TY - CONF AV - none N2 - As the demand for Radio Frequency Identification (RFID) technology and Internet of Things (lOT) continue to grow, there is an increasing demand for sustainable and autonomous power solutions to energize low powered devices. Thus, the dependency on battery should be mitigated for a passive operation. This paper explores the concept of rectenna architecture-based radio frequency energy harvesters specifically designed for low power RFID application. The prototype harvests the abundance of Wi-Fi signals at frequency band of 2.4 GHz. A seven stages Cockroft-Walton rectifier with Schottky diode from HSMS286C and MA4E2054BI-1146T and low pass filter is designed. Initial Advance Design System (ADS) simulation results shows that 3.53 V can be harvested with 1.57 mm Rogers 5880 printed circuit board (PCB) substrate thickness under minimum power input of -10 dBm (0.1 mW). The results present the feasibility delivering a constant voltage of 1.5 V below -10 dBm to power a small device. © 2023 IEEE. N1 - cited By 0; Conference of 9th International Conference on Engineering and Emerging Technology, ICEET 2023 ; Conference Date: 27 October 2023 Through 28 October 2023; Conference Code:199573 ID - scholars18911 TI - Development of Rectifier Performance Using Harmonic Balance Simulation for RF Energy Harvester Prototype KW - Electric rectifiers; Energy harvesting; Low pass filters; Printed circuit boards; Radio frequency identification (RFID); Radio waves; Rectennas; Rectifying circuits; Wireless local area networks (WLAN) KW - Energy Harvester; Harmonic balance; Harmonic balance simulations; Low RF power; Performance; Power solutions; Radio frequency identification technology; Rectenna; RF energy harvesting; RF power KW - Schottky barrier diodes Y1 - 2023/// A1 - Jamil, M.N.B.M. A1 - Omar, M.B. A1 - Ibrahim, R.B. A1 - Bingi, K. A1 - Faqih, M. UR - https://www.scopus.com/inward/record.uri?eid=2-s2.0-85194058611&doi=10.1109%2fICEET60227.2023.10525747&partnerID=40&md5=0db01c86df1e1d61afb02639f157f1f7 ER -