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Evaluation of Low Power and High Speed CMOS Current Comparators
Labonnah Farzana Rahman,Mamun Bin Ibne Reaz,Mohammad Marufuzzaman,Mujahidun Bin Mashur,Md. Torikul Islam Badal 한국전기전자재료학회 2016 Transactions on Electrical and Electronic Material Vol.17 No.6
Over the past few decades, CMOS current comparators have been used in a wide range of applications, includinganalogue circuits, MVL (multiple-valued logic) circuits, and various electronic products. A current comparator isgenerally used in an ADC (analog-to-digital) converter of sensors and similar devices, and several techniques andapproaches have been implemented to design the current comparator to improve performance. To this end, thispaper presents a bibliographical survey of recently-published research on different current comparator topologiesfor low-power and high-speed applications. Moreover, several aspects of the CMOS current comparator are discussedregarding the design implementation, parameters, and performance comparison in terms of the power dissipationand operational speed. This review will serve as a comparative study and reference for researchers working on CMOScurrent comparators in low-power and high-speed applications.
Evaluation of Low Power and High Speed CMOS Current Comparators
Rahman, Labonnah Farzana,Reaz, Mamun Bin Ibne,Marufuzzaman, Mohammad,Mashur, Mujahidun Bin,Badal, Md. Torikul Islam The Korean Institute of Electrical and Electronic 2016 Transactions on Electrical and Electronic Material Vol.17 No.6
Over the past few decades, CMOS current comparators have been used in a wide range of applications, including analogue circuits, MVL (multiple-valued logic) circuits, and various electronic products. A current comparator is generally used in an ADC (analog-to-digital) converter of sensors and similar devices, and several techniques and approaches have been implemented to design the current comparator to improve performance. To this end, this paper presents a bibliographical survey of recently-published research on different current comparator topologies for low-power and high-speed applications. Moreover, several aspects of the CMOS current comparator are discussed regarding the design implementation, parameters, and performance comparison in terms of the power dissipation and operational speed. This review will serve as a comparative study and reference for researchers working on CMOS current comparators in low-power and high-speed applications.