Antenna Sensitivity Enhancement through Noise Suppression in an LTE/GPS Communication Module
This letter discusses antenna sensitivity enhancement in an LTE/GPS communication module for vehicle-to-everything applications by addressing onboard noise suppression. The performance of antennas in smart vehicles is increasingly complex due to the concentration of electronic devices within small s...
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| Published in | Journal of Electromagnetic Engineering and Science Vol. 25; no. 3; pp. 304 - 306 |
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| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
The Korean Institute of Electromagnetic Engineering and Science
01.05.2025
한국전자파학회 |
| Subjects | |
| Online Access | Get full text |
| ISSN | 2671-7255 2671-7263 |
| DOI | 10.26866/jees.2025.3.l.26 |
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| Abstract | This letter discusses antenna sensitivity enhancement in an LTE/GPS communication module for vehicle-to-everything applications by addressing onboard noise suppression. The performance of antennas in smart vehicles is increasingly complex due to the concentration of electronic devices within small structures, which impacts signal reception. Onboard noise generated by other unknown electronic components on the PCB can couple through the resonance structure of the other antenna, significantly degrading performance. The proposed solution includes an equivalent noise circuit and two double-branch planar inverted-F antennas targeting the B1 and B5 LTE bands and the L1 and L5 GPS bands. The noise circuit can couple with the GPS antenna’s feed loop and requires a noise suppression method to prevent sensitivity degradation. The analysis shows that this approach can increase total isotropic sensitivity from -81.79 dB to -94.61 dB, representing a significant enhancement in antenna sensitivity performance. |
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| AbstractList | This letter discusses antenna sensitivity enhancement in an LTE/GPS communication module for vehicle-to-everything applications by addressing onboard noise suppression. The performance of antennas in smart vehicles is increasingly complex due to the concentration of electronic devices within small structures, which impacts signal reception. Onboard noise generated by other unknown electronic components on the PCB can couple through the resonance structure of the other antenna, significantly degrading performance. The proposed solution includes an equivalent noise circuit and two double-branch planar inverted-F antennas targeting the B1 and B5 LTE bands and the L1 and L5 GPS bands. The noise circuit can couple with the GPS antenna’s feed loop and requires a noise suppression method to prevent sensitivity degradation. The analysis shows that this approach can increase total isotropic sensitivity from -81.79 dB to -94.61 dB, representing a significant enhancement in antenna sensitivity performance. This letter discusses antenna sensitivity enhancement in an LTE/GPS communication module for vehicle-to-everything applications by addressing onboard noise suppression. The performance of antennas in smart vehicles is increasingly complex due to the concentration of electronic devices within small structures, which impacts signal reception. Onboard noise generated by other unknown electronic components on the PCB can couple through the resonance structure of the other antenna, significantly degrading performance. The proposed solution includes an equivalent noise circuit and two double-branch planar inverted-F antennas targeting the B1 and B5 LTE bands and the L1 and L5 GPS bands. The noise circuit can couple with the GPS antenna’s feed loop and requires a noise suppression method to prevent sensitivity degradation. The analysis shows that this approach can increase total isotropic sensitivity from −81.79 dB to −94.61 dB, representing a significant enhancement in antenna sensitivity performance. This letter discusses antenna sensitivity enhancement in an LTE/GPS communication module for vehicle-to-everything applications by addressing onboard noise suppression. The performance of antennas in smart vehicles is increasingly complex due to the concentration of electronic devices within small structures, which impacts signal reception. Onboard noise generated by other unknown electronic components on the PCB can couple through the resonance structure of the other antenna, significantly degrading performance. The proposed solution includes an equivalent noise circuit and two double-branch planar inverted-F antennas targeting the B1 and B5 LTE bands and the L1 and L5 GPS bands. The noise circuit can couple with the GPS antenna’s feed loop and requires a noise suppression method to prevent sensitivity degradation. The analysis shows that this approach can increase total isotropic sensitivity from -81.79 dB to -94.61 dB, representing a significant enhancement in antenna sensitivity performance. KCI Citation Count: 0 |
| Author | Shin, Hyunwoong Kim, Hyung-Hoon Li, Rui Wi, Seokju Kim, Hyeongdong Kim, Jeonghwan Lee, Hoseung |
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| Cites_doi | 10.1109/TAP.2015.2481919 10.1109/TAP.2011.2173440 10.1109/8.664127 10.1109/JMW.2023.3313115 10.1002/9781119132332 10.1109/ACCESS.2022.3177886 10.1002/mop.31210 10.1002/mop.32291 |
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| SubjectTerms | antenna sensitivity enhancement onboard noise suppression v2x antenna 전자/정보통신공학 |
| Title | Antenna Sensitivity Enhancement through Noise Suppression in an LTE/GPS Communication Module |
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