Energía solar fotovoltaica

Structure de panneau photovoltaïque comprenant un dispositif de réglage d’orientation du panneau photovoltaïque.

Resumen de: FR3163229A1

L’invention concerne une structure de support de panneau photovoltaïque (1) comprenant un socle (10) définissant un plan de référence (P0) et un bâti mobile (11) accueillant le panneau photovoltaïque (100) et définissant un plan de montage (P1), le bâti mobile étant monté en rotation autour d’un premier axe (A1) sur le socle. La structure comprend également un dispositif de verrouillage agencé entre le bâti mobile et le socle pour stabiliser le bâti mobile par rapport au socle selon au moins deux positions distinctes, lequel comprend un organe stabilisateur (12) comprenant un premier élément de connexion (121) se logeant dans au moins deux seconds éléments de connexion (102) du socle plus ou moins éloignées du premier axe. Un second organe de verrouillage (13) est configuré pour bloquer, dans une position de verrouillage, le premier élément de connexion dans l’un des au moins deux seconds éléments de connexion. Figure pour l’abrégé : Figure 1

PROCEDE DE TRAQUAGE A UN AXE FONCTIONNANT PAR GRAVITE POUR TOUS TYPES DE PANNEAUX PHOTOVOLTAIQUES

Resumen de: FR3163230A1

La présente invention concerne un dispositif à un axe permettant de pister la course du soleil dans sa circonvolution afin d’apporter aux panneaux photovoltaïques (PV) le maximum d’ensoleillement quel que soit le moment de la journée pour améliorer leur rendement de manière significative. L’invention peut être couplée avec la demande de brevet n° FR2310044, qui permet d’adjoindre au PV une BOX en vue de valoriser la chaleur fatale produite en sous-face du PV sous forme d’électricité ou d’autres produits (hydrogène verte) et d’augmenter d’autant plus la productivité du parc solaire. Le procédé est entièrement automatisé, peu mécanisé (pas de moteur mais uniquement une pompe à faible consommation électrique), simple à installer et à maintenir pour les panneaux uniques, en série ou en champ et quelle que soit la conformation du terrain où ils sont implantés. Les traqueurs peuvent mutualiser certains moyens. Un logiciel de pilotage et de contrôle spécifique assure l’optimisation de la capture des rayonnements, l’automatisation et la surveillance à distance du système. L’invention peut permettre la récupération des eaux satellitaires au moyen de gouttières, leur stockage et leur valorisation limitant les effets néfastes pour l’environnement de leur écoulement sur le sol, elle peut également, dans sa version mettant en œuvre la BOX, autoriser le renversement total du bloc photovoltaïque qui expose alors aux intempéries

Ensemble d’alimentation pour dispositif occultant et dispositif occultant comprenant un tel ensemble

Resumen de: FR3163096A1

Ensemble d’alimentation pour dispositif occultant et dispositif occultant comprenant un tel ensemble Ensemble d’alimentation (100) d’un dispositif occultant (1) comprenant une batterie (4) destinée à être reliée à un panneau photovoltaïque (3), un caisson (2) définissant un volume interne (V) et comprenant une paroi avant (6) munie d’une ouverture (10) intégrant des bords longitudinaux (11, 12), reliés entre eux par un premier bord latéral (13) et un deuxième bord latéral (14), l’ensemble d’alimentation comprenant des pièces de support (8, 9), toutes deux destinées à être solidarisées à la paroi avant (6), en étant respectivement insérées puis positionnées par coulissement contre le premier bord latéral et le deuxième bord latéral, les pièces de support incluant chacune un logement (15, 16) apte à permettre le maintien de la batterie, lorsque les pièces de support sont solidarisées à la paroi avant, les logements (15, 16) s’étendent tous deux au sein du volume interne (V). Figure pour l’abrégé : Fig. 3

DISPLAY DEVICE

Resumen de: US2025377782A1

Embodiments of the disclosure relate to a display device. Specifically, there is provided a display device with display quality enhanced by comprising a substrate, a display area where one or more subpixels are disposed, each of the one or more subpixels including a light emitting element positioned on the substrate and at least one transistor for driving the light emitting element, an open area obtained by removing at least a portion of the substrate in an area surrounded by the display area, and a planarization layer positioned to overlap the display area and the open area and positioned on the light emitting element.

PEROVSKITE SOLAR CELL AND TANDEM SOLAR CELL COMPRISING SAME

Resumen de: US2025380562A1

The present invention relates to a perovskite solar cell and a tandem solar cell comprising the same, characterized in that the perovskite solar cell comprises: a substrate; a transparent electrode; a hole transport layer; a perovskite light absorption layer; an electron transport layer; and a metal electrode, wherein the electron transport layer is a graded thin film in which a chemical binding state of elements constituting the electron transport layer gradually changes from the lower portion thereof toward the upper portion thereof.

CONTACTS OF SOLAR CELLS AND OTHER OPTOELECTRONIC DEVICES

Resumen de: US2025380533A1

Contacts for solar cells and other optoelectronic devices are provided. Embodiments described herein take advantage of the surface Fermi level pinning effect to build an electrical field inside of a semiconductor to extract or inject carriers for solar cells, photodetectors, and light-emitting device applications. For example, n-type or p-type two-dimensional (2D) materials can be used in contact with an n-type semiconductor to form a “p-region” so that a p-n junction, or an i-n or n-n+ junction can be constructed. Similarly, n-type or p-type 2D materials can be used in contact with a p-type semiconductor to form an “n-region” so that an n-p junction, or an i-p or p-p+ junction can be constructed. These structures can provide sufficiently high electrical field inside the semiconductor to extract photogenerated carriers in solar cells and photodetectors or inject minority carriers for light-emitting devices.

COMPOSITE ADHESIVE FILM, METHOD FOR PREPARING SAME, AND PHOTOVOLTAIC MODULE

Resumen de: US2025376607A1

A composite adhesive film, a method for preparing the same, and a photovoltaic module are provided. The composite adhesive film includes an adhesive film layer and nanospheres. The nanospheres are distributed on the adhesive film layer, each of the nanospheres includes a polymer shell with pH acid responsiveness and an acid scavenger encapsulated within the polymer shell. The composite adhesive film can adjust a content of acetic acid in the photovoltaic module in time based on a stimulation-release principle of pH acid responsiveness, so that the photovoltaic module can be protected from acetic acid for a long time, and a component efficiency and a component reliability of the photovoltaic module can be improved.

SOLAR PANEL SNOW REMOVAL SYSTEM

Resumen de: US2025379544A1

This disclosure pertains to snow removal systems, specifically systems designed to maintain the functional efficiency of solar panels by preventing the accumulation of snow on solar panels. Solar panels are devices that convert light into electricity and are commonly used in a variety of settings, from residential rooftops to large-scale solar farms. These panels consist of multiple solar cells made from semiconductor materials that exhibit the photovoltaic effect. The efficiency of solar panels is contingent upon their exposure to sunlight, which can be impeded by environmental factors such as the accumulation of snow. The technical background involves mechanisms and methods for preserving the optimal operational state of solar panels in environments subject to snowfall.

WEATHERPROOF MULTIPURPOSE ENCLOSURE WITH INTEGRATED FLASHING

Resumen de: US2025379435A1

Enclosure assemblies with integrating flashing for protecting an accessory on a rooftop. The enclosure assemblies can include a base configured to protect the rooftop from water intrusion and a cover configured to be joined to the raised portion of the base. The base can include a bottom wall and a raised portion extending from the bottom wall. The base can include an uphill portion configured to be positioned beneath at least one full course of roof shingle on the rooftop, without having to cut the roof shingle. The raised portion can be disposed off-center relative to the central transverse axis of the bottom wall, leaving the uphill portion of the bottom wall uncovered.

SOLAR POWER GENERATION SYSTEM

Resumen de: US2025379447A1

A solar power generation system configured by connecting a plurality of power generation systems including a solar panel and a DCDC circuit unit in parallel includes a first control unit that performs maximum power point tracking control for a host power generation system that is one of the power generation systems, and drives the DCDC circuit unit at a duty cycle corresponding to a maximum power point of the solar panel, and a second control unit that, for each of slave power generation systems other than the host power generation system among the power generation systems, derives a variation ratio of an input voltage or an output voltage of the DCDC circuit unit before and after the maximum power point tracking control is performed by the first control unit, and corrects the duty cycle of the DCDC circuit unit based on the variation ratio.

PLATFORM MICROGRID

Resumen de: US2025379425A1

Devices, systems, and methods for platform microgrids can include a platform skid for mounting of microgrid system equipment, and a microgrid operations system. The platform skid illustratively comprises an intermodal container housing a power storage device in communication to provide power to the power delivery system.

Display Panel, Display Device, Input/Output Device, and Data Processing Device

Resumen de: US2025378801A1

A novel display panel that is highly convenient or reliable is provided. The display panel includes a first region and a second region. The second region is provided with a first component, and the second region can be bent with the first component facing outward. The first component includes a first elastic body and a second elastic body. The second elastic body includes an end portion part or the whole of which is covered with the first elastic body. The second elastic body has a higher elastic modulus than the first elastic body.

TERRAIN-FOLLOWING SOLAR TRACKER SYSTEM

Resumen de: US2025379542A1

A drive system includes a ring gear configured to rotate about a first axis; a first articulating joint including a driving yoke, a driven yoke and a spider coupling the driving yoke to the driven yoke, the driving yoke coupled to the drive gear and configured to rotate about the first axis, the driven yoke configured to rotate about a second axis; a first output shaft coupled to the driven yoke and configured to be coupled to a first solar canopy, the first output shaft configured to induce tilt in the first solar canopy; and a pivotable post bracket system coupled to the ring gear, the pivotable post bracket system configured to be coupled to a post and configured to pivot relative to the post.

CONNECTING ELEMENT FOR PHOTOVOLTAIC MODULES AND METHOD FOR MOUNTING PHOTOVOLTAIC MODULES

Resumen de: US2025379541A1

Provided is a connecting element (10) for connecting a two- or three-dimensional structure, in particular a photovoltaic module (1), to a support structure (20). The connecting element (10) comprises an upper portion (11) and a lower portion (12). The border of the upper portion (11) and the lower portion (12) is indicated by a convex run (11, 12). The upper portion (11) provides a support surface (110) for mounting a photovoltaic module (1). The lower portion (12) comprises a concave run (121) for being clamped on a support structure (20) comprising a shape basically complementary to the lower portion (12). Moreover, a set comprising a connecting element (10) and a support structure (20) is provided. In addition, a method for connecting a two- or three-dimensional structure, in particular a photovoltaic module (1), to a support structure (20) and a use of a connecting element (10), of a set, or of a method for mounting a two- or three-dimensional structure, such as a photovoltaic module (1), a brick, a shielding or alike to a rooftop, a facade, a greenhouse, urban fields, sound barriers, a movable/stationary watering agriculture or alike are provided.

Solar-Screen-Kraftwerk und Solar-Tisch-Kraftwerk

Resumen de: DE102024115861A1

Die Erfindung betrifft ein mobiles Solar-Screen-Kraftwerk (1) für den Terrassen- oder Balkongebrauch, umfassend ein Solarmodul (3), einen Batteriespeicher (4), einen Wechselrichter (5), ein Gestell (6) mit einen oder mehreren Beinen (7) und ein Befestigungsgestell (8) für das Solarmodul (3). Wesentlich dabei ist, dass das Befestigungsgestell (8) über ein oder mehrere Gelenke (11) mit dem Gestell (6) verbunden ist, und dass zwischen dem Befestigungsgestell (8) und dem Gestell (6) eine oder mehrere Neigungsmechaniken (10) angeordnet ist, und dass das Solarmodul (3) auf dem Befestigungsgestell (8) durch die Neigungsmechanik (10) und das Gelenk (11) in mehreren Stufen oder stufenlos zwischen einer vertikalen Ausrichtung und einer geneigten Ausrichtung verstellbar ist.

PV-Anlage mit Sammeleinheiten, Verfahren zum Betrieb einer PV-Anlage mit Sammeleinheiten und Sammeleinheit für PV-Stränge

Resumen de: DE102024116342A1

Die Anmeldung betrifft eine PV-Anlage (10) mit einem Wechselrichter (14) und mindestens einer Sammeleinheit (20) für PV-Stränge (12). Die Sammeleinheit (20) weist mehrere Eingänge für PV-Stränge (12) und einen Ausgang auf, wobei die Eingänge in der Sammeleinheit (20) parallel-geschaltet und mit dem Ausgang der Sammeleinheit (20) schaltbar verbunden sind. Der Ausgang der mindestens einen Sammeleinheit (20) ist mit einem zweipoligen DC-Bus (16) schaltbar verbunden, und der DC-Bus (16) ist mit einer Brückenschaltung (18) des Wechselrichters (14) schaltbar verbunden. Anmeldungsgemäß ist der mindestens einen Sammeleinheit (20) eine Fehlerstrom-Schutzschaltung (21) zugeordnet, die zwischen der Parallelschaltung der PV-Stränge (12) und dem DC-Bus (16) angeordnet ist und insbesondere einen Gleichtaktstromsensor (22) und einen Schutzschalter (24) umfasst. Die Fehlerstrom-Schutzschaltung (21) ist dazu eingerichtet, eine Trennung der Verbindung zwischen den PV-Strängen (12) und dem DC-Bus (16) zu bewirken, wenn ein Gleichtaktstrom auf der Verbindung zwischen den PV-Strängen (12) und dem DC-Bus (16) einen vorgebbaren Grenzwert überschreitet.Die PV-Anlage ist dadurch gekennzeichnet, dass die Fehlerstrom-Schutzschaltung (21) dazu eingerichtet ist, die Verbindung zwischen den PV-Strängen (12) und dem DC-Bus (16) auch bei einem an sich unzulässigen Gleichtaktstrom aufrecht zu erhalten und/oder die Trennung der Verbindung zwischen den PV-Strängen (12) und dem DC-Bus (16) zu ve

Lamelle einer Beschattungseinrichtung sowie Beschattungseinrichtung

Resumen de: DE102024116273A1

Die Erfindung betrifft eine Lamelle (1) einer Beschattungseinrichtung, zumindest aufweisend: einen Grundkörper (3), mindestens ein auf dem Grundkörper (3) angeordnetes Photovoltaikmodul (2) zur Stromerzeugung, wobei das mindestens eine Photovoltaikmodul (2) eine Vielzahl von Photovoltaikelementen (2a) aufweist, und mindestens ein Rahmenteil (10a, 10b) an den Längskanten des Grundkörpers (3) zur Befestigung des mindestens einen Photovoltaikmodules (2), wobei das mindestens eine Rahmenteil (10a, 10b) die Längskante zumindest teilweise umfasst, wobei das mindestens eine Photovoltaikmodul (2) zwischen dem mindestens einen Rahmenteil (10a, 10b) und dem Grundkörper (3) eingeklemmt ist. Weiterhin betrifft die Erfindung eine Beschattungseinrichtung mit einer Vielzahl von Lamellen (1).

Lamelle einer Beschattungseinrichtung, Beschattungseinrichtung sowie Verwendung von mindestens einem Photovoltaikmodul zur Stromerzeugung auf einer Lamelle einer Beschattungseinrichtung

Resumen de: DE102024116275A1

Die Erfindung betrifft eine Lamelle (1) einer Beschattungseinrichtung, insbesondere eines Raffstores oder einer Jalousie, zumindest aufweisend: einen Grundkörper (3), mindestens ein auf dem Grundkörper (3) angeordnetes Photovoltaikmodul (2) zur Stromerzeugung, wobei das mindestens eine Photovoltaikmodul (2) eine Vielzahl von Photovoltaikelementen (2a) aufweist, wobei die Photovoltaikelemente (2a) mittels Leitungsbänder (5) als String in Reihe geschaltet sind, wobei die Leitungsbänder (5) benachbarte Photovoltaikelemente (2a) auf gegenüberliegenden Seiten kontaktieren, und die Photovoltaikelemente (2a) als Verbund mit mindestens zwei Schichten ausgebildet sind. Weiter betrifft die Erfindung eine Beschattungseinrichtung mit einer Vielzahl von Lamellen, sowie die Verwendung von mindestens einem Photovoltaikmodul (2) zur Stromerzeugung auf einer Lamelle (1) einer Beschattungseinrichtung.

PRECURSOR, PEROVSKITE LIGHT-ABSORBING LAYER AND PREPARATION METHOD THEREOF, PEROVSKITE BATTERY, AND ELECTRIC DEVICE

Resumen de: US2025380611A1

A precursor, a perovskite light-absorbing layer and preparation method thereof, a perovskite battery, and an electric device are described. The precursor is used for preparing a perovskite light-absorbing layer and includes a perovskite precursor solution and an organic additive added to the perovskite precursor solution, where the organic additive includes one or more functional groups of a carboxyl group, a hydroxyl group, and an amino group. In this application, the organic additive including one or more functional groups of the carboxyl group, the hydroxyl group, and the amino group is added to the perovskite precursor solution, alleviating problems such as a crystallization defect and uneven crystal grain distribution of a perovskite component in the process of the perovskite precursor solution forming perovskite, thereby improving the photoelectric conversion efficiency and stability of the perovskite battery.

ORGANIC TRANSPARENT CONDUCTIVE ELECTRODE FOR REPLACEMENT OF THE ITO ELECTRODE IN INDOOR-COMPATIBLE ORGANIC PHOTOVOLTAIC MODULES

Resumen de: US2025380561A1

The present invention relates to a photovoltaic module comprising, amongst others, a lower electrode consisting of two layers: a first layer comprising a polymer blend of poly(3,4-ethylenedioxythiophene) and sodium poly(styrene-sulfonate) covering the support and having an average thickness between 50 nm and 150 nm and an organic fibrous structure, and a second layer based on an organic polymer or molecule covering said first layer, the lower electrode having a lower surface in contact with the support and an upper surface, and an upper electrode comprising a polymer blend of poly(3,4-ethylenedioxythiophene) and sodium poly(styrene-sulfonate) covering said photovoltaic active layer, said electrode being continuous, having an average thickness of between 100 nm and 400 nm and an organic fibrous structure.

AERODYNAMIC DAMPING STOW FOR SOLAR TRACKER SYSTEMS

Resumen de: US2025379545A1

Stowing flexible tracker systems with the panel surfaces at a negative tilt angle during high wind is enhanced through optimizing around total system damping in order to address aerodynamic instabilities. Current flexible tracker designs function by avoiding the regions in which negative aerodynamic damping primarily occurs. Doing so requires them to stow at maximum absolute tilts to remain stable. However, methods disclosed here select system flexibility, system mechanical damping, and tracker stow angles to achieve a positive aerodynamic damping function and thus enable stable wind stow at lower than maximum tilt angles. The design approach addresses multiple current failure modes within the PV tracker industry while reducing installation cost relative to current designs.

Solar Powered Refrigerator Device

Resumen de: US2025377149A1

A solar powered refrigerator device for cooling food items and producing ice cubes in a remote location includes a refrigerator which has an internal compartment for containing cold food items. A refrigeration unit is integrated into the refrigerator to cool the cold food items in the internal compartment. A door is hingedly disposed on the refrigerator for opening and closing the internal compartment and an ice maker is integrated into the refrigerator to release ice cubes for cooling a beverage. The refrigerator has a peaked housing located on top of the refrigerator and the peaked housing tapers into a peak such that the peaked housing has a triangular shape.

GLOBAL SOLAR RADIATION AMOUNT ESTIMATION DEVICE, GLOBAL SOLAR RADIATION AMOUNT LEARNING DEVICE, GLOBAL SOLAR RADIATION AMOUNT ESTIMATION METHOD, AND GLOBAL SOLAR RADIATION AMOUNT ESTIMATION PROGRAM

Resumen de: US2025377483A1

A global solar radiation amount estimation device includes: a feature amount acquisition unit that acquires power generation actual data including a power generation amount at a power generation point; and an estimation unit that estimates a global solar radiation amount corresponding to the power generation actual data acquired by the feature amount acquisition unit using a learned model that is generated by machine learning, as learning data, a set of the power generation actual data prepared in advance and a corresponding global solar radiation amount of ground observation, receives the power generation actual data as an input, and outputs the global solar radiation amount.

PRE-ASSEMBLED PHOTOVOLTAIC SYSTEMS

Resumen de: US2025379543A1

Devices, apparatus, and systems for pre-assembled photovoltaic systems are provided. In one example, a pre-assembled photovoltaic system includes: a foldable support, a photovoltaic module fixed to the foldable support, and a limiting device connected to the foldable support. The limiting device is configured to control one or more unfolding angles of the foldable support.

DISPLAY PANEL AND DISPLAY PANEL MANUFACTURING METHOD

Nº publicación: EP4661639A1 10/12/2025

Solicitante:

HKC CORP LTD [CN]
HKC CORPORATION LIMITED

Resumen de: EP4661639A1

The present application provides a display panel and a method for fabricating the display panel, which relate to the technical field of display. The display panel includes, from bottom to top: a substrate (10), a drive layer (20), an anode layer (30), a luminescent layer (40), a cathode layer (50), and an encapsulation layer (60). The anode layer (30) includes a plurality of anode units arranged at intervals. A pixel defining layer is arranged around the plurality of anode units. The pixel defining layer includes a plurality of pixel defining units (70), each of the plurality of pixel defining units (70) is arranged between adjacent anode units. A plurality of conductive units (80) are arranged on the plurality of pixel defining unit (70), respectively, and a plurality of eave layers (90) are arranged on the plurality of conductive units (80), respectively. The luminescent layer (40) is covered on the plurality of anode units and the plurality of pixel defining units (70). The cathode layer (50) is covered on the luminescent layer (40). The encapsulation layer (60) is covered on the cathode layer (50), the plurality of conductive units (80), and the plurality of eave layers (90). A lateral side of each of the plurality of pixel defining units (70) is a downwardly concave slope. The technical solution provided by the present application can reduce the formation of voids in the region below of the eave layer during the fabrication of the OLED by photolithography.