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EC6202 Electronic Devices and Circuits Notes Regulation 2013 Anna University

EC6202-Electronic-Devices-and-Circuits-Notes-Regulation-2013-Anna-University

EC6202 Electronic Devices and Circuits Notes

EC6202 Electronic Devices and Circuits Notes Regulation 2013 Anna University free download. Electronic Devices and Circuits EC6202 Notes pdf free download.

OUTCOMES EC6202 Electronic Devices and Circuits Notes:

 To explain the structure of the basic electronic devices.
 To design applications using the basic electronic devices.

TEXT BOOKS EC6202 Electronic Devices and Circuits Notes:

1. David A. Bell ,”Electronic Devices and Circuits”, Prentice Hall of India, 2004.

2. Sedra and smith, “Microelectronic Circuits “ Oxford University Press, 2004.

REFERENCES EC6202 Electronic Devices and Circuits Notes:

1. Rashid, “Micro Electronic Circuits” Thomson publications, 1999.

2. Floyd, “Electron Devices” Pearson Asia 5th Edition, 2001.

3. Donald A Neamen, “Electronic Circuit Analysis and Design” Tata McGraw Hill, 3rd Edition, 2003.

4. Robert L.Boylestad, “Electronic Devices and Circuit theory”, 2002.

5. Robert B. Northrop, “Analysis and Application of Analog Electronic Circuits to Biomedical Instrumentation”, CRC Press, 2004.

The current-voltage characteristics is of prime concern in the study of semiconductor devices with light entering as a third variable in optoelectronics devices.The external characteristics of the device is determined by the interplay of the following internal variables:
1. Electron and hole currents
2. Potential
3. Electron and hole density
4. Doping
5. Temperature

Current: (EC6202 Electronic Devices and Circuits Notes)

There are two components of current; electron current density and hole current density. There are several mechanisms of current flow:
(i) Drift
(ii) Diffusion
(iii) thermionic emission
(iv) tunneling

The last two mechanisms are important often only at the interface of two different materials such as a metal-semiconductor junction or a semiconductor-semiconductor junction where the two semiconductors are of different materials. Tunneling is also important in the case of PN junctions where both sides are heavily doped.

Subject Name Electronic Devices and Circuits
Subject code EC6202
Regulation 2013

EC6202 Electronic Devices and Circuits Notes Click here to download

EC6202 Electronic Devices and Circuits Syllabus

EC6202 Electronic Devices and Circuits Important questions

EC6202 Electronic Devices and Circuits Question Bank

 

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EC6202 Electronic Devices and Circuits Syllabus Regulation 2013 Anna University

EC6202-Electronic-Devices-and-Circuits-Syllabus-Regulation-2013-Anna-University

EC6202 Electronic Devices and Circuits Syllabus

EC6202 Electronic Devices and Circuits Syllabus Regulation 2013 Anna University free download. Electronic Devices and Circuits EC6202 Syllabus pdf free download.

The student should be made to:
 Be familiar with the structure of basic electronic devices.
 Be exposed to the operation and applications of electronic devices.

UNIT I PN JUNCTION DEVICES EC6202 Electronic Devices and Circuits Syllabus

PN junction diode –structure, operation and V-I characteristics, diffusion and transient capacitance – Rectifiers – Half Wave and Full Wave Rectifier,– Display devices- LED, Laser diodes- Zener diodecharacteristics- Zener Reverse characteristics – Zener as regulator

UNIT II TRANSISTORS EC6202 Electronic Devices and Circuits EDC Syllabus 

BJT, JFET, MOSFET- structure, operation, characteristics and Biasing UJT, Thyristor and IGBT – Structure and characteristics.

UNIT III AMPLIFIERS EC6202 Electronic Devices and Circuits Syllabus 

BJT small signal model – Analysis of CE, CB, CC amplifiers- Gain and frequency response – MOSFET small signal model– Analysis of CS and Source follower – Gain and frequency response- High frequency analysis.

UNIT IV MULTISTAGE AMPLIFIERS AND DIFFERENTIAL AMPLIFIER EC6202 Electronic Devices and Circuits EDC Syllabus

BIMOS cascade amplifier, Differential amplifier – Common mode and Difference mode analysis – FET input stages – Single tuned amplifiers – Gain and frequency response – Neutralization methods, power amplifiers –Types (Qualitative analysis).

UNIT V FEEDBACK AMPLIFIERS AND OSCILLATORS EC6202 Electronic Devices and Circuits Syllabus

Advantages of negative feedback – voltage / current, series , Shunt feedback –positive feedback – Condition for oscillations, phase shift – Wien bridge, Hartley, Colpitts and Crystal oscillators.

Subject Name Electronic Devices and Circuits
Subject code EC6202
Regulation 2013

EC6202 Electronic Devices and Circuits Syllabus Click here to download

EC6202 Electronic Devices and Circuits Notes

EC6202 Electronic Devices and Circuits Important questions

EC6202 Electronic Devices and Circuits Question Bank

 

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EE6302 Electromagnetic Theory Question Bank Regulation 2013 Anna University

EE6302-Electromagnetic-Theory-Question-Bank-Regulation-2013-Anna-University

EE6302 Electromagnetic Theory Question Bank

EE6302 Electromagnetic Theory Question Bank Regulation 2013 Anna University free download. EE6302 Question Bank Electromagnetic Theory pdf free download.

Sample EE6302 Electromagnetic Theory Question Bank:

1. How are unit vector defined in cylindrical coordinate systems?

2. State Stoke’s theorem.

3. Mention the sources of electromagnetic fields.

4. State the physical significance of curl of a vector field.

5. Two vectorial quantities and are known to be oriented in two unique directions. Determine the angular separation between them.

6. State the conditions for a vector A to be (a) solenoidal (b) irrotational

7. State divergence theorem. (EE6302 Electromagnetic Theory Question Bank)

8. State the vector form of electric flux density.

9. Define divergence and its physical meaning.

10. What are the different coordinate systems.

11. Mention the criteria for choosing an appropriate coordinate system for solving a field problem easily. Explain with an example.

12. When a vector field is solenoidal and irrotational. (EE6302 Electromagnetic Theory Question Bank)

13. Give the practical examples of diverging and curl field.

14. Obtain the unit vector in the direction from the origin towards the point P(3,-3,-2).

15. Verify that the vectors and are parallel to each other. (EE6302 Electromagnetic Theory Question Bank)

16. Given that and ; find ‘t’ such that angle between and is 45

17. Prove that curl grad φ =0. (EE6302 Electromagnetic Theory Question Bank)

18. How can a vector field be expressed as the gradient of scalar field?

19. Determine the curl of .

20. Given that and ; find the projection of A and B.

PART B

1. Write short notes on the following: (a) Gradient (b) Divergence (c)Curl (d) Stoke
theorem.

2. Express the vector B in Cartesian and cylindrical systems. Given,
Then find B at (-3, 4, 0) and (5, π/2 , -2)

3. i) Describe the classification of vector fields.
ii) and a point Q is located at (-2 , 6,3), express (a) the point Q in cylindrical and spherical coordinates,(b) B in spherical coordinates.

4. Determine the divergence and curl of the following vector fields: (EE6302 Electromagnetic Theory Question Bank)

5. i)Given point P( -2,6,3) and ,express P and in cylindrical
coordinates.
ii) state and prove divergence theorem.

 

Subject Name Electromagnetic Theory
Subject code EE6302
Regulation 2013

EE6302 Electromagnetic Theory Question Bank Click here to download

EE6302 Electromagnetic Theory Syllabus

EE6302 Electromagnetic Theory Notes

EE6302 Electromagnetic Theory Important questions

 

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EE6302 Electromagnetic Theory Important questions Regulation 2013 Anna University

EE6302 Electromagnetic Theory Important questions Regulation 2013 Anna University

EE6302 Electromagnetic Theory Important questions

EE6302 Electromagnetic Theory Important questions Regulation 2013 Anna University free download. EE6302 Important questions Electromagnetic Theory pdf free download.

Sample EE6302 Electromagnetic Theory Important questions:

1. State stokes theorem.

The line integral of a vector around a closed path is equal to the surface integral
of the normal component of its curl over any surface bounded by the path
∫H.dl = ∫ ∫ (ΔxH)ds
Where, H=Magnetic field intensity

(ee6302 electromagnetic theory important questions)

2. State the condition for the vector F to be solenoidal.

Δ.F =0
Where, F=A i + B i + C i

3. State the condition for the vector F to be irrotational.

ΔxF =0
Where, F=A i + B i + C i

4. Give the relationship between potential gradiant and electric field.

E= – ΔV
Where, E=Electric Field Intensity
V=Electric Potential

5. What is the physical significance of div D ?

The divergence of a vector flux density is electric flux per unit volume leaving a small volume. This is equal to the volume charge density. (ee6302 electromagnetic theory important questions)

6.What are the sources of electric field and magnetic field?

Stationary charges produce electric field that are constant in time, hence the term
electrostatics. Moving charges produce magnetic fields hence the term magneto statics. (ee6302 electromagnetic theory important questions)

7. State Divergence Theorem. 

The integral of the divergence of a vector over a volume v is equal to the surface
integral of the normal component of the vector over the surface bounded by the volume.
∫∫Δ.F ds = ∫∫∫ F dv
Where, F=A i + B i + C i (ee6302 electromagnetic theory important questions)

8. Define divergence.

The divergence of a vector F at any point is defined as the limit of its surface integral per unit volume as the volume enclosed by the surface around the point shrinks to zero. (ee6302 electromagnetic theory important questions)

9. State coulombs law.

Coulombs law states that the force (F) between any two point charges (Q1 and Q2) is directly proportional to the product of their magnitudes and inversely proportional to the square of the distance ® between them. It is directed along the line joining the two charges.

Subject Name Electromagnetic Theory
Subject code EE6302
Regulation 2013

EE6302 Electromagnetic Theory Important questions Click here to download

EE6302 Electromagnetic Theory Syllabus

EE6302 Electromagnetic Theory Notes

EE6302 Electromagnetic Theory Question Bank

 

Categories
r2013 notes

EE6302 Electromagnetic Theory Notes Regulation 2013 Anna University

EE6302-Electromagnetic-Theory-Notes-Regulation-2013-Anna-University

EE6302 Electromagnetic Theory Notes

EE6302 Electromagnetic Theory Notes Regulation 2013 Anna University free download. EE6302 Notes Electromagnetic Theory pdf free download.

OBJECTIVES EE6302 Electromagnetic Theory Notes:

To introduce the basic mathematical concepts related to electromagnetic vector fields

To impart knowledge on the concepts of electrostatics, electrical potential, energy density and their applications.

To impart knowledge on the concepts of magnetostatics, magnetic flux density, scalar and vector potential and its applications.

To impart knowledge on the concepts of Faraday’s law, induced emf and Maxwell’s equations

To impart knowledge on the concepts of Concepts of electromagnetic waves and Pointing vector.

OUTCOMES EE6302 Electromagnetic Theory Notes:

Ability to understand and apply basic science, circuit theory, Electro-magnetic field theory control theory and apply them to electrical engineering problems.

TEXT BOOKS EE6302 Electromagnetic Theory Notes:

1. Mathew N. O. Sadiku, ‘Principles of Electromagnetics’, 4 th Edition ,Oxford University Press Inc. First India edition, 2009.

2. Ashutosh Pramanik, ‘Electromagnetism – Theory and Applications’, PHI Learning Private Limited, New Delhi, Second Edition-2009.

3. K.A. Gangadhar, P.M. Ramanthan ‘ Electromagnetic Field Theory (including Antennaes and wave propagation’, 16th Edition, Khanna Publications, 2007.

REFERENCES EE6302 Electromagnetic Theory Notes:

1. Joseph. A.Edminister, ‘Schaum’s Outline of Electromagnetics, Third Edition (Schaum’s Outline Series), Tata McGraw Hill, 2010

2. William H. Hayt and John A. Buck, ‘Engineering Electromagnetics’, Tata McGraw Hill 8th Revised edition, 2011.

3. Kraus and Fleish, ‘Electromagnetics with Applications’, McGraw Hill International Editions, Fifth Edition, 2010.

4. Bhag Singh Guru and Huseyin R. Hiziroglu “Electromagnetic field theory Fundamentals”, Cambridge University Press; Second Revised Edition, 2009.

EE6302 Electromagnetic Theory Notes

Electromagnetic theory is a discipline concerned with the study of charges at rest and in motion. Electromagnetic principles are fundamental to the study of electrical engineering and physics. Electromagnetic theory is also indispensable to the understanding, analysis and design of various electrical, electromechanical and electronic systems. Some of the branches of study where electromagnetic principles find application are: RF communication, Microwave Engineering, Antennas, Electrical Machines, Satellite Communication, Atomic and nuclear research ,Radar Technology, Remote sensing, EMI EMC, Quantum Electronics, VLSI , Electromagnetic theory is a prerequisite for a wide spectrum of studies in the field of Electrical Sciences and Physics.

Subject Name Electromagnetic Theory
Subject code EE6302
Regulation 2013

EE6302 Electromagnetic Theory notes Click here to download

EE6302 Electromagnetic Theory Syllabus

EE6302 Electromagnetic Theory Important questions

EE6302 Electromagnetic Theory Question Bank

 

Categories
UG syllabus R 2013

EE6302 Electromagnetic Theory Syllabus Regulation 2013 Anna University

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EE6302 Electromagnetic Theory Syllabus

EE6302 Electromagnetic Theory Syllabus Regulation 2013 Anna University free download. EE6302 Syllabus Electromagnetic Theory pdf free download.

UNIT I ELECTROSTATICS – I EE6302 Electromagnetic Theory Syllabus

Sources and effects of electromagnetic fields – Coordinate Systems – Vector fields –Gradient, Divergence, Curl – theorems and applications – Coulomb’s Law – Electric field intensity – Field due to discrete and continuous charges – Gauss’s law and applications.

UNIT II ELECTROSTATICS – II EE6302 Electromagnetic Theory ET Syllabus

Electric potential – Electric field and equipotential plots, Uniform and Non-Uniform field, Utilization factor – Electric field in free space, conductors, dielectrics – Dielectric polarization – Dielectric strength – Electric field in multiple dielectrics – Boundary conditions, Poisson’s and Laplace’s equations, Capacitance, Energy density, Applications.

UNIT III MAGNETOSTATICS EE6302 Electromagnetic Theory Syllabus

Lorentz force, magnetic field intensity (H) – Biot–Savart’s Law – Ampere’s Circuit Law – H due to straight conductors, circular loop, infinite sheet of current, Magnetic flux density (B) – B in free space, conductor, magnetic materials – Magnetization, Magnetic field in multiple media – Boundary conditions, scalar and vector potential, Poisson’s Equation, Magnetic force, Torque, Inductance, Energy density, Applications.

UNIT IV ELECTRODYNAMIC FIELDS EE6302 Electromagnetic Theory Syllabus

Magnetic Circuits – Faraday’s law – Transformer and motional EMF – Displacement current – Maxwell’s equations (differential and integral form) – Relation between field theory and circuit theory – Applications.

UNIT V ELECTROMAGNETIC WAVES EE6302 Electromagnetic Theory ET Syllabus

Electromagnetic wave generation and equations – Wave parameters; velocity, intrinsic impedance, propagation constant – Waves in free space, lossy and lossless dielectrics, conductors- skin depth – Poynting vector – Plane wave reflection and refraction – Standing Wave – Applications.

Subject Name Electromagnetic Theory
Subject code EE6302
Regulation 2013

EE6302 Electromagnetic Theory Syllabus Click here to download

EE6302 Electromagnetic Theory Notes

EE6302 Electromagnetic Theory Important questions

EE6302 Electromagnetic Theory Question Bank

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EE6301 Digital Logic Circuits Question Bank Regulation 2013 Anna University

EE6301-Digital-Logic-Circuits-Question-Bank-Regulation-2013-Anna-University

EE6301 Digital Logic Circuits Question Bank

EE6301 Digital Logic Circuits Question Bank Regulation 2013 Anna University free download. EE6301 Question Bank Digital Logic Circuits DLC pdf free download.

Sample EE6301 Digital Logic Circuits Question Bank:

Part A 2 mark 

1. Define combinational logic.

2. Explain the design procedure for combinational circuits.

3. Define Boolean algebra & Boolean Expression.

4. What are basic properties of Boolean algebra?

5. State the associative property of Boolean algebra.

6. State the commutative property of Boolean algebra.

7. State the distributive property of Boolean algebra.

8. State De Morgan’s theorem. (EE6301 Digital Logic Circuits Question Bank)

10. What are the 2 forms of Boolean expression?

11. Define Minterm & Maxterm.

12. What is meant by karnaugh map or K-Map method?

13. Define Cell.

14. Define Pair, Quad, and Octet.

15. What are called don’t care conditions?

16. What is tabulation method? (EE6301 Digital Logic Circuits Question Bank)

17. State the limitations of karnaugh map.

18. What is a prime implicant?

19. What is an essential prime implicant?

20. Explain or list out the advantages and disadvantages of K-map method?

21. List out the advantages and disadvantages of Quine-Mc Cluskey method?

22. Define Duality Theorem. (EE6301 Digital Logic Circuits Question Bank)

23.Define Half adder and full adder

24. Define multiplexer?

25. What is Demultiplexer?

26. What is code conversion?

27. What is code converter?

28. What do you mean by analyzing a combinational circuit?

29. Give the applications of Demultiplexer.

30. Mention the uses of Demultiplexer. (EE6301 Digital Logic Circuits Question Bank)

31. Give other name for Multiplexer and Demultiplexer.

32. What is the function of the enable input in a Multiplexer?

33.List the application of Mux.

34.List out the applications of comparators?

35. What is digital comparator?

36. What is carry look-ahead addition? (EE6301 Digital Logic Circuits Question Bank)

Part B – 16 mark 

1.Obtain the minimum SOP using using K-map.
F=m0+m2+m4+m8+m9+m10+m11+m12+m13

2.determine the prime applicants of the following function and verify using K- Map F(A,B,C,D)=m(3,4,5,7,9,13,14,15).

3.Using 8:1 multiplexer, realize the Boolean function
T=f(w,x,y,z)=m(0,1,2,4,5,7,8,9,12,13)

4.Design and implement the full adder and full subtractor circuit.

5.Design and implement a 8421 to gray code converter. Realise the converter using only NAND gates.

6.Obtain the minimum SOP using K-map method f(a,b,c,d)=m(1,3,4,6,11) +d(0,8,10,12,13). (EE6301 Digital Logic Circuits Question Bank)

Subject Name Digital Logic Circuits
Subject code EE6301
Regulation 2013

EE6301 Digital Logic Circuits Question Bank Click here to download

EE6301 Digital Logic Circuits Syllabus

EE6301 Digital Logic Circuits Notes

EE6301 Digital Logic Circuits Important questions

 

Categories
Important question

EE6301 Digital Logic Circuits Important questions Regulation 2013 Anna University

EE6301-Digital-Logic-Circuits-Important-questions-Regulation-2013-Anna-University

EE6301 Digital Logic Circuits Important questions

EE6301 Digital Logic Circuits Important questions Regulation 2013 Anna University free download. EE6301 Important questions Digital Logic Circuits DLC pdf free download.

Sample EE6301 Digital Logic Circuits Important questions:

Part – A 2 Marks and part B 16 Marks

1. Where the digital systems are used?

Digital systems are used extensively in computation and data processing, control systems, Communications and measurements. Since digital systems are capable of greater accuracy and reliability than analog systems, many tasks formerly done by analog are now being performed digitally.

2. What is the difference between analog and digital systems?

In a digital system the physical quantities or signals can assume only discrete values, while in analog systems the physical quantities or signals vary continuously over a specified range. (EE6301 digital logic circuits important questions)

3. What is a binary number system and Why are binary numbers used in digital systems?

The number system with base (or radix) two is known as the binary number system. Only two symbols are used to represent the numbers in the system and these are 0 and 1.The outputs of the switching devices used in digital systems assume only two different values. Hence it is natural to use binary numbers internally in digital systems.

4. What is the difference between binary code and BCD? (EE6301 digital logic circuits important questions)

Binary:

i. Any distinct element can be represented by a binary code.
ii. No limitation for the minimum or maximum number of elements required for coding the element.

BCD:

i. Only a decimal digit can be represented.
ii. It is a four bit representation.

Subject Name Digital Logic Circuits
Subject code EE6301
Regulation 2013

EE6301 Digital Logic Circuits Important questions Click here to download

EE6301 Digital Logic Circuits Syllabus

EE6301 Digital Logic Circuits Notes

EE6301 Digital Logic Circuits Question Bank

Categories
r2013 notes

EE6301 Digital Logic Circuits Notes Regulation 2013 Anna University

EE6301-Digital-Logic-Circuits-Notes-Regulation-2013-Anna-University

EE6301 Digital Logic Circuits Notes

EE6301 Digital Logic Circuits Notes Regulation 2013 Anna University free download. EE6301 Notes Digital Logic Circuits pdf free download.

OUTCOMES EE6301 Digital Logic Circuits Notes:

Ability to understand and analyse, linear and digital electronic circuits.

TEXT BOOKS EE6301 Digital Logic Circuits Notes:

1. Raj Kamal, ‘ Digital systems-Principles and Design’, Pearson Education 2nd edition, 2007.

2. M. Morris Mano, ‘Digital Design with an introduction to the VHDL’, Pearson Education 2013.

3. Comer “Digital Logic & State Machine Design, Oxford, 2012.

REFERENCES EE6301 Digital Logic Circuits Notes:

1. Mandal ”Digital Electronics Principles & Application, McGraw Hill Edu,2013.

2. William Keitz, Digital Electronics-A Practical Approach with VHDL,Pearson,2013.

3. Floyd and Jain, ‘Digital Fundamentals’, 8th edition, Pearson Education, 2003.

4. Anand Kumar, Fundamentals of Digital Circuits,PHI,2013.

5. Charles H.Roth,Jr,Lizy Lizy Kurian John, ‘Digital System Design using VHDL, Cengage, 2013.

6. John M.Yarbrough, ‘Digital Logic, Application & Design’, Thomson, 2002.

7. Gaganpreet Kaur, VHDL Basics to Programming, Pearson, 2013.

8. Botros, HDL Programming Fundamental, VHDL& Verilog, Cengage, 2013.

(EE6301 Digital Logic Circuits Notes)

The English mathematician George Boole (1815-1864) sought to give symbolic form to Aristotle‘s system of logic.

Boole wrote a treatise on the subject in 1854, titled An Investigation of the Laws of Thought, on Which Are Founded the Mathematical Theories of Logic and Probabilities, which codified several rules of relationship between mathematical quantities limited to one of two possible values: true or false, 1 or 0.

His mathematical system became known as Boolean algebra. All arithmetic operations performed with Boolean quantities have but one of two possible
Outcomes: either 1 or 0. There is no such thing as ‖2‖ or ‖-1‖ or ‖1/2‖ in the Boolean world.

It is a world in which all other possibilities are invalid by fiat. As one might guess, this is not the kind of math you want to use when balancing a check book or calculating current through a resistor.

Subject Name Digital Logic Circuits
Subject code EE6301
Regulation 2013

EE6301 Digital Logic Circuits Notes Click here to download

EE6301 Digital Logic Circuits Syllabus

EE6301 Digital Logic Circuits Important questions

EE6301 Digital Logic Circuits Question Bank

Categories
UG syllabus R 2013

EE6301 Digital Logic Circuits Syllabus Regulation 2013 Anna University

EE6301-Digital-Logic-Circuits-Syllabus-Regulation-2013-Anna-University

EE6301 Digital Logic Circuits Syllabus

EE6301 Digital Logic Circuits Syllabus Regulation 2013 Anna University free download. EE6301 Syllabus Digital Logic Circuits pdf free download.

OBJECTIVES EE6301 Digital Logic Circuits Syllabus:

To study various number systems , simplify the logical expressions using Boolean functions

To study implementation of combinational circuits

To design various synchronous and asynchronous circuits.

To introduce asynchronous sequential circuits and PLCs

To introduce digital simulation for development of application oriented logic circuits.

UNIT I NUMBER SYSTEMS AND DIGITAL LOGIC FAMILIES EE6301 Digital Logic Circuits Syllabus

Review of number systems, binary codes, error detection and correction codes (Parity and Hamming code0- Digital Logic Families ,comparison of RTL, DTL, TTL, ECL and MOS families -operation, characteristics of digital logic family.

UNIT II COMBINATIONAL CIRCUITS EE6301 Digital Logic Circuits Syllabus

Combinational logic – representation of logic functions-SOP and POS forms, K-map representationsminimization using K maps – simplification and implementation of combinational logic – multiplexers and demultiplexers – code converters, adders, subtractors.

UNIT III SYNCHRONOUS SEQUENTIAL CIRCUITS EE6301 DLC Syllabus

Sequential logic- SR, JK, D and T flip flops – level triggering and edge triggering – counters – asynchronous and synchronous type – Modulo counters – Shift registers – design of synchronous sequential circuits – Moore and Melay models- Counters, state diagram; state reduction; state assignment.

UNIT IV ASYNCHRONOUS SEQUENTIAL CIRCUITS AND PROGRAMMABLE
LOGIC DEVICES EE6301 Digital Logic Circuits Syllabus

Asynchronous sequential logic circuits-Transition table, flow table-race conditions, hazards &errors in digital circuits; analysis of asynchronous sequential logic circuits-introduction to Programmable Logic Devices: PROM – PLA –PAL.

UNIT V VHDL EE6301 Digital Logic Circuits DLC Syllabus

RTL Design – combinational logic – Sequential circuit – Operators – Introduction to Packages – Subprograms – Test bench. (Simulation /Tutorial Examples: adders, counters, flipflops, FSM, Multiplexers /Demultiplexers).

Subject Name Digital Logic Circuits
Subject code EE6301
Regulation 2013

EE6301 Digital Logic Circuits Syllabus Click here to download

EE6301 Digital Logic Circuits Notes

EE6301 Digital Logic Circuits Important questions

EE6301 Digital Logic Circuits Question Bank