Title :
Design and analysis of memristor-based min-max circuit
Author :
S. H. Amer;A. H. Madian;A. S. Emara
Author_Institution :
Electronics and Communication Engineering Department, American University in Cairo, Cairo, Egypt
Abstract :
Memristor-based min-max circuits have been proposed as a promising application of memristors. This work focuses on 3-input memristor-based min-max circuits. A thorough analysis of the structure is presented. It is shown that the proposed structure does implement min/max operations for arbitrary input voltages. Also, design constraints and limitations are derived. Finally, the effect of the memristor threshold is analytically modeled and closed form expressions for the allowable values of the input voltages as a function of the memristor threshold current, are derived. Eldo (Mentor Graphics) simulations are successfully conducted using the TEAM model to validate the results.
Keywords :
"Memristors","Computational modeling","Field-flow fractionation","Switches","Analytical models","Integrated circuit modeling","Threshold voltage"
Conference_Titel :
Electronics, Circuits, and Systems (ICECS), 2015 IEEE International Conference on
DOI :
10.1109/ICECS.2015.7440280