Title :
A low power phase change memory using thermally confined TaN/TiN bottom electrode
Author :
Wu, J.Y. ; Breitwisch, M. ; Kim, S. ; Hsu, T.H. ; Cheek, R. ; Du, P.Y. ; Li, J. ; Lai, E.K. ; Zhu, Y. ; Wang, T.Y. ; Cheng, H.Y. ; Schrott, A. ; Joseph, E.A. ; Dasaka, R. ; Raoux, S. ; Lee, M.H. ; Lung, H.L. ; Lam, C.
Author_Institution :
IBM/Macronix PCRAM Joint Project, Macronix Int. Co. Ltd., Hsinchu, Taiwan
Abstract :
Application of phase change memory (PCM) has been limited by the high power required to reset the device (changing from crystalline to amorphous state by melting the phase change material). Utilizing the poor thermal and electrical conductivity of TaN we have designed a simple structure that thermally insulates the bottom electrode and thus drastically reduces the heat loss. A 39nm bottom electrode with a TaN thermal barrier and 1.5nm of TiN conductor has demonstrated 30μA reset current, representing a 90% reduction. The benefit of thermal insulation is understood through electrothermal simulation, and the benefit is demonstrated in a 256Mb test chip. The low reset current also improves the reliability and excellent cycling endurance >;1E9 is observed. This low power device is promising for expanding the application for PCM.
Keywords :
conductors (electric); electrodes; heat losses; integrated circuit reliability; low-power electronics; phase change memories; tantalum compounds; thermal insulation; titanium compounds; TaN-TiN; current 30 muA; electrical conductivity; electrothermal simulation; low power PCM; low power phase change memory; size 1.5 nm; size 39 nm; storage capacity 256 Mbit; thermal barrier; thermal insulation; thermally confined bottom electrode; Electrodes; Heating; Phase change memory; Solids; Thermal resistance; Tin;
Conference_Titel :
Electron Devices Meeting (IEDM), 2011 IEEE International
Conference_Location :
Washington, DC
Print_ISBN :
978-1-4577-0506-9
Electronic_ISBN :
0163-1918
DOI :
10.1109/IEDM.2011.6131479
