High Efficiency Ka-Band Spatial Combiner
A Ka-Band, High Efficiency, Small Size Spatial Combiner (SPC) is proposed in this paper, which uses an innovatively matched quadruple Fin Lines to microstrip (FLuS) transitions. At the date of this paper and at the Author's best knowledge no such FLuS innovative transitions have been reported...
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| Language: | English |
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Advanced Electromagnetics
2014-12-01
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| Series: | Advanced Electromagnetics |
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| Online Access: | https://aemjournal.org/index.php/AEM/article/view/267 |
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doaj-92d25f9ff013456f8372394797dce81f2020-11-25T00:52:37ZengAdvanced ElectromagneticsAdvanced Electromagnetics2119-02752014-12-013210.7716/aem.v3i2.267267High Efficiency Ka-Band Spatial CombinerD. Passi0A. Leggieri1F. Di Paolo2M. Bartocci3A. Tafuto4A. Manna5University of Rome Tor VergataUniversity of Rome Tor VergataUniversity of Rome Tor VergataElettronica SpAElettronica SpAElettronica SpA A Ka-Band, High Efficiency, Small Size Spatial Combiner (SPC) is proposed in this paper, which uses an innovatively matched quadruple Fin Lines to microstrip (FLuS) transitions. At the date of this paper and at the Author's best knowledge no such FLuS innovative transitions have been reported in literature before. These transitions are inserted into a WR28 waveguide T-junction, in order to allow the integration of 16 Monolithic Microwave Integrated Circuit (MMIC) Solid State Power Amplifiers (SSPA's). A computational electromagnetic model using the finite elements method has been implemented. A mean insertion loss of 2 dB is achieved with a return loss better the 10 dB in the 31-37 GHz bandwidth. https://aemjournal.org/index.php/AEM/article/view/267Finite elementsfin-line structuresmicrowave componentsMMIC technologyspatial power |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
D. Passi A. Leggieri F. Di Paolo M. Bartocci A. Tafuto A. Manna |
| spellingShingle |
D. Passi A. Leggieri F. Di Paolo M. Bartocci A. Tafuto A. Manna High Efficiency Ka-Band Spatial Combiner Advanced Electromagnetics Finite elements fin-line structures microwave components MMIC technology spatial power |
| author_facet |
D. Passi A. Leggieri F. Di Paolo M. Bartocci A. Tafuto A. Manna |
| author_sort |
D. Passi |
| title |
High Efficiency Ka-Band Spatial Combiner |
| title_short |
High Efficiency Ka-Band Spatial Combiner |
| title_full |
High Efficiency Ka-Band Spatial Combiner |
| title_fullStr |
High Efficiency Ka-Band Spatial Combiner |
| title_full_unstemmed |
High Efficiency Ka-Band Spatial Combiner |
| title_sort |
high efficiency ka-band spatial combiner |
| publisher |
Advanced Electromagnetics |
| series |
Advanced Electromagnetics |
| issn |
2119-0275 |
| publishDate |
2014-12-01 |
| description |
A Ka-Band, High Efficiency, Small Size Spatial Combiner (SPC) is proposed in this paper, which uses an innovatively matched quadruple Fin Lines to microstrip (FLuS) transitions. At the date of this paper and at the Author's best knowledge no such FLuS innovative transitions have been reported in literature before. These transitions are inserted into a WR28 waveguide T-junction, in order to allow the integration of 16 Monolithic Microwave Integrated Circuit (MMIC) Solid State Power Amplifiers (SSPA's). A computational electromagnetic model using the finite elements method has been implemented. A mean insertion loss of 2 dB is achieved with a return loss better the 10 dB in the 31-37 GHz bandwidth.
|
| topic |
Finite elements fin-line structures microwave components MMIC technology spatial power |
| url |
https://aemjournal.org/index.php/AEM/article/view/267 |
| work_keys_str_mv |
AT dpassi highefficiencykabandspatialcombiner AT aleggieri highefficiencykabandspatialcombiner AT fdipaolo highefficiencykabandspatialcombiner AT mbartocci highefficiencykabandspatialcombiner AT atafuto highefficiencykabandspatialcombiner AT amanna highefficiencykabandspatialcombiner |
| _version_ |
1725241278568857600 |