JNTUA College of Engineering (Autonomous), Ananthapuramu
                                 Department of Computer Science & Engineering
                                                    DIGITAL SYSTEMS
           Course Code:                                    Semester III(R20)                   L T P C: 3 0 0 3
           Course Objectives:
              •  Students would have a thorough understanding of the fundamental concepts and techniques used in
                 digital electronics.
              •  On completion of this course students will have the skills and confidence to conceive and implement
                 a complex digital system.
              •  Draw a circuit diagram for a sequential logic circuit and analyze its timing properties (input setup
                 and hold times, minimum clock period, output propagation delays).
              •  Make the students to apply IoT data for business solution in various domains in secured manner.

           Course Outcomes:
              CO1:  Realize  different  number  systems  and  number  base  conversions  and  Boolean  functions  using
                     universal gates.
              CO2: Utilize the postulates of the Boolean Algebra to minimize the Combinational circuits.
              CO3: Design and Analyze Sequential circuits and Finite State Machines.
              CO4: Understand the definition and significance of the Internet of Things
              CO5: Analyze the characteristics and concepts of embedded computing devices.


           UNIT – I: DIGITAL FUNDAMENTALS
           Number Systems – Decimal, Binary, Octal, Hexadecimal, 1‘s and 2‘s complements, Codes – Binary, BCD,
           Excess 3, Gray, Alphanumeric codes, Boolean theorems, Logic gates, Universal gates, Sum of products
           and  product  of  sums,  Minterms  and  Maxterms,  Karnaugh  map  Minimization  and  Quine-McCluskey
           method of minimization.

           UNIT – II: COMBINATIONAL CIRCUIT DESIGN
           Design  of  Half  and  Full  Adders,  Half  and  Full  Subtractors,  Binary  Parallel  Adder  –  Carry  look  ahead
           Adder,BCD  Adder,  Multiplexer,  Demultiplexer,  Magnitude  Comparator,  Decoder,  Encoder,  Priority
           Encoder.

           UNIT – III: SYNCHRONOUS SEQUENTIAL CIRCUITS
           Flip  flops  –  SR,  JK,  T,  D,  Master/Slave  FF  –  operation  and  excitation  tables,  Triggering  of
           FF,Analysisanddesign of clocked sequential circuits – Design – Moore/Mealy models, state minimization,
           state  assignment,  circuit  implementation  –  Design  of  Counters-  Ripple  Counters,  Ring  Counters,  Shift
           registers, Universal Shift Register.


           UNIT - IV: INTRODUCTION TO IoT
           The Internet of Things, The Flavour of the Internet of Things, The “Internet” of “Things”, The Technology
           of the Internet of Things, Enchanted Objects, Who is Making the Internet of Things?

           UNIT – V: Prototyping Embedded Devices
           Prototyping Embedded Devices- Electronics, Embedded Computing Basics, Arduino, Raspberry Pi.
           Making  Connections-  Creating  Series  and  Parallel  Circuits,  Switching  Electric  Current  On  and  Off,
           Creating a Combination Circuit.







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