NZ232873A

NZ232873A - Corrosion protection of solar cell module frame

Info

Publication number: NZ232873A
Application number: NZ232873A
Authority: NZ
Inventors: Vincent Coutrot; Isidore Ah Chou
Original assignee: Polynesie Francaise; Commissariat Energie Atomique; Agence Francaise Pour La Maitr
Priority date: 1989-03-17
Filing date: 1990-03-12
Publication date: 1992-10-28
Also published as: GB9005079D0; GB2229736A; GB2229736B; FR2644633A1; FR2644633B1; AU633057B2; AU5144390A

Description

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W -.1 I- II' 232873 2 8 OCT 1992 P.G . ' r M ! '-r.V ZEALAND fAHrtr OFFICE 12 MAR 1990 RECEIVED Patents Form No.5 PATENTS ACT 1953 COMPLETE SPECIFICATION PHOTOVOLTAIC GENERATOR WE, LA TERRITOIRE DE LA POLYNESIE FRANCAISE represente par le Ministre de le Mer, de 1'Equipment, de l'Energie et des Mines of B.P. 2 551 Papeete, French Polynesia and COMMISSAR- ' IAT A L'ENERGIE ATOMIQUE, a Etablissement de Caractere v Scientifique, Technique et Industriell of -3-3-/-3-1 rue de la b\f* ;MAITRISE DE L'ENERGIE of 27 rue Louis Vicat 75015, ;Federation 7 5015 Paris, France and AGENCE FRANCAISE POUR LA ; For example, for a module permitting its positive terminal to be raised to a nominal potential of + 24V with respect to its negative terminal, its frame is raised to a potential at least equal to approximately 19V compared with its negative terminal, 10 in accordance with the present invention.

Thus, there is a reduction to the magnitude of the electrolysis phenomenon affecting cells and their interconnections. This electrolysis is even reversed when the frame is raised to a potential above that of the positive terminal of the module. 15 Thus, there is a migration of the metal ions from the frame to the group of cells and their interconnections, which is much less serious than the reverse phenomenon.

The connection between the frame and the point can incorporate an electrical resistor able to limit the intensity of an electric 20 current flowing in said connection when the negative terminal of the group of cells is accidentally connected to the frame.

Thus, the connection of the frame to a point of said circuit can create confusion in the mind of the user accustomed to seeing the negative terminals connected to earth or ground, so that 25 there is a risk of an accident (short-circuit, fire, etc.).

The use of the electrical resistor (preferably with a high value chosen as a function of the electrical installation of which the photovoltaic generator forms part) makes it possible to avoid such an accident or at least reduce the seriousness thereof.

In a constructional variant, the resistor is replaced by a fuse able to interrupt the connection between the frame and the point B 9860.3 PV \ «\ .y 232873 if the intensity of an electric current liable to flow in said connection exceeds a predetermined value.

In a particular embodiment of the invention, the connection between the frame and said point can incorporate a d.c. voltage 5 supply able to raise the frame to a potential above the maximum of the potentials of the points of said circuit. Said point can be the positive terminal of the photovoltaic module.

As a variant, the generator according to the invention has also at least one non-return diode, whose anode is connected to the 10 positive terminal of the photovoltaic module and which forms part of said circuit, said point being located in the portion of the circuit extending from the anode of the diode to said terminal of the use means. According to another variant, said point is said terminal of the use means.

When the generator according to the invention comprises means for accumulating the electrical energy produced, said circuit has a bypass to the positive terminal of the accumulation means and the point can belong to said bypass. The point can be the positive terminal of the accumulation means.

Finally, in the case where .the generator according to the invention has at least one other photovoltaic module coupled to said module, the frame of each other module is connected to the frame of said module.

The invention is described in greater detail hereinafter relative 25 to non-limitative erabodiments and the attached drawings, wherein show: Figs. 1 and 1A diagrammatic views (partial in the case of fig. 1A) of known photovoltaic generators which have already been described.

B 9860.3 PV m 232873 Fig. 2 a diagrammatic view of a photovoltaic module forming part of these generators and already described.

Fig. 3 a partial, diagrammatic sectional view of said module and already described.

Fig. 3A a partial, diagrammatic sectional view of a variant of said module and already described.

Fig. 4 diagrammatically a generator with a series regulator according to the invention and haying a photovoltaic module, as well as a variant of said generator.

Fig. 4A diagrammatically and partially a generator comparable to that of fig. 4, but with a parallel regulator.

Figs. 5 to 7 diagrammatically other variants of the generator.

Fig. 8 diagrammatically a generator according to the invention and having a plurality of photovoltaic modules.

Fig. 4 diagrammatically shows a photovoltaic generator according to the invention and simply having a photovoltaic module 4 of the type shown in figs. 2 and 3 or of the type shown in fig. 3A and which is therefore provided with a metal frame 28. The use means or loads 6 are connected between the positive and 20 negative terminals of the module. As has already been stated, the generator can have electrical energy accumulation means 8, whose positive and negative terminals are respectively connected to the positive and negative terminals of module 4, a regulating group having a first regulating means 10 connected 25 between the positive terminal of the module and the positive terminal of the accumulation means and a second regulating means 12 connected between the positive terminal of the accumulation means and a terminal 14 of the use means 6 and a non-return B 9860.3 PV 0 232873 diode 16 connected between the positive terminal of the module and the first means 10 and whose anode is connected to the positive terminal of the module.

It should be noted that the first regulating means is of the 5 series regulator type. Obviously, means 10 could be replaced by a first regulating means 10a (fig. 4A) of the parallel regul-J ator type connected between the cathode of diode 16 and the negative terminal of the module.

Thus, the installation has on the one hand a circuit or positive 10 branch extending from the positive terminal of the module to terminal 14 of the use means 6, with a bypass to the positive terminal of the accumulation means 8 and on the other hand a circuit or negative branch extending from the negative terminal of the module to the other terminal 34 of the use means 6 with 15 a bypass to the negative terminal of the accumulation means 8.

According to the invention, an electrical connection is formed between frame 28 and a random point of the positive branch of the installation. This point can be located on the positive terminal of module 4 (point A - case I in fig. 4) or between diode 6 and terminal 14, or between diode 16 and the positive terminal of the accumulation means 8 (point B - case II in fig. 4), or at the positive terminal of the accumulation means 8 (point C - case III in fig. 5), or at the terminal 14 of the use means (point D - case IV of fig. 5).

For reasons indicated hereinbefore, the connection between frame 28 and point A or B or C or D can have, as shown in fig. 6, an electric resistor 36 or a fuse 37.

In another embodiment, said connection between frame 28 and point A or B or C or D can have a d.c. voltage supply 38 (fig. 30 7),whose output 40 is connected to the metal frame 28 and whose B 9860.3 PV positive and negative supply terminals are respectively connected to the negative terminal of the module and to said point A,B,C or D. Supply 38 is such that its output 40 and therefore frame 28 is at a potential above the maximum of the potentials of 5 the points of the positive branch of the installation (compared with the negative terminal of the module). In a purely indicative and non-limitative manner, the potential of output 4 is equal to twice that of the positive terminal of the module.

Fig. 8 diagrammatically shows a generator according to the inven-10 tion and having a plurality of photovoltaic modules. It is e.g. the generator shown in fig. 1, or that shown in fig. 1A, but which is modified in the manner indicated hereinafter. The corresponding installation also has a positive branch between the positive terminals of the modules 4 placed at one end of 15 groups 2 and connected to the diode 16 to the positive terminal of the accumulation means 8 and to the terminal 14 of the use means 6, as well as a negative branch passing from the negative terminals of the modules 4 located at the other end of the groups 2 to the negative terminal of the accumulation means 8 and to 20 the other terminal 34 of the use means 6.

This generator is modified in the following way. The frames 28 of all the modules (which can obviously be of the type shown in figs. 2 or 3 or the type shown in fig. 3A) are connected to one another and the electrical connection is formed between 25 frame 28 of one 4a of the modules and a random point of the positive branch of the installation: point A (positive terminal of one of the modules, e.g. module 4a), or point B (point between one of the diodes 11 and terminal 14 of means 6 or the positive terminal of means 8), or point C (positive terminal of means 30 8), or point D (terminal 14).

As hereinbefore, said connection can have a resistor, or a fuse, or a d.c. voltage supply (with appropriate values). In the B 9860.3 PV 23 2 8 7 li case of using a voltage supply, the output of the latter is at a potential above the maximum of the potentials of the points of the positive branch of the installation (compared with the negative terminal of the group of modules), e.g. a potential 5 equal to twice the potential of the positive terminal of the group of modules. The positive and negative supply terminals of said voltage supply are respectively connected to the negative terminal of the group of modules and to said point A or B or When a resistor is used, its value is based on a compromise.

It must be as low as possible in order to polarize all the metal frames of the modules (or the metal frame of the module when the generator only has a single module) and must be sufficiently high to ensure that it is not destroyed in the case of an acci-15 dental connection between the negative terminal of the generator and the metal frames of the modules (or the metal frame of the module when the generator only has one module). In an informative, but non-limitative manner, for a 24V installation, it is possible , to use a resistor for an electric power of 1W of approximately C or D 3 to 10 kOhm B, 9860.3 PV ?32873 12

Claims

WHAT WE CLAIM IS:-

1. A photovoltaic generator having at least one photovoltaic module which serves to supply with electrical energy use means or loads, each photovoltaic module having a group of series-connected photovoltaic cells, such that the group of cells has a negative terminal and a positive terminal, which is raised to a positive potential compared with the negative terminal when the cells receive on one side sunlight, an electric circuit being provided between the positive terminal of the module and a terminal of the use means for supplying the latter with electrical power, two plates between which the group is located, the plate located on said side of the cells being transparent to sunlight and means for sealing the periphery of the two plates, said sealing means comprising a metal frame on said periphery, characterised in that the frame is connected to a point of the electric circuit and is raised to a potential higher than, equal to or slightly lower than the potential to which the positive terminal of the group of cells is raised.

2. The generator according to claim 1, characterized in that the connection between the frame and the point has an electrical resistor able to limit the intensity of an electric current flowing in said connection when the negative terminal of the group of cells is accidentally connected to the frame.

3. The generator according to claim 1, characterized in that the connection between the frame and point has a fuse able to interrupt the connection between th^f^fS N ' o| ~-JSEPt992Tl 732873 - 13 - frame and the point if the intensity of an electric current liable to flow in said connection exceeds a predetermined value.

4. The generator according to claim 1, characterized in that the connection between the frame and the point has a d.c. voltage supply able to raise the frame to a potential above the maximum of the potentials of the points of said circuit.

5. The generator according to any one of the claims 1 to 4, characterized in that said point is the positive terminal of the photovoltaic module

6. The generator according to any one of the claims 1 to 4, characterized in that said generator also comprises at least one non-return diode , whose anode is connected to the positive terminal of the photovoltaic module and which forms part of said circuit, said point being located in the portion of said circuit extending from the cathode of the diode to said terminal of the use means

7. The generator according to any one of the claims 1 to 4, characterized in that said point is the terminal of the use means

8. The generator according to any one of the claims 1 to 7, characterized in that said generator comprises means for accumulating the electrical energy produced, said circuit having a bypass to the positive terminal of the accumulation means, said point belonging to said bypass.

9. The generator according to claim 8, characterized in that said point is the positive terminal of the accumulation pA . means . / ?32873 - 14 -

10. The generator according to any one of the claims 1 to 8, characterized in that it incorporates at least one other photovoltaic module coupled to said module and in that the frame of each other module is connected to the frame of said module.

11. The generator according to any one of the claims 1 to 10, characterized in that the two plates between which the group is located are made from glass.

12. A photovoltaic generator substantially as hereinbefore described with reference to and as shown in any one of figures 4 to 8 inclusive of the accompanying drawings. LA TERRITOIRE DE LA POLYNESIE FRANCAISE, and COMMISSARIAT A L'ENERGIE ATOMIQUE, and AGENCE FRANCAISE POUR LA MAITRISE DE L'ENERGIE, by their authorised agents P.L. BERRY & ASSOCIATES, per: /