The effect of channel dimensions on the millimeter-wave power performance of a pseudomorphic HEMT

The effect of channel dimensions on the millimeter-wave power performance of a pseudomorphic HEMT

The authors study the effect of channel dimensions on the millimeter-wave power performance of a double-recessed pseudomorphic high electron mobility transistor (PHEMT). The choice of channel recess dimension, specifically the gate to drain n+ ledge separation (Lgd), seemed to have the most pronounc...

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Hauptverfasser: Huang, J.C., Boulais, W., Platzker, A., Kazior, T., Aucoin, L., Shanfield, S., Bertrand, A., Vafiades, M., Niedzwiecki, M.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Capacitance
Delay
Electron mobility
Frequency
HEMTs
Millimeter wave transistors
MMICs
MODFETs
PHEMTs
Power amplifiers
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Zusammenfassung:The authors study the effect of channel dimensions on the millimeter-wave power performance of a double-recessed pseudomorphic high electron mobility transistor (PHEMT). The choice of channel recess dimension, specifically the gate to drain n+ ledge separation (Lgd), seemed to have the most pronounced effect on transistor's power performance. Gate-drain capacitance, output conductance, drain delay (unity current gain frequency) and reverse breakdown voltage were all strong functions of Lgd. With this parameter optimized, a PHEMT exhibited the best power performance yet reported at Ka-band and state-of-the-art performance at Q-band. A Q-band MMIC power amplifier using an existing design was also realized. The two-stage amplifier exhibited 500 mW of ouput power with 7 dB gain and 15% PAE at 40 GHz. This result is the best published performance for a MMIC at this frequency.< >
DOI:10.1109/GAAS.1993.394475