BE1018076A3 - Communication module for sending data from power line communication meter e.g. electricity meter, to central server, has resources for sending data between meter and central access server via low voltage network - Google Patents

Abstract

The module (1A) has resources for sending data between a power line communication (PLC) meter (6) and a central access server (5), where the meter send the data via a low voltage network to another meter or to a local data collector (4) in neighboring communication modules. The module sends the data via one of a global system for mobile communicationnetwork, Universal mobile telecommunication system, General packet radio serviceor cellular network. An independent claim is also included for a method for sending data between a meter and a central access server.

Description

Communication module for sending data from a consumption meter.

The present invention relates to a communication module for transmitting data from a consumption meter.

More specifically, the invention relates to a communication module for a PLC meter or a so-called "Power Line Communication" meter.

Such a PLC meter is a consumption meter, such as, for example, an electricity, natural gas, water, heat meter or the like, which is provided with means that allow data to be communicated via the electricity network or, in particular, via the low-voltage network.

This makes PLC meters interesting for both consumers and suppliers, since the meter reading is automatically read out, without the intervention of a person, and the meter reading is sent through the electricity network.

With such PLC communication, a carrier wave is modulated with the data to be sent and sent over the electricity cable.

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A disadvantage is that the low-voltage network is sensitive to various sources of interference, as a result of which data traffic over long distances is uncertain.

A related drawback is that it is difficult to draw up a detailed consumption profile, whereby the meter reading is read every 15 minutes, for example.

However, the determination of such a consumption profile is highly desirable, both for the consumer and for the supplier.

Indeed, by giving the consumer insight into his consumption profile, it is possible to take targeted energy, water or heat-saving measures.

For suppliers of electricity, gas, water or the like, knowledge of detailed consumption data is also interesting in order to offer tariff formulas tailored to the consumption profile.

With the liberalization of the market, the increasing awareness of global warming and the general environmental pollution, the demand for a better knowledge of the aforementioned consumption profiles is increasing.

In order to be able to send data over longer distances, a neighboring PLC meter can act as an intermediate point, whereby this PLC meter receives the data from a PLC meter and then in turn sends the received data further to another, neighboring PLC meters until the data arrives at the end of the low voltage line.

In such a configuration, each PLC meter can act as an intermediate point.

At the end of the long-voltage line, a data collector is provided which collects the data from the various consumption meters and then sends the collected data to a data server or central access server (CTS), using an internal or publicly accessible network.

A disadvantage is that the data can only be sent to the central access server if the data collector is operational and if all consumption meters on the relevant low-voltage line are connected to the data collector via the low-voltage network.

For example, if the electricity in one of the buildings connected to the low-voltage line fails, the data collector will not be able to receive data from any building on the low-voltage line in question.

Furthermore, in some countries a large-scale replacement of the existing (analogue) electricity and / or gas meters with PLC meters is foreseen, in order to make the consumer more aware of his consumption.

In anticipation of such a large-scale replacement, a consumer may want a so-called priority placement of a PLC meter, in which only the (analog) meter of the requesting consumer is replaced by such a PLC meter.

A disadvantage is that this "single" PLC meter cannot send data to the central access server due to the lack of neighboring PLC meters and / or data collectors.

The present invention has for its object to offer a solution to one or more of the aforementioned and other disadvantages in that it provides a communication module for transmitting data between a consumption meter and a central access server, the aforementioned consumption meter transmitting data via the low-voltage network can send neighboring communication modules to another consumption meter or data collector, wherein the data collector can transmit the data from one or more consumption meters to the central access server and wherein the communication module is provided with means that allow data from the consumption meter to be sent directly to the central access server if the consumption meter cannot send the data via the low-voltage network.

An advantage is that the communication module can transmit data to the central access server at any time and that data communication remains possible even when malfunctions occur on the low-voltage network; when the data collector is not operational; when neighboring consumption meters do not work or are not present or when the PLC network fails for any other reason.

Another advantage is that the use of such a communication module makes it possible to prioritize a PLC meter at a consumer since, pending a large-scale PLC network where all consumers on the same distribution line are provided with a PLC meter, the communication module is placed in a is able to send data directly to the central access server. ,

According to a preferred feature of the invention, communication between the communication module and the central access server takes place via a GSM, GPRS or UMTS network or another wireless network.

An advantage is that the GSM network offers good coverage.

The communication module is preferably embodied as a separate, replaceable module that is placed either next to the consumption meter or in the consumption meter.

An advantage is that such a module can easily be replaced in the event of defects or if you want to use other technologies for directly sending data.

With the insight to better demonstrate the features of the invention, a preferred embodiment of a communication module according to the invention is described below as an example without any limiting character, with reference to the accompanying drawings, in which: Figure 1 shows diagrammatically and in perspective represents a part of a low-voltage network to which the invention can be applied; figure 2 schematically represents a block diagram of a communication module according to the invention; Figures 3 and 4 show block diagrams of alternative embodiments of the communication module.

Figure 1 schematically shows a part of a low-voltage network in which a communication module 1 according to the invention is applied.

The low-voltage network comprises a distribution station 2 which is responsible for the energy supply of one or more consumers 3 which are connected to the aforementioned distribution station 2.

The distribution station 2 further comprises a data collector 4 which collects the data relating to the consumption of the connected consumers 3, and is furthermore provided with means that enable the received data to be forwarded to a central access server 5, whether or not via an internal or publicly accessible network.

Each of the connected consumers 3 is provided with a consumption meter 6, more specifically a PLC meter, which for example registers the consumption of electricity, natural gas, water, heat or the like, and which transmits the consumption data via the low-voltage network 7 to the data collector 4.

The consumption meter 6 is preferably provided with a communication module 1 which is located in or next to the consumption meter 6.

In a practical embodiment of the invention, the communication module 1 is provided in the form of a separate, replaceable module.

By way of example, in Figure 1, two of the consumption meters 6A-6B shown are provided with a communication module 1A-1B according to the invention, wherein at consumption 3A the communication module IA is placed next to the PLC meter 6A and at consumption 6B the communication module 1B is placed in the PLC meter 6B is placed.

According to the invention, the communication module 1 is provided with means which allow the data from the PLC meter 6 to be sent directly to the central access server 5.

The aforementioned means are preferably designed in such a way that they can send the data from the consumption meter 6 according to one or more communication protocols.

According to a special feature of the invention, the direct communication between the central access server 5 and the communication module 1 takes place in a wireless manner.

The communication module can thus send data to the central access server 5 via a communication network such as, for example, a GSM, UMTS, GPRS network or the like.

As shown in the block diagram of Figure 2, the communication module 1 is connected via a PLC interface 8 to the consumption meter 6, the PLC interface 8 transferring the data from the PLC meter 6 via the PLC protocol and via the low-voltage network to the data collector 4 can send.

According to a preferred feature of the invention, the communication module 1 is provided with a controller 9 which, like the other components of the communication module 1, is supplied by the low-voltage network.

The controller 9 handles the communication, security and application protocols and communicates via the PLC interface 8 with the PLC meter 6.

The controller 9 is provided for this purpose with an internal memory 10 and can optionally be connected to an additional, external memory module 11.

The internal memory 10 of the controller 9 contains one or more chips that have been pre-programmed in order to be able to execute the necessary commands with regard to sending data.

Furthermore, the communication module 1 can also be provided with an identification means 12, for example, in the form of a SlM card, a SIM chip or a Soft SIM (virtual SIM).

However, it is not excluded according to the invention that the controller 9 itself fulfills the function of identification means 12 and in this case no separate SIM card must be provided.

According to a preferred feature of the invention, the communication module 1 comprises a GSM data modem 13, which is designed in a known manner with a modulator and which comprises a transmitting and receiving unit 14, the GSM data modem being connected to the aforementioned controller 9.

The transmitting and receiving unit 14 is provided with one or more outputs 15, whereby a filter 16 can be provided at each of these outputs 15.

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In a practical embodiment in which the network-supported communication takes place via the GSM network, the aforementioned filters 16 will for instance be designed as SAW filters, and these filters have center frequencies of 900 MHz and 1800 MHz respectively.

The transmitting and receiving unit 14 can be connected to a power amplifier 17 which can adjust the transmitting power as a function of the reception sensitivity.

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The outputs of the transmitting and receiving unit are connected to an antenna 18, in particular a multiband antenna.

Additionally, but not necessarily according to the invention, an output 19 can also be provided which supports GSM communication in "direct mode", using the ISM frequency band, and this output 19 can also be provided with a suitable filter to provide.

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The operation of the communication module 1 according to the invention is very simple and as follows.

If the PLC meter 6 wants to send data to the central access server 5, the PLC meter 6 will initially attempt to use the low-voltage network, such that the data is sent to the data collector 4.

Hereby the data will be sent from a PLC meter 6 to another, neighboring PLC meter 6, which stores the data and in turn forwards it to another neighboring PLC meter 6 etc. ("store and forward"), until the data reaches the end point of the distribution line and is therefore received in the data collector 4.

The data collector 4 will then forward the received data to the central access server 5, whether or not using a publicly accessible or internal network.

In the absence of a data collector 4 or an adjacent PLC meter 6 or if the low-voltage network fails for any other reason, the communication module 1 will ensure that the data from the PLC meter is not sent directly to the low-voltage network but via another network. the central access server 5 are controlled.

In this case, the data to be sent will be modulated via the PLC interface 8 in the communication module 1, after which the modulated data will be wirelessly connected via one of the outputs 15 of the transmitting and receiving unit 14 via the multiband antenna 18 to the central access server 5. are sent.

In an alternative embodiment of the communication module 1, which is shown schematically in Figure 3, additional components can be provided with respect to Figure 2 that support two-way radio communication, for example in the form of an RF transmitting and receiving unit 20 with an RF antenna 21, all this in such a way that the network-supported communication can take place via GSM, GPRS or UMTS communication, as well as via radio communication.

Furthermore, the communication module 1 is provided with an additional external input and output 22 for communicating with additional applications.

Figure 4 shows the block diagram of a special embodiment of the communication module 1, which is in accordance with NTA regulation 8130.

The communication module 1 shown is provided with means 23 which support local network-supported communication (GSM and radio communication and others) and means 24,25 which support the local exchange of data with external periphery and peripheral equipment.

In the embodiment shown, the radio communication module 23 supports Mbus standard EN-13757-4, and the means 24 for data traffic conform to the Mbus standard EN 13575-2 / 3.

Furthermore, the module contains a general input and output 25 that can exchange data with the external periphery.

The present invention is by no means limited to the embodiment described by way of example and shown in the figures, but a communication module according to the invention can be realized in all shapes and sizes without departing from the scope of the invention.

Claims (11)

Communication module (1) for transmitting data between a consumption meter (6) and a central access server (5), characterized in that the aforementioned consumption meter (6) transmits data via the low-voltage network via neighboring communication modules (1) to another consumption meter ( 6) or can send to a local data collector (4), that the data collector (4) can transmit the data from one or more consumption meters (6) to the central access server (5) and that the communication module (1) is provided with means which allow data from the consumption meter (6) to be sent directly to the central access server (5) if the consumption meter (6) cannot send the data via the low-voltage network (7). Communication module (1) according to claim 1, characterized in that the direct communication between the communication module (1) and the central access server (5) takes place in a wireless manner. Communication module (1) according to claim 1 or 2, characterized in that the communication between the communication module (1) and the central access server (5) takes place via a GSM, UMTS, GPRS or cellular network. Communication module (1) according to one of the preceding claims, characterized in that the communication module (1) conforms to NTA regulation 8310. Communication module (1) according to one of the preceding claims, characterized in that the aforementioned means enable the data from the consumption meter (6) to be transmitted according to one or more communication protocols. Communication module (1) according to one of claims 2 to 5, characterized in that the above-mentioned means comprise a PLC interface (8), a controller (9), a modulator and a transmitting and receiving unit (14). Communication module (1) according to claim 6, characterized in that the controller (9) receives the data from the consumption meter (6) via the low-voltage network and forwards it to the modulator. Communication module (1) according to claim 6 or 7, characterized in that the transmitting and receiving unit (14) comprises at least one filter (15) and at least one antenna (18). Communication module (1) according to one of the preceding claims, characterized in that the communication module (1) is provided with a SIM card (12), a SIM chip or a Soft SIM (virtual SIM). Communication module (1) according to one of the preceding claims, characterized in that the communication module (1) is designed as a separate, replaceable module (1) which is located next to or in the consumption meter (6). Method for sending data between a consumption meter (6) and a central access server (5), which uses a communication module (1) according to one of the preceding claims, characterized in that if the consumption meter (6) cannot send data via the low-voltage network (7), the aforementioned data is sent via the communication module (1) to the central access server (5).