X-band GaN-HEMT LNA performance versus robustness trade-off

In this paper design, fabrication and test of three X-Band robust LNA MMICs in microstrip GaN technology are presented to better understand the key aspects of performance versus robustness trade-off for said components. In particular LNAs with different number of amplification stages, input device g...

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Hauptverfasser:	Bettidi, A., Corsaro, F., Cetronio, A., Nanni, A., Peroni, M., Romanini, P.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Fabrication Frequency Gain Gallium nitride Microstrip components MMICs Noise measurement Robustness Testing Topology
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creator	Bettidi, A. Corsaro, F. Cetronio, A. Nanni, A. Peroni, M. Romanini, P.
description	In this paper design, fabrication and test of three X-Band robust LNA MMICs in microstrip GaN technology are presented to better understand the key aspects of performance versus robustness trade-off for said components. In particular LNAs with different number of amplification stages, input device gate peripheries and topologies have been evaluated with the objective of achieving in the 8-11 GHz frequency range a NF better than 2.5dB, associated gain of circa 20 dB and overdrive power survivability better than 38 dBm. On-wafer measurements of LNA performance and robustness have been carried out in order to evaluate the incident power failure mechanisms and to individuate the best design approach for optimum performance/robustness trade-off. With one of the three LNA designs a NF < 2dB, G ass of 20 dB and P 1dB > 15dBm has been achieved in the entire 8-11GHz bandwidth. Said MMIC can withstand a 39dBm CW input power without any observable performance degradation.
doi_str_mv	10.23919/EUMC.2009.5296145
format	Conference Proceeding
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subjects	Fabrication Frequency Gain Gallium nitride Microstrip components MMICs Noise measurement Robustness Testing Topology
title	X-band GaN-HEMT LNA performance versus robustness trade-off
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