放大器线性化的误差反馈

Proceedings of the 1998 South African Symposium on Communications and Signal Processing-COMSIG '98 (Cat. No. 98EX214) Pub Date : 1998-09-07 DOI:10.1109/COMSIG.1998.736987

I. Meier, J. B. de Swardt

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引用次数: 3

摘要

提出了一种新的通用线性化拓扑，称为“误差反馈”，并将其应用于放大器的线性化。误差反馈在其反馈回路中使用(线性)缩放的输入和输出信号之间的差/误差来减少非线性。它不像传统的反馈那样依赖于主放大器增益进行线性化。相反，一个辅助放大器被引入反馈回路，使主放大器的线性增益不受影响。理论结果、仿真结果和实测结果相辅相成。它们表明线性化发生在一个连续的频带上。该拓扑显示了并发多频带线性化的前景。内部延迟和相移影响设计极限和整体性能。

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Error-feedback for amplifier linearization

A novel general linearization topology called 'error-feedback' is presented and applied to the linearization of amplifiers. Error-feedback uses the difference/error between (linearly) scaled input and output signal in its feedback loop to reduce nonlinearity. It does not rely on main-amplifier gain for linearization as does traditional feedback. Instead an auxiliary amplifier is introduced into the feedback loop, leaving the main amplifier's linear gain unaffected. Results from theory, and simulation as well as measured results complement each other. They show that linearization takes place over a continuous band. The topology shows prospects for concurrent multi-band linearization. Internal delay and phase shifts influence design limits and overall performance.

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Proceedings of the 1998 South African Symposium on Communications and Signal Processing-COMSIG '98 (Cat. No. 98EX214)

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