WO2009092444A1

WO2009092444A1 - Method and arrangement for data transmission in a power supply network

Info

Publication number: WO2009092444A1
Application number: PCT/EP2008/050798
Authority: WO
Inventors: Jaroslaw Kussyk; Johann Lichtnekert; Andreas Seiler
Original assignee: Siemens Aktiengesellschaft
Priority date: 2008-01-24
Filing date: 2008-01-24
Publication date: 2009-07-30

Abstract

The invention relates to a method for data transmission in a power supply network (8), with a terminal (10), comprising a transmitter device (11) and a receiver device (12), wherein a coupling device (5) is provided for coupling the transmitter device (11) and the receiver device (12) to the network lines (1,2,3) of the power supply network (8). The invention is characterised in that the receiver device (12) is coupled to a network line selected by a selection switching device (9) located in the receiver device and the coupling of the transmitter device is provided by a fixed network line.

Description

description

Method and arrangement for data transmission in one

Power distribution network

Technical area

The invention relates to a method and an arrangement for transmitting data in a power distribution network, having a terminal, which has a transmitting device and a

Receiving device, wherein a coupling device for coupling the transmitting device and the

Receiving device is provided to power lines of the power distribution network.

State of the art

It is known that the electrical wires of a

Energy distribution network not only for power transmission, but also for data transmission to connected terminals, such as energy meters, load switching devices or gateways can be used. In such a power line carrier network (PLC), for example, an energy meter can be read out or parameterized by remote access from a data concentrator arranged in the network. It may also be a shutdown of the energy meter may be desired, for example, if a customer is negligent with the payment related energy and a further purchase of energy should no longer be possible. For a network-side shutdown of an energy meter, the shutdown command must reach the receiving device in the counter as securely as possible. For this purpose, the energy meter could be equipped with three, each connected to one phase of the power line receiving devices, so that the transmission path can not be easily interrupted in an improper intent, for example by the current fuse of the connecting wire is removed. For cost reasons but usually only one receiving device is installed in an energy meter. A secure power cut-off is then no longer given.

Presentation of the invention

It is an object of the present invention to provide a method and a device for data transmission in a power distribution network, by means of which a network-side data transmission to a receiving device of a terminal is certainly possible and only a small effort in the realization is required.

This object is achieved for a method having the features of patent claim 1 and for an arrangement having the features of patent claim 6. Advantageous embodiments of the invention are defined in the respective dependent claims.

The invention is based on the idea, in the transmission of data to a terminal, to select the transmission channel in the reception and predetermine when sending. This increases the likelihood that a shutdown command generated by the network will actually increase the Terminal reached. The shutdown of a

Subscriber line can not be easily thwarted. Compared with the data reception, the transmission of data has a lower priority, so that according to the invention, the transmission device is assigned to a network line fixed. The effort in the realization is therefore low. For a terminal, such as an energy meter, which determines consumption data and is present at each subscriber line, low production costs are of great importance.

The inventive method is characterized in that the receiving device is coupled to one of the power lines, which is selected by a selection switching device arranged in the receiving device, and that the coupling of the transmitting device is predetermined by a dedicated power line.

As a result, a shutdown command is more likely to reach an addressed terminal. The additional effort for the selection switching device is low and the benefits achieved great.

Appropriately, the selection switching device uses, as a criterion for the selection of a power line, the mains voltage. If the line voltage is present at a connection line, data reception is also possible with a high probability via this energy supply line. In other words, if the mains voltage is present within a tolerance range specified by the network operator, then there is no interruption. In the event that only one of the power lines carries the mains voltage, a signal-conducting connection is expediently produced by the selection switching device between the coupling unit of this live power line and the receiving unit. In this case, the security with which, for example, a switching command reaches a terminal device depends on whether this transmission path is undisturbed.

In the event that the mains voltage is present at two or more power lines, it is favorable to select the power line that promises the best transmission characteristics. As a measure for checking the data transmission quality, for example, the signal-to-noise ratio can be used. However, it is also possible to use the reception level or an estimated bit error rate or another measure.

It may also be beneficial if the line voltage measurement is performed at periodic intervals, i. when all the phases are sampled repeatedly one after the other.

Brief description of the drawings

To further explain the invention, reference is made in the following part of the description to the drawing, from the further advantageous embodiments, details and further developments of the invention can be found. Show it:

1 shows a block diagram of an embodiment of the inventive arrangement for data transmission in an energy distribution network. Embodiment of the invention

FIG. 1 shows a simplified block diagram of an arrangement according to the invention for transmitting data in a power-line network (PLC) by way of example. The reference numeral 10 denotes a low-voltage terminal. In the present embodiment, this terminal 10 is a

Low-voltage energy meter, which is associated with a subscriber line and is connected via low-voltage fuses 7 to the three phases or wires 1, 2, 3 of a power distribution network 8. The terminal 10 may also be a load switching device, a gateway or another device.

About the three phases 1, 2 and 3 (in Figure 1 leads Ll, L2, L3) data from the power distribution network 8 in the direction of terminal 10 and in the opposite direction, from the terminal 10 in the network 8, transmitted. A not shown in Figure 1 in the network 8 arranged master device (data concentrator in the vicinity of a local transformer) determines the events in the data transmission on the power lines 1, 2, 3. It can transmit and receive on all three phases 1,2,3. The terminal 10 is operated as a slave and is hierarchically subordinate to this master device.

For receiving the data by means of a coupling device 5 (the coupling device consists of three

Signal coupling circuits 5a, 5b, and 5c), tapped from the lines 1, 2, 3 and a selection switching device 9 (Rx signal line selector) forwarded. The selection Switching device 9 is the output side connected to the receiving device 12. The selection switching device 9 functions as a transmission channel selection device: It selects a reception signal from one of the network lines L1, L2, L3 and forwards it to the reception device 12. In the further consequence, this is processed in the control and monitoring device 4, which is not explained in more detail.

The selection of a phase takes place according to the following criteria:

The mains voltage is present at phase L 1: the receiving device 12 is switched to phase L 1 via corresponding coupling devices.

There is no mains voltage at phase L1: the receiving device 12 is switched to phase L2 via corresponding coupling devices.

There is no mains voltage at phase L1 or at phase L2. The receiving device 12 is switched to phase L3 via corresponding coupling devices.

In short, the power lines are continually sampled and switched for selection. If a voltage is present, a signal-conducting connection with the receiving device 12 is produced by a switching operation. So receiving is only from a phase that has sufficient line frequency voltage.

As already stated, the transmission function has less importance compared to the reception function. In FIG. 1, the Transmit signal line (Tx signal) therefore permanently connected to the signal coupling circuit 5a, maW the transmitting device 11 is fixed to a network line assigned (in the embodiment of Figure 1, this is the phase Ll). The signal coupling circuit 5a is designed to receive the

Coupling to the power line Ll both when sending and when receiving data establishes (Rx / Tx signal coupling circuit).

The determination or monitoring of voltages is carried out by the control and monitoring unit 4, which has a voltage measuring device, the over

Monitoring lines 61, 62, 63 (also referred to in Figure 1 with ULI, UL2, UL3) connected to the power lines 1,2,3. The result of the voltage measurement is called

Selection criterion via the control line bus 6 to the selection switching device 9 transmitted. In the case of an energy meter, a voltage measuring device is always present, and thus the selection criterion is also present in the device.

In a particular embodiment of the invention, it is provided that in the event that two phases carry mains voltage, a transmission channel with the best transmission quality is selected. As a measure here, for example, the bit error rate, the signal interference ratio or another criterion can be used.

The present invention offers the advantage that a switch-off command can be transmitted to the low-voltage terminal even with an interrupted supply line. This allows a network-side shutdown of a customer investment even if one or two in abusive intent Low-voltage fuses have been removed, ie one or two phases are omitted for the switching command data transmission,

It is a further great advantage of the invention that only one receiving device is required for secure reception. Thus, the cost of the terminal can be kept relatively low.

List of reference numbers used

1 power line Ll 2 power line L2

3 power line L3

4 monitoring and control device

5 coupling device

5a, 5b, 5c Signalankoppelschaltungen 6 control line bus

7 low-voltage fuse

8 power distribution network

9 Selection switchgear

10 (low-voltage) terminal 11 transmitting device

12 receiving device

61, 61, 63 Monitoring cables

Claims

claims

A method for transmitting data in a power distribution network (8), comprising a terminal (10) having a transmitting device (11) and a

Receiving device (12), wherein a coupling device (5) for coupling the transmitting device (11) and the receiving device (12) to power lines (1,2,3) of the power distribution network (8) is provided, characterized in that the receiving device (12 ) is coupled to a power line, which is selected by a selection device arranged in the receiving device (9), and that the coupling of the transmitting device is predetermined by a dedicated power line.

2. The method according to claim 1, characterized in that the selection switching device (9) selects a power line to which a mains voltage is applied.

3. The method according to claim 2, characterized in that in the event that the mains voltage is present only on one of the power lines, by means of the selection

Switching device (9) a signal-conducting connection between the coupling device of this live power line and the receiving device (12) is switched through.

4. The method according to claim 2, characterized in that in the event that the mains voltage is applied to two or more power lines, one each Measure of the transmission quality for these live power lines is determined.

5. The method according to claim 3 or 4, characterized in that the terminal (10) is arranged so that a live power line by means of a terminal (10) arranged monitoring and control device (4) is determined by continuous scanning of the power lines.

6. Arrangement for transmitting data in one

Energy distribution network (8), with a terminal (10), which has a transmitting device (11) and a receiving device (12), wherein a coupling device (5) for coupling the

Transmission device (11) and the receiving device (12) to power lines (1,2,3) of the power distribution network (8) is provided, characterized in that the terminal (10) is equipped with a selection switching device (9) having a coupling between the receiving device (12) and one of the network lines selects, and that the coupling of the transmitting device (11) is predetermined to a power line by a fixed assignment.

7. Arrangement according to claim 6, characterized in that the selection switching device (9) selects a power line to which a mains voltage is applied.

8. Arrangement according to claim 7, characterized in that in the event that the mains voltage is present only on one of the power lines, the selection switching device (9) has a signal-conducting connection between the coupling device of this live power line and the receiving device (12) switches through.

9. Arrangement according to claim 8, characterized in that in the event that the mains voltage is present on two or more power lines, a measure of the transmission quality for these live power lines is determined.

10. Arrangement according to claim 8 or 9, characterized in that the terminal (10) is arranged so that a live power line by continuously scanning the power lines by means of a monitoring and control device (4) can be determined.