DE202010008494U1 - Photovoltaic module and photovoltaic system - Google Patents

Abstract

Photovoltaic module having an active element field for generating electrical power and at least one controllable switch arrangement, which is switchable between a low-resistance and a high-resistance switching state between two switch terminals, characterized in that the switch arrangement monostable has the low-resistance switching state as a rest state and by means of an external switching signal in the high impedance switching state is displaceable and durable in this and returns to the idle state after elimination of the switching signal.

Description

The The invention relates to a photovoltaic module and a photovoltaic Investment.

photovoltaic modules give in normal operation when light falls on the active Element surface at the terminals of the modules electrical Performance. In photovoltaic systems are typically in Strands several modules electrically connected in series. At output terminals of the photovoltaic modules arise module voltages, which by the series connection to high voltages up to can sum up about 1 kV. Is from a through Photovoltaic module or a strand formed photovoltaic Generator no electrical power removed, for example in the event of an inverter failure or if the electrical supply is interrupted Connection to the inverter, can in sunlight high no-load voltage between live parts of the Plant and / or against earth potential.

This can in particular become a person-endangering problem if maintenance work has to be carried out on the installation, or if in the event of the fire of a building equipped with a solar system, auxiliary personnel are in use in and on the building and extinguishing water is used. To reduce danger is in the DE 10 2007 048 914 A1 proposed to assign individual generators, in particular individual photovoltaic modules switch arrangements which connect the terminals of the generator and are high-impedance in regular operation. In a flow case or for maintenance and installation work, the switch assemblies can be switched in a low-resistance switching state, for which in particular an external switching signal to a control input of the respective switch arrangement can be applied. The low-resistance connection of the terminals results in a short-circuit current which, however, has only a low power rating because of the low voltage between the short-circuited terminals. In particular, when using thyristors in the switch assemblies, these can be switched so that after switching to the low-resistance state in a loss of the switching signal, the low-resistance state is maintained, as long as a short-circuit current flows, but that after the omission of the short-circuit current, z. B. during the night after a fault lockout, the switch assembly automatically returns to the high-impedance state and the generator again produces electrical power when re-incident light, so that z. B. after a temporary failure the next morning the generator is automatically active again. The switching signal can act via potential-separating means, in particular optocouplers, on the switching means in the switch assemblies. The switching signal, by means of which the switch arrangements are put into the low-resistance switching state, is preferably generated in a control device spatially remote from the photovoltaic modules, in particular arranged in an inverter, and can advantageously be supplied in parallel to all or several switch arrangements.

A similar solution is in the DE 10 2005 018 173 A1 described where for safe shutdown of photovoltaic systems near a generator field, a protective device is arranged, which can short-circuit the connection terminals of the generator field by igniting a thyristor by means of a control signal. Again, the reactivation of the generator field can be done automatically without independent further control signal.

The DE 10 2008 014 129 A1 proposes a safety circuit for photovoltaic modules, which in addition to first normally open switch contacts of a contactor, which can short-circuit the terminals of the module, nor second normally closed switch contacts of the contactor, which can interrupt the current paths from the terminals of the photovoltaic module to the leads to a consumer. In a fault, a contactor relay can be controlled from an external power supply to close the normally-open switch contacts and at the same time open the normally closed switch contacts.

It shows that the known safeguards no in practice adequate protection against personal injury Offer.

task The present invention is therefore the safety of photovoltaic modules and photovoltaic systems continue to improve.

invention Solutions are in the independent claims described. The dependent claims contain advantageous embodiments and developments.

By the arrangement of the at least one switch arrangement in such a way that it has a monostable switching behavior with a low-impedance rest state in which the electrical power generated in the at least one photovoltaic element is short-circuited, and an active switching state in which the switch arrangement is high-impedance, only at Given an external switching signal is given, can be achieved in a simple manner for all essential situations such as installation and maintenance and in particular building fire cases high security. A signal applied to a control input switching signal can be interrupted in many ways, in particular especially in the case of a building fire, when an inverter and a preferably arranged at or in this switching signal source, which generates the switching signal are no longer accessible, a typically initiated by the fire department separation of the building from the mains and the switching signal source shut down and by omission of the switching signal all switch arrangements of a photovoltaic system fall back into the idle state. The separation of the inverter from the power grid is detected in the inverter as a fault case.

Under short-circuiting electrical power is understood the terminals intended for the delivery of electrical power a photovoltaic generator powered by a single photovoltaic Element, a group of photovoltaic elements, a unified manageable photovoltaic module or more such modules can be formed, low resistance to connect with each other so that between terminals only the short circuit residual voltage of Switch arrangement is present. The usual use of a Bypass diode, which bridges the generator connections, but does not affect the generator voltage is not as Short-circuiting understood in this sense.

Preferably is each photovoltaic module that can be handled as an independent building unit a photovoltaic system containing several such modules associated with a separate switch assembly, which preferably structurally is connected to the photovoltaic module and in particular in or at one in such photovoltaic modules, in particular for Installations on building roofs, provided junction box is arranged. The assignment of a separate switch arrangement to Each photovoltaic module prevents disconnecting a strand at the separation point a person hazardous electrical Tension can occur.

So far such strand separation is not expected or unproblematic or reliably manageable in another way is a switch assembly can also be used for several photovoltaic modules, which are combined in one strand, be provided jointly. Below are also individual photovoltaic modules and in one Group interconnected photovoltaic modules generally as photovoltaic Generator called, which has two terminals. The Terminals form the electrical connection to a consumer within a photovoltaic system. In one as a strand of Generator electrically connected in series with several photovoltaic modules are the terminals of such a generator by one each the terminals of the first and the last photovoltaic module educated.

In another version can also be an or several switch assemblies integrated into a photovoltaic module be. In particular, switch arrangements can each be individual associated with photovoltaic elements and / or groups of elements be. The integration of the switch arrangements can in particular the arrangement of the switch assemblies between a transparent cover plate and a back plate. Preferably then also bypass diodes integrated into the photovoltaic module.

The Switching signal is preferably all switch arrangements to be triggered thereby supplied in electrical parallel connection. For the supply of the switching signal to the switch assemblies is preferably a separate from the solar circuit signal line intended. The control signal may be a DC signal or a Be AC signal. The switching signal can be on one too for others separate from the solar circuit test or control signals common line fed to the switch assemblies and by filtering such other test or control signals be separable. The switching signal or the control line are advantageously from the high-impedance or low-impedance connection between the Terminals forming switching means isolated, for what in a conventional manner, in particular an inductive or capacitive Coupling including the use of electromagnetic Relay can be provided, but preferably an electro-optical coupling via Optocoupler is set up.

In In another embodiment, the switching signal can also be used as a modulation signal aufmodeliert on the solar circuit and in the switch assemblies via preferably be filtered out in this integrated filter means.

The Switching signal source is advantageous in the manner of a Inverter from the power grid supplied with electrical power, that when disconnecting the inverter from the mains, for example via a switch of the inverter or by disconnecting a building circuit from the mains, automatically the electrical power supply of the Switching signal source is aborted and the switching signal is eliminated. In addition, it can be provided that the fault sensors, For example, smoke detectors or heat sensors, are provided and Sensor signals switching off the switching signal directly and / or via can trigger the inverter at the switching signal source.

The The invention is based on preferred embodiments illustrated in detail with reference to the figures. there shows:

1 a photovoltaic system,

2 a switch assembly.

1 shows a schematic representation of a photovoltaic system with multiple photovoltaic modules SM1, SM2, ..., SMN, wherein the photovoltaic modules in the solar circuit, whose lines are denoted by VL, are connected in series. The solar circuit is connected to the DC inputs of an inverter WR, which can feed via AC outputs electrical power into a power grid NE. The inverter can in turn receive electrical supply from the power NE.

The Photovoltaic module SM has two terminals K11, K12, the Photovoltaic module SM2 Terminals K21, K22 etc. The individual Photovoltaic modules are each with junction boxes AD on the active element field facing away back. The connection terminals of the photovoltaic modules can by the ends of leading out of the junction box AD Connection cables can be given, but can also directly through Sockets or the like in the junction box AD be given into which cables of the solar circuit inserted and electrically and be mechanically connected.

at Light incidence on the active photovoltaic elements by the transparent front cover plates of the photovoltaic modules arise between the terminals of the photovoltaic modules each module voltages UM1, UM2, ... UMN, which are connected by the series connection of the photovoltaic modules to the generator voltage UG at the DC input of the inverter Sum up WR. A generator current IG flows through all Photovoltaic modules in the same way. The junction boxes AD can Contain diodes which bridge the terminals of the respective photovoltaic module, in case of a defect of a single module in the other modules generated generator current in a bypass on the defective element to pass by.

In or in the junction boxes AD can switch arrangements SC be provided, by means of which the terminals of the respective photovoltaic module can be shorted. The switch arrangements are via a separate from the solar circuit VL control line SL with a switching signal SS acted upon, which in a switching signal source SE is generated. The switching signal source SE is preferably in the Inverter integrated and advantageously from the power grid NE supplied with electrical power. About a switch HS can be the power supply of the switching signal source SE from the mains NE are interrupted, whereby the switching signal is omitted. A loss of the switching signal can also be triggered in other ways become.

One in the switching signal source SE generated switching signal is over the control line SL assigned to each of the individual photovoltaic modules Switch arrangements in electrically parallel connection simultaneously fed.

The Switch assemblies can be integrated into the junction boxes AD and in particular already by the manufacturer of the photovoltaic modules in the circuit contained in the junction boxes AD be integrated. In another advantageous embodiment, the Switch arrangements subsequently as independent supplementary component connected to finished photovoltaic modules What are the switch arrangements with terminals or connecting cables of the respective photovoltaic module and / or connected to the cables of the supply line VL of the solar circuit could be.

The Switch assemblies connect the terminals of the associated Photovoltaic module and are between a high-impedance switching state, in which the module voltage across the terminals is applied, and a low-resistance switching state in which the terminals are short-circuited, switchable. That in the switching signal source SE generated switching signal is used to drive the switch assemblies, to set a specific switching state.

According to the invention the switch arrangements set up so that without an over the control line SL to control inputs of the switch assembly applied switching signal switching means of the switching arrangements itself in the low-impedance, the terminals of the respective photovoltaic module short-circuiting switching state as idle state and upon application of a switching signal, the switching means in a high-impedance State offset and while the concern of the switching signal in to be held this. After elimination of the switching signal go Switch arrangements immediately back to the idle state.

2 schematically shows an advantageous embodiment of a switch assembly, which is connected via two switch terminals A1, A2 with two terminals K1, K2 of a photovoltaic module. The switch terminals A1 and A2 are connected to a switching means SM located therebetween. The switching means is executed in the example sketched as a bipolar transistor, but may also be used in another embodiment, for example in the form of a field effect transistor or a relay. The switching means SM is connected via an optocoupler OK with a two-wire control line SL. The optocoupler OK causes a potential separation between the control line SL and the with the switching circuit SM connected to the solar circuit.

The Switching means SM is wired so that it without the concern of a Switching signal SS to the optocoupler OK a low-impedance connection between terminals K1 and K2 and terminals K1 and K2 except for a drop across the switching means low residual voltage essentially short-circuits each other. In this case a module short-circuit current IM flows through the switching means SM.

at Applying a switching signal SS via the control line SL to the optocoupler this acts on the control input of the switching means SM, that the switching means SM in a high-impedance switching state changes and virtually no current flows through the switching means. In this case, over the locked switching means SM the module voltage UM.

To Elimination of the switching signal SS, the switching means SM goes automatically again in the low-impedance state. As low impedance State of the switching means is considered a state in which at least for an electric power emitting photovoltaic module its output power essentially as a short-circuit current through the Switching means flows.

The switch arrangement according to 2 can also be integrated into an active element field of the photovoltaic module in a corresponding or similar design multiple times, wherein such integrated switch assemblies can each be assigned to a photovoltaic element or a group of elements. Within the photovoltaic module, integrated line sections of a control line can also be integrated, in particular in the form of strip conductors on insulating carriers.

The above and those specified in the claims and the features that can be seen in the illustrations are both individual and also advantageously feasible in various combinations. The invention is not limited to the described embodiments, but in the context of expert knowledge in many ways Way changeable.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• DE 102007048914 A1 [0003]
• DE 102005018173 A1 [0004]
• - DE 102008014129 A1 [0005]

Claims (19)

Photovoltaic module having an active element field for generating electrical power and at least one controllable switch arrangement, which is switchable between a low-resistance and a high-resistance switching state between two switch terminals, characterized in that the switch arrangement monostable has the low-resistance switching state as a rest state and by means of an external switching signal in the high impedance switching state is displaceable and durable in this and returns to the idle state after elimination of the switching signal. Photovoltaic module according to claim 1, characterized in that that the module has two terminals outside the element panel owns and the switch terminals electrically with the two Connecting terminals is connected. Photovoltaic module according to claim 2, characterized in that that the switch assembly in a connected to the photovoltaic module Junction box is integrated. Photovoltaic module according to claim 2, characterized in that that the switch assembly in a detachable with the terminals connectable own housing is arranged. Photovoltaic module according to claim 1, characterized in that that at least one switch arrangement between a transparent Cover plate and a back plate integrated is. Photovoltaic module according to claim 5, characterized in that that a plurality of switch arrangements are provided, which each associated with an active element or a group of active elements are. Photovoltaic module according to one of claims 1 to 6, characterized in that the switch arrangement a Contains optocoupler and a connector for the external switching signal isolated from the photovoltaic circuit is arranged. Photovoltaic module according to one of claims 1 to 7, characterized in that the switch arrangement at least a transistor as switching means between the switch terminals contains. Photovoltaic system with at least one photovoltaic module according to claim 1, and with a powered by the at least one photovoltaic module Consumer and with a signal connection, which at least a switch assembly of the photovoltaic module with a removed from this arranged switching signal source connects, which for generating a switching signal for controlling the switch arrangement of the photovoltaic module is set up. Photovoltaic system according to claim 9, characterized characterized in that an inverter as a consumer with the Photovoltaic module connected via a solar circuit is. Photovoltaic system according to claim 10, characterized characterized in that the switching signal source in the inverter is integrated. Photovoltaic system according to one of the claims 9 to 11, characterized in that a plurality of photovoltaic modules is available. Photovoltaic system according to claim 12, characterized characterized in that a plurality of photovoltaic modules comprises a generator form with two generator terminals and one for all photovoltaic modules of the generator common switch assembly connected to the generator terminals. Photovoltaic system according to claim 12, characterized characterized in that each photovoltaic modules each one own switch assembly is assigned. Photovoltaic system according to claim 14, characterized characterized in that the photovoltaic module has a junction box and that the switch assembly is integrated in the junction box. Photovoltaic system according to claim 14, characterized characterized in that the switch assembly in a separate housing arranged and detachable with the terminals of the photovoltaic module electrically connected. Photovoltaic system according to one of the claims 9 to 16, characterized in that the switching signal via a separate from the solar circuit control line of at least a switch arrangement is supplied. Photovoltaic system according to one of the claims 9 to 16, characterized in that the switching signal as a modulation signal the solar circuit aufmoduliert and for the switch assembly over a filter arrangement is adopted by the solar circuit. Photovoltaic system according to one of the claims 9 to 18, characterized in that at least one sensor present which is set up to detect an accident is and upon detection of an accident, the shutdown of Switching signal causes in the switching signal source.