Add to ORKGA new MODFET circuit model required for millimeter-wave MMIC design has been developed, since it was found conventional MODFET circuit topology normally used was not able to accurately simulate measurement data above 75 GHz. This new model accounts for distributed effects in the transistor layout and includes a modified intrinsic transistor circuit topology. This circuit model has been experimentally validated by on-wafer S-parameter measurements performed to 120 GHz. This was made possible by the development of two advanced millimeter-wave on-wafer S-parameter measurement systems
Modulation doped FETs (MODFETs) provide low-noise performance in many medium- and high-power microwa...
This thesis deals with the study of innovative solutions for small signal characterization at millim...
The development, modelling and characterization of millimeter-wave semiconductor devices calls for a...
Electron device modeling is a challenging task at millimeter-wave frequencies. In particular, conven...
A general technique for predicting the MODFET large signal performance has been developed. The techn...
The use of wireless data communication continuously increases and is getting more and more important...
An empirical distributed model, based on electromagnetic analysis and standard S-parameter measureme...
This research effort advances millimeter-wave transistor modeling in a current RF/Microwave circuit ...
The high millimeter-wave (mmW) frequency range offers new possibilities for high-resolution imaging ...
fT 90 GHz and fmax 188 GHz have been reported [1,2]. In order to make this promising technology Si...
Electron device modeling is a challenging task at millimeter frequencies. Conventional approaches ba...
The rapid growth of electronics and microsystem applications has always stimulated the semiconductor...
The design of new millimeter wave monolithic integrated circuits needs the availability of accurate ...
77 GHz LNAs and TWAs operating from DC to 80 GHz were fabricated successfully (1),(2) using a highly...
A small signal S-parameter and noise model for the cascode MODFET has been validated up to 120 GHz, ...
Modulation doped FETs (MODFETs) provide low-noise performance in many medium- and high-power microwa...
This thesis deals with the study of innovative solutions for small signal characterization at millim...
The development, modelling and characterization of millimeter-wave semiconductor devices calls for a...
Electron device modeling is a challenging task at millimeter-wave frequencies. In particular, conven...
A general technique for predicting the MODFET large signal performance has been developed. The techn...
The use of wireless data communication continuously increases and is getting more and more important...
An empirical distributed model, based on electromagnetic analysis and standard S-parameter measureme...
This research effort advances millimeter-wave transistor modeling in a current RF/Microwave circuit ...
The high millimeter-wave (mmW) frequency range offers new possibilities for high-resolution imaging ...
fT 90 GHz and fmax 188 GHz have been reported [1,2]. In order to make this promising technology Si...
Electron device modeling is a challenging task at millimeter frequencies. Conventional approaches ba...
The rapid growth of electronics and microsystem applications has always stimulated the semiconductor...
The design of new millimeter wave monolithic integrated circuits needs the availability of accurate ...
77 GHz LNAs and TWAs operating from DC to 80 GHz were fabricated successfully (1),(2) using a highly...
A small signal S-parameter and noise model for the cascode MODFET has been validated up to 120 GHz, ...
Modulation doped FETs (MODFETs) provide low-noise performance in many medium- and high-power microwa...
This thesis deals with the study of innovative solutions for small signal characterization at millim...
The development, modelling and characterization of millimeter-wave semiconductor devices calls for a...