Add to ORKGAn active single-ended 28-6 GHz MMIC frequency doubler based on a commercial GaAs HEMT process is presented. The presented doubler is broadband and delivers high output power. At 5 dBm input power, the doubler delivers 6 dBm output power. The 3 dB bandwidth is between 48 GHz and 60 GHz. Suppression of the input frequency is better than 23 dB at the design frequenc
A balanced MMIC doubler implemented in a metamorphic HEMT technology is described. The multiplier is...
A balanced MMIC doubler implemented in a metamorphic HEMT technology is described. The multiplier is...
This paper presents a frequency doubler operating at G-band that exceeds the maximum oscillation fre...
An active single-ended 28-6 GHz MMIC frequency doubler based on a commercial GaAs HEMT process is pr...
The design and characterization of a 28-56 GHz frequency doubler based on a commercial foundry GaAs ...
The design and characterization of a millimeterwave frequency doubler based on a commercial foundry ...
An active frequency-doubler MMIC achieving an output frequency of 300GHz and its monolithic integrat...
This paper describes the design and the development of a frequency doubler GaAs MMIC for digital rad...
Two H-band frequency multiplier MMICs, a frequency doubler and tripler, are presented. Both circuits...
A coplanar single-ended frequency doubler based on a 100 nm metamorphic HEMT technology is presented...
An active frequency tripler MMIC achieving an output frequency of 330 GHz is presented. With the use...
Paper presents the design and fabrication steps as well as measurement results for a fixed-tuned ful...
Paper presents the design and fabrication steps as well as measurement results for a fixed-tuned ful...
A broadband frequency doubler, based on distributed amplifier techniques, has been designed to opera...
A 220-265 GHz × 6 active frequency multiplier MMIC is presented in this paper. The MMIC was fabricat...
A balanced MMIC doubler implemented in a metamorphic HEMT technology is described. The multiplier is...
A balanced MMIC doubler implemented in a metamorphic HEMT technology is described. The multiplier is...
This paper presents a frequency doubler operating at G-band that exceeds the maximum oscillation fre...
An active single-ended 28-6 GHz MMIC frequency doubler based on a commercial GaAs HEMT process is pr...
The design and characterization of a 28-56 GHz frequency doubler based on a commercial foundry GaAs ...
The design and characterization of a millimeterwave frequency doubler based on a commercial foundry ...
An active frequency-doubler MMIC achieving an output frequency of 300GHz and its monolithic integrat...
This paper describes the design and the development of a frequency doubler GaAs MMIC for digital rad...
Two H-band frequency multiplier MMICs, a frequency doubler and tripler, are presented. Both circuits...
A coplanar single-ended frequency doubler based on a 100 nm metamorphic HEMT technology is presented...
An active frequency tripler MMIC achieving an output frequency of 330 GHz is presented. With the use...
Paper presents the design and fabrication steps as well as measurement results for a fixed-tuned ful...
Paper presents the design and fabrication steps as well as measurement results for a fixed-tuned ful...
A broadband frequency doubler, based on distributed amplifier techniques, has been designed to opera...
A 220-265 GHz × 6 active frequency multiplier MMIC is presented in this paper. The MMIC was fabricat...
A balanced MMIC doubler implemented in a metamorphic HEMT technology is described. The multiplier is...
A balanced MMIC doubler implemented in a metamorphic HEMT technology is described. The multiplier is...
This paper presents a frequency doubler operating at G-band that exceeds the maximum oscillation fre...