DE4337128A1 - Photovoltaic solar generator - Google Patents

Abstract

Photovoltaic solar generator, the interconnected solar cells or solar cell modules of which are, on the one hand, arranged on a support body and, on the other hand, are provided with a transparent, photostable and weathering-resistant protective layer, preferably of glass or plastic, for protection against damaging environmental influences. In order for the light incident on the solar generator to penetrate the semiconductor body as far as possible without reflection and completely, provision is made for the protective layer (2) to have a micropyramid structure on its surface facing the incident light. <IMAGE>

Description

The invention relates to a photovoltaic solar generator gate, the interconnected solar cells or Solar cell modules on the one hand on a carrier body are classified and secondly to protect against harmful Environmental influences with a transparent, light and white resistant protective layer, preferably made of glass or Plastic, are provided.

It is known the surfaces of such protective layers made of glass or plastic by means of elastic intermediate layers are coupled to the surface of the solar cells, to anti-reflective. This is preferably done by more stratification process. The disadvantage is that at anti-reflective surfaces a reflection minimum only for certain wavelengths or wavelength ranges are reached while adjacent wavelengths or waves length ranges continue to be reflected. This applies to both vertical incidence and oblique incidence of light to the surface of the protective layer where for the reflections with a smaller angle of incidence to take. This could be remedied on the outer surfaces  of the protective layers applied anti-reflective layers conditions, however, for reasons of cost for terrestrial Solar generators are unusual. It also stays with the use of anti-reflective layers of the above he imagined disadvantage of increasing the reflections at small incidence of light received.

The invention is therefore based on the object to create largenerator of the type mentioned at which the on the solar cells or the solar cell module of Solar generator incident light largely reflex ion-free and completely penetrates the semiconductor body and thus as completely as possible into electrical energy is changed.

The object is achieved in that the Protective layer on its facing the incident light Surface has a micro pyramid structure.

Embodiments of the invention are in the Subclaims 2 to 6 described.

A major advantage of the invention is the reduction loss of light reflection at the transition from air to Protective layer can be seen, with a significant reduction is achieved even with decreasing light incidence angles. This becomes additional compared to conventional solar generators light introduced into the protective layer advantageously converted into additional solar electrical energy, so that the efficiency of the solar generator according to the invention is increased. A particularly advantageous application results then when it comes to a very thin and lightweight one encapsulation of solar cells or solar modules arrives at de electrical output power as large as possible Area to be reached, such as B. at space solar generators or mobile, terrestrial solar generators.  

In the drawing is an embodiment according to the Er shown, namely:

Fig. 1 shows a basic structure of a solar generator part, and

Fig. 2 is a graphical representation of the reflection losses as a function of the angles of incidence of the light incident on the glass-air interface.

In Fig. 1, a solar cell 1 is preferably attached to a carrier 4 by means of an adhesive, on the incident light side of which a transparent, light- and weather-resistant protective layer 2 is attached to protect against harmful environmental influences. The protective layer 2 , for example made of glass or plastic, is advantageously attached by means of a transparent adhesive layer 3 , the refractive index of which is approximately the same as that of the protective layer 2 .

The protective layer 2 has on its surface facing the incident light or the air a micro pyramid structure, preferably with four-sided pyramids, which is not shown in the drawing due to the pyramids, for example, only 2 to 5 μm high. The pyramids can e.g. B. have angles of about 60 °, which are measured against the horizontal. Furthermore, in order to reduce residual reflections, which can occur particularly when the light incidence is very small, the surface of the protective layer 2 which has the micro-pyramid structure can be provided with a conventional anti-reflection layer.

In Fig. 2, curve 1 shows the reflection losses as a function of the angle of incidence at a smooth glass-air interface, the angles of incidence with respect to the perpendicular incidence of light at the interface being measured. The illustration shows that in the case of vertical light incidence, the reflection losses are approximately 4%, while they become larger as the angle of incidence becomes smaller and are approximately 8% at an angle of incidence of 60 °. In contrast to curve 1, curve 2 shows the reflection losses as a function of the light incidence angles at a glass-air interface, in which the glass surface adjacent to the air has a prism structure. Already for prisms with a prism angle of 60 ° results that the reflection losses are practically zero at a vertical angle of incidence, hardly change at angles of incidence of up to about 30 °, and increase at angles of incidence between 30 ° and 60 ° such that the losses at 60 ° angle of incidence is approximately 4%, and this maximum value of 4% reflection loss is practically maintained with increasing angles of incidence of light. This also applies to pyramids from almost all solid angles.

Claims (6)

1. Photovoltaic solar generator, the interconnected solar cells or solar cell modules are arranged on the one hand on a support body and on the other hand to provide protection against harmful environmental influences with a transparent, light- and weather-resistant protective layer, preferably made of glass or plastic, as characterized by in that the protective layer (2) has a Mikropy ramidenstruktur on its side facing the incident light surface. 2. Solar generator according to claim 1, characterized by a four-sided layer having micro pyramids. 3. Solar generator according to claim 1 or 2, characterized records that the height of the pyramids, for example, 2 to Is 5 µm. 4. Solar generator according to claim 1, 2 or 3, marked net by pyramids, their measured against the horizontal Angle be about 60 °. 5. Solar generator according to one of claims 1, 2, 3 or 4, characterized in that the surface of the protective layer ( 2 ) having a micro pyramid structure is additionally provided with a conventional antireflection layer. 6. Solar generator according to one of claims 1 to 5, characterized in that the space between the solar cells ( 1 ) and the protective layer ( 2 ) with a transparent adhesive ( 3 ) whose refractive index is approximately the same as that of the protective layer ( 2 ) is filled out.