Add to ORKGThe effect of scaling (1 μm to 0.09 μm) on the non-quasi-static (NQS) behaviour of the MOSFET has been studied using process and device simulation. It is shown that under fixed gate (Vgs) and drain (Vds) bias voltages, the NQS transition frequency (fNQS) scales as 1/Leff rather than 1/L2eff due to the velocity saturation effect. However, under the practical scaling guidelines, considering the scaling of supply voltage as well, fNQS shows a turn around effect at the sub 100 nm regime. The relation between unity gain frequency (ft) and fNQS is also evaluated and it is shown that ft and fNQS have similar trends with scaling
Recent progress in wireless communication is sustained through integrated circuit technologies that ...
In recent times, CMOS devices have played an increasing important role in the area of RF-ICs to impl...
We investigate the linearity performance of dual-gate and fully-depleted silicon-on-insulator MOSFET...
Extensive process and device simulations are performed to investigate the nonquasi-static transition...
The frequency dependence of nonquasistatic (NQS) operation in MOS transistors is studied. With the h...
[[abstract]]The measured RF performance of 0.5, 0.25, and 0.18 μm MOSFETs gradually saturates as sca...
We present a new approach to model nonquasi-static (NQS) effects in a MOSFET in a small-signal situa...
Abstract—The impact of scaling on the analog performance of MOS devices at RF frequencies was studie...
Parameters limiting the improvement of high frequency characteristics for deep sub micron MOSFETs (b...
The exploration and modeling of high-frequency MOSFET phenomena are vitally important because MOSFET...
This paper presents a new nonquasi-static (NQS) model for the MOSFET. The model is derived from phys...
Scaling has been pivotal in the success of the Moore's law. Using scaling techniques to improve the ...
This paper focuses on the extraction of an accurate small-signal equivalent circuit for metal-oxide-...
The state-of-the-art RF and millimeterwave circuits design requires accurate prediction of the nonqu...
The quasi-saturation (QS) effect in a power MOSFET has been discovered several decades ago. As the f...
Recent progress in wireless communication is sustained through integrated circuit technologies that ...
In recent times, CMOS devices have played an increasing important role in the area of RF-ICs to impl...
We investigate the linearity performance of dual-gate and fully-depleted silicon-on-insulator MOSFET...
Extensive process and device simulations are performed to investigate the nonquasi-static transition...
The frequency dependence of nonquasistatic (NQS) operation in MOS transistors is studied. With the h...
[[abstract]]The measured RF performance of 0.5, 0.25, and 0.18 μm MOSFETs gradually saturates as sca...
We present a new approach to model nonquasi-static (NQS) effects in a MOSFET in a small-signal situa...
Abstract—The impact of scaling on the analog performance of MOS devices at RF frequencies was studie...
Parameters limiting the improvement of high frequency characteristics for deep sub micron MOSFETs (b...
The exploration and modeling of high-frequency MOSFET phenomena are vitally important because MOSFET...
This paper presents a new nonquasi-static (NQS) model for the MOSFET. The model is derived from phys...
Scaling has been pivotal in the success of the Moore's law. Using scaling techniques to improve the ...
This paper focuses on the extraction of an accurate small-signal equivalent circuit for metal-oxide-...
The state-of-the-art RF and millimeterwave circuits design requires accurate prediction of the nonqu...
The quasi-saturation (QS) effect in a power MOSFET has been discovered several decades ago. As the f...
Recent progress in wireless communication is sustained through integrated circuit technologies that ...
In recent times, CMOS devices have played an increasing important role in the area of RF-ICs to impl...
We investigate the linearity performance of dual-gate and fully-depleted silicon-on-insulator MOSFET...