Title :
Adaptive Volterra-based predistorter design for RF high power amplifiers
Author :
Zhu, Anding ; Brazil, Thomas J.
Author_Institution :
Dept. of Electron. & Electr. Eng., Univ. Coll. Dublin, Ireland
Abstract :
This paper presents an efficient digital baseband predistortion linearizer to compensate for the nonlinear distortions induced by RF high power amplifiers in wireless communication systems. The proposed approach utilize a fast RLS filtering algorithm based on V-vector algebra and an indirect learning architecture to update the coefficients of a Volterra-based-predistorter. No preliminary identification of the nonlinear characteristics of the HPA, as required by the conventional pth-order inverse methods, is needed with this approach. Simulation results show that high performance and low computational complexity are achieved in nonlinear systems with a TWT-type power amplifier
Keywords :
Volterra series; adaptive filters; computational complexity; least squares approximations; linearisation techniques; microwave power amplifiers; mobile radio; nonlinear distortion; radiofrequency filters; recursive filters; travelling wave amplifiers; HPA nonlinear characteristics; RF high power amplifiers; TWT-type power amplifier; V-vector algebra; Volterra-based predistorter; adaptive Volterra-based predistorter design; computational complexity; digital baseband predistortion linearizer; fast RLS-filtering algorithm; indirect learning architecture; inverse methods; nonlinear distortion compensation; nonlinear systems; simulation; wireless communication systems; Algebra; Baseband; Computer architecture; Filtering algorithms; High power amplifiers; Nonlinear distortion; Predistortion; Radio frequency; Resonance light scattering; Wireless communication;
Conference_Titel :
High Frequency Postgraduate Student Colloquium, 2001. 6th IEEE
Conference_Location :
Cardiff
Print_ISBN :
0-7803-7118-6
DOI :
10.1109/HFPSC.2001.962173
