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Disambiguation of "Nagulapalli, Rajasekhar"

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A 15uW, 12 ppm/°C Curvature Compensated Bandgap in 0.85V Supply.

, , , , , and . ISCAS, page 1-4. IEEE, (2021)

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Rajasekhar Sappidi

Ramalingiah Rajasekhar

Rajasekhar Rao Koka

 

Other publications of authors with the same name

A High Frequency CMRR improvement technique for Differential Amplifiers in 45nm CMOS., , , , and . ICCCNT, page 1-5. IEEE, (2019)Dynamic Averager Based Sub-1V Bandgap Voltage Reference., , and . MWSCAS, page 890-894. IEEE, (2023)A Single BJT 10.2 ppm/°C Bandgap Reference in 45nm CMOS Technology., , , and . ICCCNT, page 1-4. IEEE, (2020)A Novel Sub-1V Bandgap Reference with 17.1 ppm/0C Temperature coefficient in 28nm CMOS., , , and . ISCAS, page 1914-1917. IEEE, (2022)8.7 A 112Gb/s ADC-DSP-Based PAM-4 Transceiver for Long-Reach Applications with >40dB Channel Loss in 7nm FinFET., , , , , , , , , and 18 other author(s). ISSCC, page 138-140. IEEE, (2021)23.5 A dual 64Gbaud 10kΩ 5% THD linear differential transimpedance amplifier with automatic gain control in 0.13µm BiCMOS technology for optical fiber coherent receivers., , , , , , and . ISSCC, page 406-407. IEEE, (2016)A Low Power Miller Compensation Technique for Two Stage Op-amp in 65nm CMOS Technology., , , , and . ICCCNT, page 1-5. IEEE, (2019)A 15uW, 12 ppm/°C Curvature Compensated Bandgap in 0.85V Supply., , , , , and . ISCAS, page 1-4. IEEE, (2021)A Positive Feedback-Based Op-Amp Gain Enhancement Technique for High-Precision Applications., , and . J. Circuits Syst. Comput., 29 (14): 2050220:1-2050220:12 (2020)High Performance Circuit Techniques for Nueral Front-End Design in 65nm CMOS., , , , , and . ICCCNT, page 1-4. IEEE, (2018)