Your search keyword '"Mada Chakravarthy"' showing total 4 results

1. Design of Broadband Compact Canonical Triple-Sleeve Antenna Operating in UHF Band

Author

Mada Chakravarthy, D. Vakula, and Chandana Sairam

Subjects

Physics, QC501-766, Radiation, wireless communication systems, Computer Networks and Communications, business.industry, Electrical engineering, canonical triple sleeve antenna, law.invention, TK1-9971, dipole antenna, Electricity and magnetism, Ultra high frequency, law, Wireless communication systems, Broadband, Dipole antenna, sleeve antenna, Electrical engineering. Electronics. Nuclear engineering, Electrical and Electronic Engineering, Antenna (radio), business, Instrumentation, Computer Science::Information Theory

Abstract

In this paper, a novel compact broadband antenna at UHF frequencies is presented with canonical shapes. Hemispherical, conical and cylindrical shapes have all been considered for antenna configuration. The designed antenna provides an instantaneous frequency range from 370 to 5,000 MHz with omnidirectional characteristics. The antenna was simulated in CST Microwave Studio, fabricated and evaluated; the results are presented. The simulated and measurement results are in good agreement. The antenna has voltage standing wave ratio (VSWR) ≤ 1.9:1 in 400–570 MHz, 2,530–3,740 MHz and 4,180–4,620 MHz; it has VSWR ≤ 3:1 over the operating frequency range 370–5,000 MHz and the measured gain varies from -0.6 to 4.5 dBi over the frequency band. The concept of canonical-shaped antenna elements and the incorporation of triple sleeves resulted in a reduction of the length of the antenna by 62% compared to the length of a half-wave dipole antenna designed at the lowest frequency. The antenna can be used for trans-receiving applications in wireless communication.

Published

2021

2. Compact and Conformal Ultra-Wideband Archimedean Spiral Antenna

Author

Thokala Latha, Gopi Ram, G. Arun Kumar, and Mada Chakravarthy

Published

2022

3. Wideband Triple Sleeve Dipole Antenna with Loading for UHF Applications

Author

Chandana Sairam, D. Vakula, and Mada Chakravarthy

Subjects

Physics, Acoustics, 020208 electrical & electronic engineering, 020206 networking & telecommunications, 02 engineering and technology, Computer Science Applications, Theoretical Computer Science, law.invention, Dipole, Ultra high frequency, law, 0202 electrical engineering, electronic engineering, information engineering, Bandwidth (computing), Equivalent circuit, Physics::Atomic Physics, Dipole antenna, Electrical and Electronic Engineering, Wideband, Computer Science::Information Theory

Abstract

A novel miniaturized dipole antenna design incorporating triple sleeves and shorting load leading to enhanced bandwidth is proposed in the present work. The Triple Sleeve Dipole Antenna with Shorti...

Published

2021

4. Review on Ultra-Wideband Phased Array Antennas

Author

G. Arun Kumar, Gopi Ram, Mada Chakravarthy, and Thokala Latha

Subjects

coupled arrays, General Computer Science, Computer science, Phased array, All-metal array, Bandwidth (signal processing), General Engineering, Ultra-wideband, spiral arrays, Radiation pattern, law.invention, TK1-9971, low gain, law, Return loss, Electronic engineering, General Materials Science, phased array, Dipole antenna, Electrical engineering. Electronics. Nuclear engineering, Radar, Antenna (radio), high gain, Computer Science::Information Theory

Abstract

Ultra-wideband (UWB) phased array antennas are essential for radar, communication, and Electronic Warfare (EW) applications. Systems can operate over wide-band coverage. The high gain systems require wide-band, wide-angle scanning, good radiation pattern, and return loss over a multi-octave bandwidth. This review discusses the problems present in the UWB phased array system, which include mutual coupling, grating lobe rejection, active return loss, gain fluctuation with scanning, and multiple beam generation. In this, the aperture size of the array is limited by the overall gain requirement of the system. On the other hand, low gain systems require a wide-band with a good radiation pattern and axial ratio. Here the matching over wide-band is simpler as it depends on broadband balun configuration. This system has limited bandwidth over scan angles. These antennas are more preferred as wearable antennas in communication applications. This paper mainly discusses the existing UWB phased array antennas such as Vivaldi Arrays, All-metal Arrays, Spiral Arrays, Sinuous Arrays, and Coupled Arrays. This review paper presents a correct direction for selecting the type of antenna in terms of impedance bandwidth, gain, and materials influencing antenna performance, suited for different applications.

Published

2021