WO2010020697A2 - Method and device for monitoring parameters specific to an assembly. - Google Patents

Abstract

The invention relates to a method for monitoring parameters specific to an assembly, wherein the problem addressed by the invention is that of providing a method which reduces the complication of monitoring parameters specific to an assembly. The method addresses the problem in that the values corresponding to the determined measured values are transferred to a central entity spatially separated from the assembly, that said values received by the central entity are subsequently analyzed, and that the results of the analysis are then output.

Description

 Method and device for monitoring device-specific parameters

The invention relates to a method for monitoring arrangement-specific parameters in which measured values are determined and output in an arrangement by means of sensors.

The invention also relates to a device for monitoring of arrangement-specific parameters, with the arrangement-specific parameters detecting sensors, an evaluation and transmission means.

The monitoring of arrangement-specific parameters is necessary in a large number of arrangements in which parameters of the arrangement are to be measured by means of various sensors and displayed and / or analyzed directly at the measuring location or at a location remote from the measuring location.

In the process, parameters such as current, voltage, power, temperature, light intensity, movement, capacity of a power supply and emission can be recorded. Under the parameter movement a movement monitoring of the arrangement by means of motion sensors and under the parameter emission is for example a measurement of the

Pollution degree of the air to understand.

For example, in photovoltaic systems consisting of solar modules, the most effective and reliable functioning of the system is expected. It is particularly important that each solar module its

Service in a continuous quality. Whether a module works optimally or not, so far only by a specialist on the basis of complex and extensive Measurements, which usually have to be made directly on the solar module, are detected.

Solutions are known from the prior art, in which measurement data for current and voltage are generated in a photovoltaic system on the inverter. There, the measurement data are collected via external devices usually using data loggers for evaluation and transmitted manually to a central office.

These measured data are not solar module-accurate but inverter-accurate, that is, voltage and current refer to a interconnected system of several solar modules. Problems and power losses of individual solar modules can not be detected. Problems are not detected in real time, depending on the type of data forwarding.

A theft detection is done according to the prior art mostly on video systems or Reisleinensysteme. These systems are expensive to install and maintain. Systems are also discussed in which currents are fed into the existing PV system at night (or when no electricity is generated). These methods do not detect theft with solar module accuracy and position accuracy.

The invention is therefore based on the object of specifying a method and a device with which the effort for monitoring of arrangement-specific parameters is reduced.

According to the invention, in a method for monitoring arrangement-specific parameters, the object is achieved by corresponding values corresponding to the determined measured values to a central location that is spatially separated from the arrangement

Instance are transmitted, that subsequently these received by the central entity corresponding measured values analyzed and that the results of the analysis are output.

The monitoring of arrangement-specific parameters of an arrangement takes place wherever parameters of an arrangement are measured by means of various sensors and directly on

Place of measurement or preferably at a location remote from the location to be displayed and / or analyzed. The measured values or the results of the analysis can be displayed, for example, by a display attached to the arrangement itself or transmitted to a central monitoring point and displayed. Thus, a monitoring of an arrangement is provided during operation, with which statements about the state of the arrangement are possible.

According to the invention, measured values are determined in a first method step by means of sensors for different parameters. These measured values are subsequently transmitted to a central instance that displays and monitors the parameters, for example a computer. This transmission can take place via a cable or a data bus, but preferably via a radio interface. The transferred measured values are analyzed in the central instance. Through this analysis, statements about the state of the arrangement such as "proper functioning", "improper functioning", "faulty

Communication "or" Arrangement is defective or missing "are generated. The central entity outputs the measured values or the results of the analysis. The output can take place, for example, in the form of a graphic or in the states of the arrangement in text form or in the manner of a traffic light.

Thus, fast centralized monitoring of multiple parameters of one or more arrays is realized from a central point. In one embodiment of the invention, it is provided that the values corresponding to the measured values determined are the measured values themselves.

In monitoring of arrangement-specific parameters, the measured values determined by the sensors in the arrangement can therefore be transmitted directly to the central entity without any processing or analysis of the measured values.

In a further embodiment of the invention, it is provided that the values corresponding to the determined measured values are processed values of the arrangement.

The determined measured values are processed or analyzed by the arrangement. For example, an analysis can be carried out in such a way that it is checked whether the measured value lies within a predetermined tolerance range or above or below a predetermined threshold value. A processing of the measured value can take place such that an average value is formed. Another processing may be that the power is calculated from a current reading and a voltage reading.

In one embodiment of the invention, it is provided that prepared values are measured values which are generated by a first partial analysis in the arrangement itself.

The determined measured values can be supplied to the arrangement of an analysis as described above, whereby only a first partial analysis of the measured values takes place in the arrangement. The second part of the analysis will be done later in the central instance.

In one embodiment of the invention it is provided that prepared values are power values which are formed in the arrangement from the measured values for the current and the voltage. If power is to be monitored in an arrangement of the parameters, this can be done, for example, by using only one sensor for a current measurement and one sensor for a voltage measurement. From the two measured values, the corresponding power value can subsequently be calculated by means of a multiplication.

In a further embodiment of the invention, it is provided that prepared values are movement values which are formed in the arrangement from the measured values of the motion sensors.

The measured values determined by the motion sensors are already analyzed in the arrangement in order to determine whether a movement of the solar module actually took place. For example, threshold values for the measured values of the motion sensors can be specified below which no movement is detected.

In one embodiment of the invention, it is provided that the values corresponding to the measured values determined by several arrangements are combined into groups and transmitted jointly to the central entity before transmission to the central entity.

Each arrangement can transmit the determined measured values separately to the central instance. Another possibility is to combine the values of two or more arrangements corresponding to the measured values and then to transmit them to the central entity. In this way, the arrangements can be divided into groups. Thus, for example, 20 solar modules can be grouped into a group, with a photovoltaic system comprising several of these groups. In each group, the values corresponding to the measured values are combined and transmitted to the central instance. Another possibility is the values corresponding to the measured values Subgroup to undergo a sub-analysis, which checks whether all measured values are within a specified tolerance. Then only the result of the analysis can be transmitted to the central instance, thus for example the information that all measured values are within the tolerance range.

In the event that the measured values are not within the tolerance range, all values corresponding to the measured values are to be transferred to the central instance for error analysis.

In one embodiment of the invention it is provided that the transmission to the central entity is carried out by means of a wireless transmission method.

The transmission of the values corresponding to the measured values advantageously takes place by means of a wireless

Radio transmission, for example according to the standard IEEE 802.15.4 a transmission protocol for wireless personal area networks (WPAN). Transceivers according to this standard are characterized by low energy consumption and a large transmission capacity.

In one embodiment of the invention, it is provided that the arrangement-specific parameters are parameters of solar modules of a photovoltaic system.

In one embodiment of the invention it is provided that the parameters current, voltage, temperature,

Light intensity, movement, capacity of a power supply and emission are.

The arrangement to be monitored may be a solar module in a photovoltaic system, in which parameters such as current, voltage, power, temperature, light intensity, movement, capacity of a power supply and emission to be monitored. In one embodiment of the invention, it is provided that the analysis of the values corresponding to the measured values takes place in such a way that the measured values are compared with known default values.

One possibility of analysis consists in comparing the values corresponding to the measured values with default values which can be specified for the method, whereby a tolerance range for the comparison can also be defined. Thus, an analysis of a determined voltage measurement value is carried out such that it is checked whether the

Voltage reading is within the given by the nominal value and the tolerance default range. If this is the case, a positive analysis result can be output. If this is not the case, an error message is issued and subsequently a search is made for the cause of the error.

In one embodiment of the invention, it is provided that the analysis of the values corresponding to the measured values takes place in such a way that the measured values of different arrangements are compared with one another.

A simplified form of the analysis may be that values of two arrangements corresponding to the measured values are compared with one another. For example, if we compare the measured voltage of two adjacent solar modules with each other, we can quickly make a statement about the proper function of the solar modules. In the normal case, the voltage values will be almost the same, whereby a tolerance range can also be specified in such a comparison. If one of the two voltage values deviates strongly over a certain period of time, it can be assumed that a solar module has a defect. As a result of this analysis, troubleshooting can then be carried out, for example, by means of evaluation of all measured values determined by the central entity. In one embodiment of the invention, it is provided that the values corresponding to the measured values and / or the results of the analysis are output in the form of a graph.

The values corresponding to the measured values and also the

Analysis results of both an overall analysis and the partial analyzes can be displayed next to a textual form in one or more graphics. An overall overview can also take place in a summarized form in the manner of a traffic light, in which the green light lights up as long as all parameters are within the tolerance limits.

In a further embodiment of the invention, it is provided that the position of a solar module is linked to its identification number ID by means of a handheld arrangement, which contains a position determination system, and that the position data and the ID are stored in a database.

For example, in the installation of a solar module, by means of a handheld device including a position determining system, a technician may associate the identification number of the solar module with positional data by positioning the handheld device close to the module and starting a corresponding routine in the handheld device.

This determines the current position data, for example via GPS and reads the ID of the solar module. These data are linked together and stored in the handheld device or a central database. Thus, subsequently, in the event of a solar module failure, not only the ID but also position data can be transmitted to the service personnel.

A further embodiment of the invention provides that a position determination takes place in the arrangement itself by evaluation of determined signal propagation times or the signal strength RSSI of radio links.

The radio array in the array may utilize signal strength parameters such as an RSSI value as well as the signal propagation times measured in the array to other radio devices of other solar modules for relative positioning to other radio devices. For this purpose, several RSSI values are determined or several signal propagation times are determined and the position is determined in the manner of a radio bearing method.

According to the invention, the object in a device for monitoring arrangement-specific parameters with the arrangement-specific parameters detecting sensors, an evaluation unit and transmission means is achieved in that the device comprises a measuring and radio unit, which from a measuring values detecting sensors containing measuring unit and a first bidirectional Radio arrangement is that the first bidirectional radio arrangement of the measuring and radio unit is at least indirectly connected wirelessly with a second bidirectional radio arrangement of a central instance, that the central instance means for analyzing the measured values received from the measuring and radio unit of the arrangement and for displaying the measured values and / or the results of the analysis.

The device according to the invention comprises a measuring and radio unit which is fastened, for example, to the arrangement of a solar module to be monitored and determines parameters of the solar module or of the immediate surroundings by means of various sensors. These measured values are stored in the measuring and radio unit. The measuring and radio unit can perform an analysis of the measured values, for example, to determine whether the measured values one correspond to certain default value, are larger or smaller or within a predetermined tolerance range.

The determined measured values or the results of the analysis are transmitted to the central entity by means of the first and second bidirectional radio unit, which thus comprises both means for transmitting and for receiving. The latter has means of analysis which can correspond to those of the arrangement as described above and for displaying the measured values or the results of the analysis, for example in textual form or in the form of a graphic, wherein the representation and the measured values or results to be presented are analyzed by a user are selectable.

In one embodiment of the invention it is provided that the first and the second bidirectional radio arrangement are each connected to a transmitting / receiving antenna for wireless data transmission.

The first and the second radio unit each have a suitable connection with which they can be connected to a transmitting / receiving antenna. By means of these antennas, the measured values or the results of the analysis can be transmitted to the second radio unit, for example via the first radio unit, using a suitable radio standard. The data transmitted in this way are forwarded to the central instance. Another possibility is to transmit initialization data or control data from the central entity via the second radio unit to the first radio unit and further to the measurement and radio unit. These are received by a suitable control and logic board in the measuring and radio unit and control, for example, the determination of the measured values with respect to the sensors to be used, the time and frequency of the measurements and, if provided, the type of analysis.

In another form of the invention it is provided that the Device has means for analyzing the measured values.

If it is necessary to at least partially carry out the analysis of the measured value already in the device for monitoring device-specific parameters, this device is equipped with assemblies for analyzing the measured values. Thus, for example, a test of the operation of the device can be performed and only the result can be transmitted to the central entity.

The invention will be explained in more detail below with reference to an exemplary embodiment. In the accompanying drawings shows

1 shows a device for monitoring arrangement-specific parameters of solar modules, which are part of a photovoltaic system,

2 a arranged for example on a solar module measuring and radio unit with current and voltage measuring sensors and a first radio arrangement,

3 shows a basic arrangement of a device for monitoring arrangement-specific parameters of solar modules with a PC as a central instance and a PC connected to the second radio arrangement and

4 shows a further principle arrangement of a device for monitoring device-specific

Parameters of solar modules with a PC as the central instance and connected to the PC second radio device and the first radio arrangement containing gateway node.

FIG. 1 shows a device for monitoring arrangement-specific parameters of solar modules 1, which Part of a photovoltaic system 2 are. Each solar module 1 is equipped with the device according to the invention for monitoring arrangement-specific parameters 3. This device includes a first radio arrangement 4, which is connected by means of a radio link to the second radio device 5, wherein each radio unit has a connection for connection to an antenna 10, not shown. The second radio device 5 is connected to the central entity 6, which is embodied in FIG. 1 as a personal computer PC. This is controlled by means of an associated control program. The central entity 6 is connected to a database 7 for storing measured values and / or analysis results. Furthermore, control or initialization information, comparison values and threshold values for the method according to the invention can be stored in the database 7. The central entity 6 can be connected to the Internet, then there is the possibility of using an Internet connection by means of a terminal 8 to access the central entity 6 and thus also to the database 7 and all measured values and / or analysis results. Thus, a remote monitoring of the photovoltaic system is possible, which can provide the full range of functions of the central instance 6.

According to the invention, the device to be monitored, which may be a solar module 1, a machine or a vehicle, is assigned a device for monitoring device-specific parameters 3, which is equipped or connected with a plurality of sensors for determining measured values. These sensors detect one or more measurements of the device being monitored, such as current, voltage, power, temperature, motion, and more. Also, detection of multiple currents, voltages, etc. is provided. The values corresponding to the determined measured values are wired or wirelessly transmitted to a central entity 6. The central entity 6 is equipped in such a way that it makes possible an analysis of the values corresponding to the determined measured values as well as a representation of the measured values and / or results of the analysis. The central entity 6 can be realized by a PC with a corresponding PC-controlling analysis and evaluation software.

By means of the solution according to the invention, it is possible to check each individual solar module 1 of a photovoltaic system 2 in real time for its parameters, for example, for the currently generated voltage U. Likewise, the parameter current I and thus the power P can be measured. Another possibility for determining the power P is to form the product of the determined voltage and the determined current value according to P = U * I and to transmit only the result to the central entity.

Thus, solar modules 1, which do not have the full functionality can be located quickly. The system displays an eye-catching module 1 in an output on a screen of the central entity 6 or generates a notification to the responsible maintenance personnel, for example by mail or SMS. In this case, the exact location of the conspicuous module within the photovoltaic system can be determined and displayed.

The central entity 6 can display the measurement and / or analysis values, for example in a graphical form, in the manner of a traffic light with the states "full function", "restricted function" and "defect" or in text form 2 at a central location an overview of the condition of the entire system 2.

Threshold values for the object-specific parameters can be specified at the central instance 6 exceeding or falling below an output of a message, an alarm message or a notification as described above. The measured values and the various analysis values are stored in a database 7 of the central entity and can subsequently be retrieved from the central entity 6 itself or via remote access, for example via the Internet. If access to the central instance 6 via the Internet is permitted, the measurement and / or analysis output can also be output on a terminal 8 connected via the Internet.

Another advantageous feature of the invention is the theft display function. The measured values such as current, voltage and movement determined by the sensors can be used for a theft display at the central instance 6 or an alarm generation. If no voltage and / or current is suddenly measured on a solar module 1 during the day, in addition to a failure of the solar module 1, the cause may lie in the removal of the module 1 from the photovoltaic system, ie a theft.

Another method for theft display is to analyze measured values of motion sensors of the device-specific parameter monitoring device 3. If the solar module 1 is moved at a speed above a predetermined threshold, the theft display is generated. The use of a suitable threshold value is advantageous, since a solar module 1 of the path of the sun can be automatically tracked at a very low speed or a module 1 can move slightly shaped by wind load.

The device for monitoring arrangement-specific parameters 3 advantageously has its own power supply in the form of a battery or a rechargeable battery via the solar module 1. Thus, even at night, so in a time in which the solar module itself no Energy generated, measured values are determined and transmitted, and measured values are determined after separation of the solar module 1 from the photovoltaic system 2, for example by means of the motion sensor and transmitted to the central entity 6.

The device 3 may, for example, also comprise an antenna, a battery or a rechargeable battery as well as a battery charging circuit, which are not shown in FIG.

FIG. 2 shows a measuring and functional unit 9 arranged in the device for monitoring arrangement-specific parameters 3.

The measuring and functional unit 9 is interposed with its terminals IN +, IN- and OUT +, OUT- in a two-wire line, which connects the solar module otherwise either with another solar module of the same string or a downstream arrangement of the photovoltaic system.

This downstream arrangement may be a converter with a control and regulating device of the photovoltaic system or a battery. Whereby the nature of the downstream unit has no significance for the functioning of the measuring and functional unit 9.

This can be configured via the inputs IN of the measuring and functional unit 9. In this way it can be determined which measured values are to be determined or at what time or how often the measured values are to be determined. Furthermore, it can be determined whether and how an analysis of the measured values should take place.

The measuring and functional unit 9 is connected via the ANT terminal to a transmitting / receiving antenna for the wireless transmission of the measured values to the central instance 6. Also shown is a control and logic unit 11 within the measuring and functional unit 9, which the

Functional processes controls. In the functional unit 9, a configurable measuring unit 12 is arranged, to which the sensors, not shown, are connected.

In the figure 3 is an example of an apparatus for

Monitoring of arrangement-specific parameters 3 of solar modules 1 with a PC as the central instance 6 and a second radio arrangement 5 connected to the PC. The solar modules 1 are each assigned a measuring and functional unit 9. Each measuring and functional unit 9 is connected by means of a radio link using the first and second radio arrangement 4 and 5 with the central entity.

FIG. 4 shows an alternative, for example, from FIG. 3. Here, the values of a plurality of measuring and functional units 9 corresponding to the determined measured values are combined in a node 13 and transmitted to the central entity 6. For this purpose, the node 13 has at least one radio arrangement not shown in detail. At the central instance 6 also several second radio devices 5 can be connected. Thus, a

Division of the data to be transmitted in groups of nodes 13 or solar modules 1 done and the number of solar modules to be monitored 1 can be increased.

The method according to the invention can subsequently provide information:

Functioning solar module (also with shading!) By day

Not fully functioning (defective) solar module by day

• Stolen solar module day / night

Faulty radio communication Chaotic shadowing (clouds) over solar panel by day

Accurate localization of eye-catching modules over geographic data

Statistical evaluation of the data

The information is stored over an adjustable period of time in the database 7, displayed in a GUI and, depending on the customer's request, can also be made available in another form, such as email or SMS. By assigning geographical data to the solar modules 1, the service personnel can be directed to the eye-catching modules.

To analyze the operation of the solar modules 1, a characteristic curve of a solar module 1 can be used, which is specified by the manufacturer of the solar module. For example, this characteristic shows the relationship between

Illuminance, current and voltage at a module 1. Such a characteristic curve can also be recorded for a solar module 1 by measurements on the module itself.

The determination of the desired voltage or the desired current can be carried out according to two variants. On the one hand, a conversion of the recorded U / I characteristic curves for the current ambient conditions according to DIN EN 60891 can take place or the expected values for current and voltage are determined from known data sets. After a certain amount of time, you have determined enough data records during operation to no longer have to calculate the setpoint voltage and the setpoint current. Then can be dispensed with such a calculation function in the process.

Regardless of whether there is a series or parallel connection of the solar modules 1, the integration of the

Device for monitoring of arrangement-specific parameters possible. This is also an easy one Interchangeability of the measuring and radio units guaranteed.

The radio-based solution makes it possible to equip any existing solar system with a device for monitoring device-specific parameters without major installation effort. Installation support is provided by a SolarEagle handheld. Depending on the wireless standard, the system can be expanded to an infinite number of modules.

The SolarEagle handheld is a portable mobile device that is characterized by lightness and ergonomics. It is powered by batteries or gold caps and has a display.

Key technical components of the SolarEagle handheld are a GPS receiver and an active RFID reader. For this purpose, the device for monitoring device-specific parameters is also equipped with an RFID module.

The SolarEagle handheld with GPS receiver and active RFID reader makes it possible to plan routes to eye-catching modules in large photovoltaic systems and provides installation assistance through automatic geographic localization.

With the aid of the SolarEagle handheld the ID of the measuring and radio unit is read out, geographical coordinates are assigned automatically via GPS unit. Either the coordinates are stored in the day or they are sent to the central office or they are stored in the handheld and later transferred to the central office. Method and device for monitoring device-specific parameters

LIST OF REFERENCE NUMBERS

1 solar module 2 photovoltaic system

3 Device for monitoring of arrangement-specific parameters

4 first bidirectional radio arrangement

5 second bidirectional radio arrangement 6 central instance

7 database

8 terminal

9 measuring and functional unit

10 Antenna 11 Control and Logic Unit

12 configurable measuring unit

13 knots

Claims

Method and device for monitoring device-specific parametersPatent claims 1. A method for monitoring arrangement-specific parameters in which measurements are determined and output by means of sensors in an arrangement, since they are characterized in that the measured values obtained are transmitted to a spatially separated from the arrangement central instance, that subsequently from the central authority received corresponding measured values are analyzed and that the results of the analysis are output. 2. Method according to claim 1, wherein the values corresponding to the determined measured values are the measured values themselves. 3. The method according to claim 1, wherein the values of the arrangement that have been prepared by the arrangement are the values corresponding to the measured values determined. 4. The method of claim 3, wherein the processed values are measured values which are generated by a first partial analysis in the arrangement itself. 5. The method of claim 3, wherein said processed values are processed Power values are those which are formed in the arrangement from the measured values for the current and the voltage. 6. The method according to claim 3, wherein the processed values are movement values which are formed in the arrangement from the measured values of the motion sensors. 7. Method according to one of claims 1 to 6, wherein the values corresponding to the measured values obtained from a plurality of arrangements are combined into groups prior to transmission to the central authority and transmitted jointly to the central authority. 8. The method according to claim 1, wherein the transmission to the central entity is carried out by means of a wireless transmission method. 9. Method according to one of claims 1 to 8, wherein the arrangement-specific parameters are parameters of solar modules of a photovoltaic system. 10. The method according to any one of claims 1 to 9, d a d u r c h e c e n e c e s, d a s s the Parameters are current, voltage, power, temperature, light intensity, movement, capacity of a power supply and emission. 11. The method according to any one of claims 1 to 10, d a d u r c h e c e n e c i n e, d a s s Analysis of the values corresponding to the measured values takes place in such a way that the measured values are compared with known default values. 12. The method of claim 1, wherein: Analysis of the values corresponding to the measured values takes place in such a way that the measured values of different arrangements compared with each other. 13. Method according to one of claims 1 to 12, characterized in that the values corresponding to the measured values and / or the results of the analysis are output in the form of a graph. 14. The method according to claim 1, characterized in that the position of a solar module is linked to its identification number ID by means of a handheld device, which contains a position-determining system, and that the position data and the ID are stored in a database get saved. 15. Method according to one of claims 1 to 13, characterized in that a position determination in the arrangement itself is carried out by Evaluation of determined signal propagation times or the signal strength RSSI of radio links takes place. 16. An apparatus for monitoring arrangement-specific parameters, with sensors that detect the arrangement-specific parameters, an evaluation unit and transmission means, characterized in that the apparatus has a measuring and radio unit (9) which includes measuring units that detect measured values and a first bidirectional radio arrangement (4), the first bidirectional radio arrangement (4) of the measuring and radio unit (9) is connected, at least indirectly, wirelessly, at least indirectly, to a second bidirectional radio arrangement (5) of a central entity (6). 6) means for analyzing the measured values received by the measuring and radio unit (9) of the arrangement and for displaying the measured values and / or the results has the analysis. 17. The device according to claim 16, wherein the first and the second bidirectional radio arrangement (4 and 5) are each connected to a transmitting / receiving antenna for wireless data transmission. 18. Device according to claim 16, wherein a device has means for analyzing the measured values. 19. The apparatus of claim 16, wherein the arrangement is a solar module of a photovoltaic system.