Wideband and dual-band antennas with band-notched using electromagnetic band-gap structure

Abstract: This paper presents a single-element microstrip spade-shaped patch antennas with a partial ground plane, integrated with an electromagnetic band-gap (EBG) structure, and fed with a microstrip feedline to achieve wideband, dual-band and band-notched characteristic. Two similar mushroom-like EBG structures built into the wideband antenna were used to suppress a specific band, resulting in dual-band. The wide-band antenna achieved a broad bandwidth of 9GHz from 5-14GHz, with a maximum gain of 6.8dBi. Based on the… Show more

“…The concept of microstrip patch antenna radiators has been around since 1953, but it gained significant attention in the 1970s when suitable substrates became available (Kumar & Srivastava, 2010), (Free & Aitcheson, 2022). Microstrip patch antenna have emerged as a popular choice due to their advantages like lightweight, cost-effectiveness and ease of fabrication using current circuit technology (Nasidi & Bello, 2022). However, microstrip patch antenna has issues of narrow bandwidth, low gain and non-directional radiation pattern (Schantz, 2004).…”

Design and Analysis of Rectangular and Circular Microstrip Patch Antennas at 1.8 GHZ for Fixed Point-to-Point Links Applications

“…The concept of microstrip patch antenna radiators has been around since 1953, but it gained significant attention in the 1970s when suitable substrates became available (Kumar & Srivastava, 2010), (Free & Aitcheson, 2022). Microstrip patch antenna have emerged as a popular choice due to their advantages like lightweight, cost-effectiveness and ease of fabrication using current circuit technology (Nasidi & Bello, 2022). However, microstrip patch antenna has issues of narrow bandwidth, low gain and non-directional radiation pattern (Schantz, 2004).…”

Design and Analysis of Rectangular and Circular Microstrip Patch Antennas at 1.8 GHZ for Fixed Point-to-Point Links Applications