2024, Vol. 4, Issue 2, Part A
Dynamic Voltage Scaling (DVS)-enabled ultra-low power microcircuits for sustainable IoT edge sensors
Author(s): Soufiane El Fassi and Ahmed El Amrani
Abstract: The proliferation of Internet of Things (IoT) edge sensors has revolutionized data collection and real-time decision-making across industries such as healthcare, agriculture, and smart cities. However, the sustainability and efficiency of these devices are limited by their power consumption and battery lifespan. This study presents a Dynamic Voltage Scaling (DVS)-enabled ultra-low-power microcircuit architecture specifically designed for IoT edge sensors. The proposed design dynamically adjusts the voltage and frequency based on real-time workload requirements, minimizing power consumption without compromising performance. Key aspects of the study include sub-threshold circuit design, energy harvesting integration, and AI-driven power management algorithms. Extensive simulations and prototype validations were performed using ANSYS Electronics Suite, MATLAB, and Cadence EDA tools. Results demonstrate a 40% reduction in power consumption and a 30% increase in battery life, making these microcircuits highly suitable for sustainable IoT applications.
DOI: 10.22271/27084493.2024.v4.i2a.53
Pages: 28-31 | Views: 51 | Downloads: 24
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How to cite this article:
Soufiane El Fassi, Ahmed El Amrani. Dynamic Voltage Scaling (DVS)-enabled ultra-low power microcircuits for sustainable IoT edge sensors. Int J Electron Microcircuits 2024;4(2):28-31. DOI: 10.22271/27084493.2024.v4.i2a.53