Quasi-double gate regime to boost UTBB SOI MOSFET performance in analog and sleep transistor applications

► Quasi-double gate mode (simultaneous top and back-gate sweep Vbg=k·Vg) in UTBB MOSFET. ► VTh, S, DIBL reduction at Ioff=const in QDG is beneficial for low-power applications. ► Improved Id, Gm, VEA, DIBL, Av in QDG are attractive for analog/digital applications. ► QDG mode is exploited for practic...

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Bibliographic Details
Published in:Solid-state electronics 2013-06, Vol.84, p.28-37
Main Authors: Kilchytska, V., Bol, D., De Vos, J., Andrieu, F., Flandre, D.
Format: Article
Language:English
Subjects:
Analog figures of merit
Applied sciences
Design. Technologies. Operation analysis. Testing
Digital figures of merit
Electronic equipment and fabrication. Passive components, printed wiring boards, connectics
Electronics
Exact sciences and technology
Ground plane
Integrated circuits
Integrated circuits by function (including memories and processors)
Power gating
Quasi double gate mode
Semiconductor electronics. Microelectronics. Optoelectronics. Solid state devices
Transistors
Ultra-thin body FD SOI MOSFETs
Ultra-thin BOX
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Summary:► Quasi-double gate mode (simultaneous top and back-gate sweep Vbg=k·Vg) in UTBB MOSFET. ► VTh, S, DIBL reduction at Ioff=const in QDG is beneficial for low-power applications. ► Improved Id, Gm, VEA, DIBL, Av in QDG are attractive for analog/digital applications. ► QDG mode is exploited for practical use-case to boost sleep transistor performance. ► Efficiency of QDG mode sleep transistor is suggested to be magnified in further nodes. This paper investigates both electrostatic control improvement and performance enhancement of UTBB SOI MOSFETs obtained in quasi-double-gate (QDG) regime (i.e. simultaneously biasing top- and back-gate (substrate or ground plane) as Vbg=k·Vg) as a strong function of k-multiplication factor, when compared to a standard single-gate mode. Improved performance (in terms of transconductance, drive current and early voltage) in QDG mode combined with lowered DIBL and enhanced gain are of interest for high-precision low-frequency analog applications. QDG mode is demonstrated to allow threshold voltage tuning, subthreshold swing reduction and on-current enhancement without off-state current degradation, thus of interest for digital applications. The unique feature of QDG mode is finally exploited to boost the performances of the sleep transistor in the practical use case of a power-gated processor. About 30% reduction of the leakage in stand-by mode is achieved at nominal Vg with a Vbg of 3V, which can be generated at marginal area/power overheads with an on-chip charge pump with an architecture proposed in this paper.
ISSN:0038-1101
1879-2405
DOI:10.1016/j.sse.2013.02.018