ELECTRIC METER AND CORRESPONDING OPERATING METHOD

Abstract

The invention relates to an electric meter (1) for measuring the electricity consumption of a load (R.sub.LOAD), in particular during a charging process of an electric car. The electric meter (1) according to the invention contains a current output (5, 6), in particular with two current connections (5, 6), for connecting a connecting cable (7) leading to a transfer point (9, 10), in particular in a plug (8) of the connecting cable (7), whereby the load (R.sub.LOAD) is supplied with an electric current (I.sub.LOAD) via the connecting cable (7) at the transfer point (9, 10). Furthermore, the electric meter (1) according to the invention contains a measuring circuit (11, 12) for measuring at least one electrical consumption variable of the current (I.sub.LOAD) flowing via the current output (5, 6) to the load (R.sub.LOAD). The invention provides that the electric meter (1) can optionally be operated in one of several operating modes, whereby the operating modes differ in the consideration of line losses in the connecting cable (7). Furthermore, the invention comprises an associated operating method.

Claims

1-18. (canceled)

19. Electric meter for measuring the electricity consumption of a load, comprising: a) a current output for the connection of a connecting cable leading to a transfer point, the load being supplied with an electric current via the connecting cable at the transfer point, and b) a measuring circuit for measuring at least one electrical consumption variable of the current flowing via the current output to the load, c) wherein the electric meter is operational in one of several operating modes, the operating modes differing by taking into account line losses in the connecting cable.

20. Electric meter according to claim 1, wherein a) the current output has two current connections, and b) the transfer point is in a plug of the connecting cable.

21. Electric meter according to claim 19, comprising a first operating mode in which the electric meter takes into account the line losses in the connecting cable to the load by a four-wire measurement directly at the transfer point to the load, namely on the one hand a voltage measurement at the transfer point and on the other hand a current measurement in the electric meter.

22. Electric meter according to claim 21, wherein a) the measuring circuit has a first voltage measurement input for measuring a first voltage directly at the transfer point to the load with respect to a reference potential, with the first voltage measurement input being connected to the transfer point via a first measuring line in the connecting cable, b) the measuring circuit has a second voltage measurement input for measuring a second voltage directly at the transfer point to the load with respect to the reference potential, the second voltage measurement input being connected to the transfer point via a second measuring line in the connecting cable, c) the measuring circuit has a third voltage measurement input for measuring a third voltage in the electric meter, d) the third voltage measurement input measures the third voltage in the electric meter between a high-side and the low-side thereof, e) the first measuring line in the connecting cable detects the first voltage at the transfer point at the high-side, f) the second measuring line in the connecting cable detects the second voltage at the transfer point at the low side, g) the electric meter has a current measuring device for measuring the output current which flows to the load, and h) the electric meter includes a calculation unit which is adapted to calculate the line losses in the connecting cable in the first operating mode as a function of: h1) the measured value of the first voltage, h2) the measured value of the second voltage, h3) the measured value of the third voltage, and h4) the measured value of the output current.

23. Electric meter according to claim 22, further comprising a second operating mode, in which the line losses in the connecting line are taken into account by a parameterized calculation of the line losses.

24. Electric meter according to claim 23, wherein a) the electric meter has a parameter memory in which line parameters are stored which represent the line resistance of the connecting cable between the electric meter and the transfer point, the line parameters, b) the calculation unit is adapted to calculate the line resistance in the connecting cable in the second operating mode as a function of the measured current and the stored line parameters, and/or c) the calculation unit is adapted to calculate the line losses in the connecting cable in the second operating mode in dependence on: c1) the measured output current and c2) the stored line parameters.

25. Electric meter according to claim 24, further comprising a third operating mode in which the line losses in the connecting cable to the load are not taken into account.

26. Electric meter according to claim 25, wherein a) the electric meter has a selection device for selecting one of the operating modes, b) the selection device is adapted to determine whether measuring lines are connected to the voltage measurement inputs of the electric meter and, if so, selects the first operating mode, c) the selection device is adapted to determine whether line parameters are stored in the parameter memory and is adapted to select the second operating mode if no measurement lines are connected to the voltage measurement inputs but line parameters are stored in the parameter memory, and d) the selection device is adapted to select the third operating mode if neither measuring lines are connected to the voltage measurement inputs nor line parameters are stored in the parameter memory.

27. Electric meter according to claim 26, wherein a) the selection device is adapted to compare the output voltage measured inside the electric meter at the current output with the output voltage measured directly at the transfer point, and b) the selection device is adapted to select the first operating mode with the four-wire measurement if the difference between the two output voltages is within a specified tolerance range.

28. Electric meter according to claim 27, wherein a) the selection device is adapted to check whether line parameters are stored in the parameter memory, and b) the selection device is adapted to select the second operating mode with the parameterized calculation of the line losses, if b1) the difference between the two output voltages is not within the specified tolerance range, and b2) line parameters are stored in the parameter memory.

29. Electric meter according to claim 28, wherein the selection device is adapted to select the third operating mode without taking into account the line losses if a) the difference between the two output voltages is not within the specified tolerance range, and b) no line parameters are stored in the parameter memory.

30. Electric meter system, comprising: a) the electric meter according to claim 19, and b) the connection cable that connects the electric meter to the load via a detachable plug c) wherein the connecting cable contains the two measuring lines which connect the two voltage measurement inputs of the electric meter to the transfer point in order to measure the output voltage directly at the transfer point.

31. Operating method for an electric meter, comprising: a) supplying a load with an electric current, which flows through the electric meter via a connecting cable to the load, the load having a certain current consumption and line losses occurring in the connecting cable, b) measurement of the current consumption of the load by the electric meter, and c) selection of one of several operating modes of the electric meter, whereby the operating modes differ by the consideration of the line losses.

32. Operating method according to claim 31, further comprising a) a first operating mode of the electric meter, wherein the electric meter in the first operating mode takes into account the line losses in the connecting cable to the load by means of a four-wire measurement directly at the transfer point to the load, namely on the one hand by means of a voltage measurement at the transfer point and on the other hand by means of a current measurement in the electric meter, b) a second operating mode in which the line losses in the connecting line are taken into account by a parameterized calculation of the line losses, and c) a third operating mode in which the line losses in the connecting cable to the load are not taken into account.

33. Operating method according to claim 32, further comprising the following steps: a) measuring a first voltage directly at the transfer point with respect to a reference potential, the first voltage being tapped by a measuring line at the transfer point and measured at a first voltage measurement input of the electric meter, b) measuring a second voltage directly at the transfer point with respect to the reference potential, the second voltage being tapped via a measuring line directly at the transfer point and measured at a second voltage measurement input of the electric meter, c) measuring a third voltage in the electric meter between the two power connections of the electric meter, d) measuring the current flowing through the connecting cable to the load, and e) calculation of the line losses in the first operating mode as a function of: e1) the measured value of the first voltage, e2) the measured value of the second voltage, e3) the measured value of the third voltage, and e4) the measured value of the output current.

34. Operating method according to claim 33, further comprising the following steps for the parametric calculation of the line losses: a) storing line parameters in a parameter memory, wherein the line parameters represent the line resistance of the connecting cable between the electric meter and the transfer point to the load, b) reading out the line parameters from the parameter memory, c) measuring the current flowing from the electric meter through the connecting cable to the load, and d) calculating the line losses in the connection cable depending on the read out line parameters and the measured current.

35. Operating method according to claim 32, further comprising the following steps for selecting one of the operating modes: a) measuring a first output voltage of the electric meter before the connecting cable to the load, b) measuring a second output voltage directly at the transfer point to the load, c) comparing the two output voltages, and d) selection of the first operating mode if the difference between the two output voltages is within a specified tolerance range.

36. Operating method according to claim 34, further comprising the following steps for selecting one of the operating modes: a) checking whether line parameters are stored in the parameter memory, and b) selection of the second operating mode with the parameterized calculation of the line losses, if b1) the difference between the two output voltages is not within the specified tolerance range, and b2) are line parameters stored in the parameter memory.

37. Operating method according to claim 36, wherein the third operating mode is selected without consideration of line losses if a) the difference between the two output voltages is not within the specified tolerance range, and b) no line parameters are stored in the parameter memory.

Description

[0042] Other advantageous further developments of the invention are characterized in the dependent claims or are explained in more detail below together with the description of the preferred embodiment of the invention using the figures. The show:

[0043] FIG. 1 a schematic representation of a conventional electric meter system,

[0044] FIG. 2 a schematic representation of an electric meter system according to the invention,

[0045] FIG. 3 a schematic representation of the evaluation unit in the electric meter according to the invention according to FIG. 2, as well as

[0046] FIG. 4 is a flowchart to illustrate the operating procedure of the electric meter of the invention.

[0047] In the following, the embodiment according to FIG. 2 is described, which partly corresponds to the conventional system described at the beginning and shown in FIG. 1, so that in order to avoid repetition, reference is made to the above description, whereby the same reference signs are used for corresponding details.

[0048] A special feature is that two measuring lines 14, 15 run through the charging cable 7, enabling voltage measurement directly at the transfer point formed by the two connections 9, 10 of the plug 8. The measuring line 14 enables a voltage measurement at the high-side at the connection 9 of the plug 8, while the other measuring line 15 enables a voltage measurement at the connection 10 of the plug 8 at the low-side.

[0049] Alternatively, however, it is also possible for the measuring lines 14, 15 to run outside the charging cable 7, for example in a separate measuring line.

[0050] In addition, there is the possibility that the measuring lines 14, 15 are not connected at all, as may be the case, for example, when retrofitting existing systems. In this case, no four-wire measurement is possible at the transfer point, so that the line losses cannot be compensated for metrologically in accordance with the four-wire technique. Instead, the line losses are then taken into account by a parameterized measured value compensation, as described in detail below.

[0051] For interrogation of the two measuring lines 14, 15 in the first operating mode with consideration of the line losses according to the four-wire technique, the electric meter 1 has two voltage measuring connections 16, 17.

[0052] The voltage measuring device 12 contains two voltmeters V1, V2, where the voltmeter V1 measures a voltage U1 at the high-side connector 8 at terminal 9 with respect to a reference potential formed by the high-side at terminal 5.

[0053] In addition, the voltage measuring device 12 has a voltmeter V2 which measures a voltage U2 on the other terminal 10 of connector 8 on the low side, also with respect to the reference potential on power terminal 5 on the high side of meter 1.

[0054] Furthermore, the voltage measuring device 12 has a third voltmeter V3 which measures a voltage U3 between high-side and low-side in the electric meter 1 via a measuring line 18.

[0055] The three voltages U1, U2, U3 are transmitted to the evaluation unit 13, which is shown schematically in FIG. 3.

[0056] On the one hand, a calculation unit 19 in the evaluation unit 13 calculates the line losses P.sub.LOSS,B in the charging cable 7 according to the four-wire technique using the following formula:

P.sub.LOSS,B=I.sub.LOAD.Math.(U3−U2+U1),

with:

[0057] I.sub.LOAD: Output current through the charging cable 7,

[0058] U1: voltage at the transfer point on the high side, i.e. at connection 9,

[0059] U2: voltage at the transfer point on the low side, i.e. at terminal 10,

[0060] U3: voltage in electric meter 1 between high-side and low-side.

[0061] On the other hand, a calculation unit 20 in the evaluation unit 13 calculates the line loss P.sub.LOSS,A in the charging cable 7 depending on stored line parameters according to the following formula:

P.sub.LOSS,B=I.sub.LOAD.sup.2.Math.2.Math.L/(σ−A),

[0062] with:

[0063] I.sub.LOAD: Output current through the charging cable 7,

[0064] L: single length of the charging cable 7,

[0065] A: wire cross section of the charging cable 7,

[0066] σ: specific electrical conductivity of the conductor material of the charging cable 7.

[0067] The calculation unit 20 gets the line parameters from a parameter memory 21, in which the line parameters are stored. The parameter memory 21 transmits a flag to a selection device 22, which indicates whether the line parameters are stored in the parameter memory 21. Selection device 22 thus knows whether line parameters are stored in parameter memory 21, which is necessary for parameterized measured value compensation of line losses.

[0068] In addition, the selection device 22 compares the output voltage U.sub.OUT at the output of the electric meter 1 with the charging voltage U.sub.LOAD at the transfer point, which is measured according to the four-wire technique. If both voltages are within a given tolerance range, the selection device 22 knows that the line losses can be taken into account according to the four-wire technique. The selection device 22 then selects the first operating mode in which the line losses according to the four-wire technique are taken into account. The selection device 22 can then take over the line losses P.sub.LOSS,B which were calculated by the calculation unit 19.

[0069] If the difference between the two voltages U.sub.OUT and U.sub.LOAD is not within the specified tolerance range, the selection device 22 knows that no four-wire measurement is possible at the transfer point.

[0070] In this case, the selection device 22 further checks whether a flag is sent from the parameter memory 21 indicating that line parameters are stored in parameter memory 21. If this is the case, the selection device 22 selects the second operating mode in which the line losses in charging cable 7 are taken into account by a parameterized measurement compensation. The selection device 22 then selects the power loss P.sub.LOSS,A, which was calculated by the calculation unit 20.

[0071] If, on the other hand, the selection device 22 does not receive a flag from the parameter memory 21 because no line parameters are stored in the parameter memory 21, the selection device 22 selects the third operating mode in which the line losses P.sub.LOSS are assumed to be zero.

[0072] A calculation unit 23 then calculates the output power P.sub.LOAD at the transfer point between the two connections 9, 10 depending on the output power P.sub.OUT at the output of the electric meter 1 and the power loss P.sub.LOSS.

[0073] FIG. 4 shows the operating mode of the meter in the form of a flow diagram.

[0074] In a first step S1, a check is first made whether the difference between the output voltage U.sub.OUT at the output of the electric meter 1 and the charging voltage U.sub.LOAD at the transfer point between the two terminals 9, 10 is within a specified tolerance range U.sub.TOL. If this is the case, the line losses are taken into account in a step S2 according to the four-wire measurement as described above.

[0075] If the difference between the output voltage U.sub.OUT and the charging voltage U.sub.LOAD is not within the tolerance range U.sub.TOL, a check is made in a step S3 to see whether a parameterized measured value compensation of the line losses is possible, which requires a storage of the line parameters (e.g. cable length, cable cross section, specific electrical conductivity of the line material).

[0076] If necessary, a parametric measured value compensation of the line losses is then carried out in a step S4.

[0077] Otherwise, in a step S6 no consideration of the line losses is done.

[0078] In a step S7 a regular program run is performed.

[0079] The invention is not limited to the preferred embodiment described above. Rather, a large number of variants and modifications are possible, which also make use of the inventive idea and therefore fall within the scope of protection. In particular, the invention also claims protection for the subject matter and the features of the dependent claims independently of the claims referred to in each case, and in particular also without the features of the main claim or the independent claims.

LIST OF REFERENCES SIGNS

[0080] 1 Electric meter [0081] 2 Input-side high-side power connection [0082] 3 Input-side low-side power connection [0083] 4 Charging source [0084] 5 Output-side high-side power connection [0085] 6 Output-side low-side power connection [0086] 7 Charging cable [0087] 8 Plugs [0088] 9, 10 Connections of the plug [0089] 11 Current measuring device [0090] 12 Voltage measuring device [0091] 13 Evaluation unit [0092] 14, 15 Measuring lines in the charging cable [0093] 16, 17 Voltage measuring connections [0094] 18 Measuring line in the electric meter [0095] 19 Calculation unit [0096] 20 Calculation unit [0097] 21 Parameter memory [0098] 22 Selection device [0099] 23 Calculation unit [0100] I.sub.LOAD Charging current [0101] I.sub.in Input current from the charging source [0102] P.sub.LOAD Charge power [0103] R.sub.CABLE,HIGH Line resistance in the charging cable on the high-side [0104] R.sub.CABLE,LOW Line resistance in the charging cable on the low side [0105] R.sub.LOAD Load [0106] U1, U2, U3 Measured voltage values [0107] U.sub.LOAD Charge voltage at the transfer point [0108] U.sub.OUT Output voltage at the electric meter before the charging cable [0109] V1, V2, V3 Voltmeter