Real-time instability detection for a reconfigurable power amplifier

2018 Texas Symposium on Wireless and Microwave Circuits and Systems (WMCS) Pub Date : 2018-04-01 DOI:10.1109/WMCAS.2018.8400651

Lucilia Hays, Austin Egbert, Zachary Hays, C. Baylis, R. Marks, Christopher Kappelmann, E. Viveiros

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Abstract

Frequency-agile wireless transmitters require tunable power amplifiers that can reconfigure to maximize gain, efficiency, and spectral performance at changing operating frequencies and spectral output requirements. However, stability of the amplifier must be maintained through the reconfiguration process. This paper presents a method for predicting potential instability during a real-time load impedance gain optimization. For each candidate load reflection coefficient, gain is measured at each of four neighboring points, and the acceleration of the gain is calculated. When the acceleration becomes positive, the likelihood of potential instability is detected, and the optimization is terminated to achieve high gain while remaining stable. This method is demonstrated for two different devices in simulation and measurement. While initially innovated for application in reconfigurable devices, this method is also expected to be useful in maintaining stability during bench-top load-pull measurements.

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一种可重构功率放大器的实时不稳定性检测

频率灵活的无线发射机需要可调谐的功率放大器，可以在改变工作频率和频谱输出要求时重新配置，以最大限度地提高增益、效率和频谱性能。然而，放大器的稳定性必须通过重新配置过程保持。本文提出了一种在实时负载阻抗增益优化过程中预测潜在不稳定性的方法。对于每个候选负载反射系数，在相邻的四个点上分别测量增益，并计算增益的加速度。当加速度变为正值时，检测到潜在不稳定的可能性，并终止优化以实现高增益，同时保持稳定。该方法在两种不同的设备上进行了仿真和测试。虽然最初的创新应用于可重构设备，但这种方法也有望在保持台式负载-拉力测量的稳定性方面发挥作用。

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2018 Texas Symposium on Wireless and Microwave Circuits and Systems (WMCS)

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