Miniaturized Patch Rectenna Using 3-Turn Complementary Spiral Resonator for Wireless Power Transfer

TL;DR

This paper introduces a compact patch rectenna with a 3-turn Complementary Spiral Resonator for efficient wireless power transfer at 1.8 GHz, demonstrating significant size reduction and improved bandwidth with practical efficiency.

Contribution

The design of a miniaturized patch antenna with a novel 3-turn Complementary Spiral Resonator that enhances bandwidth and reduces size for wireless power transfer applications.

Findings

Achieved a rectenna efficiency of 53.6% at -10 dBm input power.

Expanded impedance bandwidth from 43 MHz to 310 MHz.

Successfully fabricated and validated the antenna with simulated and measured results.

Abstract

A miniaturized linearly-polarized patch antenna is presented for Wireless Power Transfer (WPT) at 1. 8 GHz. The proposed antenna consists of a patch element and a 3-turn Complementary Spiral Resonator (3-CSR) with antenna dimension of 50 mm x 50 mm. 3-CSR is inserted in the ground plane to reduce the antenna size. This modification also increased the impedance bandwidth from 43 MHz (1.78-1.83 GHz) to 310 MHz (1.69-2.0 GHz) . Moreover, antenna is fabricated and simulated and measured results are in good agreement. Additionally, a rectifier and matching circuits are designed at -10 dBm to realize a rectenna (rectifying antenna) for WPT application. Rectenna efficiency of 53.6 % is achieved at a low input power of -10 dBm.