Detection of electrical theft from a transformer secondary

What is claimed is: 1. A metering device, comprising: a metrology device to measure voltage and current at a plurality of different times; an impedance calculator to calculate impedance at the metering device at a plurality of different times and under a plurality of different load conditions, wherein the calculating is based at least in part on the measured voltage and current; a processor to detect instances of impedance values at the metering device over a threshold value; and a communications device to report, in response to the detected instances of impedance values at the metering device over the threshold value, an indication of a circuit problem. 2. The metering device of claim 1 , wherein: the metrology device to measure voltage and current at the plurality of different times obtains a time series of paired voltage and current measurements; and the impedance calculator to calculate impedance at the metering device calculates a change in voltage divided by a change in current, wherein the change in voltage and the change in current are based on differences between paired voltage and current measurements from among the time series of paired voltage and current measurements. 3. The metering device of claim 1 , wherein the metering device distinguishes detected instances of impedance values over the threshold value caused by degraded infrastructure from detected instances of impedance values over the threshold value caused by theft. 4. The metering device of claim 3 , wherein the metering device records the measured voltage and current over time to develop a history of loads at the metering device and compares a current load to historical loads measured by the metering device. 5. The metering device of claim 3 , wherein the metering device: distinguishes loads within a second threshold value of historical loads measured by the metering device from loads not within the second threshold value of the historical loads; reports degraded infrastructure when the loads are within the second threshold value; and reports theft when the loads are not within the second threshold value. 6. The metering device of claim 1 , wherein the metering device: detects, for instances of impedance over the threshold value, if a load at the metering device is within a second threshold value of past recorded instances of loads; reports, in response to loads within the second threshold value, an indication of circuit degradation; and reports, in response to loads not within the second threshold value, an indication of theft at the metering device. 7. The metering device of claim 1 , wherein the metering device: calculates a transformer secondary voltage value, based at least in part on the calculated impedance at the metering device; and reports the calculated transformer secondary voltage value. 8. A method of operating a metering device, comprising: measuring voltage and current at a plurality of different times; calculating impedance at the metering device at a plurality of different times and under a plurality of different load conditions, wherein the calculating is based at least in part on the measured voltage and current; detecting instances of impedance values at the metering device over a threshold value; and reporting, in response to detected instances of impedance values at the metering device over the threshold value, an indication of a circuit problem. 9. The method of claim 8 , wherein: measuring voltage and current at the plurality of different times comprises obtaining a time series of paired voltage and current measurements; and calculating impedance at the metering device comprises calculating a change in voltage divided by a change in current, wherein the change in voltage and the change in current are based on differences between paired voltage and current measurements from among the time series of paired voltage and current measurements. 10. The method of claim 8 , additionally comprising: distinguishing detected instances of impedance values over the threshold value caused by degraded infrastructure from detected instances of impedance values over the threshold value caused by theft. 11. The method of claim 10 , wherein the distinguishing comprises: recording the measured voltage and current over time to develop a history of loads at the metering device; and comparing a current load to historical loads measured by the metering device. 12. The method of claim 10 , wherein the distinguishing comprises: distinguishing loads within a second threshold value of historical loads measured by the metering device from loads not within the second threshold value of the historical loads; reporting degraded infrastructure when the loads are within the second threshold value; and reporting theft when the loads are not within the second threshold value. 13. The method of claim 8 , additionally comprising: detecting, for instances of impedance over the threshold value, if a load at the metering device is within a second threshold value of past recorded instances of loads; reporting, in response to loads within the second threshold value, an indication of circuit degradation; and reporting, in response to loads not within the second threshold value, an indication of theft at the metering device. 14. The method of claim 8 , additionally comprising: calculating a transformer secondary voltage value, based at least in part on the calculated impedance at the metering device; and reporting the calculated transformer secondary voltage value. 15. One or more computer-readable media storing computer-executable instructions that, when executed, cause one or more processors to perform acts comprising, comprising: measuring voltage and current at a plurality of different times; calculating impedance at a metering device at a plurality of different times and under a plurality of different load conditions, wherein the calculating is based at least in part on the measured voltage and current; detecting instances of impedance values at the metering device over a threshold value; and reporting, in response to detected instances of impedance values at the metering device over the threshold value, an indication of a circuit problem. 16. The one or more computer-readable media storing computer-executable instructions of claim 15 , wherein: measuring voltage and current at the plurality of different times comprises obtaining a time series of paired voltage and current measurements; and calculating impedance at the metering device comprises calculating a change in voltage divided by a change in current, wherein the change in voltage and the change in current are based on differences between paired voltage and current measurements from among the time series of paired voltage and current measurements. 17. The one or more computer-readable media storing computer-executable instructions of claim 15 , additionally comprising: distinguishing detected instances of impedance values over the threshold value caused by degraded infrastructure from detected instances of impedance values over the threshold value caused by theft. 18. The one or more computer-readable media storing computer-executable instructions of claim 17 , wherein the distinguishing comprises: recording the measured voltage and current over time to develop a history of loads at the metering device; and comparing a current load to historical loads measured by the metering device. 19. The one or more computer-readable media storing computer-executable inst