Enhancing IoT Device Responsiveness with Dual Feedback Schmitt Trigger Optimization

This brief discusses the operation of a double feedback classical Schmitt trigger with low power consumption for IoT applications. The findings suggest that the PFC-IST exhibits low power consumption with sharp transition. It is highly reliable for fluctuating voltages. The dynamic and leakage power...

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Bibliographic Details
Published inProceedings (International Confernce on Computational Intelligence and Communication Networks) pp. 1092 - 1096
Main Authors Ramsamuzh, Mourya Anjali, Kannaujiya, Aryan, Lodhi, Pankaj, Srivastava, Vaibhava, Kaur, Amrinder
Format Conference Proceeding
LanguageEnglish
Published IEEE 22.12.2024
Subjects
Fast switching
Integrated circuit reliability
Internet of Things
Internet of Things (IoT)
Low power
Noise
Performance evaluation
Power demand
Propagation delay
Schmit trigger
Switches
Switching circuits
Thermal stability
Transistors
VLSI
Online AccessGet full text
ISSN2472-7555
DOI10.1109/CICN63059.2024.10847374

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Summary:This brief discusses the operation of a double feedback classical Schmitt trigger with low power consumption for IoT applications. The findings suggest that the PFC-IST exhibits low power consumption with sharp transition. It is highly reliable for fluctuating voltages. The dynamic and leakage power consumption are 1.75× and 1.35×. Further, the propagation delay is 1.30 × times of the conventional circuit. The proposed PFC-IST enhances IoT applications by achieving lower power consumption, faster switching, and improved noise immunity. Unlike conventional Schmitt triggers, the PFC-IST integrates an optimized feedback loop that provides higher stability against input fluctuations, reducing dynamic and leakage power.
ISSN:2472-7555
DOI:10.1109/CICN63059.2024.10847374