Design and Analysis of Wireless Power Transmission (2X1) MIMO Antenna at 5G – Frequencies for Applications of Rectenna Circuits in Biomedical
Ahmed Abdul-Kadhem SalihFaculty of Electrical and Computer Engineering, University of Tabriz, Tabriz, Iran. ahmed.kadhem301@gmail.com0009-0007-7196-026X
Mahdi NangirFaculty of Electrical and Computer Engineering, University of Tabriz, Tabriz, Iran. nangir@tabrizu.ac.ir0000-0002-1926-743X
Keywords: Index Terms—Rectenna, HSMS-282B Schottky Diode, Conversion Efficiency, MIMO Antenna, Mutual Coupling, Fifth Generation (5G), Impedance Matching Networks (IMN), Dc. Filter, Parasitic Method and Wireless Power Transmission.
Abstract
This research presents the design and analysis of a 5G harvesting energy Circuit (MIMO-rectenna) to receive wireless power at Sub-6 frequencies (5.6 GHz) as a power source for some medical devices carried by a patient and moved from one place to another, whether they are diagnostic or therapeutic devices. This concept aims (MIMO-rectenna) to increase the likelihood of obtaining electricity from the ambient field by harvesting energy at 5G- frequencies. The tiny MIMO (2x1) antenna measuring 30 by 40 mm2 is the antenna portion of this rectenna. It has been built and tested to operate at Sub-6 frequency, or 5.6 GHz, for wireless power transmission applications related to 5G technology. The MIMO antenna has parameters of E = 4.4, h = 1.6 mm, and tand = 0.025 when printed on an FR4 substrate. A significant section of the antenna's rear was removed to carry out the broadband process, and the material's front side was composed of a series of circular slits. In this antenna, the parasitic approach was employed to decrease the mutual coupling between two ports by creating an inverted T with precise dimensions. The CST software 2024 was used to assist with the design and simulation results of this MIMO antenna. It was discovered through the simulation that the mutual coupling for these ports, 𝑆12and 𝑆21, is equal to -51.476 dB, and that the S-parameters, 𝑆11, 𝑆22, equal -22 dB. That is, there is very little signal loss while switching from the first port to the second and vice versa. This antenna's rectifier comprised an AC-to-DC conversion circuit, a DC filter, and an impedance-matching network. With the use of ADS software 2024, this rectenna's design and simulation results were completed. The greatest conversion efficiency of this rectenna at the frequency of 5.6 GHz is determined to be between 65 % and 65.01% for load resistance between 12 KΩ and 15 KΩ at an input power of 14 dBm.