For example, at the Sensors Expo Powercast demonstrated a battery-free wireless sensor module powered by RF energy. The module provides temperature and humidity data to an access point along with the received signal strength and the ID number of the Powercaster transmitter from which it is receiving power. The company’s P1110 and P2110 Powerharvester Receivers are capable of converting radio waves in the range of 850-950 MHz into DC power. The demonstration sensor module used the P2110 Powerharvester receiver to store the received energy into a capacitor, and then performed a voltage boost to supply the module components will a regulated voltage. Both the P1110 and P2110 enable an MCU to determine the signal strength of the received power, as well as to recover low-rate data encoded in the power broadcasted from the power transmitter.
If there isn’t an ambient RF source handy, you can also use a piezoelectric transducer attached to a vibrating mechanical source such as an HVAC duct or a window pane. Recently, Linear Technology’s introduced its LTC3588-1 piezoelectric energy-harvesting solution, a device that can extract energy from almost any source of mechanical vibration or strain.
The LTC3588-1 integrates a low-loss full-wave bridge rectifier with an efficient buck converter. An ultralow quiescent current undervoltage lockout mode with a wide hysteresis window allows charge to accumulate on an input capacitor until the buck converter can efficiently transfer a portion of the stored charge to the output. In regulation, the LTC3588-1 enters a sleep state in which both input and output quiescent currents are minimal. The buck converter turns on and off as needed to maintain regulation.
Four output voltages, 1.8V, 2.5V, 3.3V and 3.6V, are pin selectable with up to 100mA of continuous output current; however, the output capacitor may be sized to service a higher output current burst. An input protective shunt set at 20V enables greater energy storage for a given amount of input capacitance.