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|Title: ||Mid-band 5G wireless network power amplifier research|
|Other Titles: ||Vidutinių dažnių 5G belaidžių tinklų galios stiprintuvų tyrimas|
|Authors: ||Vasjanov, Aleksandr|
|Issue Date: ||10-May-2019|
|Publisher: ||VGTU leidykla „Technika“|
|Citation: ||Vasjanov, A. 2019. Mid-band 5G wireless network power amplifier research: doctoral dissertation. Vilnius: Technika, 164 p.|
|Abstract: ||This dissertation addresses the problems of ensuring efficient radio fre-quency transmission for 5G wireless networks. Taking into account, that the next
generation 5G wireless network structure will be heterogeneous, the device
density and their mobility will increase and massive MIMO connectivity
capability will be widespread, the main investigated problem is formulated –
increasing the efficiency of portable mid-band 5G wireless network CMOS power amplifier with impedance matching networks.
The dissertation consists of four parts including the introduction, 3 chapters, conclusions, references and 3 annexes.
The investigated problem, importance and purpose of the thesis, the ob-ject of the research methodology, as well as the scientific novelty are de-fined in the
introduction. Practical significance of the obtained results, defended state-ments and the structure of the dissertation are also included.
The first chapter presents an extensive literature analysis. Latest ad-vances in the structure of the modern wireless network and the importance of the power amplifier in the radio frequency transmission chain are de-scribed in detail. The latter is followed by different power amplifier archi-tectures, parameters and their improvement techniques. Reported imped-ance matching network design methods are also discussed. Chapter 1 is concluded distinguishing the possible research vectors and defining the problems raised in this dissertation.
The second chapter is focused around improving the accuracy of de-signing lumped impedance matching network. The proposed methodology of estimating lumped inductor and capacitor parasitic parameters is dis-cussed in detail provi-ding complete mathematical expressions, including a summary and conclusions.
The third chapter presents simulation results for the designed radio fre-quency power amplifiers. Two variations of Doherty power amplifier archi-tectures are presented in the second part, covering the full step-by-step de-sign and simulation process. The latter chapter is concluded by comparing simulation and
measurement results for all designed radio frequency power amplifiers.
General conclusions are followed by an extensive list of references and a list of 5 publications by the author on the topic of the dissertation.
5 papers, focusing on the subject of the discussed dissertation, have been
published: three papers are included in the Clarivate Analytics Web of Sci-ence database with a citation index, one paper is included in Clarivate Ana-lytics Web of Science database Conference Proceedings, and one paper has been published in unreferred international conference preceedings. The au-thor has also made
9 presentations at 9 scientific conferences at a national and international level.|
|Appears in Collections:||Technologijos mokslų daktaro disertacijos ir jų santraukos|
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