Maizatul Alice Meor Said scite author profile

Maizatul Alice Meor Said

5Publications

30Citation Statements Received

35Citation Statements Given

How they've been cited

How they cite others

101

Affiliations

Technical University of Malaysia Malacca

Publications

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High Quality Factor using Nested Complementary Split Ring Resonator for Dielectric Properties of Solids Sample

Rahman¹,

Zakaria²,

Rahim³

et al. 2020

ACES

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A Nested complementary split ring resonator (CSRR) was proposed based on planar structure. The main objective of this work is to get a higher quality factor (Q-factor) with minimal error detection of complex permittivity. The sensor operated at the 3.37GHz resonant frequency and simulated by ANSYS HFSS software. Subsequently, the designed sensor has been fabricated and tested with the presence of several material under test (MUTs) placed over the sensor. The result achieved high unloaded Q-factor, 464. There has been proof of good agreement concerning the results between theoretical, simulation, and measured parameters of error detection, which is below 13.2% real part permittivity and 2.3% the loss tangent. The proposed sensor is practically useful for the food industry, bio-sensing, and pharmacy industry applications.

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2.45 GHz rectenna with high gain for RF energy harvesting

et al. 2019

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This paper presents a high gain rectenna at 2.45 GHz. Two layers low cost FR4 substrate has been used with air-gap technology for this fabricated rectenna. The proposed designs contain antenna and open stub rectifying circuits with feedline. With the dimension of 100x100x5 mm 3 , this rectenna can perform high gain. The technique of air gap approach has been used for this proposed rectenna design so as to increase the antenna gain. Second and third harmonics has been eliminated by the introducing of triangular slot and ground plane to the developed design. The proposed rectenna successfully achieved the output voltages reaches 0.46 V when the input power is 0 dBm respectively when the input power range is between -25 to 30 dBm. It is also can reach up to 6V when the maximum input power is applied. High gain, simple design, low profile and easy integration are the main advantages of this design of the rectenna when compared to past researchers.

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Distance computation using axis aligned bounding box (AABB) parallel distribution of dynamic origin point

Sulaiman

Othman

Ismail

et al. 2013

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Dual-band aperture-coupled rectenna for radio frequency energy harvesting

Noor

Zakaria

Lago

et al. 2019

Int J RF Microw Comput Aided Eng

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The article presents a dual-band aperture-coupled rectenna for radio frequency (RF) energy harvesting at 2.45 and 5 GHz application. The rectenna consists of a dual-band π-shaped slot-etched aperture-coupled antenna, designed at the lower substrate of two FR4 substrate layers and a dual-band rectifier. The proposed antenna design also introduces the harmonic suppression of third-and higher order harmonics, ranging from 6 up to 10 GHz from the asymmetrical stubs design at the transmission feedline. The dual-band rectifier is designed to operate at 2.45 and 5 GHz frequency, successfully achieving high conversion efficiency at 68.83% and 49.90% with the optimum load resistor of value 700 Ω and 1.1 kΩ. The minimum DC voltage of 0.167 and 0.236 V with 0 dBm RF input power can be increased when greater RF power is being applied to it, increasing its flexibility to cater various low-power applications. K E Y W O R D Sdual-band aperture-coupled, dual-band rectifier, energy harvesting, rectenna

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Biometric attendance

Said

Misran

Othman

et al. 2014

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