Energía solar fotovoltaica

FLIP-TYPE PHOTOVOLTAIC SUPPORT, PHOTOVOLTAIC TILE, PHOTOVOLTAIC TILE SYSTEM AND MOUNTING METHOD FOR PHOTOVOLTAIC TILE

Resumen de: WO2026060864A1

A flip-type photovoltaic support, comprising: a frame, a top plate (300), a bottom plate (150) and flipping mechanism members (600), wherein the frame is formed by at least a left side wall (130), a right side wall (140), a front side wall (110) and a rear side wall (120); a first gap (160) is formed between the rear side surface of the top plate (300) and the rear side wall (120); the bottom plate (150) is embedded in the frame; a second gap (154) is formed at the position on the bottom plate (150) close to the front side wall (110); the flipping mechanism members (600) are disposed on the frame or the top plate (300) or the bottom plate (150), and are used for driving the top plate (300) to flip; at least one mounting position is provided on the top plate (300), and is used for mounting a photovoltaic power generation assembly; and the top plate (300) and the frame are of a flip-type structure. During mounting, the top plate (300) is flipped to expose a space at the bottom of the frame, so as to provide a foothold for mounting personnel or to provide a mounting space for an operation and maintenance ladder (800), thereby improving safety and comfort, and reducing the risk of micro-cracks caused by stepping on a glass power generation assembly during construction.

DEVICE FOR AT LEAST ONE SOLAR MODULE

Resumen de: WO2026061622A1

The invention relates to a device (10) for at least one solar module (20), the device (10) having a fastening section (11) for fastening the device (10) in a region of the at least one solar module (20), and the device (10) having at least one cover element (12) for covering a surface (21) of the at least one solar module (20), the cover element (12) being designed to be expandable in order to increase a surface (21) of the at least one solar module (20) that can be covered by means of the cover element (12), and the cover element (12) being designed to be retractable in order to reduce the surface (21) of the at least one solar module (20) that can be covered by means of the cover element (12).

HIGHLY EFFICIENT OLED DEVICES WITH VERY SHORT DECAY TIMES

Resumen de: US20260085235A1

The present invention relates to organic light-emitting devices comprising (a) an anode, (i) a cathode, and (e) an emitting layer between the anode and cathode, comprising 2 to 40% by weight of a triplet emitter X having a difference of the singlet energy (ES1(X)) and the triplet energy (ET1(X)) of less than or equal to 0.4 eV Δ(ES1(X))−(ET1(X))≤0.4 eV, 0.05 to 5.0% by weight of a fluorescent emitter Y and 55 to 97.95% by weight of a host compound(s), wherein the amount of the triplet emitter X, the fluorescent emitter Y and the host compound(s) adds up to a total of 100% by weight and the singlet energy of the triplet emitter X (ES1(X)) is greater than the singlet energy of the fluorescent emitter Y (ES1(Y)) (ES1(X))>ES1(Y). By doping, for example, an emitting layer containing a luminescent organometallic complex having a small S1-T1 splitting, with a fluorescent emitter the emission decay time can significantly be shortened without sacrificing external quantum efficiency (EQE) because of very efficient energy transfer.

IV DETECTION MECHANISM FOR 0BB SILICON WAFERS

Resumen de: US20260088757A1

The invention discloses an IV detection mechanism for 0BB silicon wafers, including two detection modules, both comprise a UVW base, a gold wire row test frame and a silver row test frame; the gold wire row test frame and the silver row test frame respectively move on the UVW base along the vertical direction; gold wires are installed on the gold wire row and silver rows are installed on the silver row test frame; the two detection modules move independently. In the IV inspection mechanism for 0BB silicon wafers, the double half-cells independently carry out 0BB IV inspection, so that both sides can independently lift up and down, and correction alignment can be performed in the UVW direction, so that the gold wires and silver rows are accurately aligned with the grid lines on the half-cell, the inspection efficiency is improved, and the productivity is increased.

POSITIONING METHOD, APPARATUS, AND SYSTEM FOR A PHOTOVOLTAIC ROBOT

Resumen de: US20260087665A1

A positioning method, apparatus and system for a photovoltaic robot is disclosed. The method comprises: obtaining three-dimensional point cloud data of the photovoltaic bracket, wherein the three-dimensional point cloud data is obtained through a sensing device; determining a target straight line based on the three-dimensional point cloud data, wherein the target straight line comprises a straight line where a target structure of the photovoltaic bracket is located, and the target straight line is located in the plane where the photovoltaic bracket is located; determining the position information based on a first rotation matrix between a first coordinate system of the sensing device and a second coordinate system of the photovoltaic robot, as well as the target straight line; wherein the position information indicates a relative position relationship between the photovoltaic robot and the target structure. Thus, the photovoltaic robot is positioned and its abnormal pose could be detected in time.

SELF-POWERED DISPLAY DEVICE

Resumen de: US20260086399A1

A self-powered display device includes a solar module and a display panel. The solar module has a first surface and a second surface opposite to each other, and includes a polymer layer, a plurality of solar cells and a plurality of opaque patterns. The solar cells are electrically connected to each other and embedded in the polymer layer at intervals. The opaque patterns are embedded in the polymer layer, wherein projections of the opaque patterns on the first surface are respectively located between projections of the solar cells on the first surface. The display panel is disposed on the first surface of the solar module. The solar module is configured to receive the light from the first surface and the second surface.

ARC FAULT DETECTION DEVICE AND METHOD FOR CONTROLLING SAME

Resumen de: US20260086134A1

The disclosure relates to an arc fault circuit interrupt capable of detecting an arc fault and a method of controlling the device. The arc fault circuit interrupt according to the disclosure is shipped in a factory reset state in which all functions are initialized after a test to check for functional abnormalities, and when receiving an update instruction from an authorized administrator after being installed in the field, receives an update file from a management device such as an energy management system to proceed with a firmware update and activates an arc fault detection function, thereby having the effect of preemptively preventing unauthorized copying of the arc fault circuit interrupt.

THERMAL BATTERY AND ELECTRICITY GENERATION SYSTEM

Resumen de: US20260085895A1

A thermal battery includes a heat sink material that remains solid across an operating temperature range (i.e., for all operating modes) of the battery, and a heat conductive material in direct heat transfer relationship with the solid heat sink material. The heat conductive material has a melting point below that of the heat sink material so that in use the heat conductive material is a fluid, for example molten when the heat conductive material is a metal, in the operating temperature range of the battery.

BLIND RIVET RETAINING CLIP FOR SOLAR MODULE

Resumen de: US20260085708A1

A blind rivet retaining clip includes a clip base, a blind rivet aperture, a grounding tab, and a blind rivet retention tab. The clip base is configured to interface with a first side of a solar module frame. The blind rivet aperture extends through the clip base. The grounding tab extends out from a first side surface of the clip base, and the blind rivet retention tab extends out from a second, opposite side surface of the clip base and adjacent to the blind rivet aperture. The blind rivet retention tab is configured to engage a blind rivet inserted through the blind rivet aperture. The grounding tab is configured to enable an electrical grounding function at the solar module frame when the blind rivet is inserted through the blind rivet aperture and when the blind rivet is set at the blind rivet aperture.

System and Method for Thermoelectric Distillation and Electricity Generation

Resumen de: US20260084984A1

A distillation and electricity generation system and method includes a first cooling section, a condenser section and a second cooling section. A first thermoelectric section includes one or more first thermoelectric modules interposed between the first cooling section and the condenser section. Each first thermoelectric module has a cold side in contact with the first cooling section and a hot side in contact with the condenser section. A second thermoelectric section includes one or more second thermoelectric modules interposed between the second cooling section and the condenser section. Each second thermoelectric module has a cold side in contact with the second cooling section and a hot side in contact with the condenser section. An electrical outlet is coupled to the first thermoelectric module(s), or the second thermoelectric module(s), or both the first and second thermoelectric modules

METHODS, SYSTEMS, AND APPARATUSES FOR PRODUCING, GENERATING AND UTILIZING POWER AND ENERGY

Resumen de: US20260090138A1

According to at least one exemplary embodiment an empyreal reaper may be provided. The empyreal reaper may include a packaging, one or more mirrors contained within the packaging which concentrate photonic energy from a photonic light source into focused light, one or more gain mediums which receive, on one or more absorption faces, the photonic energy concentrated by the one or more mirrors, and/or a photoelectric material which receives photonic energy from the one or more gain mediums and converts the photonic energy into electrical energy.

SOLAR CELL DEVICE AND SOLAR CELL MODULE

Resumen de: US20260090134A1

A solar cell device includes a solar cell unit, an electrode, and a first diffusion reducer. The solar cell unit includes a light-receiving surface. The first diffusion reducer is located between the solar cell unit and the electrode. The first diffusion reducer includes a first surface on the light-receiving surface and a second surface on the electrode. In a plan view of the light-receiving surface, the first diffusion reducer is located in an area other than at least part of an area not overlapping the electrode.

LAMINATED BODY, ELECTRONIC DEVICE, SOLAR CELL, MULTI-JUNCTION SOLAR CELL, SOLAR CELL MODULE, AND PHOTOVOLTAIC POWER GENERATION SYSTEM

Resumen de: US20260090139A1

A laminated body according to an embodiment includes a substrate, a transparent electrode provided on the substrate and an insulating film provided on the transparent electrode. The insulating film covers 50% or more and 100% or less of a surface of the transparent electrode on the opposite side of the substrate. The insulating film has a thinner thickness of a thickness of the substrate.

SEALING MATERIAL SHEET FOR SOLAR-CELL MODULE AND SOLAR-CELL MODULE USING THE SAME

Resumen de: US20260090113A1

To provide a sealing material sheet for a solar-cell module that has high productivity without performing crosslinking processing, and has a high tensile shear adhesion force at normal temperature at a high level in addition to heat resistance and molding characteristics. A sealing material sheet is a multi-layer sheet using a polyethylene-based resin as a base resin, a core layer has a density of 0.880 g/cm3 to 0.895 g/cm3 and a melting point of 70° C. or higher, a skin layer has a density of 0.880 g/cm3 to 0.910 g/cm3 and a melting point of 90° C. or lower and contains a silane-modified polyethylene-based resin, a weight average molecular weight of the silane-modified polyethylene-based resin contained in the skin layer 11 in terms of polystyrene is 70000 to 120000, and a polymerized silane amount of the skin layer in the whole resin component is 300 ppm to 2000 ppm.

ORGANIC ELECTRONIC ELEMENT AND COMPOUND

Resumen de: US20260090270A1

Provided is an organic electronic element that has an improved hole transport ability and a compound that is used in the organic electronic element and that can improve the hole transport ability thereof. The organic electronic element includes a first electrode, a second electrode and an organic layer disposed between the first electrode and the second electrode. The organic layer includes a hole transport layer and a hole transport promoting layer containing a compound having a partial structure represented by the following formula (1), or includes a layer comprising a mixture of a hole transport material and the compound having the partial structure represented by formula (1), and the organic electronic element includes a light-receiving layer:(wherein * represents a bond, and formula (1) forms a cyclic imide structure).

DISPLAY DEVICE AND METHOD OF MANUFACTURING THE SAME

Resumen de: US20260090257A1

A display device includes: a display panel having a first area, a second area spaced apart from the first area in a first direction, and a bending area between the first area and the second area; a polarization layer in the first area on the display panel; and a bending protection layer on the display panel and including: a pre-formed bending protection layer spaced apart from the polarization layer in the first direction; a first post-formed bending protection layer between the polarization layer and the pre-formed bending protection layer; and a second post-formed bending protection layer spaced apart from the first post-formed bending protection layer with the pre-formed bending protection layer interposed therebetween.

PHOTOELECTRIC CONVERSION ELEMENT, IMAGING ELEMENT, PHOTOELECTRIC CONVERSION ELEMENT MATERIAL, AND COMPOUND

Resumen de: US20260090266A1

Provided are a photoelectric conversion element and an imaging element which are excellent in response speed and exhibit a high external quantum yield, and a photoelectric conversion element material that contributes to production of these elements. An imaging photoelectric conversion element (100) includes a layer containing a photoelectric conversion element material represented by formula (1) below, where EWG represents an electron-withdrawing group, L represents an aromatic hydrocarbon group having 6 to 30 carbon atoms, n represents 1 to 8, k represents 0 to 2, and p represents 1 to 8, where p is 1 if k is 0.

ELECTRON CARRIER FOR ELECTRON TRANSPORT LAYER OF PEROVSKITE SOLAR CELL, ELECTRON TRANSPORT LAYER COATING AGENT COMPRISING SAME, ELECTRON TRANSPORT LAYER, AND PEROVSKITE SOLAR CELL

Resumen de: US20260090180A1

The present invention relates to a coating agent for forming an electron transport layer (or electron transfer layer), wherein surface-modified metal oxide nanoparticles prepared in the form of a dispersion solution are provided as the coating agent, and relates to an inverted perovskite in which an electron transport layer is formed using the same.

COMPOSITE OXIDE SEMICONDUCTOR AND TRANSISTOR

Resumen de: US20260090030A1

A novel material and a transistor including the novel material are provided. One embodiment of the present invention is a composite oxide including at least two regions. One of the regions includes In, Zn and an element M1 (the element M1 is one or more of Al, Ga, Si, B, Y, Ti, Fe, Ni, Ge, Zr, Mo, La, Ce, Nd, Hf, Ta, W, Mg, V, Be, and Cu) and the other of the regions includes In, Zn, and an element M2 (the element M2 is one or more of Al, Ga, Si, B, Y, Ti, Fe, Ni, Ge, Zr, Mo, La, Ce, Nd, Hf, Ta, W, Mg, V, Be, and Cu). In an analysis of the composite oxide by energy dispersive X-ray spectroscopy, the detected concentration of the element M1 in a first region is less than the detected concentration of the element M2 in a second region, and a surrounding portion of the first region is unclear in an observed mapping image of the energy dispersive X-ray spectroscopy.

DISPLAY DEVICE

Resumen de: US20260090101A1

To provide a display device including a flexible panel that can be handled without seriously damaging a driver circuit or a connecting portion between circuits. The display device includes a bent portion obtained by bending an element substrate. A circuit for driving the display device is provided in the bent portion and a wiring extends from the circuit, whereby the strength of a portion including the circuit for driving the display device is increased and failure of the circuit is reduced. Furthermore, the element substrate is bent in a connecting portion between an external terminal electrode and an external connecting wiring (FPC) so that the element substrate provided with the external terminal electrode fits the external connecting wiring, whereby the strength of the connecting portion is increased.

PVT MODULE, METHOD FOR MANUFACTURING A PVT MODULE, PVT ARRANGEMENT, AND THERMAL ABSORBER

Resumen de: US20260088756A1

A PVT module having a photovoltaic cell and a thermal absorber includes a thermal absorber having a composite plate structure comprising overlapping plates that are connected to one another by material bond in coupling surfaces. The plates are separated from one another outside the coupling surfaces, wherein channels are formed between the plates outside the coupling surfaces by a forming process on at least one of the plates, wherein the channels form a channel system integrated in the composite plate structure. A method for manufacturing a PVT module and PVT arrangement with at least two PVT modules are further disclosed.

A Cooling Apparatus

Resumen de: US20260088755A1

A cooling apparatus for a photovoltaic panel, the apparatus comprising a thermally transmissive PV contact element; a backing sheet coupled to one side of the PV contact element; and one or more electric fans, wherein the thermally transmissive PV contact element includes planar PV contact portions and defines a plurality of air channels therein; wherein the backing sheet carries the or each electric fan; and wherein the or each electric fan generates an airflow along the channels defined by the PV contact element.

INTEGRATED SOLAR TRACKER CONTROLLER AND DC/DC CONVERTER

Resumen de: US20260088752A1

An integrated system for solar tracking and DC/DC conversion can include a housing with heat sink fins, a DC power supply configured to receive DC power from one or more solar panels and supply DC power to internal components, and a self-powered controller electrically connected to the DC power supply. The self-powered controller outputs control signals to one or more motors to orient the solar panels. The system further includes a plurality of configurable power blocks that are selectively operable as DC/DC converters to perform maximum power point tracking or as DC/AC converters. A battery module is detachably couplable to the housing by a connector and is electrically connected to the DC power supply to provide backup power. The housing can be formed of a heat-conducting material to enable passive cooling. The battery module can include a seal to prevent ingress of debris and fluids.

DIFFERENTIAL POWER PROCESSING APPARATUS FOR PHOTOVOLTAIC POWER GENERATION

Resumen de: US20260088753A1

A differential power processing apparatus for photovoltaic power generation may include: a first terminal connected to a negative output terminal of a first photovoltaic module located outside; a second terminal connected to a positive output terminal of the first photovoltaic module; a third terminal connected to a negative output terminal of a second photovoltaic module located outside; a fourth terminal connected to a positive output terminal of the second photovoltaic module; a first switch located between the first terminal and the fourth terminal and mediating an electrical connection between the first photovoltaic module and the second photovoltaic module; a second switch connected between the second terminal and the third terminal; and a third switch including a first end connected to the third terminal, and a second end connected to the second switch.

TRUSS FOUNDATIONS FOR AGRIVOLTAICS

Nº publicación: WO2026064616A1 26/03/2026

Solicitante:

OJJO INC [US]
OJJO, INC

Resumen de: WO2026064616A1

A truss foundation system is disclosed for supporting a single-axis solar tracker in agrivoltaic installations. The system includes a screw anchor foundation component having an embedment end and an opposing driving end. A Y-shaped screw cap sleeves over the driving end of the screw anchor and includes a lower portion and a pair of upper portions extending at reciprocal angles relative to a vertical midline. A pair of truss legs are connected to the respective upper portions of the screw cap and extend upwardly to support the tracker structure.