3042: Digital Electronics KL Diploma Syllabus for EE 3rd Sem 2015 Revision SITTTR

Digital Electronics detailed syllabus for Electronics Engineering (EE) for 2015 revision curriculum has been taken from the SITTTRs official website and presented for the EE students. For course code, course name, number of credits for a course and other scheme related information, do visit full semester subjects post given below.

For Electronics Engineering 3rd Sem scheme and its subjects, do visit EE 3rd Sem 2015 revision scheme. The detailed syllabus of digital electronics is as follows.

Course Outcomes:

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Specific outcome:

MODULE I Number system and logic gates

1. To understand various number systems
   1. To state the need of a binary number system in modern digital technology
   2. To describe the features of a binary number system with examples
   3. To compare binary number system with decimal number system
   4. To explain the conversion from decimal to binary and vice versa with suitable examples
   5. To list the features of Hexadecimal number system with suitable examples
   6. To explain the Conversion of hexadecimal into decimal and binary and vice versa
   7. To state the need for binary codes
   8. To describe BCD codes, excess-3 code, Gray code
   9. To describe alpha numeric codes such as ASCII code and EBCDIC
   10. To explain binary arithmetic such as addition, subtraction, multiplication and division with examples
   11. To explain binary subtraction using 1’s complement and 2’s complement method
2. To understand the simplification of Boolean expressions
   1. To explain the operation of AND, OR, NOT, NAND, NOR, EXOR and EXNOR with their symbols and truth tables
   2. To realize AND,OR, NOT, EXOR and EXNOR using universal gates
   3. To state Demorgan’s theorems
   4. To state the rules and laws of Boolean algebra
   5. To explain Sum Of Product (SOP) expression, Product Of Sum (POS) expression , minterms and maxterms
   6. To state the need for simplifying Boolean expression
   7. To simplify Boolean expressions with the help of logic rules and truth tables
   8. To state the basic principle of Karnaugh map
   9. To explain two variables, three variables and four variables K-maps and their reductions with the help of suitable examples
   10. To state Don’t care terms and their role in solving K-maps
   11. To list the advantages and disadvantages of K-map

MODULE II Logic families and combinational logic circuits

1. To comprehend the various logic families
   1. To state various scales of Integration- SSI, MSI, LSI, VLSI and ULSI
   2. To explain the circuit of TTL inverter
   3. To define the terms VIL, VIH, VOL, VOH, Noise margin, noise immunity, propagation delay, fan- in and fan-out
   4. To explain the working principle of CMOS NAND gate
   5. To list the features of CMOS logic family
   6. To list the features of ECL logic family
   7. To compare TTL, ECL and CMOS logic families with respect to current sourcing and current sinking, fan in, fan-out and power dissipation
2. To understand the combinational logic circuits
   1. To describe combinational logic circuits
   2. To design half adder, full adder, half subtractor, and full subtractor
   3. To explain parallel adder
   4. To explain the operation of 4×1 Multiplexer and 1×4 De-multiplexer
   5. To list the various applications of Multiplexers and De-multiplexers
   6. To explain the operation of 3 bit encoder
   7. To explain various decoders such as BCD to decimal, binary to gray code and gray to binary

MODULE III Sequential logic circuits

1. To understand the working of flip-flops
   1. To describe sequential logic circuits
   2. To distinguish between synchronous and asynchronous sequential logic circuits
   3. To explain latches & flip-flops
   4. To explain SR flip flop using NAND & NOR gates
   5. To explain JK flip-flop using NAND with the help of truth table
   6. To state the race around condition in JK flip flop
   7. To list the methods for eliminating race around condition
   8. To explain the working of master slave JK flip flop (block level explanation only)
   9. To explain D and T flip flops with their characteristic tables
2. To comprehend shift registers
   1. To explain the functions of Shift registers
   2. To explain the working of shift registers:-serial-in serial-out, parallel-in parallel-out, parallel-in serial-out and serial- in parallel-out
   3. To differentiate between right shift and left shift registers
   4. To explain the working of ring counter and its applications
   5. To explain the working of Johnson counter and its applications

MODULE IV Counters, ADC and DAC

1. To understand the working of various counters
   1. To differentiate between synchronous and asynchronous counters
   2. To implement mod-10 asynchronous counter using JK flip flop
   3. To explain mod-8 synchronous counter and its realization using JK flip flop
   4. To explain 3 bit up-down counter using JK flip flop
2. To understand ADC and DAC
   1. To list the different types of ADC and DAC
   2. To state DAC specifications – resolution, accuracy and settling time
   3. To explain Weighted resistor DAC and R-2R ladder type DAC
   4. To explain different types of ADCs – Counter type, Successive approximation type and Flash type

MODULE I –

For the complete syllabus, results, class timetable, and many other features kindly download the iStudy App
It is a lightweight, easy to use, no images, and no pdfs platform to make students’s lives easier.
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MODULE II –

Logic families and combinational logic circuits Logic families – SSI, MSI, LSI, VLSI and ULSI – transistor transistor logic – VIL, VIH, VOL, VOH, noise margin, noise immunity, propagation delay, fan-in and fan-out – TTL inverter – features of CMOS logic gates and ECL logic family – comparison of TTL, ECL and CMOS logic families with respect to current sourcing and current sinking, fan in, fan-out and power dissipation – combinational logic circuits – introduction -design half adder, full adder, half subtractor and full subtractor – parallel adder-multiplexer / data selector – 4 to 1 MUX – applications of MUX – demultiplexer – 1 to 4 demultiplexer – 3 bit encoder -decoders – BCD to decimal, binary to gray code and gray to binary

MODULE III –

For the complete syllabus, results, class timetable, and many other features kindly download the iStudy App
It is a lightweight, easy to use, no images, and no pdfs platform to make students’s lives easier.
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MODULE IV –

Counters, ADC and DAC Binary counters – implementation of asynchronous mod-10 counter – implementation of mod-8 synchronous counter – 3-bit up down counter – DAC – specifications – resolution, accuracy, settling time -different types – binary weighted resister method and R-2R ladder type – ADC – counter type -successive approximation type – flash type

Text Books:

For the complete syllabus, results, class timetable, and many other features kindly download the iStudy App
It is a lightweight, easy to use, no images, and no pdfs platform to make students’s lives easier.
.

Reference Books:

1. A Anand Kumar- Fundamentals of digital circuits PHI
2. Anil K Maini -Digital Electronics .Weiley

For detailed syllabus of all other subjects of Electronics Engineering, 2015 revision curriculum do visit EE 3rd Sem subject syllabuses for 2015 revision.

To see the syllabus of all other branches of diploma 2015 revision curriculum do visit all branches of SITTTR diploma 2015 revision.