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Aravindraj, E.
- Design of Slotted H-Shaped Patch Antenna with Dumbbell Shaped DGS for 3.5 GHz WiMAX Applications
Abstract Views :227 |
PDF Views:0
Authors
E. Aravindraj
1,
K. Ayyappan
1
Affiliations
1 Department of Electronics and Communication Engineering, Rajiv Gandhi College of Engineering and Technology, Puducherry, IN
1 Department of Electronics and Communication Engineering, Rajiv Gandhi College of Engineering and Technology, Puducherry, IN
Source
Indian Journal of Innovations and Developments, Vol 5, No 2 (2016), Pagination: 1-6Abstract
Objectives: To improve the antenna parameters for 3.5GHz WiMAX frequency by introducing slotted H-shaped patch with Dumbbell (H) shaped Defective Ground Surface (DGS).
Methods/analysis: In wireless communication, microstrip patch antennas are playing a vital role in various wireless applications. Worldwide Interoperability for Microwave Access (WiMAX) has been widely used in voice, data, video and internet access. WiMAX can able to provide above 100Mbps data rates.
Findings: The proposed antenna has symmetrical properties and has been designed by a dumbbell (H) shaped DGS on Flame Retardant-4 (FR-4) substrate fed up by microstrip feeding. The dimension of the designed antenna is 29×35×1.56mm. It radiates at 3.5GHz WiMAX frequency.
Improvements/Applications: The designed antenna offers improved antenna parameters for 3.5 GHz WiMAX applications.
Keywords
Microstrip Patch Antenna, Slotted H-Shaped Patch, Dumbbell (H) Shaped Defective Ground Space, FR-4 Substrate, WiMAX.Full Text
References
- Makhluk Hossain Prio, Md. Mamun Ur Rashid, Liton Chandra Paul, Ajay Krishno Sarkar. Total efficiency comparison of different shaped microstrip patch antennas having defected ground structure. In 2015 International Conference on Electrical & Electronic Engineering (ICEEE), Bangladesh, 2015; 265-268.
- V. Palanisamy, R. Garg. Rectangular ring and H-shaped microstrip antennas–Alternatives to rectangular patch antenna. Electronics Letters. 1985; 21(19), 874-876.
- R. Cai, S. Lin, G. Huang, J. Wang. Simulation and experimental research on the multi-band slot-loaded printed antenna.In 2010 IEEE 12th International Conference on Communication Technology, China, 2010; 500-503.
- Jianling Chen, Kin-Fai Tong, Allann Al Armaghany, Junhong Wang. A dual band dual polarization slot patch antenna for GPS and Wi-Fi applications. IEEE Antennas and Wireless Propagation Letters. 2015; 15, 406-409.
- Merbin John, B.Manoj, G.Jagadish Chandran. Design of a slotted rectangular microstrip patch antenna operated in ISM band using RT-duroid substrate. International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering.2016; 5(S4), 15-21.
- Antonidos G. Sarigiannidis, Petros Nicopolitidis, Georgios. Papadimitriou, Panagiotis G. Sarigiannidis, Malamati D. Louta. On the use of learning automata in tuning the channel split ratio of WiMAX networks. IEEE systems journal. 2015; 9(3), 651-663.
- Punita Mane, S.A. Patil, P.C. Dhanawade. Comparative study of microstrip antenna for different substrate material at different frequencies. International Journal of Emerging Engineering Research and Technology. 2014; 2(9), 18-23.
- Kiran Jain, Keshav Gupta. Different substrates use in microstrip patch antenna-A survey. International Journal of Science and Research. 2014, 3(5), 1-2.
- L.H. Weng, Y.C. Guo, X.W. Shi, X.Q. Chen. An overview on defected ground structure. Progress in Electromagnetic Research, 2008; 7, 173-189.
- C.A. Balanis. Antenna Theory: Analysis and design. 2rd (edn), John Wiley & Sons: US. 2005.
- T.V. Hoang, H.C. Park. Very simple 2.45/3.5/5.8 GHz triple-band circularly polarised printed monopole antenna with bandwidth enhancement. Electronics Letters.2014; 50(24), 1792-1793.
- S. Tignath, L. Shrivastava. Design and analysis of E shaped effected ground antenna using MATLAB. International Journal of Advanced Research in Computer Science &Technology. 2013; 1(1), 27-29.
- A.S.U. Constantine, A. Balanis. Antenna Theory: analysis and design. 3rd (edn), John Wiley& Sons: US. 2005; 811-882.
- Survey on Slotted H-Shaped MPA Design for Different ISM Band Radio Frequencies
Abstract Views :240 |
PDF Views:0
Authors
E. Aravindraj
1,
K. Ayyappan
1
Affiliations
1 Dept of Electronics and Communication Engineering, Rajiv Gandhi College of Engineering and Technology, Puducherry, IN
1 Dept of Electronics and Communication Engineering, Rajiv Gandhi College of Engineering and Technology, Puducherry, IN
Source
Indian Journal of Innovations and Developments, Vol 5, No 3 (2016), Pagination: 1-5Abstract
Objectives: To improve the parameters of the microstrip patch antenna (MPA) by introducing slotted H-shaped patch with Dumbbell (H) shaped Defective Ground Surface (DGS).
Methods/Statistical analysis: MPA is playing a vital role in various wireless applications such as Wireless local area network (WLAN) and Worldwide Interoperability for Microwave Access (WiMAX) which are widely used in mobile devices such as pocket computers, dongles and intelligent phones. However there are some performance degradations in the antenna parameters. Hence in this paper, this problem in the patch antenna will be minimized.
Findings: The designed antenna structure has a slotted H-shaped microstrip patch with dumbbell (H) shaped DGS on the ground plane. Through this type of antenna design for all different ISM frequencies are standardized with the slotted H-shaped MPA compared to other shapes. Thus, this slotted H-shaped antenna is preferable compared the usage of other shaped antenna in various part of the application.
Improvements/Applications: This slotted H-shaped microstrip patch offers improved antenna parameters compared to other shaped patch antenna. It can be used for 2.4/5.2/5.8 GHz WLAN and 3.5 GHz WiMAX applications is proposed.
Keywords
Microstrip Patch Antenna, Slotted H-Shaped Patch, Dumbbell (H) Shaped Defective Ground Space, FR-4 Substrate.Full Text
References
- Makhluk Hossain Prio, Md. Mamun Ur Rashid, Liton Chandra Paul, Ajay Krishno Sarkar. Total efficiency comparison of different shaped microstrip patch antennas having defected ground structure. In 2015 International Conference on Electrical & Electronic Engineering (ICEEE), Bangladesh, 2015; 265-268.
- Viet Hoang, Tuan Tu Le, Qiu Yu Li, Hyun Chang Park. Quad-band circularly polarized antenna for 2.4/5.3/5.8 GHz WLAN and 3.5 GHz WiMAX application. IEEE Antennas and Wireless Propagation Letters. 2015; 15, 1032-1035.
- R. Cai, S. Lin, G. Huang, J. Wang. Simulation and experimental research on the multi-band slot-loaded printed antenna. In 2010 IEEE 12th International Conference on Communication Technology, China, 2010; 500-503.
- Merbin John, Manoj B, Jagadish Chandran G. Design of a slotted rectangular microstrip patch antenna operated in ISM band using RT-duroid substrate. International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering. 2016; 5(S4), 15-21.
- Jianling Chen, Kin-Fai Tong, Allann Al Armaghany, Junhong Wang. A Dual Band Dual Polarization Slot Patch Antenna for GPS and Wi-Fi Applications. IEEE, September 2015.
- Mrs. Punita Mane, Dr. S.A Patil, P.C. Dhanawade. Comparative study of microstrip antenna for different substrate material at different frequencies. International Journal of Emerging Engineering Research and Technology.2014; 2(9), 18-23.
- Kiran Jain, Keshav Gupta. Different substrates use in microstrip patch antenna-A survey. International Journal of Science and Research (IJSR).2014, 3(5), 1-2.
- C.A. Balanis, Antenna Theory: Analysis and Design. 2nd (Edn), John Wiley & Sons. US. 2005.
- L. H. Weng, Y.C. Guo, X.-W. Shi, X.Q. Chen. An overview on defected ground structure. Progress In Electromagnetic Research B.2008; 7, 173-189.
- T. V. Hoang, H. C. Park. Very simple 2.45/3.5/5.8 GHz triple-band circularly polarised printed monopole antenna with bandwidth enhancement. Electronics Letters.2014; 50(24), 1792-1793.
- V. Palanisamy, R. Garg. Rectangular ring and H-shaped microstrip antennas – Alternatives to rectangular patch antenna. Electronics Letters. 1985; 21(19), 874-876.
- S. Verma, P. Kumar. Compact triple-band antenna for WiMAX and WLAN applications. Electronics Letters.2014; 50(7), 484-486.
- Performance Analysis of Rectangular MPA Using Different Substrate Materials for WLAN Application
Abstract Views :270 |
PDF Views:3
Authors
Affiliations
1 Department of Electronics and Communication Engineering, Rajiv Gandhi College of Engineering and Technology, IN
2 Department of Electronics and Communication Engineering, SRM University, IN
1 Department of Electronics and Communication Engineering, Rajiv Gandhi College of Engineering and Technology, IN
2 Department of Electronics and Communication Engineering, SRM University, IN
Source
ICTACT Journal on Communication Technology, Vol 8, No 1 (2017), Pagination: 1447-1452Abstract
In this paper, a rectangular microstrip patch antenna (MPA) is designed using different substrate materials for analyzing the performance of the MPA. Alumina (Al2O3), Bakelite, Beryllium oxide (BeO), Gallium Arsenide (GaAs), RT-Duroid and Flame Retardant 4 (FR-4) are the six different substrate used in the design. The size of the rectangular microstrip patch antenna varies according to the dielectric constant of substrate materials used. The operating frequency taken for this analysis is 5.8 GHz. The proposed design provides the study on the performance of rectangular microstrip patch antenna for different substrate materials using the same frequency. This study conveys that which substrate material provides better performance. Moreover, this comparative study conveys that which substrate material provides better performance. The simulation parameters are investigated using HFSS.Keywords
Rectangular Microstrip Patch, Substrate Materials, Al2O3, Bakelite, BeO, GaAs, RT-Duroid and FR-4 and HFSS.
References
- Constantine A. Balanis, “Antenna Theory Analysis and Design”, 3rd Edition, Wiley, 2015.
- T. Jayachitra, V.K. Pandey and Anshuman Singh, “Design of Microstrip Patch Antenna for WLAN Applications”, International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering, Vol. 3, No. 3, pp. 17-22, 2014.
- Sant Sharan Shukla, Rahul Kumar Verma and Gurpreet Singh Gohir, “Investigation of the effect of Substrate material on the performance of Microstrip antenna”, Proceedings of 4th International Conference on Reliability, Infocom Technologies and Optimization, pp. 1-3, 2015.
- Amba Srivastava and Nandita Pradhan, “Analysis of Different Substrate Material and Frequency on Microstrip Patch Antenna”, International Journal of Electronics, Electrical and Computational System, Vol. 6, No. 2, pp. 58-64, 2017.
- Gurpreet Kaur and Sonia Goyal, “To Study the Effect of Substrate Material for Microstrip Patch Antenna”, International Journal of Engineering Trends and Technology, Vol. 36, No. 9, pp. 490-493, 2016.
- Sagar D. Mahamine, Rahul S. Parbat, Shekhar H. Bodake and Mahesh P. Aher, “Effects of Different Substrates on Rectangular Microstrip Patch Antenna for S-band”, International Conference on Automatic Control and Dynamic Optimization Techniques, pp. 1146-1145, 2016.
- Saad Hassan Kiani, Khalid Mahmood, Umar Farooq Khattak, Burhan-Ud-Din and Mehre Munir, “U Patch Antenna using Variable Substrates for Wireless Communication Systems”, International Journal of Advanced Computer Science and Applications, Vol. 7, No. 12, pp. 286-291, 2016.
- Munira Bano, A.K. Rastogi and Shanu Sharma, “Design and Simulation of Microstrip Patch Antenna using Different Substrates”, International Journal of Advanced Research in Computer Engineering and Technology, Vol. 3, No. 11, pp. 3871-3875, 2014.
- Trupti Ingale, Chaitali Ingale, A.A. Trikolikar, Gunjan Rathore and P.C. Latane, “Effect of Different Substrate Material on Performance of H Shaped Patch Antenna”, International Journal of Innovative Research in Computer and Communication Engineering, Vol. 2, No. 11, pp. 1-2, 2014.
- Kolli Venkatrao and S.S. Mohan Reddy, “Design and Performance Analysis of Microstrip Patch Antenna using Different Dielectric Substrates”, International Journal of Electronics and Communication, Vol. 2, No. 11, pp. 26-35, 2014.
- Tilak Mukherjee, P. Venkat Rao, M.V.L. Bhavani and Abhishek Kumar Sinha, “Microstrip Patch Antenna Characteristics using Different Dielectric Substrates”, International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering, Vol. 4, No. 5, pp. 3813-3818, 2015.
- Punita Mane, S.A. Patil and P.C. Dhanawade, “Comparative Study of Microstrip Antenna for Different Subsrtate Material at Different Frequencies”, International Journal of Emerging Engineering Research and Technology, Vol. 2, No. 9, pp. 18-23, 2014.
- A.A. Qureshi, M.U. Afzal, T. Taqueer and M.A. Tarar, “Performance Analysis of FR-4 Substrate for High Frequency Microstrip Antennas”, Proceedings of China Japan Joint Microwave Conference, 2011.
- Kiran Jain and Keshav Gupta, “Different Substrates use in Microstrip Patch Antenna-A Survey”, International Journal of Science and Research, Vol. 3, No. 5, pp. 1802-1803, 2014
- Chidre Sagar Ram and V.M. Dhede, “Gain Improvement Techniques for Rectangular Microstrip Patch Antenna for different Frequencies”, International Journal of Advance Research and Innovative Ideas in Education, Vol. 2, No. 4, pp. 475-480, 2016.
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