Low-Loss Matching Network Design for Band-Switchable Multi-Band Power Amplifier


This paper presents a novel design scheme for a bandswitchable multi-band power amplifier (BS-MPA). A key point of the design scheme is configuring multi-section reconfigurable matching networks (MR-MNs) optimally in terms of low loss matching in multiple frequency bands from 0.7 to 2.5 GHz. The MR-MN consists of several matching sections, each of which has a matching block connected to a transmission line via a switch. Power dissipation at an actual on-state switch results in the insertion loss of the MR-MN and depends on how the impedance is transformed by the MR-MN. The proposed design scheme appropriately transforms the impedance of a high power transistor to configure a low loss MR-MN. Numerical analyses show quantitative improvement in the loss using the proposed scheme. A 9-band 3-stage BS-MPA is newly designed following the proposed scheme and fabricated on a multi-layer low temperature co-fired ceramic substrate for compactness. The BS-MPA achieves a gain of over 30 dB, an output power of greater than 33 dBm and a power added efficiency of over 40% at the supply voltage of 4 V in each operating band. key words: power amplifier, reconfigurable, matching network, multiband, switch

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@article{Fukuda2012LowLossMN, title={Low-Loss Matching Network Design for Band-Switchable Multi-Band Power Amplifier}, author={Atsushi Fukuda and Takayuki Furuta and Hiroshi Okazaki and Shoichi Narahashi and Toshio Nojima}, journal={IEICE Transactions}, year={2012}, volume={95-C}, pages={1172-1181} }