Noise Minimization in CMOS Current Mode Circuits That Employ Differential Input Stage

Noise Minimization in CMOS Current Mode Circuits That Employ Differential Input Stage

In this paper, a new noise minimization approach is proposed for CMOS current-mode (CM) circuits whose input stage is differential. This is realized by focusing on input stage and some output stage transistors' transconductance. Effect of output stage over the noise model depends on output st...

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Bibliographic Details
Main Authors: YESIL, A., OZENLI, D., ARSLAN, E., KACAR, F.
Format: Article
Language:English
Published: Stefan cel Mare University of Suceava 2016-05-01
Series:Advances in Electrical and Computer Engineering
Subjects:
noise minimization
current mode circuits
DDCC
DVCC
input referred noise
active elements
Online Access:http://dx.doi.org/10.4316/AECE.2016.02003
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spelling doaj-ce1100736a154a0eb2aeaa675aba26a62020-11-25T00:09:18ZengStefan cel Mare University of SuceavaAdvances in Electrical and Computer Engineering1582-74451844-76002016-05-01162192410.4316/AECE.2016.02003Noise Minimization in CMOS Current Mode Circuits That Employ Differential Input StageYESIL, A.OZENLI, D.ARSLAN, E.KACAR, F.In this paper, a new noise minimization approach is proposed for CMOS current-mode (CM) circuits whose input stage is differential. This is realized by focusing on input stage and some output stage transistors' transconductance. Effect of output stage over the noise model depends on output stage's operation. This minimization is introduced to designers as a trade-off between design parameters and noise reduction. Analyses are presented in basis of Differential Difference Current Conveyor (DDCC) for simplicity. To reinforce theoretical concept, simulation results are given both in schematic and layout based. Moreover, a DDCC filter application, which has single input and four outputs is presented to verify theoretical minimization approach. After minimization, it is shown that significant noise reduction is obtained up to 50%. In addition, Monte Carlo analysis is given in order to investigate process variations and temperature effects on measured input referred noise.http://dx.doi.org/10.4316/AECE.2016.02003noise minimizationcurrent mode circuitsDDCCDVCCinput referred noiseactive elements
collection DOAJ
language English
format Article
sources DOAJ
author YESIL, A.
OZENLI, D.
ARSLAN, E.
KACAR, F.
spellingShingle YESIL, A.
OZENLI, D.
ARSLAN, E.
KACAR, F.
Noise Minimization in CMOS Current Mode Circuits That Employ Differential Input Stage
Advances in Electrical and Computer Engineering
noise minimization
current mode circuits
DDCC
DVCC
input referred noise
active elements
author_facet YESIL, A.
OZENLI, D.
ARSLAN, E.
KACAR, F.
author_sort YESIL, A.
title Noise Minimization in CMOS Current Mode Circuits That Employ Differential Input Stage
title_short Noise Minimization in CMOS Current Mode Circuits That Employ Differential Input Stage
title_full Noise Minimization in CMOS Current Mode Circuits That Employ Differential Input Stage
title_fullStr Noise Minimization in CMOS Current Mode Circuits That Employ Differential Input Stage
title_full_unstemmed Noise Minimization in CMOS Current Mode Circuits That Employ Differential Input Stage
title_sort noise minimization in cmos current mode circuits that employ differential input stage
publisher Stefan cel Mare University of Suceava
series Advances in Electrical and Computer Engineering
issn 1582-7445
1844-7600
publishDate 2016-05-01
description In this paper, a new noise minimization approach is proposed for CMOS current-mode (CM) circuits whose input stage is differential. This is realized by focusing on input stage and some output stage transistors' transconductance. Effect of output stage over the noise model depends on output stage's operation. This minimization is introduced to designers as a trade-off between design parameters and noise reduction. Analyses are presented in basis of Differential Difference Current Conveyor (DDCC) for simplicity. To reinforce theoretical concept, simulation results are given both in schematic and layout based. Moreover, a DDCC filter application, which has single input and four outputs is presented to verify theoretical minimization approach. After minimization, it is shown that significant noise reduction is obtained up to 50%. In addition, Monte Carlo analysis is given in order to investigate process variations and temperature effects on measured input referred noise.
topic noise minimization
current mode circuits
DDCC
DVCC
input referred noise
active elements
url http://dx.doi.org/10.4316/AECE.2016.02003
work_keys_str_mv AT yesila noiseminimizationincmoscurrentmodecircuitsthatemploydifferentialinputstage
AT ozenlid noiseminimizationincmoscurrentmodecircuitsthatemploydifferentialinputstage
AT arslane noiseminimizationincmoscurrentmodecircuitsthatemploydifferentialinputstage
AT kacarf noiseminimizationincmoscurrentmodecircuitsthatemploydifferentialinputstage
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