Specify the requirements for microwave measurements and arrange a setup to carry out the antenna far zone pattern and gain measurements in the laboratory. #Antenna and wave propagation solved problems Patch#
Analyze a microstrip rectangular patch antenna and a parabolic reflector antenna, identify the requirements and relevant feed structure, carry out the design and establish their patterns. Characterize the antennas based on frequency, configure the geometry and establish the radiation patterns of folded dipole, Yagi-Uda Antenna, Helical Antennas, Horn Antennas, and to acquire the knowledge of their analysis, design and development. Radiation characteristics and sketch their patterns. Distinguish between short dipoles, half-wave dipoles, quarter-wave monopoles and small loops, configure their current distributions, derive their far fields and. 
Explain the mechanism of radiation, distinguish between different antenna characteristic parameters, establish their mathematical relations, estimate them for different practical cases. Techniques, and Wave Propagation, the students would be able to: To define and distinguish between different phenomenon of wave propagation (ground wave, space wave and sky wave), their frequency dependence, and estimate their characteristics, identifying their profiles and parameters involved.Ĭourse Outcomes: Having gone through this course on Antenna Theory and. To understand the concepts and set-up requirements for microwave measurements, and familiarize with the procedure to enable antenna measurements. To identify the antenna array requirements, to determine the characteristics of ULAs and estimate the patterns of BSA, EFA, and Binomial Arrays. 
To analyze the characteristics of yagi-uda antennas, helical antennas, pyramidal horns, microstrip patch antennas and parabolic reflectors and identify the requirements to facilitate their design.To distinguish between UHF, VHF and Microwave Antennas, their requirements, specifications, characteristics and design relations.To understand the concept of radiation, antenna definitions and significance of antenna parameters, to derive and analyze the radiation characteristics of thin wire dipole antennas and solve numerical problems.The course deals with antenna basics, different types of antennas, some design features, antenna measurements and wave propagation, and has the following main objectives:
The detailed syllabus for Antennas and Wave Propagation B.Tech 2016-2017 (R16) third year second sem is as follows.Ĭourse Objectives: This can be termed a middle level course in the electronic communication engineering domain. Its Time to try iStudy App for latest syllabus, timetables and updates from JNTUH (no ads, no pdfs)
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