This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Asaadi, M. and Sebak, A.. 2017. Gain and bandwidth enhancement of 2 × 2 square dense dielectric patch antenna array using a holey superstrate. IEEE Antennas and Wireless Propagation Letters 16: 1808–1811.AsaadiM. and SebakA.2017Gain and bandwidth enhancement of 2 × 2 square dense dielectric patch antenna array using a holey superstrate161808–181110.1109/LAWP.2017.2679698Search in Google Scholar
Balanis, C. A.. 2012. ‘Microstrip antennas,’ antenna theory: analysis and design, 3rd ed., Wiley, India: 811–872.BalanisC. A.20123rd ed.,WileyIndia811–872Search in Google Scholar
Cao, W. and Hong, W.. 2016. Bandwidth and gain enhancement for single-fed compact microstrip antenna by loading with parasitical patches. IEEE International Conference on Microwave and Millimeter Wave Technology (ICMMT) Beijing: 650–652.CaoW. and HongW.2016IEEE International Conference on Microwave and Millimeter Wave Technology (ICMMT)Beijing650–652Search in Google Scholar
da Costa, K. Q., Dmitriev, V. A. and Kawakatsu, M. N.. 2009. Enlarging the impedance matching bandwidth of wire and planar antennas using loop parasitic elements. IEEE International Workshop. Antenna Technology, Santa Monica, CA, pp. 1–4.da CostaK. Q.DmitrievV. A. and KawakatsuM. N.2009IEEE International Workshop. Antenna Technology, Santa Monica, CA, pp. 1–4Search in Google Scholar
Dash, J. C., Mishra, G. P. and Mangaraj, B. B.. 2016. Design of dual band patch antenna with bandwidth enhancement using complementary defected ground structure. 2nd International Conference on Contemporary Computing and Informatics (IC3I) Noida: 271–274.DashJ. C.MishraG. P. and MangarajB. B.20162nd International Conference on Contemporary Computing and Informatics (IC3I)Noida271–27410.1109/IC3I.2016.7917973Search in Google Scholar
John, M., Ayyappan, M., Manoj, B. and Rodrigues, S.. 2016. Bandwidth enhancement of microstrip patch antenna for 5.8GHz by optimized feed offset. International Conference on Communication and Signal Processing (ICCSP) Melmaruvathur: 2186–2189.JohnM.AyyappanM.ManojB. and RodriguesS.2016International Conference on Communication and Signal Processing (ICCSP)Melmaruvathur2186–218910.1109/ICCSP.2016.7754569Search in Google Scholar
Koutinos, A. G., Ioannopoulos, G. A., Chryssomallis, M. T., Kyriacou, G. A. and Caratelli, D.. 2017. Bandwidth enhancement of a supershape patch antenna using multiple feeding technique. International Workshop, Antenna Technology: Small Antennas, Innovative Structures, and Applications (iWAT), Athens, pp. 211–214.KoutinosA. G.IoannopoulosG. A.ChryssomallisM. T.KyriacouG. A. and CaratelliD.2017International Workshop, Antenna Technology: Small Antennas, Innovative Structures, and Applications (iWAT), Athens, pp. 211–214Search in Google Scholar
Kovitz, J. M. and Rahmat-Samii, Y.. 2014. Using thick substrates and capacitive probe compensation to enhance the bandwidth of traditional CP patch antennas. IEEE Transactions on Antennas and Propagation 62 No. 10: 4970–4979.KovitzJ. M. and Rahmat-SamiiY.2014Using thick substrates and capacitive probe compensation to enhance the bandwidth of traditional CP patch antennas62No.104970–497910.1109/TAP.2014.2343239Search in Google Scholar
Liu, N. W., Zhu, L. and Choi, W. W.. 2017. A differential-fed microstrip patch antenna with bandwidth enhancement under operation of TM10 and TM30 modes. IEEE Transactions on Antennas and Propagation 65 No. 4: 1607–1614.LiuN. W.ZhuL. and ChoiW. W.2017A differential-fed microstrip patch antenna with bandwidth enhancement under operation of TM10 and TM30 modes65No.41607–161410.1109/TAP.2017.2670329Search in Google Scholar
Liu, Y., Shafai, L. and Shafai, C.. 2016. Gain and bandwidth enhancement of stacked H-shaped patch-open ring antenna. International Symposium on Antenna Technology and Applied Electromagnetics (ANTEM) Montreal, QC: 1–2.LiuY.ShafaiL. and ShafaiC.2016International Symposium on Antenna Technology and Applied Electromagnetics (ANTEM)Montreal, QC1–2Search in Google Scholar
Pandey, R. K. and Shanmuganantham, T.. 2016. Miniaturization and bandwidth enhancement of a wideband slotted microstrip patch antenna. International Conference on Circuit, Power and Computing Technologies (ICCPCT) Nagercoil, TN: 1–4.PandeyR. K. and ShanmugananthamT.2016International Conference on Circuit, Power and Computing Technologies (ICCPCT)Nagercoil, TN1–4Search in Google Scholar
Przesmycki, R., Wnuk, M., Nowosielski, L., Piwowarczyk, K. and Bugaj, M.. 2012. Antenna gain measurement by comparative method using an anechoic chamber. PIERS proceedings Moscow, Russia: 1424–1428.PrzesmyckiR.WnukM.NowosielskiL.PiwowarczykK. and BugajM.2012PIERS proceedingsMoscow, Russia1424–1428Search in Google Scholar
Pues, H. F. and Van de Capelle, A. R.. 1989. An impedance-matching technique for increasing the bandwidth of microstrip antennas. IEEE Trans. Antennas and Propagation 37 No. 11: 1345–1354.PuesH. F. and Van de CapelleA. R.1989An impedance-matching technique for increasing the bandwidth of microstrip antennas37No.111345–135410.1109/8.43553Search in Google Scholar
Tahir, N. and Brooker, G., “A novel approach of feeding, impedance matching and frequency tuning of microstrip patch antenna by single microstrip line. IEEE Symposium on Industrial Electronics and Applications Langkawi.TahirN. and BrookerG., “IEEE Symposium on Industrial Electronics and ApplicationsLangkawiSearch in Google Scholar
Van Wyk, M. D. and Palmer, K. D.. 2001. Bandwidth enhancement of microstrip patch antennas using coupled lines. Electronics Letters 37 No. 13: 806–807.Van WykM. D. and PalmerK. D.2001Bandwidth enhancement of microstrip patch antennas using coupled lines37No.13806–80710.1049/el:20010571Search in Google Scholar
Walraven, D.. 2006), American Radio Relay League, Newington, CT, available at: www.arrl.org/files/file/Technology/tis/info/pdf/q1106037.pdfWalravenD.2006),available at:https://www.arrl.org/files/file/Technology/tis/info/pdf/q1106037.pdfSearch in Google Scholar
Wang, J., Liu, Q. and Zhu, L.. 2017. Bandwidth enhancement of a differential-fed equilateral triangular patch antenna via loading of shorting posts. IEEE Transaction on Antennas and Propagation 65 No. 1: 36–43.WangJ.LiuQ. and ZhuL.2017Bandwidth enhancement of a differential-fed equilateral triangular patch antenna via loading of shorting posts65No.136–4310.1109/TAP.2016.2630660Search in Google Scholar