The week's pick
Reseach Article
Design and Implementation of Triple Band Microstrip Patch Antenna using LTCC and RT Duroid Including Random Effect
| International Journal of Computer Applications |
| Foundation of Computer Science (FCS), NY, USA |
| Volume 48 - Number 23 |
| Year of Publication: 2012 |
| Authors: Mayank Bhargava, Rajesh Nema |
10.5120/7518-9853
|
Mayank Bhargava, Rajesh Nema . Design and Implementation of Triple Band Microstrip Patch Antenna using LTCC and RT Duroid Including Random Effect. International Journal of Computer Applications. 48, 23 ( June 2012), 7-14. DOI=10.5120/7518-9853
Abstract
For most of the weather antenna application, the antenna must be covered with radome to enhance operational efficiency in all weather circumstances. This radome provides environmental protection and along with that it enhances antenna performance. The antenna manufacturer must evaluate radome scattering level so that they can estimate the parameter of cost effective antenna and can provide maximum efficiency at minimum power requirement. It is well known that continuous antenna measurement on the radome enclosed antenna is difficult to perform, the analysis of the radome's effect on antenna pattern can be done by practical method. We analyzed microstip patch antenna in IE3D by finite moment method. The proposed antenna design have been analyzed between 1GHz to 20GHz. When the proposed antenna design for different geometries (i. e. Rectangular and Circular) were examined for two dielectric i. e. RT Duroid 5870 with dielectric constant 2. 33, loss tangent 0. 0005 and Ferro A6M LTCC with dielectric constant 5. 9, loss tangent 0. 0012 the results are: In case of rectangular geometry directivity is 11. 1329 and efficiency is 39. 9296% and in case of circular geometry directivity is 7. 67422 and efficiency is 100%.
References
- Experimental Investigation of an Equilateral Triangular Microstrip Antenna with a Dielectric Radome. Manotosh Biswas and Debatosh Guha, Institute of Radio Physics and Electronics, University of Calcutta, Kolkata (India). International Conference on Microwave – 08.
- Analysis of triangular patch antenna including radome effects. H. R. Hassani and D. Mirshekar-Syahkal.
- Input impedance and resonance characterstics of superstrate-loaded triangular microstrip patch. M. Biswas and D. Guha.
- D. Guha and J. Y. Siddiqui, "Resonant frequency of circular microstrip antenna covered with dielectric superstrate, " IEEE Trans. Antennas Propagate. , vol 51, no. 7, pp. 1649-1652, July 2003.
- Improved CAD Formulae to Calculate the Input Impedance of an Equilateral Triangular Microstrip Patch Including Radome Effect. Manotosh Biswas and Anirban Mandal. 2009 International Conference on emerging Trends in Electronics and Photonic Devices & Systems (ELECTRO-2009).
- Input impedance and resonance characterstics of superstrate-loaded triangular microstrip patch. M. Biswas and D. Guha. IET Microwaves, Antennas & Propogation.
- Scattering Reduction of a Microstrip Patch With An An In-plane Biased Ferrite Cover Layer. David Hung Y. Yang, Department of Electrical Engineering and Computer Science, University of Illinois at Chicago, IL 60607 and Jesse A. Castaneda, Phraxos R&D Inc. 2716 Ocean Park Blvd. #1020, Santa Monica CA 90405.
- New Multiband E-Shape Microstrip Patch Antenna On RT DUROID 5880 Substrate and RO4003 Substrate for Pervasive Wireless Communication. Dr. Anubhuti Khare, Rajesh Nema and Puran Gour.
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