Course Catalog

Mechatronics Technology, Degree (MT23)  Degree


Campus Locations: Valdosta

The Mechatronics Technology Degree Program is designed for the student who wishes to prepare for a career as an Mechatronics 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 Degree program teaches skills in Mechatronics Technology providing background skills in several areas of industrial maintenance including electronics, industrial wiring, motors, controls, PLC's, instrumentation, fluid power, mechanical, pumps and piping, and computers. Graduates of the program receive a Mechatronics Technology Degree that qualifies them for employment as industrial electricians or Mechatronics 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.
Curriculum Outline (60 hours)
General Core Courses 15
Area I - Language Arts/Communication 3
ENGL 1101

Weekly Contact Hours: Lecture - 3 Lab 2 - 0 Lab 3 - 0 Pre-requisite(s): Degree Level Reading and Writing Scores Co-requisite(s): None 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
Area II - Social/Behavior Science - Complete 3 Hours 3
Area III - Natural Sciences/Mathematics - Choose One of the Following (3 Hours) 3
MATH 1100

Weekly Contact Hours: Lecture - 3 Lab 2 - 0 Lab 3 - 0 Pre-requisite(s): Degree Level Math Scores Co-requisite(s): None Emphasizes algebra, statistics, and mathematics of finance. Topics include fundamental operations of algebra, sets and logic, probability and statistics, geometry, mathematics of voting and districting, and mathematics of finance.

3
MATH 1101

Weekly Contact Hours: Lecture - 3 Lab 2 - 0 Lab 3 - 0 Pre-requisite(s): Degree Level Math Scores Co-requisite(s): None Emphasizes functions using real-world applications as models. Topics include fundamental concepts of algebra; functions and graphs; linear, quadratic, polynomial, exponential, and logarithmic functions and models; systems of equations; and optional topics in algebra.

3
MATH 1111

Weekly Contact Hours: Lecture - 3 Lab 2 - 0 Lab 3 - 0 Pre-requisite(s): Degree Level Math Scores Co-requisite(s): None 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 1103

Weekly Contact Hours: Lecture - 3 Lab 2 - 0 Lab 3 - 0 Pre-requisite(s): Degree Level Math Scores Co-requisite(s): None This course focuses on quantitative skills and reasoning in the context of experiences that students will be likely to encounter. The course emphasizes processing information in context from a variety of representations, understanding of both the information and the processing, and understanding which conclusions can be reasonably determined. Students will use appropriate technology to enhance mathematical thinking and understanding. Topics covered in this course include: sets and set operations, logic, basic probability, data analysis, linear models, quadratic models, exponential and logarithmic models, geometry, and financial management.

3
Area IV - Humanities/Fine Arts - Complete 3 Hours 3
Additional General Education Core Elective 3
Occupational Courses 45
IDFC 1013

Weekly Contact Hours: Lecture - 2 Lab 2 - 1 Lab 3 - 0 Pre-requisite(s): IDFC 1000 OR IDSY 1011, IDFC 1012 OR IDSY 1105 Co-requisite(s): None Introduces the physical characteristics and applications of solid state devices. Topics include: introduction to semiconductor fundamentals, diode applications, basic transistor fundamentals, basic amplifiers, and semiconductor switching devices.

3
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
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
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 1210

Weekly Contact Hours: Lecture - 2 Lab 2 - 2 Lab 3 - 3 Pre-requisite(s): None Co-requisite(s): None This course introduces the theory and practical application for two-wire control circuits, advanced motor controls, and variable speed motor controls. Emphasis is placed on circuit sequencing, switching, and installation, maintenance, and troubleshooting techniques.

4
IDSY 1220

Weekly Contact Hours: Lecture - 1 Lab 2 - 4 Lab 3 - 3 Pre-requisite(s): None Co-requisite(s): None This course provides for hands on development of operational skills in the maintenance and troubleshooting of industrial control systems and automated equipment. Topics include data manipulation, math instructions, introduction to HMI, analog control, and troubleshooting discrete IO devices.

4
IDSY 1230

Weekly Contact Hours: Lecture - 2 Lab 2 - 0 Lab 3 - 6 Pre-requisite(s): None Co-requisite(s): None Provides instruction in the principles and practices of instrumentation for industrial process control systems with an emphasis on industrial maintenance techniques for production equipment. Topics include: instrument tags; process documentation; basic control theory; sensing pressure, flow, level, and temperature; instrument calibration; and loop tuning.

4
AUMF 1150

Weekly Contact Hours: Lecture - 2 Lab 2 - 0 Lab 3 - 3 Pre-requisite(s): AUMF 1120 or IDSY 1120 Co-requisite(s): None Explores basic robotic concepts. Studies robots in typical application environments. Topics include: robot history and fundamentals, robot classification, power sources, robot applications in the workplace, robot control techniques, path control, end of arm tooling, robot operation and robot controllers, controller architecture in a system, robotic language programming, and human interface issues.

3
MCTX 2250

Weekly Contact Hours: Lecture - 1.5 Lab 2 - 3 Lab 3 - 0 Pre-requisite(s): None Co-requisite(s): None This capstone course for the mechatronics specialization track will be used as the final project for the mechatronics students. Students will integrate and build upon knowledge and skills gained in previous courses to design, assemble, and analyze mechatronic systems using modern methods and tools. Lectures and laboratory experiences will include control theory, dynamic system behavior, communication protocols, pneumatics, embedded programming, and analysis in time-and-frequency domains. The course concludes with an open-ended team-based multi-week design project.

3
CIST 1401

Weekly Contact Hours: Lecture - 2 Lab 2 - 4 Lab 3 - 0 Pre-requisite(s): Program Admission Co-requisite(s): None Introduces networking technologies and prepares students to take the CompTIA's broad-based, vendor independent networking certification exam, Network +. This course covers a wide range of material about networking, including local area networks, wide area networks, protocols, topologies, transmission media, and security. Focuses on operating network management systems, and implementing the installation of networks. It reviews cabling, connection schemes, the fundamentals of the LAN and WAN technologies, TCP/IP configuration and troubleshooting, remote connectivity, and network maintenance and troubleshooting. Topics include: basic knowledge of networking technology, network media and topologies, network devices, network management, network tools and network security.

4
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
Direct Current I - Choose One of the Following (3 Hours) 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
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
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
Alternating Current I - Choose One of the Following (3 Hours) 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
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
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
Faculty
Advisor

Electrical/Industrial Systems Technology Program Coordinator
Valdosta Campus

Program Chair

Mechatronics Instructor
Valdosta Campus

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