Subject Code                         Subject Name                        Category   L  T  P  C
               CU19211                  RF SYSTEM DESIGN LABORATORY                        PC      0  0   4  2



               Objectives:
                   To enable the students to verify the basic principles and design aspects involved in high frequency
                
                   communication systems components
                   To expose the student to different high frequency components and conduct the experiments to analyze and
                
                   interpret data to produce meaningful conclusion and match with theoretical concepts.
                  To design and develop RF components using microstrip technology


                                                      List of  Experiments
                    Measurement of  S parameters  for  a) Inductor  b)  Capacitor c) impedance matching circuits, filters using
                1
                    network analyzer
                2    Design of   λ/2, λ/4 micro strip transmission line.
                3    Design of microstrip inductor and capacitor.
                4    Design of impedance matching network.
                5    Design of low pass, high pass, band pass and band stop filter at RF.
                6    Design and characterization of microstrip patch antenna array.
                7    Design and characterization of  Mixer
                8    Design and characterization of  VCO
                                                                                   Total Contact Hours   :   60


               Course Outcomes:
               On completion of the course, students will be able to
                  Apply knowledge to identify a suitable architecture and systematically design an RF system.
                   Comprehensively  record  and  report  the  measured  data,  and  would  be  capable  of  analyzing,  interpreting  the
                
                   experimentally measured data and produce the meaningful conclusions.
                  Design and characterize microstrip patch antenna array.
                  Design and develop filters.
                  Characterize Mixer and VCO.



                                                      SEMESTER III

               Subject Code                          Subject Name                          Category   L  T  P  C
               CU19301                     WIRELESS AD HOC AND SENSOR NETWORKS               PC       3  0  0  3


               Objectives:
                 To learn the concepts of Ad hoc wireless networks
                 To understand the basics of routing protocols
                 To learn the security concepts
                 To study the architecture and MAC protocols of sensor networks
                 To know the concepts of various operating systems and routing protocols of sensor networks


               UNIT-I     ADHOC NETWORKS AND ROUTING PROTOCOLS                                             9
               Ad hoc Wireless Networks –Heterogeneity in Mobile Devices – Types of Ad hoc Mobile Communications – Types of
               Mobile Host Movements – Challenges Facing Ad hoc Mobile Networks. Issues in Designing a Routing Protocol for
               Ad Hoc Wireless Networks – Classifications of Routing Protocols – Table–Driven Routing Protocols – Destination
               Sequenced Distance Vector (DSDV) – Wireless Routing Protocol (WRP) – Cluster Switch Gateway Routing (CSGR)
               – Source–Initiated On–Demand Approaches – Ad Hoc On–Demand Distance Vector Routing (AODV)  – Dynamic
               Source Routing (DSR) –Temporally Ordered Routing Algorithm (TORA) –Location–Aided Routing (LAR) – Power–