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Compact multi-layer microstrip Rotman lens design using coupling slots to support millimetre wave devices
Millimetre wave technology is now considered as a key component for the next generation (5G) of cellular networks since they offer higher data rates and broader bandwidth compared to the current technology. However, since communication in this frequency band suffers higher propagation loss and atmos...
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| Published in: | IET microwaves, antennas & propagation antennas & propagation, 2018-07, Vol.12 (8), p.1260-1265 |
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| Main Authors: | , , |
| Format: | Article |
| Language: | English |
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| cited_by | cdi_FETCH-LOGICAL-c3340-4eeb8d4c7644ba0e4a1080cfa28df09d040222e7fb09faf79db6ceb15ef598ad3 |
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| cites | cdi_FETCH-LOGICAL-c3340-4eeb8d4c7644ba0e4a1080cfa28df09d040222e7fb09faf79db6ceb15ef598ad3 |
| container_end_page | 1265 |
| container_issue | 8 |
| container_start_page | 1260 |
| container_title | IET microwaves, antennas & propagation |
| container_volume | 12 |
| creator | Vo Dai, Toan K Nguyen, Tuan Kilic, Ozlem |
| description | Millimetre wave technology is now considered as a key component for the next generation (5G) of cellular networks since they offer higher data rates and broader bandwidth compared to the current technology. However, since communication in this frequency band suffers higher propagation loss and atmospheric absorption (∼12 dB/km), the use of highly directional antennas plays an important role in order to compensate for these losses. Therefore, it is necessary to design beamforming networks that are not only able to support these antennas but also offer practical and compact solutions to be placed in any modern transceiver system. Rotman lenses have long been used as analogue beamforming networks to support linear array antennas for electronic scanning. Their broad bandwidth and planar structure make them ideal for these types of applications. However, their overall dimensions can be prohibitively large, especially for systems requiring large scan angles. In this study, the authors propose a new compact configuration that reduces the overall dimensions of the conventional Rotman lens by as much as 50% without degrading its performance. |
| doi_str_mv | 10.1049/iet-map.2017.0817 |
| format | article |
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However, since communication in this frequency band suffers higher propagation loss and atmospheric absorption (∼12 dB/km), the use of highly directional antennas plays an important role in order to compensate for these losses. Therefore, it is necessary to design beamforming networks that are not only able to support these antennas but also offer practical and compact solutions to be placed in any modern transceiver system. Rotman lenses have long been used as analogue beamforming networks to support linear array antennas for electronic scanning. Their broad bandwidth and planar structure make them ideal for these types of applications. However, their overall dimensions can be prohibitively large, especially for systems requiring large scan angles. 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However, since communication in this frequency band suffers higher propagation loss and atmospheric absorption (∼12 dB/km), the use of highly directional antennas plays an important role in order to compensate for these losses. Therefore, it is necessary to design beamforming networks that are not only able to support these antennas but also offer practical and compact solutions to be placed in any modern transceiver system. Rotman lenses have long been used as analogue beamforming networks to support linear array antennas for electronic scanning. Their broad bandwidth and planar structure make them ideal for these types of applications. However, their overall dimensions can be prohibitively large, especially for systems requiring large scan angles. 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However, since communication in this frequency band suffers higher propagation loss and atmospheric absorption (∼12 dB/km), the use of highly directional antennas plays an important role in order to compensate for these losses. Therefore, it is necessary to design beamforming networks that are not only able to support these antennas but also offer practical and compact solutions to be placed in any modern transceiver system. Rotman lenses have long been used as analogue beamforming networks to support linear array antennas for electronic scanning. Their broad bandwidth and planar structure make them ideal for these types of applications. However, their overall dimensions can be prohibitively large, especially for systems requiring large scan angles. In this study, the authors propose a new compact configuration that reduces the overall dimensions of the conventional Rotman lens by as much as 50% without degrading its performance.</abstract><pub>The Institution of Engineering and Technology</pub><doi>10.1049/iet-map.2017.0817</doi><tpages>6</tpages></addata></record> |
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| ispartof | IET microwaves, antennas & propagation, 2018-07, Vol.12 (8), p.1260-1265 |
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| source | Wiley Online Library Open Access |
| subjects | 5G cellular networks 5G mobile communication analogue beamforming networks array signal processing atmospheric absorption beamforming networks cellular radio compact multilayer microstrip Rotman lens design conventional Rotman lens coupling slots directional antennas electronic scanning lens antennas linear antenna arrays linear array antennas loss compensation microstrip antenna arrays millimetre wave antenna arrays millimetre wave devices millimetre wave propagation millimetre wave technology next generation cellular networks planar structure propagation loss Research Article transceiver system |
| title | Compact multi-layer microstrip Rotman lens design using coupling slots to support millimetre wave devices |
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