Electronics Technology Degree (ET13)  Degree


Campus Locations: Vidalia

The Electronics Technology Associate Degree program is a sequence of courses designed to prepare students for careers in electronics technology professions. Learning opportunities develop academic, technical, and professional knowledge and skills required for job acquisition, retention, and advancement. The program emphasizes a combination of electronics technology theory and practical application necessary for successful employment using both manual and computerized electronics systems. Final exams for the four (4) major electronics areas are the Electronics Systems Associate ESA-1 through ESA-4 exams.

The standard curriculum for the Electronics Technology Associate of Applied Science Degree program is designed for the semester system. Students may enter the program beginning any semester. The program generally takes five (5) semesters to complete. To graduate, students must earn a minimum of 64-66 credit hours for the industrial electronics option or a minimum of 67 credit hours for the computer electronics option.

Requirements

  • Submit a completed application;
  • Be at least 16 years of age;
  • Submit official high school/high school equivalent transcripts;
  • Submit official college transcripts, if applicable;
  • Satisfy Placement Testing requirements.

Program Costs

Costs are estimates and are subject to change.

Industrial Electronics

  • Tuition/Fees: $6,490
  • Books/Supplies: $3,721

Computer Electronics

  • Tuition/Fees: $6,660
  • Books/Supplies: $3,682

In addition to regular tuition/fees and book/supply costs for the program, there is a $35 testing fee for each of the ESA-1 through ESA-4 certification exams for the four major electronics subject areas.

Curriculum Outline (67 hours)
General Core (18 hours) 18
COLL 1040

(Prerequisite: None) This course is designed to provide tools to assist students to acquire skills necessary to achieve academic and professional success in their chosen occupational/technical program of study. Topics include: Computer Applications/Technology Skills, Getting off to a Good Start, Learning and Personality Styles, Time and Money Management, Study and Test Taking Skills, Stress Management and Wellness, Communication Skills, and Career Exploration.

3
ENGL 1101

(Prerequisite: Appropriate English Placement Test Score AND Appropriate Reading Placement Test Score) Explores the analysis of literature and articles about issues in the humanities and in society. Students practice various modes of writing, ranging from exposition to argumentation and persuasion. The course includes a review of standard grammatical and stylistic usage in proofreading and editing. An introduction to library resources lays the foundation for research. Topics include writing analysis and practice, revision, and research. Students write a research paper using library resources and using a formatting and documentation style appropriate to the purpose and audience.

3
MATH 1111

(Prerequisites: Appropriate algebra placement test score) Emphasizes techniques of problem solving using algebraic concepts. Topics include fundamental concepts of algebra, equations and inequalities, functions and graphs, and systems of equations; optional topics include sequences, series, and probability or analytic geometry.

3
MATH 1113

(Prerequisites: Regular Admission and MATH 1111) Prepares students for calculus. The topics discussed include an intensive study of polynomial, rational, exponential, logarithmic, and trigonometric functions and their graphs. Applications include simple maximum and minimum problems, exponential growth and decay.

3
Choose One (3 hours) 3
ENGL 2130

(Prerequisite: ENGL 1101) Emphasizes American literature as a reflection of culture and ideas. A survey of important works in American literature. Includes a variety of literary genres: short stories, poetry, drama, nonfiction, and novels. Topics include literature and culture, essential themes and ideas, literature and history, and research skills.

3
GEN 003Comparable General Education Course 3
Choose One (3 hours) 3
PSYC 1101

(Prerequisite: Appropriate Degree Level Writing (English) and Reading Placement Test Scores) Introduces the major fields of contemporary psychology. Emphasis is on critical thinking and fundamental principles of psychology as a science. Topics include research design, the organization and operation of the nervous system, sensation and perception, learning and memory, motivation and emotion, thinking and intelligence, lifespan development, personality, psychological disorders and treatment, stress and health, and social psychology.

3
GEN 003Comparable General Education Course 3
Occupational Courses (30 hours) 30
COMP 1000

This course introduces the fundamental concepts, terminology, and operations necessary to use computers. Emphasis is placed on basic functions and familiarity with computer use. Topics include introductions to computer and digital terminology and usage, operating systems, Internet and digital communication, word processing applications, spreadsheet applications, database applications, and presentation applications.

3
ELCR 1005

(Prerequisites: Provisional admission) Develops the ability to solder and de-solder connectors, components, and printed circuit boards using industry standards. Topics include: safety practices, soldering, de-soldering, anti-static grounding, and surface mount techniques.

1
ELCR 1010

(Prerequisites: Degree - MATH 1111, Diploma - MATH 1013) This course provides instruction in the theory and practical application of simple and complex direct current circuitry. Topics include laboratory safety practices and procedures, electrical laws and principles, DC test equipment, basic series, parallel and combination circuits, complex series and parallel circuits, and DC theorems.

6
ELCR 1020

(Prerequisites: ELCR 1010) This course introduces the theory and application of varying sine wave voltages and current, and continues the development of AC concepts with emphasis on constructing, verifying, and troubleshooting reactive circuits using RLC theory and practical application. Topics include AC wave generation, frequency and phase relationship, impedance, admittance and conductance, power factors, reactive components, simple RLC circuits, AC circuit resonance, passive filters, and non-sinusoidal wave forms.

7
ELCR 1030

(Prerequisites: ELCR 1020) This course provides instruction in the theory and application of solid state devices in the electronics industry. Emphasis is placed on the physical characteristics and uses of solid state devices. Topics include PN diodes, power supplies, voltage regulation, bipolar junction theory and application, field effect transistors, and special applications.

5
ELCR 1040

(Prerequisites: ELCR 1020) (Co-requisites: ELCR 1030) This course is designed to provide sufficient coverage of digital electronics and microprocessor fundamentals. Digital fundamentals will introduce basic topics such as binary topics such as binary arithmetic, logic gates and truth tables, Boolean algebra and minimization techniques, logic families, and digital test equipment. Upon completion of the foundational digital requirements, a more advanced study of digital devices and circuits will include such topics as flip-flops, counters, multiplexers and de-multiplexers, encoding and decoding, displays, and analog to digital and digital to analog conversions. Students will also explore the basic architecture and hardware concepts of the microprocessor.

5
ELCR 1060

(Prerequisites: ELCR 1030) Provides in-depth instruction on the characteristics and applications of linear integrated circuits. Topics include: operational amplifiers, timers, and three-terminal voltage regulators.

3
Specialization Area - Choose One of the Following Specializations (15-19 hours)
Computer Electronics (19 hours) 19
CIST 1001

(Prerequisites: None) Provides an overview of information systems, computers and technology. Topics include: Information Systems and Technology Terminology, Computer History, Data Representation, Data Storage Concepts, Fundamentals of Information Processing, Fundamentals of Information Security, Information Technology Ethics, Fundamentals of Hardware Operation, Fundamentals of Networking, Fundamentals of the Internet, Fundamentals of Software Design Concepts, Fundamentals of Software, (System and Application), System Development Methodology, Computer Number Systems conversion (Binary and Hexadecimal), Mobile computing.

4
CIST 1122

(Prerequisites: Program Admission) This course serves to provide students with the knowledge of the fundamentals of computer technology, networking, and security along with the skills required to identify hardware, peripheral, networking, and security components with an introduction to the fundamentals of installing and maintaining computers. Students will develop the skills to identify the basic functionality of the operating system, perform basic troubleshooting techniques, utilize proper safety procedures, and effectively interact with customers and peers. This course is designed to help prepare students for the CompTIA A+ certification examination.

4
CIST 1135

(Prerequisites: None) This course provides an overview of modern operating systems and their use in home and small business environments. Activities will utilize the graphical user interface (GUI) and command line environment (CLI). Topics include using the modern virtual operating systems and cloud environments.

4
CIST 1601

(Prerequisites: None) This course provides a broad overview of information security. It covers terminology, history, security systems development and implementation. Student will also cover the legal, ethical, and professional issues in information security.

3
Choose One (3 hours) 3
CIST 2411

(Prerequisites: Program Admission) Provides the ability to implement, administrator, and troubleshoot Windows Professional Client as a desktop operating system in any network environment.

4
CIST 2451

(Prerequisites: Program Admission) This course introduces the architectures, models, protocols, and networking elements that connect users, devices, applications, and data through the internet and across modern computer networks - including IP addressing and Ethernet fundamentals. By the end of the course, students can build simple local area networks (LANs) that integrate IP addressing schemes, foundational network security, and perform basic configurations for routers and switches.

4
Industrial Electronics (16-18 hours)
ELCR 2110

(Prerequisites: ELCR 1030) Introduces industrial process control applications with an emphasis on sensors and signal conditioning. Topics include: symbols and drawing standards, control techniques, sensors and signal conditioning, and ISA and other relevant standards.

3
ELCR 2140

(Prerequisites: Program admission) Develops knowledge and skills necessary to transmit mechanical power using common industrial linkage types. Emphasis is placed on use of mechanical devices in combination with electronic controls. Topics include: linkages, motion analysis, gear drives, and preventative maintenance.

2
ELCR 2150

(Prerequisites: Program admission) Provides an overview of fluid power operation as applied to industrial electronics. Emphasis is placed on the interfacing of electronic and fluidic systems. Topics include: safety, fluid dynamics, hydraulics, pneumatics, air logic, and electrical interfacing.

2
ELCR 2160

(Prerequisites: ELCR 2130, ELCR 2140, ELCR 2150) This course continues an earlier study of microprocessor fundamentals and introduces robotic theory and application. Topics include the microprocessor instruction set, programming and debugging applications and troubleshooting, microprocessor applications for embedded systems, basic DSP concepts, robotic terminology and languages, and robotic programming.

3
Choose One (3-4 hours) 4
ELTR 1180

(Prerequisites: None) (Co-requisites: None) Introduces line and low voltage switching circuits, manual and automatic controls and devices, and circuits. Emphasis will be placed on switching circuits, manual and automatic controls and devices, line and low voltage switching circuits, and operation, application and ladder diagrams. Topics include: ladder and wire diagrams, switching circuits, manual controls and devices, automatic controls and devices, and application and operation of controllers and controls, and variable speed controls. A $15 fee is associated with this course due to the increased cost of copper and electrical components.

4
ELCR 2120

(Prerequisites: ELCR 1030) Introduces the application of motor controls in the industrial environment. Topics include: AC/DC motors, AC/DC drives, MCC and contractors, NEC and NEMA standards, ladder diagrams, and power sources.

3
Choose One (3-4 hours) 4
ELTR 1220

(Prerequisites: None) (Co-requisites: None) Introduces operational theory, systems terminology, PLC installations, and programming procedures for programmable logic controls. Emphasis is placed on PLC programming, connections, installations, and start-up procedures. Topics include: PLC hardware and software, PLC functions and terminology, introductory numbering systems, PLC installation and set up, PLC programming basics, relay logic instructions, timers and counters, connecting field devices to I/O cards, and PLC safety procedures.

4
ELCR 2130

(Prerequisites: ELCR 1030) Provides the basic skills and techniques used in industrial application of programmable controls. Topics include: controller hardware, programming, PC applications, and troubleshooting.

3
Faculty
Advisor

Electronics Technology Instructor
Vidalia Campus - Gillis Building, Office 822

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