Oct 19, 2021
ENEE 244 - Digital Logic Design
(G and R only)
This course is designed to introduce sophomores in electrical engineering to basic principles and design procedures of digital systems at the gate and chip levels. PREREQUISITE(S): ENES 100 or consent of department. Three hours each week.
3 semester hours
Upon course completion, a student will be able to:
- Use different number systems to perform number conversions and simple binary arithmetic.
- Differentiate among of the concepts of complements, signed binary numbers, and binary codes.
- Define basic theorems of Boolean algebra.
- Simplify Boolean functions using algebraic manipulation and Karnaugh Maps.
- Implement Boolean functions using various logic gates (AND/OR, NAND, NOR, XOR, XNOR).
- Analyze and design a combination circuit using basic gates; Construct a simple combination circuit using adders, subtractors, multipliers, encoders, decoders, or multiplexers.
- Design a synchronous sequential circuit using basic flip flops.
- Analyze a sequential circuit, i.e., derive the state equation, state table, and state diagram of a sequential circuit.
- Demonstrate understanding of registers, synchronous and asynchronous counters, and memory elements.
- Implement a Boolean function using programmable logic devices including PROM, PAL, and PLA.
Click here for the Fall 2021 Class Schedule
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