期刊
JOURNAL OF INDUSTRIAL TEXTILES
卷 53, 期 -, 页码 -出版社
SAGE PUBLICATIONS INC
DOI: 10.1177/15280837231188525
关键词
Embroidered microstrip line; characteristic impedance; return loss; substrate
It is currently difficult to directly measure the characteristic impedance of embroidered microstrip line. This paper proposes a method to derive the expression of the characteristic impedance using the return loss S11. The results are verified through theoretical calculation and experimental testing. The method can be used to calculate the characteristic impedance of embroidered microstrip line and determine its equivalent substrates.
Presently, it is difficult to measure the characteristic impedance of embroidered microstrip line for its conductive anisotropy directly. The published work had proposed to use S-parameters to estimate the port impedance of a balanced dipole antenna, and it cannot be used to calculate the characteristic impedance of microstrip lines with one arm. Thus, it is still a problem on measuring and obtaining 50 ? characteristic impedance of embroidered microstrip line. Therefore, taking the reflection coefficient as an intermediate variable, this work proposes to use return loss S11 to derive the expression of the characteristic impedance of microstrip line. Combined theoretical calculation with experimental testing on characteristic impedance of the fabric-based microstrip line, the expression of the characteristic impedance was verified. Then, the expression of the characteristic impedance of microstrip line was used to calculate the characteristic impedance of embroidered microstrip line and determine its equivalent substrates. The results show that the fabric embroidered with a single-layer conductive strip is a part of its equivalent substrate, and the fabric embroidered with a double-layer conductive strip is not a part of its equivalent substrate.
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