Faceplate switch

The invention claimed is: 1. A smart device comprising: a faceplate adapted for installation on a mechanical switch, said mechanical switch wired to a power system and alternatively opening and closing a first connection from a power source to a load; a first electrical lead extending from said faceplate; a second electrical lead extending from said faceplate; a contiguous path through said faceplate for electrical current to flow through said faceplate from said first electrical lead to said second electrical lead; a current sensor disposed on said contiguous path; and a wireless transmitter in electrical communication with said current sensor and configured to receive from said current sensor a measure of an amount of current on said contiguous path; wherein when said faceplate is installed on said mechanical switch said contagious path provides a second connection from said power source to said load via said first electrical lead and said second electrical lead. 2. The smart device of claim 1 , further comprising: a controller in electrical communication with said transmitter and said current sensor, said controller configured to: operate said current sensor to measure current on said contiguous path; provide said measured current to said transmitter; and operate said transmitter to transmit information about the state of said mechanical switch, said state determined based upon said measured current. 3. The smart device of claim 2 , wherein said transmitted information is whether the state of said mechanical switch is open or closed. 4. The smart device of claim 2 , wherein said transmitted information is said measured current. 5. The smart device of claim 2 , wherein said transmitted information is that said mechanical switch was toggled. 6. The smart device of claim 2 , wherein said smart device further comprises a power supply providing electrical power to one or more of said current sensor, said transmitter, and said controller. 7. The smart device of claim 6 , wherein said power supply is selected from the group consisting of: an electrochemical cell, a rechargeable electrochemical cell. 8. The smart device of claim 6 , wherein said power supply comprises electronics configured to extract power from said power system. 9. The smart device of claim 1 , wherein said transmitter is configured to transmit said information about said state of said mechanical switch. 10. The smart device of claim 1 , further comprising a means for disabling said contiguous path. 11. The smart device of claim 10 , wherein said means for disabling said contiguous path is selected from the group consisting of: a second mechanical switch, a relay, and a triac. 12. The smart device of claim 1 , wherein said transmitter is a modular component. 13. The smart device of claim 1 , wherein said first electrical lead and said second electrical lead are configured such that when said faceplate is installed on a first mechanical switch of a plurality of mechanical switches wired together in a multi-way switching configuration, said first electrical lead and said second electrical lead cause said contiguous path to provide an electric circuit in said power system regardless of the toggle state of any of said plurality of mechanical switches. 14. The smart device of claim 13 , wherein said multi-way switching configuration is a three-or-more-way switching configuration. 15. A method for operating a smart light with a conventional manual switch without loss of power comprising: providing a light receptacle installed in a circuit including a mechanical switch having a toggle, said mechanical switch wired to a power system and said toggle toggling opening and closing a first connection from a power source to said light receptacle; providing a smart light installed in said light receptacle; providing an electrical switch faceplate comprising: a first electrical lead extending from said faceplate; a second electrical lead extending from said faceplate; a contiguous path providing a second connection through said faceplate for electrical current to flow through said faceplate from said first electrical lead to said second electrical lead; a current sensor disposed on said contiguous path; a wireless transmitter in electrical communication with said current sensor; and a controller operatively connected to said current sensor and said wireless transmitter; installing said faceplate on said mechanical switch so that said first electrical lead and said second electrical lead form said second connection around said mechanical switch via said contiguous path; said controller operating said current sensor to sense an amount of current on said contiguous path; said controller converting said sensed amount of current into an indication of a detected state of said toggle; said controller operating said transmitter to transmit said detected state to said smart light; and said smart light turning on or off in accordance with said transmitted detected state. 16. The method of claim 15 further comprising: in said providing an electrical switch faceplate, said electrical switch faceplate further comprising a power supply providing electrical power to said current sensor, said transmitter, and said controller. 17. The method of claim 16 , wherein said power supply comprises one or more power supplies selected from the group consisting of: an electrochemical cell; a rechargeable electrochemical cell; and, an AC/DC converter adapted to convert AC power in said circuit to DC power for said current sensor, said transmitter, and said controller. 18. The method of claim 15 , wherein said mechanical switch is the only mechanical switch of said circuit. 19. The method of claim 15 , wherein said mechanical switch is a first switch in a plurality of switches wired in a multi-way switching configuration of said circuit. 20. The method of claim 19 , wherein said multi-way switching configuration is selected from the group consisting of: a three-way switching configuration: a four-way switching configuration; and, more than a four-way switching configuration. 21. A smart lighting system comprising: a smart light installed in a lighting receptacle; a mechanical switch wired to a power system and alternatively opening and closing a first connection from a power source to said smart light; a faceplate installed on a mechanical switch, said faceplate comprising: a first electrical lead extending from said faceplate; a second electrical lead extending from said faceplate; a contiguous path providing a second connection through said faceplate for electrical current to flow through said faceplate from said first electrical lead to said second electrical lead; a current sensor disposed on said contiguous path; and a wireless transmitter in electrical communication with said current sensor and configured to receive from said current sensor a measure of an amount of current on said contiguous path; wherein said contiguous path connects said power source to said smart light via said first electrical lead and said second electrical lead. 22. The system of claim 21 , farther comprising: a controller in electrical communication with said transmitter and said current sensor, said controller configured to: operate said current sensor to measure current on said contiguous path; provide said measured current to said transmitter; and operate said transmitter to transmit information about the state of sai