LESSON PLAN NAME OF THE FACULTY DISCIPLINE SEMESTER SUBJECT : - HIMANSHU YADAV : - ECE : - FIFTH : - MICROWAVE ENGG LESSON PLAN DURATION : - 15 weeks (from JULY 2018 to NOVEMBER 2018) WORK LOAD (LECTURE/PRACTICAL) PER WEEK (IN HOURS):- LECTURE-03, PRACTIACL-03 THEORY WEEK LECTURE TOPIC DAY (including assignment/test) 1 st 1 st Introduction to Microwaves Introduction to microwaves and its applications PRACTICAL DAY 1 st PRACTICAL TOPIC 1. To measure electronic and mechanical tuning range of a Reflex Klystron 2 nd Classification on the basis of its frequency bands (HF, VHF, UHF, L, S, C, X, KU, KA, mm, SUB, mm) 3 rd assignments 2 nd 4 th Wave guides 2 nd 3 rd 1. To measure electronic and mechanical tuning range of a Reflex Klystron 2.To measure VSWR of a given Load Rectangular and circular wave guides and their Applications. 5 th Mode of wave guide; Propagation constant of a rectangular wave guide
6 th cut off wavelength, guide wavelength and their relationship with free space wavelength (no Mathematical Derivation). 4 th 2.To measure VSWR of a given Load 3 rd 7 th Impossibility of TEM mode in a wave guide. 5 th 8 th assignments 9 th Microwave Components Constructional features 4 th 10 th Characteristics and application of tees, bends, matched termination 11 th twists, detector, mount, slotted section, directional coupler 6 th 7 th 3. To measure the Klystron frequency by slotted section method 12 th Fixed and variable attenuator, isolator, circulator 8 th 5 th 13 th duplex, coaxial to wave guide adaptor 9 th 3. To measure the Klystron frequency by slotted section method 4. To measure the directivity and coupling factor of directional coupler 14 th assignments 15 th Microwave Devices Basic concepts of thermionic emission and vacuum Tubes 10 th 4. To measure the directivity and coupling factor of directional coupler
6 th 16 th Effects of inter- electrode capacitance, Lead Inductance and Transit time on the high frequency performance of conventional vacuum tubes and Step to extend their high frequency operations. 11 th 17 th Construction, characteristics, operating Multi Cavity Klystron 18 th Construction, characteristics, operating Reflex Klystron 12 th 7 th 19 th Construction, characteristics, operating Multi Cavity magnetron 13 th 5. To plot the radiation pattern of a HORN antenna in horizontal and vertical planes 20 th Construction, characteristics, operating TWT 21 th Construction, characteristics, operating Gunn Diode 14 th 5. To plot the radiation pattern of a HORN antenna in horizontal and vertical planes
8 th 22 th Construction, characteristics, operating Impatt Diode 15 th 23 th assignments 24 th Microwave antennas 15 th Structure characteristics and typical applications of Horn antenna 9 th 25 th Structure characteristics and typical applications of Dish antenna 17 th 6. To verify the properties of magic TEE 26 th assignments 27 th Microwave Communication systems Block diagram and working principles of microwave 18 th 6. To verify the properties of magic TEE Communication link. 10 th 28 th Troposcatter Communication: Troposphere and its properties 19 th 29 th Tropospheric duct formation and propagation 30 th troposcatter propagation 20 th 11 th 31 th assignments 21 th
32 th Radar Systems Introduction to radar, its various applications 33 th Radar range equation (no derivation) And its applications. 12 th 34 th Block diagram and operating principles of basic pulse radar 22 th 23 th 35 th Concepts of ambiguous range, radar area of Cross-section and its dependence on frequency. 36 th Block diagram and operating principles of CW (Doppler) And their applications. 13 th 37 th Block diagram and operating principles of FMCW Radar And their applications. 38 th Block diagram and operating principles of MTI radar 24 th 25 th Test 39 th Radar display- PPI 26 th Test 14 th 40 th assignments 41 th Introduction to VSAT transponders multiple access techniques 27 th 42 th VSAT and its features 28 th
15 th 43 th assignments 44 th 29 th 45 th 30 th