![]() The results of simulation, reveals that the optimized dimensions of the patch which resonate at (28 GHz). ![]() For this purpose a copper patch with substrate named a Rogers RT5880 which has (Ɛr=2.2) and (δ=0.009) is used as a dielectric material between the patch and ground plan. The procedure is done with the help of CST Computer Simulation Technology microwave studio version -20 as well as MATLAB version -19a. Through the electricity performance analysis of the reconfigurable antenna, precise manufacturing will be possible and provide guidance for manufacturing frequency reconfigurable antennas.This paper proposed as a new of compact Microstrip antennas operating at (28GHz), which is used for 5G-wireless communication device. In this work, the changed pattern design by inflating is applied to the antenna design, and its frequency reconfigurability is achieved. Finally, the reconfigurable resonator array is presented, which is coupled to electric fields to absorb all incident radiation. The measured peak gains, the frequency, and the radiation direction are also reconfigurable by the initial size. The resonant frequency changes from GHz to kHz when the design of initial structure sizes is from millimeter to meter. In the process of transformation of the antenna, the resonant frequency of the antenna is changed because this frequency is determined by the conformational change. To solve the pattern changed problem, guided by geometric analyses and local buckle characteristics, the inflated triangular structure has been designed and verified by experiment and simulation. However, the prediction of their deployed shape remains a challenge. Inflatable structures are easy to manufacture by fusing 2 inextensible membranes together along a defined pattern of lines. The open path antenna is transformed from an open type to a closed structure by inflating. ![]() This paper proposes a frequency reconfigurable triangular antenna actuated by an inflated triangular structure. ![]()
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