Energía solar fotovoltaica

LOWER SUBCELL, TANDEM SOLAR CELL AND METHOD OF PRODUCING A SOLAR CELL

Resumen de: WO2026077510A1

The invention relates to a lower subcell (11) for a tandem solar cell, having - a substrate (1) with a front side (12) and a reverse side (14), - a tunnel oxide layer (2) on the front side (12) of the substrate (1), - a compact poly-Si(n):O layer (7) on a side of the tunnel oxide layer (2) facing away from the substrate (1), and - a porous poly-Si(n):O layer (6) on a side of the compact poly-Si(n):O layer (7) facing away from the tunnel oxide layer (2). The invention further relates to a tandem solar cell having an upper subcell (10) and the lower subcell (11), and to a method of producing a solar cell.

AUTOMATED MECHANICAL LOAD TESTER FOR PV SYSTEMS AND METHODS

Resumen de: US20260104335A1

An apparatus for testing solar panel modules that includes a support frame, a test bed fixedly connected to the support frame and configured to connect with a solar panel module, and a load testing device mounted to the support frame. The load testing device includes a positioning device mounted to the support frame, an actuator hingedly fastened to the positioning device, and an arm having a first end rigidly fastened to the actuator and a second end opposite the first end. The arm extends away from the actuator. A load cell is fastened to the second end of the arm, and a universal joint is fastened to the load cell. A plate is hingedly connected to the universal joint, and a suction cup is rigidly engaged with the plate. A pneumatic system connection is incorporated within the actuator, and a vacuum system connection is incorporated within the suction cup.

SOLAR CELL AND PHOTOVOLTAIC MODULE

Resumen de: US20260107603A1

This application discloses a solar cell and a photovoltaic module. In one example, a solar cell includes a first surface and a second surface opposite to each other, and a side surface connecting the first surface and the second surface. The side surface includes a cut surface, the cut surface including a cut edge adjacent to the first surface and a break edge adjacent to the second surface. A first passivation layer is formed on the cut surface. The first passivation layer includes an aluminum oxide passivation layer. The cut surface includes a first region adjacent to the cut edge and a second region farther away from the cut edge than the first region. A ratio of oxygen to aluminum in at least a part of the first region is greater than a ratio of oxygen to aluminum in at least a part of the second region.

Photovoltaic module and method for producing a photovoltaic module

Resumen de: AU2026202463A1

22561410_1 (GHMatters) P124631.AU.1 Abstract The present invention relates to a photovoltaic module (12), in which highly durable, integrally bonded sealing of the interior (18) of the tube (16) is ensured. The photo- voltaic module (12) is easy and cost-effective to produce and the efficiency of the photovoltaic module (12) in relation to the effective area for energy conversion is not compromised or is only negligibly compromised. The photovoltaic module (12) ac- cording to the invention is very low-maintenance and has a long service life. Further- more, the photovoltaic module (12) can be arranged with respect to a plurality of photovoltaic modules (12) arranged in parallel and can form a solar module formed for example from 20 photovoltaic modules (12). (Fig. 2) Abstract ar b s t r a c t a r 24a ( | 246 Fig 2 ar a r

AUTOMATIC VANE CONTROLLER FOR SOLAR SAIL

Resumen de: WO2026080923A1

Systems and methods described herein include control systems and methods for solar sails. Control systems may include shape memory structures configured to position a solar vane when the shape memory structure changes temperature to a transition temperature. The control system may optionally include a biasing element in order to define the position and/or control of the solar vane during the movement of the vane when the shape memory structure is in the transition temperature.

HIGH-ALTITUDE PLATFORM SYSTEM

Resumen de: WO2026079040A1

This high-altitude platform system comprises a plurality of solar planes, each equipped with a communication platform, a solar cell mounted to at least an upper surface of a plane body, and an electricity storage device that stores electricity converted by the solar cell. The plurality of solar planes fly in a circular path, including a first area in which an electricity generation amount generated by the solar cell exceeds an electricity consumption amount consumed by the solar plane in a reference flight period and a second area in which the electricity generation amount is less than the electricity consumption amount in the reference flight period, such that a state in which a stored electricity amount stored in the electricity storage device is greater than 0 is maintained. In a period in which any one of the plurality of solar planes flies in the first area, another solar plane flies in the second area.

POWER RAIL FOR ELECTRONIC SHELF LABEL

Resumen de: WO2026079782A1

An embodiment can provide a power rail for an electronic shelf label, comprising: a rail body part having a front surface to which an electronic display device is fastened, and having a rear surface fastened to a shelf; a first accommodation groove which is formed in the longitudinal direction of the rail body part and in which an additional device is accommodated; a second accommodation groove positioned below the first accommodation groove, and formed in the longitudinal direction of the rail body part; an electrode part provided in the second accommodation groove so as to supply power or data to the electronic display device; an array part provided in the second accommodation groove so as to fix the electronic display device; a first fastening-latch part formed on the rear surface of the rail body part and fastened to the shelf; and a second fastening-latch part formed on the front surface of the rail body part so that the electronic display device is provided thereon, wherein a portion of the electronic display device is inserted into the second accommodation groove so as to be electrically connected to the electrode part, and is fixed by means of the array part.

Solarmodulmontagehilfe und Solarmodulanordnung sowie Solaranlage und Verfahren

Resumen de: DE102024129671A1

Die Erfindung betrifft eine Solarmodulmontagehilfe zum temporären Fixieren eines Öffnungswinkels eines an einer im Wesentlichen horizontal angeordneten Solarmodulhalterung angeordneten Solarmoduls, eine Solarmodulanordnung, eine Solaranlage, ein Verfahren sowie eine Verwendung der Solarmodulmontagehilfe. Die Solarmodulmontagehilfe ist insbesondere stabförmig ausgestaltet und weist an einem ersten Ende eine erste Befestigungseinrichtung zum temporären Anordnen der Solarmodulmontagehilfe an der Solarmodulhalterung und an einem dem ersten Ende gegenüberliegend angeordneten zweiten Ende eine zweite Befestigungseinrichtung auf. Eine Länge der Solarmodulmontagehilfe ist mittels eines Verstellmittels verstellbar und temporär arretierbar. Die Solarmodulmontagehilfe ist eingerichtet, das Solarmodul in einer Montageposition im Zusammenwirken einer temporären Anordnung der ersten Befestigungseinrichtung an der Solarmodulhalterung, einer zu einem vordefinierten Öffnungswinkel des Solarmoduls gegenüber der Solarmodulhalterung korrespondierenden Längeneinstellung der Solarmodulmontagehilfe und einer temporären Anordnung der zweiten Befestigungseinrichtung an dem Solarmodul zu fixieren, sodass ein auf einer Rückseite des Solarmoduls angeordneter Installationsraum für einen Installateur frei zugänglich ist.

A SOLAR-POWERED MOBILE UNIT FOR TRANSPORTING AND INSTALLING CABLES

Resumen de: WO2026078407A1

This mobile unit (10) for transporting and installing electric cables comprises: a chassis (12) delimiting a roof (14) on top of the mobile unit (10) and an opening (16) on each side of the mobile unit (10), the chassis (12) comprising at least one shaft (120) parallel to the driving direction of the mobile unit (10) and adapted to receive at least one cable drum (18) free to rotate about the shaft (120) for unwinding cable through the openings (16); an electric motor for driving the mobile unit (10); at least four wheels (22) or two tracks, two of the four wheels (22) or one of the two tracks being arranged on opposite sides of the mobile unit (10); and at least one photovoltaic panel (24) mounted on the roof (14) and supplying the electric motor with solar energy for driving.

STANDALONE MOBILE DEVICE CHARGING AND SPEAKER DEVICE

Resumen de: US20260106465A1

A solar-powered table including a base unit and a top section detachably coupled or connected to the base unit. The top section includes one or more solar cell assemblies including one or more solar cells, the one or more solar cells to receive light from a solar light source and convert the light to electrical energy; one or more battery charge controllers coupled to the one or more solar cell assemblies and one or more rechargeable batteries to receive the electrical energy and to transfer the electrical energy to charge the one or more rechargeable batteries; and one or more processors or controllers.

Photovoltaik-Thermie-Modul

Resumen de: DE102024129905A1

Die Erfindung betrifft ein Vorrichtung (10) zum Umwandeln von Solarenergie in elektrische Energie und Wärmeenergie, die Vorrichtung (10) umfassend: einen Grundkörper (12) mit einer zur Sonne ausrichtbaren Oberseite (14), einer zu einem Gebäude (16) ausrichtbaren Unterseite (18) und wenigstens eine zwischen der Oberseite (14) und der Unterseite (18) angeordnete Mantelseite (20); ein die Oberseite (14) bildendes Photovoltaikmodul (24) zum Umwandeln der Solarenergie in elektrische Energie; und ein Wärmetauscher (28) mit einem Fluidraum (44), welcher von einem Wärmefluid (46) durchströmbar ist, wobei der Fluidraum (44) an das Photovoltaikmodul (24) angrenzt.

DEVICE AND METHOD FOR LARGE SCALE HARVESTING OF SOLAR ENERGY THROUGH HYDROGEN PRODUCTION

Resumen de: WO2026080664A1

Large scale harvesting of renewable energy is proposed by using floating devices which use solar, wind, ocean current, and wave energy to produce compressed hydrogen by electrolysis of deep sea water. Natural ocean currents and winds are used to allow the devices to gather energy from over a large area with minimum transportation cost. The present approach uses a combination of well understood technologies in an optimized manner and at scale. Hydrogen produced in this manner would pave the way for carbon free energy economy.

DISTRIBUTED DAMPERS FOR SOLAR TRACKER SYSTEMS

Resumen de: US20260106571A1

A solar tracking system including a plurality of solar tracker rows arranged in parallel in a north-south direction wherein each solar tracker row may include a plurality of support piers, a torque tube extending along the row in the north-south direction rotatably supported on the plurality of support piers, a plurality of solar modules coupled to the torque tube, and a plurality of dampers. A first set of support piers of the plurality of support piers each include one or more dampers of the plurality of dampers, and the first set of piers forming a repeating pattern of support piers along the plurality of support piers in the solar tracker row.

Electronic Tombstone Device

Resumen de: US20260103914A1

An electronic tombstone device is provided. The device is comprised of a multifunctional tombstone device designed to enhance personalization, interactivity, and durability for outdoor applications. The device comprises a body featuring an LED display with anti-glare, scratch-resistant, and oleophobic treatments to support media playback in diverse orientations. Integrated lighting provides aesthetic and functional illumination, including customizable modes such as motion-activated or candlelight effects. The device also incorporates weatherproof speakers for personalized audio playback and motion sensors for triggering interactive features like media displays and lighting. Media uploads are facilitated via a secure, weather-resistant QR code leading to a password-protected webpage. Power options include solar panels with energy storage or alternative wired solutions. Additional features include motion-activated animal deterrents, protected storage compartments for tributes, and integrated vases with drainage systems, ensuring functionality and respect for memorial environments.

PROTECTIVE AND ENERGY-PRODUCING ELEMENT FOR A PLANTATION, PLANTATION ARRANGEMENT AND METHOD FOR FORMING A PLANTATION ARRANGEMENT ON A PLANTATION SITE

Resumen de: WO2026078313A1

The invention relates to a protective and energy-producing element for a plantation, characterized in that it comprises: at least two support posts (20) intended to be secured to the plantation soil, each having at least one portion proximal to the ground with a given orientation with respect to the vertical, the posts having a portion distal to the ground; at least two first longitudinal crossmembers (21) arranged on either side of the at least two posts (20); at least one first photovoltaic panel arranged along the first support plane; at least two second longitudinal crossmembers (22) arranged on either side of the at least two posts (20); and at least one second photovoltaic panel arranged along the second support plane.

CONDUCTIVE, MULTILAYER STACKS FOR USE IN SILICON SOLAR CELLS AND PROCESSES FOR MAKING AND USING THE SAME INCLUDING LASER-BASED PROCESSES

Resumen de: AU2024372721A1

A conductive multilayer stack or a conductive multilayer line useful as a metallization layer in photovoltaics as well as other devices; solar cells having a conductive multilayer stack or line; solar modules having such cells; and methods of forming a conductive multilayer stack or line. The conductive multilayer stack or line having a metal layer including copper (Cu) or coated aluminum; a silver contact layer; and a solderable layer between, and contacting, the metal layer and the silver contact layer.

MANUFACTURING METHOD OF PHOTOVOLTAIC CELL PACKAGING STRUCTURE

Resumen de: US20260107581A1

A manufacturing method of a photovoltaic cell packaging structure, the manufacturing method includes: coating a packaging layer on a side of a first transparent cover or a side of a second transparent cover; baking the packaging layer to connect the packaging layer with the first transparent cover or the second transparent cover; attaching an adhesive layer to the side of the first transparent cover or the side of the second transparent cover; aligning the first transparent cover and the second transparent cover; placing the first transparent cover, the second transparent cover, the packaging layer, and the adhesive layer into a vacuum environment; heating and pressing the first transparent cover and the second transparent cover to connect the adhesive layer with the first transparent cover and the second transparent cover; and heating the packaging layer to connect the packaging layer with the first transparent cover and the second transparent cover.

SOLAR CELL AND PHOTOVOLTAIC MODULE

Resumen de: AU2026202390A1

A solar cell includes a solar cell body, a plurality of fingers, and a plurality of first interconnection structures. At least a part of regions of different first interconnection structures distributed at intervals along a second direction are collinear with a same connection line of a plurality of connection lines. A quantity of connection lines located on the same target surface is N1, a quantity of first interconnection structures intersecting with a target line segment located on the target surface is N2, and N2 < N1. The target line segment is a connection line segment between a midpoint of an edge that has a larger length in two edges of the target surface extending along a first direction and being arranged opposite to each other and a vertex- angle endpoint corresponding to an edge that has a smaller length in the two edges. ar a r

SOLAR CELL AND MANUFACTURING METHOD THEREFOR

Resumen de: AU2025240269A1

A solar cell and a manufacturing method therefor. The solar cell comprises a silicon substrate (10); the silicon substrate (10) comprises a first surface (S1) and a second surface (S2) arranged opposite to each other; the first surface (S1) comprises first regions (S11) and second regions (S12) which are alternately distributed; a tunneling passivation structure is provided on each first region (S11); a passivation structure is provided on each second region (S12); a first electrode (41) electrically connected to the tunneling passivation structure is further provided on the first region (S11); and the width W of the first regions (S11) is greater than the width L of the first electrodes (41).

SYSTEM AND METHOD FOR CREATING OR VALIDATING A CONFIGURATION BASED ON PHYSICAL AND LOGICAL ARTIFACTS

Resumen de: AU2024353397A1

A computing device includes a memory, a processor coupled to the memory, and programming in the memory. Execution of the programming by the processor configures the computing device to: accept as inputs a plurality of known configurations of at least one type of physically modular device that includes associated physical artifacts, train a machine learning model to learn types of configurations corresponding to the at least one type of physically modular device based on the inputted plurality of known configurations of the at least one type of physically modular device and the associated physical artifacts, and create at least one valid configuration of a physically modular device when fed a set of physical artifacts of the physically modular device based on the learned types of configurations of the machine learning model.

Short-Rail Photovoltaic Panel Mounting Bracket and Installation Method

Resumen de: US20260106570A1

The invention discloses a short rail photovoltaic (PV) panel mounting bracket and its installation method, designed for rooftop installation and fixing. It consists of a short rail and a base. The base includes a connecting part compatible with the short rail and fixing parts on both sides, each of which has multiple connection holes. The short rail has a mounting slot and a rectangular frame. The upper portion of the mounting slot is an open groove, which connects to an intermediate clamp used to mount the PV panel. The rectangular frame fits and locks with the connecting part, and there is a screw adjustment structure between the rectangular frame and the connecting part. The base's underside includes a layer of butyl adhesive and release paper. The screw adjustment structure consists of an upper nut, a bolt, and a lower nut, with threaded adjustment holes on the short rail and connecting part compatible with the bolt. Both the upper nut and the lower nut on the screw, as well as the bolt connection, contain fixed adhesive layers. This invention allows the PV panel mounting clamp to be fixed by connecting directly to the short rail, eliminating the need for long rail installation. This reduces costs, and the overall structure is simple and easy to install.

INSTALLATION METHOD FOR SOLAR POWER GENERATION SYSTEM AND SOLAR POWER GENERATION SYSTEM

Resumen de: WO2026079202A1

The present invention pertains to a solar power generation system (1) and a solar power generation system installation method characterized in that the solar power generation system (1) comprises: a first solar power generation system (10) that includes a first power conversion device (13) and a first solar cell string (12) provided with a plurality of first solar cell modules (11); and a second solar power generation system (20) that includes a second power conversion device (23) and a second solar cell string (22) provided with a plurality of second solar cell modules (21), wherein each of the second solar cell modules (21) is installed so as to generate power by only indirect light from sunlight.

ELECTRODE STRUCTURE, CELL AND MODULE

Resumen de: WO2026077433A1

The present disclosure is applicable to the technical field of photovoltaics. Provided are an electrode structure, a cell and a module. The electrode structure comprises: a main grid closest to a first edge of a back-contact cell; pad points spaced apart from the main grid in a first direction; a first connection grid line which comes into electrical contact with the pad points and the main grid; and a second connection grid line having a first end which comes into electrical contact with the pad points and a second end extending in a second direction.

SYSTEMS FOR SUPPORTING A ROOF, E.G. FOR A CARPORT OR A CANOPY, WHEREIN IN PARTICULAR THE ROOF COMPRISES AT LEAST ONE PV PANEL

Resumen de: US20260106569A1

A system for supporting a roof, e.g. for a carport or canopy, said roof comprising one or more PV panels, the system comprising a vertical support frame, wherein the vertical support frame comprises one or more vertical supports, is configured to support the roof; a base frame, wherein the base frame is configured to support the vertical support frame, is configured to be arranged on a foundation-free ground surface, comprises a plurality of horizontal supports, wherein at least one of the horizontal supports is a multifunctional support which comprises concrete; is a structural component; and comprises an internal electricity channel for an electrical base cable configured to be electrically connected to the PV panel.

CLAMP FOR FIXING A PHOTOVOLTAIC MODULE FRAME

Nº publicación: AU2024336355A1 16/04/2026

Solicitante:

HANWHA Q CELLS GMBH

Resumen de: AU2024336355A1

The invention relates to a clamp (100) for fixing a photovoltaic module frame (20), PV module frame, to a substructure (30). The PV module frame (20) comprises a portion (25) that extends parallel to a light incident surface of an installed photovoltaic module, PV. A projection (27) extends within the portion (25). The clamp (100) comprises: a clamping element (110) having at least one notch (111, 112) for receiving the projection (27); and a clamping device (120) designed to exert a clamping force (F) on the frame (20) via the clamping element (110) when said frame is fixed to the substructure (30). The at least one notch (111, 112) is designed such that, when the PV module frame (20) is fixed between the clamping element (110) and the substructure (30), the clamping force (F) is exerted on the protruding portion (25) at at least two pressure points (P1, P2) that are situated on opposite sides of the projection (27).