Premises security system with wireless energy harvesting

What is claimed is: 1. A premises security system for monitoring a premises, comprising: a premises device; and a security control device; wherein the premises device comprises: a sensor for detecting a premises security event; an energy storage element in electrical communication with the sensor, the energy storage element configured to store energy for powering the sensor; a radio frequency (RF) antenna configured to receive RF energy from an RF source; energy harvesting circuitry in electrical communication with the RF antenna and the energy storage element, the energy harvesting circuitry configured to convert the RF energy into a voltage for the energy storage element; and processing circuitry configured to cause transmission of sensor data indicating the premises security event to a security control device; and wherein the security control device comprises processing circuitry configured to: determine a state of the premises security system, the state being one of armed or disarmed; cause the RF source to start or stop emitting RF energy based at least in part on the state of the premises security system; receive the sensor data; in response to the indication of the premises security event, cause the RF source to adjust a magnitude of the RF energy emitted from the RF source to increase a rate of charge of the premises device; and perform an action based at least on the sensor data. 2. The premises security system of claim 1 , wherein the energy harvesting circuitry further comprises: an impedance matching component that is configured to convert the RF energy into a first voltage; and a rectifier that is configured to convert the first voltage into a direct current (DC) voltage for charging the energy storage element. 3. The premises security system of claim 1 , wherein the processing circuitry of the security control device is further configured to cause the RF source to emit RF energy based at least on a state of the premises security system corresponding to an armed state. 4. The premises security system of claim 1 , wherein the processing circuitry of the security control device is further configured to cause the RF source to stop emitting RF energy based at least on a state of the premises security system corresponding to a disarmed state. 5. The premises security system of claim 1 , wherein the processing circuitry of the security control device is further configured to cause the RF source to emit RF energy based at least on: a state of the premises security system corresponding to an armed state; and the sensor data indicating the premises security event. 6. The premises security system of claim 1 , wherein the RF energy is a predefined RF signal that is configured to be data-less. 7. The premises security system of claim 1 , wherein the RF source is a wireless router, a wireless gateway, a mobile device, or a mobile base station. 8. The premises security system of claim 1 , wherein the sensor is a carbon monoxide sensor, a smoke sensor, a motion sensor, a glass break sensor, a window sensor, or a door sensor. 9. The premises security system of claim 1 , wherein the action comprises triggering an alarm at the premises and transmitting a notification to a remote monitoring center. 10. A security control device, comprising: a processor; and memory storing a plurality of computer instructions that, when executed by the processor, cause the processor to: communicate with a premises device of a premises security system, the premises device comprising a sensor for detecting a premises security event, the premises device further comprising an energy storage element in electrical communication with the sensor, the energy storage element configured to store energy for powering the sensor, the premises device further comprising an RF antenna configured to receive RF energy from an RF source and energy harvesting circuitry in electrical communication with the RF antenna and energy storage element, the energy harvesting circuitry configured to convert the RF energy into a voltage for the energy storage element; determine a state of the premises security system, the state being one of armed or disarmed; cause the RF source to start or stop emitting RF energy based at least in part on the state of the premises security system; obtain sensor data from the premises device, the sensor data indicating the premises security event; in response to the indication of the premises security event, cause the RF source to adjust a magnitude of the RF energy emitted from the RF source to increase a rate of charge of the premises device; and initiate an action based at least on the sensor data. 11. The security control device of claim 10 , wherein the plurality of computer instructions are further configured to cause the processor to cause the RF source to emit RF energy based at least on a state of the premises security system corresponding to an armed state. 12. The security control device of claim 10 , wherein the plurality of computer instructions are further configured to cause the processor to cause the RF source to stop emitting RF energy based at least on a state of the premises security system corresponding to a disarmed state. 13. The security control device of claim 10 , wherein the plurality of computer instructions are further configured to cause the processor to cause the RF source to emit RF energy based at least on: a state of the premises security system corresponding to an armed state; and the sensor data indicating the premises security event. 14. The security control device of claim 10 , wherein the RF energy is a predefined RF signal that is configured to be data-less. 15. The security control device of claim 10 , wherein the RF source is a wireless router, a wireless gateway, a mobile device or a mobile base station. 16. The security control device of claim 10 , wherein the action comprises triggering an alarm at the premises and transmitting a notification to a remote monitoring center. 17. The premises security system of claim 1 , wherein the processing circuitry of the security control device is further configured to cause the RF source to dynamically adjust the magnitude of the RF energy emitted from the RF source in response to the indication of the premises security event. 18. The security control device of claim 10 , wherein the plurality of computer instructions are further configured to cause the processor to cause the RF source to dynamically adjust the magnitude of the RF energy emitted from the RF source in response to the indication of the premises security event.