A Highly Efficient Linear Multimode Multiband Class-J Power Amplifier Utilizing GaAs HBT for Handset Modules

Abstract

This article presents the design techniques for a multimode multiband (MMMB) linear RF power amplifier (PA) with a high efficiency, suitable for wireless handset multichip modules. The PA operates with high efficiency at the saturated output power and maintains high linearity with an enhanced efficiency at the back-off power. It is, thus, able to operate in multimodes (saturated/linear) and covers multibands (814-915 MHz; bands: 5/8/18/19/20/26) without reconfiguration, representing a novel solution for the converged PA module architecture to reduce the number of PAs within the handset. A new technique to the handset industry, class-J, is adopted to improve the efficiency while maintaining the linearity. To the best of our knowledge, this work provides the first implementation of the class-J using the GaAs heterojunction bipolar transistor (HBT) technology in the multichip PA modules. The utilization of the GaAs HBT adds more degrees of freedom to enhance the linearity. A PA module, consisting of a GaAs HBT die mounted on a four-layer laminate, is designed. The die is fabricated using the flip-chip technology. The output matching network and the control/bias network are fabricated on the laminate using the printed inductors and the surface-mount device (SMD) capacitors. The results validate the design techniques, showing 2G power added efficiency (PAE) 62%, 2.5G error vector magnitude (EVM) ≤ 3%, and 3G adjacent channel leakage ratio (ACLR) of 5MHz ≤ -35 dBc. The design achieves a higher PAE than other reported reconfigurable and complex MMMB PAs, with comparable linearity.