BE1021756B1 - COMMUNICATION MODULE FOR TRANSFERRING THE CONSUMPTION DATA OF CONSUMPTION METERS AND DEVICE FOR COLLECTING THESE CONSUMPTION DATA - Google Patents

Abstract

Communication module for transferring the consumption data of one or more consumption meters (3, 8-11) from a subscriber to a central application server (6) of a network operator, the communication module (4) being provided with communication means for wireless transfer of the consumption data of one or more of the aforementioned consumption meters (3, 8-11) provided thereon to the communication module (4) and of communication means for wirelessly transferring the consumption data from the communication module (4) to the application server (6), characterized in that that both communication means are formed by a single radio transceiver (17) that can exchange data wirelessly, both with the relevant consumption meters (3, 7-8) and with the application server (6).

Description

Communication module for transferring the consumption data from consumption meters and device for collecting this consumption data.

The present invention relates to a communication module for transferring the consumption data from consumption meters.

More specifically, the invention is intended to allow a network operator of a distribution network of electricity, water, gas, heat or the like to collect the consumption data of its subscribers remotely via a central application server.

People already know the so-called smart electricity meter that can be read remotely and is provided with the necessary measuring, information and communication means.

Such a meter has already been described in the patent BE 1,019,385 of the same applicant.

Such a smart meter consists of a consumption meter for measuring the electrical consumption of a subscriber and a separate communication module which collects the consumption data of the electricity consumption meter as well as the consumption data of other consumption meters of the subscriber such as for water, gas or the like.

The aforementioned known communication module is for this purpose provided with communication means for transferring the consumption data from one or more consumption meters to the communication module and communication means for transferring the consumption data from the communication module to the central application server.

For transmitting this data to the central application server, the known communication module uses, for example, the low-voltage network, cellular networks such as GSM, CDM and others or the cable network.

For exchanging consumption data and other data with secondary consumption meters, the known communication module makes use of wiring and / or wireless connections, whereby in the case of the wireless connections use is made of communication standards such as M-Bus EN13757 (868 Mhz band) and Zigbee (2.4 GHz band).

A disadvantage of both technologies is that the range of such a communication module is limited and unpredictable and, for example, is adversely affected by the presence of walls and other obstacles, so that these technologies cannot be used everywhere.

Another disadvantage is that for the exchange of consumption data and other data between the communication module and the central application server, certain communication technologies do not allow the communication module to always listen to incoming messages, with the result that the existing central application servers and communication modules must be provided in that case are additional means to inform the communication module itself to contact the application server which makes the communication module more complex and expensive.

It is also known that all current communication modules are provided with a radio data modem for exchanging data with the central application server and with an additional separate radio transceiver chip for exchanging data with the secondary consumption meters.

A drawback thereof is that the cost price of this communication module is relatively high and the power consumption during operation is also relatively high.

The present invention has for its object to provide a solution to the aforementioned and other disadvantages.

To this end the invention relates to a communication module for transferring the consumption data from one or more consumption meters of a subscriber to a central application server of a network operator, the communication module being provided with communication means for wirelessly transferring the consumption data from one or more of the aforementioned consumption meters provided thereon to the communication module and communication means for wirelessly transferring the consumption data from the communication module to the application server, characterized in that both communication means are formed by a single radio transceiver that can exchange data wirelessly both with the relevant consumption meters and with the relevant consumption meters application server.

An advantage of the invention is that the cost price and energy consumption of the communication module is substantially lower than that of the known modules.

The invention also relates to a device for collecting the consumption data of one or more consumption meters of a subscriber of a network operator, comprising a communication module per subscriber as described above, one or more consumption meters of the subscriber in communication with it, a network of distribution boxes of the relevant network operator provided with communication means for exchanging consumption data with the communication modules of the subscribers and with at least one central application server of a network operator.

With the insight to better demonstrate the characteristics of the invention, two embodiments of a communication module and of a device according to the invention for collecting the consumption data of consumption meters are described below, with reference to the accompanying drawings, in which: Figure 1 shows the topology of a device according to the invention for collecting consumption data, using a communication module according to the invention; figure 2 represents a block diagram of a first embodiment of a communication module according to the invention as used in figure 1; Figure 3 shows a block diagram of a second embodiment of a communication module according to the invention; Figure 4 shows a time format of the use of the communication module of Figure 3.

Figure 1 shows a distribution network which in this case contains, for example, an electricity distribution network which, as is known, comprises a number of distribution boxes 2 which are geographically distributed for supplying electricity to connected subscribers who each have a consumption meter 3 for electricity.

Connected to the electricity consumption meter 3 is a communication module 4 which turns the consumption meter 3 into a so-called smart meter whose consumption data can be read remotely by the network operator of the electricity network, which has equipped its distribution boxes 2 with a communication platform 5 that uses the consumption data 3 can read out wirelessly and transfer it to a central application server 6 for further processing for invoicing or the like.

In the case of Figure 1, the communication module 4 is an external module which is connected via a wire connection 7 to the consumption meter 3, but which can also be designed with a wireless connection or be integrated in the consumption meter 3.

In the example of Fig. 1, other additional consumption meters are also installed at the subscriber of the consumption meter 3, such as a consumption meter 8 for gas, a consumption meter 9 for water, a consumption meter 10 for heat, a consumption meter 11 for recording generated electricity. of solar panels or the like.

In this case, all additional consumption meters 8 to 11 are designed for a wireless readout and are for this purpose equipped with a wireless transmission element 12 for exchanging data of the relevant consumption meter with the communication module 4.

Peripheral devices 13 such as a screen or the like can also be provided at the subscriber's for communicating wirelessly with the communication module 4.

The exchange of consumption data and additional data on the consumption meters or peripheral devices 13 or the like takes place via a first data channel 14 and with the communication platform 5 in the distribution boxes 2 via a second data channel 15. The data exchange between the distribution box 2 and the central application server 6 is via a third data channel 16.

Figure 2 shows the block diagram of a first embodiment of a communication module 4 according to the invention.

The communication module 4 comprises a radio transceiver 17, in other words a chip which serves both as a transmitter and as a receiver and an antenna connected thereto with filter 18 and a clock 19.

An AC / DC voltage converter 20 provides the power for the communication module 4.

The clock 19 is synchronized in a known manner with the clock of the communication platform 5 of the distribution box 2 which itself is synchronized with the clock of the central application server 6.

The communication module 4 is provided with a microprocessor 21 and with a permanent memory 22 of which a part 22a contains the information of the connected consumption meters 3 and 8 to 11 and of peripheral devices 13 and a part 22b which contains the information with regard to the relevant communication platform 5 from the distribution box 2 and from the central application server 6.

The communication module 4 is also provided with a volatile memory 23, a part 23a of which can serve for storing the consumption data of the consumption meters 3 and 8 to 11 and connected peripheral devices 13 and a part 23b for supporting the microprocessor 21.

To protect the data exchange, the communication module 4 is provided with an encryption means 24 which encrypts and decodes the data from and to the consumption meters 8 to 11 and peripheral devices 13 and an encryption means 25 which encrypts the data from and to the communication platform 5 and central application server 6 and decodes.

In this embodiment of Figure 2, the radio transceiver 17 is programmed to exchange data via the antenna 18 over a single frequency band, both with the consumption meters 8 to 11 and peripheral device 13, as well as with the communication platform 5 and the central application server 6.

The frequency band chosen for this is preferably the frequency band from 169, 400 Mhz to 169.475 Mhz for Europe, this according to the ETSI EN300 220 standard.

This choice is the result of the knowledge that in December 2005 the European Commission harmonized the 169 MHz band and within the 169 MHz band a sub-band of 169,400 MHz to 169,8125 MHz was reserved for smart meter applications and that in 2012 the commission for M-bus standardization has issued an adaptation of the EN13757-4 standard in which the M-bus protocol has been adapted for the 169,400Mhz-169,470Mhz subband.

The operation of this embodiment of the communication module 4 according to the invention can be explained as follows.

The communication module 4 listens for incoming messages, more specifically for messages initialized by one of the connected consumption meters 8 to 11 and peripheral devices 13 and messages originating from the central application server 6 via the communication platform 5.

According to application and parameterization of the communication module 4, the latter can itself take the initiative to set up a connection with the central application server 6 via the communication platform 5.

The communication module 4 can be used as a 'data logger' or as a 'repeater', whereby: - as a 'data logger' the consumption data and additional data of all connected consumption meters 3 and 8 to 11 and peripheral devices 13 are kept in the part 22a of the permanent memory 22, which data can be retrieved by the central application server 6 via the communication platform 5; - as 'repeater', the received consumption data and additional data from all connected consumption meters 3 and 8 to 11 and peripheral devices 13 are first temporarily kept up to date in 23a in order to subsequently forward them via the communication platform 5 to the central application server 3 and vice versa.

Figure 3 shows the block diagram of a second embodiment of the communication module 4 according to the invention.

This embodiment differs from the embodiment of Figure 2 in that the communication module 4 in this case has two antennas, 18a and 18b respectively, which allows the radio transceiver to be programmed to exchange data using two different frequency bands, namely, a first frequency band for communication with each of the relevant consumption meters 8 to 11 and peripheral devices 13, a second frequency band for communication with the relevant communication platform 5.

Preferably, the first frequency band is chosen for the frequency band from 868.00 to 868.600 Mhz and for the second frequency band is chosen for the frequency band from 169.400 to 169.475 Mhz.

The communication module 4 of Figure 3 is additionally provided with a switch 26 and switching means 27 which is controlled by the clock 19 in order to be able to switch the radio transceiver 17 for use with either the first or the second frequency band.

It is also known that most consumption meters 8 to 11 and peripheral devices 13 are battery powered and that, in order to limit the power consumption, the consumption meters and peripheral devices themselves take the initiative to periodically, for example every 15, 30 or 60 minutes, during short time slots T1, to contact the communication module 4 for exchanging the consumption data and additional data.

Figure 4 illustrates a time line on which, as an example, the time interval T = 15 min is indicated, with T1 the period in which the consumption meters 8 to 11 and peripheral devices 13 are programmed to broadcast.

At the same time, the communication module 4 is programmed to listen in synchronized manner within those same time windows T1 via the data channel 14 over the first frequency band for incoming data which is then stored either in the volatile memory 23 when used as a "repeater" or in the permanent memory 22 when used as a "data logger".

The remainder of the period T, the communication module 4 is programmed to switch the radio transceiver 17 to the second frequency band in the remaining time window T2 in order to be able to listen on data channel 15 for messages that would come from the central application server 6 via the communication platform 5 and vice versa.

The time window T1 is of course kept as short as possible for a maximum lifetime of the batteries of the consumption meters and peripheral devices.

It is clear that the electricity consumption meter 3 can also be designed with a wireless transmission element 12 for wireless communication with the communication module 4.

In order to gain access to the consumption data of water, gas and the like, the network operators of these consumption networks will have to request the desired data from the electricity network manager or install their own application server with adapted software to be able to access data from or via the communication platform 5. request, of course with agreement and in consultation with the network operator to which the communication platform 5 belongs or alternatively from or via an own network of communication platforms.

By way of example, a device 1 has been described above that uses the electricity distribution network to collect the consumption data of subscribers connected to this distribution network, using the infrastructure of this distribution network to centralize all this consumption data via to make this infrastructure and this data available to the network operator of this distribution network and to other network operators.

It is of course not excluded that in such a device the infrastructure of the network operator of the electricity distribution network is not used to collect the consumption data of a subscriber, but for example the infrastructure of the water company, gas company or the like.

The present invention is by no means limited to the embodiments described by way of example and represented in the figures, but a communication module and device for collecting consumption data according to the invention can be realized in all shapes and sizes without departing from the scope of the invention.

Claims (14)

Conclusions. 1. - Communication module for transferring the consumption data from one or more consumption meters (3.8-11) from a subscriber to a central application server (6) of a network operator, wherein the communication module (4) is provided with communication means for wireless transfer of the consumption data of one or more of the aforementioned consumption meters (3, 8-11) provided thereon to the communication module (4) and of communication means for wirelessly transferring the consumption data of the communication module (4) to the application server (6) characterized in that both communication means are formed by a single radio transceiver (17) that can exchange data wirelessly, both with the relevant consumption meters (3, 7-8) and with the application server (6). Communication module according to claim 1, characterized in that the radio transceiver (17) is programmed to wirelessly exchange data between, on the one hand, the communication module (4) and the relevant consumption meters provided for this purpose, and, on the other hand, between the communication module ( 4) and a communication platform (5) provided for this purpose in a distribution box (2) of the electricity grid and in communication with the application server (6) for exchanging data. Communication module according to claim 2, characterized in that the radio transceiver (17) is programmed to use the same common frequency band for exchanging consumption data between the communication module (4) and each of the relevant consumption meters (3.8-11), on the one hand , and, between the communication module (4). and the relevant communication platform (5), on the other. The communication module according to claim 3, characterized in that the radio transceiver (17) is programmed for use with the common frequency band from 169,400 MHz to 169,475 MHz. Communication module according to one of the preceding claims, characterized in that the communication module (4) continuously listens for incoming messages from the relevant consumption meters (3.8-11) and from the relevant communication platform (5). Communication module according to claim 2, characterized in that the radio transceiver (17) is programmed to use one specific frequency band for exchanging consumption data between the communication module (4) and each of the relevant consumption meters (3.8-11), on the one hand and, another frequency band for exchanging consumption data between the communication module (4) and the relevant communication platform (5), on the other hand. Communication module according to claim 6, characterized in that the radio transceiver (17) has two antennas (18) and that the radio transceiver (17) is programmed to use a first antenna (18a) for exchanging consumption data over a first frequency band between the communication module (4) and each of the relevant consumption meters (3.8-11), on the one hand, and to use a second antenna (18b) for exchanging consumption data over a second frequency band between the communication module (4) and the communication platform (5) on the other hand. A communication module according to claim 7, characterized in that the first frequency band is the frequency band from 868.00 to 868.600 Mhz and the second frequency band is the frequency band from 169.400 to 169.475 Mhz. Communication module according to claim 7 or 8, characterized in that it comprises a clock (19) and a clock-controlled switch (26) for switching the antennas and frequency bands of the radio transceiver (17) between the first and the second frequency band. Communication module according to claim 9, characterized in that the consumption meters have a clock (19) which ensures that consumption data is periodically transmitted for only short time windows (T1) and that the clock (19) of the communication module (4) is the same synchronized time windows (T1) is switched to exchange consumption data with the consumption meters (3.8-11) using the first frequency band, while for the rest of the time the radio transceiver is switched to the second frequency band for possible data exchange with the application server (6). Communication module according to one of the preceding claims, characterized in that it is provided with a permanent memory (22) which contains information regarding the consumption meters (3.8-11); to the communication platform (5) of the respective distribution box (2) and to the application server (6). Communication module according to one of the preceding claims, characterized in that it is provided with a memory (23) for storing the consumption data of the connected consumption meters (3.8-11). Communication module according to one of the preceding claims, characterized in that it has encryption means (24, 25) for encrypting and decoding the consumption data exchanged with the consumption meters (3.8 - 11) and with the application server. (6). Device for collecting the consumption data of one or more consumption meters (3.8-11) of a subscriber of a network operator, comprising a communication module (4) per subscriber according to one of the preceding claims, one or more in communication with it standing consumption meters (3.8-11) of the subscriber, a network of communication platforms (5) of the relevant network operator to exchange consumption data with the communication modules (3.8-11) of the subscribers and with at least one central application server (6 ) from a network operator.