by Prof.M.B.Patil sir
Analog & Digital Electronics PPT'S by Dr. Agam Prakash Vajpeyi sir
Digital Electronics - I
by Prof. Peter Y. K. Cheung sir
Objectives
To impart to you a formalism of logic enabling you to analyse logical processes
To enable you to implement simple logical operations using combinational logic circuits
To enable you to understand common forms of number representation in digital electronic circuits and to be able to convert between different representations
To enable you to understand the logical operation of simple arithmetic and other MSI circuits (Medium Scale Integrated Circuits)
To impart to you the concepts of sequential circuits enabling you to analyse sequential systems in terms of state machines
To enable you to implement synchronous state machines using flip-flops
Textbook
“Digital Systems – Principles and Applications”, 9th Ed, R. J. Tocci and N. S. Widmer, Prentice Hall,
“Digital Fundamentals ”, T.L. Floyd, Prentice Hall,
Lecture Notes(DOWNLOAD BY CLICKING LECTURE NO)
Lecture 1 Overview (Problem Sheet 1, Solution)
Lecture 2 Introduction to Data Representation (Problem Sheet 2, Solution)
Lecture 3 Boolean Algebra and Combination Logic 1 (Problem Sheet 3, Solution)
Lecture 4 Boolean Algebra and Combination Logic 2 (Problem Sheet 4, Solution)
Lecture 5 Combinational Logic Gates and Implementation (Problem Sheet 5, Solution)
Lecture 6 More Gates and Multiplexers (Problem Sheet 6, Solution)
Lecture 7 Signed Numbers & Arithmetic Circuits (Problem Sheet 7, Solution)
Lecture 8 Programmable Logic Devices (Problem Sheet 8, Solution) Lecture 9 Flip-flops & Sequential Circuits (Problem Sheet 9&10, Solution)
Lecture 10 More flip-flops (No problem sheet, same as Sheet 9)
Lecture 11 Counters (Problem Sheet 11, Solution)
Lecture 12 Finite State Machines (Problem Sheet 12, Solution)
Lecture 13 Application Examples (Problem Sheet 13, Solution)
Digital Electronics - II
by Prof. Peter Y. K. Cheung sir
Introduction, Notation D-latches + Flipflops, Registers
Interfacing: Synchronous bit-serial
Interfacing: Asynchronous
Interfacing: RAM
State Machines: Shift reg + counters
State Machines: Using counters
State Machines: Analysis + output glitches
State Machines: Synthesis + input synchronization
D/A Conversion: Weighted resistor, R-2R ladder
A/D Conversion: Quantiser noise and Dither, Flash Converters
A/D Conversion: Succ approx, Sample/hold, deglitching
Addition Circuits: Ripple carry, overflow, delay
Addition Circuits: Bit inversion, carry lookahead
Addition Circuits: Carry skip, carry save
Complete set of notes as a single file [here]
Digital Circuit Design
by Prof. Shantanu Datts
Lecture 1: ECE561/Lectures/ECE 561 - Lecture 1.ppt
Lecture 2: ECE561/Lectures/ECE 561 - Lecture 2.ppt
Lecture 3: ECE561/Lectures/ECE 561 - Lecture 3.ppt
Lecture 4: ECE561/Lectures/ECE 561 - Lecture 4 - State Machine Design.ppt
Lecture 5: ECE561/Lectures/ECE 561 - Lecture 5.ppt - State Machine Design Examples
Lecture 6: State Machine Realizations:ECE561/Lectures/ECE 561 - Lecture 6.ppt
Lecture 7: Using CAD Tools to Implement Digital Circuits:ECE561/Lectures/ECE 561 - Lecture 7.ppt
Lecture 8: Some VHDL Details: ECE561/Lectures/ECE 561 - Lecture 8.ppt
Lecture 9:
Lecture 10: Clock Skew and Clock Gating : ECE561/Lectures/ECE 561 - Lecture 10.ppt
Lecture 11: Configurable Programmable Logic Devices: ECE561/Lectures/ECE562 - Lect 11.ppt
Lecture 12: Memory ECE561/Lectures/ECE 561 - Lecture 12.ppt
Lecture 13: Memory 2: ECE561/Lectures/ECE 561 - Lecture 13.ppt
Lecture 14: ECE561/Lectures/ECE 561 - Lecture 14 - System Controller.ppt
Lecture 15: ECE561/Lectures/ECE 561 - Lecture 15 - Adders.ppt
Lecture 16: Using XILINX - ECE561/Lectures/ECE 561 - Lecture 16 - Heirarchy in Xilinx.ppt
Lecture 17: Sequential machine ex -ECE561/Lectures/ECE 561 - 762Lect 23 - Project Step 9.ppt
and the synthesized results: ECE561/Lectures/The SAR Synthesized Circuit.doc
Stability of Feedback Amplifier: Nyqist Criteria
Oscillators
LC and Crystal Oscillator
Multivibrators
Power Amplifiers
Power Amplifiers (cont)
Differential Amplifiers
DifferentialAmplifiers cont
Operational Amplifier
Operational Amplifier and Filter Circuits
Application Of Op-AMP
Field effect Transistors (FETs)
Metal Oxide field effect Transistors (MOSFETs)
Assignments & Tutorials