Microwave Electronics INVESTIGATIONS ON SLOT-lOADED SQUARE MICROSTRIP PATCH ANTENNAS FOR COMPACT DUAL FREQUENCY DUAL POLARIZED OPERATIONS Thesis suhmittedhy BINOY G S in partialfulfilment ofthe requirements for the awardofthe degree of DOCTOR OF PHILOSOPHY DEPARTMENT OF ELECTRONICS FACULTY OF TECHNOLOGY COCHIN UNIVERSITY OF SCIENCE AND TECHNOLOGY COCHIN682022,INDIA JUNE 2002 'Dedicated.to my parents ant! teachers . CERTIFICATE This is to certify that this thesis entitled "INVESTIGATIONS ON SLOT-LOADED SQUARE MICROSTRIP PATCH ANTENNAS FOR COMPACT DUAL FREQUENCY DUAL POLARIZED OPERATIONS" is a bona fide record of the doctoral research work carried out by Mr.BinoyGS, under my supervision in the Department of Electronics, Cochin Universityof Science & Technology. The resultspresentedin thesisor part of it havenot been presented for anyother degree. ~/7- Dr.K Vasudevan Supervising Teacher Professor Cochin 682 022 Department of Electronics 5th June 2002 Cochin University of Science and Technology DECLARATION I hereby declarethat the work presented in this thesis entitled "INVESTIGATIONS ON SLOT-LOADED SQUARE MICROSTRIP PATCH ANTENNAS FOR COMPACT DUAL FREQUENCY DUAL POLARIZED OPERATIONS" is based on the original work done by me under the supervision of Dr. K Vasudevan in the Department of Electronics, Cochin University of Science & Technology, and that no part thereof has been presentedfor any other degree. ~ Cochin 682 022 BINOYGS 5th June 2002 Acknowledgements At the time of presentation ofthis thesis, letme express my deepest sense ofgratefulness to my research guide, Dr K. Vasudevan, Professor, Dept. ofElectronics, Cochin University ofScience and Technology, Kerala, India forhis excellent guidance and the valuable support I received from him duringthetenureofmydoctoralgraduation. Itiswith deep sense ofgratitude, that Iexpress my heartfelt appreciation toDr. K. G. Balakrishnan, Professor&Head, Dept. ofElectronics, Cochin UniversityofScienceand Technology, Kerala, Indiafor hisardentencouragement. Iamdeeplyindebtedto ProfKG Nair, DirectorSTIC, forhisvaluable suggestions and encouragements during myresearch work. Ialso would liketoexpress mysincere thanks toDr.P.R.S Pillai, Professorand FormerHead, Dept. of Electronics, CUSATforhisenthusiasticsupport. Words areinadequateto expressmythankfulnesstoDrP.Mohanan, Professor, Dept. ofElectronicsfor his valuable suggestions and inspiration. Iwill neverforgetthe wonderful way in which has supported mewheneverIneeded itthe most. Sincere thanks are due to Dr.C.K.Aanandan, Reader, Dept of Electronics, CUSAT for his timely suggestions and help. Iam hereby recording myindebtedness to Prof. K.TMathew and Dr. Deepu Rajan faculty members of thisdepartmentfortheircontinuous encouragement. During the tenure ofresearch, my research fellowship was supported by Cochin University ofScience and Technology through University JRF. Ihave also received aSenior Research Fellowship from the Defense Research and DevelopmentOrganization. Ihonestlyacknowledge theirsupport. Ihad the opportunity to participate in aYoung Collaborator training Programme, atthe International Center for Theoretical Physics (ICTP), Italy. The exposure I received from the event isthankfully remembered. Iwould like to mention with deep gratitude, the young scientist support, Ireceived from Council ofScientificand Industrial Research-CSIR, which enabled metoattend and presentmyworkat the 2001 IEEE AP-S SymposiumatBoston, USA Itake this occasion, to place on high record the helps and encouragements Ireceived from my former colleague MrBijukumar.S, Research Fellow, UniversityofHaddersfield, UK. I am deeply indebted to Dr Joe Jacob, Research Associate, Dept. ofElectronics, CUSAT and Dr Jacob George, Corning Inc., USAfortheirvaluable supportthroughout myperiod ofresearch. I would also like to acknowledge with thanks the splendid cooperation I received from DrU.Raveendranath, NAL-Banglore, DrKKNarayanan, S.D.College, Alapuzha, DrSebastian Mathew, K.E College, Mannanam, Mr Cyriac M. Odackal, Lecturer, Dept. of Electronics, Dr.Thomaskutty Mathew, Lecturer, MG University Regional Center, Edapally, and Mr. Girish. G, R&D Engineer, IBM, Bangaloreand Mr. Girish Kumar. C, Lecturer, CollegeofAppl. Science, Peerumedu. The support and cooperation received from Dr. Ratheesh, Scientist, CMET, Thrissur, Dr. Jagannath Bhat, Scientist, STIC, and Mr. Paul. V. John, Scientist, STICarethankfullyacknowleged. I would like toexpress my profound gratitude to Mr.ShajLS, Mr.Joseph MathaLC, Ms.Bindu.K, Saji Augustine, Research Scholars Dept ofPhysics, CUSAT and Pyroja S, Dept.of Biotechnology for their unreserved co-operation. The encouragements and co-operation I received from my colleagues in DoE, CUSAT Mr.ManLTK,MrVP.Devassia, Ms.MinLM.G, Mr.Deepu P, Mr.Binu George, Mr.Anand Raj, Mr.Anil Lonappan, Dr. Jaimon Yohannan, Ms. Sona. O.K, Ms. Manju Paulson, Ms. Mridula. M., Ms. Binu Paul, Mr, Shabeer Ali, Ms. Sree Devi, Dr. C. P. Anil Kumar, Mr. Sajith N. Pai, Mr. Prakash Kumar, Mr. Jayaram Pand Ms. Latha Kumaryarethankfully acknowledged. I am also grateful to Dr.Beena. C, Librarian, Dept. of Physics, Mr. Suresh, Librarian, Dept. of Electronics, Ms. Jayanthi, STIC and Mr. Ibrahimkutty, Dept. ofElectronics fortheir whole-hearted co operation and encouragements. Let me also thank all the office and technical staffofthe Department ofElectronics, CUSAT for their excellentsupportduring myresearch studies. Finally, Ithank myparentsfortheirunderstanding. BINOYG.S CONTENTS CHAPTERl INTRODUCTION CHAPTERII EARLIER WORK IN THE FIELD- A BRIEF REVIEW 23 CHAPTERIII METHODOLOGY- EXPERIMENTAL SET-UP, MEASUREMENT TECHNIQUES AND ELECTROMAGNETIC MODELLING 46 CHAPTERIV EXPERIMENTAL RESULTS AND OBSERVATIONS 63 CHAPTER V THEORETICAL INTERPRETATIONS 128 CHAPTER VI CONCLUSIONS 172 APPENDIX 178 REFERENCES CHAPTERl INTRODUCTION 1.1General ClassificationofAntennas 3 1.2Printed Structures 4 1.3Microstrip antennas 5 1.3.1 Radiation from aMicrostrip Antenna 6 1.3.2 Advantages and Disadvantages 7 1.3.3 Selection ofSubstrate Materials 8 1.3.4 Excitation Techniques 9 1.3.4.1 Microstrip Feed 9 1.3.4.2 Coaxial Feed 10 1.3.4.3 BuriedFeed (Electromagnetic Coupling) II 1.3.4.4 Aperture Coupling Feed II 1.3.5 Various Microstrip Antenna Configurations 13 1.3.5.1 Microstrip patch antenna 13 1.3.5.2 Microstrip Traveling wave antenna (MTA) 14 1.3.5.3 Microstrip Slot Antenna 14 1.3.6 BroadbandMicrostrip Antennas 15 1.3.7 Compact Microstrip Antennas 15 1.3.8 Dual Frequency Dual Polarized Microstrip Patch Antennas 16 1.3.9 Theoretical methods used in the analysis ofmicrostrip antennas 17 1.3.9 Theoretical methods used in the analysis ofmicrostrip antennas 18 1.3.9.1 Transmission Line Model 18 1.3.9.2 Cavity Model 18 I.3.9.3 Method ofMoments 18 1.3.9.4 Finite Element Method 19 1.3.9.5 Finite Difference Time Domain (FDTD) Method 19 1.3.9.6 Green's Function Method 20 1.4Electromagnetic Simulation 20 1.5SummaryofThe Present Work 21 1.6ChapterOrganization 21 CHAPTERl INTRODUCTION Since the first light of civilization, communication has been of prime significance to human beings. Depending upon the distance of communication, various acoustic methods such as drums, horns and optical communication methods like smoke signals andfire works, utilizing the visibleportion ofthe electromagnetic spectrum, were used. As technology advanced further, communication using the electromagnetic spectrum outside the visible region has been explored. It is strongly believed that electromagnetic theory is one of the chief intellectual achievements ofhuman species over the last two centuries. James Clark Maxwell (1831-1879) predicted that light and electromagnetic waves are due to one and the same physical phenomenon and both can be explained by the waves travelling at the same speed. Maxwell's partial differential equations of Electrodynamics represent afundamental unification ofelectric and magneticfields predictingan electromagnetic wavephenomenon [1j. The notion ofantenna was first conceived in 1886, by Heinrich Rudolph Hertz, the father ofElectromagnetics, in his Laboratory at the Technical Institute ofKalsruhe. Hertz proved experimentally that the electrical disturbances could be detected with a secondary circuit of proper dimensions for resonance and containing an air gap for sparks to occur. He generated, transmitted and received electromagnetic energy by means of an end loaded half-wave dipole (Hertzian Dipole) as transmitter and a resonant square loop antenna as receiver. Antennas are like Electronic eyes and ears [2]. They act as interface between free space and circuitry. IEEE standards define an antenna as "a means for radiating or receiving electromagnetic waves" [3]. An antenna is an integral part of any communication device. The talented Indian scientist Sir. Jagadis Chunder Bose (1858-1937) conducted pioneering research work with millimeter waves in the 60-GHz range [4]. He developed a new type ofantenna named as Hom antenna in1897 during his studies with millimeter wave propagation. Even though Bose has contributed substantially to the millimeter and microwave detection, his contributions were not adequately publicized and appreciated by the large electronic communityin general. Although neglected somewhat inthe early 1900s, the hom antenna has drawn immense popularity in the late 1930s, due to the interest in microwaves and waveguide transmission lines during the period of World War II. The hom is widely used as a feed element for radio astronomy and satellite tracking antennas installed all over the world. In addition to that they form an integral part of phased arrays and serves as a universal standard for calibration and gain measurements. The challenging works by Bose and Hertz inspired Guglielmo Marconi (1874 1937), an Italian Electrical Engineer to use the Hertzian waves for communication purposes. Marconi startled the scientific community in 1901 through his transatlantic radio communication link. The set up consisted ofa transmitting antenna made out ofa spark transmitter connected between the ground and a system of50 vertical wires. The antenna used in a radio can radiate or receive electromagnetic waves, thereby can 2