Exploring electromagnetic properties of smart materials for future building applications (part 2)

Exploring electromagnetic properties of smart materials for future building applications (part 2)

This study presents a methodology to explore, compare and understand the electromagnetic (EM) properties and behaviour of common building materials at 5G frequencies by conducting experiments in a Microwave Anechoic Chamber. Using a pair of broadband horn antenna connected to the Vector Network Anal...

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Bibliographic Details
Main Author: Lee, Jun Wee
Other Authors: Soong Boon Hee
Format: Final Year Project
Language:English
Published: Nanyang Technological University 2022
Subjects:
Engineering::Electrical and electronic engineering
Online Access:https://hdl.handle.net/10356/157652
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Institution: Nanyang Technological University
Language: English
Description
Summary:This study presents a methodology to explore, compare and understand the electromagnetic (EM) properties and behaviour of common building materials at 5G frequencies by conducting experiments in a Microwave Anechoic Chamber. Using a pair of broadband horn antenna connected to the Vector Network Analyzer (VNA), EM plane waves were transmitted from one end through the Material Under Test (MUT) and received on the other. It was important to consider that the EM plane waves passes through the MUT in the far field region. S21 parameters were then measured and recorded for each of the MUT. To analyse and verify the trend of S21 parameters obtained from the experiment conducted in the Microwave Anechoic Chamber, a similar experiment was conducted using a waveguide. This experiment involves placing the MUT in a section of the waveguide and measuring the S21 parameters with a VNA. Calibration must be carried out before taking any measurements such that the normalised attenuation loss due to free space will be approximately 0 dB. The results from the experiments conducted was then analysed and discussed to form relationships between the shielding effectiveness (SE) value of the material and the variable factor of the experiment such as frequency, thickness, and constituents of the material.

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