Sherif Adekunle Tella scite author profile

Sherif Adekunle Tella

5Publications

49Citation Statements Received

187Citation Statements Given

How they've been cited

How they cite others

182

187

Affiliations

Sinopec (China), King Abdullah University of Science and Technology

Publications

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The Effects of Initial Rise and Axial Loads on MEMS Arches

Tella

Hajjaj

Younis

2017

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Arch microbeams have been utilized and proposed for many uses over the past few years due to their large tunability and bistability. However, recent experimental data have shown different mechanical behaviors of arches when subjected to axial loads, i.e., their stiffness may increase or decrease with applied axial loads. This paper aims to investigate in depth, the influence of the competing effects of initial rise and axial loads on the mechanical behavior of micromachined arches; mainly their static deflection and resonant frequencies. Based on analytical solutions, the static response and eigenvalue problems are analyzed for various values of initial rises and axial loads. Universal curves showing the variation of the first three resonance frequencies of the arch are generated for various values of initial rise under both tensile and compressive axial loads. This study shows that increasing the tensile or compressive axial loads for different values of initial rise may lead to either increase in the stiffness of the beam or initial decrease in the stiffness, which later increases as the axial load is increased depending on the dominant effect of the initial rise of the arch and the axial load. The obtained universal curves represent useful design tools to predict the tunability of arches under axial loads for various values of initial rises. The use of the universal curves is demonstrated with an experimental case study. Analytical formulation is developed to predict the point of minimum where the trend of the resonance frequency versus axial loads changes qualitatively due to the competing effects of axial loads and initial curvature.

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A single MEMS resonator for reconfigurable multifunctional logic gates

Tella¹,

Alcheikh²,

Younis³

2018

J. Micromech. Microeng.

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Despite recent efforts toward true electromechanical resonator-based computing, achieving complex logics functions through cascading micro resonators has been deterred by challenges involved in their interconnections and the large required array of resonators. In this work we present a single micro electromechanical resonator with two outputs that enables the realization of multifunctional logic gates as well as other complex logic operations. As examples, we demonstrate the realization of the fundamental 2-bit logic gates of OR, XOR, AND, NOR, and a half adder. The device is based on a compound resonator consisting of a clamped-guided electrostatically actuated arch beam that is attached to another resonant beam from the side, which serves as an additional actuation electrode for the arch. The structure is also provided with an additional electrothermal tuning capability. The logic operations are based on the linear frequency modulations of the arch resonator and side microbeam. The device is compatible with CMOS fabrication process and works at room temperature.

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Axially modulated arch resonator for logic and memory applications

et al. 2018

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Toward cascadable MEMS logic device based on mode localization

Tella

Younis

2020

Sensors and Actuators A: Physical

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An investigation into the mechanical behavior of multi- input and multi-output MEMS resonators

Alcheikh

Tella

Younis

2018

Sensors and Actuators A: Physical

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The devices provide an electrostatic and electrothermal tuning capability.  Through theoretical and experimental investigations, we examined different ways of both sensing and actuation of two mechanically coupled resonators.  We experimentally demonstrated that, this configuration operation depending on the actuation ways and the combination of the logic inputs and the two logic outputs allows the realization of complex logic operations, such as a 1:2 DEMUX.

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