Broadband non-resonant split ring resonator-based artificial high dielectric substrate

“…The rapid progress in Wireless Communications gives rise to the requirement of multiple antenna which further needs the development of light weight, compact, low-cost system with wideband/ multiband frequency response so that more number of RF modules can be included in a single equipment [1]. With the advancement of research, lot of work has been carried out for the improvement of bandwidth such as introduction of Spilt ring resonator (SRR) as superstrate [2], SRR in nested ring patch [3], SRR in ground [4], ground stub technique [5], metamaterial structures [6], slot in ground [7][8], slot in microstrip patch [9], Defected Ground Structures (DGS) [10] etc. The increasing demand for frequency band for high-speed application to accommodate quality voice, data and high-definition video have created the problem of spectrum deficiency due to fixed allocation of spectrum from regulatory bodies [11].…”

A Frequency Reconfigurable Fractal UWB Antenna Using Ground Stub and PIN

“…The rapid progress in Wireless Communications gives rise to the requirement of multiple antenna which further needs the development of light weight, compact, low-cost system with wideband/ multiband frequency response so that more number of RF modules can be included in a single equipment [1]. With the advancement of research, lot of work has been carried out for the improvement of bandwidth such as introduction of Spilt ring resonator (SRR) as superstrate [2], SRR in nested ring patch [3], SRR in ground [4], ground stub technique [5], metamaterial structures [6], slot in ground [7][8], slot in microstrip patch [9], Defected Ground Structures (DGS) [10] etc. The increasing demand for frequency band for high-speed application to accommodate quality voice, data and high-definition video have created the problem of spectrum deficiency due to fixed allocation of spectrum from regulatory bodies [11].…”

A Frequency Reconfigurable Fractal UWB Antenna Using Ground Stub and PIN

“…A thorough study of different metamaterials and their characteristics has been reported widely [3][4][5][6] over the last years. The key applications of metamaterials mainly exploited are antenna miniaturization, bandwidth enhancement, directivity/gain enhancement, spurious radiation suppression [7][8][9], etc. The researchers are very fond of making new artificial materials to keep enhancing the performance of wireless communication systems.…”

Investigations on the Resonant Properties of a New Compact Asymmetric Single Split Resonator for Metamaterial Applications

A 2.2-mW 23 GHz CMOS VCO using high-quality factor complementary split ring resonator with a −195dBc/Hz FOM