A method for repairing a solar panel with a front-side-encapsulating element and a rear-side-encapsulating element, said method comprising the following steps: a) applying an adhesive paste or liquid to the rear-side-encapsulating element; b) applying a covering layer to the adhesive paste or liquid, and c) hardening the adhesive paste or liquid. The invention also relates to a solar panel comprising a front-side-encapsulating element, a rear-side-encapsulating element, an adhesive layer on a side of the rear-side-encapsulating element facing away from the front-side-encapsulating element, and a covering layer on a side of the adhesive layer facing away from the front-side-encapsulating element.

A method for repairing a solar panel with a front-side-encapsulating element and a rear-side-encapsulating element, said method comprising the following steps: a) applying an adhesive paste or liquid to the rear-side-encapsulating element; b) applying a covering layer to the adhesive paste or liquid, and c) hardening the adhesive paste or liquid. The invention also relates to a solar panel comprising a front-side-encapsulating element, a rear-side-encapsulating element, an adhesive layer on a side of the rear-side-encapsulating element facing away from the front-side-encapsulating element, and a covering layer on a side of the adhesive layer facing away from the front-side-encapsulating element.

A biaxially oriented multilayer transparent film including at least two layers of polyester, respectively a core layer and at least one outer layer, which can be identical or different, wherein: i) at least the core layer includes at least one biaxially oriented transparent polyester PE1, ii) at least one of the outer layers includes, on the one hand, at least one biaxially oriented polyester PE2, and, on the other hand, particles coming from the reaction between at least one metal compound and at least one monomeric or oligomeric unit of PE2, the particles having more preferably a d50as m and following an order of preferencebetween 0.5 and 5; between 1.0 and 4, and between 1.5 and 3.0. Also relates to the manufacture of this film and its applications as a laminate in particular in the backsheets of photovoltaic cells.

An interconnector includes a first electrode configured to be connected to a first photovoltaic battery cell, a second electrode configured to be connected to a second photovoltaic battery cell, and a connection body that connects the first electrode and the second electrode. The connection body includes a first detour portion, a second detour portion, and a first connection portion. The first detour is electrically connected to the first electrode and extended toward a first side in a second direction orthogonal to a first direction. The second detour is electrically connected to the second electrode and extended toward the first side in the second direction. The first connection portion extends toward the first detour portion and the second detour portion in the first direction and connects the first detour portion and the second detour portion.

Solar cell array assemblies or modules and methods of making and using such solar cell array assemblies or modules, having discrete predefined pressure sensitive adhesive (PSA) regions thereon. In certain embodiments, the solar cell array modules may be conveniently mounted on the surface of a panel of a space vehicle or satellite with the discrete predefined PSA regions.

The present disclosure provides a method of fabricating a solar cell panel in an automated process by applying an adhesive pattern to a support, positioning a solar cell assembly over the pattern, and applying pressure to adhere the assembly to the support.

Solar cells are packaged by placing the solar cells between sheets of encapsulants. The encapsulants are exposed to ultraviolet (UV) light to cure the encapsulants and bond the encapsulants together to encapsulate the solar cells. The UV curing steps may be performed to bond one of the encapsulants to a transparent top cover and the solar cells, and to bond the other encapsulant to the solar cells and a backsheet. A protective package that includes the transparent top cover, encapsulated solar cells, and the backsheet is then optionally mounted on a frame.

A solar cell module includes a plurality of solar cells, each solar cell including a semiconductor substrate, an emitter region, a back surface field region a first electrode connected to the emitter region, a second electrode connected to the back surface field region, and a conductive line connected to one electrode of the first and second electrodes using a conductive adhesive and insulated from the other electrode of the first and second electrodes through an insulating layer, the conductive line being used to connect a plurality of solar cells in series. A thickness of the conductive adhesive between the one electrode and the conductive line is greater than a thickness of the insulating layer between the other electrode and the conductive line.

In one example, a photovoltaic module includes a plurality of discrete photovoltaic cells arranged in a plurality of cell rows, and a substantially electrically conductive and continuous area backsheet. The photovoltaic cells in each cell row are electrically connected in parallel to each other. The cell rows are electrically connected in series to each other and include a first row and a last row. The backsheet forms a current return path between the first and last rows. The photovoltaic cells are configured such that, in operation, current flows substantially uni-directionally through the plurality of photovoltaic cells between the first row and the last row.

A back-face protection sheet for a solar cell module exhibits excellent adhesion strength and tensile strength even under a high-temperature and high-humidity environment, by using a plastic film that has excellent characteristics such as electrical insulation characteristic, heat resistance, dimension stability, mechanical strength, weatherability, and water resistance, and using a two-part type lamination adhesive having excellent weatherability. The back-face protection sheet is made to have excellent adhesion strength and tensile strength for a long period of time, even under a high-temperature and high-humidity environment, by improving weatherability (hydrolysis resistance) as base material films, and giving weatherability (hydrolysis resistance) to the two-part type lamination adhesive to be used in pasting together the base material films.