Nayana Chaskar scite author profile

Nayana Chaskar

5Publications

29Citation Statements Received

121Citation Statements Given

How they've been cited

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121

Affiliations

Terna Dental College and Hospital, University of Mumbai

Publications

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Gain and Bandwidth Enhancement of Circularly Polarized Msa Using PRS and Amc Layers

Jagtap¹,

Gupta²,

Chaskar³

et al. 2018

PIER C

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In this paper, a circularly polarized (CP), high gain and wide bandwidth metal plated microstrip antenna (MSA) using partially reflecting surface (PRS) and artificial magnetic conductor (AMC) layers is proposed. The bandwidth of MSA is increased primarily, using AMC layers, and gain is increased by placing the antenna in a Fabry-Perot cavity (FPC) resonator. The two slotted AMCs are designed to resonate at two frequencies which electromagnetically couple to provide wide bandwidth. The FPC antenna with PRS and AMC layers provides higher gain, more impedance bandwidth, less gain variation and more miniaturization than the antenna without AMC layers. The proposed antenna provides S 11 < −10 dB, axial ratio (AR) < 3 dB and 17.4 dBi peak gain with gain variation < 3 dB over 5.725 GHz to 6.4 GHz frequency band. Broadside radiation patterns have side lobe level (SLL) < −20 dB, cross polarization (CPL) < −16 dB and front to back (F/B) lobe ratio > 20 dB. The overall antenna dimensions are 2.83λ 0 × 3.23λ 0 × 0.49λ 0 , where λ 0 is the free space wavelength corresponding to the central frequency of 5.725-6.4 GHz. The proposed structure is fabricated, and the measured results agree with simulation ones.

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A Wideband Microstrip Array Design Using RIS and PRS Layers

Jagtap

Chaudhari

Chaskar

et al. 2018

Antennas Wirel. Propag. Lett.

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Gain bandwidth enhancement of microstrip antenna fed half wavelength Fabry Perot cavity antenna

Chaskar

Jagtap²,

Thakare

et al. 2021

Int J RF Microw Comput Aided Eng

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In this article, gain-bandwidth of microstrip antenna (MSA) fed half wavelength Fabry-Perot cavity (FPC) antenna is enhanced by modifying partially reflecting surface (PRS) and artificial magnetic conductor (AMC) surfaces. Two methods are considered to analyze the resonant condition of FPC antenna. In the first method phase correction is applied, to take into account the modification in AMC layers, while in second method the entire AMCs and PRS surface of the structure is taken as a unit cell. The proposed antenna provides S 11 < −10 dB, peak gain of 17.7 dBi with gain variation < 2 dB, side lobe level < −19 dB, cross polarization level (CPL) < -16 dB and front to back lobe ratio > 20 dB over 5.66 to 6.4 GHz, which covers ISM and satellite uplink C band. The overall antenna dimensions are 2.7λ 0 × 3.1λ 0 × 0.5λ 0 ; here λ 0 is the wavelength in free space corresponding to 5.8 GHz, center frequency of the ISM band. The measured results agree with simulated results.

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Gain and bandwidth improvement of microstrip antenna using RIS and FPC resonator

Chaudhary

Chaskar

Jagtap

et al. 2017

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Effect of dimension, spacing, periodicity and shape of RIS on resonant frequency and bandwidth of 2 × 2 antenna array

Chaskar¹,

Dalvi

Rathod

et al. 2016

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Nayana Chaskar

Gain and Bandwidth Enhancement of Circularly Polarized Msa Using PRS and Amc Layers

A Wideband Microstrip Array Design Using RIS and PRS Layers

Gain bandwidth enhancement of microstrip antenna fed half wavelength Fabry Perot cavity antenna

Gain and bandwidth improvement of microstrip antenna using RIS and FPC resonator

Effect of dimension, spacing, periodicity and shape of RIS on resonant frequency and bandwidth of 2 × 2 antenna array

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