A small signal S-parameter and noise model for the cascode MODFET has been validated up to 120 GHz, allowing predictable monolithic microwave integrated circuit (MMIC) design up to W-band. The potential of coplanar waveguide technology to build compact, high performance system modules is demonstrated by means of passive and active MMIC components. The realized passive structures comprise a Wilkinson combiner/divider and a capacitively loaded ultra miniature branch line coupler. For both building blocks, very good agreement between the measured and modeled data is achieved up to 120 GHz. Based on the accurate design database, two versions of compact integrated amplifiers utilizing devices for application in the 90-120 GHz frequency range wer...
This thesis focuses on the design and characterization of monolithic active and passive components, ...
A compact H-band (220-325 GHz) submillimeter-wave monolithic integrated circuit (S-MMIC) amplifier h...
Recent advances in printed circuit and packaging technology of microwave and millimeter wave circuit...
This paper presents coplanar millimeter-wave monolithic integrated circuits with high performance an...
Reproducible pseudomorphic MODFET MMIC amplifiers with 18.5 dB gain at 51 GHz were realized in copla...
Several millimeter-wave MMICs were fabricated successfully using 0.16 mym pseudomorphic MODFET techn...
Fully integrated W-band 94 GHz heterodyne receivers in coplanar 0.15 mu m AlGaAs/InGaAs/GaAs PM-HEMT...
Using three dimensional (3-D) electromagnetic (EM) field simulations, a fully scalable grounded copl...
A broadband high-gain amplifier MMIC (monolithic microwave integrated circuit) operating over the fu...
This paper summarizes the design and measured performance of a MMIC power amplifier for W-band. The ...
Wireless communication is revolutionizing global business. As the interactive personal communication...
This thesis focuses on integrated circuits operating at millimeter-wave frequencies in CMOS technolo...
A compact E-band amplifier circuit has been developed for use in ultra-high capacity point-to-point ...
A set of W-band power amplifier (PA) modules using monolithic microwave integrated circuits (MMICs) ...
Despite the advantages of coplanar waveguide technology for high performance and low cost MMIC appli...
This thesis focuses on the design and characterization of monolithic active and passive components, ...
A compact H-band (220-325 GHz) submillimeter-wave monolithic integrated circuit (S-MMIC) amplifier h...
Recent advances in printed circuit and packaging technology of microwave and millimeter wave circuit...
This paper presents coplanar millimeter-wave monolithic integrated circuits with high performance an...
Reproducible pseudomorphic MODFET MMIC amplifiers with 18.5 dB gain at 51 GHz were realized in copla...
Several millimeter-wave MMICs were fabricated successfully using 0.16 mym pseudomorphic MODFET techn...
Fully integrated W-band 94 GHz heterodyne receivers in coplanar 0.15 mu m AlGaAs/InGaAs/GaAs PM-HEMT...
Using three dimensional (3-D) electromagnetic (EM) field simulations, a fully scalable grounded copl...
A broadband high-gain amplifier MMIC (monolithic microwave integrated circuit) operating over the fu...
This paper summarizes the design and measured performance of a MMIC power amplifier for W-band. The ...
Wireless communication is revolutionizing global business. As the interactive personal communication...
This thesis focuses on integrated circuits operating at millimeter-wave frequencies in CMOS technolo...
A compact E-band amplifier circuit has been developed for use in ultra-high capacity point-to-point ...
A set of W-band power amplifier (PA) modules using monolithic microwave integrated circuits (MMICs) ...
Despite the advantages of coplanar waveguide technology for high performance and low cost MMIC appli...
This thesis focuses on the design and characterization of monolithic active and passive components, ...
A compact H-band (220-325 GHz) submillimeter-wave monolithic integrated circuit (S-MMIC) amplifier h...
Recent advances in printed circuit and packaging technology of microwave and millimeter wave circuit...