Vikash Kumar scite author profile

This paper presents a novel design methodology for realizing a variation-aware widely tunable active inductor-based RF bandpass filter (BPF). The inductor-less filter is designed and implemented using voltage differencing transconductance amplifier (VDTA) as an active building block and a grounded capacitor, thereby validating its suitability for fully integrated circuit applications. Digital 'coarse' tuning and analog 'fine' tuning are employed to achieve better frequency coverage. The designed filter exhibits a tuning range of 1.65-3.015 GHz and a 3-dB bandwidth of 1400-122 MHz which translates into a quality factor of 1.17-24.71. It offers a voltage gain of 0-22.91 dB, noise figure of 28.16-28.95 dB, has a 1-dB compression point of 2.50-2.478 dBm and draws 0.065-0.232 mW power from 1-V power supply. Our proposed design shows a figure-of-merit of 82.08-91.27 dB, which is higher as compared to its counterparts available in the literature. The filter is implemented in 45-nm CMOS technology node using metal gate and strained silicon.

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A 2.5 GHz Low Power, High- ${Q}$ , Reliable Design of Active Bandpass Filter

Kumar

Mehra

Islam

2017

IEEE Trans. Device Mater. Relib.

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Floating active inductor based Class-C VCO with 8 digitally tuned sub-bands

Mehra

Kumar

Islam

2018

AEU - International Journal of Electronics and Communications

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2SPUF: Machine Learning Attack Resistant SRAM PUF

Kumar

Tripathy

Mathew

2020

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Vikash Kumar

Memristor based Random Number Generator: Architectures and Evaluation

Variation‐aware widely tunable nanoscale design of CMOS active inductor‐based RF bandpass filter

A 2.5 GHz Low Power, High- ${Q}$ , Reliable Design of Active Bandpass Filter

Floating active inductor based Class-C VCO with 8 digitally tuned sub-bands

2SPUF: Machine Learning Attack Resistant SRAM PUF

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