Add to ORKGThe first AlGaN/GaN HEMT based differential oscillator is reported. The MMIC oscillates at a frequency of 4.16 GHz and provides 22.9 dBm of power from one side at a biasing of Vgs -1 V and Vds 20 V. The HEMTs each have a 0.7 um x 200 um gate. The second harmonic is 45 dB below the carrier and the third harmonic is more than 70 dB below the carrier. To our knowledge, this is the best reported harmonic performance for a GaN oscillator. The oscillator efficiency is between 4% and 9.4% depending on bias. The measured phase noise is -86.3 dBc and -115.7 dBc at offsets of 100 kHz and 1 MHz respectively. The phase noise at a 1 MHz offset is similar to the noise performance of FET based differential oscillators in other technologies
Abstract A high‐temperature 2.1 GHz oscillator based on a AlGaN/GaN high electron mobility transisto...
This paper presents a MMIC GaN HEMT Voltage- Controlled-Oscillator (VCO). The VCO is tunable between...
This paper reports on an experimental analysis of phase noise in a tuned-input/tuned-output oscillat...
© The Institution of Engineering and Technology 2015. To investigate the effects of both the drain a...
The thesis presents low frequency noise (LFN) characterization of Gallium Nitride (GaN) High Electro...
A novel ultra-low phase noise and high power integrated oscillator is presented in this letter. The ...
A novel ultra-low phase noise and high power integrated oscillator is presented in this letter. The ...
The thesis considers design of low phase noise oscillators, given the boundary condition of the used...
This letter presents guidelines for the design of low phase noise oscillators in GaN high electron m...
This paper reports on a negative resistance 15 GHz GaN HEMT oscillator using a quasi-lumped integrat...
This letter describes the design and the realization of a fixed-frequency oscillator and voltage-con...
This paper presents an X-band balanced Colpitts oscillator in GaN HEMT technology and a method to ca...
This paper reports on an ultra-low phase-noise oscillator based on a GaN HEMT monolithic microwave i...
The thesis considers the design and optimization of oscillators targeting low phase noise, given bou...
Newly developed GaN technology offers great potential for military and space, as well as some high ...
Abstract A high‐temperature 2.1 GHz oscillator based on a AlGaN/GaN high electron mobility transisto...
This paper presents a MMIC GaN HEMT Voltage- Controlled-Oscillator (VCO). The VCO is tunable between...
This paper reports on an experimental analysis of phase noise in a tuned-input/tuned-output oscillat...
© The Institution of Engineering and Technology 2015. To investigate the effects of both the drain a...
The thesis presents low frequency noise (LFN) characterization of Gallium Nitride (GaN) High Electro...
A novel ultra-low phase noise and high power integrated oscillator is presented in this letter. The ...
A novel ultra-low phase noise and high power integrated oscillator is presented in this letter. The ...
The thesis considers design of low phase noise oscillators, given the boundary condition of the used...
This letter presents guidelines for the design of low phase noise oscillators in GaN high electron m...
This paper reports on a negative resistance 15 GHz GaN HEMT oscillator using a quasi-lumped integrat...
This letter describes the design and the realization of a fixed-frequency oscillator and voltage-con...
This paper presents an X-band balanced Colpitts oscillator in GaN HEMT technology and a method to ca...
This paper reports on an ultra-low phase-noise oscillator based on a GaN HEMT monolithic microwave i...
The thesis considers the design and optimization of oscillators targeting low phase noise, given bou...
Newly developed GaN technology offers great potential for military and space, as well as some high ...
Abstract A high‐temperature 2.1 GHz oscillator based on a AlGaN/GaN high electron mobility transisto...
This paper presents a MMIC GaN HEMT Voltage- Controlled-Oscillator (VCO). The VCO is tunable between...
This paper reports on an experimental analysis of phase noise in a tuned-input/tuned-output oscillat...