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r2013 notes

EC6304 Electronic Circuits 1 Notes Regulation 2013 Anna University

EC6304 Electronic Circuits 1 Notes Regulation 2013 Anna University

EC6304 Electronic Circuits 1 Notes

EC6304 Electronic Circuits 1 Notes Regulation 2013 Anna University free download. Electronic Circuits 1 Notes EC6304 pdf free download.

OBJECTIVES: EC6304 Electronic Circuits 1 Notes

The student should be made to Learn about biasing of BJTs and MOSFETs

Design and construct amplifiers Construct amplifiers with active loads Study high frequency response of all amplifiers

OUTCOMES: EC6304 Electronic Circuits 1 Notes

Upon Completion of the course, the students will be able to:

Design circuits with transistor biasing. Design simple amplifier circuits. Analyze the small signal equivalent circuits of transistors.

Design and analyze large signal amplifiers.

TEXT BOOK: EC6304 Electronic Circuits 1 Notes

1. Donald .A. Neamen, Electronic Circuit Analysis and Design –2nd Edition,Tata Mc Graw Hill, 2009.

REFERENCES: EC6304 Electronic Circuits 1 Notes

1. Adel .S. Sedra, Kenneth C. Smith, “Micro Electronic Circuits”, 6th Edition, Oxford University Press, 2010.

2. David A., “Bell Electronic Devices and Circuits”, Oxford Higher Education Press, 5th Edition, 2010

3. Behzad Razavi, “Design of Analog CMOS Integrated Circuits”, Tata Mc Graw Hill, 2007.

4. Paul Gray, Hurst, Lewis, Meyer “Analysis and Design of Analog Integrated Circuits”, 4th Edition ,John Willey & Sons 2005

5. Millman.J. and Halkias C.C, “Integrated Electronics”, Mc Graw Hill, 2001.

6. D.Schilling and C.Belove, “Electronic Circuits”, 3rd Edition, Mc Graw Hill, 1989.

7. Robert L. Boylestad and Louis Nasheresky, “Electronic Devices and Circuit Theory”, 10th Edition, Pearson Education / PHI, 2008.

DC LOAD LINE AND OPERATING POINT EC6304 Electronic Circuits 1 Notes

For the transistor to properly operate it must be biased. There are
several methods to establish the DC operating point. We will discuss
some of the methods used for biasing transistors as well as troubleshooting methods used for transistor bias circuits.

The goal of amplification in most cases is to increase the amplitude of an ac signal without altering it. Biasing in electronics is the method of establishing predetermined voltages or currents at various points of an electronic circuit for the purpose of establishing proper operating conditions in electronic components.

Subject Name Electronic Circuits 1
Subject Code EC6304
Regulation 2013

EC6304 Electronic Circuits 1 Notes click here to download

EC6304 Electronic Circuits 1 Syllabus

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UG syllabus R 2013

EC6304 Electronic Circuits 1 Syllabus Regulation 2013 Anna University

EC6304 Electronic Circuits 1 Syllabus Regulation 2013 Anna University

EC6304 Electronic Circuits 1 Syllabus

EC6304 Electronic Circuits 1 Syllabus Regulation 2013 Anna University free download. Electronic Circuits 1 Syllabus EC6304 pdf free download.

UNIT I POWER SUPPLIES AND BIASING OF DISCRETE BJT AND MOSFET EC6304 Electronic Circuits 1 Syllabus

Rectifiers with filters- DC Load line, operating point, Various biasing methods for BJT-Design-Stability-Bias compensation, Thermal stability, Design of biasing for JFET, Design of biasing for MOSFET

UNIT II BJT AMPLIFIERS EC6304 Electronic Circuits 1 Syllabus

Small signal Analysis of Common Emitter-AC Load line, Voltage swing limitations, Common collector and common base amplifiers – Differential amplifiers- CMRR- Darlington Amplifier- Bootstrap technique – Cascaded stages – Cascode Amplifier-Large signal Amplifiers – Class A , Class B and Class C Power Amplifiers .

UNIT III JFET AND MOSFET AMPLIFIERS EC6304 Electronic Circuits 1 Syllabus

Small signal analysis of JFET amplifiers- Small signal Analysis of MOSFET and JFET, Common source amplifier, Voltage swing limitations, Small signal analysis of MOSFET and JFET Source follower and Common Gate amplifiers, – BiMOS Cascode amplifier

UNIT IV FREQUENCY ANALYSIS OF BJT AND MOSFET AMPLIFIERS EC6304 Electronic Circuits 1 Syllabus

Low frequency and Miller effect, High frequency analysis of CE and MOSFET CS amplifier, Short circuit current gain, cut off frequency – fα and fβ unity gain and Determination of bandwidth of single stage and multistage amplifiers

UNIT V IC MOSFET AMPLIFIERS EC6304 Syllabus Electronic Circuits 1

IC Amplifiers- IC biasing Current steering circuit using MOSFET- MOSFET current sources- PMOS and NMOS current sources. Amplifier with active loads – enhancement load, Depletion load and PMOS and NMOS current sources load- CMOS common source and source follower- CMOS differential amplifier- CMRR.

Subject Name Electronic Circuits 1
Subject Code EC6304
Regulation 2013

EC6304 Electronic Circuits 1 Syllabus click here to download

EC6304 Electronic Circuits 1 Notes

EC6304 Electronic Circuits 1 Important questions

EC6304 Electronic Circuits 1 Question Bank

 

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EC6303 Signals and Systems Question bank Regulation 2013 Anna University

EC6303-Signals-and-Systems-Question-bank-Regulation-2013-Anna-University

EC6303 Signals and Systems Question Bank

EC6303 Signals and Systems Question bank Regulation 2013 Anna University free download. Signals and Systems EC6303 Question bank pdf free download.

Sample EC6303 Signals and Systems Question bank:

PART- A 2 mark questions

1. Obtain Fourier Series Coefficients for ?(?) = ????0?
2. Give Synthesis and Analysis Equation of Continuous time Fourier Transform.
3. Define ROC of the Laplace Transform. (ec6303 signals and systems question bank)
4. State Initial and Final value Theorem of Laplace Transforms.
5. Find the Laplace Transform of the signal(?) = ?−???(?).
6. State Convolution property of Fourier Transform.
7. Give the Relationship between Laplace Transform and Fourier Transform.
8. What are the Transfer functions of the following?
a) An ideal integrator
b) An ideal delay of T seconds.
9. Write the Nth order differential equation.
10. What are the Dirichlet’s conditions of Fourier series? (ec6303 signals and systems question bank)
11. What is the condition for Laplace transform to exist.
12. Write the equations for trigonometric & exponential Fourier series .

PART – B 16 mark questions (ec6303 signals and systems question bank)

1. i). Distinguish between Fourier series Analysis and Fourier Transforms
ii. Obtain Fourier series of half wave Rectified Sine wave.

2. i). Determine the Fourier Transform for double exponential pulse whose function is given by (?) = ?−2|?|. Also draw its magnitude and phase spectra. ii). Obtain inverse Laplace Transform of the function

3. i). Find the Laplace Transform and ROC of the signal (?) = ?−???(?) + ?−???(?)
ii). State and Prove Convolution property and parseval’s relation of Fourier series

4. i). Find the trigonometric Fourier series for the periodic signal (?) shown in the fig. ii. State and prove Parseval’s Relation of Fourier Transform. (ec6303 signals and systems question bank)

5. i). Find the Laplace Transform of the following. a) ?(?) = ?(? − 2)
b) (?) = ?2?−2??(?)
ii) Find the Fourier Transform of Rectangular pulse. Sketch the signal and Fourier
transform.

Subject Name Signals and Systems
Subject Code EC6303
Regulation 2013

EC6303 Signals and Systems Question Bank click here to download

EC6303 Signals and Systems Syllabus

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EC6303 Signals and Systems Important questions

 

 

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Important question

EC6303 Signals and Systems Important questions Regulation 2013 Anna University

EC6303-Signals-and-Systems-Important-questions-Regulation-2013-Anna-University

EC6303 Signals and Systems Important questions

EC6303 Signals and Systems Important questions Regulation 2013 Anna University free download. Signals and Systems EC6303 Important questions pdf free download.

Sample EC6303 Signals and Systems Important questions:

1 Define Signal

Signal is a physical quantity that varies with respect to time , space or any other independent variable.
Or It is a mathematical representation of the system Eg y(t) = t. and x(t)= sin t.

2 Define system .

A set of components that are connected together to perform the particular task. (ec6303 signals and systems important questions)

3 What are the major classifications of the signal?

(i) Discrete time signal
(ii) Continuous time signal

4 Define discrete time signals and classify them.

Discrete time signals are defined only at discrete times, and for these signals, the independent variable
takes on only a discrete set of values. (ec6303 signals and systems important questions)

Classification of discrete time signal:
i. Periodic and Aperiodic signal
ii. Even and Odd signal
iii. Causal Non Causal
iv. Energy and Power

5 Define continuous time signals and classify them.

Continuous time signals are defined for a continuous of values of the independent variable. In the case of
continuous time signals the independent variable is continuous. For example:
(i) A speech signal as a function of time
(ii) Atmospheric pressure as a function of altitude  (ec6303 signals and systems important questions)

Classification of continuous time signal:
i. Periodic and Aperiodic signal
ii. Even and Odd signal
iii. Causal Non Causal
iv. Energy and Power
v. Random and Deterministic Signals

6 Define discrete time unit step &unit impulse.

Discrete time Unit impulse is defined as
δ [n]= {0, n ≠ 0
{1, n=0 Unit impulse is also known as unit sample.
Discrete time unit step signal is defined by
U[n]={0,n=0
{1,n>= 0

7 Define continuous time unit step and unit impulse.

Continuous time unit impulse is defined as
δ (t)={1, t=0
{0, t ≠ 0

Continuous time Unit step signal is defined as
U(t)={0, t<0
{1, t ≥ 0 (ec6303 signals and systems important questions)

Subject Name Signals and Systems
Subject Code EC6303
Regulation 2013

EC6303 Signals and Systems Important questions click here to download

EC6303 Signals and Systems Syllabus

EC6303 Signals and Systems Notes

EC6303 Signals and Systems Question Bank

 

Categories
r2013 notes

EC6303 Signals and Systems Notes Regulation 2013 Anna University

EC6303-Signals-and-Systems-Notes-Regulation-2013-Anna-University

EC6303 Signals and Systems Notes

EC6303 Signals and Systems Notes Regulation 2013 Anna University free download. Signals and Systems EC6303 Notes pdf free download.

OUTCOMES: EC6303 Signals and Systems Notes

Upon the completion of the course, students will be able to: Analyze the properties of signals & systems Apply Laplace transform, Fourier transform, Z transform and DTFT in signal analysis Analyze continuous time LTI systems using Fourier and Laplace Transforms Analyze discrete time LTI systems using Z transform and DTFT

TEXT BOOK: EC6303 Signals and Systems Notes

1. Allan V.Oppenheim, S.Wilsky and S.H.Nawab, “Signals and Systems”, Pearson, 2007.

REFERENCES: EC6303 Signals and Systems Notes

1. B. P. Lathi, “Principles of Linear Systems and Signals”, Second Edition, Oxford, 2009.

2. R.E.Zeimer, W.H.Tranter and R.D.Fannin, “Signals & Systems – Continuous and Discrete”, Pearson, 2007.

3. John Alan Stuller, “An Introduction to Signals and Systems”, Thomson, 2007.

4. M.J.Roberts, “Signals & Systems Analysis using Transform Methods & MATLAB”, Tata McGraw Hill, 2007.

Signal definition EC6303 Signals and Systems Notes

A signal is a function representing a physical quantity or variable, and typically it contains information about the behaviour or nature of the phenomenon.
For instance, in a RC circuit the signal may represent the voltage across the capacitor or the current flowing in the resistor. Mathematically, a signal is represented as a function of an independent variable ‘t’. Usually ‘t’ represents time. Thus, a signal is denoted by x(t). 1.1.2

System definition EC6303 Signals and Systems Notes

A system is a mathematical model of a physical process that relates the input (or excitation) signal to the output (or response) signal. Let x and y be the input and output signals, respectively, of a system. Then the system is viewed as a transformation (or mapping) of x into y. This transformation is represented by the
mathematical notation
y= Tx —————————————–(1.1)
where T is the operator representing some well-defined rule by which x is transformed into y. Relationship (1.1) is depicted as shown in Fig. 1-1(a). Multiple input and/or output signals are possible as shown in Fig. 1-1(b). We will restrict our attention for the most part in this text to the single-input, single-output case.

Subject Name Signals and Systems
Subject Code EC6303
Regulation 2013

EC6303 Signals and Systems Notes click here to download

EC6303 Signals and Systems Syllabus

EC6303 Signals and Systems Important questions

EC6303 Signals and Systems Question Bank

 

Categories
UG syllabus R 2013

EC6303 Signals and Systems Syllabus Regulation 2013 Anna University

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EC6303 Signals and Systems Syllabus

EC6303 Signals and Systems Syllabus Regulation 2013 Anna University free download. Signals and Systems EC6303 Syllabus pdf free download.

OBJECTIVES: EC6303 Signals and Systems Syllabus

To understand the basic properties of signal & systems and the various methods of classification

To learn Laplace Transform &Fourier transform and their properties

To know Z transform & DTFT and their properties

To characterize LTI systems in the Time domain and various Transform domains

UNIT I CLASSIFICATION OF SIGNALS AND SYSTEMS EC6303 Signals and Systems Syllabus

Continuous time signals (CT signals) – Discrete time signals (DT signals) – Step, Ramp, Pulse, Impulse, Sinusoidal, Exponential, Classification of CT and DT signals – Periodic & Aperiodic signals, Deterministic & Random signals, Energy & Power signals – CT systems and DT systems- Classification of systems – Static & Dynamic, Linear & Nonlinear, Time-variant & Time-invariant, Causal & Noncausal, Stable & Unstable.

UNIT II ANALYSIS OF CONTINUOUS TIME SIGNALS EC6303 Syllabus Signals and Systems

Fourier series analysis-spectrum of Continuous Time (CT) signals- Fourier and Laplace Transforms in CT Signal Analysis – Properties.

UNIT III LINEAR TIME INVARIANT- CONTINUOUS TIME SYSTEMS EC6303 Syllabus Signals and Systems

Differential Equation-Block diagram representation-impulse response, convolution integrals-Fourier and Laplace transforms in Analysis of CT systems

UNIT IV ANALYSIS OF DISCRETE TIME SIGNALS EC6303 Signals and Systems Syllabus

Baseband Sampling – DTFT – Properties of DTFT – Z Transform – Properties of Z Transform

UNIT V LINEAR TIME INVARIANT-DISCRETE TIME SYSTEMS EC6303 Syllabus Signals and Systems

Difference Equations-Block diagram representation-Impulse response – Convolution sum- Discrete Fourier and Z Transform Analysis of Recursive & Non-Recursive systems

Subject Name Signals and Systems
Subject Code EC6303
Regulation 2013

EC6303 Signals and Systems Syllabus click here to download

EC6303 Signals and Systems Notes

EC6303 Signals and Systems Important questions

EC6303 Signals and Systems Question Bank

 

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question bank

EC6302 Digital Electronics Question Bank Regulation 2013 Anna University

EC6302 Digital Electronics Question Bank Regulation 2013 Anna University

EC6302 Digital Electronics Question Bank

EC6302 Digital Electronics Question Bank Regulation 2013 Anna University free download. Digital Electronics EC6302 Question Bank pdf free download.

Sample EC6302 Digital Electronics Question Bank:

Part – A  2 mark

1. Apply De-Morgan’s theorem to simplify A+BC.

2. Define the term prime implicants and Essential prime implicants.

3. Draw the XOR logic using only NAND gates.

4. Implement the following Boolean function with NOR – NOR logic
F = Π(0,2, 4,5,6)

5. Express the switching function f (ABC) = B in terms of minterm. (EC6302 Digital Electronics Question Bank)

6. Define minterm & Maxterm. Give examples.

7. Simplify the given Boolean Expression F= x’+xy+xz’+xy’z’.

8. Prove that the logical sum of all minterms of a Boolean function of 2 variables is 1.

9. Show that a positive logic NAND gate is a negative logic NOR gate.

10. If A & B are Boolean variables and if A=1 & A+B=0, Find B? (EC6302 Digital Electronics Question Bank)

11. Realize F = A’B+AB’ using minimum universal gates.

12. Write the Boolean expression for the output of the system shown in figure.

13. Write down fan-in & fan-out of a standard TTL IC.

14. Prove that AB+A’C+BC = AB + A’C

15. Implement the following Boolean function with NAND – NAND logic
F = Σ(0,1, 3, 5) (EC6302 Digital Electronics Question Bank)

16. What are don’t care terms?

17. What are universal gates implement AND gate using any one universal gate?

18. What are the advantages of Schottky TTL family?

19. Define the term (i). Propagation delay (ii). Power dissipation

20. Draw an active high tri-state Gate & write its truth table. (EC6302 Digital Electronics Question Bank)

Part – B 16 mark

1. a). i). Simplify the following function using K – map, f=ABCD+AB’C’D’+AB’C+AB &
realize the SOP using only NAND gates and POS using only NOR gates (12)
ii). Simplify the logic circuit shown in figure (4)

2. a). i). Minimize the term using Quine McCluskey method & verify the result using Kmap
method πM(0,1,4,11,13,15)+ πd(5,7,8). (10)
ii). Explain the operation of 3 input TTL NAND gate with required diagram & truth
table. (6)

3. a). i). Using K-map method, Simplify the following Boolean function and obtain
(a) minimal SOP and
(b) minimal POS expression & realize using only NAND and NOR gates
F=Σm(0,2,3,6,7) + d(8,10,11,15) (10)
ii). Draw the circuits of 2 input NAND & 2 input NOR gate using CMOS (6) (EC6302 Digital Electronics Question Bank)

Subject Name Digital Electronics
Subject Code EC6302
Regulation 2013

EC6302 Digital Electronics Question Bank click here to download

EC6302 Digital Electronics Syllabus

EC6302 Digital Electronics Notes

EC6302 Digital Electronics Important questions

 

 

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Important question

EC6302 Digital Electronics Important questions Regulation 2013 Anna University

EC6302 Digital Electronics Important questions Regulation 2013 Anna University

EC6302 Digital Electronics Important questions

EC6302 Digital Electronics Important questions Regulation 2013 Anna University free download. Digital Electronics EC6302 Important questions pdf free download.

Sample EC6302 Digital Electronics Important questions:

1. Define Digital Systems.

A system which processing discrete or digital signal is called as Digital
System.

2. What is meant by bit?

A binary digit is called bit.

3. What is the best example of digital system? (ec6302 digital electronics important questions)

Digital computer is the best example of a digital system.

4. Define Radix.

It specifies the number of symbols used for corresponding number system.

5. Define Nibble and Byte.

i). In binary number a group of four bits.
ii). A group of 8 bits are called Byte.

6. List the number systems?

i) Decimal Number system
ii) Binary Number system
iii) Octal Number system
iv) Hexadecimal Number system (ec6302 digital electronics important questions)

7. Define binary logic?

Binary logic consists of binary variables and logical operations. The variables
are designated by the alphabets such as A, B, C, x, y, z, etc., with each variable having only two distinct values: 1 and 0. There are three basic logic operations: AND, OR, and NOT.

8. What is a Logic gate?

Logic gates are the basic elements that make up a digital system. The
electronic gate is a circuit that is able to operate on a number of binary inputs in
order to perform a particular logical function. (ec6302 digital electronics important questions)

9. What are the basic digital logic gates?

The three basic logic gates are:
1. AND gate
2. OR gate
3. NOT gate

10. Which gates are called as the universal gates? What are its
advantages?

The NAND and NOR gates are called as the universal gates. These gates are
used to perform any type of logic application.

11. How to represent a positive and negative sign in computers?

Positive (+) sign by 0
Negative (-) sign by 1. (ec6302 digital electronics important questions)

Subject Name Digital Electronics
Subject Code EC6302
Regulation 2013

EC6302 Digital Electronics Important questions click here to download

EC6302 Digital Electronics Syllabus

EC6302 Digital Electronics Notes

EC6302 Digital Electronics Question Bank

 

Categories
r2013 notes

EC6302 Digital Electronics Notes Regulation 2013 Anna University

EC6302 Digital Electronics Notes Regulation 2013 Anna University

EC6302 Digital Electronics Notes

EC6302 Digital Electronics Notes Regulation 2013 Anna University free download. Digital Electronics EC6302 Notes pdf free download.

OBJECTIVES: EC6302 Digital Electronics Notes

To introduce basic postulates of Boolean algebra and shows the correlation between Boolean expressions

To introduce the methods for simplifying Boolean expressions

To outline the formal procedures for the analysis and design of combinational circuits and sequential circuits

To introduce the concept of memories and programmable logic devices.

To illustrate the concept of synchronous and asynchronous sequential circuits

TEXT BOOK: EC6302 Digital Electronics Notes

1. M. Morris Mano, “Digital Design”, 4th Edition, Prentice Hall of India Pvt. Ltd., 2008 / Pearson Education (Singapore) Pvt. Ltd., New Delhi, 2003.

REFERENCES: EC6302 Digital Electronics Notes

1. John F.Wakerly, “Digital Design”, Fourth Edition, Pearson/PHI, 2008

2. John.M Yarbrough, “Digital Logic Applications and Design”, Thomson Learning, 2006.

3. Charles H.Roth. “Fundamentals of Logic Design”, 6th Edition, Thomson Learning, 2013.

4. Donald P.Leach and Albert Paul Malvino, “Digital Principles and Applications”, 6th Edition, TMH, 2006.

5. Thomas L. Floyd, “Digital Fundamentals”, 10th Edition, Pearson Education Inc, 2011

6. Donald D.Givone, “Digital Principles and Design”, TMH, 2003.

The primary objective of all simplification procedures is to obtain an expression that has the minimum number of terms.

Obtaining an expression with the minimum number of literals is usually the secondary objective. If there is more than one possible solution with the same number of terms, the one having the minimum number of literals is the choice.

There are several methods for simplification of Boolean logic expressions. The process is usually called logic minimization‖ and the goal is to form a result which is efficient. (EC6302 Digital Electronics Notes)

Two methods we will discuss are algebraic minimization and Karnaugh maps. For very complicated problems the former method can be done using special software analysis programs.

Karnaugh maps are also limited to problems with up to 4 binary inputs. The Quine–McCluskey tabular method is used for more than 4 binary inputs.

Subject Name Digital Electronics
Subject Code EC6302
Regulation 2013

EC6302 Digital Electronics Notes click here to download

EC6302 Digital Electronics Syllabus

EC6302 Digital Electronics Important questions

EC6302 Digital Electronics Question Bank

 

Categories
UG syllabus R 2013

EC6302 Digital Electronics Syllabus Regulation 2013 Anna University

EC6302 Digital Electronics Syllabus Regulation 2013 Anna University

EC6302 Digital Electronics Syllabus

EC6302 Digital Electronics Syllabus Regulation 2013 Anna University free download. Digital Electronics EC6302 Syllabus pdf free download.

UNIT I MINIMIZATION TECHNIQUES AND LOGIC GATES EC6302 Digital Electronics Syllabus

Minimization Techniques: Boolean postulates and laws – De-Morgan‟s Theorem – Principle of Duality – Boolean expression – Minimization of Boolean expressions –– Minterm – Maxterm – Sum of Products (SOP) – Product of Sums (POS) – Karnaugh map Minimization – Don‟t care conditions – Quine – Mc Cluskey method of minimization. Logic Gates: AND, OR, NOT, NAND, NOR, Exclusive–OR and Exclusive–NOR Implementations of Logic Functions using gates, NAND–NOR implementations – Multi level gate implementations- Multi output gate implementations. TTL and CMOS Logic and their characteristics – Tristate gates

UNIT II COMBINATIONAL CIRCUITS EC6302 Digital Electronics Syllabus

Design procedure – Half adder – Full Adder – Half subtractor – Full subtractor – Parallel binary adder, parallel binary Subtractor – Fast Adder – Carry Look Ahead adder – Serial Adder/Subtractor – BCD adder – Binary Multiplier – Binary Divider – Multiplexer/ Demultiplexer – decoder – encoder – parity checker – parity generators – code converters – Magnitude Comparator.

UNIT III SEQUENTIAL CIRCUITS EC6302 Digital Electronics Syllabus

Latches, Flip-flops – SR, JK, D, T, and Master-Slave – Characteristic table and equation –Application table – Edge triggering – Level Triggering – Realization of one flip flop using other flip flops – serial adder/subtractor- Asynchronous Ripple or serial counter – Asynchronous Up/Down counter – Synchronous counters – Synchronous Up/Down counters – Programmable counters – Design of Synchronous counters: state diagram- State table –State minimization –State assignment – Excitation table and maps-Circuit implementation – Modulo–n counter, Registers – shift registers – Universal shift registers – Shift register counters – Ring counter – Shift counters – Sequence generators.

UNIT IV MEMORY DEVICES EC6302 Digital Electronics Syllabus

Classification of memories – ROM – ROM organization – PROM – EPROM – EEPROM –EAPROM, RAM – RAM organization – Write operation – Read operation – Memory cycle – Timing wave forms – Memory decoding – memory expansion – Static RAM Cell- Bipolar RAM cell – MOSFET RAM cell – Dynamic RAM cell –Programmable Logic Devices – Programmable Logic Array (PLA) – Programmable Array Logic (PAL) – Field Programmable Gate Arrays (FPGA) – Implementation of combinational logic circuits using ROM, PLA, PAL

UNIT V SYNCHRONOUS AND ASYNCHRONOUS SEQUENTIAL CIRCUITS EC6302 Digital Electronics Syllabus

Synchronous Sequential Circuits: General Model – Classification – Design – Use of Algorithmic State Machine – Analysis of Synchronous Sequential Circuits Asynchronous Sequential Circuits: Design of fundamental mode and pulse mode circuits – Incompletely specified State Machines – Problems in Asynchronous Circuits – Design of Hazard Free Switching circuits. Design of Combinational and Sequential circuits using VERILOG.

Subject Name Digital Electronics
Subject Code EC6302
Regulation 2013

EC6302 Digital Electronics Syllabus click here to download

EC6302 Digital Electronics Notes

EC6302 Digital Electronics Important questions

EC6302 Digital Electronics Question Bank