This paper is an overview of important results obtained by our research group in the field of computer-aided-design of highly efficient RF energy harvesters. Particular attention is devoted to start-up strategies for ultra-low power scenarios: an integrated DC-DC converter, with start-up and maximum power point tracking functionalities, as actual load of the rectenna, shows a fully autonomous operation; a dual-branch rectenna with switched-load rectifiers significantly reduces the available RF power levels able to wake-up the system, despite of the discrete components employed. The obtained performance demonstrate, both for off-the-shelf discrete solutions and customized integrated ones, that a rigorous design approach is mandatory, especially when extremely low power budget are involved.
Masotti, D., Costanzo, A. (2015). Start-up solutions for ultra-low power RF harvesting scenarios. Institute of Electrical and Electronics Engineers Inc. [10.1109/NEMO.2015.7415021].
Start-up solutions for ultra-low power RF harvesting scenarios
MASOTTI, DIEGO;COSTANZO, ALESSANDRA
2015
Abstract
This paper is an overview of important results obtained by our research group in the field of computer-aided-design of highly efficient RF energy harvesters. Particular attention is devoted to start-up strategies for ultra-low power scenarios: an integrated DC-DC converter, with start-up and maximum power point tracking functionalities, as actual load of the rectenna, shows a fully autonomous operation; a dual-branch rectenna with switched-load rectifiers significantly reduces the available RF power levels able to wake-up the system, despite of the discrete components employed. The obtained performance demonstrate, both for off-the-shelf discrete solutions and customized integrated ones, that a rigorous design approach is mandatory, especially when extremely low power budget are involved.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
