DE102008030262A1 - Solar cell and process for producing a solar cell - Google Patents

Abstract

A solar cell has front contacts on a front side for collecting electrons and a connection device for connection to the front contacts. The front contacts are designed in the form of thin contact fingers, wherein connecting wires of different lengths are guided from the contact fingers to the connection device. The connecting wires extend in different lengths from the connection device to one or a few contact fingers. Almost all longer connecting wires are electrically connected several times in their course or over their length with different contact fingers.

Description

Field of application and status of the technique

The The invention relates to a solar cell with front contacts on its Front and a method for producing such a solar cell.

Usually have solar cells that are made up of a silicon wafer, at the back so-called back contacts on and on its front so-called front contacts. These front contacts collect the electrons, so to speak, and conduct them to a connection device further. Such a connection device can be an electrical Connection for be a forwarding of the stream or another appropriate Solar cell in a series connection. To the shading as possible To keep low, the front contacts are in the form of thin contact fingers trained, usually parallel and equidistant to each other on the Front are arranged. To now the front contacts with the connection device to connect are usually flat wires provided which is electrically connected to each of the front contacts are, laterally over survive the solar cell and are connected to the connection device. The shading the ser known flat wires However, it is considered negative because it is the active area of the Solar cell and thus their efficiency deteriorates.

Task and solution

Of the Invention is based on the object, an aforementioned solar cell and to provide a process suitable for their production, with which disadvantages of the prior art can be reduced and in particular the efficiency or the yield of a solar cell can be increased.

Is solved This object is achieved by a solar cell having the features of the claim 1 and a method for its production with the features of Claim 13. Advantageous and preferred embodiments of Invention are the subject of the further claims and are hereinafter explained in more detail. Of the Wording of the claims is by express Reference made to the content of the description.

According to the invention, it is provided that different long connecting wires from the contact fingers the front contacts are guided to the connection device. These connecting wires run in different lengths from the connection device to one or a few contact fingers. At least some, preferably most, are lead wires in their course or over her length away repeatedly electrically connected to the contact fingers. This means that they are in their longitudinal course repeatedly connected to different contact fingers. Preferably is the distance in which a lead wire with a contact finger connected and connected, for this connection wire always again the same, this can be particularly advantageous for several or even all connecting wires.

Consequently is created with the invention, the possibility a variety of connecting wires from the contact fingers as front contacts to a connection device to accomplish. Due to the different length of the connecting wires, the all lead to the connection device, that is achieved the farthest contact fingers go only a few leads. The nearer the contact fingers are on the connection device, the more leads are available to transport the electrons to the connection device, So to the power supply. In essence, this can be an approximately inverse linear relationship between Distance of a contact finger from the connection device and to disposal standing conductor cross section can be achieved. So that means that the closer the whole of the existing conductor cross-section increases Contact fingers are located at the connection device. This can be the Circumstances are taken into account, as is within the scope of the invention has proven advantageous that the current flow is getting larger, the nearer a contact finger is located at the connection device. So it will be in Adjustment to the prevailing or expected current strength exactly the one for it needed Conductor cross section available but not anymore, so the shielded by conductor area the front of the solar cell reduced or to a mandatory Minimum reduced can be.

In Advantageous embodiment of the invention, the front contacts run parallel to each other and at equal intervals. Especially advantageous the connecting wires run Corresponding to right angles to the front contacts or contact fingers. This causes a simpler production as well as possible reduced length and thus shading of the connection wires of the solar cell. Also the connecting wires run advantageous parallel to each other and particularly advantageous with same distance.

In a further embodiment of the invention can be provided that a lead wire connected in each case every three to six contact fingers with the front page or one of these contact fingers of the solar cell or connected thereto. Particularly advantageously, all of these three contact fingers are contacted in each case. This interval is beneficial for each because a connecting wire always the same, particularly advantageous for all leads of this length or possibly also in total for all leads. Adjacent connecting wires are advantageously connected to different contact fingers.

Around one possible to allow good power line and at the same time the number of connections of the connecting wires with To reduce contact fingers, it is possible to provide hunt groups, the two to four contact fingers connect with each other. Such a Hunt group can be similar to a contact finger in the manufacturing process of the solar cell the front are made by metallization, so much easier than applying and connecting a lead wire. One such hunt group runs advantageous in nature and training as well as manufacture similar to a front contact, so with a very small cross-section and at right angles to the contact fingers or in the same direction as a connecting wire. Particularly advantageous such a hunt group connects three juxtaposed contact fingers with each other and is of the Connecting wire contacted or the connecting wire is with him connected.

In Advantageous embodiment of the invention is a connection wire connected to a place where the hunt group one Contact finger crosses. Here, the necessary connection area is the largest for connection. By the superimposed hunt group and lead wire will also be the shadowed area the solar cell is reduced.

It are different ways a lead wire with a contact finger or one of the above To connect hunt group. As advantageous soldering or Wire bonding viewed, where in the process technically proven and also mass production technology or be carried out automatically can.

In Another embodiment of the invention can be provided that several connecting wires each with the same length form a so-called terminal group, in particular per solar cell. It is exploited that at a length of a lead wire from the terminal device to a contact finger, so to speak discrete length jumps in the Length of Distance between two contact fingers are given to each other. So it is light, connecting wires same length into a common connection group. The solar cell then points several connection groups with just different lengths Leads on. It is considered advantageous if at least three leads per connection group are provided. Furthermore, can be advantageous at least three such terminal groups be provided. Usually used solar cells have, for example, 66 contact fingers. Assuming an aforementioned provision of hunt groups as well as the fact that due to the huntings not at the level of a Each contact finger ends a lead wire, for example, 33 or 22 connection groups may be provided. Each connection group points then two to four or even more leads on.

In Another embodiment of the invention, it is possible different lengths Connection wires with form different cross sections. It can be provided be that the cross-section of the leads increases with increasing Length of Connecting wires, being beneficial to this wire stays the same. This could take the circumstance into account that may be because of its greater length also a higher overall Current density leads. However, it is advantageous to use only identical connecting wires, which the supply and ease of mounting easier.

One Diameter of such a lead wire can be advantageous in one Range between 50 μm and 1 mm. Be particularly advantageous diameter of 200 μm up provided about 300 microns. Especially with an aforementioned number of contact fingers and connecting wires A solar cell results in sufficiently high conductor cross sections at the same time minimized shading. In yet another Training the invention, it is considered advantageous if the connecting wires have a substantially round cross-section. Although can basically by flat and upright cross sections with constant Cross-section of a reduced shading can be achieved. Here, however may increase the effort for the correct feeder the connecting wires to a device that the connecting wires to the solar cell or the contact finger connects, strong. Furthermore, the cost and production costs for wires lowest with round cross section.

One Lead wire may be made of a good conductive material, such as Aluminum, copper, silver or gold exist. Aluminum becomes advantageous or copper used. For a better corrosion resistance as well as a better solderability can a lead wire coated with a corresponding coating be. Advantageously, it is tinned or provided with a solder, for example 62Sn / 36 Pb / 2 Ag.

On the side of the solar cell to the connection device towards the connecting wires can survive a certain amount set to then just to be connected to the connection device. In addition to wire-bonding, technically easier soldering is particularly suitable here.

These and other features go out the claims also from the description and the drawings, wherein the individual features each for alone or in the form of subcombinations an embodiment of the Invention and other areas to be realized and advantageous also for protectable versions can represent for the protection is claimed here. The subdivision of the application into individual Sections and intermediate headings restrict the not in its generality among these statements.

Brief description of the drawings

embodiments The invention are shown schematically in the drawings and will be closer in the following explained. In the drawings show:

1 an oblique view of a section of a solar cell according to the invention and

2 a plan view of a solar cell according to the invention with different arrangements for electrical connections.

Detailed description the embodiments

In 1 is a solar cell 11 partially shown in an oblique view. The solar cell 11 is essentially from a wafer 12 built up and to see is her upturned front 13 , Next to the solar cell 11 runs an electrical connection device 14 , For example in the form of an electrical conductor in the manner of a Stromleitschiene or the like.

To the electrodes on the front 13 the solar cell 11 to collect are contact fingers 15 intended. These are thin metal conductors, which are also known by the skilled person in a known manner directly to the front 13 are applied or are partially sunk even in this. The contact fingers 15 have the same distance from each other and are parallel to each other.

Order now the contact fingers 15 with the connection device 14 to connect are connecting wires 18 intended. These connecting wires 18 all start at the connection device 14 However, they have different lengths, so they are different far to the front 13 the solar cell 11 pass. Their left-facing ends are relatively accurate on a contact finger 15 go up to such a contact finger 15 , At the same time the connecting wires are enough 18 but not only with its left-pointing end on this solar cell 11 or contact fingers 15 but at a distance of three contact fingers 15 they are always with the solar cell 11 or contact fingers 15 connected. This gives their course a kind of waveform, which of course is much less developed in practice.

They are hunt groups 16 provided, which can be made in basically the same way as the contact fingers 15 himself. The hunt groups 16 So are short electrically conductive conductor pieces and connect here three contact fingers 15 , They run approximately at right angles to the contact fingers 15 , as well as the connecting wires 18 , They are also electrically connected to each contact finger they pass or cover.

The connecting wires 18 are at junctions 19 each with a hunt group 16 or the contact finger 15 electrically connected at this point. This can be done by wire-bonding or soldering. Furthermore, the connecting wires run 18 , what made 1 only limited visibility, just above the hunt groups 16 so that the mandatory level of shadowing remains as low as possible.

In the plan view of a solar cell 11 according to 2 are the lead wires to illustrate the presentation and the structural design 18 shown in a straight line, what they in practice in the plan view in spite of the slightly wavy course in the side view according to 1 can also be. The hunt groups 16 in 2 However, deviating from practical embodiments shown slightly curved, while in reality or in practice straight and at right angles to the contact fingers 15 are formed.

The representation of the solar cell 11 in 2 is essentially also to be understood schematically. A practicable solar cell has far more contact fingers 15 on, namely, for example, the aforementioned 66 pieces. Similarly, in the width of the solar cell 11 also more than illustrated 24 contact fingers 15 intended.

The connecting wires 18 are in three groups 21a . 21b and 21c divided up. Within each of these groups 21 a longest connection wire is enough 18 up to the second-highest contact finger 15 and the shortest lead wire 18 to the second lowest contact finger 15 , The length gradation of the individual connection wires 18 within one of these groups 21 is three times the distance between two contact fingers. Thus there are also eight groups of connecting wires 18 with each slide cher length, wherein in each of these groups three such connecting wires 18 are.

The difference in the training of the group 21a and 21b is the distance of the hunt groups 16 along the connecting wires 18 , While in the left group 21a along the longest connecting wire 18 the distance of the hunt groups and their length 16 such is that every contact finger 15 with this connection wire 18 is connected, this is in the middle group 21b different. Here is the distance of the hunt groups 16 along a connecting wire 18 once the distance between two contact fingers 15 enlarged to each other. Of course, this can also be varied in the case of several connecting wires of one of these groups, so that not every connecting wire of this group has the spacing of the collecting connections 16 and thus the resulting joints 19 between connecting wire 18

Claims (13)

Solar cell with front contacts on a front side of the solar cell for collecting electrons and a connection device for connection to the front contacts, wherein the front contacts are in the form of thin contact fingers, characterized in that different lengths of lead wires are guided from the contact fingers to the terminal device, wherein the Lead wires and extend in different lengths of the connection device to one or a few contact fingers, wherein at least some leads are electrically connected in their course or over their length several times with contact fingers. Solar cell according to claim 1, characterized that the front contacts and / or the connecting wires approximately parallel to each other run and / or each with the same distance from each other. Solar cell according to claim 1 or 2, characterized that one lead wire every three to six contact fingers associated with one or a few of these contact fingers. Solar cell according to claim 3, characterized that hunt groups are provided which connect two to four contact fingers, a hunt group preferably being substantially rectangular is formed to extending contact fingers, in particular a Connecting wire is electrically connected to the hunt. Solar cell according to claim 4, characterized that a connecting wire at a cross point of the hunt group electrically connected to a contact finger. Solar cell according to one of the preceding claims, characterized characterized in that a lead wire by soldering or wire bonding with a Contact fingers or a hunt group according to claim 4 or 5 electrically connected is. Solar cell according to one of the preceding claims, characterized characterized in that a plurality of connecting wires, each having the same length a Terminal group form and the solar cell several terminal groups each having different lengths of lead wires, preferably three to six connecting wires are in a port group and three to six port groups are provided. Solar cell according to one of the preceding claims, characterized characterized in that differently long connecting wires have different cross sections , wherein preferably the cross section of the connecting wires increases with increasing length the connecting wires. Solar cell according to one of the preceding claims, characterized characterized in that a diameter of a connecting wire between 50 μm and 1 mm, preferably 200 microns to 300 microns. Solar cell according to one of the preceding claims, characterized characterized in that the connecting wires have a substantially round Have cross-section. Solar cell according to one of the preceding claims, characterized characterized in that a lead wire made of a material of the following Group consists of: aluminum, copper, silver, gold. Solar cell according to one of the preceding claims, characterized characterized in that a lead wire coated with a coating is, preferably tin-plated is coated with solder. Process for producing a solar cell according to one of the preceding claims, characterized in that different lengths connecting wires of the contact fingers are guided to the connection device, the connecting wires both with the connection device and with at least one Contact fingers are electrically connected and connected to it and with some connecting wires be electrically connected with multiple contact fingers.