Course Catalog

Industrial Systems Technology (IST4)  Diploma


Campus Locations: Valdosta, Ben Hill Irwin, Coffee

The Industrial Systems Technology Diploma program is designed for the student who wishes to prepare for a career as an Industrial Systems technician/electrician. The program provides learning opportunities that introduce, develop and reinforce academic and technical knowledge, skill, and attitudes required for job acquisition, retention, and advancement. Additionally, the program provides opportunities to retrain or upgrade present knowledge and skill. The diploma program teaches skills in Industrial Systems Technology providing background skills in several areas of industrial maintenance including electronics, industrial wiring, motors, controls, instrumentation, fluidpower, mechanical, pumps and piping, and computers. Graduates of the program receive an Industrial Systems technology diploma that qualifies them for employment as industrial electricians or industrial systems technicians.

Requirements:

  • Submit a completed application and application fee
  • Be at least 16 years of age
  • Submit official high school transcript or High School Equivalency transcript or college transcripts showing successful completion of 60+ semester credits or 72+ quarter credits
  • Submit official college transcripts, if applicable
  • Present acceptable ACCUPLACER, ACT, ASSET, COMPASS, PSAT, or SAT scores or GED score of 145 or higher or have one of the following: an associate degree or higher or have a HOPE GPA of 2.6 after the completion of 10th grade. Documentation on a college transcript of successful completion of appropriate courses from a regionally accredited college or university may be accepted in lieu of test scores.

Additional Information:

This program is a HOPE Career Grant eligible program for students who are HOPE Grant eligible. The Career Grant award is a fixed amount per semester based on the number of credit hours taken. Maximum award per term is $500.

Gainful Employment Information
Curriculum Outline (45 hours)
General Core Courses 8
ENGL 1010

Weekly Contact Hours: Lecture - 3 Lab 2 - 0 Lab 3 - 0 Pre-requisite(s): Diploma Level Reading and Writing Scores OR READ 0090 and/or ENGL 0090 w/ a “C” or better Co-requisite(s): None Emphasizes the development and improvement of written and oral communication abilities. Topics include analysis of writing, applied grammar and writing skills, editing and proofreading skills, research skills, and oral communication skills.

3
EMPL 1000

Weekly Contact Hours: Lecture - 2 Lab 2 - 0 Lab 3 - 0 Pre-requisite(s): None Co-requisite(s): None Emphasizes human relations and professional development in today's rapidly changing world that prepares students for living and working in a complex society. Topics include human relations skills, job acquisition skills and communication, job retention skills, job advancement skills, and professional image skills.

2
Choose One of the Following (3 Hours) 3
MATH 1012

Weekly Contact Hours: Lecture - 3 Lab 2 - 0 Lab 3 - 0 Pre-requisite(s): Diploma Level Math Scores or MATH 0090 w/ a “C” or better Co-requisite(s): None Emphasizes the application of basic mathematical skills used in the solution of occupational and technical problems. Topics include fractions, decimals, percents, ratios and proportions, measurement and conversion, geometric concepts, technical applications, and basic statistics.

3
MATH 1013

Weekly Contact Hours: Lecture - 3 Lab 2 - 0 Lab 3 - 0 Pre-requisite(s): Placement Test Score or MATH 0090 w/ a “C” or better Co-requisite(s): None Emphasizes concepts and operations which are applied to the study of algebra. Topics include basic mathematical concepts, basic algebraic concepts, and intermediate algebraic concepts.

3
Occupational Courses 24
IDSY 1170

Weekly Contact Hours: Lecture - 1 Lab 2 - 4 Lab 3 - 3 Pre-requisite(s): None Co-requisite(s): None This course introduces and emphasizes the basic skill necessary for mechanical maintenance personnel. Instruction is also provided in the basic physics concepts applicable to the mechanics of industrial production equipment, and the application of mechanical principles with additional emphasis on power transmission and specific mechanical components.

4
IDSY 1130

Weekly Contact Hours: Lecture - 2 Lab 2 - 2 Lab 3 - 3 Pre-requisite(s): None Co-requisite(s): None Teaches the fundamental concepts of industrial wiring with an emphasis on installation procedures. Topics include: grounding, raceways, three-phase systems, transformers (three-phase and single-phase), wire sizing, overcurrent protection, NEC requirements, industrial lighting systems, and switches, receptacles, and cord connectors.

4
IDSY 1190

Weekly Contact Hours: Lecture - 2 Lab 2 - 2 Lab 3 - 3 Pre-requisite(s): None Co-requisite(s): None This course provides instruction in the fundamentals of safely operating hydraulic, pneumatic, and pump and piping systems. Theory and practical application concepts are discussed. Topics include hydraulic system principles and components, pneumatic system principles and components, and the installation, maintenance, and troubleshooting of pump and piping systems.

4
IDSY 1195

Weekly Contact Hours: Lecture - 1 Lab 2 - 4 Lab 3 - 0 Pre-requisite(s): Program Admission Co-requisite(s): None This course provides instruction in the fundamentals concepts of industrial pumps and piping systems. Topics include: pump identification, pump operation, installation, maintenance and troubleshooting, piping systems and installation of piping systems.

3
IDFC 1007

Weekly Contact Hours: Lecture - 1 Lab 2 - 2 Lab 3 - 0 Pre-requisite(s): None Co-requisite(s): None Provides an in-depth study of the health and safety practices required for maintenance of industrial, commercial, and home electrically operated equipment. Topics include: introduction to OSHA regulations; safety tools, equipment, and procedures; and first aid and cardiopulmonary resuscitation.

2
XXXX xxxx Occupational Electives (7 Hours) 7
Circuit Analysis - Choose One of the Below Options (3 - 5 Hours) 5
IDSY 1100

Weekly Contact Hours: Lecture - 3 Lab 2 - 0 Lab 3 - 6 Pre-requisite(s): None Co-requisite(s): MATH 1012 or MATH 1013 This course introduces direct current concepts and applications, alternating current theory and application of varying sine wave voltages and current, and the physical characteristics and applications of solid state devices. Topics include, but are not limited to, electrical laws and principles, magnetism, series, parallel, and simple combination circuits, inductance and capacitance, diodes and amplifiers, and semiconductor fundamentals.

5
Direct Current I - Choose One of the Following (3 Hours) 3
ELTR 1010

Weekly Contact Hours: Lecture - 2 Lab 2 - 2 Lab 3 - 0 Pre-requisite(s): None Co-requisite(s): None Introduces direct current (DC) concepts and applications. Topics include: electrical principles and laws; batteries; DC test equipment; series, parallel, and simple combination circuits; and laboratory procedures and safety practices.

3
IDFC 1011

Weekly Contact Hours: Lecture - 2 Lab 2 - 2 Lab 3 - 0 Pre-requisite(s): None Co-requisite(s): MATH 1012 or MATH 1013 Introduces direct current (DC) concepts and applications. Topics include: electrical principles and laws; batteries; DC test equipment; series, parallel, and simple combination circuits; and laboratory procedures and safety practices.

3
IDSY 1101

Weekly Contact Hours: Lecture - 2 Lab 2 - 2 Lab 3 - 0 Pre-requisite(s): None Co-requisite(s): None This course introduces direct current (DC) concepts and applications. Topics include: electrical principles and laws; batteries; DC test equipment; Series, parallel, and simple combination circuits; and laboratory procedures and safety practices.

3
Alternate Current I - Choose One of the Following (3 Hours) 3
ELTR 1020

Weekly Contact Hours: Lecture - 2 Lab 2 - 2 Lab 3 - 0 Pre-requisite(s): None Co-requisite(s): None Introduces the theory and application of varying sine wave voltages and current. Topics include: magnetism, AC wave generation, AC test equipment, inductance, capacitance, and basic transformers.

3
IDFC 1012

Weekly Contact Hours: Lecture - 2 Lab 2 - 2 Lab 3 - 0 Pre-requisite(s): None Co-requisite(s): IDFC 1011 Introduces the theory and application of varying sine wave voltages and current. Topics include: magnetism, AC wave generation, AC test equipment, inductance, capacitance, and basic transformers.

3
IDSY 1105

Weekly Contact Hours: Lecture - 2 Lab 2 - 2 Lab 3 - 0 Pre-requisite(s): IDSY 1101 Co-requisite(s): None This course introduces alternating current concepts, theory, and application of varying sine wave voltages and current, and the physical characteristics and applications of solid state devices. Topics include, but are not limited to, electrical laws and principles, magnetism, inductance and capacitance.

3
Electric Motors I - Choose One of the Following (4 Hours) 4
ELTR 1110

Weekly Contact Hours: Lecture - 3 Lab 2 - 0 Lab 3 - 3 Pre-requisite(s): None Co-requisite(s): ELTR 1120, ELTR 1180 Introduces the fundamental theories and applications of single-phase motors. Topics include: motor theory/operating principles, motor terminology, motor identification, NEMA standards, motor efficiencies, preventive maintenance, troubleshooting/failure analysis, and NEC requirements.

4
IDSY 1110

Weekly Contact Hours: Lecture - 2 Lab 2 - 2 Lab 3 - 3 Pre-requisite(s): None Co-requisite(s): None This course introduces the fundamental concepts, principles, and devices involved in industrial motor controls,theories and applications of single and three-phase motors, wiring motor control circuits, and magnetic starters and braking. Topics include, but are not limited to, motor theory and operating principles, control devices, symbols and schematic diagrams, NEMA standards, Article 430 NEC and preventative maintenance and troubleshooting.

4
Industrial PLC's - Choose One of the Following (4 Hours) 4
ELTR 1220

Weekly Contact Hours: Lecture - 3 Lab 2 - 0 Lab 3 - 3 Pre-requisite(s): ELTR 1110, ELTR 1180 Co-requisite(s): None Introduces operational theory, systems terminology, PLC installations, and programming procedures for programmable logic controls. Emphasis is placed on pic 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
IDSY 1120

Weekly Contact Hours: Lecture - 1 Lab 2 - 4 Lab 3 - 3 Pre-requisite(s): None Co-requisite(s): None This course introduces the operational theory, systems terminology, PLC installation, and programming procedures for Programmable Logic Controllers. Emphasis is placed on PLC programming, connections, installation, and start-up procedures. Other topics include timers and counters, relay logic instructions, and hardware and software applications.

4
Faculty
Advisor

Industrial Systems Technology Instructor
Coffee Campus

Advisor

Electrical/Industrial Systems Technology Program Coordinator
Valdosta Campus

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