TY - GEN
T1 - Circulator-Based RF Energy Harvester with Wide Input Power Dynamic Range
AU - Kibiwott, Albert
AU - Mohellebi, Reda
AU - Niotaki, Kyriaki
AU - Jabbour, Chadi
N1 - Publisher Copyright:
© 2025 IEEE.
PY - 2025/1/1
Y1 - 2025/1/1
N2 - Radio frequency energy harvesting (RFEH) is a promising solution for powering ultra-low-power (ULP) devices. However, capturing ambient energy is challenging due to low power densities and unpredictable RF power available in the surrounding environment. Moreover, conventional rectifiers exhibit limited power conversion efficiency (PCE) and a narrow input power dynamic range (PDR) due to impedance mismatch and power reflection losses. This paper presents a novel circulatorbased multi-branch RF energy harvester designed to efficiently recycle reflected RF power across multiple rectifier branches, significantly enhancing overall energy conversion efficiency and extending the operational power range. Simulation results at 900 MHz reveal that the proposed architecture achieves a PCE of 81% at an input power of 4 dBm and a PDR of 23 dB (spanning from -15 dBm to 8 dBm). These results demonstrate an 8 dB and 26% improvement in dynamic range and efficiency respectively compared to traditional single-rectifier designs, highlighting the effectiveness of the proposed solution.
AB - Radio frequency energy harvesting (RFEH) is a promising solution for powering ultra-low-power (ULP) devices. However, capturing ambient energy is challenging due to low power densities and unpredictable RF power available in the surrounding environment. Moreover, conventional rectifiers exhibit limited power conversion efficiency (PCE) and a narrow input power dynamic range (PDR) due to impedance mismatch and power reflection losses. This paper presents a novel circulatorbased multi-branch RF energy harvester designed to efficiently recycle reflected RF power across multiple rectifier branches, significantly enhancing overall energy conversion efficiency and extending the operational power range. Simulation results at 900 MHz reveal that the proposed architecture achieves a PCE of 81% at an input power of 4 dBm and a PDR of 23 dB (spanning from -15 dBm to 8 dBm). These results demonstrate an 8 dB and 26% improvement in dynamic range and efficiency respectively compared to traditional single-rectifier designs, highlighting the effectiveness of the proposed solution.
KW - RF energy harvesting
KW - circulator
KW - power conversion efficiency
KW - power dynamic range
KW - rectifier
UR - https://www.scopus.com/pages/publications/105015516429
U2 - 10.1109/NewCAS64648.2025.11106982
DO - 10.1109/NewCAS64648.2025.11106982
M3 - Conference contribution
AN - SCOPUS:105015516429
T3 - 2025 23rd IEEE Interregional NEWCAS Conference, NEWCAS 2025
SP - 440
EP - 444
BT - 2025 23rd IEEE Interregional NEWCAS Conference, NEWCAS 2025
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 23rd IEEE Interregional NEWCAS Conference, NEWCAS 2025
Y2 - 22 June 2025 through 25 June 2025
ER -