Fast complex memory polynomial-based adaptive digital predistorter |
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| Authors: | Amandeep Singh Sappal Manjeet Singh Patterh Sanjay Sharma |
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| Affiliation: | 1. University College of Engineering, Punjabi University , Patiala, Punjab, India sappal73as@pbi.ac.in;3. University College of Engineering, Punjabi University , Patiala, Punjab, India;4. Department of ECE , Thapar University , Patiala, Punjab, India |
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| Abstract: | Today's 3G wireless systems require both high linearity and high power amplifier (PA) efficiency. The high peak-to-average ratios of the digital modulation schemes used in 3G wireless systems require that the RF PA maintain high linearity over a large range while maintaining this high efficiency; these two requirements are often at odds with each other with many of the traditional amplifier architectures. In this article, a fast and easy-to-implement adaptive digital predistorter has been presented for Wideband Code Division Multiplexed signals using complex memory polynomial work function. The proposed algorithm has been implemented to test a Motorola LDMOSFET PA. The proposed technique also takes care of the memory effects of the PA, which have been ignored in many proposed techniques in the literature. The results show that the new complex memory polynomial-based adaptive digital predistorter has better linearisation performance than conventional predistortion techniques. |
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| Keywords: | complex memory polynomial memory effects power amplifier predistortion wideband code division multiple access |
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