Digital Fundamentals Book Slides by Floyd

Here are the slides for the book :
" Digital Fundamentals " by Thomas L. Floyd, 9th Edition

Chapter 1: Digital Concepts. (Download)
Chapter 2: Number Systems, Operations, and Codes. (Download)
Chapter 3: Logic Gates. (Download)
Chapter 4: Boolean Algebra and Logic Simplification. (Download)
Chapter 5: Combinational Logic Analysis. (Download)
Chapter 6: Functions of Combinational Logic. (Download)
Chapter 7: Latches, Flip-Flops, and Timers. (Download)
Chapter 8: Counters. (Download)
Chapter 9: Shift Registers. (Download)
Chapter 10: Memory and Storage. (Download)
Chapter 11: Programmable Logic and Software. (Download)
Chapter 12: Introduction to Digital Signal Processing. (Download)
Chapter 13: Introduction to Computers. (Download)
Chapter 14: Integrated Circuit Technologies. (Download)

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Digital Design Lectures

Course Structure:

• Boolean Algebra and switching functions; Minimization and realization using logic gates, ROMs (Read Only Memories), PLAs (Programmable Logic Arrays), multiplexers.
• Circuits for code conversion; Flip-flops, registers, counters.
• Finite state model: State tables and diagrams; State minimization; Excitation functions of memory elements.
• Synthesis of synchronous sequential circuits; Representation and synthesis using ASM charts; Incompletely specified machines.
• Specification and synthesis of asynchronous sequential machines.
• Number representation: fixed and floating point; Addition, subtraction, multiplication and division of numbers.
• Current trends in digital design: ASIC, FPGA, etc.

Lecture Slides:

1. Introduction to Digital Design PDF Slides
2. Number System PDF Slides
3. Operations in Number System and Boolean Algebra PDF Slides
4. Boolean Algebra and Theorems PDF Slides
5. Gates, Truth Table, Min Term, MaxTerm, Canonical Form PDF Slides [[[Mano Book and Vahid Book]]]
6.  KMap-Logic Minimization PDF Slides
7. KMap-Logic Minimization PDFSlides
8. KMap-Logic Minimization PDFSlides
9. MUX and Decoder, Logic Implementation using MUX/Decoder PDF Slides
10. Adders/BCD Adder Delays, Quine-McCluskey (QM) Logic Minimization Motivation and Examples PDF Slides
11. QM Examples and Programming Method, Complexity PDF Slides[[[Mano Book]]]
12. Sequential Logic Design: SR Latch PDF Slides
13. SR Latch (Race Condition: Ensure, Stabilize, Store), D latch, Clocked Flip Flop PDF Slides
14. Flip-Flop: Level/Edge Sensitive, Master Slave, J-K and FF Universality, Characteristic Equations PDF Slides [[[ Givone Book]]]
15. Register (Storing State Example), Introduction to FSM PDF Slides
16. FSM and Examples PDF Slides
17. FSM Controller Implementation PDF Slides [[[ Vahid Book]]]
18. FSM Controller Examples: Press button Sync, Sequence Generator, 2 bit Binary Counter, FSM Controller using Other FFs PDF Slides
19. Counters (Binary(Sync/Async), Mod N Counter, FF Excitation Table, Counter using D/T/JK/RS FFs) PDF Slides [[[ Givone Book]]]
20. Counter Based on Shift Regsiter PDF Slides
21. Designing of Multi Function Register PDF Slides [[[ Vahid Book ]]]
22. Adder (Basic Model: Ripple carry Model), Carry Analysis (Ganeration, Propagation, Kill) PDF Slides [[[ Ercegovac and Lang Book ]]]
23. Adder Machester, Carry Skip and Carry Select PDF Slides
24. Adder Delay Analysis: RCA, mRCA, CSkipA, CSelA and Logarithmic Adder (Carry look ahead Adder) PDF Slides [[[ Ercegovac and Lang Book ]]]
25. Multiplication and quiz PDF Slides
26. Multiplication PDF Slides
27. Division PDF Slides
28. Floating points: Represenation (float,double), Density, Operation and Accuracy (X+1=X) PDF Slides
29. HDL Introduction PDF Slides
30. VHDL: Syntax, Model, Test Bench and Tool (GHDL and GTKWAVE) PDF Slides
31. VHDL: Test Bench, Package, Library, Generic/generate, (Adder, Mux, Register) PDF Slides
32. VHDL: Model and Synthesis PDF Slides

Books:

Text:

1. Frank Vahid, Digital Design (Preview Edition), Wiely India Edition, 2005
2. M. Morris Mano and M. D. Ciletti, Digital Design, 4/e, Pearson Education, 2007.
3. Donald D. Givone, Digital Principles and Design, McGraw-Hill, 2003

References:

1. Ercegovac and Lang, Digital Arithmatic, Morgan Kauffman, 2004
2. R. H. Katz and G. Boriello, Contemporary Logic Design, 2/e, Prentice Hall of India, 2009.

For more details (exams, tests, assignments and quiz) you can visit the following links:

Link

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Basic Electronics Video Lectures

A video lecture series on Basic Electronics by Prof. by Prof T.S.Natarajan, IIT Madras as part of National Programm on Technology Enhanced Learning by Indian Institute of Technology (IITs) and Indian Institute of Science (IISc) includes, Introduction to Basic Electronics, Electronic Devices, Laws and Theorems in Basic Electronics, Semi Conductor Diodes, Application of Diodes, Wave Shaping using Diodes, Zener Diode Characteristics, Transistors, Transistor Biasing, Characteristic of an Amplifier, Hybrid Equivalent Circuit, H-Parameters, Circuit Analysis using H-Parameters, Frequency Analysis, Integrated Chip, Four Types of Feed Back, Oscillators...

Lecture - 1 Introduction to Basic Electronics. (Link)
Lecture - 2 Electronic Devices 1. (Link)

Lecture - 3 Electronics Devices 2. (Link)

Lecture - 4 Some Useful Laws in Basic Electronics.(Link)

Lecture - 5 Some Useful Theorems in Basic Electronics. (Link)

Lecture - 6 Semi Conductor Diodes. (Link)

Lecture - 7 Application of Diodes. (Link)

Lecture - 8 Wave Shaping using Diodes Electronics. (Link)

Lecture - 9 Zener Diode Characteristics. (Link)

Lecture - 10 Transistors. (Link)

Lecture - 11 Transistor Biasing 1. (Link)

Lecture - 12 Transistor Biasing 2. (Link)

Lecture - 13 Basic Characteristic of an Amplifier. (Link)

Lecture - 14 Hybrid Equivalent Circuit, H-Parameters. (Link)

Lecture - 15 Circuit Analysis using H-Parameters. (Link)

Lecture - 16 Frequency Response of Amplifiers. (Link)

Lecture - 17 Frequency Analysis. (Link)

Lecture - 18 Power Amplifiers. (Link)

Lecture - 19 Differential Amplifiers CKT. (Link)

Lecture - 20 Integrated Chip. (Link)

Lecture - 21 Typical Characteristic of Operation Amplifier. (Link)

Lecture - 22 Four Types of Feed Back 1 Electronics. (Link)

Lecture - 23 Four Types of Feed Back 2 Electronics. (Link)

Lecture - 24 Mathematical Operations 1. (Link)

Lecture - 25 Mathematical Operations 2. (Link)

Lecture - 26 Mathematical Operations 3. (Link)

Lecture - 27 Characteristics of Operation Amplifier 1. (Link)

Lecture - 28 Characteristics of Operation Amplifier 2. (Link)

Lecture - 29 Characteristics of Operation Amplifier 3. (Link)

Lecture - 30 Inverter - Non-Inverter Circuits. (Link)

Lecture - 31 Applications of Op Amps. (Link)

Lecture - 32 Non-Linear Op Amp circuits. (Link)

Lecture - 33 Applications of Op Amps. (Link)

Lecture - 34 Active Diode Circuits. (Link)

Lecture - 35 Oscillators. (Link)

Lecture - 36 Logarithmic and Anti-Logarithmic Amplifier. (Link)

Lecture - 37 Filters. (Link)

Lecture - 38 Uni-Junction Transistor. (Link)

Lecture - 39 Silicon Controlled Rectifier. (Link)

Lecture - 40 Field Effect Transistor. (Link)\

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Digital Integrated Circuits (Lecture Notes)

This is a post graduate course in Digital Integrated Circuits.
These are the lecture notes ( slides ) of the book
" Digital Integrated Circuits - A Design Perspective " , Second Edition by Jan M. Rabaey.

Chapter-1 : Introduction. (Download Here)

Chapter-2 : Manufacturing Process. (Download Here)

Chapter-3 : The Devices. (Download Here)

Chapter-4 : The Wire. (Download Here)

Chapter-5 : The Inverter. (Download Here)

Chapter-6 : Designing Combinational Logic Circuits. (Download Here)

Chapter-7 : Designing Sequential Logic Circuits. (Download Here)

Chapter-8 : Designing Methodologies. (Designing Here)

Chapter-9 : Coping With Interconnect. (Download Here)

Chapter-10 : Timing Issues. (Download Here)

Chapter-11 : Arithmetic Circuits. (Download Here)

Chapter-12 : Semi-conductor Memories. (Download Here)

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Circuits and Electronics Lectures (Videos)

This video lecture course by Prof. Anant Agarwal of MIT is designed to serve as a first course in an undergraduate electrical engineering, or electronics engineering or computer science curriculum. This course introduces the fundamentals of the lumped circuit abstraction. Topics covered include: resistive elements and networks; independent and dependent sources; switches and MOS transistors; digital abstraction; amplifiers; energy storage elements; dynamics of first- and second-order networks; design in the time and frequency domains; and analog and digital circuits and applications. Design and lab exercises are also significant components of the course.

Lecture-1 : Introduction and Lumped Circuit Abstraction. (Link)

Lecture-2 : Basic Circuit Analysis Method (KVL and KCL Method). (Link)

Lecture-3 : Superposition, Thevenin and Norton. (Link)

Lecture-4 : The Digital Abstraction. (Link)

Lecture-5 : Inside the Digital Gate. (Link)

Lecture-6 : Nonlinear Analysis. (Link)

Lecture-7 : Incremental Analysis. (Link)

Lecture-8 : Dependent Sources and Amplifiers. (Link)

Lecture-9 : MOSFET Amplifier Large Signal Analysis Part 1. (Link)

Lecture-10 : MOSFET Amplifier Large Signal Analysis Part 2. (Link)

Lecture-11 : Amplifiers - Small Signal Model. (Link)

Lecture-12 : Small Signal Circuits. (Link)
Lecture-13 : Capacitors and First-Order Systems. (Link)
Lecture-14 : Digital Circuit Speed. (Link)
Lecture-15 : State and Memory. (Link)
Lecture-16 : Second-Order Systems Part 1. (Link)
Lecture-17 : Second-Order Systems Part 2. (Link)
Lecture-18 : Sinusoidal Steady State. (Link)
Lecture-19 : The Impedance Model. (Link)
Lecture-20 : Filters. (Link)
Lecture-21 : The Operational Amplifier Abstraction. (Link)
Lecture-22 : Operational Amplifier Circuits. (Link)
Lecture-23 : Op Amps Positive Feedback. (Link)
Lecture-24 : Energy and Power. (Link)
Lecture-25 : Energy, CMOS. (Link)
Lecture-26 : Violating the Abstraction Barrier. (Link)

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