论文信息 - CAD procedure for predicting the energy received by wireless scavenging systems in the near- and far-field regions

CAD procedure for predicting the energy received by wireless scavenging systems in the near- and far-field regions

The paper introduces a rigorous methodology for predicting RF-to-DC conversion in power harvesters. The results of a full-wave EM simulation of the harvesting antenna are rigorously handled by EM theory to produce a Norton equivalent circuit of the antenna in the presence of an incident field. In turn, this allows a full nonlinear analysis of the rectifier to be carried out, thus providing an accurate evaluation of the conversion efficiency. For validation purposes we consider a circularly polarized rectifying antenna (rectenna) designed to harvest energy from RF sources (such as mobile phones and/or base stations) at GSM 1800 standard frequencies. The computed and measured performance of a prototype rectenna compare very favorably in different real-world scenarios including near- and far-field situations.

V. Rizzoli | A. Costanzo | D. Masotti | N. Arbizzani

[1] G. Akoun,et al. Fast Analysis of a Broad-Band Microwave Rectenna Using 3-D FEM and Padé Approximation , 2007, IEEE Transactions on Magnetics.

[2] R. Zane,et al. Recycling ambient microwave energy with broad-band rectenna arrays , 2004, IEEE Transactions on Microwave Theory and Techniques.

[3] M.C. van Beurden,et al. Analytical models for low-power rectenna design , 2005, IEEE Antennas and Wireless Propagation Letters.

[4] Gyuhae Park,et al. RF Energy Transmission for a Low-Power Wireless Impedance Sensor Node , 2009, IEEE Sensors Journal.

[5] Alessandra Costanzo,et al. CAD of multi-resonator rectenna for micro-power generation , 2009, 2009 European Microwave Integrated Circuits Conference (EuMIC).

[6] Kin-Lu Wong,et al. Coplanar waveguide-fed square slot antenna for broadband circularly polarized radiation , 2003 .

[7] Frederic Alicalapa,et al. High efficiency microwave rectenna circuit: modelling and design , 2008 .