Litcius/Paper detail

Multi-port Active Load Pulling for mm-Wave 5G Power Amplifiers: Bandwidth, Back-Off Efficiency, and VSWR Tolerance

Chandrakanth Reddy Chappidi, Tushar Sharma, Kaushik Sengupta

2020IEEE Transactions on Microwave Theory and Techniques66 citationsDOIOpen Access PDF

Abstract

The opening of spectral bands in the millimeter-wave (mm-Wave) spectrum from 26 GHz and extending up to the E-band poses new challenges to the power amplifier (PA) design for spectrally agile radios. They are expected to operate with high energy efficiency at peak and back-off levels to process signals with high peak-to-average power ratio (-.10 dB), while being able to maintain their performance across a wide range of 5G bands. In addition, the PAs can experience strong load impedance mismatch conditions in a user equipment (TIE) that pose additional challenges in handling strong voltage-standing-wave-ratio (VSWR) events. In this article, we present a systematic approach to exploit active load pulling in a multi-port network that synthesizes optimal impedance conditions for 1) broadband peak and back-off operation and 2) mitigating VSWR events at peak power. As proofs of concept, we present two PAs in 65-nm bulk CMOS process. The first chip demonstrates Psat between 16.3 and 19.3 dBm across 37-73 GHz, with an improvement in the output drain efficiency (ηout) of up to 3.2×/5.8× at 6-/9.6-dB power back-off (PBO) across the frequency range compared to class-A operation. The second chip achieves 26-42-GHz Psat, ...1 dB bandwidth with Psat > 19 dBm and PAEpeak > 20% across all 28-40-GHz bands and with up to 3.35× and 4.84× enhancement in PAE at the PBO levels of 6 and 9.6 dB over class-A operation, respectively. The PA also demonstrates strong tolerance to VSWR events with only 2 dB degradation over a VSWR 4:1 load circle at a frequency of 33 GHz.

Topics & Concepts

Standing wave ratioAmplifierBandwidth (computing)Port (circuit theory)Electrical engineeringPower (physics)EngineeringElectronic engineeringComputer scienceTelecommunicationsPhysicsAntenna (radio)Microstrip antennaQuantum mechanicsAdvanced Power Amplifier DesignRadio Frequency Integrated Circuit DesignMicrowave Engineering and Waveguides
Multi-port Active Load Pulling for mm-Wave 5G Power Amplifiers: Bandwidth, Back-Off Efficiency, and VSWR Tolerance | Litcius