Add to ORKGnone4This paper describes the design and implementation of a C-band MMIC VCO developed in the framework of activities oriented to the improvement of products for space applications. The circuit exploits a single device with a microstrip integrated resonator coupled with varactors. The exploited technology is a space-qualified GaAs 0.25-um pHEMT process. The MMIC exhibits 350-MHz bandwidth at 7.3 GHz, with 14 dBm output power and -86 dBc/Hz single side-band phase noise at 100 kHz from the carrier. Measured performances are in good agreement with simulations. The active device adopted for the design was characterized in terms of both low-frequency noise in quiescent bias-dependent operation and its up-conversion into phase noise under large-s...
An empirical nonlinear noise model for bipolar transistors, deriving from the charge-controlled nonl...
A Ka-bond MMIC VCO utilizing 0.15-mum T-gate GaAs P-HEMT technology is presented. The VCO exhibits a...
An empirical non-linear noise model for bipolar transistors, deriving from the Charge-Controlled No...
In this paper, a new cyclostationary nonlinear low-frequency (LF) noise model for field-effect micro...
none4noThis work presents the design of three low-phase-noise monolithic voltage controlled oscillat...
In the paper the advantages of the push-push oscillator topology in terms of phase noise performance...
In the paper the advantages of the push-push oscillator topology in terms of phase noise performance...
The thesis presents two major concerns in the design of low phase-noise MMIC VCOs; the active device...
A balanced VCO-MMIC based on a coupled Colpitt topology with a fully integrated tank is presented....
Abstract — A W-band voltage control oscillator (VCO) using 0.1- m AlGaAs/InGaAs/GaAs PHEMT MMIC tec...
ABSTRACT — A balanced VCO-MMIC based on a coupled Colpitt topology with a fully integrated tank is ...
This paper focuses on two modelling aspects to improve low phase noise MMIC oscillator design. As th...
This paper presents the design and performance of a multi frequency generator MMIC to be used in tra...
This thesis presents results on metamorphic and pseudomorpic GaAs HEMT based Voltage Controlled Osci...
Abstract—The letter highlights the importance of modelling the phase noise of an oscillator using th...
An empirical nonlinear noise model for bipolar transistors, deriving from the charge-controlled nonl...
A Ka-bond MMIC VCO utilizing 0.15-mum T-gate GaAs P-HEMT technology is presented. The VCO exhibits a...
An empirical non-linear noise model for bipolar transistors, deriving from the Charge-Controlled No...
In this paper, a new cyclostationary nonlinear low-frequency (LF) noise model for field-effect micro...
none4noThis work presents the design of three low-phase-noise monolithic voltage controlled oscillat...
In the paper the advantages of the push-push oscillator topology in terms of phase noise performance...
In the paper the advantages of the push-push oscillator topology in terms of phase noise performance...
The thesis presents two major concerns in the design of low phase-noise MMIC VCOs; the active device...
A balanced VCO-MMIC based on a coupled Colpitt topology with a fully integrated tank is presented....
Abstract — A W-band voltage control oscillator (VCO) using 0.1- m AlGaAs/InGaAs/GaAs PHEMT MMIC tec...
ABSTRACT — A balanced VCO-MMIC based on a coupled Colpitt topology with a fully integrated tank is ...
This paper focuses on two modelling aspects to improve low phase noise MMIC oscillator design. As th...
This paper presents the design and performance of a multi frequency generator MMIC to be used in tra...
This thesis presents results on metamorphic and pseudomorpic GaAs HEMT based Voltage Controlled Osci...
Abstract—The letter highlights the importance of modelling the phase noise of an oscillator using th...
An empirical nonlinear noise model for bipolar transistors, deriving from the charge-controlled nonl...
A Ka-bond MMIC VCO utilizing 0.15-mum T-gate GaAs P-HEMT technology is presented. The VCO exhibits a...
An empirical non-linear noise model for bipolar transistors, deriving from the Charge-Controlled No...