FR3077696A1 - DEVICE FOR REPLACING A WIRELESS CONNECTION BETWEEN AN ENERGY METER AND AT LEAST ONE ELECTRONIC APPARATUS THROUGH A WIRELESS CONNECTION, ASSOCIATED METHOD - Google Patents

Abstract

According to a first aspect, the invention relates to a device (1) for replacing a wire link (2) between an electric energy meter (3) and at least one device (5) using at least one information from said counter, for example a radio frequency link (10). Said virtual cable comprises an upstream subset (8) connected by an interface (12) to a communication port (4) of an energy meter (3) and at least one downstream subassembly (9) comprising in particular an interface (19) for communicating the at least one information from said counter returned to the at least one device (5) user of the information. According to a second aspect, the invention relates to a method implemented by software in a virtual cable (1) according to the invention.

Description

DEVICE FOR. REPLACING A WIRED LINK BETWEEN AN ENERGY METER AND AT LEAST ONE ELECTRONIC DEVICE WITH A WIRELESS LINK, ASSOCIATED METHOD

Technical area

The invention lies in the field of devices for managing electrical energy.

State of the art

Electronic electrical energy meters generally include an interface for supplying information to one or more electronic devices capable of exploiting the information coming from the meter by means of a wired link. This is the case in France for counters called "CBE" (Compteur Bleu Electronique), Linky or even digital counter which include a terminal block for the output called "Télé Information Client" or "TIC". When the meter is not installed inside the accommodation or professional premises but outside, for example on the landing or at the foot of a building in collective housing or outside on the property line in the case from a pavilion, it can be complicated and expensive to pull a cable to communicate the meter with a device installed for example in the electrical panel of the accommodation or professional premises. We know the accessory of the Linky meter called “ERL” (Radio Linky Transmitter) acting as a gateway with a local home automation radio network as a wireless alternative to the basic wired link of the Linky meter but the use of this accessory does however pose problems. For example, this accessory requires that the devices wishing to use the counter data include within them a receiver and software compatible with the communication and information coding standards which have been adopted in this accessory. In this case, the receiving device must include a “ZigBee” or “KNX RF” reception subset, which is very restrictive given the existence of many other standards that are also of interest to users. However, these home automation standards are not technically the most appropriate when the meter is not installed in the room where the other devices with which it must collaborate are located. In addition, the "ERL" accessory requires the use of a specific remote control unit to associate the transmitter with a

-2 compatible receiver during installation. This technical solution has the disadvantage of requiring an object which is only used during the installation of the gateway, which complicates it and makes it impossible in the event of loss or forgetting of the specific remote control unit.

Statement of the invention

The aim of the present invention is to at least partially remedy the problems mentioned above by proposing a wireless alternative to drawing a cable between an electronic energy meter and at least one device capable of receiving information from this meter, this without excluding this possibility. The device forming the wireless alternative according to the invention, called a "virtual cable", also provides for not requiring additional means to make the association between an upstream sub-assembly and the at least one downstream sub-assembly. to receive and restore the data transmitted by this upstream subset.

The invention allows the electrician in particular to have the choice and to arbitrate at the place of installation, between the traditional installation of a wired link between the meter and the at least one device using information. from the meter, and the installation of a virtual cable according to the invention. The solution according to the invention is more advantageous than the traditional solution when the pulling of a cable requires a technically difficult and / or long and / or aesthetically problematic intervention and / or too labor-intensive for the customer. . The solution according to the invention can even extend the capacities for moving the meter away from the data point of use in that the maximum length for a hardware cable connection is of the order of 500 m, this maximum distance being easily able to be doubled using a virtual cable according to the invention. The invention also allows the manager of the electrical network to offer its electrosensitive or simply refractory customers the installation at home of a new generation communicating meter for reasons that are not necessarily rational, to install the meter outside the housing without losing the potential benefits of such a meter for the user and the manager of the electricity network.

-3 According to a first aspect, the invention relates to the device called "virtual cable" to replace a wired link, between a communication port of an electric energy meter and the corresponding communication port of at least one device using at least one piece of information from said counter, via a radio frequency link.

The virtual cable according to the invention comprises:

- An upstream sub-assembly comprising a radio-frequency transmission sub-assembly capable of transmitting recurrently a series of data transporting at least one item of information from said meter, an interface connectable to a communication port of an electric energy meter directly by means of a cable or via an optical, inductive or capacitive coupler, at least one microprocessor, at least one program memory comprising at least one software component implementing a communication protocol for transmitting in a manner recurrent by radio frequency all or part of said series of data, and a subset of low voltage power supply. Said power supply sub-assembly having to supply one or more low voltages at the required intensity from one or more combined energy sources available near the meter to facilitate the installation of the upstream sub-assembly according to the invention;

- at least one downstream sub-assembly comprising a radiofrequency reception sub-assembly capable of receiving the signals transmitted by said radiofrequency transmission sub-assembly, at least one microprocessor, at least one program memory comprising at least one software component putting implements a communication protocol for receiving the data transmitted by radio frequency and for restoring the at least one item of information from said counter, an interface for communicating the at least one item of information coming from said counter restored to the at least one device using at least information from said meter, and a sub-assembly of low-voltage power supply.

The at least one downstream sub-assembly intended to be installed in the electrical panel or at any suitable place in the accommodation or professional premises. The low voltage power supply sub-assembly is

-4 for example a linear or switching power supply producing at least one low voltage necessary for the operation of the electronic components included in the downstream sub-assembly from the voltage of the 230 V low-voltage electrical network of the installation of the premises. It is also provided in certain variant embodiments of the invention that the low voltage electrical power supply subassembly is at least partially shared with another device. This for example in the case of the integration of the downstream sub-assembly according to the invention in another device already having a low-voltage power supply sub-assembly for its own operation, or in the case of the use in an electrical panel of a modular power supply unit ensuring for example the supply of an alternating or direct voltage of 12 V or 24 V from the alternating voltage of the electrical installation of the room. In certain particular cases such as for example a wall display device for consumption information and / or other information coming from the meter, it is planned to supply said downstream sub-assembly by battery and / or by photovoltaic cells for facilitate installation, this taking into account the low power required for the operation of such a device and the possibilities of extending the life of a battery, for example by interrupting the consumption of the device when it is in insufficient lighting conditions to read the information and / or using an electronic paper type display, etc.

The invention provides that said upstream sub-assembly and / or said downstream sub-assembly further comprise hardware and / or software means for associating a given upstream sub-assembly and each of the at least one downstream sub-assembly which must restore at least one item of information from said counter transmitted by this upstream sub-assembly. It is for example a push button and at least one software component associated with its management in each upstream and downstream sub-assembly according to the invention. Variants are also provided comprising an address selector which it suffices to set identically on each of the subassemblies which are to operate together. Variants are also provided based on the use of near field communication means of the “N FC” type, for example to read the unique number of an upstream sub-assembly by means of a smartphone placed in contact with it and

- 5 executing an appropriate application, then transferring this unique number to a non-volatile memory included in each downstream subset to be associated. If necessary, at least one encryption key is also transferred to ensure the confidentiality of the information transmitted by radio frequency between the associated sub-assemblies. Dual access eeprom memory, for example from the M24LR series. of the STMicroelectronics silicon founder, is particularly suitable for the implementation of this variant of the invention in that this component provides the functions of NFC communication between an external terminal and the non-volatile memory, non-volatile memory accessible in reading and writing to the host microcontroller and supplying a unique number readable both by NFC and by the host microcontroller. Other variants using a specific terminal, a remote control, a smartphone, a tablet or a computer are also provided for entering or selecting a common single installation address or for designating the sub-assemblies according to the invention which are to collaborate.

The invention further provides to restore the information from said counter in whole or in part in its native format. For example by reproducing at the output of a downstream subset, the same frame structure and / or the same elementary information group structure for the information groups which are restored, and / or the same asynchronous character structure and / or the same bit rate and / or the same physical interface, as the counter.

The invention provides that said downstream sub-assembly further comprises a communication port having the same functional characteristics as those of a communication port of said meter. This is to allow a functional equivalence between a real cable connection and a virtual cable connection according to the invention. All the operating modes of a communication port of a counter being considered to be functionally identical within the meaning of the invention. For example the so-called standard and historical modes of the TIC output of Linky. Thus, it is not going beyond the scope of the invention if the communication port of the counter uses one mode and that of the at least one downstream subset another mode.

The invention provides that said downstream sub-assembly further comprises hardware and / or software means forming at least one gateway with at

-6less another local network based on another communication standard to deliver at least one piece of information from said counter to at least one device compatible with this other communication standard. This involves, for example, translating at least one item of information from the counter into another standardized form and transmitting it to possible other devices conforming to this other communication standard, by radio frequency, by carrier currents, or even by a other type of wired or optical link. It is also a question of implementing in the at least one gateway, the association or pairing methods specific to each other standard implemented so that the at least one gateway can be functionally associated with the devices with which it is expected to interact. In particular in France, the invention is expected to advantageously replace the solutions included in the state of the art such as "ERL". Therefore, it is expected that the variant of the invention for this country offers at least connectivity with the standards implemented in "the ERL" that are "ZigBee" and "KNX RF". More sophisticated variants are also provided, which include, for example, an 868 MHz radio transmitter, a 2.4 GHz radio transmitter, or even also a 433 Mhz radio transmitter, a PLC transmitter configurable by software. The goal is to embed in a universal and lasting downstream sub-assembly, the material base necessary for compatibility with most of the many present and future standards of home automation and consumer electronics (io-homecontrol, ZigBee, X2D , EIB / Konnex or KNX, Z-Wave, Thread, Bluetooth, Wi-Fi, Wireless USB etc.). Thus the user can then himself download on one appropriate Internet site one or more software allowing to form the gateway or gateways compatible with the communication standards of the devices which interest him by updating the software of the downstream subset according to the invention from at least one downloaded software, with the technical means and according to the procedures which have been adopted in each variant implementation of the invention.

The invention provides that said upstream and downstream sub-assemblies further comprise software and / or hardware means for respectively encrypting and decrypting all or part of the information transmitted by radio frequency. This is to ensure the confidentiality of the information transmitted by

-7radiofrequency by any appropriate symmetric or asymmetric cryptography means. For example by means of software or a hardware cryptoprocessor to encrypt the information before its transmission by the upstream subset and to decrypt it in the at least one associated downstream subset. The decryption key being advantageously transmitted by an upstream subset to the at least one downstream subset during their association. It is also planned to transmit the encryption and / or decryption keys to the sub-assemblies concerned by NFC if necessary.

The invention further provides that said upstream sub-assembly automatically adapts to all or part of the technical characteristics of the serial link of the communication port of said meter. This involves ensuring that the downstream sub-assembly according to the invention self-configures as soon as it is connected to a communication port of the meter and suitably supplied with energy. The objective being to make the virtual cable according to the invention immediately functional without any other parameter setting or adjustment than those which are linked to the functional association of the upstream and downstream subsets. In the case of conventional asynchronous serial communication ports, this involves, for example, recognizing the polarity, the bit rate of the link and the format of the word transmitted. For example the number of data bits, the presence of a parity bit, the type of parity, the number of stop bits etc. The objective being that the software embedded in the upstream sub-assembly according to the invention appropriately configures its own reception channel of “UART” type in order to be able to correctly receive the information coming from the counter.

The invention further provides that at least one technical characteristic of the serial link of the communication port of said counter is transmitted to the at least one downstream subassembly associated by radio frequency in order to restore the at least one item of information originating from said counter by a serial link having the same at least one technical characteristic. This involves ensuring that at least one associated downstream sub-assembly adapts the characteristics of its outgoing interface so that the user devices connected to it do not see any difference between a connection to the meter by a real cable. and a connection by a virtual cable according to the invention.

- 8 The invention further provides that, the instant of the transmission, and / or the duration of the transmission, and / or the bit rate of the transmission, and / or the length and / or the content of said data series. transmitted by said upstream sub-assembly is determined as a function of the value of at least one item of information from the electric energy meter and / or as a function of the amount of energy available for supplying all or part of the sub- upstream assembly. Modern energy meters have a communication port for cyclically transmitting a frame including information of interest that can be used by external devices. Some of this information may be critical for user devices such as load shedding devices or energy managers, which must be informed as soon as possible of a critical change such as exceeding the contract power so that they can act on loads before the installation trips. Furthermore, the use of shared and freely accessible radio frequency communication channels presupposes compliance with common rules by each of the transmitters so that the resource is shared in a generally fair manner. The applicable standards and recommendations impose conditions to be respected by the transmitters with regard to the instant of the start of a transmission, the maximum duration of emission and the minimum duration of silence between two consecutive emissions. For example, CEPT recommendation ER.C / R.EC / 70-03, applicable for non-specific uses of the ISM band, requires a duty cycle of less than 0.1%, which corresponds to a maximum total duration of transmission. only 3.6 s per hour, a maximum continuous transmission time of 0.72 s and a minimum silence time between two consecutive transmissions of 0.72 s. In addition, the energy resource is scarce for supplying said upstream sub-assembly in most of the variant embodiments of the invention. In these variants, it is necessary to accumulate energy in a buffer capacity before being able to transmit data for a period which is limited by the amount of energy which has been previously stored. In order to best accommodate these strong constraints, the invention provides for intelligently using the radiofrequency transmission channel, taking into account the characteristics of the data to be transmitted and / or the amount of energy available in the upstream subset if necessary. , to determine the times at which

-9 emit, the duration of the emissions and the data whose emission is to be privileged, taking into account for example their criticality for the user devices.

The invention further provides that the information returned by said downstream sub-assembly has a structure identical to the same information received from the counter by said upstream sub-assembly. Indeed, the invention provides for alternative embodiments where the frame received from the counter is retransmitted in full identically by radio frequency. However, more sophisticated variants are provided to respect the identity in terms of structure not at the frame level but at the level of the groups or of independent information blocks which constitute the frame. Thus the efficiency of the use of the radiofrequency channel is improved in that the upstream sub-assembly favors the transmission of groups or blocks presenting a criticality character or whose values have just changed compared to the transmission of groups or blocks which are not operated in real time or whose value has not changed since the previous transmission. User devices which search in the frames which they receive for the standardized groups or blocks of information which interest them can easily accommodate a rearrangement of the groups or blocks of information which they receive relative to the structure of the standard frame transmitted by the meter.

The invention further provides that said upstream subset is arranged to favor the transmission by radio frequency of data associated with information which has changed within the recurring sequence of information originating from the counter, and in that said subset downstream is arranged to locally reconstruct all or part of the recurring sequence of information originating from the counter within which the information which has changed is updated after reception of the corresponding data by radiofrequency. It is a refinement of the invention aiming to reconstruct at the level of the downstream sub-assemblies, the original structure of the frame as transmitted by the counter even if the frame transmitted by radio frequency by the upstream sub-assembly has a different structure. This makes it possible, for example, to reduce the end-to-end transmission times of information which has changed in the frame coming from the counter or

- 10 to increase the refresh rate of critical information in the reconstructed frame transmitted to user devices.

The invention further provides that said low-voltage power supply sub-assembly extracts all or part of the energy necessary for the operation of said upstream sub-assembly, from the signal transmitted by said counter and / or from an auxiliary supply supplied by said meter and / or a current transformer, the primary of which is formed by at least one passage of at least one of the wires of the electrical network entering or leaving said meter and / or of a battery or an electrochemical accumulator. This involves recovering the energy necessary for the operation of the upstream sub-assembly in its direct environment, which is generally far from a connection to the low-voltage electrical network that would be usable.

The invention further provides that said upstream sub-assembly is included in said counter. It is a variant of the invention where the upstream assembly formed by said energy meter and said upstream sub-assembly is rationalized by the grouping of the two functions in the form of a meter communicating by radio frequencies towards the downstream installation. This variant is advantageous when the use of a virtual cable according to the invention becomes the majority in a fleet of meters. Indeed, hardware means such as the power supply sub-assembly can be shared, the interface between the counter function and the upstream sub-assembly function, which becomes an internal hardware and / or software link, can be considerably simplified, the casing of the upstream sub-assembly can be eliminated and the installation costs reduced.

The invention further provides that said downstream sub-assembly is included in an apparatus using at least one item of information from said counter, said downstream sub-assembly restoring at least one item of information from said counter in all or part of its native structure such as transmitted by said counter. By all or part of its native structure is meant the fact that the native structure of the at least one item of information from the counter is kept only at the level of one or more blocks or groups of information included in the frame which is transmitted. cyclically by the counter. Or it is expected that at least one item of information from the counter is restored at the level of the word having a type structure

- 11 “UART” and is directly transmitted from UART to UART to a microcontroller included in a device using the information, without going through steps of modulation and demodulation of a signal.

The invention further provides that said downstream sub-assembly uses the same material means as those already implemented in a device using at least information from a counter to receive data broadcast by radio frequencies in so-called broadcast or multicast modes. by a network external to the room with which said counter is associated. This is a particularly advantageous variant in which the downstream subset function according to the invention is implemented by software in a radio frequency modem already included in an apparatus using at least one item of information from said counter. Said radio frequency modem operating for example in the ISM band according to a long range and low consumption standard such as Sigfox, LoRaWAN or NB-ioT, is arranged to be placed by default in a listening mode allowing it to receive data broadcast in broadcast or multicast mode that can be used by the device, for example to act on power loads of the electrical installation within the framework of the management of the electrical network. In the variant according to the invention, the radio frequency modem is also arranged to receive the data transmitted by the upstream sub-assembly according to the invention with the same hardware means and appropriate software, that is to say at no additional cost for the device. . The upstream sub-assembly corresponding to this variant of the invention is designed to be compatible with the standard used for the modem and to transmit at least one item of information from the counter in the same way as the multicast mode of said standard, but with a feature allowing the software included in the radio frequency modem or in a microcontroller included in the device, to distinguish the information broadcast by a network external to the local and the information transmitted by the upstream sub-assembly from the counter associated with the local.

It is also provided in certain variants that the information is restored in a form which can come from a counter which is not that in which the counter transmitted it to the upstream sub-assembly. This for example to standardize the downstream use of a heterogeneous fleet of meters by using the virtual cable according to the invention to deliver the

- 12 minus information from a counter in a single pivot format notwithstanding the diversity of incoming formats. In France, this corresponds, for example, to the use of the invention to standardize the information produced by a fleet comprising electromechanical meters, first generation electronic meters of the “CBE” type and Linky meters with downstream sub-assemblies restoring the '' at least one piece of information in the most complete format, which in this case is that of the Linky counter. The information format in the broad sense also includes the bit rate of the links. Where appropriate, an upstream or downstream sub-assembly according to the invention completes with additional information the information which the previous generation counters do not provide but which are provided in the output format restored by the at least one downstream sub-assembly . For example, time stamping information which can be produced locally in one of the sub-assemblies according to the invention by a hardware calendar clock or by means of a gateway with a network which can provide the time and date. It is also provided in the case of an electromechanical meter that the main characteristics of the contract such as the intensity and / or the type of tariff subscribed are written in a non-volatile memory included in the upstream sub-assembly during installation. , for example by means of an NFC type coupling included in the upstream sub-assembly and by using a standard smartphone running an application provided for this purpose. It is also expected that the off-peak / peak hours signal from a 175 Hz remote control relay is recovered from a physical input provided for this purpose in the upstream sub-assembly according to the invention so that this additional information and signals are translated into information and returned to user devices after encoding, transmission and restitution in the most complete format selected as universal pivot format at the output of the virtual cable.

It is also provided in certain variants that the downstream sub-assembly provides the user device in which it is included, a communication port allowing a direct wired connection, or via a coupler, to a energy.

It is a refinement of the invention which consists in adding a communication port to a downstream subset integrated into a user device.

- 13 directly compatible with that of a counter. The goal being that the user device can be connected to the meter indifferently by a virtual cable according to the invention, the complementary port then not being operated, or by a real cable connected to the complementary wired port included in the downstream sub-assembly. .

According to a second aspect, the invention relates to a method implemented by software in a virtual cable according to the invention comprising an upstream sub-assembly and at least one downstream sub-assembly, to replace a wired link between an energy meter electrical and at least one device capable of using at least one item of information from said meter by a radio frequency link.

The method according to the invention comprises:

a step of reception, by said upstream sub-assembly, of a flow of recurrent information leaving a communication port of said electric energy meter,

a step of transmission by radiofrequency, by said upstream subset, of a series of data for transporting all or part of said flow of recurrent information,

- At least one step of restoring at least part of said recurrent information flow by at least one downstream subset associated with said upstream subset.

The invention provides that the method further comprises at least one prior step of association of an upstream subset with at least one downstream subset to functionally associate these subsets.

Where appropriate, this step further comprises the transmission of at least one decryption key by the upstream sub-assembly to the at least one associated downstream sub-assembly.

The invention provides that the method further comprises:

at least one step of identifying at least one item of information that has changed in said recurrent information flow, this step being implemented by software in said upstream subset,

- At least one step of radiofrequency transmission of a series of data transporting the at least one piece of information that has changed in said recurrent information flow, this step being implemented by hardware and software means in said upstream sub-assembly ,

- At least one step of reconstituting at least part of said recurrent information flow from unchanged information previously received and kept in memory and from newly received information following the change of at least one information in said flow d recurring information, this step being implemented by software in said downstream sub-assembly.

This refinement of the method according to the invention is particularly advantageous in that it makes it possible to reconstitute, locally in each downstream sub-assembly at the output of the virtual cable according to the invention, a recurrent flow of information of interest possibly identical in all or part of the information flow from the counter. This although the radiofrequency communication between the upstream sub-assembly and the at least one associated downstream sub-assembly can be progressively reduced to the transmission of data from the only information groups of interest whose value has changed, and where appropriate prioritize the updating of the most critical information by reducing the latency times concerning them. It is also planned to periodically unconditionally retransmit the data of all the information groups of interest of the incoming flow in order to restore all the useful information in the downstream sub-assemblies, and thus restore the operation of the downstream sub-assemblies which may have occasionally malfunction. Unconditional retransmission being, depending on the implementation variants carried out group of information by group of information or by grouping all or part of the information contained in a frame coming from the counter.

Brief description of the drawings

Other advantages and characteristics of the invention will appear on examining the detailed description of non-limiting modes of implementation, and the attached drawings in which:

Figure 1 illustrates the invention in its implementation context. FIG. 2 illustrates the internal structure of said upstream sub-assembly.

FIG. 3 illustrates the internal structure of said downstream sub-assembly.

Figure 4 illustrates the power sources of said upstream sub-assembly.

Figure 5 illustrates the association of the upstream and downstream subsets.

FIG. 6 illustrates a representative case of implementation of the invention.

FIG. 7 illustrates the method according to the invention.

Detailed description of the figures and embodiments

FIG. 1 illustrates the virtual cable (1) according to the invention in its context of basic implementation. The virtual cable (1) according to the invention is presented to the electrician installer as an alternative to drawing a cable (2) to route information from an electric energy meter (3) via 'a communication port (4) provided for this purpose, up to one or more devices (5) equipped with a suitable communication port (6). The meter communication ports are for example in France the "Télé-Information Client" output of so-called "CBE" electronic meters (acronym of Compteur Bleu Electronique by extension of EDF COMPTEUR. BLEU, registered trademark of ELECTRICITE DE FRANCE) and "LINKY" (registered trademark of ENEDIS). It is a terminal block designed to receive a twisted pair on which information usable by external devices is transmitted by all-or-nothing modulation of a carrier frequency at 50 kHz. The data is transmitted cyclically in series asynchronously in a character format known by the acronym "UART" (in this case 1 start bit, 7 data bits, 1 parity bit, 1 stop bit) to a bit rate which, depending on the type of counter or the choice of mode, is 1200 or 9600 bits per second. The data is transmitted continuously in the form of frames repeated in a loop, each of the frames being structured in independent groups or blocks of standardized information. Each information group includes a label which makes it possible to identify it, the data relating to this label and a checksum making it possible to verify the integrity of the information group received. These three fields are separated by appropriate control characters.

The invention can also advantageously be implemented within the framework of a bidirectional link by using the communication port dedicated to the network manager known under the name "EURIDIS" to allow for example the remote reporting or the remote reading in property boundary without first having to pull a cable and without having to install a remote reporting unit equipped with an inductive coupler. It is also planned to use the invention with meters equipped with a communication port based on an interface

- 16 optics, for example according to standard IEC 62056-21, or based on an inductive or capacitive coupling by means of an appropriate coupler (7). The invention also provides for using optical access to at least one index and / or to the rotating disc and its marking as a virtual communication port of an electric energy meter of electromechanical type. In this case, the appropriate optical coupler is for example a mirror associated with a micro-camera and with character recognition software for reading one or more indexes and / or a led-sensor pair to count the turns representing 1 Wh to count the drawn energy and / or to measure the speed of rotation of the disc in order to deduce the drawn power. The wired interface in this case consists of all the conductors connecting the optical coupler (s) to the rest of the electronics of the upstream sub-assembly. According to the variants of the invention, said wired interface is internal to a monobloc box comprising both the optical coupler (s) and the rest of said upstream sub-assembly, or it is embodied in the form of a disconnectable or fixed cable connecting the optical head of the coupler to be fixed on the glass wall of the meter at the appropriate place for the acquisition of visual information of interest and the main part of said upstream sub-assembly. Of course, it is not going beyond the scope of the invention if other wired interface standards such as R.S485, CAN, LIN, USB etc. are implemented. The virtual cable (1) according to the invention comprises an upstream sub-assembly (8) and at least one downstream sub-assembly (9). These transmitter and receiver sub-assemblies communicate by a radio frequency link (10). The radio frequency link is at least unidirectional in the transmitter to receiver direction, but the invention also provides for the use of bidirectional transmitter sub-assemblies in place of said transmitter and receiver sub-assemblies, in particular in the case of a bidirectional link between the counter and the at least one device using at least one item of information from said counter.

FIG. 2 illustrates the internal structure of said upstream sub-assembly.

The upstream sub-assembly (8) comprises a radiofrequency transmission sub-assembly (11) capable of transmitting recurrently a series of data carrying at least one item of information from said counter. Depending on the uni or bidirectional nature of the required link, it is an integrated circuit comprising all or part of the functional blocks necessary for the

- 17 function of radiofrequency transmitter, or of an integrated transmitter circuit comprising all or part of the functional blocks necessary for the transmitter and receiver functions of which only those necessary for transmission are used in the case of a unidirectional downlink. There is also provision for the advantageous use of the reception capacities of a transmitter, even in the case of a unidirectional link, in order to be able to implement a mechanism for accessing the transmission medium based on prior listening to the transmission channel. before broadcasting. A simple and economical implementation of the invention requires the choice of an unlicensed frequency band or a frequency band reserved for managers of electrical networks. The use of so-called “ISM” frequency bands, for example 433 MHz, 868 MHz, 2.4 GHz, 5.8 GHz in Europe, or equivalent frequencies abroad, is to be preferred. Particular preference will be given to bands below 1 GHz, which are better able to offer the range and robustness required in environments with difficult propagation conditions with reinforced concrete walls or floors to be crossed. An intrinsically robust modulation such as GFSK or LoRa (registered trademark of Semtech Corporation), and a low bit rate will be preferred to maximize the robustness of the radiofrequency link in the context of the invention. The integrated circuits referenced respectively SX1261 and CC1120 in silicon founders Semtech and Texas Instruments are examples of recent components suitable for implementing the radio frequency emission sub-assembly according to the invention. The upstream sub-assembly (8) further comprises an interface (12) connectable to a communication port (4) of an electric energy meter (3) by means of a cable (13), directly or by the 'through an optical, inductive or capacitive coupler. In the case of a “CBE” or “LINKY” counter, a demodulator sub-assembly produced from a monostable logic integrated circuit such as a 74HC123 or a CD4047 makes it possible to extract the envelope of the signal at 50 kHz to form a series of data in “UART” type format, at a rate of 1200 or 9600 bits per second respectively, these data being directly capable of being serialized and processed by a standard microcontroller. In the case of using an optical, inductive or capacitive coupler, the interface (12) is an appropriate demodulator circuit according to the carrier frequency and the type of modulation used. In the case of a USB interface or any other standard wired interface, the interface (12) is formed from the hardware and / or software components suitable for receiving the data coming from the counter. The upstream sub-assembly (8) further comprises at least one microprocessor (14) at least one program memory (15) comprising at least one software component implementing at least the transmission part of a communication protocol capable of transmitting recurrently by radio frequency said series of data. According to the variant embodiments of the invention, these elements are wholly or partly included in at least one microcontroller or in a "system on a chip".

The upstream sub-assembly (8) further comprises a low-voltage electrical power supply sub-assembly (16) to meet the requirements for supplying voltage and current to the electronic components that it comprises. The power supply subassembly advantageously comprises a capacitor of high capacity, or even a capacitor of the "super capacitor" type for accumulating energy from one or more sources (17) whose unit or combined intensity is lower. to that which is necessary to supply the upstream sub-assembly in transmission. The invention provides for managing the transmission of data as a function of the energy available. Provision is therefore made, if necessary, for periods of inactivity of the emission subset, and if necessary of at least part of the microcontroller, for accumulating energy coming from low power sources between two radiofrequency emissions.

Of course, it is not going beyond the scope of the invention if several functional blocks presented as distinct are integrated in the same electronic component. For example, a component such as the CC1310 of the Texas Instruments silicon smelter comprises three microprocessors, four separate program memories as well as a radio frequency transmission sub-assembly (11), a radio-frequency reception sub-assembly, a part of the interface (12) and even part of the low voltage power supply sub-assembly in the form of a direct current / direct current converter.

FIG. 3 illustrates the internal structure of said downstream sub-assembly.

The at least one downstream sub-assembly (9) comprises a radiofrequency reception sub-assembly (18) capable of receiving the signals transmitted by said

- 19 radio frequency transmission sub-assembly (11). The integrated circuits referenced respectively SX1261 and CC1120 in silicon founders Semtech and Texas Instruments are examples of recent components also suitable for implementing the radio frequency reception sub-assembly according to the invention. The downstream sub-assembly (9) further comprises at least one microprocessor (14) at least one program memory (15) comprising at least one software component implementing at least the reception part of a communication protocol capable of receiving recurrently by radio frequency said series of data and to restore at least one item of information from said counter. According to the variant embodiments of the invention, the at least one microprocessor and the at least one program memory are included in at least one microcontroller or in a "system on a chip". The downstream sub-assembly further comprises an interface (19) for communicating the at least one item of information from said counter returned to the at least one device using at least one item of information from the meter. In a first implementation variant of the invention, the interface (19) reproduces the information coming from the counter by means of the output (20) of a communication port having the same technical characteristics as that of the counter, so that the virtual cable according to the invention can replace a hardware cable at any time and vice versa. In the case of this variant and an “CBE” or “LINKY” electronic counter, the interface includes the generator of a carrier frequency at 50 kHz, an all or nothing modulator of the carrier as a function of the output d '' a UART ensuring the serialization of data with the same parameters as those of the meter communication port. This interface also comprises an output stage advantageously consisting of a pulse transformer, the primary of which is connected for example to a low voltage power source and to a transistor of MOS FET type channel N, or of bipolar type NPN, controlled by the output of the modulator. The modulator is for example a simple logic gate of the “NOR” type. The downstream sub-assembly further comprises a power supply sub-assembly (16) delivering at least one low voltage at the required voltage, for example 3.3 V or 5 V and at an appropriate maximum current, for example 200 mA, for ensure the operation of the downstream sub-assembly (9). Unlike the upstream sub-assembly which is located near the meter, the

-20 more often away from the electrical panel comprising the protections behind which to be connected to the 230 V electrical network, the downstream sub-assembly is located on the side of the installation equipment supplied by the electrical network. The supply of the downstream sub-assembly with the power necessary for its operation therefore presents no technical difficulty. The power supply sub-assembly (16) is advantageously a conventional switching power supply or series capacitor sub-assembly whose source (17) is the 230 V electrical network or an intermediate voltage obtained from the electrical network.

The invention provides implementation variants in which the at least one microprocessor and at least one program memory are included in electronic components specific to said downstream sub-assembly. Other variants are provided in which at least one microprocessor and at least one program memory are shared with those of a device using information from the counter which integrates the function of downstream subset according to the invention.

Figure 4 illustrates the power sources of said upstream sub-assembly.

The power sources of the power supply sub-assembly (16) of the upstream sub-assembly (8) are for example the signal (17a) transporting the data leaving the communication port of the counter (3), an auxiliary power supply (17b) supplied. where appropriate by the meter, a contactless energy capture (17c) in one or more power circuits entering or leaving the meter. Provision is also made for the use of a battery or an electrochemical accumulator (17d) to supply partially, in whole or only in emergency situations such as exceeding the subscribed power likely to lead to an imminent disjunction of the downstream electrical installation. Since the power sources 17a to 17c are in alternating currents, they should be rectified, and if necessary combined, using low-loss diodes such as Schottky diodes to recharge a high-value intermediate reservoir capacitor (21) taking into account the probable insufficiency of current on all or part of the outgoing supply voltages (22) to be able to supply directly at all times all of the functional blocks of said upstream sub-assembly, in particular to supply the sub- transmission assembly when this transmits data. In the

-21 cases (17a), the person skilled in the art will be able to arrange the electronics of the interface with the communication port of the counter and of the power supply sub-assembly (16) to extract energy from the signal transmitted by the counter without disturbing the reception of data. In the case of a latest generation counter such as LINKY, the "TIC" communication port (4) provides a third potential for supplying an external low-power device such as a radio frequency gateway. The use of a suitable cable, containing at least three conductors, between the communication port of the counter (4) and that of the upstream sub-assembly according to the invention is sufficient for its supply in most variant embodiments. If no power can be extracted directly (17b) or indirectly (17a) from the meter, or if more power is necessary for the operation of the upstream sub-assembly, it is planned to use the solution (17c) of a transformer current to extract energy from the current flow in at least one wire of the power cable leaving the meter. If the manager of the electrical network owns the upstream sub-assembly according to the invention, the energy necessary for its supply can advantageously for the meter holder be taken upstream of the meter on an incoming power wire. The current transformer is advantageously of the low-loss toric type, or of the clip-on type with a magnetic circuit which can be opened and then closed on the power wire forming the primary of the transformer. Depending on the power required for the operation of the upstream sub-assembly according to the invention, the formation of several turns with one of the power wires leaving the meter may be necessary to produce the primary of the current transformer. The current transformer solution also has the advantage of delivering more energy to the power supply sub-assembly (16) when the power consumed by the electrical installation downstream of the meter increases. The advantage comes from the fact that when the intensity consumed by the downstream electrical installation approaches or exceeds the subscribed intensity, the risk of disjunction of the installation increases and it becomes imperative to refresh as often as possible at least one or more information associated with exceeding the subscribed power transmitted by the virtual cable according to the invention to allow one or more appropriate automatic devices downstream to act, for example, by offloading one or more loads

-22 power in the downstream electrical installation. Refinements are provided in certain implementation variants such as the presence of an LED lighting up in red on the front face of the upstream sub-assembly to indicate an insufficient supply requiring the addition of an additional supply source, and illuminating in green, by flashes to make the consumption of the signaling function negligible, when the device is operational.

Figure 5 illustrates the association of the upstream and downstream subsets.

This involves constituting virtual wiring (1) according to the invention in an electrical installation, after having installed an upstream sub-assembly (8) having connected it to a communication port of the electric energy meter which supplies this installation, having installed and supplied one or more downstream sub-assemblies (9). The objective is to associate one or more downstream sub-assemblies (9) which must receive at least one item of information from the counter of the installation in which they are located with the upstream sub-assembly associated with this counter and only with this one. this. The invention provides for simplifying this part of the installation of the virtual cabling and for implementing it at lower cost in the devices by pressing push buttons (23a, 23b, 23c) provided for this purpose in the sub-assemblies. upstream and downstream concerned, this action must be done in a given maximum time to be effective. The effect of pressing the button (23a) on the upstream sub-assembly (8) is for example to cause the repeated transmission of messages by radio frequency (10) until the expiration of a time delay. These messages contain a unique upstream subset address, or one with a high probability of uniqueness, and information signifying that it is an invitation to associate subsets. The at least one downstream sub-assembly (9) which is selected by pressing the button (23b, 23c) before the expiry of said time delay, stores the address of upstream sub-assembly received in a non-volatile memory and will subsequently only use the frames comprising the stored upstream subset address. Refinements are provided in certain implementation variants, for example with an LED that flashes in the downstream sub-assemblies that can be selected, that is to say that are within physical range of the radiofrequency transmitter of the sub- upstream assembly on which the session for creating logical links was opened by pressing its button

-23 (23a). The LEDs flash as long as the session for creating the logical links between the sub-assemblies (8, 9) is open, stop flashing and remain on continuously as soon as a downstream sub-assembly (9) is selected and go out at the closing of the assignment. A unique address source for the upstream sub-assembly is for example a unique microcontroller number readable by the program which it comprises, the unique number of the counter to which the upstream sub-assembly is connected, this number being part of the information transmitted. by the counter, or a unique address produced by an algorithm for generating a pseudo-random number when the button (23a) is pressed. Provision is also made in the case where the source is a single number which is too long and which would lead to too long a transmission time, to use an appropriate hash function to produce a new number with a high probability of shorter uniqueness.

FIG. 6 illustrates a representative case of implementation of the invention.

FIG. 6 illustrates a representative example of implementation of the invention in a living space comprising conventional uses of electricity. Although it can be used systematically, even when the electric energy meter is located near the electrical protection and distribution panel, the implementation of the invention is particularly advantageous when the meter is far from the panel. For example when it is in a technical room external to the accommodation, on a landing in a building, at the foot of the building or at the edge of property in the case of a pavilion.

The incoming communication port of the upstream sub-assembly (8) according to the invention is connected to a communication port (4) of the counter (3) and is suitably supplied. The upstream assembly (24) comprising the counter (3) and the upstream sub-assembly (8) can be distant, or even very distant, from the living or professional premises concerned (25). After their physical installation, the sub-assemblies (8, 9) were associated using the technical means provided for this purpose, for example those illustrated in Figure 5 or by setting an identical code on the devices (8 , 9) to associate.

The power cables leaving the meter (3) arrive on the protection and distribution board (26) of the room. A downstream sub-assembly (9a) included in a standard DIN rail format box and installed in the switchboard

-24 electric, receives by radio frequency, decodes and provides at least one piece of information from the counter to the devices (5a, 5b) of the electrical panel which are likely to exploit it. The wires for supplying modular devices have not been shown to improve the clarity of the figure.

The communication ports (6a, 6b) of the devices (5a, 5b) indifferently allowing a direct connection to the communication port (4) of the meter or a connection to the communication port leaving the downstream subset (9a). The invention also provides that the control and regulation sub-assembly embedded in an electric water heater (27) comprises a variant of downstream sub-assembly (9b) for receiving and locally interpreting at least one item of information from the counter (3 ) with which he was previously associated. The interface between the on-board downstream sub-assembly, the control and regulation sub-assembly is for example an outgoing or bidirectional unidirectional serial link of the UART, SPI, I2C type, etc. It is also expected that said interface includes at least one input-output line operating all or nothing, for example to provide from the at least information from the counter a signal of the peak hours / off-peak hours type and / or a load shedding / relest type signal which can be directly used by the water heater control electronics.

The invention also provides that a sub-assembly (9c) is included in a charging station for an electric vehicle (28) which is like the electric water heater, a use of high power electricity which includes local intelligence and which is not located in the electrical panel (26).

It is also planned to integrate a downstream sub-assembly (9d) into a device (29) provided for consumer information. Such a device is particularly useful for informing the consumer about his consumption expressed in energy unit and / or even more advantageously in monetary unit. Consumer information is a factor of responsibility and involvement that promotes energy savings. Consumer information is also particularly useful in the case of complex pricing structures comprising variable elements and also in the case of smart meters which include a messaging service managed by the manager of the electricity network and / or capacities to alert the user in the event, for example, of undersizing of the subscribed intensity which could lead to

-25 a risk of power cut. It should be noted that certain alternative embodiments of the downstream sub-assemblies (9) further include an incoming communication port which is directly compatible with the outgoing communication port (4) of a counter (3). The invention also provides for integrating into said downstream sub-assembly, at least one gateway (30) to a home automation or technical building management system external to the invention which is nevertheless capable of using at least one item of information from the counter after reformatting and transmission of information according to the specifications of the at least one standardized or proprietary standard corresponding to the at least one home automation system or “building automation system” implemented. The at least one gateway (30) generally comprises a modem making it possible to transmit data bidirectionally by radio frequency or by carrier current online and at least one microprocessor executing at least one software implementing a communication protocol and at least one software ensuring the appropriate translation of the at least one item of information from the counter in the format of the at least one standard targeted by said gateway (30). Home automation systems generally have a limited scope, which is why the invention provides for implementing at least one gateway in a downstream sub-assembly (9) which is installed in the same room as the other home automation devices rather than in the upstream sub-assembly which can be very far from it. In addition, the downstream sub-assembly according to the invention does not have the constraints of space and above all the power supply of an accessory to be installed near or inside the electric meter. The downstream sub-assembly is thus the most suitable part of the device according to the invention for understanding one or more gateways with other radio frequency networks and the only possible part for understanding a PLC gateway which requires a connection to the electrical installation of the local, both for its access to the transmission medium and for having sufficient supply power in transmission. A downstream sub-assembly (9) comprising a gateway compatible with a home automation standard usable for controlling electric convectors or a reversible air conditioning system, is particularly advantageous for simplifying installation and facilitating scalability. According to the implementation variants, the heat and / or cold emitters (31) receive and operate directly at least

-26 information from the counter received from the downstream sub-assembly (9a) via the gateway (30), or indirectly via a programmer and / or a thermostat (32) associated with the transmitters heat and / or cold (31). The invention thus makes it possible to install the devices using all or part of the information coming from the counter in the most appropriate places in terms of ease and reduction of installation costs, convenience of use, ergonomics in the broad sense and the satisfaction of users' wishes. This without any functional loss seen from the manager of the electrical network or the user.

FIG. 7 illustrates the method according to the invention.

The basic method according to the invention comprises a step (33) of reception, by said upstream sub-assembly, of a flow of recurrent information leaving a communication port of an energy meter, a step ( 34) transmission by radio frequency, by said upstream sub-assembly, of a series of data for transporting all or part of said flow of recurrent information, at least one step (35) of restitution of at least part of said flow of recurrent information by at least one downstream subset associated with said upstream subset.

There is also provided a prior step (36) of association of an upstream subset with at least one downstream subset to functionally associate these subsets.

The invention further provides a refinement of the method comprising at least three additional steps to reduce the latency times when the at least one item of information coming from the counter changes. It is at least one step (37) of identifying at least one item of information having changed in said recurrent information flow, at least one step (38) of radiofrequency transmission of a series of data carrying the at least one item of information having changed in said recurrent information stream, at least one step (39) of reconstituting at least part of said recurrent information stream from unchanged information previously received and kept in memory and of newly received information following the change of at least one piece of information in said recurrent information stream.

Of course, the invention is not limited to the examples which have just been described and numerous modifications can be made thereto without departing from the scope of the invention, in particular by combining several variants in the same implementation or by combining elements taken from several examples differently.

Claims (17)

1. Virtual cable (1) to replace a wired link (2), between a communication port (4) of an electric energy meter (3) and the corresponding communication port (6) of at least one device (5) using at least one item of information from said counter, via a radio frequency link (10), said virtual cable (1) being characterized in that it comprises: - An upstream sub-assembly (8) comprising a radiofrequency transmission sub-assembly (11) capable of transmitting recurrently a series of data transporting at least one item of information from said counter, an interface (13) connectable to a port of communication (4) of an electrical energy meter (3) directly by means of a cable or via an optical, inductive or capacitive coupler (7), at least one microprocessor (14), at least a program memory (15) comprising at least one software component implementing a communication protocol for transmitting recurrently by radio frequency all or part of said series of data, and a low voltage power supply sub-assembly (16) ; - at least one downstream sub-assembly (9) comprising a radiofrequency reception sub-assembly (18) capable of receiving the signals transmitted by said radiofrequency transmission sub-assembly (11), at least one microprocessor (14), at at least one program memory (15) comprising at least one software component implementing a communication protocol for receiving the data transmitted by radiofrequency and for restoring at least one information item coming from said counter, an interface (19) for communicating the at least one item of information from said meter returned to the at least one device (5) using at least one item of information from said meter, and a low voltage power supply sub-assembly (16). 2. Virtual cable according to claim 1, characterized in that said upstream sub-assembly and / or said downstream sub-assembly further comprise hardware and / or software means for associating a given upstream sub-assembly and each of the at least one downstream sub-assembly which must restore at least one item of information from said counter transmitted by this upstream sub-assembly. 3. Virtual cable according to any one of claims 1 or 2, characterized in that said downstream sub-assembly (9) further comprises a communication port (19) having the same functional characteristics as those of a communication port (4) of said counter. 4. Virtual cable according to any one of claims 1 to 3, characterized in that said downstream sub-assembly further comprises hardware and / or software means (30) forming at least one gateway with at least one other local network based on another communication standard to deliver at least one item of information from said counter to at least one device compatible with this other communication standard. 5. Virtual cable according to any one of claims 1 to 4, characterized in that said upstream and downstream sub-assemblies further comprise software and / or hardware means for respectively encrypting and deciphering all or part of the information transmitted by radio frequency. 6. Virtual cable according to any one of claims 1 to 5, characterized in that said upstream sub-assembly automatically adapts to all or part of the technical characteristics of the serial link of the communication port of said counter. 7. Virtual cable according to any one of claims 1 to 6, characterized in that at least one technical characteristic of the serial link of the communication port of said counter is transmitted to the at least one associated downstream sub-assembly to restore at least one item of information from said counter via a serial link having the same at least one technical characteristic. 8. Virtual cable according to any one of claims 1 to 7, characterized in that, the instant of the transmission, and / or the duration of the transmission, and / or the speed of the transmission, and / or the length and / or the content of said series of data transmitted by said upstream subset is determined as a function of the value of at least one item of information from the electric energy meter and / or as a function of the amount of energy available for feeding all or part of the upstream sub-assembly. 9. Virtual cable according to any one of claims 1 to 8, characterized in that the information restored by said downstream sub-assembly -30 have a structure identical to the same information received from the counter by said upstream sub-assembly. 10. Virtual cable according to any one of claims 1 to 9, characterized in that said upstream sub-assembly is arranged to favor the transmission by radio frequency of the data associated with information which has changed within the recurring sequence of information from the counter, and in that said downstream sub-assembly is arranged to locally reconstruct all or part of the recurring sequence of information from the counter within which the information which has changed is updated after receipt of the corresponding data by radio frequency. 11. Virtual cable according to any one of claims 1 to 10, characterized in that said low-voltage electrical supply sub-assembly (5) extracts all or part of the energy necessary for the operation of said upstream sub-assembly, from signal transmitted by said counter and / or from an auxiliary supply supplied by said counter and / or from a current transformer whose primary is formed by at least one passage of at least one of the wires of the electrical network entering or leaving said meter and / or an electrochemical battery or accumulator. 12. Virtual cable according to any one of claims 1 to 11, further characterized in that said upstream sub-assembly is included in said counter. 13. Virtual cable according to any one of claims 1 to 12, further characterized in that said downstream sub-assembly is included in an apparatus using at least one item of information from said counter, said downstream sub-unit restoring at least one item of information from said counter in all or part of its native structure as transmitted by said counter. 14. Virtual cable according to any one of claims 1 to 13, further characterized in that said downstream sub-assembly uses the same material means as those already implemented in an apparatus using at least information from a counter to receive data broadcast by radio frequencies in so-called broadcast or multicast modes by a network external to the local to which said counter is associated. 15. Method implemented by software in a virtual cable according to claims 2 to 14 comprising an upstream sub-assembly and at least one downstream sub-assembly, to replace a wired link between an electric energy meter and at least one device able to use at least one piece of information from said counter by a radio frequency link, said method being characterized in that it comprises: a step of reception, by said upstream sub-assembly, of a flow of recurrent information leaving a communication port of said electric energy meter, a step of transmission by radiofrequency, by said upstream subset, of a series of data for transporting all or part of said flow of recurrent information, - At least one step of restoring at least part of said recurrent information flow by at least one downstream subset associated with said upstream subset. 16. The method of claim 15, characterized in that it further comprises at least one prior step of association of an upstream subset with at least one downstream subset to functionally associate these subsets. 17. Method according to any one of claims 15 or 16, characterized in that it further comprises at least one step of identifying at least one item of information that has changed in said recurrent information flow, this step being implemented by software in said upstream subset, - At least one step of radiofrequency transmission of a series of data transporting the at least one piece of information that has changed in said recurrent information flow, this step being implemented by hardware and software means in said upstream sub-assembly , - at least one step of reconstituting at least part of said recurrent information flow from unchanged information previously received and kept in memory and information newly received following the change of at least one -32information in said recurrent information flow, this step being implemented by software in said downstream subset. 1/3