AT512996A1 - photovoltaic system - Google Patents

Abstract

A photovoltaic system with at least one solar module (1), with at least one inverter (2) connected to the solar module (1) and with an evaluation circuit (4) for detectable operating data of the components of the photovoltaic system is described. In order to enable a meaningful performance comparison, it is proposed that at least one component (1) is assigned at least one encoder (5) for the local position and / or orientation and the transmitter (5) is connected to the evaluation circuit (4).

Description

12. JUN. 2012 16:10 +43 7242 241 5638 NR. 803 p. 4 • · · · * * * * • «*» ··· »· · · · · · · · · · · · · · · · ·

The invention relates to a photovoltaic system with at least one solar module, with at least one inverter connected to the solar module and with an evaluation circuit for detectable operating data of the components of the photovoltaic system.

In photovoltaic systems, photovoltaic cells are usually combined to form solar modules and these solar modules are connected in series in order to be able to ensure a corresponding output voltage. To increase performance then individual strands of solar modules are connected in parallel, the DC voltage must be converted to feed the generated electrical energy into an AC power in an in-phase AC voltage corresponding amplitude. The solar module field can be followed by a common inverter for this purpose. But it is also possible to assign each solar module string or each solar module own inverter. Since the performance of solar modules or of photovoltaic cells not only depends on the solar radiation, but also on the temperature and shading effects, which is reflected in the current-voltage characteristic of the solar modules, the current-voltage characteristics are recorded to the photovoltaic system in the area to operate at maximum power. For this purpose it is known (DE 102 47 776 A1) to monitor the current-voltage characteristic of the entire solar module field for changes or to provide the individual solar modules with measuring devices for the current and the voltage 12/06/2012 16:09

No .: R184 P.004 / 016 12. JUN. 2012 16:11 +43 7242 241 5638 NR. 803 p. 5) in order to enable monitoring of the individual solar modules , Particularly advantageous control conditions occur when each solar module is assigned its own inverter, which includes a corresponding evaluation circuit for each detected current-voltage characteristic (DE 40 32 569 C2). Regardless of whether the current-voltage characteristics for individual solar modules, for solar module groups or entire solar module fields are taken, a performance comparison of the solar modules based on the recorded current-voltage characteristics is not meaningful because in particular the influence of different positions and position and / or sun Inclination is not taken into account.

The invention is therefore based on the object to propose a photovoltaic system in which the necessary conditions are created to make a meaningful performance comparison, comparison of yield data and / or energy of photovoltaic systems and monitoring the photovoltaic systems.

Based on a photovoltaic system of the type described above, the invention solves the stated object in that at least one component is associated with at least one encoder for the local position and / or orientation and the encoder is connected to the evaluation circuit.

By assigning donors for the local situation and / or orientation of the solar modules, the performance of the solar modules can be related not only to the respective position of the sun, but also to known local conditions, such as an environmental shadowing. As for the position coordinates of the solar modules of the daytime and seasonal 12/06/2012 16:09

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Liehe changing ridge of the sun and its azimuth are known, the respective orientation of the solar module relative to the sun can be used to meaningfully compare solar modules with a uniform orientation, even if the solar modules have a different orientation relative to the respective position of the sun and / or different local position coordinates , The respective angle of incidence of the solar radiation with respect to the solar modules determines the reduction in performance of the solar modules which are not exactly aligned with the sun compared to an optimal irradiation perpendicular to the solar modules, thus the power of the solar modules determined in a conventional manner can be related to a maximum power in a corresponding evaluation circuit especially if the other influencing factors, such as temperature and radiation intensity, are taken into account. In addition, the expected performance of the solar modules over a course of the day can be estimated. Likewise, the position of the mounted components such as inverters or string collectors of the photovoltaic system can be detected with the encoder. Thus, it can be ensured that the commissioning of the component has been properly installed.

In the case of a uniform orientation of the solar modules of a solar module group, for example a string of series-connected solar modules, it is sufficient to determine the position and orientation of the solar module group via corresponding encoders and to supply the evaluation circuit. However, this case does not permit a check of individual solar modules, in particular if only one inverter is assigned to the solar module group, which monitors the performance of the entire solar module group. Particularly advantageous monitoring conditions arise, however, if each solar module is assigned an inverter and an encoder for the position and orientation, because every so- P.006 / 016 12/06/2012 16:09 No .: R184 12. JUN. 2012 16:11 +43 7242 241 5638 NR. 803 p. 7

Larmodul is monitored for themselves and can be checked by a comparison, for example, with adjacent solar modules, the proper installation of the individual solar modules. In addition, the effect of controlling the individual solar modules can be better judged. In addition, the > Possibility to detect improper expansion of a solar module by analyzing the position and orientation and to lock the inverter or the module or to issue a theft message, if the inverter is mounted on the module, then then put back into operation, for example by entering a release code or similar algorithms ; can be.

If the inverters are provided with evaluation circuits which are supplied with the operating, as well as the position and orientation data of the connected solar modules and are connected to one another for data transmission, the individual solar modules can be compared with one another in a simple manner, for example solar modules with a different efficiency from a solar module group can be found out. A further application arises in the event that a sunshade-dependent shading of a part of the solar modules is to be considered because a

I: stood, like a building, a tree or the like, in the insolation area of the solar modules.

In order to enable a direct comparison of different solar modules or groups of solar modules, the evaluation circuits can store a memory for correction values! the influence of the local situation and orientation on the t

Performance of the solar modules include, so not the respective measured performance of the solar modules, but with respect to the 12/06/2012 16:10

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* φ • ♦ · * * ♦ · ·· «··· ♦

Actual position and alignment corrected performance values for comparison. can be provided.

In the drawing, the subject invention is shown, for example. Show it:

Fig. Line inventive photovoltaic system with the individual solar modules associated inverters, but a common evaluation circuit, in a schematic block diagram,

FIG. 2 shows a photovoltaic system comparable to FIG. 1, but with evaluation circuits for each inverter, and FIG. 3 shows a photovoltaic system with stranded solar modules, to which belong a common inverter and a common evaluation circuit.

The photovoltaic system according to FIG. 1 has individual solar modules 1, which are each connected to an inverter 2. The inverters 2 feed a network rail 3. The individual inverters 2 are assigned a common evaluation circuit 4, in which the outputs of the individual solar modules 1 are monitored on the basis of the measured currents and voltages and controlled to a maximum value. The evaluation circuit 4 can also be acted upon in a conventional manner with additional parameters, such as temperature and radiation intensity, which is not shown for reasons of clarity.

New compared to known photovoltaic systems of this type is that each solar module 1 is associated with an encoder 5 for the position and orientation of the solar module 1. For detecting the position and orientation of the solar modules 1 known sensors can be used, for example, magnetic field sensors on a semiconductor basis in conjunction with microelectromechanical o- 12/06/2012 16:10

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the microoptoelectromechanical systems. The encoder data are also supplied to the evaluation circuit 4, so that the detected current-voltage characteristics of the individual solar modules 1 can be related to the position coordinates and the inclination and orientation of the solar modules. The evaluation circuit 4 comprises a unit designed as a memory 6 for correction values for taking into account the influence of the local situation and orientation on the performance of the solar modules 1, so that a direct comparison of the performances of the individual solar modules 1 as a function of any differences in position and orientation is ensured can be influenced by an input and display stage 7 program-related to the evaluation of the data of the individual solar modules 1. The unit for correction values can, for example, also be formed by a computing unit which calculates the correction values correspondingly by means of formulas or algorithms.

In general, the evaluation circuit 4, in addition to the evaluation of the encoder data, can also be designed for analysis on a PC by means of software. For this purpose, the evaluation circuit 4 has a corresponding interface for the PC, so that a data transfer can take place. Accordingly, the data in the evaluation circuit 4 are detected and analyzed on the PC. Thus, the evaluation circuit 4 also serves as a detection unit.

The photovoltaic system according to FIG. 2 differs from that according to FIG. 1 essentially in that the inverters 2 are each assigned separate evaluation circuits 4, which are connected to one another via a data line 8, which of course can also be wireless. In such an embodiment, the attitude and orientation data may be communicated with the data of the individual inverters 2 12/06/2012 16:11

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Like the pig. 3 can be assigned to individual groups of solar modules l encoder 5 for the location and orientation of this solar module group, what he offers in particular when the solar modules 1 of the individual groups are aligned and also be adjusted if necessary. According to the exemplary embodiment according to FIG. 3, the groups of the solar modules 1 are combined in two series-connected strings 9, which in turn rest in parallel on an inverter 2 which is connected to a network rail 3. In order not to endanger the entire strand 9 in the event of failure of a solar module 1, the individual solar modules l are bridged by means of a bypass diode 10.

The solar module groups of the strands 9 can be compared with each other and with other solar module groups via an evaluation circuit 4, the not only the performance of the inverter 2, but also the position and alignment data of the encoder 5 are supplied to the basis of correction values from a memory 6, for example, to be related to a maximum power. An input and display stage 7 can in turn influence the type of evaluation.

In particular, the encoder 5 can thus determine the position, the inclination and the orientation of the component. If such encoders 5 are installed in the inverter 2 or in strand collectors known from the state of the art, the positionally correct sensor can be 12:12:12

No .: R184 P.010 / 016 12.JUtJ.2012 16:13 +43 7242 241 5638 NR. 803 p. , * · ··· * ··· · | · Days in the field to be checked. Thus, these components are best protected, for example, in terms of water entry. Accordingly, therefore, prevents water from entering cable bushings or not exposed to UV-resistant Tei le direct sunlight. It ensures the longevity of the components, prevents system failures and significantly reduces personal injury due to water damage. 12/06/2012 16:11

No .: R184 P.011 / 016

Claims (4)

12th of January. 2012 16:13 +43 7242 241 5638 NR. S03 S, 13 aa • M «• ·« · • ea • a • »a # • * * * * ee« • «* # • m ·· • a • · • e • e ·· 1 t • M • 1. A photovoltaic system comprising at least one solar module (i), at least one inverter (2) connected to the solar module (1) and an evaluation circuit (4) for detectable operating data of the components of the photovoltaic system, characterized in that at least a component (l) is associated with at least one encoder (5) for the local position and / or orientation and the encoder (5) is connected to the evaluation circuit (4). 2. Photovoltaic system according to claim 1, characterized in that the encoder (5) for the position and / or orientation is associated with at least one solar module (i) and / or inverter (2). 3. Photovoltaic system according to claim 1 or 2, characterized in that the inverters (2) with the operating as well as the position and Ausriehtungsdaten the connected So-larmodule (1) acted upon evaluation circuits (4), which are connectable to each other for data transmission. 4. Photovoltaic system according to one of claims 1 to 3, characterized in that at least one evaluation circuit (4) comprises a unit for correction values to take into account the influence of the local situation and orientation on the performance of the solar modules (l). 12/06/2012 16:12 No .: R184 P.013 / 016