Title :
Low-pass distributed RC filter using an MOS transistor with near zero phase shift at high frequencies
Author_Institution :
AT&T Bell Lab., Murray Hill, NJ, USA
fDate :
8/1/1989 12:00:00 AM
Abstract :
The signal transfer properties of an MOS transistor biased with zero drain-to-source voltage, under a four-terminal excitation, are examined. Analytical expressions for the admittance matrix are developed. These results are applied to the study of a distributed RC low-pass filter with phase shift recovery at high frequencies. Calculations for the filter gain and phase characteristics, including the transistor parasitics, are presented. This filter has been used successfully in the design of self-biasing high-gain gigahertz-band amplifiers. The analytical expressions can be easily incorporated in a circuit simulation program to accurately model distributed RC effects
Keywords :
active filters; insulated gate field effect transistors; low-pass filters; MOS transistor; admittance matrix; circuit simulation program; distributed RC low-pass filter; filter gain; four-terminal excitation; high-gain gigahertz-band amplifiers; near zero phase shift; phase characteristics; phase shift recovery; signal transfer properties; transistor parasitics; zero drain-to-source voltage; Admittance; Boundary conditions; Circuit simulation; Circuits and systems; FETs; Frequency; Low pass filters; MOSFETs; Remuneration; Voltage;
Journal_Title :
Circuits and Systems, IEEE Transactions on
