Arc detection in electric meter systems

What is claimed is: 1. A system to detect electrical arcing conditions between an electrical meter and a meter socket in a utility box capable of providing a metered utility to a premises, the system comprising: the electrical meter configured to transmit utility electrical signals from a utility side of the meter socket to a premises side of the meter socket, the electrical meter having a disconnect circuit capable of interrupting the transmission of the utility electrical signals; a measurement circuit capable of producing a set of measurement values of the utility electrical signals transmitted by the electrical meter; and a processor capable of communicating with the measurement circuit and the disconnect circuit; wherein the processor is capable of: receiving the set of measurement values, comparing one of the values of the set of measurement values to a threshold, determining, based on the one of the values being within a first range from the threshold, that a potential arcing condition is present, in response to determining that the potential arcing condition is present, providing an indication of the potential arcing condition to a communication subsystem and instructing the communication subsystem to transmit the indication of the potential arcing condition to a central system, determining, based on the one of the values being outside of the first range and within a second range from the threshold, that an existing arcing condition is present, and in response to determining that the existing arcing condition is present, providing a disconnect signal to the disconnect circuit, wherein the disconnect circuit is configured to receive the disconnect signal and disconnect the premises from the utility electrical signals. 2. The system of claim 1 , wherein: the set of measurement values consists of one or more of: a voltage measurement of the utility electrical signals, a current measurement of the utility electrical signals, or a zero-crossing measurement of the utility electrical signals, the processor is further capable of determining a line distortion measurement value based on the one or more of the voltage measurement, the current measurement, or the zero-crossing measurement, wherein comparing the one of the values of the set of measurement values to the threshold includes comparing the line distortion measurement value to a threshold distortion value corresponding to a level of distortion associated with normal operating conditions, and determining that the existing arcing condition is present includes determining that the line distortion measurement value exceeds the threshold distortion value. 3. The system of claim 1 , wherein: the set of measurement values includes one or more values indicating a zero-crossing measurement value, and wherein comparing the one of the values to the threshold includes (i) determining a quantity of the one or more values indicating the zero-crossing measurement value, and (ii) comparing the quantity to a threshold distortion value corresponding to a threshold number of zero-crossing measurement values. 4. The system of claim 1 , wherein the processor is further capable of: determining, based on the set of measurements, a frequency spectrum of the utility electrical signals, determining an amplitude of a particular frequency included in the frequency spectrum, and determining that the particular frequency is outside of a harmonic range of a fundamental frequency of the utility electrical signals, wherein comparing the one of the values of the set of measurement values to the threshold includes comparing the amplitude of the particular frequency to a threshold amplitude corresponding to an expected amplitude associated with frequencies outside the harmonic range. 5. The system of claim 1 , wherein the processor is further capable of providing, in response to determining that the existing arcing condition is present, an indication of the existing arcing condition to the communication subsystem, and instructing the communication subsystem to transmit the indication of the existing arcing condition to a central system. 6. The system of claim 1 , wherein providing the disconnect signal to the disconnect circuit is further responsive to receiving an instruction signal from a remote device. 7. The system of claim 1 , wherein the electrical meter further includes the measurement circuit, the processor, and a memory capable of storing one or more measurement values from the received set of measurement values. 8. The system of claim 7 , wherein the processor is further capable of, based on the stored measurement values, determining a learned pattern, wherein the learned pattern indicates a pattern of measurements indicating a normal operating condition of the utility box. 9. The system of claim 8 , wherein the threshold is based on the learned pattern. 10. A method of disconnecting a utility provided to a premises via an electric meter installed in a utility box, the method comprising: based on historical data received from multiple electrical meters, determining a threshold level, wherein the threshold level corresponds to a value associated with a normal operating condition; receiving, from a first electrical meter installed in a first utility box, a first measurement value of an operating condition within the first utility box, the first measurement value indicating one or more of an ion level within the first utility box, a first voltage level of a utility electrical signal transmitted to the first electrical meter, or a first current level of the utility electrical signal transmitted to the first electrical meter; determining, based on a comparison of the first measurement value to the threshold level, that the operating condition within the first utility box includes an existing arcing condition, in response to determining that the operating condition within the first utility box includes the existing arcing condition, providing a disconnect signal to the first electrical meter; receiving, from a second electrical meter installed in a second utility box, a second measurement value of an operating condition within the second utility box, the second measurement value indicating one or more of an ion level within the second utility box, a second voltage level of a utility electrical signal transmitted to the second electrical meter, or a second current level of the utility electrical signal transmitted to the second electrical meter; determining, based on a comparison of the second measurement value to the threshold level, that the operating condition within the second utility box includes a potential arcing condition; and in response to determining that the second utility box includes a potential arcing condition, providing the second measurement value to a central system. 11. The method of claim 10 , wherein: the first measurement value is received from the first electrical meter via a communication subsystem included in the first electrical meter, and the disconnect signal is provided to the first electrical meter via the communication subsystem. 12. The method of claim 10 , wherein: the first measurement value includes one or more of the first voltage level or the first current level, and the threshold level includes a threshold distortion range corresponding to an expected level of distortion associated with the normal operating condition within the first utility box; the method further comprising: determining, based on one or more of the first voltage level or the first current level, a line distortion measurement value associated with the first voltage level or the first current level of the ut