Title :
A 65nm node strained SOI technology with slim spacer
Author :
Fu-Liang Yang ; Chien-Chao Huang ; Hou-Yu Chen ; Jhon-Jhy Liaw ; Tang-Xuan Chung ; Hung-Wei Chen ; Chang-Yun Chang ; Cheng Chuan Huang ; Kuang-Hsin Chen ; Di-Hong Lee ; Hsun-Chih Tsao ; Cheng-Kuo Wen ; Shui-Ming Cheng ; Yi-Ming Sheu ; Ke-Wei Su ; Chi-Chun
Author_Institution :
Taiwan Semicond. Manuf. Co., Hsin-Chu, Taiwan
Abstract :
A 65 nm node strained SOI technology with high performance is demonstrated, providing drive currents of 1015 and 500 /spl mu/A//spl mu/m for N-FET and P-FET, respectively, at an off-state leakage of 40 nA//spl mu/m using 1 V operation. The technology employs an aggressively scaled slim spacer of 30 nm width to amplify stress benefits for performance improvement, and to reduce by 10-20 % the layout area for SRAM-cell-like circuits, while maintaining excellent hot carrier immunity and well-controlled short-channel effects. For the first time, we demonstrate that FinFET devices, implicitly implemented in this technology, offer a 8-15 % higher inverter speed compared to planar SOI devices at the same drive current.
Keywords :
MOSFET; SRAM chips; silicon-on-insulator; 1 V; 30 nm; 65 nm; FinFET devices; N-FET; P-FET; SRAM-cell-like circuits; hot carrier immunity; inverter speed; off-state leakage; short-channel effects; slim SOI spacer; strained SOI technology; stress benefits; CMOS technology; Capacitive sensors; Circuits; FinFETs; Immune system; Inverters; Solid modeling; Space technology; Stress; Transistors;
Conference_Titel :
Electron Devices Meeting, 2003. IEDM '03 Technical Digest. IEEE International
Conference_Location :
Washington, DC, USA
Print_ISBN :
0-7803-7872-5
DOI :
10.1109/IEDM.2003.1269359
