Cost-Effective Broadband and Compact Patch Antenna Based on Ball Grid Array Packaging for 5G NR FR2 Band Applications

“…Advancements in Patch Antennas as a basis for 5G technology, that have been made in recent years are mainly due to development in terms of their small sizes and the materials used as well as varied manufacturing methods. Progresses include; compact broadband patch antennas with ball grid array (BGA) packaging for 5G millimeter wave applications [32], low-profile broadband multimode patch antennas designed for fifth generation mobile with high efficiency and broad bandwidth [33], wideband differentially fed dual polarized magnetoelectric (ME) dipoles for millimeter-wave applications having stable radiation patterns and high isolation [34] as well as dual-function periodic slotted patch antennas for vehicular 5G communications which offer dual-band functionally and large frequency ratio design [35]. These developments indicate continuous attempts at improving performance, efficiency, and versatility of Patch Antennas within the evolving landscape that is brought about by 5G technology.…”

Recent Advances of 5G Technology Based on Patch Antenna: A Literature Review

“…Advancements in Patch Antennas as a basis for 5G technology, that have been made in recent years are mainly due to development in terms of their small sizes and the materials used as well as varied manufacturing methods. Progresses include; compact broadband patch antennas with ball grid array (BGA) packaging for 5G millimeter wave applications [32], low-profile broadband multimode patch antennas designed for fifth generation mobile with high efficiency and broad bandwidth [33], wideband differentially fed dual polarized magnetoelectric (ME) dipoles for millimeter-wave applications having stable radiation patterns and high isolation [34] as well as dual-function periodic slotted patch antennas for vehicular 5G communications which offer dual-band functionally and large frequency ratio design [35]. These developments indicate continuous attempts at improving performance, efficiency, and versatility of Patch Antennas within the evolving landscape that is brought about by 5G technology.…”

Recent Advances of 5G Technology Based on Patch Antenna: A Literature Review

X-Band Four-Channel Ball Grid Array TR Module Based on HTCC Substrate

Metamaterial-Enabled Ultrawideband mmWave Antenna-in-Package Using Heterogeneously-Integrated Silicon IPD and HDI-PCB for B5G/ 6G Applications