All Ceramic Wideband Dielectric Patch Antenna Using Temperature‐Stable High‐Permittivity Ba <sub>4.5</sub> (Sm <sub>0.8</sub> La <sub>0.2</sub> ) <sub>9</sub> Ti <sub>18</sub> O <sub>54</sub> Microwave Dielectric Ceramic for 5G Applications
Muhammad Shehbaz, Chao Du, Muhammad Wasif Niaz, Xiaogang Yao, Haiyi Peng, Huixing Lin, Zhongqi Shi, Diming Xu, Song Xia, Yongqiang Pang, Di Zhou
Abstract
Driven by the demand of low profile, wide bandwidth, high gain, and high radiation efficiency, dielectric patch antenna (DPA) has become an important innovation for antenna technology due to its limitless potential for futuristic applications. This article discusses all ceramic wideband DPA using high permittivity temperature‐stable low‐loss Ba 4.5 (Sm 0.8 La 0.2 ) 9 Ti 18 O 54 (BSLT) microwave dielectric ceramic prepared by solid‐state reaction method at sintering temperature of 1380 °C. The fabricated ceramic has excellent microwave dielectric properties with permittivity ( ε r ) 90.0, high Q × f value ( Q = quality factor, f = resonant frequency) 8230 @ 3.54 GHz, and temperature coefficient of resonant frequency ( TCF ) +2.8 ppm °C −1 . The main characteristic of designed DPA is its unique structure and design, where both patch and ground plane are made up of high ε r , low loss, temperature‐stable microwave dielectric ceramic. Wideband performance is realized by using air substrate and disk‐loaded probe between ground and radiating patch. The fabricated DPA has wide bandwidth of 46.8% and measured realized gain of 6.5 dBi. Due to its excellent microwave properties and radiation performance, the proposed DPA is envisaged to have promising applications for 5G communication systems.