COURSE OUTLINE : Digital circuits are part of any electronic design today. This also happens to be one of the core subjects for the undergraduate students in Electronics, Electrical and Computer Engineering. It forms the basis of many of the next level courses. The proposed course on digital circuits will cover all the fundamental concepts in digital design. It will primarily focus on the prescribed GATE syllabus for Electronics and Communication Engineering (ECE) specialization. The course will start with the representations of numbers – different number systems and conversion between them, representation of integer and real numbers etc. This will be followed by combinational and sequential circuit design techniques. Data converters and semiconductor memories will be covered. Microprocessor 8085 will be discussed as a complete digital system example. Designed primarily as a single course covering the digital circuits portion of GATE syllabus, the course will also be helpful for any other aspirant willing to learn digital electronics principles comprehensively in today’s perspective.
Overview
Syllabus
Digital Circuits by Prof. Santanu Chattopadhyay.
Lecture 01:Introduction.
Lecture 02: Introduction (Contd.).
Lecture 03: Number System.
Lecture 04: Number System (Contd.).
Lecture 05: Number System (Contd.).
Lecture 06: Number System (Contd.).
Lecture 07: Number System (Contd.).
Lecture 08: Boolean Algebra.
Lecture 09: Boolean Algebra (Contd.).
Lecture 10: Boolean Algebra (Contd.).
Lecture 11: Boolean Algebra (Contd.).
Lecture 12: Boolean Algebra (Contd.).
Lecture 13: Boolean Algebra (Contd.).
Lecture 14: Logic Gates.
Lecture 15: Logic Gates (Contd.).
Lecture 16: Logic Gates (Contd.).
Lecture 17: Logic Gates (Contd.).
Lecture 18: Logic Gates (Contd.).
Lecture 19: Logic Gates (Contd.).
Lecture 20: Arithmetic Circuits.
Lecture 21: Arithmetic Circuits (Contd.).
Lecture 22: Arithmetic Circuits (Contd.).
Lecture 23: Decoders, Multiplexers, PLA.
Lecture 24: Decoders, Multiplexers, PLA (Contd.).
Lecture 25: Decoders, Multiplexers, PLA (Contd.).
Lecture 26: Decoders, Multiplexers, PLA (Contd.).
Lecture 27: Decoders, Multiplexers, PLA (Contd.).
Lecture 28: Sequential Circuits.
Lecture 29: Sequential Circuits (Contd.).
Lecture 30: Sequential Circuits (Contd.).
Lecture 31:Sequential Circuits (Contd.).
Lecture 32: Sequential Circuits (Contd.).
Lecture 33: Sequential Circuits (Contd.).
Lecture 34: Sequential Circuits (Contd.).
Lecture 35: Finite State Machine.
Lecture 36: Finite State Machine (Contd.).
Lecture 37: Data Converters.
Lecture 38: Data Converters (Contd.).
Lecture 39: Data Converters (Contd.).
Lecture 40: Data Converters (Contd.).
Lecture 41: Memory.
Lecture 42: Memory(Contd.).
Lecture 43: Memory(Contd.).
Lecture 44: FPGA.
Lecture 45: FPGA (Contd.).
Lecture 46: VHDL.
Lecture 47: VHDL(Contd.).
Lecture 48: 8085 Microprocessor.
Lecture 49: 8085 Microprocessor (Contd.).
Lecture 50: 8085 Microprocessor (Contd.).
Lecture 51: 8085 Microprocessor (Contd.).
Lecture 52: 8085 Microprocessor (Contd.).
Lecture 53: 8085 Microprocessor (Contd.).
Lecture 54: 8085 Microprocessor (Contd.).
Lecture 55: 8085 Microprocessor (Contd.).
Lecture 56: 8085 Microprocessor (Contd.).
Lecture 57: 8085 Microprocessor (Contd.).
Lecture 58: 8085 Microprocessor (Contd.).
Lecture 59: 8085 Microprocessor (Contd.).
Lecture 60: 8085 Microprocessor (Contd.).
Lecture 61: 8085 Microprocessor (Contd.).
Lecture 62: 8085 Microprocessor (Contd.).
Lecture 63: 8086 Microprocessor.
Lecture 64: 8086 Microprocessor (Contd.).
Lecture 65: 8086 Microprocessor (Contd.).
Taught by
IIT Kharagpur July 2018
