A SMT (SurfaceMountTechnology) MMIC(Monolithic Microwave Integrated Circuit) frequency multiplier(x2) and power amplifier has been designed for DBS(Direct Broadcast Satellite)and other commercial applications. Using PHEMT technology this MMIC takes a 15GHz input signal and passes it through a harmonic frequency doubler and then through three stages of power amplification at 30GHz. This MMIC provides an out put power of 21dBm, fundamental suppression of45dBc and is stable across all voltages and temperatures. This single MMIC SMT solution frequency multiplier and power amplifier is unique compared to any known or published data
The design and performance of a miniaturized broadband up-converter MMIC is presented. The circuit i...
The design and characterization of a 28-56 GHz frequency doubler based on a commercial foundry GaAs ...
A 220-265 GHz × 6 active frequency multiplier MMIC is presented in this paper. The MMIC was fabricat...
Several MMIC downconverters have been developed for use in experimental 30/20 GHz Satellite Personal...
We report on the design and performance of frequency multiplier submillimeter-wave monolithic integr...
This paper describes a novel power amplifier based on Enhancement mode PHEMT (E-PEHMT) suitable fo...
Recent advances in printed circuit and packaging technology of microwave and millimeter wave circuit...
This paper proposes a design of 0.15μm Monolithic Microwave Integrated Circuit (MMIC) power amplifie...
This paper presents a single-chip 60 GHz to 120 GHz frequency multiplier chain based on 0.1 ?m GaAs ...
A coplanar single-ended frequency doubler based on a 100 nm metamorphic HEMT technology is presented...
This paper presents a single-chip 60 GHz to 120 GHz frequency multiplier chain based on 0.1 µm GaAs ...
A balanced MMIC doubler implemented in a metamorphic HEMT technology is described. The multiplier is...
An active single-ended 28-6 GHz MMIC frequency doubler based on a commercial GaAs HEMT process is pr...
A compact broadband balanced frequency doubler with a novel integrated balanced FET is presented. Th...
Abstract—An X-band MMIC power amplifier for radar application is developed using 0.25-μm gate length...
The design and performance of a miniaturized broadband up-converter MMIC is presented. The circuit i...
The design and characterization of a 28-56 GHz frequency doubler based on a commercial foundry GaAs ...
A 220-265 GHz × 6 active frequency multiplier MMIC is presented in this paper. The MMIC was fabricat...
Several MMIC downconverters have been developed for use in experimental 30/20 GHz Satellite Personal...
We report on the design and performance of frequency multiplier submillimeter-wave monolithic integr...
This paper describes a novel power amplifier based on Enhancement mode PHEMT (E-PEHMT) suitable fo...
Recent advances in printed circuit and packaging technology of microwave and millimeter wave circuit...
This paper proposes a design of 0.15μm Monolithic Microwave Integrated Circuit (MMIC) power amplifie...
This paper presents a single-chip 60 GHz to 120 GHz frequency multiplier chain based on 0.1 ?m GaAs ...
A coplanar single-ended frequency doubler based on a 100 nm metamorphic HEMT technology is presented...
This paper presents a single-chip 60 GHz to 120 GHz frequency multiplier chain based on 0.1 µm GaAs ...
A balanced MMIC doubler implemented in a metamorphic HEMT technology is described. The multiplier is...
An active single-ended 28-6 GHz MMIC frequency doubler based on a commercial GaAs HEMT process is pr...
A compact broadband balanced frequency doubler with a novel integrated balanced FET is presented. Th...
Abstract—An X-band MMIC power amplifier for radar application is developed using 0.25-μm gate length...
The design and performance of a miniaturized broadband up-converter MMIC is presented. The circuit i...
The design and characterization of a 28-56 GHz frequency doubler based on a commercial foundry GaAs ...
A 220-265 GHz × 6 active frequency multiplier MMIC is presented in this paper. The MMIC was fabricat...