Journal
INTERNATIONAL JOURNAL OF RF AND MICROWAVE COMPUTER-AIDED ENGINEERING
Volume 30, Issue 10, Pages -Publisher
WILEY
DOI: 10.1002/mmce.22379
Keywords
gallium arsenide; high temperature; microwave applications; multilayer 3-D MMIC technology; pHEMT; scattering parameter measurements
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This paper is focused on studying the behavior of a GaAs pseudomorphic high electron mobility transistors (pHEMT) with respect to the temperature. The tested pHEMT is realized using the multilayer three-dimensional (3-D) monolithic microwave integrated circuit (MMIC) technology. The analysis is based on temperature-dependent on-wafer measurements carried out from 298 K to 373 K. The experiments consist of DC characteristics and scattering parameters in the broad frequency range from 45 MHz to 40 GHz. The effect of the temperature on the measured transistor performance is analyzed in detail and then, to gain a better insight and understanding of the device behavior, the achieved measurements are used for extraction and validation of a small-signal equivalent-circuit model for different temperature conditions. This study shows that, by heating the studied device, the observed performance variations depend remarkably on the selected bias condition. In particular, the output current and transconductance are degraded at higher gate-source voltage and improved as the transistor is driven towards the pinch-off. This is due to the counterbalancing of temperature-dependent effects contributing in opposite ways to the resultant behavior of the transistor. Therefore, depending on the given application, an appropriate selection of the bias and temperature conditions is essential to guarantee adequate transistor performance.
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