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Sreenath Vijayakumar
Sreenath Vijayakumar
Assistant Professor, Indian Institute of Technology Palakkad
Verified email at iitpkd.ac.in - Homepage
Title
Cited by
Cited by
Year
A Resistive Sensor Readout Circuit With Intrinsic Insensitivity to Circuit Parameters and Its Evaluation
V Sreenath, K Semeerali, B George
IEEE Transactions on Instrumentation and Measurement 66 (7), 1719-1727, 2017
402017
An Improved Closed-Loop Switched Capacitor Capacitance-to-Frequency Converter and Its Evaluation
BG V Sreenath
IEEE Transactions on Instrumentation and Measurement 67 (5), 1 - 8, 2018
312018
A Switched-Capacitor Circuit-Based Digitizer for Efficient Interfacing of Parallel RC Sensors
V Sreenath, B George
IEEE Sensors Journal 17 (7), 2109-2119, 2017
162017
An easy-to-interface CDC with an efficient automatic calibration
V Sreenath, B George
IEEE Transactions on Instrumentation and Measurement 65 (5), 960-967, 2015
152015
A resistance-to-digital converter possessing exceptional insensitivity to circuit parameters
V Sreenath, K Semeerali, B George
2016 IEEE International Instrumentation and Measurement Technology …, 2016
102016
A Novel Single-Element Inductance-to-Digital Converter with Automatic Offset Eliminator
PP Narayanan, S Vijayakumar
2021 IEEE International Instrumentation and Measurement Technology …, 2021
82021
A robust switched-capacitor CDC
V Sreenath, B George
IEEE Sensors Journal 18 (14), 5985-5992, 2018
62018
A direct-digital interface circuit for sensors representable using parallel RC model
V Sreenath, B George
2016 IEEE International Instrumentation and Measurement Technology …, 2016
62016
A modified RDC with an auto-adjustable SC source enabled auto-calibration scheme
R Gupta, V Sreenath, B George
2016 IEEE Sensors Applications Symposium (SAS), 1-6, 2016
62016
A novel switched-capacitor capacitance-to-digital converter for single element capacitive sensors
V Sreenath, B George
2015 IEEE International Instrumentation and Measurement Technology …, 2015
62015
A novel closed-loop SC capacitance-to-frequency converter with high linearity
V Sreenath, B George
2017 IEEE International Instrumentation and Measurement Technology …, 2017
52017
A Switched-Capacitor CVC and CFC for Capacitive Sensors Representable using -Model
P Sebastian, PP Narayanan, S Vijayakumar
2021 IEEE International Instrumentation and Measurement Technology …, 2021
32021
An Enhanced Inductance-to-Digital Converter for Single-element and Differential-type Inductive Sensors with Automatic Offset Eliminator
PP Narayanan, V Sreenath
IEEE Transactions on Instrumentation and Measurement, 2023
12023
A Novel Capacitance-to-Time Converter for Differential-type Capacitive Sensor Insensitive to Offset Mismatch and Parasitic Capacitance
PP Narayanan, S Vijayakumar
IEEE Sensors Letters, 2023
12023
An Enhanced Voltage Amplifier Scheme Insensitive to Cable Parasitic Capacitance for Interfacing Piezoelectric Sensors
C Byju, S Vijayakumar
2023 IEEE International Instrumentation and Measurement Technology …, 2023
12023
An Improved Switched Capacitor CFC for Capacitive Sensors Representable using π-model with Automatic Offset Elimination
P Sebastian, N P. P, V Sreenath
IEEE Transactions on Instrumentation and Measurement, 2024
2024
A Novel Direct Digitizer for Leaky Differential Capacitive Sensors using Phase Sensitive Integration
M Jamshir, S Vijayakumar, S Das, K Thiyagarajan, S Kodagoda
IEEE Sensors Letters, 2024
2024
A Differential Voltage Amplifier Scheme for Enhanced Sensitivity and SNR for Remote Piezopolymer-Based Sensor Systems
S Vijayakumar
IEEE Transactions on Instrumentation Measurement 73, 3334334, 2024
2024
A Differential Voltage Amplifier Scheme for Enhanced Sensitivity and SNR for Remote Piezopolymer based Sensor Systems
C Byju, V Sreenath
IEEE Transactions on Instrumentation and Measurement, 2023
2023
A Novel Relaxation Oscillator Based Single-Element Type Inductance-to-Time Converter
PP Narayanan, V Sreenath, MS Jalakam Venu, P S. B. Kavya, B Karthi
International Conference on Sensing Technology 1035, 286–294, 2023
2023
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