Page 96 - R2017-REC-ECE-UG Syllabus
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Department of ECE, REC



                    •   Ability to work with PIC, R8C and MSP 430 microcontroller for a specific realworld application.
                    •   Ability to describe the architecture and programming of PIC, R8C and MSP 430 microcontroller
                    •   Manage a project from start to finish

                TEXT BOOK:
                1. Alaxander G, James M. Conard, " Creating fast, Responsive and energy efficient Embedded systems using
                the Renesas RL78 microcontroller", micrium press, USA, reprinted by S.P Printers, haryana ISBN No.978-1-
                935772-98-9. © 2011

                REFERENCES:
                1.  Muhammad  Ali  Mazidi,  Rolind  D.  Mckinlay and  Danny  Causey.  "PIC Microcontroller and
                Embedded Systems"  Pearson Education, 2008.
                2.  John H. Davies, ―MSP 430 Micro controller basicsǁ Elsevier, 2008.


                                              PROFESSIONAL ELECTIVE IV
                AE17701                                      AVIONICS                             L T P C
                                                                                                                                                                3  0  0  3
                OBJECTIVES
                    •   To introduce the basic of avionics and its need for civil and military aircrafts
                    •   To impart knowledge about the avionic architecture and various avionics data buses
                    •   To gain more knowledge on various avionics subsystems

                UNIT I        INTRODUCTION TO AVIONICS                                                  9
                Need for avionics in civil and military aircraft and space systems – integrated avionics and weapon systems –
                typical avionics subsystems, design, technologies – Introduction to Microprocessor and memories.

                UNIT II       DIGITAL AVIONICS ARCHITECTURE                                             8
                Avionics system architecture – data buses – MIL-STD-1553B – ARINC – 420 – ARINC – 629
                UNIT III      FLIGHT DECKS AND COCKPITS                                                 9
                Control and display technologies: CRT, LED, LCD, EL and plasma panel – Touch screen – Direct voice input
                (DVI) – Civil and Military Cockpits: MFDS, HUD, MFK, HOTAS

                UNIT IV       INTRODUCTION TO NAVIGATION SYSTEMS                                        10
                Radio navigation – VOR/DME, Hyperbolic navigation-LORAN and OMEGA, Landing  system-ILS,  MLS,
                Inertial Navigation Systems (INS)- INS block diagram – Satellite navigation systems – GPS.

                UNIT V        SOFTWARE ASSESSMENT AND AUTO PILOT                                        9
                Fault tolerant systems -Software Assessment and Validation -Civil and Military standards - Certification of
                Civil Avionics. Auto pilot – Basic principles, Longitudinal and lateral auto pilot.

                                                                                    TOTAL= 45 PERIODS
                OUTCOMES
                Upon the completion of the course students will be able to
                    •   understand the concept of designing avionics systems
                    •   Be able to understand the principle of digital avionics systems.
                    •   Able to know the practical and working of flight deck equipments


                Curriculum and Syllabus | B.E. Electronics and Communication Engineering | R2017      Page 96
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