Title :
Analysis of the Voltage–Time Dilemma of Metal Oxide-Based RRAM and Solution Exploration of High Speed and Low Voltage AC Switching
Author :
Peng Huang ; Yijiao Wang ; Haitong Li ; Bin Gao ; Bing Chen ; Feifei Zhang ; Lang Zeng ; Gang Du ; Jinfeng Kang ; Xiaoyan Liu
Author_Institution :
Key Lab. of Microelectron. Devices & Circuits, Inst. of Microelectron., Beijing, China
Abstract :
In this paper, the ac electrical characteristics of metal oxide-based resistive random access memory are investigated based on a developed compact model and the experiment. The voltage-time dilemma phenomenon and the impacts of critical factors on resistive switching speed are addressed. Based on predictions of the model, the small parasitic capacitance, low target high resistance, and large thermal resistance are beneficial to accelerate the resistive switching speed both in SET and RESET processes. The high SET speed and low SET voltage can be achieved by tuning the activation energy of oxygen vacancies. While for the RESET process, the barriers of the release of oxygen ions from electrode and the hopping in resistive switching layer should be turned down simultaneously for high switching speed and low operation voltage.
Keywords :
integrated circuit modelling; random-access storage; thermal resistance; vacancies (crystal); RESET process; ac electrical characteristics; activation energy; high SET speed; low SET voltage; low voltage ac switching; metal oxide-based RRAM; metal oxide-based resistive random access memory; oxygen ions; oxygen vacancies; parasitic capacitance; resistive switching layer; resistive switching speed; solution exploration; thermal resistance; voltage-time dilemma; Electrodes; Low voltage; Materials; Metals; Switches; Thermal resistance; AC switching; compact model; high speed; low voltage; resistive random access memory (RRAM); voltage???time dilemma;
Journal_Title :
Nanotechnology, IEEE Transactions on
DOI :
10.1109/TNANO.2014.2340571
