DE102015014959B3 - A method for performing a remote reading of a consumption meter, remote read device and communication system - Google Patents

Abstract

A method is proposed for performing a remote reading of a consumption detection device (3) in a communication system (1) in which a remote reading device (2), in particular a smart meter gateway for electricity meters or a data concentrator, with one or more consumption detection devices (3), in particular electricity meter, is coupled to the data exchange via a serial connection (4A, 4B), characterized in that for remote reading of a consumption metering device (3) to be read remotely, the remote read-out device (2; 21; 31) is associated with a consumption metering device emulator unit (6) associated with the metered-out consumption metering device. communicates, and the meter reading device (3) communicates with a remote read device emulator unit (7) associated with the remote meter.

Description

The invention relates to a method for performing a remote reading of a consumption detection device and a corresponding remote reading device and a corresponding communication system.

State of the art

Today, decentralized consumption detection by means of remote reading of one or more consumption detection devices by a remote reading device is widely used. In particular, in electricity meters as consumption detection devices is due to the structure of the power supply system read by a remote from the respective electricity meter central remote readout device. In the context of Smart Grid, ie an intelligent power grid, with smart meters, also known as Smart Meters, in typical electricity meter installations, for example, a communication connection is made in the basement of a building. As an example of this, a smart meter gateway is known, which is provided for remote reading device of electricity meters. For the technical realization of such a remote reading of electricity meters, a respective electricity meter is connected as a consumption detection device via a serial cable line with a smart meter gateway or a data concentrator as a remote read-out device. The serial connection is usually based on RS232 or RS485 as transmission technology. In the example of the aforementioned smart meter gateway, its LMN interface (LMN: Local Metrology Network) is wired to one or more electricity meters by means of an RS485 connection in bus operation, ie as a multipoint connection between a master and several slaves.

In the event that the distance between a consumption sensing device and a remote sensing device can not be bridged with a direct cable based serial connection, a serial link can be tunneled transparently to other transmission techniques, for example via serial tunneling over IP / TCP. When the link layer protocol used over the physical layer has time-critical constraints, such as command-response timeouts in HDLC, the tunneling technique will fail if larger network latencies can occur because the roundtrip Delay or the round trip time exceeds the timeout. The timeout restriction may be due to existing, non-changing implementations or timing of standardized interfaces.

The patent document US 5 684 826 A describes a powerline modem for multipoint connection of multiple data terminals based on RS-485. A respective data terminal is connected via an RS-485 data port to a powerline modem for data exchange. The data terminal may be a consumption detection device. In the patent document US 5 684 826 A It is mentioned that in a communication system, several of the presented data terminals via respective Powerline modems via a Powerline, to which all Powerline modems are connected, can exchange data via a serial RS-485 connection with each other.

The patent document US 2015/0 177 021 A1 describes a communication method for a wireless and / or wired data exchange between a consumption meter and a billing system of a power generator via a communication network, which may be a smart grid.

Disclosure of the invention

The invention is therefore based on the object to provide a method for performing a remote reading of a consumption detection device in a communication system, the method can overcome the above-described time constraints, so that the transmission links between a remote reading device and read-out consumption detection devices can also be extended when using time-critical transmission protocols. In addition, the invention is intended to provide a corresponding remote read-out device and a corresponding communication system.

The object of the invention is achieved by a method having the features of claim 1. In addition, the object is achieved by a remote reading device according to claim 11 and a communication system according to claim 13.

The inventive method for performing a remote reading of a consumption detection device is directed to a communication system in which the remote reading device is coupled to one or more consumption detection devices via a serial connection for data exchange. According to the invention, the method provides that the remote reading device communicates with a consumption detection device emulator unit associated with the consumption device to be remotely read to remotely read a remotely readout consumption detection device, and the remotely readable consumption detection device with one of the remote readout device associated remote readout emulator unit communicates. The remote read device is in particular a smart meter gateway or a data concentrator. The consumption detection devices are in particular electricity meters, but may also be any devices for detecting a consumption of, for example, gas, heat energy or water. The term remote reading is understood to mean the reading of remote metering devices, in particular electricity meters. In the context of the remote reading of electricity meters, the term "distant" refers to the distance or a distance of the central server of the energy supplier or measuring point operator to the electricity meters. The remote reading of the respective meter readings of the consumption detection devices is accompanied by an exchange of data over a physical transmission path.

The presented method according to the invention offers the advantage that the time restrictions for the communication between the remote reading device and the consumption measuring device owed to a time-critical transmission protocol used can be overcome. In addition, the transmission distance between the remote readout device and the consumption detection device, more specifically, between the consumption detection device emulator unit and the remote readout device emulator unit, can be flexibly extended, and the transmission medium between these emulator units can be arbitrarily selected.

The serial connection is based for example on RS232 or RS485 as transmission technology.

The advantages of the method according to the invention are particularly evident in the following example scenarios considered by way of example.

If, for example, counters are located in a different room or floor to which no lines can be routed for the application scenario of remote reading of counters, the use of the emulator units can suitably extend the communication path via another medium, for example radio. Particularly suitable for this purpose is the powerline communication (PLC, Powerline Communication), so the data communication via the power line, since the remote reading device and the meter or consumption detection devices are all already connected to the mains, and there can be made in each case a corresponding power supply.

Another application scenario is the connection of electricity meters over a wide area network (WAN) to a data concentrator. In this case, the well-known tunneling method mentioned at the beginning in RS485 bus operation comes to its limits, when the consumption meter and the data concentrator can not be adapted as remote reading device with respect to their used link-layer protocol to the latencies increased by the WAN or allowed.

Another application scenario is the networking of industrial devices with serial interfaces, where no adaptation of the link-layer protocol can or should be made.

Yet another application scenario is the use of electricity meters, which communicate not via a serial interface but via PLC technology. With proper implementation of the software stack in the electricity meter (integration of the remote readout emulator unit into the electricity meter), this enhanced meter can communicate directly with a metering device emulator unit and thus have remote LMN interface.

A preferred first application scenario results when the functionality of the consumption detection device emulator unit is integrated into the remote read device, in particular a smart meter gateway. Then, a remote read device can communicate directly with a remote read device emulator unit.

A preferred second application scenario results if the functionality of the consumption detection device emulator unit and the functionality of the remote read device emulator unit are additionally integrated into the remote read device, in particular a smart meter gateway. Then directly adjacent consumption detection devices or electricity meters can be connected via the local RS485-LMN interface in the remote reading device via a direct serial cable connection and in addition via an integrated PLC connection further consumption detection devices, especially floor meters, are connected. These, in turn, can communicate directly via the PLC, since the functionality of the remote read device emulator unit integrated in the remote read device or the smart meter gateway maps the communication to a logical internal LMN interface.

Another application scenario is the use of the method according to the invention for remote reading even in the case of non-time-critical remote reading over a long-distance network, which can be imaged by means of a transparent tunnel. The inventive method reduces the network load in the long-haul network and possibly also in the PLC network because the intermediate readiness requests (RR, "Ready-Receive") and the corresponding receive-not-ready (RNR) replies do not transmit over the wide area network and the PLC network become.

In a development of the method according to the invention, it is provided that the consumption detection device emulator unit and the remote read device emulator unit are connected via a wired, wireless or optical data transmission medium, in particular one of the group of a PLC line, a wide area network, a LAN (eg Ethernet ), Fiber optic, as well as radio, are connected to each other and communicate over it to the remote readout of the consumption detection device to be read. Thereby, the type of the transmission path used between the remote reading device and the consumption detection device can be selected flexibly, and also the transmission distance can be suitably extended depending on the application.

A further development of the method according to the invention provides that the remote reading device and the consumption detection device emulator unit and / or the remote read device emulator unit and the consumption meter to be remotely read are coupled via a respective serial link and communicate therewith for remote reading of the meter reading device to be read.

A development of the method according to the invention further provides that at least one of the consumption detection devices is connected directly via a power line network to the consumption detection device emulator unit assigned to this consumption detection device and is remotely read by means of a powerline communication. This allows consumption detection devices, particularly electricity meters that do not have a serial interface, to be connected directly to the consumption meter emulator unit via the power grid via PLC.

In a further development of the method according to the invention, it is provided that a remote reading of the consumption meter to be read remotely comprises the following steps: transmitting a remote read request (the term here refers exclusively to the link layer (HDLC) and not to a request from higher layers or Strata, since the proposed method has no effect on this) from the remote reading device to the consumption metering device emulator unit associated with the remote metering device; Forwarding the remote read request from the metering device emulator unit to the meter reading metering device via the meter reader emulator unit; Transmitting request-response-ready (RNR) from the meter-to-read meter to the meter reader-emulator unit until providing the remote read-out response to the meter reader-emulator unit; Transmitting the provided remote read-out response from the remote read device emulator unit to the consumption detection device emulator unit; Transmitting, starting from receiving the remote read request from the remote read device, from request reset responses from the consumption meter emulator unit to the remote read device until receiving the remote read response transmitted by the remote read device emulator unit; and transmitting the remote readout response from the metering device emulator unit to the remote readout device. This complies with the time-critical conditions of the link-layer protocol, while minimizing the amount of data transferred between the devices and devices.

A further development of the method according to the invention also provides that only one remote read request and only one remote read answer are transmitted during the remote readout of the consumption meter to be read by the meter between the meter unit emulator and the remote meter emulator unit. Thereby, the amount of data transmitted via the transmission medium can be reduced and even minimized in the case of transmission of exactly one remote read request and exactly one remote read response. It can therefore be saved costs and bandwidth.

In a development of the method according to the invention, provision is made for a plurality of consumption detection devices with individual addresses to be connected to a remote readout emulator unit via a serial bus connection, and the remote readout emulator unit for the number of these consumption detection devices and their addresses to the consumption detection device emulator unit associated with the plurality of consumption detection devices for remote reading of one of these consumption detection devices makes known. The background to this is that a specific consumption meter or an electricity meter can only be addressed if they have an address. The address may be, for example, either in the consumption meter and be configured in the remote read device emulator unit or assigned via a suitable automatic address allocation method. For example, such a method is specified in the LMN specification (TR03109-1 Annex IVa). After all the consumption detectors connected to a remote readout emulator unit are aware of their addresses of the remote readout emulator unit, it will disclose the information about the number of connected consumption detectors and addresses of the consumption detect device emulator unit, so that the usage detect device emulator unit will supply the corresponding number of consumption detectors and addresses can emulate the remote reading device or the smart meter gateway / data concentrator.

In a further development of the method according to the invention, it is provided that a plurality of consumption detection device emulator units is connected to a remote read-out device via a serial bus connection.

A refinement of the method according to the invention also provides that the communication system comprises a plurality of remote readout emulator units connected to the same consumption meter emulator unit via at least one data transmission medium, and when remote reading the consumption meter emulator unit or the remote readout emulator units performs link layer address translation , The link-layer address translation in the consumption detection device emulator unit is required because in the case of a communication network with multiple remote-readout emulator units, the same address can be used on different remote-readout emulator units. For the link-to-layer address translation, the consumption detection device emulator unit analyzes all link-layer traffic to all remote-readout emulator units and maps the addresses of the consumption-sensing devices to the addresses that the consumption-detection-device emulator unit uses to communicate with the remote-read device. The remote readout emulator units may perform the link-to-layer address translation if they have previously been assigned / reserved corresponding remote sense device address ranges, in particular smart meter gateway or data concentrator address ranges, for translating the addresses from the consumption sense device emulator unit.

A development of the method according to the invention provides that at least one remote reading device of the communication system is equipped with a functional consumption detecting device emulator unit, and with this remote reading device remote reading of a consumption detection device is performed, which is associated with the functional consumption detection device emulator unit, and via a data transmission medium with this Remote readout device is connected. This development and its advantages correspond to the above-mentioned first preferred application scenario.

A further development of the method according to the invention provides that at least one remote reading device of the communication system is equipped with the functional consumption detection device emulator unit and a functional remote readout emulator unit, and with this remote readout device the remote readout of a consumption detection device is associated with which the functional consumption detection device emulator unit is associated, and which is coupled via a serial connection with this remote reading device for data exchange. This development and its advantages correspond to the above-mentioned second preferred application scenario.

In addition, according to the invention, a remote reading device for a communication system is provided, in which a remote reading device, in particular a smart meter gateway or a data concentrator, is coupled to one or more metering devices via a serial link for data exchange, which is designed to carry out the method according to the invention, and further equipped with the function of a consumption detection device emulator unit. This development and its advantages correspond to the above-mentioned first preferred application scenario.

According to the invention, a remote reading device for a communication system is provided, in which a remote reading device, in particular a smart meter gateway or a data concentrator, is coupled to one or more metering devices via a serial link for data exchange, which is designed to carry out a method according to the invention, and further equipped with the function of a consumption detection device emulator unit and a remote readout device emulator unit. This development and its advantages correspond to the above-mentioned second preferred application scenario.

The invention also includes a communication system that is capable of performing a Remote reading is formed according to the method of the invention.

The method according to the invention, the remote reading device according to the invention and the communication system according to the invention are also embodied by advantageous combinations of the above developments.

Exemplary embodiments of the method, the remote reading device and the communication system will be explained below with reference to the drawings. Identical or similar reference symbols designate identical or similar components or method steps. Show:

1 a communication system as an application example of a remote reading according to the prior art;

2 a communication system as an application example of a remote reading with the method according to the invention;

3 another communication system as an application example of a remote reading with the method according to the invention;

4 a flow diagram of the method according to the invention;

5 a communication system with a remote readout device having a functional consumption detection device emulator unit according to the invention; and

6 a communication system having a remote readout device with a functional consumption meter emulator unit and a remote functional readout emulator unit according to the invention.

In 1 is a communication system 1 as an application example of a remote reading according to the prior art. The communication system 1 is by a remote reading device (FAV) 2 and a consumption metering device (VEV) 3 formed over an RS485 connection 4 connected to each other.

In 2 is a communication system 1 as an application example of a remote reading with the inventive method. The communication system 1 is formed by a remote read device (FAV) 2 , one with this over a RS485 connection 4A Connected Consumption Detector Emulator Unit (VEVE) 6 , one with this over a transmission medium 5 Connected Remote Readout Emulator Unit (FAVE) 7 , and one with this over a RS485 connection 4B Connected consumption metering device (VEV) 3 , The transmission medium 5 can be represented by a power line, a wide area network (WAN), a LAN (eg Ethernet), a fiber optic or radio.

3 represents in comparison to 2 more complex communication system 1 as an application example of a remote reading with the inventive method. The communication system 1 has a remote reading device (FAV) at its one communication end 2 and at its other communication end six via RS485 links 4B1 to 4B4 connected consumption detection devices 3A to 3F as well as a PLC consumption measuring device (PLC-VEV) 13 on. The PLC consumption detection device 13 is not via a serial line but directly via a power line network 5B with the associated consumption detection device emulator unit 6B joined. To the remote readout device 2 is a plurality of two consumption detection device emulator units 6A and 6B via a serial bus line 4A (RS485) connected. Both consumption detection device emulator units 6A and 6B are via a respective transmission medium 5A respectively. 5B each having a plurality of two remote readout emulator units 7A and 7B respectively. 7C and 7D connected. The transmission medium 5B Here is the power grid as the PLC usage meter 13 to the consumption detection device emulator unit 6B connected. The remote readout emulator units 7B and 7D are via a serial bus line 4B2 respectively. 4B4 (RS485) are each connected to a plurality of two consumption detection devices.

4 shows a flowchart of the method according to the invention. In step S1, a remote read request "Command 1" is transmitted from the FAV to the VEVE. In steps S2A and S2B, the remote read request is forwarded by the VEVE via the FAVE to the VEV. The VEV processes the remote read request. As long as the VEV can not transmit a response in the sense of a result to the FAVE, for example because the VEV is still busy generating the answer or the result, the VEV transmits in the repeatedly executed step S3 to the FAVE request deferral responses (RNR, "receive-not -ready ") in response to readiness requests (RR," receive-ready ") issued by the FAVE. At the conclusion of the generation of the response, the VEV transmits the generated response "Response 1", for example a meter reading information, to the FAVE in step S4. The FAVE then transmits the response to the VEVE in step S5. The VEVE, after receiving the remote read request issued by the FAV in the repeatedly executed step S6, to the FAV receive-not-ready (RNR) response responses in response to readiness-ready (RR) requests issued by the FAV. ) transfer. Upon receiving the response transmitted to the VEVE in step S5, the VEVE no longer executes step S6 repeatedly, but forwards the received response to the FAV in step S7. This completes the remote read-out of the VEV initiated by the FAV with the remote read request "Command 1" with the response "Response 1" to FAV. How out 4 can be seen, for the explained remote reading between the VEVE and the FAVE, which are via the transmission medium 5 only transmit one remote read request and one remote read answer and no request reset responses or standby requests.

5 shows a communication system 1 with a remote readout device 21 which is a combination of a remote read-out device (FAV) explained above 2 and a functional consumption meter emulator unit (VEVE) 6 includes. Instead of a in 2 and 3 used physical LMN interfaces between the FAV and the VEVE is in 5 between the FAV 2 and the VEVE 6 a logical LMN interface 20 intended. In the 5 shown VEVE 6 uses an additional physical communication interface with the transmission medium 5 (For example, PLC or the power grid) is connected, in turn, with the FAVE 7A and FAVE 7B as well as the PLC-VEV 13 what is structurally already in 3 has been illustrated and explained.

6 shows a communication system 1 with a remote readout device 31 who already have one in 5 illustrated combination of a remote read-out device (FAV) explained above 2 and a functional consumption meter emulator unit (VEVE) 6 and additionally a functional remote readout emulator unit (FAVE) 7A includes. As with the remote reading device 21 from 5 is also at the remote read device 31 between the FAV 2 and the VEVE 6 a logical LMN interface 20 intended. In the 6 shown VEVE 6 uses like out 5 An additional physical communication interface known with the transmission medium 5 (For example, PLC or the power grid) is connected, in turn, with the FAVE 7B and FAVE 7C as well as the PLC VEVs 13A and 13B connected is. Between the VEVE 6 and the FAVE 7A the remote readout device 31 is an IP-based interface 30 intended. On the output side is the FAVE 7A via a serial bus line 4B1 with VEV 3A and VEV 3B connected. In the 6 illustrated remote readout device 31 offers the advantage that in parallel both directly wired consumption detection devices (VEV), in 6 these are the VEVs 3A and 3B , as well as remote metering devices with remote readout emulator unit (FAVE), in 6 these are the VEVs 3C to 3E , as well as without FAVE, in 6 these are the PLC VEVs 13A and 13B , for which remote reading can be connected.

LIST OF REFERENCE NUMBERS

1

communication system

2

Remote reading device

3, 3A, 3B, 3C, 3D, 3E, 3F

Metering device

4, 4A, 4B, 4B1, 4B2, 4B3, 4B4

serial connection (eg RS485 connection)

5, 5A, 5B

Data transmission medium (eg powerline cable, wide area network, LAN, Ethernet, fiber optic, radio)

6, 6A, 6B

Metering device emulator unit

7, 7A, 7B, 7C, 7D

Remote reading device emulator unit

13, 13A, 13B

PLC metering device

20

logical LMN interface

21, 31

Remote readout device with function extension

30

IP-based interface

S1, S2A, S2B, S3, S4, S5, S6, S7

Fernauslesungsverfahrensschritte

Claims (13)

Method for carrying out a remote reading of a consumption meter ( 3 ) in a communication system ( 1 ), in which a remote reading device ( 2 ), in particular a smart meter gateway for electricity meters or a data concentrator, with one or more consumption metering devices ( 3 ), in particular electricity meters, via a serial link ( 4A . 4B ) is coupled to the data exchange, wherein the remote reading a remote consumption meter ( 3 ) the remote read device ( 2 ; 21 ; 31 ) with a consumption detection device emulator unit ( 6 ) and the consumer meter ( 3 ) with a remote readout device emulator unit ( 7 ) and the remote reading of the consumer meter ( 3 ) comprises the steps of: transmitting (S1) a remote read request (Command 1) from the remote read device to the consumption detect device emulator unit associated with the remote user sense device; Forwarding (S2A, S2B) the remote read request (Command 1) from the consumption detection device emulator unit to the remote usage detection device via the remote read device emulator unit; Transmitting (S3) Request Reset Responses (RNR) from the consumer meter to be read remotely to the meter reader emulator unit until the remote read-out response (Response 1) is provided to the meter reader-emulator unit; Transmitting (S4) the provided remote read response (Response 1) from the remote read device emulator unit to the consumption detection device emulator unit; Transmitting (S6) request rejection (RNR) responses from the metering device emulator unit to the remote metering device until receiving the (S5) remote readout response transmitted by the metering out device emulator unit; and transmitting (S7) the remote read-out response from the consumption detection device emulator unit to the remote read-out device. Method according to Claim 1, characterized in that the consumption detection device emulator unit ( 6 ) and the remote readout emulator unit ( 7 ) via a wired, wireless or optical data transmission medium ( 5 ), in particular one of the group of a PLC line, a wide area network, a LAN, in particular Ethernet, fiber, and radio, are connected to each other and about the remote reading of the read-consuming device ( 3 ) communicate. Method according to one of the preceding claims, characterized in that the remote reading device ( 2 ) and the consumption detection device emulator unit ( 6 ) and / or the remote readout emulator unit ( 7 ) and the consumption meter to be read remotely ( 3 ) via a respective serial connection ( 4A . 4B ) are coupled and communicate over it to the remote readout of the consumption detection device to be read. Method according to one of the preceding claims, characterized in that at least one of the consumption detection devices ( 13 ), which is designed in particular as an electricity meter, directly via a power line network ( 5B ) to the consumption detection device emulator unit ( 6B ) is connected and remotely read by means of a Powerline communication. Method according to one of the preceding claims, characterized in that only one, preferably exactly one, remote read request and only one, preferably just one, remote readout response transmitted during remote reading of the fernauszulesenden consumption detection device between the consumption detection device emulator and the remote read device emulator unit become. Method according to one of the preceding claims, characterized in that on a remote reading device emulator unit ( 7B . 7D ) via a serial bus connection ( 4B2 . 4B4 ) a plurality of consumption detection devices ( 3B . 3C . 3E . 3F ) is connected to individual addresses, and the remote readout emulator unit discloses the number of these consumption detectors and their addresses of the consumption detection device emulator unit associated with the plurality of consumption detectors for remotely reading one of these consumption detectors. Method according to one of the preceding claims, characterized in that on a remote reading device ( 2 ) via a serial bus connection ( 4A ) a plurality of consumption detection device emulator units ( 6A . 6B ) connected, Method according to one of the preceding claims, characterized in that the communication system comprises a plurality of remote reading device emulator units connected to the same consumption detection device emulator unit via at least one data transmission medium, and when remote reading the consumption detection device emulator unit or the remote readout emulator units makes a link-layer address conversion or make. Method according to one of the preceding claims, characterized in that at least one remote reading device ( 21 ) of the communication system with a functional consumption detection device emulator unit ( 2 ) and with this remote reading device ( 21 ) the remote reading of a consumption detection device is assigned, which is associated with the functional consumption detection device emulator unit, and which is connected via a data transmission medium with this remote readout device. Method according to one of the preceding claims, characterized in that at least one remote reading device ( 31 ) of the communication system with the functional consumption meter emulator unit ( 2 ) and a functional remote readout emulator unit ( 7A ), and said remote reading device remotely reads a consumption detection device associated with said functional consumption detection device emulator unit and which is coupled via a serial link to said remote communication device for data exchange. Remote read device ( 21 . 31 ) for a communication system, in which a remote reading device, in particular a smart meter gateway or a data concentrator, is coupled to one or more consumption detection devices via a serial connection for data exchange, which is designed to carry out a method according to one of the preceding claims 1 to 10 , and further equipped with the function of a consumption detection device emulator unit. Remote read device ( 31 ) according to claim 11, further equipped with the function of a remote readout emulator unit. Communication system ( 1 ) configured to perform a remote reading according to a method of claims 1 to 10.

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