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Effectively Incorporating Hardware Experience Into A Digital Electronics Service Course

Guardado en:
Publicado en:Association for Engineering Education - Engineering Library Division Papers (Jun 16, 2002), p. 7.462.1
Autor principal: Dillard, William
Publicado:
American Society for Engineering Education-ASEE
Materias:
Auburn University
Electronics
Curricula
Hardware
Boolean algebra
Engineering education
Binary codes
Shift registers
Light emitting diodes
Digital simulation
Computer engineering
Digital electronics
Switches
Digital computers
Coders
Circuit diagrams
Computer simulation
Colleges & universities
Schedules
Students
Logic
Laboratories
Experiments
Circuits
College students
Simulation
Engineering
Homework
Computers
Motivation
Mathematics
Alternative approaches
Learning
Reading materials
Education
Diagrams
Arithmetic
Tutorials
Algebra
Classrooms
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Resumen:A new approach to incorporating digital hardware in an introductory digital electronics service class has been successfully demonstrated at Auburn University’s Electrical and Computer Engineering department. Having no room in the curriculum for a formal laboratory, the central theme is to combine theory, simulation and hardware within the existing classroom/study time allotments. Teams of 5 or 6 students construct experiments “at home” and submit their circuits as homework for grading. PSPICE simulations are used to support both the lecture material and the hardware experience. Additional reading materials and tutorials have been created for better utilization of both in-class lecture and out-of-class study time. Lecture style has been modified to incorporate class time for introduction to hardware and digital simulation with PSPICE without sacrificing course content. This approach has proven to be an effective tool in introducing students to hardware issues and implementation alternative as well as improving student learning and motivation. Traditionally, the Electrical and Computer Engineering department at Auburn University taught an introductory digital electronics course at the junior level that served both electrical and computer engineers. With three hours of lecture each week, the course topic included: · Binary, decimal and hexadecimal bases · Adder circuits · Logic operations and gates · Parity, ASCII, BCD and Gray Code · LED’s, 7-segment displays and switches · Arithmetic Logic Unit · Boolean algebra and Karnaugh maps · Decoder, encoder, MUX and DeMUX · SOP and POS formats · Programmable logic – ROM’s and PLD’s · Minterms, maxterms and lists · Flip-flops and sequential circuits · Timing diagrams and gate delay · Registers and shift registers · Signed number systems · Counters An accompanying weekly, three-hour laboratory was also required, providing the student with a significant semester long hardware investigation. After a recent campus-wide curricula change, the original course has been replaced by two sophomore-level courses; one for electrical and computer engineering majors (with a reduced lab schedule), and the other, a service for computer “Proceedings of the 2002 American Society for Engineering Education Annual Conference & Exposition Copyright Ó 2002, American Society for Engineering Education” Main Menu
Fuente:Library Science Database