Title :
Effects of Varied Negative Stop Voltages on Current Self-Compliance in Indium Tin Oxide Resistance Random Access Memory
Author :
Chih-Yang Lin ; Kuan-Chang Chang ; Ting-Chang Chang ; Tsung-Ming Tsai ; Chih-Hung Pan ; Rui Zhang ; Kuan-Hsien Liu ; Hua-Mao Chen ; Yi-Ting Tseng ; Ya-Chi Hung ; Yong-En Syu ; Jin-Cheng Zheng ; Ying-Lang Wang ; Wei Zhang ; Sze, Simon M.
Author_Institution :
Dept. of Phys., Nat. Sun Yat-sen Univ., Kaohsiung, Taiwan
Abstract :
We have previously investigated the automatic current compliance property for indium tin oxide (ITO) resistance random access memory (RRAM). Traditionally, for the purpose of protecting RRAM, it is necessary to set equipment current compliance during the set and forming processes of RRAM devices. ITO RRAM devices, however, have an intrinsic capability to limit their current. This letter examines this ITO RRAM current compliance in depth by applying a varied stop-voltage measurement method, where different negative stop voltages were adopted to manipulate oxygen ions. Combined with material analysis and conduction current fitting, a model was established.
Keywords :
indium compounds; integrated circuit reliability; resistive RAM; ITO; RRAM; conduction current fitting; current self-compliance; equipment current compliance; forming process; material analysis; negative stop voltage; oxygen ion manipulation; resistance random access memory; set process; stop voltage measurement method; Electrodes; Fitting; Indium tin oxide; Ions; Nonvolatile memory; Resistance; Tin; ITO; RRAM; Self-compliance; reset voltage; self-compliance;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2015.2424226
