V. Sekar scite author profile

V. Sekar

3Publications

9Citation Statements Received

3Citation Statements Given

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Texas A&M University

Publications

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A novel compact dual-band half-mode substrate integrated waveguide bandpass filter

Sekar¹,

Entesari²

2011

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This paper presents a novel dual-band bandpass filter (BPF) using half-mode substrate integrated waveguide (HMSIW) technology for the first time. The proposed filter is at least six times smaller than its conventional substrate integrated waveguide (SIW) counterpart. A three-pole dual-band Chebyshev BPF with center frequencies of 1.05 GHz and 1.3 GHz is implemented on RT/Duroid 6010LM substrate. To our knowledge, this filter is the state-of-the-art in dual-band BPFs using SIW technology.

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A novel approach for dielectric constant measurement using microwave oscillators

Sekar

Torke

Palermo

et al. 2011

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-In this paper, planar microwave oscillators are used to measure the dielectric constant of organic liquids for the first time. Dielectric constant of an unknown material is calculated based on the change in oscillation frequency caused by the material-under-test (MUT). A split-ring resonator (SRR) is chosen as the sensing element due its small area and high confinement of electric fields which makes it sensitive to permittivity changes of the MUT above the SRR. A C-band microwave oscillator prototype is fabricated on RT/Duroid 5880 substrate and calibrated using ethanol and methanol as reference materials. The dielectric constant of small quantities (< 20μL) of acetic acid, xylene, isobutanol and ethyl acetate are extracted from measurement of oscillation frequency shift and show good agreement with previously reported values.Index Terms -Permittivity measurement, microwave oscillator, split-ring resonator.

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A unified method for nonlinear noise analysis of all-pole RF MEMS tunable filters

Sekar¹,

Entesari²

2011

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V. Sekar

A novel compact dual-band half-mode substrate integrated waveguide bandpass filter

A novel approach for dielectric constant measurement using microwave oscillators

A unified method for nonlinear noise analysis of all-pole RF MEMS tunable filters

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