EP2336992A2 - Elektronisches Steuersystem für Solarmodul - Google Patents

Elektronisches Steuersystem für Solarmodul Download PDF

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Publication number
EP2336992A2
EP2336992A2 EP10013842A EP10013842A EP2336992A2 EP 2336992 A2 EP2336992 A2 EP 2336992A2 EP 10013842 A EP10013842 A EP 10013842A EP 10013842 A EP10013842 A EP 10013842A EP 2336992 A2 EP2336992 A2 EP 2336992A2
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EP
European Patent Office
Prior art keywords
control system
pcs
detector
memory element
electronic control
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP10013842A
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English (en)
French (fr)
Inventor
Enrico Smargiassi
Daniele Barbini
Claudio Donati
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
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Individual
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Publication date
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Publication of EP2336992A2 publication Critical patent/EP2336992A2/de
Withdrawn legal-status Critical Current

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    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
    • G08B13/00Burglar, theft or intruder alarms
    • G08B13/02Mechanical actuation
    • G08B13/14Mechanical actuation by lifting or attempted removal of hand-portable articles
    • G08B13/1409Mechanical actuation by lifting or attempted removal of hand-portable articles for removal detection of electrical appliances by detecting their physical disconnection from an electrical system, e.g. using a switch incorporated in the plug connector

Definitions

  • the present invention relates to an electronic control system for photovoltaic modules according to the preamble of claim 1, and a photovoltaic module comprising such an electronic control system and a plant for the production of electricity comprising such a photovoltaic module.
  • this invention joins in the field of the protection of photovoltaic modules or panels for producing electricity coming from solar radiation, from theft and damaging and refers, in a preferential but not limited way, to large-scale photovoltaic systems, which are often susceptible to events such as damaging or theft, especially when installed over large areas far from built-up areas.
  • the present invention aims to create an anti-theft for photovoltaic modules different in approach, to overcome the drawbacks typical of the system with "keyword" described shortly above.
  • the general idea underlying the present invention is in fact to act primarily at preventive level against the occurrence of an event such as theft or damaging in progress, proposing a system for an early detection of an attempted damaging or theft in progress, provided with communication means for signaliing the event promptly to a supervision system able to properly manage the alert. This is achieved by associating to the photovoltaic module a suitable control system comprising a control programmable device, susceptible to generate an alarm signal, and a transmitter operatively connected to the programmable device capable to transmit the alarm signal outside.
  • the electronic control system is provided with sensor means to early detect signals that can be associated with an attempted theft or damaging, means for processing the signals generated by said sensor means to detect the real presence of an attempted theft or damaging and means for notifying the event of theft or damaging in progress to said supervision system, even during periods when the photovoltaic module cannot generate electricity, for example during the night.
  • the electronic control system in accordance with the present invention comprises:
  • the detector may comprise an electric contact normally open, an event such as a damaging or a theft in progress causing a stable or temporary closure of the electric contact (eg for the realization of the present invention a detector comprising an electrical contact whose opening or closing states depend on the tilt of said detector with respect to the earth's vertical can be used) and/or a vibration transducer, apt to generate an impulsive electric signal when said detector vibrates at a frequency higher than a predetermined value.
  • the transmitter which allows the electronic control system of the photovoltaic module to communicate with a supervision system, depends on the characteristics of the same supervision system and can be a simple transmitter or a transceiver that can provide a two-way communication between the electronic control system of the photovoltaic module and the supervision system. According to the invention, the communication through the transmitter is based, in a preferential but not limited way, on radio frequency communication technologies, characterized by non-invasivity (no wiring) and low power consumption.
  • photovoltaic module or "photovoltaic panel”
  • photovoltaic module will be used, but it is good to clarify how that term is intended to have the same meaning of the term "photovoltaic panel”).
  • photovoltaic module in turn consists of a set of primary "photovoltaic cells", aimed at converting the energy radiated by the sun into electricity.
  • photovoltaic cells allow to obtain, by appropriate electrical connections in series and in parallel, a total voltage Vo which is made available by means of two appropriate connectors CNA, CNB to the ends of the respective photovoltaic module, since a direct current Io,the value of which is determined by the technical characteristics of the photovoltaic module, in particular by its nominal power Po, is associated to this voltage Vo.
  • the set of photovoltaic modules, connected in series to obtain the required conversion voltage Vc is typically indicated by the term "string", each string being characterized by a string current Is which is obviously equal to the value of the current Io associated to the photovoltaic module less efficient among all the modules belonging to the same string. For this reason it is appropriate that all the photovoltaic modules in a given string show homogeneous electrical characteristics in order to ensure the highest possible value of the current string Is. Moreover, in order to ensure that the conversion voltage Vc is associated with an adequate conversion current Ic, the latter is obtained by adding together the currents Is of an adequate number of strings that, for this purpose, are electrically connected in parallel each other and form a so-called "electric field panel".
  • FIG. 1 A block diagram of a photovoltaic module PVM according to the invention is shown in Figure 1 .
  • the PVP block is representing the active or generating portion of the module that, through the joint action of a series of generating elements or photovoltaic cells SC, converts the energy radiated by the sun into electricity.
  • the technology underlying the aforementioned PVP block is irrelevant to the present invention and may, for example, use amorphous or monocrystalline silicon, or even be based on emerging polymeric materials.
  • the voltage Vo generated by the PVP block is applied to the two connecting terminals CNA and CNB, which are respectively connected to the cable WA from the previous module and to the cable WB towards the next module, said cables being crossed by the current Io common to the series of modules which form a string.
  • the block PCS is the electronic control system of the photovoltaic module PVM according to the invention.
  • the control system PCS in turn comprises the following fundamental functional elements:
  • control system PCS comprises checking means for validating the detection of a theft or a damaging in progress.
  • checking means comprise at least an operative connection between the programmable device CL and the detector or the memory element FF, the operative connection allowing the programmable device CL to execute a direct ascertainment of the state of the detector or the memory element FF and to validate or not (following a specific procedure) an initial detection of theft or damaging in progress: thus the generation and transmission, through the transmitter RF, of the alarm message are enabled by the programmable device CL only if the validation procedure has concluded positively.
  • the validation of detection of theft or damaging in progress can advantageously use an iterative checking routine (performed by the programmable device CL) which consists of the following phases:
  • FIG. 1 To describe in detail how the control system PCS represented in Figure 1 performs the function of anti-theft according to the invention, we refer to the flowchart of figure 2 (associated with the programmable control device CL) in which, at each power-on of the system (block 10) - that is, every time the photovoltaic module starts to generate electricity and also feeds the control system PCS - the control passes to block 20, which is a testing block that verifies the logic state of the output Q of the flip-flop FF. If the output Q of FF is at the low or inactive logic level, then the control remains in the testing block 20, otherwise the control passes to the next block 30, which is a testing block that verifies the state of opening or closing of the contact of the detector SW1.
  • the control passes to block 70 which is a testing block that verifies the real presence of an alarm situation; otherwise the control passes to block 40, which is a testing block that verifies whether the time-out counter T has reached or not a predetermined time-out value Tmax. If T has not reached Tmax, then the counter T is incremented by one and the control returns to the block 20, otherwise (time-out reached) the alarm status of the flip-flop FF has been caused by a some fortuity or noise that cannot be associated with a theft attempt, as the contact of the theft detector SW1 has been found to be continuously open for the whole duration of the observation period Tmax.
  • the control passes to the block 60, which resets the counter T, and then to the block 90, which brings back the flip-flop FF in the normal or inactive state, then the control returns to the block 20.
  • the testing block 70 in charge of verifying the real presence of a situation of attempted theft of the photovoltaic module, performs a filtering operation based, for example, on the execution by the programmable control device CL, of an iterative checking routine, said routine being able to end with an alarm confirmation and the subsequent definitive generation of the alarm signal being able to occur after a predetermined number of consecutive confirmations.
  • the control passes to the block 80, which forwards the alarm signal to the supervision system of the photovoltaic plant and then, after the normal or inactive state the flip-flop FF (block 90) has been restored, the control passes to the start block 20, which returns to repeat the process of verification of any alarm situations caused by theft or damaging attempts to the photovoltaic module.
  • said accumulator can be a appropriate capacity capacitor or a rechargeable battery. It cannot be ruled out, according to the invention, that said accumulator can also be represented by a not rechargeable battery; this case, however, requires that the energy stored in the battery is capable of ensuring full functionality of the alarm system throughout all operational life of the photovoltaic module except a possible replacement with the passing of time.
  • the transition from the inactive or normal state to the operative alarm state is caused by the presence, even if only temporary and of very short duration, of a high logic signal at the input S (input "SET” of the flip-flop FF), this high logic signal being applied by means of the closure - even if only temporary and of very short duration - of the alarm detector contact SW1, which directly connects the voltage of the source EA with the input S of the flip-flop FF.
  • FF returns to the inactive state when the programmable control device CL applies, through the output gate RO, a high logic signal at the input R (input "RESET”) of the flip-flop FF.
  • the programmable device control CL consists of a microcontroller or programmable logic, with appropriate means for converting from analog to digital the analog signals relating to the voltages VA, VB and VC, respectively associated with three sections SZA, SZA + SZB and SZA + SZB + SZC in which typically a commercial photovoltaic module is subdivided.
  • This allows to the programmable device CL to verify individually the functionality, in terms of value of voltage generated, of the photovoltaic cells associated with each section in which the photovoltaic module is subdivided.
  • the number of sections can actually take, according to the invention, any other value deemed convenient, bearing in mind that the greater is the number of sections, the greater is the resolution of the control, but also the greater is the number of the by-pass diodes (one per section) required.
  • the Applicant intends to specify how the feature of the programmable device CL to be able to make a diagnosis of the photovoltaic module to which it is associated (by means of a verification, through N analog input signals, of the functionality of each of the N parts which make up the module) has to be considered as a feature in itself inventive.
  • the communication device RF may include a radio frequency transceiver or RF transceiver and a microcontroller that manages the communication protocol, said RF transceiver and said microcontroller being two separate devices dialoguing with each other, or two devices made with two silicon "dies” dialoguing with each other and assembled in the same container or package, or even two devices integrated in the same "die” of silicon.
  • Said communication device RF communicates in a bidirectional way with the control programmable device CL through any wired communication line SL and exchanges information in a bidirectional way by means of radio signals, propagated and received through a suitable antenna AT, with a supervision system placed in rank to a higher level compared to the control system PCS object of this invention.
  • the radiofrequency communication technology - characterized by a carrier frequency, modulation and demodulation techniques and a communication protocol - associated with the device RF may, according to the invention, be represented by any radiofrequency communication technology of standard or proprietary type characterised, in an advantageous but limitative way, by a low power consumption and possibly also a low cost.
  • the first may be a DC-DC converter intended to provide, at the output VO1, a stabilized voltage V1, with a variable input voltage Vo generated by the photovoltaic generator at different intensities of solar radiation, and the second is used to generate the direct stabilized voltage V5 that feeds the programmable device CL, the transmitter (or transceiver) RF and the memory element (flip-flop) FF.
  • the voltage V1 apart from feeding through the diode D1 the input VIN of voltage regulator VR keeps under full charge, through the diode D2, the energy accumulator EA.
  • Vo tends to zero and therefore also V1 vanishes, so the diode D2, being inversely polarized, prevents the discharge of the accumulator EA.
  • the normally open contact SW1 goes into the closed position, even for a brief moment, the voltage V3 across EA becomes coincident with the voltage V4 and leads, through the SET entrance S of the flip-flop FF, the passage of the flip-flop from the inactive state to the operative state.
  • the output Q of FF assumes a high logic level and causes the permanent closure of the switch S1 that, in turn, allows the device EA to feed steadily, through VR, the devices CL, RF and the same flip- flop FF.
  • the programmable device CL sends the alarm signal by means of the radiofrequency RF transmitter according to the invention.
  • the detector part of the embodiment of the invention represented in Figure 1 and including a normally open electric contact SW1, it may include any sensor capable to detect abnormal tilts of the photovoltaic module compared to the tilting state (e.g. estimated such as angle from the earth's vertical) associated with a predefined condition of normality of the module itself.
  • the state of the electric contact SW1 is therefore dependent on the tilt of the detector with respect to the earth's vertical.
  • said detector can be represented by an "on / off tilt" or lateral movement sensor, as a device belonging to the families SQ-SEN6XX or SQ-SEN7XX of SignalQuest.
  • Figure 3 shows a first variant of the present invention, in which the detector may include any sensor capable to detect abnormal vibrations of the photovoltaic module compared to the vibration level associated with a predefined condition of normality of the module itself
  • the detector includes a vibration transducer SW2, capable to generate an electric pulsing signal when said detector vibrates at a frequency greater than a predetermined value.
  • the vibration transducer SW2 can be a piezoelectric vibration detector of the type "Minisens 100" of MSI (Measurement Specialties, Inc.), or similar sensor devices.
  • MSI Measurement Specialties, Inc.
  • the source EA is operationally connected to the memory element FF with the electric contact SW1 interposed, while in figure 3 , the vibration transducer SW2 is not interposed between the source EA and the memory element FF, since the vibration transducer SW2, that is piezoelectric, can by itself generate an electric signal that constitutes, for the memory element FF, a power supply sufficient to change the logic state of this memory element FF .
  • Figure 4 shows a second variant of the present invention, that includes the simultaneous presence of two detectors SW1 and SW2 with complementary characteristics - that in exemplificative but not limitative way can be represented respectively by a tilt sensor (with respect to the earth's vertical) and by a vibration sensor of type similar to that described above, or similar, wherein these detectors SW1 and SW2 are connected in "OR" logic between them, i.e. so that the closure of the contact of at least one of them causes the memory element FF's transition from the inactive state to the operative alarm state.
  • the second variant although more expensive than the embodiments described above is more effective than them to detect an event such as damaging or theft of the photovoltaic module PVM.
  • the two detectors SW1 and SW2 have a synergistic effect, since the detector SW1 is especially sensitive to changes in the tilt of the photovoltaic module PVM, such as those that occur in transport operations during a theft, and the detector SW2 is especially sensitive to the occurrence of significant vibrations on the photovoltaic module PVM caused for example by the action of tools such as drills.
  • an electric energy production plant comprising a plurality of photovoltaic modules PVM has to be considered as an object of the present invention.
  • This plant comprises at least a control unit capable to receive and elaborate alarm signals transmitted by the transmitters RF of the control systems PCS of the photovoltaic modules PVM.
  • the control unit can make explicit a warning of theft or damaging which included in particular a piece of information relative to the identity code and / or to the position of the photovoltaic modules PVM whose transmitters RF have caused an alarm signal.
  • the warning of theft or damaging may consist in the activation of an alarm siren and / or in the displaying, on video terminals inside the plant and / or outside the plant (e.g. at a police station or at a vigilance institution), the precise location where the detected criminal event took place. Because the simultaneous occurrence of theft or damaging events against a number of photovoltaic modules PVM exceeding a predetermined number is considered impossible, the aforesaid control unit is able to associate the simultaneous reception of a considerable number of alarm signals to an event other than a theft or a damaging (eg a gust of wind or an earthquake) by executing a centralized validation procedure which adds to the procedure at the level of individual photovoltaic modules PVM, which was previously described. In this case, a warning of theft or damaging in progress is made explicit by the control unit if the number of alarm signals received is lower than a predetermined number.
  • a theft or damaging eg a gust of wind or an earthquake
  • a first important advantage of the invention is the capability to make an anti-theft alarm system that is not invasive with regard to the system of photovoltaic energy production and therefore does not affect the long term reliability of photovoltaic module itself.
  • a second important advantage of the invention is the capability to detect and report promptly theft attempts even when the photovoltaic module is not in a condition in which electricity is generated by the module.
  • a third advantage of the invention is that the alarm system according to the present invention requires no maintenance.

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Burglar Alarm Systems (AREA)
  • Photovoltaic Devices (AREA)
EP10013842A 2009-10-27 2010-10-20 Elektronisches Steuersystem für Solarmodul Withdrawn EP2336992A2 (de)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
ITAN2009A000081A IT1395977B1 (it) 2009-10-27 2009-10-27 Sistema elettronico di controllo per moduli fotovoltaici, modulo fotovoltaico comprendente tale sistema elettronico di controllo e impianto per la produzione di energia elettrica comprendente tale modulo fotovoltaico

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EP2336992A2 true EP2336992A2 (de) 2011-06-22

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB2495939A (en) * 2011-10-25 2013-05-01 Lowes Stewart Developments Ltd Solar panel alarm system
CN106680801A (zh) * 2017-01-18 2017-05-17 济南轩天机电科技有限公司 太阳能板防盗装置

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112147908B (zh) * 2019-06-28 2023-07-21 青岛海尔智能技术研发有限公司 用于电器设备调试的方法、控制器及电器设备

Family Cites Families (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP3500566B2 (ja) * 1998-11-26 2004-02-23 富士通アクセス株式会社 太陽電池の盗難検知回路及び太陽電池配電盤
ITPD20060382A1 (it) * 2006-10-13 2008-04-14 Elettronica Santerno S P A Inverter solare e impianto di conversione di energia solare in energia elettrica
ITMI20072094A1 (it) * 2007-10-30 2009-04-30 Tonali Spa Sistema antifurto per pannelli solari
ITMO20070344A1 (it) * 2007-11-16 2009-05-17 Meta System Spa Impianto fotovoltaico perfezionato

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
None

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB2495939A (en) * 2011-10-25 2013-05-01 Lowes Stewart Developments Ltd Solar panel alarm system
CN106680801A (zh) * 2017-01-18 2017-05-17 济南轩天机电科技有限公司 太阳能板防盗装置

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IT1395977B1 (it) 2012-11-09
ITAN20090081A1 (it) 2011-04-28

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