Kumar Sumit, Dixit Amruta S, Choubey Chandan Kumar
Symbiosis Institute of Technology, Pune Campus, Symbiosis International (Deemed University), Pune, 412115, Maharashtra, India.
MethodsX. 2024 Apr 27;12:102727. doi: 10.1016/j.mex.2024.102727. eCollection 2024 Jun.
A compact 1 × 4 antipodal Vivaldi antenna (AVA) array designed for 5 G applications is introduced in this study. An elliptical-shaped parasitic patch and corrugation are strategically employed to enhance gain and bandwidth, making it well-suited for 5 G applications. The resulting AVA array with corrugation and parasitic patch (AVA-PC) is designed and simulated on ANSYS HFSS, demonstrating a stable gain ranging from 10 dBi to 11.7 dBi over the frequency range of 23.45 GHz to 28.74 GHz. The antenna, with 25.8 mm x 22.4 mm x 0.5 mm dimensions, is implemented on Roger's RT/Duroid substrate 5880. •Design uses an antipodal Vivaldi antenna to build a 1 × 4 AVA.•The array employs corrugations and an elliptical patch as a performance enhancement technique.•Simulated results confirm the designed antenna's practical utility for 5 G applications in a band of 23.45 GHz to 28.74 GHz.
本研究介绍了一种为5G应用设计的紧凑型1×4对映体维瓦尔第天线(AVA)阵列。通过策略性地采用椭圆形寄生贴片和波纹来提高增益和带宽,使其非常适合5G应用。在ANSYS HFSS上设计并模拟了带有波纹和寄生贴片的AVA阵列(AVA-PC),结果表明在23.45GHz至28.74GHz的频率范围内,增益稳定在10dBi至11.7dBi之间。该天线尺寸为25.8mm×22.4mm×0.5mm,采用罗杰斯RT/Duroid 5880基板实现。•设计采用对映体维瓦尔第天线构建1×4 AVA。•该阵列采用波纹和椭圆形贴片作为性能增强技术。•仿真结果证实了所设计天线在23.45GHz至28.74GHz频段用于5G应用的实际效用。
