structure, and the electronic layer is disposed between the substrate structure and the cover structure. The substrate structure includes a third substrate, a third adhesive, and a fourth substrate. The third adhesive is disposed between the third substrate and the fourth substrate, and the third substrate is disposed between the third adhesive and the electronic layer.

HEAT SINK

Resumen de: US20260078965A1

A heat sink on a closed housing of an electronic component or circuit. In order to produce a heat sink for an electronic component or circuit on a closed housing, it is proposed for a cooling element with a good thermal coupling to be positioned on a back side of the electronic component or circuit wherein the cooling element comprises at least one first metal plate with a three-dimensional structure, heat is introduced via a flat base of the first metal plate and heat is conveyed away toward apexes of the three-dimensional structure, wherein at least one second metal plate is positioned so that it adjoins the first metal plate or the apexes thereof with thermal contact in order to convey away the heat.

MODULAR LIGHTING PANEL

Resumen de: US20260081459A1

Systems and methods described herein provide examples of an electrical panel (e.g., a modular electrical panel) that is configured to control a plurality of electrical loads. The electrical panel may include a control circuit, memory, a communication circuit, and an alternating current (AC) line feed and/or a direct current (DC) line feed. The electrical panel may also include a plurality of power supplies and a plurality of control modules, where more than one control module is associated with each of the plurality of power supplies. Each control module may configured to receive DC power from the associated power supply and provide an output voltage to at least one electrical load. The electrical panel provides flexibility as to whether each stage of conversion, regulation, and/or control is performed at a control module located within the electrical panel or performed at an accessory module located at an electrical load.

Energy Management Device and Energy Management Method

Resumen de: US20260081451A1

An energy management device that interworks with an electric power grid, a power generation device, an Energy Storage System (ESS), and a bidirectional Electric Vehicle (EV) charger includes: at least one processor; and a memory storing at least one instruction executed via the at least one processor. At least one instruction may include: an instruction for collecting basic information including information regarding a power generation state and a power consumption state, and grid electric power cost information; an instruction for establishing, by using the collected basic information, an ESS operation schedule for controlling charging and discharging operations of an ESS battery and an EV operation schedule for controlling charging and discharging operations of an EV battery; and an instruction for controlling the ESS battery and the EV battery to be charged/discharged in accordance with the ESS operation schedule and the EV operation schedule.

THIRD PARTY ENERGY MANAGEMENT

Resumen de: US20260081465A1

A system of modules which control and measure energy usage at a building which are in communication with a software program executing on a remote server controlled by a third party. The third party said usage via the software program which communicates with the modules to modify energy usage and demand for energy and is responsible or liable for energy usage charges the building where the third party does not actually use the energy.

TANDEM SOLAR CELL

Resumen de: US20260082759A1

Provided is a tandem solar cell capable of suppressing uneven power generation among silicon devices disposed on a lower side of perovskite devices. The tandem solar cell includes a plurality of perovskite devices disposed on a front surface side of a plurality of silicon devices, at least part of the plurality of silicon devices being disposed on a back surface side of a gap between the perovskite devices or light passing through the gap between the perovskite devices from the front surface side to the back surface side reaching the at least part of the plurality of silicon devices, in which a translucent filter that blocks light in a wavelength band absorbed in the perovskite devices is provided in the gap between the perovskite devices.

BACK CONTACT SOLAR CELL AND FABRICATION METHOD THEREOF

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.

CONTROLLING DEVICE HAVING AN ENERGY HARVESTING FEATURE

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.

A FLOATING SOLAR ENERGY SYSTEM

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.

OFFSHORE PLATFORM FOR ENERGY FARMING

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).

METHOD AND SYSTEM FOR PREDICTING PHOTOVOLTAIC POWER GENERATION AMOUNT

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.

HAIL-PROTECTION SHADE FOR SOLAR PHOTOVOLTAIC MODULES

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.

OSCILLATING PHOTOVOLTAIC STABLE POWER GENERATION SYSTEM

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.

OUTDOOR UMBRELLA INTEGRATED WITH PHOTOVOLTAIC PANELS

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.

SOLAR RADIATION AMOUNT DATA PROCESSING DEVICE AND METHOD

Nº publicación: WO2026058444A1 19/03/2026

Solicitante:

NTT INC [JP]
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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.