Temporary overvoltage and ground fault overvoltage protection based on arrester current measurement and analysis

What is claimed is: 1. A method for initiating overvoltage protection in an electric power system, the method comprising: measuring current passing through a surge arrestor; calculating one or more frequency components of the measured current by performing a Fast Fourier Transform algorithm comprising calculating one or more Fourier Series constants for the one or more frequency components of the measured current based on one or more segments of a V-I characteristic curve for the surge arrestor; using the calculated one or more frequency components to calculate a magnitude of one or more target current variables; comparing the magnitude of the one or more target current variables to an overvoltage capability of the arrestor; and if the magnitude of the one or more target current variables exceeds the overvoltage capability of the arrestor, initiating overvoltage protection in the electric power system. 2. The method of claim 1 , wherein the Fast Fourier Transform algorithm includes using the one or more Fourier Series constants and derived ratios of the one or more frequency components of the measured current to one or more frequency components of voltage in the surge arrestor and of the one or more frequency components of the measured current to a current peak to calculate the one or more frequency components of the measured current. 3. The method of claim 1 , wherein the step of comparing a magnitude of the one or more target current variables to an overvoltage capability of the arrestor further comprises the steps of: calculating a pickup current using a pickup voltage and the one or more Fourier series constants; comparing the magnitude of the one or more target current variables to the pickup current; and wherein the step of initiating overvoltage protection comprises initiating TOV protection. 4. The method of claim 1 , wherein the step of using the calculated one or more frequency components to calculate a magnitude of the one or more target current variables comprises calculating a magnitude of a zero sequence component in the measured current; wherein the step of comparing the magnitude of the one or more current variables to an overvoltage capability of the arrestor comprises comparing the magnitude of the zero sequence component to an overvoltage capability of the arrestor; and wherein the step of initiating overvoltage protection comprises initiating GFOV protection. 5. The method of claim 1 , wherein the step of initiating overvoltage protection further comprises sending a signal to a distribution protection system to initiate breaking one or more circuits in the electric power system. 6. A system for initiating overvoltage protection in an electric power system, comprising: a current sensing device adapted to be coupled to a surge arrestor component of the power system; one or more processors; one or more data storage devices, in communication with the one or more processors, and containing a set of programming instructions for execution by the one or more processors, the set comprising instructions for: receiving a measurement of current passing through the surge arrestor; calculating one or more frequency components of the measured current by performing a Fast Fourier Transform algorithm comprising calculating one or more Fourier Series constants for the one or more frequency components of the measured current based on one or more segments of a V-I characteristic curve for the surge arrestor; using the calculated one or more frequency components to calculate a magnitude of one or more target current variables; comparing the magnitude of the one or more target current variables to an overvoltage capability of the surge arrestor; and if the magnitude of the one or more target current variables exceeds the overvoltage capability of the arrestor, initiating overvoltage protection in the electric power system. 7. The system of claim 6 , wherein the surge arrestor is a metal oxide surge arrestor. 8. The system of claim 7 , wherein the current sensing device comprises one or more current transformers or current sensors adapted to measure current in a three-phase electric power system in the range from about 0.1 mA to about 20 mA and is adapted to be coupled between a voltage barrier of the arrestor and a ground terminal associated with the arrestor. 9. The system of claim 6 , wherein the instructions for initiating overvoltage protection further comprise sending a signal to a distribution protection system associated with the electric power system to initiate breaking one or more circuits in the electric power system. 10. The system of claim 6 , further comprising a relay in communication with the one or more processors; and wherein the instructions for initiating overvoltage protection further comprise sending a signal to initiate breaking one or more circuits in the electric power system; and wherein the relay is adapted to receive the signal and break one or more circuits in the electric power system. 11. The system of claim 6 , wherein the instructions for calculating one or more frequency components of the measured current further comprises: using the one or more Fourier Series constants and derived ratios of the one or more frequency components of the measured current to one or more frequency components of voltage in the surge arrestor and of the one or more frequency components of the measured current to a current peak to calculate the one or more frequency components of the measured current. 12. The system of claim 6 , wherein the instructions for comparing a magnitude of the one or more target current variables to an overvoltage capability of the arrestor further comprises instructions for: calculating a pickup current using a pickup voltage and the one or more Fourier series constants; and comparing the magnitude of the one or more target current variables to the pickup current; and wherein the instructions for initiating overvoltage protection comprises initiating TOV protection. 13. The system of claim 6 , wherein the instructions for using the calculated one or more frequency components to calculate a magnitude of one or more target current variables comprises calculating a magnitude of a zero sequence component in the measured current; wherein the instructions for comparing the magnitude of the one or more current variables to an overvoltage capability of the arrestor further comprises comparing the magnitude of the zero sequence component to an overvoltage capability of the arrestor; and wherein the step of initiating overvoltage protection comprises initiating GFOV protection. 14. A computer program product for initiating overvoltage protection in an electric power system, embodied on a computer readable medium and comprising a set of programming instructions for: receiving a measurement of current passing through a surge arrestor in the electric power system in the form of a measured current signal; calculating one or more frequency components of the measured current signal by performing a Fast Fourier Transform algorithm comprising calculating one or more Fourier Series constants for the one or more frequency components of the measured current signal based on one or more segments of a V-I characteristic curve for the surge arrestor; using the calculated one or more frequency components to calculate a magnitude of one or more target current variables; comparing a magnitude of the one or more target current variables to an overvoltage capability of the surge arrestor; and if the magnitude of the one or more target current variables exceeds the overvoltage capability of the