Title :
A comparison of floating-body potential in H-gate ultrathin gate oxide partially depleted SOI pMOS and nMOS devices based on 90-nm SOI CMOS process
Author :
Chen, Shiao-Shien ; Huang-Lu, Shiang ; Tang, Tien-Hao
Author_Institution :
Device Eng. Dept., United Microelectron. Corp., Hsinchu, Taiwan
fDate :
4/1/2004 12:00:00 AM
Abstract :
Based on a 90-nm silicon-on-insulator (SOI) CMOS process, the floating-body potential of H-gate partially depleted SOI pMOS and nMOS devices with physical gate oxide of 14 Å is compared. For pMOS devices, because the conduction-band electron (ECB) tunneling barrier is lower (≅3.1 eV), the ECB direct-tunneling current from the n+ poly-gate beside the body terminal will contribute to a large amount of electron charges into the neutral region and dominate the floating-body potential under normal operations. Conversely, owing to the higher valence-band hole tunneling barrier (≅4.5 eV), the floating-body potential of nMOS devices is dominated by the band-to-band-tunneling mechanism at the drain-body junction, not the direct-tunneling mechanism.
Keywords :
CMOS integrated circuits; conduction bands; nanoelectronics; silicon-on-insulator; tunnelling; valence bands; 90 nm; H-gate ultrathin gate oxide; SOI CMOS process; band-to-band-tunneling mechanism; conduction-band electron tunneling barrier; direct-tunneling current; direct-tunneling mechanism; drain-body junction; electron charges; floating-body potential; neutral region; partially depleted SOI nMOS device; partially depleted SOI pMOS device; physical gate oxide; silicon-on-insulator CMOS process; valence-band hole tunneling barrier; CMOS process; Doping; Electrons; MOS devices; Microelectronics; Silicon on insulator technology; Thin film devices; Tunneling; Voltage;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2004.825202
