Tulika Chawla scite author profile

This paper presents design and sensitivity analysis of a 3D inter-digitated combs and folded beam structure based MEMS accelerometer. Initially a mathematical model of the accelerometer is developed and its effects on the displacement sensitivity and capacitance sensitivity are analyzed. It is observed that the sensitivity of accelerometer can be improved through optimal selection of design parameters viz. beam length, beam width, overlap area, mass width, number of fingers. Finally the structure is designed in COMSOL multiphysics simulation tool to extract the device sensitivities. The structure of comb type 3D accelerometer comprises of a proof mass, 24 sensing fingers, 8 driving fingers, folded beams (springs) and two anchors. The beam length is 350μm, beam width is 2μm, spring constant is 0.4564 N/m, anchor area is 40x40 μm², mass width is 70μm and mass length is 350μm. The obtained value of displacement between combs is 0.154nm when 1g acceleration is applied on the movable mass and displacement sensitivity is 0.154nm/g. The corresponding capacitance sensitivity is 7.85x10 -18 F. The stress analysis at different values of acceleration is also carried out.

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Design and simulation of triple metal double-gate germanium on insulator vertical tunnel field effect transistor

Chawla

Khosla

Raj

2021

Microelectronics Journal

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Design and Performance Analysis of Delta-Doped Hetro-Dielectric GeOI Vertical TFET

Mittal

Khosla

Chawla

2021

Silicon

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Tulika Chawla

Extended Gate to source overlap Heterojunction Vertical TFET: Design, analysis, and optimization with process parameter variations

GeSn based heterojunction double-gate tripple metal layer vertical TFET with enhanced DC and Analog/RF performance

Design and sensitivity analysis of MEMS 3D capacitive comb type accelerometer

Design and simulation of triple metal double-gate germanium on insulator vertical tunnel field effect transistor

Design and Performance Analysis of Delta-Doped Hetro-Dielectric GeOI Vertical TFET

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