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182
results.
Updated on
18/03/2026 [07:03:00]
Absstract of: WO2026053078A1
The invention relates to a novel automated system 10 for high-resolution real-time defect identification in a solar park 12 and a method 300 thereof. A smart vision device 16 includes a receiver module 16.2 which receives power from a solar PV string 20. An Interrogation module 16.3 compares the received power with the power of two neighbouring strings 20. A deployment module 16.4, when received power is lower than the power of two neighbouring strings 20, transmits a deployment signal to trigger the device 16. The device 16 moves to a position of the identified defective string 20. Multiple imaging devices scans imagery of the identified string 20. An image processing module based on machine learning model receives the imagery, analyse and identifies defects associated with the imagery. An alert is transmitted to a maintenance team through an alert module 16.6 to alert the team of the defects.
Absstract of: WO2026055564A1
A power conversion system can include a housing, a frame to support the housing, a solar assembly having a plurality of solar cells, an inverter, and a temperature management system. The inverter can electrically couple with the solar assembly, receive direct current (DC) power from the plurality of solar cells, convert the DC power into alternating current (AC) power, and provide the AC power to a temperature management system of the power conversion system. The temperature management system can monitor an environment of an internal cavity of the housing and provide temperature-controlled air throughout the internal cavity of the housing to control the environment of the internal cavity of the housing.
Absstract of: WO2026055566A1
A computing system can communicatively couple to a first power converter unit and a second power converter unit. The computing system can monitor power conversion performance of the first power converter unit, compare the power conversion performance to predetermined performance metrics, and determine an operational status of the first power converter unit based on the comparison.
Absstract of: WO2026054702A1
We disclose a vertical-axis photovoltaic tracker that cuts wind-induced yaw torque without heavy foundations or locks. Size-bounded carriers rotate about single posts and mount panels on a horizontal hinge with a one-way downward stop, letting each panel feather freely under rear-face wind. A controller holds "rear-to-wind" within a bounded cone, minimizing yaw excitation while feathering sheds load. Multiple carriers are driven by one azimuth motor through a reeved flexible loop with positive, no-slip engagement that is torsionally compliant, sharing gust energy elastically and limiting differential azimuth. Bounding width/area shortens the yaw lever arm. The coordinated package reduces peak moments, damps transients, and supports large aggregate area per motor on single-point anchors while preserving normal sun tracking.
Absstract of: WO2026054698A1
A vertical tracking solar assembly (110) comprises a solar panel (200) rotatably mounted at a horizontal rotation support member (105) and arranged to rotate from a predefined angle orientation of the solar panel (200) due to wind. A drive unit (120) is controlled to adjust a panel azimuth of the solar panel (200) to match a downwind direction when a wind speed of the wind is above a wind tracking threshold. A rotatable support structure (102, 103), extending from ground towards the horizontal rotation axis (HR), is arranged to hold, directly or indirectly, the horizontal rotation support member (105) above the ground. An angle holding and resonance mitigating arrangement (104, 106) is arranged to mitigate resonance of the vertical tracking solar assembly (110).
Absstract of: WO2026054700A1
A wind-responsive photovoltaic tracker system for single-post foundations is disclosed. Each tracker yaw-rotates about a vertical axis and supports modules feathering passively about a horizontal hinge. Directional bracing raises swing-mode frequency, while a pretensioned flexible drive with bounded compliance and wind-aligned yaw control reduces aerodynamic loading, detunes resonances, and dissipates gust energy.
Absstract of: WO2026054701A1
The system features a vertical support with rotatable axis and an upper support for solar panels. A free hinge allows passive tilt, with the hinge axis placed windward so rear winds induce feathering to a low angle. A lower limiter sets a rest tilt. An azimuth drive orients panels within a wind-aligned cone using forecasts and thresholds. Bracing enhances stiffness without restricting tilt. This design maximizes energy production under normal conditions while ensuring stability during high winds.
Absstract of: WO2026054584A1
The present invention provides a water temperature control system that uses deep seawater to control the temperature of an inner space provided by a seawater tank. The water temperature control system comprises: a sensing unit for monitoring environmental conditions of the inner space; a seawater transfer line of which an end part is disposed at a location to which the deep seawater is supplied; a pump that provides a suction force to the seawater transfer line and draws the deep seawater up into the inner space by using the downward pressure formed by the seawater; and a control unit for controlling the pump, wherein the control unit can control the output of the pump on the basis of the environmental conditions monitored by the sensing unit.
Absstract of: WO2026054181A1
The present invention relates to a photovoltaic power generation system and a photovoltaic power generation method capable of detecting a power generation abnormality and diagnosing a cause thereof, wherein an artificial intelligence model is constructed by collecting MPPT results of MPPT units and performing artificial intelligence learning using MPPT results of the MPPT units excluding an MPPT result of a specific MPPT unit, and by comparing a pattern of an MPPT result estimated by the artificial intelligence model and a pattern of an actual MPPT result, an MPPT unit in which an abnormality in MPPT performance has occurred is detected early and a cause of the abnormality is diagnosed.
Absstract of: WO2026055651A1
A device for securing one or more wires in a solar array includes a clip member comprised of a first portion having a first flange and a post holding portion having an aperture, and an elongate post member comprised of a body having one or more extension. The aperture is sized and configured to receive the post member, and at least one of the one or more extension is configured to secure one or more wires. A method for securing one or more wires in a solar array includes providing the device, inserting the post member into the aperture, locating wires beneath adjacent solar modules, inserting the extension between the solar modules, hooking the wires with the extension, retracting the post member until the wires contact the bottom of the solar modules, inserting the clip member between the solar modules, and bending the post member over the post holding portion.
Absstract of: WO2026055164A1
In a typical large-scale solar system, thousands of solar modules are wired together, with thousands of connector connections performed manually by on-site installers. Such a process is time-consuming and subject to improper or loose connections for some modules. Described hereinafter are system and method embodiments of automatic module DC wiring to improve the installation quality, efficiency, and consistency for large-scale solar systems. A controller receives ambient images captured by a camera to identify and locate module connectors and operates a robotic arm to perform connector connection based on the identified and located connectors and also wiring schemes received from a server regarding the modules in the solar system. The robotic arm may also be controlled for connection verification to ensure the solar module is correctly wired. Implementation of the presented invention may greatly increase efficiency, consistency, and connection quality for module DC wiring.
Absstract of: WO2026055087A1
An inverter system including a plurality of inverter housings each containing an inverter, each housing being fully fluidly sealed from an environment outside the housing except for one or more air inlets and one or more air outlets, a dehumidification system including a first desiccant dryer including a first desiccant bed, a first dryer inlet fluidly coupled to each air outlet, and a first dryer outlet fluidly coupled to each air inlet, and a pump configured to move air from the air outlets to the first dryer inlet.
Absstract of: WO2026054642A1
The present invention relates to the detection of faults and particularly relates to a system for detecting earth faults in a photovoltaic system (PVS). The method carried out by the system comprises: referencing the PVS to earth; balancing the potential difference between (+) and (-) against earth; detecting earth fault current; limiting the fault current to values that do not affect the continuity of the electricity generation service; identifying the circuit or branch of the PVS with the earth fault; preventing the PVS from disconnecting as a result of the earth fault; and generating an alert signal to report or inform of the existence of an earth fault.
Absstract of: WO2026054389A1
Provided are a method for generating an artificial intelligence model for predicting solar-energy generated power, wherein generated power is further effectively predicted through effective machine learning, a solar energy-generated power prediction system using the artificial intelligence model, and a solar energy generation device failure system using the artificial intelligence model. The method for generating an artificial intelligence model for predicting solar-energy generated power comprises the steps of: collecting, by using a GPS module, a set of measurement times based on GPS time, a set of actual measurement data of a solar power plant, and a set of environmental data of an installation area of the solar power plant; generating a set of prediction data by using a physical model by configuring an equivalent physical model for calculating generated power of the solar power plant; comparing values of all data included in the set of prediction data and the set of actual measurement data for each measurement time, and then generating a reduced training data set only with a pair of prediction data and actual measurement data having the magnitude of a relative error less than or equal to a reference value, and environmental data having a measurement time coinciding with the pair; and generating a trained artificial intelligence model for predicting the amount of generated power of the solar power plant on the basis of environmental variables including the solar radiation
Absstract of: WO2026054266A1
A solar module system according to one embodiment of the present invention comprises: a main frame unit on which a solar panel is seated and which can rotate about a longitudinal central axis; a support frame unit which is provided under the main frame unit and which supports the main frame unit from the ground; a plurality of angle adjustment units which are provided on the support frame unit and which adjust a rotation angle about the longitudinal center of the main frame unit; a power unit which is formed in the angle adjustment unit positioned at one end in the longitudinal direction, so as to provide power to the angle adjustment unit, and which includes a driving member for generating power and a power transmission member for receiving the power from the driving member and transmitting the power to the angle adjustment unit by means of rotation; and a limiter unit connected to the power transmission member so as to control the rotation of the power transmission member, thereby controlling the rotation angle of the angle adjustment unit.
Absstract of: WO2026053784A1
The present invention provides: a method for manufacturing a solar cell, with which it is possible to improve durability and conversion efficiency; a method for manufacturing a solar cell module; a solar cell; and a solar cell module. A method for manufacturing a solar cell 10 includes: a step for forming an electron transport layer 3 on a first electrode 2; a step for forming a light absorption layer 4 of a perovskite compound on the electron transport layer 3; a step for forming a hole transport layer 5 on the light absorption layer 4; and a step for forming a second electrode 6 on the hole transport layer 5. The step for forming the hole transport layer 5 and/or the step for forming the electron transport layer 3 includes a buffer layer formation step for forming a buffer layer 31, 51 between the hole transport layer 5 and the light absorption layer 4 and/or between the electron transport layer 3 and the light absorption layer 4. In the buffer layer formation step, a solution which contains a polyamino acid that is obtained by polymerizing an amino acid having a charged side chain of a reactive functional group is added.
Absstract of: WO2026053617A1
This solar cell system (1) comprises: a solar cell module (10) having a power generation element (100) provided between two substrates (11, 12); a first frame (6) that supports one side of the solar cell module (10); a second frame (7) that supports the other side of the solar cell module (10); and a first rail (8) having conductivity and provided inside the first frame (6). The solar cell module (10) comprises a first terminal plate (19) connected to wiring (21) of one polarity of the solar cell module (10), and an insulating first attachment member (14) attached to an end of one of two substrates (11, 12). The first terminal plate (19) is movable with respect to and electrically connected to the first rail (8), and the first terminal plate (19) is disposed at the center of the first attachment member (14).
Absstract of: WO2026053146A1
A refrigerated shipping container having an integrated sustainable energy generation capability, comprises: a plurality of inner surfaces; a plurality of outer surfaces; a plurality of photovoltaic (PV) solar panel arrays; a plurality of receiving elements mounted to at least a portion of at least one of the outer surfaces, wherein the receiving elements are adapted to accept and secure the PV solar panel arrays to the outer surface; at least one rechargeable battery; a refrigeration unit; a shock-absorbing mechanism located between the receiving elements and the plurality of PV solar panel arrays; and a stowing mechanism mounted to at least one outer surface of the plurality of outer surfaces; and at least one insulation board coupled to at least a portion of at least one of the plurality of inner surfaces.
Absstract of: WO2026051483A1
The present application relates to a solar panel and a photovoltaic device. The solar panel comprises a power generation unit and a wiring assembly, and the wiring assembly comprises a flat conductive connector, an insulating layer, and a protective layer. The flat conductive connector is electrically connected to the power generation unit. The thickness of the flat conductive connector is less than the width of the flat conductive connector. The insulating layer covers the surface of the flat conductive connector, and the protective layer covers the surface of the insulating layer, to prevent external substances from entering the interior of the flat conductive connector. Because the thickness of the flat conductive connector is less than the width of the flat conductive connector, the flat conductive connector is not prone to breakage and fixation thereof is facilitated. In addition, this configuration can prevent adhesive from entering the interior of the flat conductive connector, thereby avoiding hardening and increased breakage susceptibility of the flat conductive connector.
Absstract of: WO2026051270A1
The present invention provides a flexible perovskite photovoltaic module, a photovoltaic building material, and a method for manufacturing the photovoltaic module. The method for manufacturing the flexible perovskite photovoltaic module comprises: first manufacturing a rigid substrate having a micro-nano structure on the surface, and manufacturing, by means of a solution process, a flexible substrate having a micro-nano structure on the surface of the rigid substrate; then continuing to manufacture a functional layer on the surface of the flexible substrate; and after the functional layer is manufactured, peeling off an entire flexible perovskite photovoltaic module from the surface of the rigid substrate. The method for manufacturing the flexible perovskite photovoltaic module provides forming the flexible perovskite photovoltaic module comprising the flexible substrate having the micro-nano structure, wherein the micro-nano structure enables the flexible substrate to exhibit adhesion characteristics at the exposed surface, so that the flexible substrate can be attached to building materials such as architectural glass to realize the photovoltaic power generation function of buildings. A basic building material and the flexible perovskite photovoltaic module are independently manufactured and are assembled during use, thereby reducing the quality costs during manufacturing and the maintenance costs during use.
Absstract of: WO2026052150A1
Disclosed in the present invention are a perovskite thin film and a preparation method therefor, and a photoelectric device and a preparation method therefor. The perovskite thin film comprises a perovskite-structure substance and an inorganic metal cyanate, wherein the metal in the inorganic metal cyanate is selected from one or more of an alkali metal, an alkaline earth metal, a transition metal and a rare earth metal. The perovskite thin film of the present invention has a high film-forming quality, and a photoelectric device comprising the perovskite thin film has high efficiency and stability.
Absstract of: WO2026051156A1
Disclosed in the present invention are a grounding rivet for a photovoltaic power station bracket, and a mounting tool. The grounding rivet for a photovoltaic power station bracket comprises a riveting pull rod and a tensioning sleeve; the riveting pull rod comprises a first riveting-press head and a fixing rod portion, a plurality of bumps are provided on the bottom surface of the first riveting-press head, the bumps are used for piercing an insulating layer of a clamped piece to enable the rivet and the clamped piece to be connected and grounded, the fixing rod portion passes through the clamped piece, and an engaging portion is provided on the periphery of the fixing rod portion; the tensioning sleeve is provided with a through hole for the fixing rod portion to pass through, the hole diameter of the through hole is larger than the diameter of the fixing rod portion, the hole diameter of the tensioning sleeve can be reduced by means of the mounting tool, the engaging portion is embedded into the tensioning sleeve for fixation, and the first riveting-press head and an end portion of the tensioning sleeve are respectively located on two sides of the clamped piece to clamp the clamped piece. In the present invention, simply by one step, the rivet can be fixed on the clamped piece, and the rivet can be grounded, so that a conductive grounding effect can be achieved without the need of wiring, the operation steps can be simplified, the grounding effect can be ensured to be effe
Absstract of: US20260074645A1
A photovoltaic screen system is an integrated structure disposed over an opening in a wall of a building. The integrated structure includes a screen that is permeable to light and air, a photovoltaic (PV) element coupled to a portion of the screen, and a frame coupled to the screen and PV element. The frame is adapted to be attached to the building and includes a portion occupying a three-dimensional geometry extending outward from the opening in the wall so that the screen and PV element lie along a perimeter of the three-dimensional geometry.
Absstract of: US20260068850A1
A livestock management system for detecting, tracking, and responding to livestock location and physical parameters, and for determining livestock behavior and physical conditions correlated thereto. The system generally includes a plurality of tags and sensors attached to and implanted in a plurality of livestock, one or more local sensors, a management platform, and a remote computer system. Each tag receives, processes and maintains data regarding the location, activity and physical parameters of a livestock to which it is attached and locally determines the behavior and physical conditions of the livestock. The tags communicate with other nearby tags and sensors locally via dynamic mesh networks and with the management platform and remote computer system via longer range wireless networks. The management platform processes the tag data and produces herd-related data. The remote computer uses the tag data to generate and update livestock behavior and condition models for download to the tags.
Nº publicación: US20260071767A1 12/03/2026
Applicant:
BULAT GEORGE GOKSEL [US]
Bulat George Goksel
Absstract of: US20260071767A1
Integrated Solar-Ventilated Panel System for Complete Commercial Roof Replacement replaces conventional layered roofing with a watertight array of photovoltaic modules and an actively managed air plenum to generate electricity and regulate building thermal loads. The modules form the primary roof surface and may include silicon, Arctic-grade glass-glass, tandem perovskite-silicon, and bifacial variants. Beneath the modules, a plenum cavity communicates with the building interior through a unidirectional airflow membrane. Fans and temperature sensors control airflow through the membrane in cooling and heating modes, exhausting hot air in summer and recirculating solar-heated air in winter. Reflective interior surfaces can increase rear-side irradiance of bifacial modules. The system can be factory-assembled into modular roof units and optionally thermally coupled to electrochemical storage to improve overall energy and HVAC efficiency.
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