A compact MIMO antenna was proposed in this article. The designed is size with dimensions of 20 × 34 1.6 mm. In model the patch consisting two counter facing C-shaped elements each other which a hexagonal ring attached to strip line placed between acts as stub. novelty lies isolation improvement by using ground stub use circular resonator. operates four bands 2.66 3.60 GHz (Wi-Max, Wi-Fi), 4.52 5.78 (WLAN), 6.59 7.40 (satellite communication), and 9.55 10.91 having bandwidth 0.94, 1.26,...

A Moore-Peano fractal antenna is presented in this work for multiband applications. The main objective of designed applications within the Ultra Wideband range. To improve number frequency bands Moore antenna, Giuseppe peano implemented on it and size can be miniaturized due to its space filling property. On other hand, Split Ring Resonators (SRR) loaded Moore-peano attain more bands. Proposed antennas are simulated FR4 epoxy material using High Structure Simulator tool. In order enhance...

This paper presents miniaturized industrial, scientific, and medical (ISM) band implantable antennas for wireless biomedical applications such as leadless pacemaker systems. The proposed single dual-band are with a folded-shaped radiator open-ended slot in the ground. is used to miniaturize antenna, ground plane improves matching at desired frequency. operate 2,460 MHz 930 2,450 dual-band. specific absorption rate (SAR) plots plotted single-band antenna antenna. suggested antennas' main...

The study is a pioneering initiative in the field of antenna engineering, concentrating on replacement rectangular patch antennas with circular 2.4GHz applications. Through detailed assessment three various configurations—1x1, 2x1, and 4x1—the used HFSS tool to facilitate simulations, allowing full evaluation each antenna's performance parameters. These characteristics include critical metrics like gain, directivity, radiation pattern, which are important determining efficacy wireless...

A new low power SRAM cell introduced that promises improved performance by adding extra circuitry to a 6T-SRAM cell. This design features 7T(seven-transistors) at 45nm size CMOStechnology, aiming enhance efficiency,stability, overall compared older designs for memory operations. By optimize the and implementing novel write scheme, (seven transistor)7T fullfill significant 45% reduction in consumption during operations when traditional 6T SRAM-based design. Furthermore, through CADENCE...

This paper concentrates on bandwidth enhancement of antenna using square Koch fractal (SKF) and Babinet's principle. A quadband transmission line feed tortoise shaped microstrip patch with optimized self - similar slotted ground structure is proposed for C band (4-8GHz) Ku (12-18GHz) applications. The overall size 33mm×28mm×1.6mm. operates at 4.12GHz (f <sub xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">1</sub> ), 5.92GHz...

A MIMO Orthogonally arranged two-element antenna consists defected ground structure is designed and analyzed in this article. The proposed which orthogonally placed with low isolation to operate frequency range from 3.6-11.0GHz also covers UWB nearly. Designed used cover the many applications like WiMAX, WLAN, under ultra wideband range. a partial two circular rings excited by using micro strip line feeding. works all c band x are very useful for mobile satellite applicatiopns. obtained...

In this digital world, data speed is expected to be around 10Gbps. Internet of Things (IoT) mainly implemented in industries, automotive and medicine applications so 5G developed. The paper puts forth a hybridized slot circular printed multiple input output (MIMO) antenna with differentiated ground dual ports for Ku- band frequencies ranging from twelve eighteen gigahertz X- eight C- four little bit coverage S- & K- also. Hybrid slots are etched radiating element enhancing the bandwidth...

A microstrip antenna with multiple-input multiple-output (MIMO) configuration is presented wideband and high gain for serving the 5G communication systems by achieving all important features of recent wireless applications. The dielectric material used in this work a 0.787mm thickness Rogers RT / Duroid 5880 laminate relative permittivity 2.2 loss tangent assumed to be 0.0009. proposed designed operate at frequency range from 25.3GHz 29.2GHz (mm-wave), which 26.6GHz. main are also satisfied...

In this paper, a quad band monopole antenna excited by the asymmetric coplanar strip (ACS) feed is designed for 5G and space applications. The top plane composed of narrow rectangular slot with extended L -shaped strips on surface substrate bottom partial ground plane. It FR-4 thickness 0.8mm it has compact size 11mm*16mm. simulated measured results show that proposed can operate over 3.36–3.45 GHz, 3.75–3.80 4.65–5.06GHz 6.55–6.70 GHz. reaches maximum gain 5 – 6dB its radiation efficiency...

A Compact MIMO antenna was proposed in this article. The designed is compact size with dimensions of 20 × 34 1.6 mm <sup xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">3</sup> .The patch consists two C- shaped elements facing each other and a hexagonal ring strip line which placed between the C-shaped elements. This model has partial ground mounted structures inverted strips, slots ring. In FR-4 material used as substrate permittivity (t) = 4.4 loss...