Non-contact voltage sensor

The invention claimed is: 1. A sensor for determining voltage of a signal within a power cable, where said signal has a fundamental frequency, comprising: (a) a housing configured to be coupled around at least a portion of said power cable; (b) at least one conductive element supported by said housing and configured to be electrically coupled to said signal within said power cable when said housing is positioned around at least a portion of said power cable; a first capacitive element supported by said housing and electrically interconnected with said at least one conductive element; a second capacitive element supported by said housing and electrically interconnected with said first capacitive element which is electrically interconnected with said at least one conductive element, where said second capacitive element is not directly electrically interconnected with any of said at least one conductive element; a processor determining a cable capacitance of said power cable based upon, a single input from said first capacitive element and said second capacitive element, alternatively sensing an electrical characteristic of: said first capacitive element and said second capacitive element resulting in a first characteristic relationship between said cable capacitance and said voltage, at a position electrically located between the first capacitive element and the second capacitive element, as said voltage changes over time based upon a sampling frequency that is substantially the same as said fundamental frequency of said signal; said first capacitive element without said second capacitive element resulting in a second characteristic relationship between said cable capacitance and said voltage, at said position electrically located between the first capacitive element and the second capacitive element, as said voltage changes over time based upon said sampling frequency that is substantially the same as said fundamental frequency of said signal; and wherein said determining said cable capacitance is based upon a relationship between said first characteristic relationship and said second characteristic relationship; said sensor determining said voltage of said signal of said power cable based upon said determined cable capacitance. 2. The sensor of claim 1 further comprising a switch element supported by said housing that selectively includes said second capacitive element in determining said electrical characteristic. 3. The sensor of claim 1 wherein said electrical characteristic is a voltage level set by said first capacitive element. 4. The sensor of claim 3 wherein a buffered electrical characteristic is based upon said electrical characteristic. 5. The sensor of claim 1 wherein said first capacitive element has a capacitance value between 100 to 1 and 10,000 to 1 of said cable capacitance. 6. The sensor of claim 1 wherein said second capacitive element has a capacitance value within 75% of the value of said cable capacitance. 7. The sensor of claim 1 wherein said first capacitive element and said second capacitive element are arranged in a voltage divider configuration. 8. The sensor of claim 1 wherein the plurality of conductive elements are supported by said housing in a fixed relationship with respect to said housing. 9. The sensor of claim 8 wherein the plurality of conductive elements are supported by an exterior surface of said housing. 10. The sensor of 14 wherein the plurality of conductive elements are affixed to said housing using a plating process. 11. The sensor of claim 8 wherein the plurality of conductive elements are detachably engageable with said housing. 12. The sensor of claim 11 wherein the plurality of conductive element elements are selectable from a plurality of different sizes and engageable with said housing. 13. The sensor of claim 11 wherein characteristics of the plurality of conductive elements are determined by said processor. 14. The sensor of claim 13 wherein the plurality of conductive element elements are determined based upon a modifiable electrical structure. 15. The sensor of claim 13 wherein the plurality of conductive element elements are determined based upon a modifiable mechanical structure. 16. The sensor of claim 1 wherein the plurality of conductive elements are operatively connected via a hinge to the housing. 17. The sensor of claim 1 wherein the plurality of conductive elements are triangle shaped. 18. The sensor of claim 1 wherein the plurality of conductive elements are semi-circular shaped. 19. The sensor of claim 1 wherein the housing is made of an electrically insulating thermoplastic material such as nylon, polyvinyl chloride (PVC), or polycarbonate.