Time-Domain Absorbing Boundary Terminations for Waveguide Ports Based on State-Space Models
Absorbing boundary conditions for waveguide ports in time domain are important elements of transient approaches to treat RF structures. A successful way to implement these termination conditions is the decomposition of the transient fields in the absorbing plane in terms of modal field patterns. The...
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| Veröffentlicht in: | IEEE transactions on magnetics 2014-02, Vol.50 (2), p.145-148 |
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| creator | Flisgen, Thomas Heller, Johann van Rienen, Ursula |
| description | Absorbing boundary conditions for waveguide ports in time domain are important elements of transient approaches to treat RF structures. A successful way to implement these termination conditions is the decomposition of the transient fields in the absorbing plane in terms of modal field patterns. The absorbing condition is then accomplished by transferring the wave impedances (or admittances) of the modes to time domain, which leads to convolution operations involving Bessel functions and integrals of Bessel functions. This paper presents a new alternative approach: the convolution operations are approximated by appropriate state-space models whose system responses can be conveniently computed by standard integration schemes. These schemes are indispensable for transient simulations anyhow. Sufficiently far away from the cutoff frequency, a wideband match is achieved. |
| doi_str_mv | 10.1109/TMAG.2013.2283065 |
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A successful way to implement these termination conditions is the decomposition of the transient fields in the absorbing plane in terms of modal field patterns. The absorbing condition is then accomplished by transferring the wave impedances (or admittances) of the modes to time domain, which leads to convolution operations involving Bessel functions and integrals of Bessel functions. This paper presents a new alternative approach: the convolution operations are approximated by appropriate state-space models whose system responses can be conveniently computed by standard integration schemes. These schemes are indispensable for transient simulations anyhow. 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A successful way to implement these termination conditions is the decomposition of the transient fields in the absorbing plane in terms of modal field patterns. The absorbing condition is then accomplished by transferring the wave impedances (or admittances) of the modes to time domain, which leads to convolution operations involving Bessel functions and integrals of Bessel functions. This paper presents a new alternative approach: the convolution operations are approximated by appropriate state-space models whose system responses can be conveniently computed by standard integration schemes. These schemes are indispensable for transient simulations anyhow. Sufficiently far away from the cutoff frequency, a wideband match is achieved.</description><subject>Approximation methods</subject><subject>Cross-disciplinary physics: materials science; rheology</subject><subject>Cutoff frequency</subject><subject>Electromagnetic waveguides</subject><subject>Exact sciences and technology</subject><subject>Magnetism</subject><subject>Materials science</subject><subject>Modal analysis</subject><subject>modal wave absorption</subject><subject>Other topics in materials science</subject><subject>Physics</subject><subject>Ports (Computers)</subject><subject>Radio frequency</subject><subject>Time-domain analysis</subject><subject>Transient analysis</subject><subject>waveguide boundary condition</subject><issn>0018-9464</issn><issn>1941-0069</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2014</creationdate><recordtype>article</recordtype><sourceid>ESBDL</sourceid><sourceid>RIE</sourceid><recordid>eNo9kE1LAzEQhoMoWKs_QLwExOPWfG02ObZVq9Ci0BUPHpZsdraktJua7Ar-e7e09DQM87wzzIPQLSUjSol-zBfj2YgRykeMKU5keoYGVAuaECL1ORoQQlWihRSX6CrGdd-KlJIB-s7dFpInvzWuweMy-lC6ZoUnvmsqE_5wDmHrGtM630Rc-4C_zC-sOlcB_vChjXhiIlTYN3jZmhaS5c5YwAtfwSZeo4vabCLcHOsQfb4859PXZP4-e5uO54nlUrZJzbgoaZZaKYAo0MRaK5ioWakUGG1sWmphdZkZI7nVFTCoeB9SNUguaMWH6P6wdxf8TwexLda-C01_sqApkUwqlqqeogfKBh9jgLrYBbftfywoKfYOi73DYu-wODrsMw_HzSZas6mDaayLp2BPccoU7bm7A-cA4DSWmdBMZvwfs4l6YQ</recordid><startdate>20140201</startdate><enddate>20140201</enddate><creator>Flisgen, Thomas</creator><creator>Heller, Johann</creator><creator>van Rienen, Ursula</creator><general>IEEE</general><general>Institute of Electrical and Electronics Engineers</general><general>The Institute of Electrical and Electronics Engineers, Inc. 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A successful way to implement these termination conditions is the decomposition of the transient fields in the absorbing plane in terms of modal field patterns. The absorbing condition is then accomplished by transferring the wave impedances (or admittances) of the modes to time domain, which leads to convolution operations involving Bessel functions and integrals of Bessel functions. This paper presents a new alternative approach: the convolution operations are approximated by appropriate state-space models whose system responses can be conveniently computed by standard integration schemes. These schemes are indispensable for transient simulations anyhow. Sufficiently far away from the cutoff frequency, a wideband match is achieved.</abstract><cop>New York, NY</cop><pub>IEEE</pub><doi>10.1109/TMAG.2013.2283065</doi><tpages>4</tpages><oa>free_for_read</oa></addata></record> |
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| subjects | Approximation methods Cross-disciplinary physics: materials science rheology Cutoff frequency Electromagnetic waveguides Exact sciences and technology Magnetism Materials science Modal analysis modal wave absorption Other topics in materials science Physics Ports (Computers) Radio frequency Time-domain analysis Transient analysis waveguide boundary condition |
| title | Time-Domain Absorbing Boundary Terminations for Waveguide Ports Based on State-Space Models |
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