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Authors
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L, Prof. Lokesh https://orcid.org/0000-0003-4076-9298
Tantry, Dr. Shashidhar https://orcid.org/0000-0002-3747-1709
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M, Karthik https://orcid.org/0009-0000-5078-7292
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Declaration
Conflicts of Interest: Based on my understanding, this article has no conflicts of interest.
Funding Support: This article has not been funded by any organizations or agencies. This independence ensures that the research is conducted with objectivity and without any external influence.
Ethical Approval and Consent to Participate: The content of this article does not necessitate ethical approval or consent to participate with supporting documentation.
Data Access Statement and Material Availability: The adequate resources of this article are publicly accessible.
Authors Contributions: Each author has individually contributed to the article. Prof. Lokesh L: Provided overall technical guidance and oversight throughout the development of the project. His inputs were instrumental during the architectural and simulation planning phases, ensuring the design met academic and industrial relevance. Dr. Shashidhar Tantry: Contributed through conceptual validation and refinement of the manuscript. He offered support in aligning the methodology with CMOS process design principles and reviewed the draft critically for intellectual content. Karthik M: Was responsible for the core implementation of the project. This included the design, simulation, and verification of the resistor-based temperature sensing circuit, the development of the differential amplifier stage, the integration of the ADC, the analysis of results, and the preparation of the manuscript. All schematic work, testbench creation, simulation handling, and result interpretation were carried out.
