Title :
Cu Atom Switch With Steep Time-to-ON-State Versus Switching Voltage Using Cu Ionization Control
Author :
Banno, Naoki ; Tada, Munehiro ; Sakamoto, Toshitsugu ; Miyamura, Makoto ; Okamoto, Koichiro ; Iguchi, Noriyuki ; Hada, Hiromitsu
Author_Institution :
Low-Power Electron. Assoc. & Project, Tsukuba, Japan
Abstract :
To break the tradeoff relationship between fast and low-voltage programming of a Cu atom switch, the effect of the composition in the AlTi oxide buffer layer placed on a Cu electrode is investigated. To improve the voltage dependence of time-to-ON-state, namely, switching slope (SS), the Cu ionization rate is increased by changing the composition ratio of the AlTi oxide buffer. An Al0.5Ti0.5Oy buffer leads to an extremely steep SS of 56 mV/decade by eliminating metallic Al residue on the Cu electrode. This buffer enables fast (10 ns) and low-voltage (~2 V) programming, as demonstrated in a 1-Mbit array. Cycle endurance (> 103 cycles) with a high ON/OFF resistance ratio (>104) was also confirmed. The steep SS technology is indispensable for conducting bridges used in a low-power nonvolatile field-programmable gate array.
Keywords :
aluminium compounds; buffer layers; copper; field programmable gate arrays; switches; AlTi; Cu; Cu atom switch; Cu electrode; Cu ionization control; low-voltage programming; nonvolatile field-programmable gate array; oxide buffer layer; steep time-to-ON-state versus switching voltage; switching slope; Arrays; Bridge circuits; Electrodes; Field programmable gate arrays; Ionization; Programming; Switches; Atom switch; electrochemical reaction; field-programmable gate array (FPGA); nonvolatile memory; polymer; reconfigurable logic; solid electrolyte; solid electrolyte.;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2015.2443120
