Add to ORKGThis paper describes the design of a resistive monolithic Q-band HEMT mixer for optimum conversion loss and IMD performance. Transistor two-sided harmonic measurements across Vds and Vgs revealed the presence of IMD sweet spots that were used to optimize the conversion loss and IMD behavior of the mixer. Minimum conversion loss of 10 dB was measured in the 40.8-49 GHz RF frequency band, showing a reasonable agreement with simulation results. Mixer single-tone IMD was measured and simulated. The minimum output level at 3fIF was less than -102 dBm for an RF input level of -10 dBm and for a bias point near the predicted sweet spot
Abstract — This paper reports a novel MMIC balanced sub-harmonic cold FET mixer for MVDS applicatio...
Monolithic Microwave Integrated Circuits (MMIC's) are important for microwave systems. This thesis p...
A broadband highly linear X-band mixer in AlGaN/GaN monolithic microwave integrated circuit technolo...
This paper describes the design of a resistive monolithic Q-band HEMT mixer for optimum conversion l...
In this paper the design of resistive PHEMT mixers and their applications in fully integrated millim...
This thesis presents theory, device models and circuits related to resistive FET mixers: A wave an...
[[abstract]]This paper proposes a miniature Q-band monolithic subharmonically pumped resistivemixer,...
The channel resistance of a High Electron Mobility Transistor (HEMT) is used as a time variable resi...
A millimeterwave resistive mixer based on a heterostructure field effect transistor (HFET) is descri...
International audienceThis paper reports a novel MMIC balanced sub-harmonic cold FET mixer for MVDS ...
This letter presents the design and characterization of a 220 GHz microstrip monolithic microwave in...
The authors present the first SiGe HEMT mixer integrated circuit. The active mixer stage, operating ...
This paper presents the design and characterization of two resistive mixers integrated with a double...
Mixers are key devices for front-end components in any transceiver of a communication system. The pe...
This paper presents the design and characterization of two resistive mixers integrated with a double...
Abstract — This paper reports a novel MMIC balanced sub-harmonic cold FET mixer for MVDS applicatio...
Monolithic Microwave Integrated Circuits (MMIC's) are important for microwave systems. This thesis p...
A broadband highly linear X-band mixer in AlGaN/GaN monolithic microwave integrated circuit technolo...
This paper describes the design of a resistive monolithic Q-band HEMT mixer for optimum conversion l...
In this paper the design of resistive PHEMT mixers and their applications in fully integrated millim...
This thesis presents theory, device models and circuits related to resistive FET mixers: A wave an...
[[abstract]]This paper proposes a miniature Q-band monolithic subharmonically pumped resistivemixer,...
The channel resistance of a High Electron Mobility Transistor (HEMT) is used as a time variable resi...
A millimeterwave resistive mixer based on a heterostructure field effect transistor (HFET) is descri...
International audienceThis paper reports a novel MMIC balanced sub-harmonic cold FET mixer for MVDS ...
This letter presents the design and characterization of a 220 GHz microstrip monolithic microwave in...
The authors present the first SiGe HEMT mixer integrated circuit. The active mixer stage, operating ...
This paper presents the design and characterization of two resistive mixers integrated with a double...
Mixers are key devices for front-end components in any transceiver of a communication system. The pe...
This paper presents the design and characterization of two resistive mixers integrated with a double...
Abstract — This paper reports a novel MMIC balanced sub-harmonic cold FET mixer for MVDS applicatio...
Monolithic Microwave Integrated Circuits (MMIC's) are important for microwave systems. This thesis p...
A broadband highly linear X-band mixer in AlGaN/GaN monolithic microwave integrated circuit technolo...