Power regulation system for energy harvesters

What is claimed is: 1. A wireless node comprising: a sensor configured to generate information indicative of at least one parameter; a wireless transmitter coupled to the sensor and configured to wirelessly transmit the information indicative of the at least one parameter; a plurality of energy harvesters including a first energy harvester; a first regulator coupled to the first energy harvester and configured to receive power from the first energy harvester; and a second regulator coupled to the plurality of energy harvesters and the first regulator, the second regulator being configured to selectively receive power from the first regulator and at least one of the plurality of energy harvesters and provide power to the wireless transmitter. 2. The wireless node of claim 1 , wherein the first energy harvester is configured to harvest energy from a first source selected from the group consisting of: air currents, light, and heat and wherein the plurality of energy harvesters further includes a second energy harvester configured to harvest energy from a second source different than the first source. 3. The wireless node of claim 1 , wherein the wireless node is a batteryless wireless node. 4. The wireless node of claim 1 , wherein the second regulator is configured to increase a voltage from the at least one energy harvester to generate a supply voltage and provide the supply voltage to the wireless transmitter. 5. The wireless node of claim 1 , further comprising a plurality of load switches configured to selectively couple each of the plurality of energy harvesters to the second regulator. 6. The wireless node of claim 5 , further comprising a plurality of power monitors, including a first power monitor configured to measure an output power of the first energy harvester. 7. The wireless node of claim 6 , further comprising a controller coupled to the plurality of load switches and the plurality of power monitors, the controller being configured to identify an energy harvester from the plurality of energy harvesters with a highest output power and control the plurality of switches to couple the identified energy harvester to the second regulator and decouple a remainder of the plurality of energy harvesters from the second regulator. 8. The wireless node of claim 1 , further comprising a supercapacitor coupled to the second regulator, and wherein the second regulator is further configured to store energy from the at least one energy harvester in the supercapacitor. 9. A power regulator system comprising: a plurality of power ports configured to couple to a plurality of energy harvesters, the plurality of power ports including a first power port configured to couple to a first energy harvester of the plurality of energy harvesters; a first regulator coupled to the first power port and configured to receive power from the first energy harvester; and a second regulator coupled to the first regulator and the plurality of power ports, the second regulator being configured to selectively receive power from the first regulator and at least one of the plurality of energy harvesters and provide power to a load. 10. The system of claim 9 , wherein the first regulator is configured to increase a voltage of the power received from the first energy harvester to generate a regulated voltage and provide the regulated voltage to the second regulator. 11. The system of claim 9 , wherein the second regulator is configured to increase a voltage of the power received from the at least one energy harvester to generate a supply voltage and provide the supply voltage to the load. 12. The system of claim 9 , further comprising a plurality of load switches configured to selectively couple each of the plurality of power ports to the second regulator. 13. The system of claim 12 , further comprising a plurality of power monitors, including a first power monitor configured to measure an output power of the first energy harvester. 14. The system of claim 13 , further comprising a controller coupled to the plurality of load switches and the plurality of power monitors, the controller being configured identify a power port associated with an energy harvester with a highest output and control the plurality of switches to couple the identified power port to the second regulator and decouple a remainder of the plurality of power ports from the second regulator. 15. The system of claim 9 , further comprising a supercapacitor coupled to the second regulator and wherein the second regulator is further configured to store energy from the at least one energy harvester in the supercapacitor. 16. A method of operating a wireless node comprising: receiving power from a first energy harvester of a plurality of energy harvesters; providing, by a first regulator, the power from the first energy harvester to a controller via a second regulator; measuring an output power of each of the plurality of energy harvesters; identifying, by the controller, an energy harvester from the plurality of energy harvesters to power the controller based on the output power of each of the plurality of energy harvesters; and controlling, by the controller, a plurality of switches to couple the identified energy harvester to the second regulator and decouple a remainder of the energy harvesters from the second regulator. 17. The method of claim 16 , wherein identifying the energy harvester to power the controller includes identifying the energy harvester with a highest output power. 18. The method of claim 16 , further comprising regulating, by the first regulator, a voltage of the power received from the first energy harvester and wherein providing the power from the first energy harvester to the controller via the second regulator includes providing the regulated voltage to the second regulator. 19. The method of claim 16 , further comprising providing, by the second regulator, power from the identified energy harvester to the controller. 20. The method of claim 19 , further comprising regulating, by the second regulator, a voltage received from the identified energy harvester and wherein providing the power from the identified energy harvester to the controller includes providing the regulated voltage to the controller.