1. 1.Overview of Course Objective 2.Details of course website, BLOG 3.Details of Syllabus 4.Recommended Books 5.Details of Lab Sessions 6.Introductory concepts of commonly used keywords Digital Systems

2. 1: Students will be able to apply logic technique for design of digital systems, and would be able to identify and use suitable digital components for design. 2: Students will be able to apply various optimization techniques for designing of an efficient digital system. 3: Students will be able to demonstrate and apply design phases of digital system for real life applications using Combinational and Sequential Circuits. 4: Students will be able to analyse real life problems and give efficient digital solutions using recommended techniques like Modular approach etc. Course Outcome

3. Web Site: https://sites.google.com/a/nirmauni.ac.in/digital-systems-ce301-2ec221/https://sites.google.com/a/nirmauni.ac.in/digital-systems-ce301-2ec221/ BLOG : Course Website and BLOG:

6. Details of Syllabus of Digital Systems: Binary Systems - Introduction, Binary numbers, Conversions, Octal, Hexadecimal Numbers, Complements, Binary Codes, Binary Storage, Registers, Binary Logic Boolean Algebra And Logic Gates - Definition, Boolean Algebra, Theorems and Properties, Boolean Functions, Canonical and Standard Forms, other Logic operations, Digital Logic Gates, IC Logic families Boolean Function Simplification - The Map-method, 2, 3, 4, 5 & 6 Variable Map, Pos Simplification, NAND/NOR implementations don’t care conditions, Tabulation method, Prime Implecants, Selection Of Prime Implecants Combinational Logic - Introduction, Design Procedure, Adders, Subtractors, code Conversion, Analysis Procedure, Multilevel NAND/NOR Circuits, Ex-OR and equivalent functions Combinational Logic with MSI and LSI - Introduction, Binary Parallel Adder, Decimal Adder, Magnitude Comparators, ROMs Decoders, Multiplexers, PLA.

7. Details of Syllabus of Digital Systems: Sequential Logic - Introduction, Flip-Flops, Triggering of Flip-Flop, Analysis of clocked sequential circuits, State Reduction and assignment, Flip-Flop excitation Table, design procedure, design of counters, design with state equations Registers, Counters, Memory Unit - Introduction, Registers, Shift Registers, Ripple Counters, Synchronous Counters, Timing Sequences, the Memory Unit, examples of RAMs Digital Integrated Circuits - Introduction, BJT characteristics, RTL and DTL logics. IIL and TTL Logic. ECL and MOS Logic CMOS Logic, CMOS and TTL Interface, Introduction to VSNL Systems

8. 1.Digital Logic and Computer Design - By M. Morris Mano – PHI 2.Digital electronics and microcomputers By R.K.Gaur 3.Digital Principals and applications - By Malvino and Leach 4.Digital Technology Principals and Practices - By Virendra Kumar 5.Digital Principals - By B.P.Singh 6.Digital logic design - By Holdsworth Recommended Books:

9. Sr. No. Name of PracticalHour(s) Part-I Combinational Circuits 1 Verification of basic logic gates and Implementation of basic logic gates with NAND / NOR gates. 2 2 Realization of Half / Full Adder and Subtractor.2 3 Design and realization Code Convertors, like Binary to Gray, Binary to Excess-3 and Vice–Versa. 2 4 Design and realization of BCD parallel adder using two binary adders.2 5 Study of Multiplexer and realization of Boolean function using it.2 6 Design a combinational circuit for Parity Generator and Checker. Additional Experiments on Combinational Circuits *A To Convert octal input to binary output and to study LED display using seven segment decoder. 2 *B To verify the truth table of one bit and two bit comparators using logic gates.2 List of Practical Digital Systems

10. Sr. No. Name of PracticalHour(s) Part-II Sequential Logic 7 Verification of truth tables of RS, D, JK and T flip-flops.2 8 Design and realize modulo N Synchronous counter using JK flip-flops/T flip flop and observe the output. 2 9 Design and realize modulo N Ripple Asynchronous counter using T flip-flops/JK Flip Flop and observe the output. 2 10 To realize 4-bit shift register using D flip flop, observe the output.2 11 Design a sequential circuit to divide input frequency by four. Select suitable flip flop and observe the output. 2 Additional Experiments on Sequential Circuits *A Design a Parallel in Serial Out shift register with control input. Use D flip flop and observe the output. 4 *B Design Modulo-N, UP/DOWN counter using T flip flop.4 Total 32 hours List of Practical Digital Systems

11. Introductory Concepts of Commonly used Keywords: 1.Analogy Computers 2.Digital Computers 3.Hybrid Computer 4.Why Digital Computer Uses Binary Data…? 5.What is the relationship between Analog and Digital