Size reduction of microstrip patch antennas with left-handed transmission line loading
A procedure for designing an electrically small microstrip patch antenna (MPA) is developed, wherein the length of a side of the MPA is reduced to significantly less than a half-wavelength. The field distribution in the loaded MPA remains relatively unperturbed, unlike the (0) mode case that attempt...
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| Published in | IET microwaves, antennas & propagation Vol. 1; no. 1; p. 39 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Stevenage
The Institution of Engineering & Technology
01.02.2007
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| Subjects | |
| Online Access | Get full text |
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| Abstract | A procedure for designing an electrically small microstrip patch antenna (MPA) is developed, wherein the length of a side of the MPA is reduced to significantly less than a half-wavelength. The field distribution in the loaded MPA remains relatively unperturbed, unlike the (0) mode case that attempts to decrease the size by introducing a shorting-post; consequently, very low cross-polarisation behaviour is observed. The theory to predict the full spectrum of resonant frequencies of the antenna is developed, with finite-difference time-domain simulations used to finalise the antenna design. Finally, an electrically small ((λ/6) x (λ/4)) and thin (<lλ/65) antenna is fabricated at 465 MHz using low-temperature co-fired ceramic technology and tested for key figures of merit, including the resonant frequency and radiation pattern. The shortened antenna not only shows performance comparable to a conventional unloaded MPA, but also exhibits good cross-polarisation. The loaded MPA achieved an area reduction of 83% as compared to an unloaded version. |
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| AbstractList | A procedure for designing an electrically small microstrip patch antenna (MPA) is developed, wherein the length of a side of the MPA is reduced to significantly less than a half-wavelength. The MPA is loaded with a resonant circuit equivalent to that of a left-handed transmission line to artificially increase the effective wavelength of the device, thus creating a resonance equivalent to, but at a lower frequency than the unloaded {10} mode. The field distribution in the loaded MPA remains relatively unperturbed, unlike the {0} mode case that attempts to decrease the size by introducing a shorting-post; consequently, very low cross-polarisation behaviour is observed. The theory to predict the full spectrum of resonant frequencies of the antenna is developed, with finite-difference time-domain simulations used to finalise the antenna design. Finally, an electrically small ((/6)X(/4)) and thin (/65) antenna is fabricated at 465MHz using low-temperature co-fired ceramic technology and tested for key figures of merit, including the resonant frequency and radiation pattern. The shortened antenna not only shows performance comparable to a conventional unloaded MPA, but also exhibits good cross-polarisation. The loaded MPA achieved an area reduction of 83% as compared to an unloaded version. A procedure for designing an electrically small microstrip patch antenna (MPA) is developed, wherein the length of a side of the MPA is reduced to significantly less than a half-wavelength. The field distribution in the loaded MPA remains relatively unperturbed, unlike the (0) mode case that attempts to decrease the size by introducing a shorting-post; consequently, very low cross-polarisation behaviour is observed. The theory to predict the full spectrum of resonant frequencies of the antenna is developed, with finite-difference time-domain simulations used to finalise the antenna design. Finally, an electrically small (( lambda /6) x ( lambda /4)) and thin (<l lambda /65) antenna is fabricated at 465 MHz using low-temperature co-fired ceramic technology and tested for key figures of merit, including the resonant frequency and radiation pattern. The shortened antenna not only shows performance comparable to a conventional unloaded MPA, but also exhibits good cross-polarisation. The loaded MPA achieved an area reduction of 83% as compared to an unloaded version. A procedure for designing an electrically small microstrip patch antenna (MPA) is developed, wherein the length of a side of the MPA is reduced to significantly less than a half-wavelength. The field distribution in the loaded MPA remains relatively unperturbed, unlike the (0) mode case that attempts to decrease the size by introducing a shorting-post; consequently, very low cross-polarisation behaviour is observed. The theory to predict the full spectrum of resonant frequencies of the antenna is developed, with finite-difference time-domain simulations used to finalise the antenna design. Finally, an electrically small ((λ/6) x (λ/4)) and thin (<lλ/65) antenna is fabricated at 465 MHz using low-temperature co-fired ceramic technology and tested for key figures of merit, including the resonant frequency and radiation pattern. The shortened antenna not only shows performance comparable to a conventional unloaded MPA, but also exhibits good cross-polarisation. The loaded MPA achieved an area reduction of 83% as compared to an unloaded version. |
| Author | Rajab, K Z Lanagan, M T Mittra, R |
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| CitedBy_id | crossref_primary_10_1063_1_4762819 crossref_primary_10_1002_mop_23195 crossref_primary_10_1002_mop_24697 crossref_primary_10_1007_s10825_016_0872_8 crossref_primary_10_1007_s41870_018_0176_2 crossref_primary_10_1016_j_amc_2019_124573 crossref_primary_10_1088_1674_1056_27_11_117805 crossref_primary_10_1002_mop_25722 crossref_primary_10_1109_TAP_2012_2215298 crossref_primary_10_1080_09205071_2014_972470 crossref_primary_10_1088_1742_6596_1706_1_012073 crossref_primary_10_1155_2019_6284830 crossref_primary_10_1109_TAP_2009_2039305 crossref_primary_10_1109_TAP_2013_2263214 crossref_primary_10_1109_TBME_2015_2477403 crossref_primary_10_1111_j_1551_2916_2010_04148_x crossref_primary_10_1002_mop_28360 |
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| References | 10.1049/iet-map:20050334_r14 10.1049/iet-map:20050334_r3 Psychoudakis (10.1049/iet-map:20050334_r9) 2003 10.1049/iet-map:20050334_r15 10.1049/iet-map:20050334_r2 10.1049/iet-map:20050334_r16 10.1049/iet-map:20050334_r1 10.1049/iet-map:20050334_r17 10.1049/iet-map:20050334_r8 10.1049/iet-map:20050334_r11 Rajab (10.1049/iet-map:20050334_r12); 48 Eleftheriades (10.1049/iet-map:20050334_r6) 2004 Richards (10.1049/iet-map:20050334_r13) 1983; 3 10.1049/iet-map:20050334_r20 Rajab (10.1049/iet-map:20050334_r10) 2005; 2B Caloz (10.1049/iet-map:20050334_r5) 2002; 2 Iyer (10.1049/iet-map:20050334_r4) 2002 Sanada (10.1049/iet-map:20050334_r7) 2004 McKinzie (10.1049/iet-map:20050334_r21) 2002; 1 10.1049/iet-map:20050334_r18 10.1049/iet-map:20050334_r19 |
| References_xml | – start-page: 375 year: 2003 ident: 10.1049/iet-map:20050334_r9 publication-title: IEEE AP-S Int. Symp. contributor: fullname: Psychoudakis – volume: 48 start-page: 1792 issn: 0895-2477 ident: 10.1049/iet-map:20050334_r12 doi: 10.1002/mop.21809 contributor: fullname: Rajab – ident: 10.1049/iet-map:20050334_r20 doi: 10.1109/22.798001 – start-page: 1067 year: 2002 ident: 10.1049/iet-map:20050334_r4 publication-title: Proc. IEEE MTT-S Int. Symp. contributor: fullname: Iyer – ident: 10.1049/iet-map:20050334_r11 doi: 10.1109/TMTT.2005.845189 – ident: 10.1049/iet-map:20050334_r14 doi: 10.1109/8.827384 – volume: 3 start-page: 371 year: 1983 ident: 10.1049/iet-map:20050334_r13 contributor: fullname: Richards – ident: 10.1049/iet-map:20050334_r17 doi: 10.1109/4.792620 – ident: 10.1049/iet-map:20050334_r18 – ident: 10.1049/iet-map:20050334_r19 – start-page: 1399 year: 2004 ident: 10.1049/iet-map:20050334_r6 publication-title: IEEE AP-S Int. Symp. contributor: fullname: Eleftheriades – ident: 10.1049/iet-map:20050334_r16 doi: 10.1109/TAP.1981.1142524 – ident: 10.1049/iet-map:20050334_r1 doi: 10.1109/TAP.1981.1142523 – start-page: 1341 year: 2004 ident: 10.1049/iet-map:20050334_r7 publication-title: Eur. Microwave Conf. contributor: fullname: Sanada – volume: 2B start-page: 296 year: 2005 ident: 10.1049/iet-map:20050334_r10 publication-title: IEEE AP-S Int. Symp. contributor: fullname: Rajab – volume: 2 start-page: 412 year: 2002 ident: 10.1049/iet-map:20050334_r5 publication-title: IEEE AP-S Int. Symp. contributor: fullname: Caloz – ident: 10.1049/iet-map:20050334_r8 doi: 10.1049/el:20020977 – ident: 10.1049/iet-map:20050334_r15 doi: 10.1109/TAP.1979.1142057 – ident: 10.1049/iet-map:20050334_r2 doi: 10.1049/el:19950426 – ident: 10.1049/iet-map:20050334_r3 doi: 10.1002/(SICI)1098-2760(199609)13:1<12::AID-MOP4>3.3.CO;2-M – volume: 1 start-page: 762 year: 2002 ident: 10.1049/iet-map:20050334_r21 publication-title: IEEE AP-S Int. Symp. contributor: fullname: McKinzie |
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| SubjectTerms | Antennas Ceramics Finite difference method Mathematical analysis Microwave antennas Patch antennas Resonant frequencies Simulation |
| Title | Size reduction of microstrip patch antennas with left-handed transmission line loading |
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