Abstract
A closely coupled double-channel (DC) structure realized on an 8-inch GaN-on-Si wafer is utilized to fabricate GaN high-electron-mobility-transistors (HEMTs) with enhanced RF linearity. The strong channel-to-channel coupling from this DC structure enables efficient transport of electrons between the two parallel channels to accommodate balanced carrier concentration and current density between the two channels. Consequently, the nonlinearity of source resistance under high current operations and the external bias dependence of cut-off frequencies could be substantially mitigated, leading to device linearity enhancement. Meanwhile, the DC structure enables simple top gate control that favors a high-yield planar process. Two-tone measurements at 4 GHz show that the DC GaN HEMT delivers an output 3 <sup xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">rd</sup> -order intermodulation point (OIP3) that is improved by 5.2 dB over a single-channel GaN HEMT.
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