A low-power, wideband-tunable, nano-dimension based CMOS LC ladder filter designed using GmC
Author(s):
Article Type:
Research/Original Article (دارای رتبه معتبر)
Abstract:
This paper proposed LC-ladder filter based on transconductance (GmC) with 130 nm RF CMOS process technology node at 1.2 V. Further, a seventh-order low-pass filter prototype and a sixth-order band-pass filter prototype have been invented to prove high-frequency functioning in a way that is relatively suited for s-parameters modelling. The low pass and band pass elements of an LC filter have been successfully implemented with GmC, and high-frequency operation has been achieved with compact passive components. To perform simulations and validate s-parameters in the intended frequency range of 2 GHz to 6 GHz, an RF-simulation platform (ADS from Keysight) has been utilised. The 8-bit capacitor-bank array used in this device allows the wideband adjustable function to be controlled by a digital or analogue signal from the external control. Due to the current mode multi-port GmC operation, an average selectivity with Q in the range of 27 to 39 has been achieved at 4.3mW, while maintaining low power consumption. By selecting the appropriate Gm and capacitive sizes for the cap-bank, it was feasible to achieve the broad operation required in the existing wireless range (2GHz-6GHz). SPICE and RF (s-parameter, harmonic balancer) simulations in ADS have been used in combination to examine the frequency response and noise performance of the proposed structure. When compared to state-of-the-art-work, the suggested Low power tunable filter stands out because to its improved frequency range, low supply voltage, better value of noise performance, and low power dissipation, which will be useful for complex analogue circuit design.
Keywords:
Circuit , CMOS , Filter , GmC , Inductor Emulation , Nano-Dimension , Signal processing
Language:
English
Published:
International Journal of Nano Dimension, Volume:14 Issue: 3, Summer 2023
Pages:
238 to 256
https://magiran.com/p2611559
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