期刊名称:TELKOMNIKA (Telecommunication Computing Electronics and Control)
印刷版ISSN:2302-9293
出版年度:2019
卷号:17
期号:1
页码:448-452
DOI:10.12928/telkomnika.v17i1.11587
出版社:Universitas Ahmad Dahlan
摘要:In this paper, the analytical approach of MOS transistor mismatch effect on common-mode gain
of cross-coupled amplifier is presented. Transconductance (MOS transistor parameter) mismatch effect on
common-mode gain of cross-coupled amplifier was analyzed. This study was started with mathematical
derivation for representing the mismatch effect of transconductance between 2 differential pairs of crosscoupled
amplifier due to common-mode voltage. The derivation result was simulated based on Monte
Carlo simulation with random transconductance mismatch rate from 0.05% until 1%. The common-mode
gain increases 36.9 dB and average common-mode gain is -81.1 dB. The transconductance mismatch rate
increases followed by increase in common-mode gain. The results can be used by circuit designers to
design analog circuits, especially operational amplifier used for biosignals processing to minimize the
common-mode gain of their circuits. This research presents aid to circuit designers to improve their circuits
performance.
其他摘要:In this paper, the analytical approach of MOS transistor mismatch effect on common-mode gain of cross-coupled amplifier is presented. Transconductance (MOS transistor parameter) mismatch effect on common-mode gain of cross-coupled amplifier was analyzed. This study was started with mathematical derivation for representing the mismatch effect of transconductance between 2 differential pairs of crosscoupled amplifier due to common-mode voltage. The derivation result was simulated based on Monte Carlo simulation with random transconductance mismatch rate from 0.05% until 1%. The common-mode gain increases 36.9 dB and average common-mode gain is -81.1 dB. The transconductance mismatch rate increases followed by increase in common-mode gain. The results can be used by circuit designers to design analog circuits, especially operational amplifier used for biosignals processing to minimize the common-mode gain of their circuits. This research presents aid to circuit designers to improve their circuits performance.
