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Bachelors

Digital Logic Circuit Experiment

Southeast University (China)
Nanjing , China
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Program Details
Degree
Bachelors
Major
Electrical Engineering | Electronics Engineering | Computer Engineering
Area of study
Information and Communication Technologies | Engineering
Course Language
English
About Program

Program Overview

Course Essential Information

Course Overview

The course code is B84M0040, and the course name is Digital Logic Circuit Experiment. It is a core course with 2 credits and 33 credit hours. The period allocation is 3 hours for lectures, 30 hours for experiments, and 0 hours for others. The course is offered in the winter semester of the sophomore year by the School of Information Science and Engineering, and the major program is Information Engineering. The language of instruction is English.


Prerequisites

The prerequisites for this course are University Physics, Circuits, Computer Structure, and Logic Design.


Course Introduction

The Digital Logic Circuit Experiment is an important practical course that complements the basic course of Digital Circuits and Systems for undergraduates. The course aims to master basic theoretical knowledge, familiarize students with digital logic devices, and teach the basic method of logic design to complete the design, assembly, and debugging of simple logic circuits. Students will also learn to use common instrumentations, master electronic design automation methods, and acquire necessary experimental skills.


Course Content and Time Allocation

The course content includes:


  1. Use of common laboratory instruments: 2 credit hours
    • Describes the use of oscilloscopes, multimeters, power supplies, logic analyzers, and other instruments.
  2. Experimental content: 32 credit hours
    • Includes eight experimental projects:
      • Device usage
      • Combinational Circuit Design Experiment
      • Design and implement functional component experiment
      • Sequential logic circuit
      • Sequential module experiment
      • Sequential module experiment
      • Combinational and sequential module joint application experiment
      • Comprehensive design extension

Experimental Projects

The experimental projects are:


  • Device usage: 3 credit hours
    • Experimental introduction: LED, LED 7-segment display; signal generation and measurement, device experiment.
    • Experimental type: Verifiability
    • Experimental requirements: Compulsory
    • Main equipment: Computers, virtual instruments, devices
  • Combinational Circuit Design Experiment: 3 credit hours
    • Experimental introduction: Use logic gates to complete the design of combinational circuits.
    • Experimental type: Design
    • Experimental requirements: Compulsory
    • Main equipment: Computers, virtual instruments, devices
  • Design and implement functional component experiment: 3 credit hours
    • Experimental introduction: Use combinational logic function devices and logic gates to complete the design and debugging of complex combinational logic circuits.
    • Experimental type: Design
    • Experimental requirements: Compulsory
    • Main equipment: Computers, virtual instruments, devices
  • Sequential logic circuit: 3 credit hours
    • Experimental introduction: Use D flip-flop to realize the function of synchronous binary counter.
    • Experimental type: Design
    • Experimental requirements: Compulsory
    • Main equipment: Computers, virtual instruments, devices
  • Sequential module experiment: 3 credit hours
    • Experimental introduction: Use 74161 counter and data selector/multiplexer to design a sequence signal generator with self-start function.
    • Experimental type: Design
    • Experimental requirements: Compulsory
    • Main equipment: Computers, virtual instruments, devices
  • Sequential module experiment: 6 credit hours
    • Experimental introduction: Design a circuit that can visually observe the integrated shift register, 74HC194 right-shift function.
    • Experimental type: Comprehensive
    • Experimental requirements: Compulsory
    • Main equipment: Computers, virtual instruments, devices
  • Combinational and sequential module joint application experiment: 6 credit hours
    • Experimental introduction: Design a flowing LED lights with sequential devices, combinational devices, and gate circuits.
    • Experimental type: Comprehensive
    • Experimental requirements: Compulsory
    • Main equipment: Computers, virtual instruments, devices
  • Comprehensive design extension: 6 credit hours
    • Experimental introduction: Design a speed controller on the basis of the last experimental flowing LED lights to realize the change of the circulation speed of the advertising water light.
    • Experimental type: Comprehensive
    • Experimental requirements: Compulsory
    • Main equipment: Computers, virtual instruments, devices
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