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May 10, 2021
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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
Course Outcomes:
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
Click here for the Summer II 2021 Class Schedule
Click here for the Summer I 2021 Class Schedule
Click here for the Spring 2021 Class Schedule
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