Sensor to monitor health of metal oxide arresters

We claim: 1. A surge arrestor sensor configured to monitor a health of a surge arrester, comprising: (a) a housing; (b) a sensor assembly contained in the housing, the sensor assembly including: (i) an electronics board to receive, transmit, process, and store signals; (ii) a Rogowski coil electrically connected to the electronics board to measure surge currents diverted by the surge arrestor; and (iii) a current transformer electrically connected to the electronics board to measure leakage current; and (c) a voltage measurement strap extending around a periphery of the housing, the voltage measurement strap being electrically connected to the electronics board and configured to measure voltage using electric field. 2. The surge arrester sensor according to claim 1 , further including a central shaft extending through a center of the housing between a first arrester side of the housing and a second non-arrester side of the housing, the central shaft being grounded only to the second non-arrester side of the housing to reduce the capacitive current measured from the surge arrestor sensor to ground. 3. The surge arrester sensor according to claim 2 , wherein the current transformer is positioned around the central shaft, the current transformer being constructed of a ferromagnetic core wound with copper wire. 4. The surge arrester sensor according to claim 1 , wherein the surge arrester sensor is attached to an energized end of the surge arrester. 5. The surge arrester sensor according to claim 1 , further including: (a) a power source electrically connected to the electronics board to provide electrical current to the electronics board; and (b) an RF antenna electrically connected to the electronics board to transmit and receive the signals. 6. The surge arrester according to claim 1 , wherein the voltage measurement strap is insulated from a sidewall of the housing by insulating standoffs positioned between the voltage measurement strap and the sidewall. 7. A method of determining a health of a surge arrester using the surge arrester sensor of claim 1 , comprising: (a) attaching the surge arrester sensor to an energized end of the surge arrester; (b) using the current transformer to measure leakage current; (c) using the Rogowski coil to measure surge currents diverted by the surge arrester; (d) using the voltage measurement strap to measure electric field on the energized end of the surge arrester and derive an energization voltage waveform therefrom; (e) using the electronics board to process measured voltage and current waveforms produced by the current transformer, Rogowski coil, and voltage measurement strap and determine metrics; and (f) using an antenna electrically connected to the electronics board to transmit the metrics to a remote location. 8. The method according to claim 7 , wherein the metrics are representative of total leakage current, residual and resistive leakage current, 3 rd harmonic of the residual and resistive leakage current, applied voltage, and temperature. 9. The method according to claim 7 , further including the step of using the electronics board to set thresholds for alarms based on the processed measured voltage and current waveforms. 10. The method according to claim 9 , wherein if the metrics exceed the thresholds, alarms and/or alerts are provided to instruct personnel to perform an action selected from the group consisting of repair, replace, and inspect the arrester. 11. A surge arrester sensor, comprising: (a) a housing having a sensor assembly contained therein, the housing including first and second spaced-apart ends interconnected by a sidewall; (b) a voltage measurement strap extending around a periphery of the housing and electrically connected to the sensor assembly; (c) a central shaft extending through a center of the housing, the central shaft having a first distal end extending through the first end of the housing and a second distal end extending through the second end of the housing, the central shaft being electrically grounded to the housing only at the second end; (d) wherein the first distal end of the central shaft is attached to an energized end of a surge arrester and the second distal end of the central shaft is connected to an energized conductor. 12. The surge arrester sensor according to claim 11 , wherein the sensor assembly includes: (a) an electronics board to receive, transmit, process, and store signals; (b) a Rogowski coil electrically connected to the electronics board to measure surge currents diverted by the surge arrestor; and (c) a current transformer electrically connected to the electronics board to measure leakage current. 13. The surge arrester sensor according to claim 12 , wherein the current transformer is positioned around the central shaft and is constructed of a ferromagnetic core wound with copper wire. 14. The surge arrester sensor according to claim 11 , wherein the voltage measurement strap is insulated from the housing by insulating standoffs positioned between the voltage measurement strap and the housing. 15. The surge arrester sensor according to claim 11 , wherein voltage measurement strap is configured to measure voltage using electric field.