Title :
Improved Switching Voltage Variation of Cu Atom Switch for Nonvolatile Programmable Logic
Author :
Banno, N. ; Tada, Mitsunori ; Sakamoto, Takanori ; Okamoto, K. ; Miyamura, Makoto ; Iguchi, Noriyuki ; Hada, Hiromitsu
Author_Institution :
Low-Power Electron. Assoc. & Project, Tsukuba, Japan
Abstract :
Switching voltage variation of a Cu atom switch (AS) is improved to δ = 9.5 % by adjusting the buffer oxidation state and electrode surface roughness. The complementary AS (CAS) connects two Cu lines at each edge and is composed of a dual-layered electrolyte of oxidized Ti buffer metal/polymer solid electrolyte. A sufficiently oxidized Ti buffer layer prevents both Cu oxidation and Ti diffusion during the fabrication processes, reducing the OFF-state leakage current and making the ON/OFF current ratio high. A dry cleaning process reduces the Cu electrode surface roughness, tightening the set voltage distribution and enabling the use of a low programming voltage, 1.8 V. A large-scale crossbar switch block consisting of CASs has been operated by the improved switches.
Keywords :
copper; laundering; leakage currents; programmable logic devices; titanium; CAS; Cu; OFF-state leakage current; ON-OFF current ratio; Ti; atom switch; buffer layer; buffer metal; buffer oxidation state; complementary AS; dry cleaning process; dual-layered electrolyte; electrode surface roughness; fabrication processes; large-scale crossbar switch block; low programming voltage; polymer solid electrolyte; set voltage distribution; switching voltage variation improvement; voltage 1.8 V; Cleaning; Electrodes; Metals; Oxidation; Plasmas; Surface treatment; Switches; Atom switch (AS); field-programmable gate array (FPGA); nonvolatile memory; polymer; programmable logic device (PLD); reconfigurable logic; solid electrolyte;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2014.2355830
