Title :
Impact of pad and gate parasitics on small-signal and noise modeling of 0.35 μm gate length MOS transistors
Author :
Sakalas, Paulius ; Zirath, Herbert G. ; Litwin, Andrej ; Schröter, Michael ; Matulionis, Arvydas
Author_Institution :
Electronische Bauelemente und Integrierte Schaltungen, IEE, Dresden, Germany
fDate :
5/1/2002 12:00:00 AM
Abstract :
Microwave noise performance of p and n-type MOSFETs fabricated on the. same wafer was investigated in order to study the effect of the pad and gate parasitic circuit elements on noise performance. At low drain currents, the gate parasitic circuit was involved in the modeling to explain the observed kinks and loops in the s-parameters. Simulation of the noise parameters for p and n-type devices, measured in the 2-26 GHz frequency range, was performed by using extracted small-signal models of the transistor in connection with parasitic pad and gate circuits. Under the bias far from the optimal one, the additional parasitic inductance in the gate circuit was found responsible for the degradation of the noise performance by exhibiting peaks in the noise parameters
Keywords :
MOSFET; S-parameters; inductance; microwave field effect transistors; semiconductor device models; semiconductor device noise; 0.35 μm gate length MOS transistors; 0.35 micron; 2 to 26 GHz; de-embedding procedure; gate parasitic circuit elements; kinks; microwave noise performance; n-type MOSFETs; noise performance degradation; p-type MOSFETs; pad parasitic circuit elements; parasitic gate circuits; parasitic inductance; parasitic pad circuits; scattering parameters; small-signal model; Circuit noise; Circuit simulation; Frequency measurement; Inductance; MOSFETs; Microwave circuits; Noise measurement; Performance evaluation; Scattering parameters; Semiconductor device modeling;
Journal_Title :
Electron Devices, IEEE Transactions on
