We present the design of a Wireless Electrical Energy Metering node (WEM) for the integration in a wireless sensor network. The node has energy harvesting capability for long lasting monitoring, and measures the power consumption, of residential and industrial appliances, in the range 10W--10kW. Energy harvesting makes the monitoring activity completely energy autonomous by exploiting a single current transformer to scavenge energy from the electromagnetic field of the main and to perform the measure of current consumption of the load.
Davide Brunelli, Danilo Porcarelli, Domenico Balsamo, Maurizio Rossi (2013). Self-powered wireless energy meterProceedings of the 1st International Workshop on Energy Neutral Sensing Systems - ENSSys '13 [10.1145/2534208.2534219].
Self-powered wireless energy meterProceedings of the 1st International Workshop on Energy Neutral Sensing Systems - ENSSys '13
BRUNELLI, DAVIDE;PORCARELLI, DANILO;BALSAMO, DOMENICO;
2013
Abstract
We present the design of a Wireless Electrical Energy Metering node (WEM) for the integration in a wireless sensor network. The node has energy harvesting capability for long lasting monitoring, and measures the power consumption, of residential and industrial appliances, in the range 10W--10kW. Energy harvesting makes the monitoring activity completely energy autonomous by exploiting a single current transformer to scavenge energy from the electromagnetic field of the main and to perform the measure of current consumption of the load.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
