Phumin Kirawanich scite author profile

This article presents a bandwidth enhancing technique using a modified ground plane with diagonal edges, rectangular slot, and T-shape cut for the design of compact antennas. The proposed low-cost, compact-size circular patch antenna on 3 cm 5.1 cm printed circuit board (FR-4) is designed and validated through simulations and experiments. Results show that the T-shaped ground plane with the presence of the diagonal cuts at the top corners and the rectangular slots can increase the bandwidth. Return losses of 19 and 26 dB for the first and second resonant frequencies, respectively, can be achieved when the depth of the diagonal cut is 5 mm, the dimension of each rectangular slot is mm, and the T-shaped size is mm, providing a 28.67% wider bandwidth than FCC standard.

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Study of High-Power Wideband Terahertz-Pulse Generation Using Integrated High-Speed Photoconductive Semiconductor Switches

Kirawanich

Yakura

Islam

2009

IEEE Trans. Plasma Sci.

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Early growth effects on Arabidopsis thaliana by seed exposure of nanosecond pulsed electric field

Songnuan

Kirawanich

2012

Journal of Electrostatics

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Fuzzy logic control of an active power line conditioner

Kirawanich

O’Connell

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An Electromagnetic Topology Approach: Crosstalk Characterizations of the Unshielded Twisted-Pair Cable

Kirawanich¹,

Islam²,

Yakura³

2006

PIER

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Abstract-The inductive effect of near-end crosstalk for a category five unshielded, twisted-pair cable has been verified using the electromagnetic topology simulation method. Crosstalk reduction and its dependency on such parameters as driving signals, circuit configuration and impedance, are studied. The simulation results are consistent with analytical analysis. Results show that the straightthrough, differential-generator, twisted-pair receptor model is the most effective configuration to control the near-end crosstalk level. This is due to the influences from both the neutralizing mutual inductance and the single current generator. The simulation results also show that electromagnetic topology-based predictions are valid only for cables that are electrically short. Simulations are carried out using a compaction scheme with a single equivalent circuit. As a result, the unshielded, twisted-pair cable portion of the circuit can be combined with a larger network for analyzing the overall response of the entire network system.

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