The BRADLEY DEPARTMENT of ELECTRICAL and COMPUTER ENGINEERING

ECE 2204 Electronics | ECE | Virginia Tech

Undergraduate PROGRAMS

Course Information

Description

Introduction to basic electronic devices including diodes and transistors and their operating principles. Analysis of electroic circuits operating under dc bias and switching conditions. Applications of devices in digital electronic circuits.

Why take this course?

Electronics is the introduction to electronic devices and their basic operating principles and is the foundation for modern electrical and computer engineering. Devices including diodes, bipolar junction transistors (BJTs), and field effect transistors (FETs) are the basic components of all electronic circuits. Major applications will focus on digital logic circuits using diodes and transistors, especially the complementary metal oxide semiconductor (CMOS) devices. Throughout the course, students will learn how the electronic devices operate under dc bias and switching conditions.

Required for all EE and CPE majors

Prerequisites

C- or better in 2004; Co-requisites: 2274

This course requires 2004 as the prerequisite and 2274 as the corequisite. Students require a basic knowledge of circuit analysis such as nodal and loop analyses as taught in 2004 to analyze the electronic circuits. 2274 is corequisite because it implements, in the laboratory, the principles learned in 2004 and 2204.

Major Measurable Learning Objectives

  • Describe the operating principles of electronic devices including diodes and transistors.
  • Analyze electronic circuits operating under dc bias conditions
  • Analyze electronic circuits operating under switching conditions.
  • Describe basic digital logic families.
  • Design and analyze simple digital gates.
  • Use PSpice to model circuits containing transistors and other electronic devices.

Course Topics

Topic

Percentage of Course

Introduction 5%
PN junction diode and diode characteristics 10%
Diode circuits and applications 10%
Bipolar junction transistor basics 5%
BJT characteristics 10%
BJT biasing and load line analysis 10%
MOS field effect transistor basics 10%
MOSFET biasing and DC analysis 10%
MOS logic design 10%
CMOS logic design 10%
BJT digital circuits 10%