Comprehensive characterization of a high-performance double heterojunction InGaAs pHEMT for linear power-efficient amplifiers applications
Article
Sultana, S, Naima, J, Alam, MS et al. (2024). Comprehensive characterization of a high-performance double heterojunction InGaAs pHEMT for linear power-efficient amplifiers applications
. INTERNATIONAL JOURNAL OF NUMERICAL MODELLING-ELECTRONIC NETWORKS DEVICES AND FIELDS, 37(4), 10.1002/jnm.3277
Sultana, S, Naima, J, Alam, MS et al. (2024). Comprehensive characterization of a high-performance double heterojunction InGaAs pHEMT for linear power-efficient amplifiers applications
. INTERNATIONAL JOURNAL OF NUMERICAL MODELLING-ELECTRONIC NETWORKS DEVICES AND FIELDS, 37(4), 10.1002/jnm.3277
This article centers its attention on the phenomenon of electrostatics, linearity, analogue, and RF performance of a 0.5 μm × (2 × 100) μm double heterojunction AlGaAs/InGaAs/GaAs pHEMT using on-wafer DC and RF measurements up to 50 GHz. With a high ION/IOFF ratio (1.21 × 107) and low subthreshold slope (72.7 mV/dec), a flat and high transconductance over a wide range of Vgs has been achieved for the tested device. Furthermore, the input intercept and higher-order voltage intercept point both attained large values with low intermodulation and harmonic distortion. Regarding RF parameters, the intrinsic gain has been achieved up to 28 dB. The GBW up to 750 GHz was attained, with the highest fT and fmax values being 24.5 GHz and 99.3 GHz, respectively. Since the device has very low intrinsic capacitance, parameters like TFP, GFP, and GTFP also showed excellent results. The high intrinsic gain and TGF indicate ample potential of the device for use as an amplifier. Investigating the parameters reveals the device to have very good linearity and amplifying capability.