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Compact and efficient 2.45 GHz circularly polarised shorted ring-slot rectenna

Compact and efficient 2.45 GHz circularly polarised shorted ring-slot rectenna

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© The Institution of Engineering and Technology
Published

A compact and efficient rectenna based on a printed shorted annular ring-slot antenna with circular polarisation properties has been designed and evaluated at 2.45 GHz. The rectifier part is localised at the back side and centred inside the radiating element, resulting in a more compact structure in comparison with most conventional devices where rectifying circuit and antenna parts are geometrically clearly separated. In addition, the printed annular ring antenna is mismatched at the 4.9 GHz second and 7.35 GHz third harmonics, thus avoiding the use of an input lowpass filter. The proposed antenna and rectifier circuit have been first simulated and optimised separately using electromagnetic and circuit analyses, and then connected together. A maximum efficiency of 69% and an output DC voltage of 1.1 V have been measured over an optimised 2500 Ω resistive load at a power density of 20 µW/cm2. This rectenna is particularly suitable for powering wireless sensors or sensor networks by recycling ambient RF energy because it exhibits a global efficiency of more than 50% for power densities more than 10 µW/cm2.

Inspec keywords: microstrip antennas; UHF antennas; rectifiers; low-pass filters; slot antennas; microwave antennas

Other keywords: radiating element; efficient rectenna; circularly polarised shorted ring-slot rectenna; third harmonics; power density; input lowpass filter; frequency 4.9 GHz; RF energy; frequency 2.45 GHz; rectifier; frequency 7.35 GHz; compact rectenna; printed shorted annular ring-slot antenna; sensor networks

Subjects: Single antennas

References

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      • HSMS-285x Series. Surface Mount Microwave Schottky Detector Diodes. Available: http://www.avagotech.com/.
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      • Paing, T., Morroni, J., Dolgov, A., Shin, J., Brannan, J., Zane, R., Popovic, Z.: `Wirelessly-Powered Wireless Sensor Platform', Proc. 37th European Microwave Conf., 2007, Munich, Germany, p. 999–1002.
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