Energía solar fotovoltaica

APPARATUS AND METHODS FOR EFFICIENT CONVERSION OF HEAT TO ELECTRICITY VIA EMISSION OF CHARACTERISTIC RADIATION

Resumen de: US2024162848A1

An apparatus for generating electricity via thermophotovoltaic (TPV) energy conversion is described. High efficiency is obtained by introducing a material into a combustion chamber that emits bright near-monochromatic visible light upon heating. This light is then directed to fall on an array of photovoltaic (PV) cells which convert the light to electricity. Heat and infrared radiation that is not absorbed by the PV cells is returned to the combustion chamber to further improve conversion efficiency.

Sun-Tracking Solar Power Generating Apparatus and the Solar Panel Thereof

Resumen de: US2024162851A1

A sun-tracking solar power generating apparatus includes an upright post (10), a frame (20) located above the upright post, a pivot device (30) pivotally mounted between a top of the upright post and a bottom of the frame, an inclination adjusting device (40) mounted between the upright post and the frame, multiple solar panels (50) mounted on the frame, and a temperature adjustment device (60) mounted on the bottom of the frame. Each of the solar panels includes a self-cleaning reflective layer (53) disposed at an outer face thereof. The self-cleaning reflective layer is made of Teflon material.

MOUNTING SYSTEM FOR PHOTOVOLTAIC MODULES AND COMPONENTS OF A MOUNTING SYSTEM FOR PHOTOVOLTAIC MODULES FOR IMPROVING INSTALLATION

Resumen de: US2024162849A1

A connection element for bottom profile rails of a mounting system for photovoltaic modules, includes a base body (12) realized as a U-profile rail and having two parallel side legs (13) and a connection section (14), wherein both side legs (13) have a projection (16) on a free end (15) facing away from the connection section (14), the projection (16) being realized with the base body (12), wherein, in the mounted state, the side legs (13) are guided in channel sections (26) of the bottom profile rail (05) in such a manner that a wall of the channel sections (26) runs above the free ends (15) of the side legs (13), wherein the projection (16) is realized in such a manner that it does not project at the top beyond the wall of the channel sections (26) in the mounted state.

DEVICE FOR GENERATING ELECTRICITY

Resumen de: US2024162850A1

The present disclosure provides a device for generating electricity. The device includes first and third panels that are each at least partially transmissive for visible light and are spaced apart from each other. The first panel defines a light receiving surface. The device further includes first and second photovoltaic elements. The first photovoltaic element is arranged in a first orientation with respect to the light receiving surface and the second photovoltaic element being arranged in a second orientation that is different to both the orientation of the first photovoltaic element and the orientation of the light receiving surface. The first photovoltaic element and the second photovoltaic element are located within a projection of the circumference of the first panel in a direction along a surface normal of the first panel.

SOLAR ENERGY SYSTEMS AND DEVICES

Resumen de: US2024162741A1

A system includes an energy collection device adapted to collect energy from a renewable energy source, an energy distribution device separate from and not connected to the energy collection device, the energy distribution device adapted to distribute energy to a third device, and a portable energy storage device. The portable energy storage is adapted to connect to the energy collection device, receive energy from the energy collection device, store the energy, disconnect from the energy collection device, connect to the energy distribution device, provide the energy to the energy distribution device, and disconnect from the energy distribution device.

PHOTOVOLTAIC RAPID SHUTDOWN AND ARC SENSING SYSTEM

Resumen de: US2024162700A1

The present disclosure provides a system, apparatus and method for providing rapid shutdown for photovoltaic power systems and provides a system, apparatus and method for providing arc sensing for photovoltaic power systems. An AC current can be put on the DC bus to control PV panel shutdown. Local mean decomposition can be used to sense arcing on the DC bus.

JUNCTION BOX WITH DRILL ZONE INTERIOR TO SEALANT

Resumen de: US2024162698A1

A junction box includes an enclosable housing that includes a bottom with a bottom interior surface and a bottom exterior surface. The housing is configured to mount to a roof of a structure with a slope. The junction box includes a central area of the bottom configured for penetrations into the roof. The junction box includes a sealant on the bottom exterior surface. The sealant surrounds the central area of the bottom at least along an upper portion and side portions of the central area. The upper portion is oriented toward an upper side of the bottom with respect to the slope of the roof. The junction box includes a plurality of anchor openings in the bottom located between the central area and the sealant. Each anchor opening is configured for an anchor. Securing an anchor through an anchor opening contributes to securing the housing to the roof.

PHOTOVOLTAIC DEVICE WITH PASSIVATED CONTACT AND CORRESPONDING METHOD OF MANUFACTURE

Resumen de: US2024162354A1

Disclosed is a photovoltaic device including: —a silicon substrate; —a first tunnel layer situated upon at least a first side of the silicon substrate; —a first polycrystalline silicon-based capping layer situated upon the first tunnel layer; and—a second tunnel layer situated upon substantially the entirety of the first polycrystalline silicon-based capping layer. The photovoltaic device further includes: —a second polycrystalline silicon-based capping layer situated upon predetermined zones of the second tunnel layer, areas of the second tunnel layer situated outside of the predetermined zones being free of the second polycrystalline silicon-based capping layer; and—a metal contact situated upon at least part of the second polycrystalline silicon-based capping layer.

TRANSPARENT CONDUCTIVE OXIDE FILM AND HETEROJUNCTION SOLAR CELL

Resumen de: US2024162364A1

The present application provides a transparent conductive oxide film and a heterojunction solar cell, which relates to the technical field of solar cells. The transparent conductive oxide film includes a seed layer, a conductive layer and a protection layer. The seed layer includes an indium tin oxide film or a gallium/aluminum co-doped zinc oxide film. The conductive layer is a gallium/aluminum co-doped zinc oxide film. The protection layer is an indium tin oxide film. The thickness of the indium tin oxide film in the transparent conductive oxide film is smaller than the thickness of the gallium/aluminum co-doped zinc oxide film. It can ensure battery efficiency and reduce battery attenuation, while reducing costs.

PHOTOVOLTAIC MODULE WITH SUPPORT FRAME.

Resumen de: WO2024102009A1

A photovoltaic module with a support frame comprising a photovoltaic panel framed in a support frame, characterized in that the support frame (1) is assembled of four trims, including trims C (2) and at least one trim L (3) with substantially congruent profiles, wherein the trims C (2) are mounted on at least two opposite side edges (41) of the photovoltaic panel (4) and the trim L (3) is mounted on at least the bottom edge (43) of the photovoltaic panel (4), wherein the trim C (2) in the upper part of the profile has a C-shaped channel (21) covering the side edge (41), and the trim L (3) in the upper part of the profile has an L-shaped protrusion (31) supporting the photovoltaic panel (4) below its top surface (44).

PHOTOVOLTAIC CONVERSION DEVICE

Resumen de: WO2024100517A1

Photovoltaic conversion device for photovoltaically producing energy from ambient light, comprising a system of photovoltaic conversion panels (10) on a roof surface (1, 50) of a building. The panels are mounted on mounting rails (20) and the mounting rails (20) are connected to the roof surface with interposing of a number of form-retaining disc bodies (30). The disc bodies each comprise at least one fastening member (33) and a flat flanged edge (35) which is provided with a system of perforations (31). Provided between each disc body (30) and the roof surface (1) is a meltable flap (60) which is adhered to the roof surface (1, 50) and to at least the flanged edge of the disc body. The material of the flap (60) has here passed through the perforations of the flanged edge.

MULTIFUNCTIONAL ROOF COVERING WITH SOLAR ROOF TILES

Resumen de: WO2024100300A1

The invention relates to a multifunctional roof covering (1) for covering a roof of a building, wherein the roof covering (1) has an outer side (2) facing towards the surroundings (U) and an inner side (3) facing towards the interior (I) of the building. Also proposed is a method for covering a roof of a building with at least one solar roof tile (80) and for providing a multifunctional roof covering (1). Additionally proposed is an under-roof construction for the water-repellent sealing of a roof skin enveloping a building on the roof side and for providing at least one attachment unit (50) for mounting at least one solar roof tile (80), and a method for preparing a roof of a building for covering with at least one solar roof tile (80).

PREFABRICATED SOLAR PANEL ROOF SECTION

Resumen de: WO2024100123A1

A prefabricated multi-panel solar roof section (10) including a plurality of supporting joists (11a, 11b, 11c) arranged in parallel, at a predefined c-c distance, and a plurality of solar panels (2) mounted on the joists. Each solar panel includes at least two solar cell arrays (51) sandwiched between two sheets of glass (52a, 52b), and each solar cell array is provided with a separate electrical interface (53). With a design according to the invention, with more than one solar cell array per panel, each solar panel can be made larger without requiring a different electrical interface. Instead, each panel will simply have one electrical interface for each solar cell array.

SOLAR PANEL PROVIDED WITH A DEVICE FOR ASSISTING WITH THE INSTALLATION OF SAME ON THE ROOF OF A BUILDING

Resumen de: WO2024099944A1

The invention relates to a solar panel (10) provided with an installation assistance device (12), the solar panel (10) being intended to be fastened to at least one fastening rail (16) which extends across a slope of a roof (14), the installation assistance device (12) comprising a support guide (40a, 40b) which comprises a base (42) suitable for being mounted on the solar panel (10), and a support arm (44) designed to be supported by the fastening rail (16) of the solar panel (10), the support guide (40a, 40b) being designed to support the solar panel (10) and to prevent the solar panel (10) from sliding down the slope of the roof (14), and to allow the assembly formed by the solar panel (10) and the installation assistance device (12) to slide on the fastening rail (16).

PHOTOVOLTAIC DEVICE AND METHOD FOR MANUFACTURING THE SAME

Resumen de: WO2024100249A1

The present invention relates to interdigitated back contact (IBC) photovoltaic device (1) having first-type charge collecting structures (IS1) and second-type charge collecting structures (IS2) comprising a first-type doped structured semiconducting layer consisting in a plurality of n- or p-doped portions (6') and a second-type doped semiconducting layer (6''), of the other doped-type of said first-type doped layer (6'). On the doped semiconducting layer (6), a continuous, electrically conductive, multifunctional protection layer (8) is arranged, to protect said semiconducting layer (6), and having a highest metal ion diffusion coefficient D1, that is, at the same temperature, lower than the lowest metal ion diffusion coefficient D2, so that the multifunctional protection layer (8) is less vulnerable to physical and chemical degradation than the to be protected semiconducting layer (6). On said multifunctional protection layer (8), a structured charge collecting layer stack (100) is arranged which vertical trenches (20) to separate electrically the first-type charge collecting structures (IS1) and the second-type charge collecting structures (IS2). This layer stack (100) comprises at least one conductive layer (10, 12). The invention is also achieved by a photovoltaic system comprising at least two interdigitated back contact (IBC) photovoltaic devices (1), and also by a method to realize the interdigitated back contact (IBC) photovoltaic devices (1).

METHOD FOR PRODUCING A SOLAR CELL

Resumen de: WO2024099521A1

The invention relates to a method for producing a solar cell comprising a self-organizing monolayer (61), having the following steps: a) preconditioning a solar cell precursor (60) in a preconditioning zone, and b) coating the preconditioned solar cell precursor (60) with the self-organizing monolayer (61) in a coating zone (33), wherein the solar cell precursor (60) is transported through the preconditioning zone and the coating zone (33) one after the other by means of a horizontal transport system while at least partly contacting said transport system on one face, thereby being preconditioned in the preconditioning zone and then coated in the coating zone (33) on one face.

A METHOD FOR DETERMINING INSTALLATION CONSTRAINTS FOR THE INSTALLATION OF PHOTOVOLTAIC PANELS ON A ROOF OF A BUILDING

Resumen de: WO2024100152A1

The invention relates to a method for determining installation constraints for the installation of photovoltaic panels on a roof (R) of a building, the method comprising: - a phase of building a training database (DB) associating an image seen from the sky of an area comprising, called building image (IMB), with a roof mask (MR) for each building of the building image (IMB) and a roof category for each building of the building image (IMB), and - a phase of training a detection and classification model on the basis of the training database (DB) so as to obtain a trained model configured for determining a roof mask (MR) and a roof category for each building imaged on an input image (IM).

PV ROLL AND METHOD OF MANUFACTURING A PV ROLL

Resumen de: WO2024099830A1

A method for producing a photovoltaic label (1) is described. The method comprises: providing a sub-stack (3) including a first lamination foil (7), a second lamination foil (9) and a solar cell arrangement (11) comprising multiple wafer-based solar cells (13), the solar cell arrangement (11) being interposed between the first and second lamination foils (7, 9), providing an elongate flexible carrier sheet (5) having a length of at least 2 m, forming an overall-stack (15) by attaching the sub-stack (3) to the carrier sheet (5), and bending the overall-stack (15) into a roll configuration (29).

BACK-CONTACT SOLAR CELL WITH ALUMINIUM METALLISATION AND MANUFACTURING METHOD

Resumen de: WO2024099651A1

The invention relates to a back-contact solar cell (10) and to a method for manufacturing a back-contact solar cell (10).

ANTIREFLECTIVE STRUCTURES FOR COVER GLASSES IN SINGLE OR MULTIJUNCTION SOLAR CELLS

Resumen de: US2024162361A1

A cover glass for use in connection with a multijunction solar cell, and its method of fabrication, the solar cell including an upper and a lower solar subcell, each having an emitter layer and a base layer and forming a photoelectric junction; the cover glass being disposed above the upper solar subcell for transmitting light in the spectral range of a wavelength of 5 to 50 nm which represents unused and undesired heat energy and thereby providing thermodynamic radiative cooling of the solar cell when deployed in space outside the atmosphere.

Solar cell structure

Resumen de: US2024162363A1

A solar cell structure includes a first surface on a top, the first surface including, from top to bottom, a power conversion efficiency increase layer, a glass layer, a first sealing layer, a photovoltaic effect junction, a second sealing layer, and a back layer; a second surface on a bottom, and a peripheral surface formed around the first surface and the second surface. The power conversion efficiency increase layer includes a transparent material and a plurality of conducting carbon materials mixed with a plurality of fluorescent materials in the transparent material. The fluorescent materials are nanometer scales.

SOLAR PANEL

Resumen de: US2024162358A1

Provided is a solar panel. The solar panel includes a frame having an accommodation opening, a front plate located at one of two opposite sides of the frame, a back plate located at another one of the two opposite sides of the frame, and a cell. The accommodation opening is enclosed by the front plate, the back plate, and the frame to form an enclosed space, and the cell is disposed in the enclosed space.

BACKSHEET OF SOLAR CELL MODULE AND SOLAR CELL MODULE INCLUDING THEREOF

Resumen de: US2024162359A1

A backsheet of a solar cell module including a substrate, a first protection layer, and a second protection layer is provided. The substrate includes a first surface and a second surface opposite to each other. The first protection layer is disposed on the first surface of the substrate. The second protection layer is disposed on the second surface of the substrate, wherein the first protection layer and the second protection layer include a silicone layer. At least one of the first protection layer and the second protection layer includes diffusion particles, wherein the diffusion particles include zinc oxide, titanium dioxide modified with silicon dioxide, or a combination thereof. A thickness of the first protection layer and a thickness of the second protection layer are respectively 10 μm to 30 μm. A solar cell module including the backsheet is also provided.

BACKSHEET STACK FOR A PHOTOVOLTAIC MODULE, AND A METHOD FOR THE PRODUCTION THEREOF

Resumen de: US2024162360A1

A backsheet stack for a photovoltaic module is disclosed. The photovoltaic module includes a laminate with embedded solar cells. The backsheet stack includes: an outer protective layer, an inner adhesion layer, at least one barrier layer, and at least one reinforcing layer. The outer protective layer is configured to provide protection from ultra-violet radiation. The inner adhesion layer is configured to provide adhesion to a laminate with embedded solar cells. The at least one barrier layer is formed between the outer protective layer and the inner adhesion layer and forms a sealing layer to moisture penetration. The at least one reinforcement layer is formed between the outer protective layer and the inner adhesion layer and provides mechanical stability for the backsheet stack.

SOLAR PANEL TRANSMITTER PAIRING PROCESS

Nº publicación: WO2024103001A1 16/05/2024

Solicitante:

TIGO ENERGY INC [US]
TIGO ENERGY, INC

Resumen de: WO2024103001A1

A system includes a modulator configured to generate a communication signal whose modulation represents coded information to be transmitted to a local management unit connected to a photovoltaic module. A local management unit is configured to receive a communication signal whose modulation represents coded information from an inverter or a transmitter. The local management unit is configured to receive a unique pairing sequence; pair to a first transmitter or inverter; and receive communications from the first transmitter or inverter. The local management unit is configured to ignore communications from a second transmitter or inverter that is not paired to the local management unit.