Difference between revisions of "Translations:PV module/1/en"

Revision as of 20:26, 9 February 2021

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Message definition (PV module)

[[File:Modulecrosssection201026.png|thumb|right|250px|'''Components of a PV module:'''<br />''(1)'' Aluminum frame ''(2)'' Glass ''(3)'' Encapsulant (hold cells together) ''(4)'' Cells ''(5)'' Encapsulant (hold cells together) ''(6)'' Plastic backsheet ''(7)'' Module frame ''(8)'' Junction box with wires/connectors]]
[[File:Solarcellv22102101.png|thumb|right|250px|A circuit attached to a PV cell. Electrons are energized by the sun (via photons). There is a one-way barrier the cell (depicted in red) that only allows the electrons to move in one direction. As they begin to concentrate on Side 1 of the cell are forced through the circuit.]]
Solar photovoltaic (PV) modules use the photovoltaic (PV) effect to generate electrical current upon exposure to light. When sufficient light hits a PV cell, current is generated which excites electrons that then pass through a one-way barrier or junction forcing them to flow through a circuit to return to their point of origin. These movement of these electrons can be used to do work or power loads. There are many different technologies available and ways to design a system that can meet needs that range from simple lighting, to running appliances, pumping water or powering cities.

[[File:Modulecrosssection201026.png|thumb|right|250px|'''Components of a PV module:'''<br />''(1)'' Aluminum frame ''(2)'' Glass ''(3)'' Encapsulant (hold cells together) ''(4)'' Cells ''(5)'' Encapsulant (hold cells together) ''(6)'' Plastic backsheet ''(7)'' Module frame ''(8)'' Junction box with wires/connectors]]
[[File:Solarcellv22102101.png|thumb|right|250px|A circuit attached to a PV cell. Electrons are energized by the sun (via photons). There is a one-way barrier the cell (depicted in red) that only allows the electrons to move in one direction. As they begin to concentrate on Side 1 of the cell are forced through the circuit.]]
Solar photovoltaic (PV) modules use the photovoltaic (PV) effect to generate electrical current upon exposure to light. When sufficient light hits a PV cell, current is generated which excites electrons that then pass through a one-way barrier or junction forcing them to flow through a circuit to return to their point of origin. These movement of these electrons can be used to do work or power loads. There are many different technologies available and ways to design a system that can meet needs that range from simple lighting, to running appliances, pumping water or powering cities.

Translation[[File:Modulecrosssection201026.png|thumb|right|300px|'''Components of a PV module:'''<br />''(1)'' Aluminum frame ''(2)'' Glass ''(3)'' Encapsulant (hold cells together) ''(4)'' Cells ''(5)'' Encapsulant (hold cells together) ''(6)'' Plastic backsheet ''(7)'' Module frame ''(8)'' Junction box with wires/connectors]]
[[File:Solarcell3.png|thumb|right|300px|A circuit attached to a PV cell. The electrons are forced from the top layer of the cell through a one-way barrier or junction (depicted in red), at which point they are forced to return through the circuit.]]
Solar photovoltaic (PV) modules use the photovoltaic (PV) effect to generate electrical current upon exposure to light. When sufficient light hits a PV cell, current is generated which excites electrons that then pass through a one-way barrier or junction forcing them to flow through a circuit to return to their point of origin. These movement of these electrons can be used to do work or power loads. There are many different technologies available and ways to design a system that can meet needs that range from simple lighting, to running appliances, pumping water or powering cities.

Components of a PV module:
(1) Aluminum frame (2) Glass (3) Encapsulant (hold cells together) (4) Cells (5) Encapsulant (hold cells together) (6) Plastic backsheet (7) Module frame (8) Junction box with wires/connectors

A circuit attached to a PV cell. The electrons are forced from the top layer of the cell through a one-way barrier or junction (depicted in red), at which point they are forced to return through the circuit.

Solar photovoltaic (PV) modules use the photovoltaic (PV) effect to generate electrical current upon exposure to light. When sufficient light hits a PV cell, current is generated which excites electrons that then pass through a one-way barrier or junction forcing them to flow through a circuit to return to their point of origin. These movement of these electrons can be used to do work or power loads. There are many different technologies available and ways to design a system that can meet needs that range from simple lighting, to running appliances, pumping water or powering cities.

Difference between revisions of "Translations:PV module/1/en"

Revision as of 20:26, 9 February 2021

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@@ Line 1: / Line 1: @@
 [[File:Modulecrosssection201026.png|thumb|right|300px|'''Components of a PV module:'''<br />''(1)'' Aluminum frame ''(2)'' Glass ''(3)'' Encapsulant (hold cells together) ''(4)'' Cells ''(5)'' Encapsulant (hold cells together) ''(6)'' Plastic backsheet ''(7)'' Module frame ''(8)'' Junction box with wires/connectors]]
-[[File:Solarcell3.png|thumb|right|300px|A circuit attached to a PV cell. The electronics are forced from the top layer of the cell through a one-way barrier or junction (depicted in red), at which point they are forced to return through a circuit.]]
+[[File:Solarcell3.png|thumb|right|300px|A circuit attached to a PV cell. The electrons are forced from the top layer of the cell through a one-way barrier or junction (depicted in red), at which point they are forced to return through the circuit.]]
-Solar PV modules use the photovoltaic (PV) effect to generate electrical current upon exposure to light. When sufficient light hits a PV cell, current is generated which excites electrons that then pass through a one-way barrier or junction forcing them to flow through a circuit to return to their point of origin. These movement of these electrons can be used to do work or power loads. There are many different technologies available and ways to design a system that can meet needs that range from simple lighting, to running appliances, pumping water or powering cities.
+Solar photovoltaic (PV) modules use the photovoltaic (PV) effect to generate electrical current upon exposure to light. When sufficient light hits a PV cell, current is generated which excites electrons that then pass through a one-way barrier or junction forcing them to flow through a circuit to return to their point of origin. These movement of these electrons can be used to do work or power loads. There are many different technologies available and ways to design a system that can meet needs that range from simple lighting, to running appliances, pumping water or powering cities.