DTMOS based high bandwidth four-quadrant analog multiplier

Muhammed Emin Başak; Emre Özer; Firat Kaçar; Deniz Özenli

doi:10.33180/InfMIDEM2020.206

DTMOS based high bandwidth four-quadrant analog multiplier

Muhammed Emin Başak^*, Emre Özer, Firat Kaçar, Deniz Özenli

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

6 Citations (Scopus)

Abstract

Analog multiplication circuits are very important blocks widely used in analog signal processing applications. In analog multiplication circuits, low power consumption is expected with wide bandwidth, low nonlinearity and high input range according to the supply voltage. In this work, folded Gilbert cell structure was resized using dynamic threshold MOS (DTMOS) transistors. The proposed circuit is laid out with 491.4 µm2 chip area. Post layout simulations show that the proposed circuit has high bandwidth (1.2 GHz), low supply voltage (0.2 V), and low power consumption (44.6 µW). In addition, the proposed circuit is examined for temperature variation, total harmonic distortion, intermodulation products and Monte Carlo analysis of the dimensioning of the circuit. The post layout results show that the proposed circuit has promising performance against its counterparts in the literature.

Original language	English
Pages (from-to)	137-146
Number of pages	10
Journal	Informacije MIDEM
Volume	50
Issue number	2
DOIs	https://doi.org/10.33180/InfMIDEM2020.206
Publication status	Published - 2020
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2020 Society for Microelectronics, Electric Components and Materials. All rights reserved.

Keywords

Analog multiplier
DTMOS
Four-quadrant

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10.33180/InfMIDEM2020.206

Cite this

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abstract = "Analog multiplication circuits are very important blocks widely used in analog signal processing applications. In analog multiplication circuits, low power consumption is expected with wide bandwidth, low nonlinearity and high input range according to the supply voltage. In this work, folded Gilbert cell structure was resized using dynamic threshold MOS (DTMOS) transistors. The proposed circuit is laid out with 491.4 µm2 chip area. Post layout simulations show that the proposed circuit has high bandwidth (1.2 GHz), low supply voltage (0.2 V), and low power consumption (44.6 µW). In addition, the proposed circuit is examined for temperature variation, total harmonic distortion, intermodulation products and Monte Carlo analysis of the dimensioning of the circuit. The post layout results show that the proposed circuit has promising performance against its counterparts in the literature.",

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author = "Ba{\c s}ak, {Muhammed Emin} and Emre {\"O}zer and Firat Ka{\c c}ar and Deniz {\"O}zenli",

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AU - Başak, Muhammed Emin

AU - Özer, Emre

AU - Kaçar, Firat

AU - Özenli, Deniz

PY - 2020

Y1 - 2020

N2 - Analog multiplication circuits are very important blocks widely used in analog signal processing applications. In analog multiplication circuits, low power consumption is expected with wide bandwidth, low nonlinearity and high input range according to the supply voltage. In this work, folded Gilbert cell structure was resized using dynamic threshold MOS (DTMOS) transistors. The proposed circuit is laid out with 491.4 µm2 chip area. Post layout simulations show that the proposed circuit has high bandwidth (1.2 GHz), low supply voltage (0.2 V), and low power consumption (44.6 µW). In addition, the proposed circuit is examined for temperature variation, total harmonic distortion, intermodulation products and Monte Carlo analysis of the dimensioning of the circuit. The post layout results show that the proposed circuit has promising performance against its counterparts in the literature.

AB - Analog multiplication circuits are very important blocks widely used in analog signal processing applications. In analog multiplication circuits, low power consumption is expected with wide bandwidth, low nonlinearity and high input range according to the supply voltage. In this work, folded Gilbert cell structure was resized using dynamic threshold MOS (DTMOS) transistors. The proposed circuit is laid out with 491.4 µm2 chip area. Post layout simulations show that the proposed circuit has high bandwidth (1.2 GHz), low supply voltage (0.2 V), and low power consumption (44.6 µW). In addition, the proposed circuit is examined for temperature variation, total harmonic distortion, intermodulation products and Monte Carlo analysis of the dimensioning of the circuit. The post layout results show that the proposed circuit has promising performance against its counterparts in the literature.

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DTMOS based high bandwidth four-quadrant analog multiplier

Abstract

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Keywords

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