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PIER PIER B PIER C PIER M PIER Letters
2012-05-22
The Research and Application of Combining Lut and Memory Compensation for Twta Linearization with Relatively Low Sampling Frequency
By
Xin Hu,

    Dr. Xin Hu

    Research & Development (R&D) Center

    China Academy of Launch Vehicle Technology

    China

    Homepage

Gang Wang,

    Dr. Gang Wang

    R&D Center for High Power Microwave Device

    Institute of Electronics, Chinese Academy of Sciences

    China

    Homepage

Q.-L. Li,

    Dr. Q.-L. Li

    R&D Center for High Power Microwave Device

    Institute of Electronics, Chinese Academy of Sciences

    China

    Homepage

Zi-Cheng Wang,

    Dr. Zi-Cheng Wang

    R&D Center for High Power Microwave Device

    Institute of Electronics, Chinese Academy of Sciences

    China

    Homepage

Jirun Luo

    Prof. Jirun Luo

    Institute of Electronics, Chinese Academy of Science

    China

    Homepage

Progress In Electromagnetics Research C, Vol. 29, 177-190, 2012
doi:10.2528/PIERC12022105
Abstract
If sampling frequency is not high enough, the effect of adaptive memory polynomial predistortion linearizer is not very good for TWTA linearization. In order to keep the adaptive memory polynomial predistortion linearizer valid, usually the output power level of the TWTA must be reduced, which corresponds to a reduced efficiency of the TWTA. In this paper, we present a digital predistortion linearizer by combining LUT (Look-Up-Table) and memory-effect compensation technique, which may provide good linear performance with less reduction of the output power and relatively low sampling frequency. The results of simulations and experiments show that good linearity improvement can be reached for an X-band TWTA with this predistortion linearizer.
Citation
Xin Hu, Gang Wang, Q.-L. Li, Zi-Cheng Wang, and Jirun Luo, "The Research and Application of Combining Lut and Memory Compensation for Twta Linearization with Relatively Low Sampling Frequency," Progress In Electromagnetics Research C, Vol. 29, 177-190, 2012.
doi:10.2528/PIERC12022105
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