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Fix what ends up cited as "web sources"

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jaseg 2025-10-27 19:21:30 +01:00
parent 560d423e0c
commit dec028a1d3
2 changed files with 6 additions and 1 deletions
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6
common-defs.tex
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@ -149,12 +149,16 @@
\DeclareRefcontext{patref}{labelprefix=P}
\DeclareRefcontext{defref}{}
\DeclareFieldFormat{labelprefix}{\textsuperscript{\sffamily#1}}
\defbibfilter{webstuff}{
( type=online or type=software )
and not keyword={preprint}
}
\newcommand{\chapterbibliography}{
\FloatBarrier
\addcontentsline{toc}{section}{References}
\newrefcontext{webref}
\printbibliography[type={online},title={Web sources},heading=subbibliography,resetnumbers=false,segment=\therefsegment]
\printbibliography[filter={webstuff},title={Web sources},heading=subbibliography,resetnumbers=false,segment=\therefsegment]
\newrefcontext{patref}
\printbibliography[type={patent},title={Patent References},heading=subbibliography,resetnumbers=false,segment=\therefsegment]
\newrefcontext{defref}

1
main.bib
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@ -8134,6 +8134,7 @@ Archive 2: https://web.archive.org/web/20250510104017/https://de.linkedin.com/pu
abstract = {Litz wire planar spiral coils are widely used in inductive power transfer systems due to low power loss in high-frequency operation and low profile. However, the complicated structure of the litz wire coil imposes difficulties in estimating the frequency-dependent resistance and quality factor accurately. In this work, we present an 2D analytical model for calculating the frequency-dependent resistance and quality factor of multi-coil inductive power transfer systems based on superposition of different loss effects. Its accuracy is validated with multiple coils and litz wires over wide frequency range. Meanwhile, a fast and accurate multi-objective optimization method is developed to improve the product quality factor and coupling factor. From the optimization results, there are five factors affecting the quality factor and coupling factor. A set of design guidelines is proposed to cope with these design factors. The final prototypes show 33\textbackslash\% increase in quality factor and 23\textbackslash\% improvement in coupling factor compared with the state-of-the-art designs. Meanwhile, a 30W, 500kHz inductive power transfer system is designed with 91\textbackslash\% peak efficiency.},
langid = {english},
pubstate = {prepublished},
keywords = {preprint},
file = {/home/jaseg/Zotero/storage/ZAQTS252/Zhao et al. - 2023 - Design and Optimization of Litz-Wire Planar Spiral.pdf}
}