Title :
A high performance 180 nm nonvolatile memory cell using phase change Sn-Doped Ge2Sb2Te5 chalcogenide
Author :
Chen, Y.C. ; Chen, H.P. ; Liao, Y.Y. ; Lin, H.T. ; Chou, L.H. ; Kuo, J.S. ; Chen, P.H. ; Lung, S.L. ; Liu, Rich
Author_Institution :
Macronix Int. Co. Ltd., Hsin Chu, Taiwan
Abstract :
Chalcogenide phase change memory has high potential to be the next generation memory, because it is a nonvolatile memory possessing high programming speed, low programming voltage, high sensing margin, high scalability, low energy consumption and long cycle duration. Sn doped Ge2Sb2Te5 chalcogenide device is investigated in this paper. The conductivity of Sn doped Ge2Sb2Te5 is affected by the ambient temperature in a semiconductor fashion and the activation energy for conductivity for crystalline state and amorphous state are 0.073 eV and 0.41 eV, respectively. Computer simulation reveals that the hot zone of the device is inside of the chalcogenide. Electrical testing indicates that programming time of the chalcogenide device is less than 100 ns, and the energy required for 180 nm device is less than 400 pJ. More than 100 cycles was achieved with a set/reset resistance ratio more than 300%.
Keywords :
MOS memory circuits; antimony compounds; chalcogenide glasses; digital simulation; electrical conductivity; elemental semiconductors; germanium compounds; power consumption; semiconductor device models; semiconductor thin films; tellurium compounds; tin; 180 nm; Ge2Sb2Te5 :Sn; amorphous state; chalcogenide device; chalcogenide phase change memory; computer simulation; conductivity; crystalline state; electrical testing; energy consumption; nonvolatile memory cell; semiconductor fashion; set/reset resistance ratio; Conductivity; Crystallization; Energy consumption; Low voltage; Nonvolatile memory; Phase change memory; Scalability; Tellurium; Temperature; Tin;
Conference_Titel :
VLSI Technology, Systems, and Applications, 2003 International Symposium on
Print_ISBN :
0-7803-7765-6
DOI :
10.1109/VTSA.2003.1252544
