Open Access Open Access  Restricted Access Subscription Access

Explosive Detection Approach by Printed Antennas


Affiliations
1 Department of Electronics and Communication Engineering, PET Engineering College, Anna University, India
 

Microstrip patch antennas are recently used in wireless detection applications due to their low power consumption, low cost, versatility, field excitation, ease of fabrication etc. The microstrip patch antennas are also called as printed antennas which is suffer with an array elements of antenna and narrow bandwidth. To overcome the above drawbacks, Flame Retardant Material is used as the substrate. Rectangular shape of microstrip patch antenna with FR4 material as the substrate which is more suitable for the explosive detection applications. The proposed printed antenna was designed with the dimension of 60 x 60 mm2. FR-4 material has a dielectric constant value of 4.3 with thickness 1.56 mm, length and width 60 mm and 60 mm respectively. One side of the substrate contains the ground plane of dimensions 60 x60 mm2 made of copper and the other side of the substrate contains the patch which have dimensions 34 x 29 mm2 and thickness 0.03mm which is also made of copper. RMPA without slot, Vertical slot RMPA, Double horizontal slot RMPA and Centre slot RMPA structures were designed and the performance of the antennas were analysed with various parameters such as gain, directivity, Efield, VSWR and return loss. From the performance analysis, double horizontal slot RMPA antenna provides a better result and it provides maximum gain (8.61dB) and minimum return loss (-33.918dB). Based on the E-field excitation value the SEMTEX explosive material is detected and it was simulated using CST software.

Keywords

Gain, Directivity, Return Loss, E-Field, H-Field.
User
Notifications
Font Size

  • Aditi Sharma, Vivek K. Dwivedi, and G. Singh (2008), “THz Rectangular Patch Microstrip Antenna Design Using Photonic Crystal as Substrate” Progress In Electromagnetics Research Symposium, vol. no.23, P.No 161-165.
  • Alka, Devan Bhalla, Krishan Bansal(2009), “Rectangular microstrip patch antenna in X-band for wireless applications” MIT International journal of Electronics and Communication Engineering Volume 1, No.1.
  • S.Anscy(2013), “Slot Microstrip antenna for 2.4GHz RFID reader application”, International Journal of Advanced Research in Electronics and Communication Engineering (IJARECE) Volume 2, Issue 5.
  • Bhavani Danana, Balamati Choudhury, R M Jha(2014), “Design of High Gain Microstrip Antenna for THz Wireless Communication” International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering Vol. 3, Special Issue 5.
  • Bikash Ranjan Behera and Priyadarshi Suraj(2016),“Effect of Substrates on Metamaterial Based Antenna Design and Analysis of Antenna using Different Substrates” IEEE WiSPNET conference, 9781-4673-9338 IEEE P.No 665-669.
  • E.M.Cheng, M. Fareq, Shahriman A. B.1, Mohd Afendi R.1,Y.S.Lee, S. F. Khor(2014), “ Development of Microstrip Patch Antenna Sensing System for Salinity and Sugar Detection in Water” International Journal of Mechanical & Mechatronics Engineering IJMME-IJENS Vol:14 No:05, P.No 31-36.
  • Devan Bhalla, Krishan Bansal(2013),“Design of a Rectangular Microstrip Patch Antenna Using Inset Feed Technique” IOSR Journal of Electronics and Communication Engineering (IOSR-JECE) Volume 7 Issue 4,P.No 08-13.
  • Indrasen Singh and Dr. V.S. Tripathi(2011), “Micro strip Patch Antenna and its Applications: a Survey” International Journal Computer Technoloy Application, Vol 2 (5),P.No1595-1599.
  • Kiran Jain and Keshav Gupta(2014), “Different Substrates Use in Microstrip Patch Antenna-A Survey” International Journal of Science and Research (IJSR) Volume 3 Issue 5,P.No 1802-1803.
  • Menaka, Dr. V.S. Tripathi (2015), ” S-Shaped Microstrip Patch Antenna for Broadband Application Using Slotting Technique” International Journal Computer Technology Application Volume 55– No.18.
  • Melzer, M., Karnaushenko, D., Lin, G., Baunack, S., Makarov, D. & Schmidt (2015), O. G.” Direct transfer of magnetic sensor devices to elastomeric supports for stretchable electronics” Adv. Mater. 27, ISSN:1333– 1338
  • Payal Kalra, Prince and Ekambir Sidhu(2017), “Terahertz Microstrip Patch Antenna Design for detection of Plastic Explosive SEMTEX” International Research Journal of Engineering and Technology (IRJET) Volume: 04 Issue: 0, P.No 1214-1217.
  • Payal Kalra and Ekambir Sidhu(2017), “Microstrip patch antenna using FR4 as substrate for detection of riboflavin” International Research Journal of Engineering and Technology (IRJET)
  • D.Pavithra , K.R.Dharani (2013) , “A Design of HShape Microstrip Patch Antenna for WLAN Applications”, International Journal of Engineering Science Invention, Volume 2, Issue 6.
  • Prince, Payal Kalra,Ekambir Sidhu(2017), “Novel Terahertz Microstrip Patch Antenna for detection of Lascorbic acid and Thiamine hydrochloride” International Journal of Engineering Trends and Technology (IJETT) – Volume 45 Number 5, P.No 215218.
  • RamaDevi. K, Mallikarjuna Prasad.A and Jhansi Rani(2012). A, “Design of A Pentagon Microstrip Antenna for Radar Altimeter Application International Journal of Web & Semantic Technology (IJWesT) Vol.3, No.4.
  • Renu Kumari, Jharkhand Rai(2016), “To Study The Bandwidth Of Microstrip Antenna Using Artificial Neural Network” International Journal of Advanced Technology in Engineering and Science, Volume-4, Issues 6, pp 255-261.
  • S.Sai Bharathwaj, K.Prakash, “Circular Polarisation Dual Feed Microstrip PatchAntenna with 3dB Hybrid Coupler for WLAN ”, International Journal of Engineering Science Invention ISSN (Online): 23196734, ISSN (2012).
  • Simarjit Singh Saini, Tejinder Kaur Gill, Parth Kuchroo and Ekambir Sidhu(2016), “TeraHertz textile microstrip patch antenna design employing denim substrate for detection of TNT explosives”International Conference on Control, Computing, Communication and Materials (ICCCCM)
  • Swagata B Sarkar(2017),”Design and Analysis of Annular Ring Triangular Microstrip Patch Antenna” Second International Conference On Computing and Communications Technologies(ICCCT’17) 978-15090-6221-8/17/ IEEE, P.No 21-26.
  • J.Vanitha, N.Augustia(2016), “Design of Broadband Microstrip Patch Antenna Using Stack and Notch Techniques”, International Journal of Advanced Research in Computer Science and Software Engineering, Volume 6, Issue 2.
  • S. H. Zainud-Deen, M. E. Badr, E. El-Deen, K. H. Awadalla(2008),” Microstrip antenna with defected ground plane structure as a sensor for landmines detection” In Electromagnetics Research B, Vol. 4, P.No 27–39.

Abstract Views: 240

PDF Views: 0




  • Explosive Detection Approach by Printed Antennas

Abstract Views: 240  |  PDF Views: 0

Authors

A. Adlin
Department of Electronics and Communication Engineering, PET Engineering College, Anna University, India
K. Madhan Kumar
Department of Electronics and Communication Engineering, PET Engineering College, Anna University, India

Abstract


Microstrip patch antennas are recently used in wireless detection applications due to their low power consumption, low cost, versatility, field excitation, ease of fabrication etc. The microstrip patch antennas are also called as printed antennas which is suffer with an array elements of antenna and narrow bandwidth. To overcome the above drawbacks, Flame Retardant Material is used as the substrate. Rectangular shape of microstrip patch antenna with FR4 material as the substrate which is more suitable for the explosive detection applications. The proposed printed antenna was designed with the dimension of 60 x 60 mm2. FR-4 material has a dielectric constant value of 4.3 with thickness 1.56 mm, length and width 60 mm and 60 mm respectively. One side of the substrate contains the ground plane of dimensions 60 x60 mm2 made of copper and the other side of the substrate contains the patch which have dimensions 34 x 29 mm2 and thickness 0.03mm which is also made of copper. RMPA without slot, Vertical slot RMPA, Double horizontal slot RMPA and Centre slot RMPA structures were designed and the performance of the antennas were analysed with various parameters such as gain, directivity, Efield, VSWR and return loss. From the performance analysis, double horizontal slot RMPA antenna provides a better result and it provides maximum gain (8.61dB) and minimum return loss (-33.918dB). Based on the E-field excitation value the SEMTEX explosive material is detected and it was simulated using CST software.

Keywords


Gain, Directivity, Return Loss, E-Field, H-Field.

References