Energía solar fotovoltaica

Pièce de maintien d’un panneau sur une structure de forme allongée

Resumen de: FR3154466A1

L’invention concerne une pièce de maintien (100) qui comprend selon une direction principale allant d’une face inférieure vers une face supérieure de ladite pièce de maintien (100) : - une base (200) qui s’étend entre une première face terminale et une deuxième face terminale; - des moyens de liaison ; - une section d’attache (400) liée, en liaison fixe, à la base (200) avec les moyens de liaison (300), la section d’attache (400) comprend un profilé qui s’étend entre les deux faces terminales, la section d’attache (400) définissant un logement d’encliquetage (401), configuré pour permettre l’insertion puis l’encliquetage d’un clip d’ancrage dans ledit logement ; la pièce de maintien (100) comprend des moyens de sanglage configurés pour maintenir la base (200), par la face inférieure, solidaire de la structure. Figure 7

Aérostat destiné à réaliser des missions de transport et/ou d’observation sur une planète à atmosphère

Resumen de: FR3154380A1

A érostat destiné à réaliser des missions de transport et/ou d’observation sur une planète à atmosphère La présente invention se rapporte à un aérostat (1) destiné à réaliser des missions de transport et/ou d’observation sur une planète à atmosphère, l’aérostat comprenant : un corps gonflable (2) conçu pour être pressurisé par un gaz plus léger que l’atmosphère, une charge utile (3) configurée pour embarquer au moins un instrument scientifique, un générateur d’énergie solaire (7) agencé entre le corps gonflable (2) et la charge utile (3). Figure pour l’abrégé : Fig. 1.

Structure latérale pour fixation de panneaux sur une structure porteuse

Resumen de: FR3154562A1

Structure latérale (10) pour une ossature (3) pour panneaux comprenant un profilé de support (100) comprenant deux premières plages d’appui (107) destinées à être fixées sur la structure porteuse (2) et à partir desquelles s’élève pour chacune une paroi (110) qui intègrent chacune des ailes de réception (1111, 1112) reliées entre elles de sorte à former une partie mâle (111), un profilé de fixation (200), comprenant une âme (205) à partir de laquelle s’étend au moins une aile de maintien (202), et des ailes de serrage (2061, 2062) en regard l’une de l’autre, le profilé de fixation étant maintenu inséré sur la partie de réception, les ailes de réception de réception étant prises en sandwich entre les ailes de serrage. Figure pour l’abrégé : Fig.8.

Procédé de commande d’un dispositif d’occultation et dispositif d’occultation associé

Resumen de: FR3154432A1

Procédé de commande d’un dispositif d’occultation et dispositif d’occultation associé La présente invention concerne un procédé de commande (100) d’un dispositif d’occultation comprenant un écran, une barre de charge, un actionneur pour entraîner l’écran et un dispositif d’alimentation comprenant une batterie principale alimentant l’actionneur, une batterie secondaire solidaire de la barre de charge et des éléments de connexion électrique coopérant ensemble lorsque l’écran est dans une configuration rétractée. Le procédé comprend : une mesure (110) du niveau de charge de la batterie principale et de la batterie secondaire,si le niveau de charge de la batterie principale est inférieur à un premier niveau prédéterminé et si le niveau de charge de la batterie principale est supérieur à un deuxième niveau prédéterminé (120), une commande d’actionnement (180) de l’actionneur pour entraîner l’écran en configuration rétractée, etune recharge (180) de la batterie principale à partir de la batterie secondaire. Figure pour l'abrégé : 4

SOLAR CELL MODULE

Resumen de: US2025133861A1

A solar cell module having a design region corresponding to a power-generating cell, wherein the design region consists of one unit region or a repeat of two or more unit regions, the unit region consists of a plurality of partial regions having different average transmittances throughout the entire design region, and the average transmittance throughout the entire design region and the area fraction in the unit region, of each of the partial regions are set to satisfy Formula 1 in which the average transmittance of the design region is not less than an arbitrary constant:Math.1Td=∑m=1n(Ta⁢_⁢m ·Rp⁢_⁢m)≥CFormula⁢1

ELECTRONIC DEVICE

Resumen de: US2025133927A1

An electronic device includes a flexible substrate and a conductive wire structure. The conductive wire structure is disposed on the flexible substrate and includes a first segment, a second segment, a third segment, a fourth segment, a first joint portion, a second joint portion, a third joint portion and a fourth joint portion. A first opening is surrounded by the first segment, the second segment, the first joint portion and the second joint portion. A second opening is surrounded by the third segment, the fourth segment, the third joint portion and the fourth joint portion. Along a first direction, a ratio of a first width sum of widths of the first segment, the second segment, the third segment and the fourth segment to a second width sum of widths of the first joint portion and the third joint portion is in a range from 0.8 to 1.2.

ORGANIC ELECTROLUMINESCENT MATERIALS AND DEVICES

Resumen de: US2025133952A1

A compound having an ancillary ligand L1 having the formula:Formula I is disclosed. The ligand L1 is coordinated to a metal M having an atomic number greater than 40, and two adjacent substituents are optionally joined to form into a ring. Such compound is suitable for use as emitters in organic light emitting devices.

THERMOELECTRIC GENERATOR

Resumen de: US2025133964A1

A thermoelectric generator includes a thermoelectric converter and a thermal coupling structure, configured to thermally couple the thermoelectric converter to a first body at a first temperature and to a second body at a second temperature, lower than the first temperature. The thermoelectric converter includes a support body, having a structural layer and a thermal insulation layer, and a plurality of thermopiles arranged on the thermal insulation layer and thermally coupled to the thermal coupling structure. The thermal insulation layer has a thickness such as to thermally insulate the thermopiles from the structural layer and the support body is continuous and without cavities between the thermopiles and a face of the structural layer opposite to the thermopiles.

DISTRIBUTED CONTROL METHOD BASED UPON THE COLLECTIVE BEHAVIOUR OF A NEW GENERATION PHOTOVOLTAIC FIELD

Resumen de: US2025132569A1

The present invention relates to a distributed, self-stable control method, without direct exchange of information for a network of several power sources, in particular for applications related to an active converter for a photovoltaic module.

PHOTOVOLATIC DETECTION ASSEMBLY

Resumen de: US2025132726A1

The present disclosure discloses a photovoltaic detection assembly disposed at a cable. The photovoltaic detection assembly comprises a magnetic component and a detection component. The present disclosure has a design of a combination of the magnetic component and the detection component. The combination of magnetic component and the detection component could be used as a Hall sensor to detect related current data in the cable. The magnetic component can perform charging by electromagnetic induction by the current in the cable for supplying electric power for the detection component for automatic operation. Thus, the photovoltaic detection assembly can provide real-time monitoring and report detection result, as well as self-power supply for detection operation.

PHOTOVOLTAIC THERMAL MODULE AND SOLAR SYSTEM

Resumen de: US2025132725A1

In an embodiment a photovoltaic-thermal module includes a plurality of solar cells and a planar heat sink, wherein the planar heat sink is based on at least one inorganic material and comprises a plurality of cooling channels, and wherein the planar heat sink extends partially or completely across the solar cells or parts of the solar cells.

MATERIAL/GAUGE TRANSITION CONNECTORS FOR PHOTOVOLTAIC WIRING SYSTEMS

Resumen de: US2025132724A1

In some embodiments, an apparatus for forming an electrical connection comprises a metal material transition connector for a solar array wiring system comprising a first metal portion and a second metal portion. The first metal portion comprises a first metal material and is configured to receive a conductor member comprising the first metal material. The the second metal portion comprises a second metal material and is configured to receive a second conductor member comprising the second metal material. The apparatus further comprises one or more temperature-activated sealing members that circumferentially surround and form a first seal against at least a portion of each of the first conductor member and the second conductor member. The apparatus further comprises an inner mold encapsulating the metal material transition connector and at least partially encapsulating the temperature-activated sealing member(s), and an outer mold encapsulating the inner mold.

Rotatable Angle Bracket for Fixed Tilt Photovoltaic Module Racking Systems

Resumen de: US2025132716A1

A rotatable angle bracket for connecting a fixed tilt photovoltaic module racking system, having: a top surface, the top surface having at least one elongated aperture and a bent tab, the bent tab connected to the top surface at an angle; and a side surface connected to the top surface at an angle, the side surface having at least one elongated angled aperture aligned with at least one aperture forming an axis, a side of the side surface and the axis are aligned parallel; the at least one elongated angled aperture has a first end and a second end and the bent tab extends past the side surface.

SOLAR PANEL SHUT-OFF SYSTEM

Resumen de: US2025132723A1

A solar panel shut-off system for remotely shutting down an electrical connection between a solar panel and a controller or a battery includes a vehicle having a rooftop, a base, and a sidewall extending therebetween. A solar panel is mounted to the rooftop. A battery is electronically coupled to the solar panel. A controller is electronically coupled to the solar panel and the battery to regulates a flow of electricity between the battery and the solar panel. A shutdown switch is electrically coupled to the solar panel and the controller. The shutdown switch selectively opens an electrical circuit between the solar panel and the controller. A remote activation mechanism is electronically coupled to the shutdown switch and triggers the shutdown switch to open the electrical circuit. The remote activation mechanism is generally positioned no more than 5.0 feet above the base of the vehicle.

UNIVERSAL AC/DC CURRENT SENSOR AND ISOLATOR

Resumen de: US2025132089A1

An exemplary embodiment of the present disclosure provides a current sensor comprising a current input, a current output, a first current path, and a second current path parallel to the first current path, a Rogowski coil current sensor, and a controller. The first current path can comprise a first switch. When the first switch is in a closed position, current can flow along the first current path between the current input and the current output. The second current path can comprise a second switch. When the second switch is in a closed position, current can flow along the second current path between the current input and the current output. At least one of the first current path and the second current path can pass through an aperture of the Rogowski coil. The controller can be configured to control the first and second switches.

CHIP PACKAGE

Resumen de: US2025132260A1

A display device comprises a display panel substrate and a glass substrate over said display panel substrate, wherein said display panel substrate comprises multiple contact pads, a display area, a first boundary, a second boundary, a third boundary and a fourth boundary, wherein said display area comprises a first edge, a second edge, a third edge and a fourth edge, wherein said first boundary is parallel to said third boundary and said first and third edges, wherein said second boundary is parallel to said fourth boundary and said second and fourth edges, wherein a first least distance between said first boundary and said first edge, wherein a second least distance between said second boundary and said second edge, a third least distance between said third boundary and said third edge, a fourth distance between said fourth boundary and said fourth edge, and wherein said first, second, third and fourth least distances are smaller than 100 micrometers, and wherein said glass substrate comprising multiple metal conductors through in said glass substrate and multiple metal bumps are between said glass substrate and said display panel substrate, wherein said one of said metal conductors is connected to one of said contact pads through one of said metal bumps.

Verfahren zur Herstellung eines Solarzellenstrangs und Solarzellenstrang

Resumen de: DE102023128708A1

Die Erfindung betrifft ein Verfahren zur Herstellung eines Solarzellenstrangs, wobei zumindest zwei nebeneinander angeordnete Solarzellen elektrisch leitend verbunden werden.Die Erfindung ist dadurch gekennzeichnet, dass die Solarzellen mittels einer Zellverbinderstruktur elektrisch leitend verbunden werden, wobei die Zellverbinderstruktur mit einer Mehrzahl linienartiger, parallel verlaufender Zellverbindungsfinger ausgebildet wird und die Zellverbindungsfinger mittels eines Druckverfahrens auf die zwei Vorderseiten der benachbarten Solarzellen oder die zwei Rückseiten der benachbarten Solarzellen aufgebracht werden

SUNSHADE

Resumen de: WO2025083407A1

A sunshade in the form of an awning comprises a piece of flexible reflective material (2), suspended from a first elongate support (4, 104) and supported by a second elongate support (6, 106). A force-exerting device, such as a weight (8), is attached at least indirectly to the flexible material at a location remote from the first elongate support (4). When the flexible material (2) is displaced by wind, the force-exerting device (8) returns the flexible material to the at-rest position. In a solar panel assembly, the sunshade can reflect sunlight to a solar panel (50). In a method of directing solar energy, the height and/or azimuth of at least one of the supports (4, 104, 6, 106) of the sunshade is adjusted, at different times of day or different times of year.

RIVETLESS CROSSBAR FOR PHOTOVOLTAIC MODULES

Resumen de: WO2025084983A1

A photovoltaic module crossbar (103) is disclosed. The photovoltaic module crossbar includes a central portion, a first angled end portion (103a) extending from the central portion in a first direction and configured to incur deformations from a first component of a photovoltaic module frame that interlock with deformations in the first component of the photovoltaic module frame (101), and a second angled end portion (103a) extending from the central portion in a second direction and configured to incur deformations from a second component of the photovoltaic module frame that interlock with deformations in the second component of the photovoltaic module frame.

A METHOD FOR PRODUCING A COMPACT AND PIN-HOLE FREE PEROVSKITE FILM FOR PHOTOVOLTAICS

Resumen de: WO2025083215A1

The object of the invention is a method for producing a photoactive film comprising a substrate, a photoactive layer with a perovskite material and a functional layer between the substrate and the photoactive layer.

A METHOD FOR POSITIONING OF A PV SURFACE FOR OPTIMIZED SOLAR IRRADIANCE

Resumen de: WO2025083214A1

Disclosed is a method for positioning of a PV surface (10) in which location data and an initial position of the PV surface (10) are provided. Then a radiation data corresponding the location of the PV surface (10) is also provided. The method is characterized in that it comprises the steps of determining the maximum radiation vector (VRmax) of the sun, determining the normal radiation vector (NRmax) of the PV surface (10), determining the adjusted position of the PV surface (10) so that the normal radiation vector (NRmax) of the PV surface (10) is aligned with the maximum radiation vector (VRmax) of the sun, and changing the position of the PV surface (10) to the adjusted position. Another object of this invention is a computer program performing all the steps according to this disclosure.

STRESS-DISTRIBUTING LAYER FOR IMPROVED STRETCHABILITY OF THIN-FILMS ON SOFT SUBSTRATES WITH CORRUGATED SURFACES

Resumen de: WO2025083104A1

A flexible thin-film device (10) comprising - a flexible polymer substrate (5) comprising a corrugated surface structure (8) comprising a pattern of waves, the waves following one or more curved lines and/or one or more straight lines; - one or more functional layers (7) on the corrugated surface structure (8), the one or more functional layers (7) defining an upper surface (9) opposite to the corrugated surface structure (8); and - a stress-distribution layer (6) comprising a flexible polymer layer on the upper surface (9).

CONNECTION MODULE FOR CONNECTING A DISCONNECTOR TO AN INVERTER CONTAINED IN A HOUSING BOX, AND METHOD FOR CONNECTING SAID DISCONNECTOR TO SAID INVERTER

Resumen de: WO2025082635A1

A connection module (10A; 10B; 10C) for connecting a disconnector (20) to an inverter (90) contained in a housing box (100A; 100B; 100C). The connection module comprises: the disconnector, which comprises an actuation shaft (22) which can be operated from the outside of the connection module; electrical input connectors (30), adapted to connect the disconnector to at least one DC electrical line; electrical output connectors (40), adapted to connect the disconnector to the inverter; and a supporting structure (12), which includes a first hole (14) and a plurality of second holes (16).

SYSTEM FOR REDUCING TORSIONAL DEFLECTION IN SOLAR TRACKER TORQUE TUBES

Resumen de: WO2025085053A1

A system for reducing torsional deflection, or a deformation caused by the application of a twisting force, in the torque tubes of solar panel tracking systems is provided. The system may include a first mechanism that may be coupled to the torque tube at the first location. This first mechanism may have a plurality of positional configurations that are determined by a rotational position of the torque tube at the first location. A second mechanism may be coupled to the torque tube at a second location. A linking member may communicate a positional configuration of the first mechanism to the second mechanism. The second mechanism may limit the torsional deflection of the torque tube at the second location based on the rotational position of the torque tube at the first location.

SYSTEM AND METHOD FOR MANUFACTURING SOLAR TORQUE TUBES

Nº publicación: WO2025085503A1 24/04/2025

Solicitante:

FCI HOLDINGS DELAWARE INC [US]
FCI HOLDINGS DELAWARE, INC

Resumen de: WO2025085503A1

Provided herein is a system and method for manufacturing a solar torque tube. The system for manufacturing a solar torque tube includes a laser enclosure, a loading subsystem to load the solar torque tube into the laser enclosure, a position sensing device configured to locate weld seams on the solar torque tube, a rotating component configured to rotate the solar torque tube to a predetermined position based on the location of the weld seam, a clamping assembly configured to hold the solar torque tube in the predetermined position, a laser source that is suitable to support cutting the solar torque tube and, a robot having a laser cutting head configured to form a hole in the tube at a plurality of predetermined locations, connected to the laser source. Further provided is a method for manufacturing solar torque tubes.