Energía solar fotovoltaica

DISTRIBUTED INERTIA-ENHANCEMENT CONTROL METHOD OF THE DC-BUS VOLTAGE OF A LOW-INERTIA DC MICROGRID

Resumen de: WO2026065694A1

A DC microgrid has increased DC bus voltage inertia without adding large physical capacitors. A Virtual Inertia Enhancement Controller (VIEC) of a DC-DC converter emulates a DC machine's mechanical inertia characteristics through a virtual capacitor which compensates for a power imbalance causing DC bus voltage fluctuations. When a battery charges and generated photovoltaic (PV) power is more than the load power, VIEC controls the PV's DC-DC converter to the DC bus. When the battery discharges and generated PV power is less than load power, VIEC controls the battery's DC-DC converter to the DC bus. VIEC controls both the PV's DC-DC converter and battery's DC-DC converter to the DC bus when generated PV power is more than the load power and battery is fully charged. VIEC emulates an additional virtual capacitance in parallel with DC link capacitors. DC bus voltage fluctuations are significantly reduced by the VIEC emulating virtual capacitors.

PHOTOVOLTAIC MODULE MOUNTING STRUCTURE

Resumen de: US20260095120A1

Various embodiments of mounting structures for solar photovoltaic (PV) modules and methods for constructing such mounting structures are described. A mounting structure is usable to secure PV modules in portrait orientation or landscape orientation. PV modules are secured to PV module support rails, which may be secured to purlins of a mounting structure using clamps. In some embodiments, self-adhesive grounding patches are used to establish electrical grounding paths in various embodiments of mounting structure.

PV MODULE CONVEYANCE SYSTEM AND METHODS

Resumen de: AU2024345875A1

A conveyance shuttle for conveying photovoltaic ("PV") modules along a support member. The conveyance shuttle comprises a receptacle for receiving a member of a PV module or a PV module support panel, wherein the conveyance shuttle, when coordinated with the shuttle coordinating feature, is capable of conveying the PV module or PV module support panel along a length of the support member.

SOLAR PANEL SUSPENSION SYSTEM AND METHOD OF ERECTING SUCH A SYSTEM

Resumen de: AU2024327333A1

A solar panel suspension system comprising; at least four uprights (10, 12, 14, 16), each upright exhibiting a bottom end (10a, 12a, 14a, 16a) and a top end (10b, 12b, 14b, 16b), said at least four uprights being arrangeable in pairs, wherein each pair comprises two uprights aligned in a first direction and wherein the pairs are arranged in parallel, side by side in a second direction which is perpendicular to the first direction. Supporting wires (20a 20b, 22a, 22b, 24a, 24b, 26a, 26b, 30a 30b, 30c, 30d) are arranged to support the uprights by supportingly connecting each upright to the ground and to at least two neighbouring uprights. At least two first suspension wires (40a, 40b) are arranged to extend in a first direction between the top end of two uprights in a respective pair of uprights. The system further comprises a plurality of rectangular planar support frames (60), which are arranged to be supportingly connected to two first suspension wires (40a, 40b). A hoisting arrangement (50a, 50b, 50d) is arranged to extend and retract each first suspension wire (40a, 40b) from the top end of both uprights (10, 12, 14, 16) in each pair of uprights. A method of erection such a system is also described.

PV MODULE CONVEYANCE SYSTEM AND METHODS

Resumen de: AU2024344275A1

A conveyance shuttle for conveying photovoltaic ("PV") modules along a support member. The conveyance shuttle comprises a receptacle for receiving a member of a PV module or a PV module support panel, wherein the conveyance shuttle, when coordinated with the shuttle coordinating feature, is capable of conveying the PV module or PV module support panel along a length of the support member.

SOLAR COLLECTING FENCING SYSTEM

Resumen de: AU2024344953A1

A solar collecting fencing system is provided, comprising a fence panel assembly with a metal sheet formed as a single piece. The metal sheet is shaped to define contoured sections, each having a major and minor portion. Elongate solar panels are affixed to the major portions to facilitate solar energy collection. The system is designed for use as a functional fence while maximising solar energy capture. Electrical wiring is connected between the solar panels, and a rail may be installed to protect the wiring. The system is suitable for installation in various configurations to optimise solar exposure.

PYRROLYL-BASED CARBAZOLE BISPHOSPHONATE POLYMER, SYNTHESIS METHOD THEREFOR AND USE THEREOF

Resumen de: WO2026065798A1

The present invention aims to provide a pyrrolyl-based carbazole bisphosphonate polymer, a synthesis method therefor, and the use thereof. In the polymer, a conjugated structure is formed by linking two carbazole molecules via a pyrrole ring, and therefore the carrier transport efficiency when the material is applied to hole transport layers is ensured, the dipole moment of the molecule and the properties of an interface are well regulated, and the wettability and coverage effect with substrates are improved. Battery structures prepared by using the material have higher photoelectric conversion efficiency and stability.

OPTIMIZER, CONTROL METHOD AND PHOTOVOLTAIC SYSTEM

Resumen de: WO2026065823A1

The present disclosure provides an optimizer, a control method, and a related apparatus. The optimizer comprises an optimizer main circuit and a protection circuit, wherein the protection circuit is connected in parallel to an output end of the optimizer main circuit; when an input end of the optimizer main circuit is in an open-circuit state, the protection circuit is in a closed-circuit state; and when the input end of the optimizer main circuit is in a closed-circuit state, the protection circuit is in an open-circuit state. In this way, when the input end of the optimizer is in an open-circuit state, the protection circuit connected in parallel to the output end of the optimizer main circuit is in a closed-circuit state, so that the output end of the optimizer main circuit is short-circuited, thereby reducing the possibility of energy backfeeding, and improving the safety of photovoltaic systems.

SOLAR PANEL ARRAYS SUPPORTED BY NETS FILLED WITH FLOATING ARTICLES

Resumen de: WO2026069315A1

A structure for harnessing solar energy over a water surface comprises at least one photovoltaic panel unit (unit), a plurality of grids flexible in a direction perpendicular to surfaces of the grids, a plurality of floatation items, and at least one tie. Each unit comprises a photovoltaic panel engaged with a photovoltaic support assembly which is not connected to any other support assembly. At least one of the plurality of grids is engaged with the photovoltaic support assembly of the at least one unit. Each floatation item comprises a buoyant material and is encaged by at least two of the plurality of grids and not connected to any photovoltaic support assembly, such that the structure is configured to allow each of the units to independently move relative to all other of the units. The at least one tie is employed to connect the plurality of grids to each other on a plurality of sides of at least one of the plurality of floatation items.

Solar Cell And Photovoltaic Module

Resumen de: AU2025202820A1

The present application provides a solar cell and a photovoltaic module, and relates to the field of solar cell technologies. The solar cell includes: a semiconductor substrate; a tunnel oxide layer, located on at least one surface of the semiconductor substrate; and a doped polysilicon layer, located on a surface of the tunnel oxide layer away from the semiconductor substrate. At least part of a surface of the doped polysilicon layer away from the tunnel oxide layer is provided with silicon-containing protrusion particles. The photovoltaic module provided in the present application includes the solar cell. In the present application, the silicon- containing protrusion particles are formed on at least part of the surface of the doped polysilicon layer away from the tunnel oxide layer, so as to improve a light trapping effect of at least one surface of the solar cell, thereby improving a dual-sided ratio of the solar cell. The present application provides a solar cell and a photovoltaic module, and relates to the field of solar cell technologies. The solar cell includes: a semiconductor substrate; a tunnel oxide layer, located on at least one surface of the semiconductor substrate; and a doped polysilicon layer, located on a surface of the tunnel oxide layer away from the semiconductor substrate. At least part of a surface of the doped polysilicon layer away from the tunnel oxide layer is provided with silicon-containing protrusion particles. The photovoltaic module provided i

SOLAR PANEL SECURING SYSTEM

Resumen de: US20260095119A1

Solar panel fastening system comprising: a pair of upper cables (1) and a pair of lower cables (6), arranged longitudinally and fixed at opposite ends to support posts (2); transverse cables (11) mounted on the upper cables (1) and fastening by means of suspension rods (5) support means (4) of parallel rows (31) of solar panels (3) arranged horizontally, in the transverse direction, below the upper cables. Longitudinally, below the lower cables (6), it comprises braced side arches (7) and oblique braces (8) fixing the sides of the support means (4) of the solar panels (3) with the corresponding side arch (7).

INTEGRATED METAL ROOF ATTACHMENT

Resumen de: US20260092676A1

An apparatus includes a first portion. A through-hole extends in a first direction from a first side of the attachment to a second side of the attachment. The through-hole is configured to receive a first fastener. A second portion includes a first vertical wall having an indentation disposed on an inner surface. A second vertical wall has an aperture extending in a second direction perpendicular to the first direction. The aperture is configured to receive a second fastener. A channel is defined between the first vertical wall and the second vertical wall, the channel being sized to receive a standing seam.

RETAIL ENVIRONMENT MONITORING DEVICE POWERED BY AMBIENT ENERGY

Resumen de: US20260095058A1

A retail environment monitoring device includes an ambient environment sensor; a communications module; a rechargeable battery; a voltage sensor circuit; and an ambient energy harvester. The communications module receives data from the sensor. The battery is connected to the sensor and the communications module. The voltage sensor circuit monitors the charge level of the battery. The ambient energy harvester recharges the battery using ambient energy, such as artificial light.

DISPLAY DEVICE AND METHOD OF MANUFACTURING THE SAME

Resumen de: US20260096305A1

A display device includes a transistor disposed on a substrate, an organic layer disposed on the transistor and defining grooves, a first pixel electrode disposed on the organic layer, electrically connected to the transistor, and including a pixel metal layer and a pixel protective layer, the pixel protective layer including at least one of an oxide and a halide and surrounding the pixel metal layer, and a dummy electrode disposed on the organic layer, spaced apart from the transistor, and including a dummy metal layer and a dummy protective layer, the dummy protective layer including at least one of an oxide and a halide and surrounding the dummy metal layer.

SCREW PILE WITH AN ANTI-TIP PANEL

Resumen de: WO2026073218A1

An anti-tip ground pile for a solar tracking system includes an elongate tube having a central longitudinal axis, one or more blades formed along the tube for engaging with a ground in which the ground pile is implanted, and a stabilizing panel rotatably engaged with the tube such that the panel is continuously rotatable around the entire tube. The stabilizing panel providing support to the tube to help prevent the tube from tipping over in soil in which the tube is implanted.

PEROVSKITE SOLAR ENERGY GENERATION MODULE AND CONSTRUCTION-SHADING DEVICE

Resumen de: US20260095121A1

A perovskite solar energy generation module includes a solar panel frame, at least one solar panel, a first protective panel, a second protective panel, and a sealing structure. The solar panel is disposed on the solar panel frame. The solar panel frame is engaged between the first protective panel and the second protective panel and is surrounded by the sealing structure. A sealed cavity formed between the first protective panel, the second protective panel, and the sealing structure, preventing the solar panel from being easily oxidized due to environment and hence improving the stability. A construction-shading device is further provided, wherein the perovskite solar energy generation module is disposed in an outer frame. The construction-shading device could have different designs to meet different architectural styles and requirements, thereby bringing renewable energy to daily life and promoting the development of green building.

FLEXIBLE ROBOT FOR CLEANING SOLAR PANELS

Resumen de: WO2026069313A1

A system and method for cleaning solar panels using a. robot including one or more degrees of freedom configured to withstand deviations in solar panel field geometry.

SOLAR PHOTOVOLTAIC TRACKING APPARATUS

Resumen de: WO2026065759A1

Disclosed is a solar photovoltaic tracking apparatus. A base frame thereof is fixedly disposed. A first swing frame is pivotally connected to the base frame to swing front-to-back. A second swing frame is mounted on the first swing frame to swing front-to-back along with the first swing frame. The second swing frame is pivotally connected to the first swing frame to swing left-to-right relative to the first swing frame. A solar photovoltaic panel is mounted on the second swing frame. One end of a manual adjustment support rod is connected to the base frame, and the other end thereof is connected to the first swing frame, so as to enable the first swing frame to be fixed at a plurality of different front-to-back inclination angles. One end of an electric telescopic rod is hinged to the first swing frame, and the other end thereof is hinged to the second swing frame, so that the second swing frame is driven to swing left-to-right by means of extension and retraction. An illumination sensor is fixed to the second swing frame, is communicatively connected to the electric telescopic rod via a controller, and is used to control the extension and retraction of the electric telescopic rod. The inclination angle of the solar photovoltaic panel is adjusted by means of a simple structure, so that the solar photovoltaic panel can efficiently utilize sunlight.

PHOTOVOLTAIC CELL MOUNTING ASSEMBLY AND ROOFTOP PHOTOVOLTAIC CELL SYSTEM

Resumen de: WO2026065210A1

The present invention relates to the technical field of solar photovoltaics, and disclosed are a photovoltaic cell mounting assembly and a rooftop photovoltaic cell system. The photovoltaic cell mounting assembly comprises a mounting frame, an adjustment mechanism, and a fixing mechanism, wherein the mounting frame is used for mounting a photovoltaic cell panel, the adjustment mechanism is used for adjusting the angle of the photovoltaic cell panel, and the fixing mechanism is used for fixing the mounting frame onto the rooftop. The rooftop photovoltaic cell system comprises a plurality of photovoltaic cell mounting assemblies, a connecting mechanism, a control system, and an energy management system, wherein the connecting mechanism is used for connecting the plurality of photovoltaic cell mounting assemblies together, the control system is used for adjusting the angle of the photovoltaic cell panel and the state of the connecting mechanism, and the energy management system is used for converting direct current generated by the photovoltaic cell panel into alternating current, storing excess electrical energy, and metering power generation capacity and power consumption. The photovoltaic cell mounting assembly and the rooftop photovoltaic cell system of the present invention have the advantages such as simple mounting, good stability, adjustable angles, good heat dissipation performance, convenient maintenance, and high energy conversion efficiency, and are suitable for vari

ETHYLENE/ALPHA-OLEFIN INTERPOLYMER COMPOSITIONS WITH HIGH GLASS ADHESION

Resumen de: US20260092164A1

A composition comprising the following: a) an ethylene/alpha-olefin/interpolymer;b) a peroxide;c) a “Si-containing compound” selected from the following i) through v): i)where each R is independently selected from a C1-C3 alkyl, and n is from 1 to 16;  ii)where each R is independently methyl or ethyl, and n is from 1 to 18;  iii)where each R is independently methyl or ethyl;  iv) a vinyl oligomeric siloxane; or v) any combination of i) through iv).

SCREW PILE WITH AN ANTI-TIP PANEL

Resumen de: US20260092422A1

An anti-tip ground pile for a solar tracking system includes an elongate tube having a central longitudinal axis, one or more blades formed along the tube for engaging with a ground in which the ground pile is implanted, and a stabilizing panel rotatably engaged with the tube such that the panel is continuously rotatable around the entire tube. The stabilizing panel providing support to the tube to help prevent the tube from tipping over in soil in which the tube is implanted.

FASTENING CLIP

Resumen de: WO2026065048A1

The present invention relates to a clip (100), for holding two flat elements (200, 400) joined together at their main face,the clip (100) comprising, an upper wall (20) and two opposite side walls (40), the side walls (40) being linked at one end by the upper wall (20) and linked at the opposite end by holding means,the two side walls (40) each being provided with a groove (50) having an end that opens into a face referred to as the "front face", the grooves (50) being configured to insert the clip by its front face onto the two joined flat elements and each being delimited on the side walls (40) by a contour having an upper segment (52) and a lower segment (54) opposite the upper segment, wherein the clip further comprises two bearing lateral flanges (60) that extend outwardly at the level of the upper segment (52) or the lower segment (54); the upper wall (20) comprises a claw (30) configured to apply pressure to the two flat elements (200, 400) when they are inserted in to grooves (50); wherein the claw (30) and the bearing lateral flanges (60) are of the different sides of the grooves (50).

GENERATION LOAD CONTROL

Resumen de: US20260091364A1

This invention relates to a device for controlling at least one of a plurality of electrical loads that are being supplied by at least one renewable energy generator and/or an electrical mains supply. The device comprises an energy sensor for measuring an energy parameter, wherein the energy parameter equates to a value representative of the amount of energy output by the energy sensor, the energy parameter of the energy sensor being directly proportional to the output of the at least one renewable energy generator; a controller means for determining the amount of electrical loads that can be connected or disconnected on the basis of the measured energy parameter; a switching device for connecting and disconnecting the at least one electrical load based on an output of the controller means; and wherein as the energy parameter varies the output of the controller means varies to connect and disconnect electrical loads.

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

Resumen de: US20260096245A1

The present disclosure relates to a device for converting photonic energy to electrical energy. The device comprises one or more photonic collectors configured to collect photonic energy; one or more mirrors configured to concentrate the collected photonic energy; one or more gain mediums configured to receive, on one or more absorption faces, the concentrated photonic energy; and a photoelectric material configured to receive the photonic energy from the one or more gain mediums and convert the photonic energy into electrical energy, wherein the one or more gain mediums comprise a crystalline lattice structure selected from the group consisting of: Ti3+:Al2O3, Nd:YAG, Yb3+:YAG, and Ce:YAG.

DYNAMIC PASSIVATOR FOR THERMALLY STABLE PEROVSKITES AND ASSOCIATED PEROVSKITE SOLAR CELL

Nº publicación: US20260096275A1 02/04/2026

Solicitante:

UNIV CITY HONG KONG [HK]
City University of Hong Kong

Resumen de: US20260096275A1

The present invention focuses on advancing perovskite solar cells (PSCs) by improving the management of ionic defects within the perovskite photoactive layer during both fabrication and operation. Traditional perovskite passivators tend to remain fixed on the surface after deposition, but perovskites are sensitive to environmental conditions that can alter their structure and create new defects. As a result, conventional passivators are often ineffective in addressing these changes. This innovation incorporates thiocarbamate bonds into the passivating molecules, allowing them to dissociate under high temperatures and release additional passivators to passivate newly formed defects.