Dynamic deviation reduction-based Volterra behavioral modeling of RF power amplifiers A Zhu, JC Pedro, TJ Brazil IEEE Transactions on microwave theory and techniques 54 (12), 4323-4332, 2006 | 568 | 2006 |
Open-loop digital predistorter for RF power amplifiers using dynamic deviation reduction-based Volterra series A Zhu, PJ Draxler, JJ Yan, TJ Brazil, DF Kimball, PM Asbeck IEEE Transactions on microwave theory and techniques 56 (7), 1524-1534, 2008 | 350 | 2008 |
Band-limited Volterra series-based digital predistortion for wideband RF power amplifiers C Yu, L Guan, E Zhu, A Zhu IEEE Transactions on Microwave Theory and Techniques 60 (12), 4198-4208, 2012 | 285 | 2012 |
A simplified broadband design methodology for linearized high-efficiency continuous class-F power amplifiers N Tuffy, L Guan, A Zhu, TJ Brazil IEEE Transactions on Microwave Theory and Techniques 60 (6), 1952-1963, 2012 | 258 | 2012 |
Behavioral modeling of RF power amplifiers based on pruned Volterra series A Zhu, TJ Brazil IEEE Microwave and Wireless components letters 14 (12), 563-565, 2004 | 243 | 2004 |
Green communications: Digital predistortion for wideband RF power amplifiers L Guan, A Zhu IEEE Microwave Magazine 15 (7), 84-99, 2014 | 223 | 2014 |
Digital predistortion for envelope-tracking power amplifiers using decomposed piecewise Volterra series A Zhu, PJ Draxler, C Hsia, TJ Brazil, DF Kimball, PM Asbeck IEEE Transactions on Microwave Theory and Techniques 56 (10), 2237-2247, 2008 | 205 | 2008 |
Decomposed vector rotation-based behavioral modeling for digital predistortion of RF power amplifiers A Zhu IEEE Transactions on microwave theory and techniques 63 (2), 737-744, 2015 | 171 | 2015 |
An efficient Volterra-based behavioral model for wideband RF power amplifiers A Zhu, M Wren, TJ Brazil IEEE MTT-S International Microwave Symposium Digest, 2003 2, 787-790, 2003 | 148 | 2003 |
Pruning the Volterra series for behavioral modeling of power amplifiers using physical knowledge A Zhu, JC Pedro, TR Cunha IEEE Transactions on Microwave Theory and Techniques 55 (5), 813-821, 2007 | 146 | 2007 |
Highly efficient broadband continuous inverse class-F power amplifier design using modified elliptic low-pass filtering matching network M Yang, J Xia, Y Guo, A Zhu IEEE Transactions on Microwave Theory and Techniques 64 (5), 1515-1525, 2016 | 145 | 2016 |
A broadband high-efficiency Doherty power amplifier with integrated compensating reactance J Xia, M Yang, Y Guo, A Zhu IEEE Transactions on Microwave Theory and Techniques 64 (7), 2014-2024, 2016 | 138 | 2016 |
Low-cost FPGA implementation of Volterra series-based digital predistorter for RF power amplifiers L Guan, A Zhu IEEE Transactions on Microwave Theory and Techniques 58 (4), 866-872, 2010 | 122 | 2010 |
Optimized low-complexity implementation of least squares based model extraction for digital predistortion of RF power amplifiers L Guan, A Zhu IEEE Transactions on Microwave Theory and Techniques 60 (3), 594-603, 2012 | 121 | 2012 |
Simplified dynamic deviation reduction-based Volterra model for Doherty power amplifiers L Guan, A Zhu 2011 Workshop on Integrated Nonlinear Microwave and Millimetre-Wave Circuits …, 2011 | 100 | 2011 |
An adaptive Volterra predistorter for the linearization of RF high power amplifiers A Zhu, TJ Brazil 2002 IEEE MTT-S International Microwave Symposium Digest (Cat. No. 02CH37278 …, 2002 | 96 | 2002 |
Analysis and design of highly efficient wideband RF-input sequential load modulated balanced power amplifier J Pang, Y Li, M Li, Y Zhang, XY Zhou, Z Dai, A Zhu IEEE transactions on microwave theory and techniques 68 (5), 1741-1753, 2020 | 95 | 2020 |
Full-angle digital predistortion of 5G millimeter-wave massive MIMO transmitters C Yu, J Jing, H Shao, ZH Jiang, P Yan, XW Zhu, W Hong, A Zhu IEEE Transactions on Microwave Theory and Techniques 67 (7), 2847-2860, 2019 | 92 | 2019 |
Digitally assisted dual-switch high-efficiency envelope amplifier for envelope-tracking base-station power amplifiers C Hsia, A Zhu, JJ Yan, P Draxler, DF Kimball, S Lanfranco, PM Asbeck IEEE Transactions on Microwave Theory and Techniques 59 (11), 2943-2952, 2011 | 90 | 2011 |
Breaking the bandwidth limit: A review of broadband Doherty power amplifier design for 5G G Nikandish, RB Staszewski, A Zhu IEEE Microwave Magazine 21 (4), 57-75, 2020 | 89 | 2020 |