A 1.2v ΔΣ ADC Modulator Using 4-bit SAR Quantizer for Biomedical Applications by using 65nm CMOS Technology

A 1.2v ΔΣ ADC Modulator Using 4-bit SAR Quantizer for Biomedical Applications by using 65nm CMOS Technology

This research focuses on enhancing Sigma-Delta ADC modulators for biomedical applications by leveraging the working principle of Successive Approximation ADC circuits. The proposed modulator includes a comparator, DAC, successive approximation register, and control circuit. The operational process b...

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Main Authors: Lakshmi Bhavani G., Muzafar Patan, Usha Rani T., Siddarath Reddy K., Prathusha K., Pavani Pasupuleti, Kumar Manish
Format: Article
Language:English
Published: EDP Sciences 2024-01-01
Series:MATEC Web of Conferences
Online Access:https://www.matec-conferences.org/articles/matecconf/pdf/2024/04/matecconf_icmed2024_01060.pdf
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author Lakshmi Bhavani G.
Muzafar Patan
Usha Rani T.
Siddarath Reddy K.
Prathusha K.
Pavani Pasupuleti
Kumar Manish
author_facet Lakshmi Bhavani G.
Muzafar Patan
Usha Rani T.
Siddarath Reddy K.
Prathusha K.
Pavani Pasupuleti
Kumar Manish
author_sort Lakshmi Bhavani G.
collection DOAJ
description This research focuses on enhancing Sigma-Delta ADC modulators for biomedical applications by leveraging the working principle of Successive Approximation ADC circuits. The proposed modulator includes a comparator, DAC, successive approximation register, and control circuit. The operational process begins with the sample and holds circuit-initiating conversions by sampling the input signal, and then compared with the DAC output. Using a 4-bit example, the successive approximation register refines the DAC output through iterative bit adjustments until the closest digital code approximation to the input is voltage independent of input voltage, occurring incrementally one bit at a time. The proposed enhancement aims to optimize Sigma-Delta ADC modulator performance for biomedical applications, ensuring high resolution and speed. Typical conversion speeds range from 2 to 5 MSPS, with resolutions varying from 8 to 16 bits, contributing to improved precision and efficiency in capturing and digitizing biomedical signals.
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spelling doaj.art-52a740e8fda94e1f807ba289ca4850d82024-03-22T08:05:25ZengEDP SciencesMATEC Web of Conferences2261-236X2024-01-013920106010.1051/matecconf/202439201060matecconf_icmed2024_01060A 1.2v ΔΣ ADC Modulator Using 4-bit SAR Quantizer for Biomedical Applications by using 65nm CMOS TechnologyLakshmi Bhavani G.0Muzafar Patan1Usha Rani T.2Siddarath Reddy K.3Prathusha K.4Pavani Pasupuleti5Kumar Manish6Department of Electronics and Communication Engineering, KG Reddy College of Engineering and TechnologyDepartment of Electronics and Communication Engineering, KG Reddy College of Engineering and TechnologyDepartment of Electronics and Communication Engineering, KG Reddy College of Engineering and TechnologyDepartment of Electronics and Communication Engineering, KG Reddy College of Engineering and TechnologyDepartment of Electronics and Communication Engineering, KG Reddy College of Engineering and TechnologyDepartment of CSE, GRIETLovely Professional UniversityThis research focuses on enhancing Sigma-Delta ADC modulators for biomedical applications by leveraging the working principle of Successive Approximation ADC circuits. The proposed modulator includes a comparator, DAC, successive approximation register, and control circuit. The operational process begins with the sample and holds circuit-initiating conversions by sampling the input signal, and then compared with the DAC output. Using a 4-bit example, the successive approximation register refines the DAC output through iterative bit adjustments until the closest digital code approximation to the input is voltage independent of input voltage, occurring incrementally one bit at a time. The proposed enhancement aims to optimize Sigma-Delta ADC modulator performance for biomedical applications, ensuring high resolution and speed. Typical conversion speeds range from 2 to 5 MSPS, with resolutions varying from 8 to 16 bits, contributing to improved precision and efficiency in capturing and digitizing biomedical signals.https://www.matec-conferences.org/articles/matecconf/pdf/2024/04/matecconf_icmed2024_01060.pdf
spellingShingle Lakshmi Bhavani G.
Muzafar Patan
Usha Rani T.
Siddarath Reddy K.
Prathusha K.
Pavani Pasupuleti
Kumar Manish
A 1.2v ΔΣ ADC Modulator Using 4-bit SAR Quantizer for Biomedical Applications by using 65nm CMOS Technology
MATEC Web of Conferences
title A 1.2v ΔΣ ADC Modulator Using 4-bit SAR Quantizer for Biomedical Applications by using 65nm CMOS Technology
title_full A 1.2v ΔΣ ADC Modulator Using 4-bit SAR Quantizer for Biomedical Applications by using 65nm CMOS Technology
title_fullStr A 1.2v ΔΣ ADC Modulator Using 4-bit SAR Quantizer for Biomedical Applications by using 65nm CMOS Technology
title_full_unstemmed A 1.2v ΔΣ ADC Modulator Using 4-bit SAR Quantizer for Biomedical Applications by using 65nm CMOS Technology
title_short A 1.2v ΔΣ ADC Modulator Using 4-bit SAR Quantizer for Biomedical Applications by using 65nm CMOS Technology
title_sort 1 2v δς adc modulator using 4 bit sar quantizer for biomedical applications by using 65nm cmos technology
url https://www.matec-conferences.org/articles/matecconf/pdf/2024/04/matecconf_icmed2024_01060.pdf
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