Design and manufacture a mechanically adjustable precision microwave passive phase shifter
Ma, Xiaocheng (2024)
Kandidaatintyö
2024
School of Energy Systems, Konetekniikka
Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi-fe2024052436342
https://urn.fi/URN:NBN:fi-fe2024052436342
Tiivistelmä
Microwave passive phase shifters play a vital role in fields such as wireless communications, radar systems, and radio astronomy. The reliability and accuracy of these phase shifters are directly related to the performance of the entire system. Therefore, this research is dedicated to the design and fabrication of a mechanically adjustable precision microwave passive phase shifter, aiming to provide reliable and accurate solutions for production manufacturers.
The background and motivation for the research stemmed from the exploration of DFMA and sustainability analysis of existing microwave and RF components. By applying Design Manufacturing and Assembly Analysis (DFMA) and proven production planning, manufacturers can increase efficiency, reduce errors, and minimize scrap in the production process. Such optimization not only improves product quality but also helps improve the efficiency of the entire manufacturing ecosystem.
The goal of this study is to design and fabricate a mechanically adjustable precision microwave passive phase shifter to improve manufacturing efficiency and reduce environmental impact. The research adopts a comprehensive methodology of literature review, DFMA analysis, SolidWorks modeling and manufacturing planning.
Expected research outcomes include the development of an optimized mechanically adjustable precision microwave passive phase shifter design for improved production efficiency and environmental sustainability, and the implementation of DFMA principles and production planning to improve the production process, as well as by providing reliable and accurate Microwave passive phase shifter solutions to enhance social infrastructure.
The background and motivation for the research stemmed from the exploration of DFMA and sustainability analysis of existing microwave and RF components. By applying Design Manufacturing and Assembly Analysis (DFMA) and proven production planning, manufacturers can increase efficiency, reduce errors, and minimize scrap in the production process. Such optimization not only improves product quality but also helps improve the efficiency of the entire manufacturing ecosystem.
The goal of this study is to design and fabricate a mechanically adjustable precision microwave passive phase shifter to improve manufacturing efficiency and reduce environmental impact. The research adopts a comprehensive methodology of literature review, DFMA analysis, SolidWorks modeling and manufacturing planning.
Expected research outcomes include the development of an optimized mechanically adjustable precision microwave passive phase shifter design for improved production efficiency and environmental sustainability, and the implementation of DFMA principles and production planning to improve the production process, as well as by providing reliable and accurate Microwave passive phase shifter solutions to enhance social infrastructure.