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- Title
Synthesis of Power Line Notch Filter in Wearable Biomedical Devices for Wireless Body Area Network.
- Authors
Pathak, Aruna; Choubey, Chandan Kumar
- Abstract
With the rising prevalence of wearable biomedical devices for recording diverse biosignals, the potential for inaccurate interpretations due to noise susceptibility, including false alarms and misdiagnoses, is increasingly recognized. This study presents the systematic design and evaluation of a current-mode-based active notch filter aimed at eliminating the pervasive power-line interference (PLI) that corrupts biosignals. The filter is constructed using a modern and versatile current-mode analog building block (ABB), specifically the voltage differencing gain amplifier (VDGA). The design of this second-order filter incorporates a single VDGA as an active component and two capacitors as passive components, eliminating the need for resistors. Employing this filter, the influence of the 50Hz PLI on biological signals is effectively suppressed. The filter exhibits desirable properties of the current-mode circuit, including reduced power consumption, an expanded dynamic range, and enhanced accuracy. Key parameters of the filter, such as the pole frequency and the quality factor, can be electronically adjusted and orthogonally tuned via the bias currents of the VDGA. To validate its functionality, the proposed filter design was simulated using the PSPICE simulator with the MAX435 IC's macro-model. The simulation results revealed a notch depth and total harmonic distortion (THD) of -52.9 dB and -55 dB, respectively. The performance of this filter was subsequently compared with existing analog notch filters detailed in the literature. Given its efficacy and simplicity, the proposed filter is deemed suitable for deployment in high-performance biomedical detection equipment.
- Subjects
BODY area networks; NOTCH filters; ELECTRIC lines; CURRENT-mode circuits; PASSIVE components; QUALITY factor
- Publication
Mathematical Modelling of Engineering Problems, 2023, Vol 10, Issue 5, p1842
- ISSN
2369-0739
- Publication type
Article
- DOI
10.18280/mmep.100537