Design and Simulation of a Sample of Integrated Broadband Antenna and Omni-Directional for Marine Floats
Subject Areas : Transportation systemsMaisam Vaheb 1 , Ali Hashemi 2 , Hossein Emami 3 , Mahdi Emami 4
1 - .sc. - Department of Electrical Engineereng, Majlesi Branch, Islamic Azad University, Majlesi, Esfahan, Iran
2 - Assistant Professor - Department of Electrical Engineereng, Majlesi Branch, Islamic Azad University, Majlesi, Esfahan, Iran
3 - Assistant Professor - Department of Electrical Engineereng, Majlesi Branch, Islamic Azad University, majlesi, Esfahan, Iran
4 - Ph.D.- Department of Electrical Engineering, Yazd University, Yazd, Iran
Keywords: Integrated broadband antenna, marine floats, omni directional antenna,
Abstract :
Nowadays one of the specialized and important issues in construction of marine floats is to design the communication telecom system between them. Always this issue has been posed how to establish an appropriate communication for floats in different distances and different weather conditions in the sea. Due to the restrictions, such as equipment size, weight bearing on the floats has always existed.One of the main parts of telecom communication system is antenna.The main problem, use antennas and Towers various in floats, As required, waves with different wavelength sand different routes to be published. If the antenna can be designed with small dimensions and possible,wide frequency range and also covered omni-directions, the problem has been mentioned above somewhat is resolved. The purpose of this paper is to design and simulate of a sample of integration broadband antenna and omni-directional, that resolve About restrictions above and Integration of two antennas in frequency range of VHF/UHF=150-450MHZ and HF=3-30MHZ with characteristics of 50ohm input impedance, linear vertical polarization, VSWR<2.5, antenna gain ranges between (-12)dBi to (4.8)dBi, the maximum antenna diameter of 18cm, and the maximum height of opened antenna of 538.2cm.
[1] F. Eskandari, Z. Firoozeh, "Submarine integrated aantenna", National Conference on Science and Technology Under The Sea, Iran. 2007.
[2] C.A. Balanis, “Antenna theory analysis and design”, 3rd ed. Reading, New York: John Wiley, 2005. [E-book] Available
[3] J. Volakis, “Antenna engineering hand book”, 4th ed. Reading, New York: MCGRAW- Hill, 2007. [E-book] Available
[4]Y. Zhang, G. Fu "Research on a novel wide-band sleeve antenna”, IEEE Trans. on Antennas and Wierless Propagation, Vol. 4, pp. 1-4, Aug 2014.
[5] Y. Zhang, I. Glover, "Design of an ultra wideband VHF/UHF antenna for partial discharg detection", Proceeding of the IEEE/ICSPCC, pp.487-490, Gulin, Aug. 2014.
[6] W. Lin, Z. Shen "Broadband horizontally polarized HF antenna with extremely low profile above conducting ground", Proceeding of the IEEE/APSURCI, pp. 688-689, Orlando, July 2013.
[7] J. Qiu, Y. Zhang "Novel miniaturized broadband HF antenna", Proceeding of the IEEE/ICMMT, pp. 1-3, Shenzhen, May 2012.
[8] Y. Huang, K. Boyle, “Antennas from theory to practice”, Reading, New York: John Wiley, 2008. [E-book] Available
[9] Y. zhang, Z.Y. Hang, G. Fu, L. Yang, "Research on a novel wide-band sleeve antenna", Proceeding of theIEEE/URSIGASS,pp. 1-4, Beijing, Aug. 2014.
[10] J. Chu, C. Ruan, X. Liang, Y. Cui, "A small size broadband antenna used in VHF/UHF band," Proceeding of the IEEE/ISAPE, pp. 254-256, Kunming, Nov. 2008.
[11] F. Plonski, C. Gyenes, "Efficient HF submarine antennas", Proceeding of the IEEE/APS, pp. 1-4, San Diego, July 2008.
[12]L. Mattioni, G. Marrocco, "Design of a broadband HF antenna for multimode naval communications", IEEE Trans. on Antennas and Wierless Propagation, Vol. 4, pp. 179-182, June 2005.
[13] L. Mattioni, G. Marrocco, "Design of a broadband HF antenna for multimode naval communications to VHF/UHF ranges", IEEE Trans. on Antennas and Wierless Propagation, Vol. 6, pp. 83-85, March 2007.
[14] C. Bowick, “RF circuit design”, 2th ed. Reading, Amsterdam: Elsevier, 2008. [E-book] Available.
[15] W. Blodgett "3.5 to 30 MHZ automatic antenna impedance matching system", Ph.D. Dissertation, Dept. Elect. Eng., California Polytechnic Univ., USA, 2012.
[16] J. Yu, W. Dong, "Impedanc matching using the smith chart", Applied Mechanics and Materials, Vol. 701-702, pp. 1158-1161, Dec. 2014.
[17] D.L. Malkinski, “Advanced magnetic materials”, Win Chester: Intech, 2012. [E-book] Available.
[18] D. Gavrila, H. Gavrila, "Dielectrice properties of the composite insulator mica epoxy", IEEE Trans. on Advanced Materials Research, Vol. 701, pp. 47-52, May 2013.
_||_