Pattern Synthesis for Lossy Antennas Based on N-port Characteristic Mode Analysis

In this paper, a pattern synthesis methodology for lossy antennas is proposed based on N -port characteristic mode analysis (CMA), with the radiation efficiency of the antenna guaranteed at the same time. Reactive loads are chosen as physical implementations. To perform N -port CMA, N ports are firs...

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Bibliographic Details
Published inIEEE transactions on antennas and propagation Vol. 71; no. 6; p. 1
Main Authors Li, H., Zheng, W., Wu, Q., Liu, G.
Format Journal Article
LanguageEnglish
Published New York IEEE 01.06.2023
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects
antenna efficiency
Antenna radiation patterns
Antenna theory
Antennas
characteristic mode theory
Horn antennas
Impedance
Impedance matrix
Manganese
Mathematical analysis
pattern synthesis
Radiation
smartwatch antenna
Synthesis
Telecommunications industry
Wearable Health Monitoring Systems
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Summary:In this paper, a pattern synthesis methodology for lossy antennas is proposed based on N -port characteristic mode analysis (CMA), with the radiation efficiency of the antenna guaranteed at the same time. Reactive loads are chosen as physical implementations. To perform N -port CMA, N ports are firstly added to the lossy and lossless structures to obtain the impedance matrices. Modal efficiencies are then calculated, based on which the locations of the feed and the loads are selected. With the characteristic solutions and one set of modal weighting coefficients (MWC), where inefficient modes have been excluded, corresponding loads and radiation pattern can be determined. Afterwards, an objective function considering physical implementation and the target pattern is establish and optimized. With optimal MWCs, the lumped components loaded at each port are calculated and implemented. The method is applied to an arm-worn smartwatch antenna operating at GPS L1 band, which aims at radiating towards the sky direction for reliable link with satellites. Following the proposed method, the power radiated towards the target area has been increased by more than 40% compared with the original design. The total efficiency is above -6.1 dB when it is worn on a CTIA arm. The prototype of the proposed antenna has been fabricated and measured, which showed similar performances to the simulated one both in free space and in the arm-worn scenario.
ISSN:0018-926X
1558-2221
DOI:10.1109/TAP.2023.3256534