I. Introduction

Continuous scaling of MOSFETs to the sub-micron range has considerably increased the performance of integrated circuits. Some of the results of miniaturisation are higher level of integration in the digital CMOS technology, implementation of the mixed mode (analogue/digital) circuits on the same chip, MOS implementation in analogue RF circuits, applications where a dual-gate MOSFET (DGMOSFET) is of interest. In order to fully understand the potential of new MOSFET circuits with DGMOSFETs in analogue and mixed-mode applications, limitations arising from noise must be examined. Generally, noise determines fundamental limits on circuit performance and plays a significant role in analogue circuit design. Moreover, noise increases oscillator phase noise in RF applications [1] and the DC offset level in the baseband part of wireless applications. Therefore, in order to optimize noise performance in up-to-date applications, noise models that describe experimental behaviour well, are required.