A method for manufacturing a PV solar cells matrix array (SCMA) of m×n PV solar cells that are interconnected both in parallel and and in series. The solar cells are interconnected by a flexible conductor foil, row by row, wherein each pair of adjacent rows of solar cells are conductively interconnected by a single flexible conductor foil. Hence, the SCMA of m×n PV solar cells are inter connected by n-\ parallel and series connection conductors, that are preferably solder ready by either high temperature solder or by low temperature solder.
A method for manufacturing a shingled PV solar cells matrix array (SSCMA) of mXn PV solar cells that are interconnected both in parallel and and in series. The solar cells are interconnected by one or more layers of, row by row, wherein each pair of adjacent rows of solar cells are conductively interconnected by a one ro more conductive glue layers. Hence, the SSCMA of mXn PV solar cells are inter connected by n-\ parallel and series by connection conductors, that are optionally solder-ready to be soldered by either high temperature solder or by low temperature solder.
H01L 31/18 - Procédés ou appareils spécialement adaptés à la fabrication ou au traitement de ces dispositifs ou de leurs parties constitutives
H01L 21/78 - Fabrication ou traitement de dispositifs consistant en une pluralité de composants à l'état solide ou de circuits intégrés formés dans ou sur un substrat commun avec une division ultérieure du substrat en plusieurs dispositifs individuels
H01L 31/02 - Dispositifs à semi-conducteurs sensibles aux rayons infrarouges, à la lumière, au rayonnement électromagnétique d'ondes plus courtes, ou au rayonnement corpusculaire, et spécialement adaptés, soit comme convertisseurs de l'énergie dudit rayonnement e; Procédés ou appareils spécialement adaptés à la fabrication ou au traitement de ces dispositifs ou de leurs parties constitutives; Leurs détails - Détails
A method for manufacturing a Solar Sub-cells Crisscross matrix Array (SSCA) of solar sub-cells (SSC), wherein each row includes n SSC, and each column includes m SSC, the method includes: placing nXm of SSC onto a narrow sub-cells receptor conveyer belt configured to carry a stream of the SSC; transferring m rows of SSC to a wide array conveyor belt, one row at a time, forming thereon an array of the SSC; placing n busbars or groups of Smart Wire (SW) conductors on each of the n columns of SSC; placing short parallel jumpers between all pairs of neighboring the SSC in each of the m rows; placing wide transverse conductors for parallel connection of the n column and for diodes connection; and soldering the nXm matrix array of SSC with the short parallel jumpers and the wide transverse conductors, to thereby form a soldered SSCA.
A method for manufacturing a PV solar cells matrix array (SCMA) ofmXn PV solar cells that are interconnected both in parallel and and in serise. The solar cells are interconnected by a flexible conductor foil, row by row, wherein each pair of adjacent rows of solar cells are conductively interconnected by a single flexible conductor foil. Hence, the SCMA of mXn PV solar cells are inter connected by n-\ parallel and series connection conductors, that are preferably soler ready by either high temperature solder or by low temperature solder.
A method for manufacturing a PV solar cells matrix array (SCMA) of mXn PV solar cells that are interconnected both in parallel and and in serise. The solar cells are interconnected by a flexible conductor foil, row by row, wherein each pair of adjacent rows of solar cells are conductively interconnected by a single flexible conductor foil. Hence, the SCMA of mXn PV solar cells are inter connected by n-\ parallel and series connection conductors, that are preferably soler ready by either high temperature solder or by low temperature solder.
A solar power generation module is provided for maximizing the power generated from the module and minimizing the power degradation inflicted by light obstructions. The module includes solar cells arranged in a matrix of N columns and M rows. At least one pair of neighboring rows of solar cells is mechanically and electrically interconnected by single wide polymer conductor stripe that extends over at least two adjacent columns of the at least one pair of neighboring rows. All solar cells in each pair of neighboring rows of a mutual string, are electrically interconnected in series by at least one respective thin wire conductor embedded inside the polymer conductor stripe. At least one solar cell in each string of solar cells is electrically interconnected in parallel to one or two solar cells, situated in a mutual row of an adjacent string, by a parallelly-connection conductive means.
A method for manufacturing a Solar Sub-cells Crisscross matrix Array (SSCA) of solar sub-cells (SSC), wherein each row includes n SSC, and each column includes m SSC, the method includes: placing n Xm of SSC onto a narrow sub-cells receptor conveyer belt configured to carry a stream of the SSC; transferring m rows of SSC to a wide array conveyor belt, one row at a time, forming thereon an array of the SSC; placing n busbars or groups of Smart Wire (SW) conductors on each of the n columns of SSC; placing short parallel jumpers between all pairs of neighboring the SSC in each of the m rows; placing wide transverse conductors for parallel connection of the n column and for diodes connection; and soldering the n Xm matrix array of SSC with the short parallel jumpers and the wide transverse conductors, to thereby form a soldered SSCA.
H01L 21/673 - Appareils spécialement adaptés pour la manipulation des dispositifs à semi-conducteurs ou des dispositifs électriques à l'état solide pendant leur fabrication ou leur traitementAppareils spécialement adaptés pour la manipulation des plaquettes pendant la fabrication ou le traitement des dispositifs à semi-conducteurs ou des dispositifs électriques à l'état solide ou de leurs composants utilisant des supports spécialement adaptés
H10F 19/75 - Dispositifs intégrés, ou ensembles de plusieurs dispositifs, comprenant au moins une cellule photovoltaïque couverte par le groupe , p. ex. modules photovoltaïques comportant des diodes de dérivation les diodes de dérivation étant intégrées ou directement associées aux cellules photovoltaïques, p. ex. formées dans ou sur le même substrat
H10F 19/90 - Structures pour la connexion des cellules photovoltaïques, p. ex. interconnexions ou espaceurs isolants
8.
SYSTEM AND METHODS FOR MANUFACTURING A CRISSCROSS MATRIX OF SUB DIVIDED SOLAR CELLS
A method for manufacturing a Solar Sub-cells Crisscross matrix Array (SSCA) of solar sub-cells (SSC), wherein each row includes n SSC, and each column includes m SSC, the method includes: placing n Xm of SSC onto a narrow sub-cells receptor conveyer belt configured to carry a stream of the SSC; transferring m rows of SSC to a wide array conveyor belt, one row at a time, forming thereon an array of the SSC; placing n busbars or groups of Smart Wire (SW) conductors on each of the n columns of SSC; placing short parallel jumpers between all pairs of neighboring the SSC in each of the m rows; placing wide transverse conductors for parallel connection of the n column and for diodes connection; and soldering the n Xm matrix array of SSC with the short parallel jumpers and the wide transverse conductors, to thereby form a soldered SSCA.
H01L 31/05 - Moyens d’interconnexion électrique entre les cellules PV à l’intérieur du module PV, p.ex. connexion en série de cellules PV
H01L 21/673 - Appareils spécialement adaptés pour la manipulation des dispositifs à semi-conducteurs ou des dispositifs électriques à l'état solide pendant leur fabrication ou leur traitementAppareils spécialement adaptés pour la manipulation des plaquettes pendant la fabrication ou le traitement des dispositifs à semi-conducteurs ou des dispositifs électriques à l'état solide ou de leurs composants utilisant des supports spécialement adaptés
H01L 31/0443 - Modules PV ou matrices de cellules PV individuelles comprenant des diodes de dérivation comportant des diodes de dérivation intégrées ou directement associées aux dispositifs, p.ex. diodes de dérivation intégrées ou formées dans ou sur le même substrat que les cellules PV
H01L 31/18 - Procédés ou appareils spécialement adaptés à la fabrication ou au traitement de ces dispositifs ou de leurs parties constitutives
9.
HIGH VOLTAGE PHOTOVOLTAIC SYSTEMS USING MINI/MICRO SOLAR CELLS
A solar high-power generation system configured to provide a predesigned DC voltage. The system includes at least one solar panel having a solar array module. The solar array module includes a matrix of mini or micro PV cells arranged in a crisscross matrix. The matrix of mini or micro PV cells includes at least one string having a plurality of the mini or micro PV cells, electrically connected in series. A string of the mini or micro PV cells defines the output voltage of the solar array module. The output of the at least one solar panel, that is configured to provide a predesigned voltage level, is connected to a receiving electric device. The number of strings of mini or micro PV cells, in each of the solar array modules, may be electrically connected in parallel in order to provide a predesigned the output power of each respective panel.
A solar power generation module for maximizing the power generated from the module and minimizing the power degradation inflicted by light obstructions, wherein the module includes solar cells arranged in a matrix of N columns and M rows. At least one pair of neighboring rows of solar cells is mechanically and electrically interconnected by single wide polymer conductor stripe that extends over at least two adjacent columns of the at least one pair of neighboring rows. All solar cells in each pair of neighboring rows of a mutual string, are electrically interconnected in series by at least one respective thin wire conductor embedded inside the polymer conductor stripe. At least one solar cell in each string of solar cells is electrically interconnected in parallel to one or two solar cells, situated in a mutual row of an adjacent string, by a parallelly-connection conductive means.
A solar power generation module for maximizing the power generated from the module and minimizing the power degradation inflicted by light obstructions, wherein the module includes solar cells arranged in a matrix of N columns and M rows. At least one pair of neighboring rows of solar cells is mechanically and electrically interconnected by single wide polymer conductor stripe that extends over at least two adjacent columns of the at least one pair of neighboring rows. All solar cells in each pair of neighboring rows of a mutual string, are electrically interconnected in series by at least one respective thin wire conductor embedded inside the polymer conductor stripe. At least one solar cell in each string of solar cells is electrically interconnected in parallel to one or two solar cells, situated in a mutual row of an adjacent string, by a parallelly-connection conductive means.
A solar power generation system for providing a predetermined operating power level and predetermined operating voltage level requirement is provided. The system includes at least one solar-array panel. Each of the solar-array panels includes a multiplicity of PV solar sub cells. A preconfigured number of the PV solar sub cells are electrically connected in series to form a serial-unit or each forming an individual serial unit having just one PV solar sub cell. A preconfigured number of the serial units are electrically connected in series to form a string of serial-units. The PV solar sub cells are also connected in parallel to neighboring sub cells to form a crisscross matrix array that facilitates bypassing malfunctioning serial units, thereby improving the performance of the system. A PV solar sub cell is at least 50% smaller in area than a regular PV solar cell.
H02S 40/36 - Composants électriques caractérisés par des moyens d'interconnexions électriques spéciaux entre plusieurs modules PV, p. ex. connexion électrique module à module
H02S 40/32 - Composants électriques comprenant un onduleur CC/CA associé au module PV lui-même, p. ex. module CA
H02S 50/10 - Tests de dispositifs PV, p. ex. de modules PV ou de cellules PV individuelles
H01L 31/05 - Moyens d’interconnexion électrique entre les cellules PV à l’intérieur du module PV, p.ex. connexion en série de cellules PV
13.
Solar array module system for generating electric power
An improved solar power generation system, having at least one solar-array module. The solar cells in a solar-array module are interconnected in a crisscross matrix network configuration. The solar cells are a pre-sorted by the class of tolerance level of output power, such that the solar cells in each of the rows of solar cells are arranged in a steadily ascending (or steadily descending) order of the maximum power values that the solar cells are capable to provide, wherein the maximum power value of a solar cell in a particular row is higher or equal to the maximum power values of the previous (next, for steadily descending order) solar cells in the same row.
H02S 40/36 - Composants électriques caractérisés par des moyens d'interconnexions électriques spéciaux entre plusieurs modules PV, p. ex. connexion électrique module à module
H01L 31/05 - Moyens d’interconnexion électrique entre les cellules PV à l’intérieur du module PV, p.ex. connexion en série de cellules PV
H01L 31/042 - Modules PV ou matrices de cellules PV individuelles
H01L 31/02 - Dispositifs à semi-conducteurs sensibles aux rayons infrarouges, à la lumière, au rayonnement électromagnétique d'ondes plus courtes, ou au rayonnement corpusculaire, et spécialement adaptés, soit comme convertisseurs de l'énergie dudit rayonnement e; Procédés ou appareils spécialement adaptés à la fabrication ou au traitement de ces dispositifs ou de leurs parties constitutives; Leurs détails - Détails
H02M 3/02 - Transformation d'une puissance d'entrée en courant continu en une puissance de sortie en courant continu sans transformation intermédiaire en courant alternatif
15.
SOLAR MODULES HAVING SOLAR SUB CELLS WITH MATRIX CONNECTIONS BETWEEN THE SOLAR SUB CELLS
A solar power generation system for providing a predetermined operating power level and predetermined operating voltage level requirement, the system including at least one solar-array panel, wherein each of the at least one solar-array panels includes a multiplicity of PV solar sub cells, wherein a preconfigured number of the PV solar sub cells are electrically connected in series to form a serial-unit or each individual serial unit having just one PV solar sub cell, and wherein a preconfigured number of the serial units are electrically connected in series to form a string of serial-units. The PV solar sub cells are also connected in parallel to neighboring sub cells to form a crisscross matrix array that facilitates bypassing malfunctioning serial units, thereby improving the performance of the system. A PV solar sub cell is at least 50% smaller in area than a regular PV solar cell.
H02S 40/36 - Composants électriques caractérisés par des moyens d'interconnexions électriques spéciaux entre plusieurs modules PV, p. ex. connexion électrique module à module
H02S 40/32 - Composants électriques comprenant un onduleur CC/CA associé au module PV lui-même, p. ex. module CA
16.
SOLAR MODULES HAVING SOLAR SUB CELLS WITH MATRIX CONNECTIONS BETWEEN THE SOLAR SUB CELLS
A solar power generation system for providing a predetermined operating power level and predetermined operating voltage level requirement, the system including at least one solar-array panel, wherein each of the at least one solar-array panels includes a multiplicity of PV solar sub cells, wherein a preconfigured number of the PV solar sub cells are electrically connected in series to form a serial-unit or each individual serial unit having just one PV solar sub cell, and wherein a preconfigured number of the serial units are electrically connected in series to form a string of serial-units. The PV solar sub cells are also connected in parallel to neighboring sub cells to form a crisscross matrix array that facilitates bypassing malfunctioning serial units, thereby improving the performance of the system. A PV solar sub cell is at least 50% smaller in area than a regular PV solar cell.
H02S 40/32 - Composants électriques comprenant un onduleur CC/CA associé au module PV lui-même, p. ex. module CA
H02S 40/36 - Composants électriques caractérisés par des moyens d'interconnexions électriques spéciaux entre plusieurs modules PV, p. ex. connexion électrique module à module
17.
IMPROVED SOLAR ARRAY MODULE SYSTEM FOR GENERATING ELECTRIC POWER
An improved solar power generation system, having at least one solar-array module. The solar cells in a solar-array module are interconnected in a crisscross matrix network configuration. The solar cells are a pre-sorted by the class of tolerance level of output power, such that the solar cells in each of the rows of solar cells are arranged in a steadily ascending (or steadily descending) order of the maximum power values that the solar cells are capable to provide, wherein the maximum power value of a solar cell in a particular row is higher or equal to the maximum power values of the previous (next, for steadily descending order) solar cells in the same row.
H01L 31/042 - Modules PV ou matrices de cellules PV individuelles
H02S 40/36 - Composants électriques caractérisés par des moyens d'interconnexions électriques spéciaux entre plusieurs modules PV, p. ex. connexion électrique module à module
A solar array module system for generating electric-power, preconfigured to prevent electric blockage of the module when a physical row of solar cells malfunctions. The module includes a matrix of X physical rows and Y columns of solar ceils, electrically interconnected in a plain criss-cross matrix. The columns of the physical matrix are divided into a first side, numbering YL columns, and a second side, numbering Y-YL columns. The first side includes cells that are physically inverted relative to the ceils of the second side. The negative side of the cel l in the l +nth physical row of column YL is electrically connected to the negative side of the cell in the X-nth physical row of column YL+I (0≤n
A modular solar panel system facilitated to maximize the power generation from a solar module, configured to maximize power generation from a plurality of solar cells under conditions of partial shade or light obstruction. The modular solar panel system includes a crisscross network configuration of solar cell arrays, wherein the solar cells are often subjected to at least partial shading and wherein the present invention provides innovative configurations to minimize the damage inflicted by the shadows.
H01L 31/042 - Modules PV ou matrices de cellules PV individuelles
H02J 1/12 - Fonctionnement de générateurs à courant continu en parallèle avec des convertisseurs, p. ex. avec un redresseur à arc de mercure
H01L 31/02 - Dispositifs à semi-conducteurs sensibles aux rayons infrarouges, à la lumière, au rayonnement électromagnétique d'ondes plus courtes, ou au rayonnement corpusculaire, et spécialement adaptés, soit comme convertisseurs de l'énergie dudit rayonnement e; Procédés ou appareils spécialement adaptés à la fabrication ou au traitement de ces dispositifs ou de leurs parties constitutives; Leurs détails - Détails
20.
SOLAR ARRAY MODULE SYSTEM FOR GENERATING ELECTRIC POWER
A modular solar panel system facilitated to maximize the power generation from a solar module, configured to maximize power generation from a plurality of solar cells under conditions of partial shade or light obstruction. The modular solar panel system includes a crisscross network configuration arrays, wherein the solar cells are often subjected to at least partial shading and wherein the present invention provides innovative configurations to minimize the damage inflicted by the shadows.
A modular solar panel system facilitated to maximize the power generation from a solar module, configured to maximize power generation from a plurality of solar cells under conditions of partial shade or light obstruction. The modular solar panel system includes a crisscross network configuration arrays, wherein the solar cells are often subjected to at least partial shading and wherein the present invention provides innovative configurations to minimize the damage inflicted by the shadows.
A solar power generation system for providing operating power for a desired application, the system includes one or more solar-array modules, wherein each of the one or more solar-array modules includes a multiplicity of solar cells and a high efficiency DC to DC power converter. The multiplicity of solar cells is arranged in strings of serial-units electrically connected in parallel to form a crisscross matrix array of solar cells, which matrix allows currents to bypass malfunctioning cells, thereby improving the performance of the system. The power converter includes fast MOSFET transistors having duty cycle that is operationally constant and is almost 50%. Optionally, the power converter includes a plus conductive pad and a minus conductive pad, wherein each of the strings of serial-units is individually wired to the plus conductive pad and the minus conductive pad.
A solar power generation system for providing operating power for a desired application, the system includes one or more solar-array modules, wherein each of the one or more solar-array modules includes a multiplicity of solar cells and a high efficiency DC to DC power converter. The multiplicity of solar cells is arranged in strings of serial-units electrically connected in parallel to form a crisscross matrix array of solar cells, which matrix allows currents to bypass malfunctioning cells, thereby improving the performance of the system. The power converter includes fast MOSFET transistors having duty cycle that is operationally constant and is almost 50%. Optionally, the power converter includes a plus conductive pad and a minus conductive pad, wherein each of the strings of serial-units is individually wired to the plus conductive pad and the minus conductive pad.
H01L 31/00 - Dispositifs à semi-conducteurs sensibles aux rayons infrarouges, à la lumière, au rayonnement électromagnétique d'ondes plus courtes, ou au rayonnement corpusculaire, et spécialement adaptés, soit comme convertisseurs de l'énergie dudit rayonnement e; Procédés ou appareils spécialement adaptés à la fabrication ou au traitement de ces dispositifs ou de leurs parties constitutives; Leurs détails
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