Home   >   CSC-OpenAccess Library   >    Manuscript Information
Full Text Available

(412.95KB)
This is an Open Access publication published under CSC-OpenAccess Policy.
Publications from CSC-OpenAccess Library are being accessed from over 74 countries worldwide.
High Gain Multiband Loaded Inverted-F Antennas for Mobile WiMAX, Wi-Fi, Bluetooth, and WLAN Operation
Debabrata Kumar Karmokar, Khaled Mahbub Morshed, Abu Md. Numan-Al-Mobin, A. N. M. Enamul Kabir
Pages - 219 - 232     |    Revised - 30-06-2010     |    Published - 10-08-2010
Volume - 4   Issue - 3    |    Publication Date - July 2010  Table of Contents
MORE INFORMATION
KEYWORDS
Inverted-F antenna, Loaded inverted-F antenna, Worldwide interoperability for microwave access (W, Wireless-Fidelity (Wi-Fi), Bluetooth, Wireless local area network (WLAN)
ABSTRACT
Loaded inverted-F antennas (LIFA’s) suitable to be applied multiband operation in a portable device as an internal antenna having high gain property for mobile WiMAX, Wi-Fi, Bluetooth, and WLAN operation is presented. The proposed antennas are directly feed by coaxial connector. The antenna arms effectively control the excited resonant modes for the required operation. Total area occupies by the antennas are 24 × 37 mm2, and 29 × 37 mm2 in case of slightly loaded IFA (SLIFA), and moderately loaded IFA (MLIFA) respectively. The antennas contain an incredibly good peak gain of 8.31, 8.88, and 6.32 dBi and 8.48, 8.67, and 6.89 dBi for 2.3 GHz mobile WiMAX, 2.4 GHz WLAN/Bluetooth, and 5.8 GHz Wi-Fi operation for SLIFA and MLIFA respectively, with less than 0.84 dBi at lower operating band and less than 1.8 dBi at upper band gain variation within the 10 dB return loss bandwidth. In addition, the antennas have achievable bandwidth, return loss, and radiation characteristics.
CITED BY (9)  
1 Rahman, R., Morshed, K. M., Sabrin, S., & Rahman, M. M. Wideband Planar Monopole Antenna for LTE, GSM, Bluetooth, WiMAX, DCS, PCS, and GPS Mobile Terminals.
2 Sabrin, S., & Rahman, M. M. (2015, May). Wearable antenna with low SAR for 2.45 GHz wireless medical devices and analysis of the effect of different spacing introduced. In Electrical Engineering and Information Communication Technology (ICEEICT), 2015 International Conference on (pp. 1-6). IEEE.
3 Sabrin, S., & Rahman, M. M. (2015, May). High gain on-body planar antenna with complete ground plane for 5.5 GHz wireless medical devices. In Electrical Engineering and Information Communication Technology (ICEEICT), 2015 International Conference on (pp. 1-6). IEEE.
4 Dutta, D., Hira, A., Asjad, F., & Haider, T. I. (2014, December). Compact triple C shaped microstrip patch antenna for WLAN, WiMAX & Wi-Fi application at 2.5 GHz. In Software, Knowledge, Information Management and Applications (SKIMA), 2014 8th International Conference on (pp. 1-4). IEEE.
5 Rahman, M. M., Hossain, M. M., & Karmakar, K. K. (2013, February). ?-shape microstrip antenna design for WiMAX, Wi-Fi and biomedical application at 2.45 GHz. In Advance Computing Conference (IACC), 2013 IEEE 3rd International (pp. 546-549). IEEE.
6 Sabrin, S., Morshed, K. M., Rahman, M. M., & Karmokar, D. K. A Compact, Wide-Beam, High Gain Antenna for Wearable Medical Body-Area Network Devices.
7 Hossain, M. R., & Karmokar, D. K. (2012). Dual-band Inverted-F Antenna for Military and Intelligent Transportation System Applications.
8 Z. Bayraktar, M. Komurcu, Z. H. Jiang, D.H. Werner, P.L .Werner,“Stub-loaded inverted-F antenna synthesis via Wind Driven Optimization”, in IEEE International Conference Antennas and Propagation , Spokane, 3-8 July 2011, pp. 2920 – 2923.
9 Bayraktar, Z. (2011). Novel meta-surface design synthesis via nature-inspired optimization algorithms (Doctoral dissertation, The Pennsylvania State University).
1 Google Scholar 
2 Academic Journals Database 
3 Academic Index 
4 CiteSeerX 
5 refSeek 
6 iSEEK 
7 Socol@r  
8 ResearchGATE 
9 Libsearch 
10 Bielefeld Academic Search Engine (BASE) 
11 Scribd 
12 WorldCat 
13 SlideShare 
14 PdfSR 
15 PDFCAST 
16 Chinese Directory Of Open Access 
1 J. Jung, H. Lee and Y. Lim. “Compact Monopole Antenna for Dual ISM-Bands (2.4 and 5.8 GHz) Operation”. Microwave and Optical Technology Letters, 51(9): 2227-2229, 2009
2 K. -L. Wong and P. -Y. Lai. “Wideband Integrated Monopole Slot Antenna for WLAN/WiMAX Operation in the Mobile Phone”. Microwave and Optical Technology Letters, 50(8): 2000-2005, 2008
3 W. C. Liu and W. R. Chen. “CPW-Fed Compact Meandered Patch Antenna for Dual-Band Operation”. Electronics Leters, 40(18): 1094–1095, 2004
4 T. H. Kim and D. C. Park. “CPW-Fed Compact Monopole Antenna for Dual-Band WLAN Applications”. Electronics Leters, 41(6): 292–293, 2005
5 Y. -D. Lin and P. -L. Chi. “Tapered Bent Folded Monopole for Dual-Band Wireless Local Area Network (WLAN) Systems”. IEEE Antennas and Wireless Propagation Letters, 4: 355–357, 2005
6 Y. -L. Kuo and K. -L. Wong. “Printed Double-T Monopole Antenna for 2.4/5.2 GHz Dual-Band WLAN Operations”. IEEE Transactions on Antennas and Propagation, 51(9): 2187–2192, 2003
7 S. H. Choi, J. K. Park, S. K. Kim and H. Y. S. Kim. “Design of Dual-Band Antenna for the ISM Band Using a Backed Microstrip Line”. Microwave and Optical Technology Letters, 41(6): 457–460, 2004
8 C. -Y. Huang and P. -Y. Chiu. “Dual-Band Monopole Antenna with Shorted Parasitic Element”. Electronics Leters, 41(21): 1154–1155, 2005
9 M. N. Suma, R. K. Raj, M. Joseph, P. C. Bybi and P. Mohanan. “A Compact Dual-Band Planar Branched Monopole Antenna for DCS/2.4 GHz WLAN Applications”. IEEE Microwave and Wireless Components Letters, 16(5): 275–277, 2006
10 C. -Y. Pan, T. -S. Horng, W. -S. Chen and C. -H. Huang. “Dual Wideband Printed Monopole Antenna for WLAN/WiMAX Applications”. IEEE Antennas and Wireless Propagation Letters, 6: 149-151, 2007
11 S. -Y. Sun, S. -Y. Huang and J. -S. Sun. “A Printed Multiband Antenna for Cellphone Applications”. Microwave and Optical Technology Letters, 51(3): 742-744, 2009
12 T. -Y. Wu, S. -T. Fang and K. -L. Wong. “Printed Monopole Array Antenna for WLAN Operation in the 2.4/5.2/5.8 GHz Bands”. Microwave and Optical Technology Letters, 37(5): 370-372, 2003
13 J. -W. Wu, Y. -D. Wang, H. -M. Hsiao and J. -H. Lu. “T-Shaped Monopole Antenna with Shorted L-Shaped Strip-Sleeves for WLAN 2.4/5.8-GHz Operation”. Microwave and Optical Technology Letters, 46(1): 65-69, 2005
14 K. -L. Wong and W. -J. Chen. “Small-Size Microstrip-Coupled Printed PIFA for 2.4/5.2/5.8 GHz WLAN Operation in the Laptop Computer”. Microwave and Optical Technology Letters, 51(9): 2072-2076, 2009
15 S. -W. Su, S. -T. Fang and K. -L. Wong. “A Low-Cost Surface-Mount Monopole Antenna for 2.4/5.2/5.8-GHz Band Operation”. Microwave and Optical Technology Letters, 36(6): 487-489, 2003
16 L. Pazin, N. Telzhensky and Y. Leviatan. “Multiband Flat-Plate Inverted-F Antenna for Wi-Fi/WiMAX Operation”. IEEE Antennas and Wireless Propagation Letters, 7: 197-200, 2008
17 Y. Song, Y. -C. Jiao, G. Zhao and F. -S. Zhang. “Multiband CPW-Fed Triangle-Shaped Monopole Antenna for Wireless Applications”. Progress in Electromagnetics Research, PIER, 70: 329–336, 2007
18 K. -L. Wong and L. -C. Chou. “Internal Wideband Metal-Plate Antenna for Laptop Application”. Microwave and Optical Technology Letters, 46(4): 384-387, 2005
19 K. -L. Wong and L. -C. Chou. “Internal Composite Monopole Antenna for WLAN/WiMAX Operation in A Laptop Computer”. Microwave and Optical Technology Letters, 48(5): 868-871, 2006
20 C. -J. Wang and S.-W. Chang. “Studies on Dual-Band Multi-Slot Antennas”. Progress in Electromagnetics Research, PIER, 83: 293–306, 2008
21 Y. -S. Shin and S. -O. Park. “A Compact Loop Type Antenna for Bluetooth, S-DMB, WiBro, WiMAX, and WLAN Applications”. IEEE Antennas and Wireless Propagation Letters, 6: 320-323, 2007
22 Y. -S. Shin and S. -O. Park. “A novel compact PIFA for Wireless Communication applications”. IEEE Region 10 Conference, 2007
23 K. –L. Wong, L. –C. Chou and C. –M. Su. “Dual-Band Flat-Plate Antenna with a Shorted Parasitic Element for Laptop Applications”. IEEE Transactions on Antennas and Propagation, 53(1): 539-544, 2005
24 Wei-Cheng Su and Kin-Lu Wong. “Internal PIFA’s for UMTS/WLAN/WiMAX Multi-Network Operation for a USB Dongle”. Microwave and Optical Technology Letters, 48(11): 2249-2253, 2006
25 Y. –S. Wang, M. –C. Lee and S. –J. Chung. “Two PIFA-Related Miniaturized Dual-Band Antennas”. IEEE Transactions on Antennas and Propagation, 55(3): 805-811, 2007
26 K. L. Chung, T. H. Mak and W. Y. Tam. “A Modified Two-Strip Monopole Antenna for Wi-Fi and WiMAX Applications”. Microwave and Optical Technology Letters, 51(12): 2884-2886, 2009
27 K. -L. Wong, T. -Y. Wu, S. -W. Su and J. -W. Lai. “Broadband Printed Quasi-Self-Complementary Antenna for 5.2/5.8 GHz WLAN Operation”. Microwave and Optical Technology Letters, 39(6): 495-496, 2003
28 W. -C. Liu. “A Coplanar Waveguide-Fed Folded-Slot Monopole Antenna for 5.8 GHz Radio Frequency Identification Application”. Microwave and Optical Technology Letters, 49(1): 71-74, 2007
29 W. -C. Liu and C. -M. Wu. “CPW-Fed Shorted F-Shaped Monopole Antenna for 5.8-GHz RFID Application”. Microwave and Optical Technology Letters, 48(3): 573-575, 2006
30 Z. N. Chen and M. Y. W. Chia. “Broadband Planar Inverted-L Antennas”. IEE Proceedings Microwave Antennas Propagation, 148(5): 339-342, 2001
31 S. -W. Su, K. -L. Wong and H. -T. Chen. “Broadband Low-Profile Printed T-Shaped Monopole Antenna for 5-GHz WLAN Operation”. Microwave and Optical Technology Letters, 42(3): 243-245, 2004
32 G. J. Burke and A. J. Poggio. “Numerical Electromagnetic Code-2”. Ver. 5.7.5, Arie Voors, 1981
33 M. –C. T. Huynh. “A Numerical and Experimental Investigation of Planar Inverted-F Antennas for Wireless Communication Applications”. M.Sc. Thesis, Virginia Polytechnic Institute and State University, October 2000
34 K. Hirisawa and M. Haneishi. “Analysis, Design, and Measurement of small and Low-Profile Antennas”. Artech House, Boston, 1992
Mr. Debabrata Kumar Karmokar
Khulna University of Engineering & Technology (KUET) - Bangladesh
debeee_kuet@yahoo.com
Mr. Khaled Mahbub Morshed
Khulna University of Engineering & Technology (KUET) - Bangladesh
Mr. Abu Md. Numan-Al-Mobin
Khulna University of Engineering & Technology (KUET) - Bangladesh
Mr. A. N. M. Enamul Kabir
Khulna University of Engineering & Technology (KUET) - Bangladesh