Three-phase power meter monitoring for star and delta configurations

The invention claimed is: 1. A three-phase power meter, comprising: a front-end circuit (FEC) configured for coupling to a three wire or a four wire three-phase power line comprising a plurality of conductors, and to generate a plurality of signals indicative of voltages between respective pairs of conductors; and a processing unit, coupled to the FEC, and configured to receive the plurality of signals, and to determine power being transferred by the three-phase power line, wherein the power meter is configured to operate in a first mode of operation, in order to determine the power being transferred by a three wire three-phase power line, and in a second mode of operation, in order to determine the power being transferred by a four wire three-phase power line, and wherein the FEC is configured to determine the power being transferred in the first mode of operation based on only a first phase-to-phase voltage and a second phase-to-phase voltage, and wherein the FEC is configured to determine the power being transferred in the second mode of operation based on only the first phase-to-phase voltage, the second phase-to-phase voltage, and a phase-to-neutral voltage. 2. The three-phase power meter of claim 1 , wherein the FEC comprises a plurality of voltage generators, each generator arranged to be coupled between a pair of conductors, and each configured to generate at least one of the plurality of signals indicative of voltages between respective pairs of conductors. 3. The three-phase power meter of claim 2 , wherein the plurality of voltage generators includes a first and a second voltage generator arranged to be coupled between respective pairs of phase conductors, and a third voltage generator arranged to be coupled between a phase conductor and a neutral conductor. 4. The three-phase power meter of claim 2 , wherein the FEC comprises: a plurality of terminals for coupling to respective conductors of a three-phase power line, wherein the plurality of voltage generators include a plurality of voltage dividers arranged between the plurality of terminals. 5. The three-phase power meter of claim 4 , wherein: the plurality of terminals includes at least three phase-terminals for coupling to respective phase conductors of a three-phase power line, and at least one neutral terminal for coupling to a neutral conductor of a three-phase power line; and the plurality of voltage dividers comprises: a first voltage divider arranged between a first phase terminal and a second phase terminal; a second voltage divider arranged between a third phase terminal and the second phase terminal; and a third voltage divider is arranged between the second phase terminal and the neutral terminal. 6. The three-phase power meter of claim 2 , wherein the FEC comprises: a plurality of terminals for coupling to respective conductors of a three-phase power line, wherein the plurality of voltage generators are a plurality of voltage transformers arranged between the terminals. 7. The three-phase power meter of claim 1 , wherein, when the FEC is coupled to either three or four wire power lines, the FEC is configured to generate two signals indicative of the first phase-to-phase voltage and the second phase-to-phase voltage of the three-phase power line, and, when coupled to a four wire power line, the FEC is configured to generate one signal indicative of a voltage between a phase conductor and a neutral conductor of the three-phase power line. 8. The three-phase power meter of claim 7 , wherein: in the first mode of operation, the processing unit is configured to determine the power being transferred based on the two signals indicative of the first phase-to-phase voltage and the second phase-to-phase voltage of the three-phase power line; and in the second mode of operation, the processing unit is configured to determine the power being transferred based on the two signals indicative of the first phase-to-phase voltage and the second phase-to-phase voltage of the three-phase power line, and the signal indicative of a voltage between a phase conductor and a neutral conductor of the three-phase power line. 9. The three-phase power meter of claim 7 , wherein the FEC is configured to generate: when coupled to a three or four wire power line, a first signal indicative of the first phase-to-phase voltage between a first phase conductor and a second phase conductor of the three-phase power line; when coupled to a three or four wire power line, a second signal indicative of the second phase-to-phase voltage between a third phase conductor and the second phase conductor of the three-phase power line; and when coupled to a four wire power line, a third signal indicative of the phase-to-neutral voltage between the second phase conductor and a neutral conductor of the three-phase power line. 10. The three-phase power meter of claim 9 , wherein: in the first mode of operation, the processing unit is configured to determine the power being transferred based on the first signal and the second signal; and in the second mode of operation, the processing unit is configured to determine the power being transferred based on the first, second and third signals. 11. The three-phase power meter of claim 1 , wherein the FEC is further configured to generate a plurality of signals indicative of currents on respective phase conductors of the three-phase power line, and the processing unit is arranged to receive said signals indicative of currents and to determine power being transferred based on the received signals indicative of the voltages and the received signals indicative of the currents. 12. The three-phase power meter of claim 11 , wherein the FEC comprises: a plurality of current sensors for coupling to phase conductors of a three-phase power line, each current sensor configured to output a signal indicative of a current on the respective phase conductors. 13. The three-phase power meter of claim 1 , wherein the processing unit is configured to receive user input to control the operating mode of the power meter. 14. The three-phase power meter of claim 1 , wherein the processing unit is configured to automatically determine the operating mode of the power meter based on at least one of the received signals. 15. A front-end circuit (FEC) for use in a three-phase power meter, the FEC configured for coupling to a three wire or a four wire three-phase power line comprising a plurality of conductors, and to generate a plurality of signals indicative of voltages between respective pairs of conductors of the three-phase power line, such that the three-phase power meter is configured to determine a power being transferred by a three-phase three-wire power line in a first mode of operation based on only 1) a first phase-to-phase voltage and 2) a second phase-to-phase voltage, and determine a power being transferred by a three-phase four-wire power line in a second mode of operation based on only 1) the first phase-to-phase voltage, 2) the second phase-to-phase voltage, and 3) a phase-to-neutral voltage. 16. The FEC of claim 15 , further comprising a plurality of voltage generators, each generator arranged to be coupled between a pair of conductors, and each configured to generate at least one of the plurality of signals indicative of voltages between respective pairs of conductors. 17. The FEC of claim 16 , wherein the plurality of voltage generators include a first and a second voltage generator arranged to be coupled between respective pairs of phase conductors, and a third voltage generator arranged to be couple