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EEE 365 Digital Electronics
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EEE 365 Digital Electronics (Credit: 3.0)
Introduction to number systems and codes. Analysis and synthesis of digital logic circuits:
Basic logic functions, Boolean algebra, combinational logic design, minimization of combinational logic. Implementation of basic static logic gates in TTL, ECL, IIL and CMOS and BiCMOS: DC characteristics, noise margin and power dissipation. Power optimization of basic gates and combinational logic circuits. Modular combinational circuit design: pass transistor, pass gates, multiplexer, demultiplexer and their implementation in CMOS, decoder, encoder, comparators, binary arithmetic elements and ALU design. Programmable logic devices: logic arrays, field programmable logic arrays and programmable read only memory.
Sequential circuits: different types of latches, flip-flops and their design using ASM approach, timing analysis and power optimization of sequential circuits. Modular sequential logic circuit design: shift registers, counters and their applications.
Reference Books:
1. Digital Logic & Computer Design by M. Morris Mano
2. Digital Systems – Principles & Applications by R. J. Tocci
3. Digital Fundamentals- Floyd and Jain
4. Digital Design - Principles and Practices by John F. Wakerly
Course Instructors:
1. Dr. Quazi Delwar Hossain
2. Muhammad Asad Rahman
Cycle Topics
1
Introduction to number systems & codes
Numerical representation, Digital & Analog systems, Digital number systems, Binary to
Decimal conversions, Decimal to Binary conversions, Hexa-decimal number systems, BCD code, The Gray code, Alphanumeric codes, Parity method for error detection, Octal & Hexadecimal numbers, Complements.
2
Analysis & synthesis of digital logic circuits
Basic logic functions
OR operation with OR gates, AND operation with AND gates, NOR operation with NOR gates, Describing logic circuits algebraically, Evaluating logic circuit outputs, Implementing circuits from Boolean
Page 1 of 2
EEE 365 Digital Electronics (Credit: 3.0)
Introduction to number systems and codes. Analysis and synthesis of digital logic circuits:
Basic logic functions, Boolean algebra, combinational logic design, minimization of combinational logic. Implementation of basic static logic gates in TTL, ECL, IIL and CMOS and BiCMOS: DC characteristics, noise margin and power dissipation. Power optimization of basic gates and combinational logic circuits. Modular combinational circuit design: pass transistor, pass gates, multiplexer, demultiplexer and their implementation in CMOS, decoder, encoder, comparators, binary arithmetic elements and ALU design. Programmable logic devices: logic arrays, field programmable logic arrays and programmable read only memory.
Sequential circuits: different types of latches, flip-flops and their design using ASM approach, timing analysis and power optimization of sequential circuits. Modular sequential logic circuit design: shift registers, counters and their applications.
Reference Books:
1. Digital Logic & Computer Design by M. Morris Mano
2. Digital Systems – Principles & Applications by R. J. Tocci
3. Digital Fundamentals- Floyd and Jain
4. Digital Design - Principles and Practices by John F. Wakerly
Course Instructors:
1. Dr. Quazi Delwar Hossain
2. Muhammad Asad Rahman
Cycle Topics
1
Introduction to number systems & codes
Numerical representation, Digital & Analog systems, Digital number systems, Binary to
Decimal conversions, Decimal to Binary conversions, Hexa-decimal number systems, BCD code, The Gray code, Alphanumeric codes, Parity method for error detection, Octal & Hexadecimal numbers, Complements.
2
Analysis & synthesis of digital logic circuits
Basic logic functions
OR operation with OR gates, AND operation with AND gates, NOR operation with NOR gates, Describing logic circuits algebraically, Evaluating logic circuit outputs, Implementing circuits from Boolean