The practical applications and limitations of four methods for extracting the effective channel length (Leff) and series resistance (Rext) parameters for MOS devices are studied. The methods are: GD (gate drive) using fixed-current Vt or GD(Ids); SBGD (substrate-bias GD) using fixed-current Vt or SBGD (Ids); GD using maximum slope Vt or GD (Gm); and SBGD using maximum slope Vt or SBGD (Gm). Conventional and two LDD (lightly doped drain) structures fabricated in a submicrometer CMOS process are used. The results indicate that all the extraction methods are applicable to both n-channel and p-channel devices, although some are only valid over a small range of gate biases. Inconsistencies in applying Vt calculations to the extraction equations ...
The first part of this article presents the modeling of the long-channel bulk MOSFET as a particular...
A MOSFET model parameters extraction procedure that overcomes the difficulties of separating the eff...
International audienceThis letter demonstrates a new technique to extract the source/drain series re...
In this paper, an improved method for determining the gate-bias dependent source and drain series re...
A simple, empirically-based method is developed for extraction of submicron surface-channel MOSFET’s...
DoctorThis thesis proposes a method of extracting the effective channel length Leff for nano-scale M...
This paper proposes a method of extracting the effective channel length L-eff of nano-scale n-MOSFET...
A novel method is presented to determine the bias-dependent series resistances and intrinsic conduct...
A method is presented to extract the bias-dependent series resistances and intrinsic conductance fac...
Abstract-A new method for determining the intrinsic drain-and-source series resistance and the effec...
In this paper, an improved method for determining the gate-bias dependent source and drain series re...
The effective channel length L-eff and total external series resistance R-TOTEXT of deep submicron l...
We present experimental methods to determine the MOS transistor parameters : effective channel. leng...
International audienceIn this study, a new technique to extract the S/D series resistance (Rsd) from...
International audienceThe length of MOSFET channels is an important circuit design parameter, and th...
The first part of this article presents the modeling of the long-channel bulk MOSFET as a particular...
A MOSFET model parameters extraction procedure that overcomes the difficulties of separating the eff...
International audienceThis letter demonstrates a new technique to extract the source/drain series re...
In this paper, an improved method for determining the gate-bias dependent source and drain series re...
A simple, empirically-based method is developed for extraction of submicron surface-channel MOSFET’s...
DoctorThis thesis proposes a method of extracting the effective channel length Leff for nano-scale M...
This paper proposes a method of extracting the effective channel length L-eff of nano-scale n-MOSFET...
A novel method is presented to determine the bias-dependent series resistances and intrinsic conduct...
A method is presented to extract the bias-dependent series resistances and intrinsic conductance fac...
Abstract-A new method for determining the intrinsic drain-and-source series resistance and the effec...
In this paper, an improved method for determining the gate-bias dependent source and drain series re...
The effective channel length L-eff and total external series resistance R-TOTEXT of deep submicron l...
We present experimental methods to determine the MOS transistor parameters : effective channel. leng...
International audienceIn this study, a new technique to extract the S/D series resistance (Rsd) from...
International audienceThe length of MOSFET channels is an important circuit design parameter, and th...
The first part of this article presents the modeling of the long-channel bulk MOSFET as a particular...
A MOSFET model parameters extraction procedure that overcomes the difficulties of separating the eff...
International audienceThis letter demonstrates a new technique to extract the source/drain series re...