Mechatronics
Associate of Applied Science Degree
Please note: Effective July 2022, this program will be suspended. If you are currently enrolled in the program, please contact your advisor.
About the Program
Today’s manufacturing industry uses robots and other advanced fabrication and assembly equipment to produce a wide variety of products. All of these systems rely on digital controls including programmable logic controllers. Mechatronics technicians calibrate, troubleshoot, and repair both the equipment and the controllers. Mechatronic technicians in southern Oregon are needed by manufacturers in the food processing, wood products, and metal fabrication industries. Typical positions include industrial engineering technician and manufacturing maintenance technician. The program can also provide preparation for apprenticeship programs leading to a variety of licensed journey positions.
The Mechatronics degree program trains students to be proficient in troubleshooting mechanical, electrical, pneumatic, and hydraulic equipment and the digital systems that control them. It prepares students for positions in the highly technical manufacturing environment installing, troubleshooting, programming, and maintaining a variety of types of production equipment. Today’s manufacturing environment uses an extensive array of programmable controls, including programmable logic controllers (PLCs), as well as other single function controls using firmware and analog applications. Students learn foundational skills in math, fabrication, and repair as well as hydraulics, electronics, troubleshooting and programming, preparing students for numerous positions in a wide variety of manufacturing facilities. Elective options allow students to focus on either a mechanical or electronics emphasis.
Most of the courses in the program are hands-on, open-lab courses supported by online instruction providing students exceptional flexibility when scheduling around family, employment, or other commitments.
Program Learning Outcomes
The curriculum in RCC courses is derived from a set of identified learning outcomes that are relevant to the discipline. Program learning outcomes for mechatronics programs are:
Install, troubleshoot, maintain and repair mechatronic systems using industry-standard tools, practices and procedures.
Demonstrate skills and ability to design and troubleshoot mechanical automation systems, processes and procedures.
Organize, interpret, and use technical information and documentation.Practice energy efficiency and industrial sustainability.
Identify and demonstrate procedures for personal safety during interaction with automated systems.
Entry Requirements
Students are required to complete the Placement Process to determine skill level and readiness in math, reading, and writing. As part of their training program, students must begin with the courses within their skill level as determined through the Placement Process. In addition, students may also be required to enroll in classes that would increase their employability and success.
Advanced Standing
Coursework from accredited colleges and universities will be accepted in accordance with college registration policies and with the Manufacturing/Engineering Technology Department chair’s recommendation. In order to ensure that coursework is current, program courses over 10 years old must be reviewed and approved by the appropriate program coordinator before being accepted toward core requirements. Students must complete coursework in their major at a “C” or better level before proceeding to advanced coursework. Each College Now credit student must meet with the program coordinator to determine placement.
Credits earned in the successful completion of Career Pathways certificates can be applied to other certificates and degrees in the Career Pathway. For more information, speak to a program advisor.
Graduation Requirements
Students are required to complete all courses in this program with a grade of “C” or better to receive their degrees. Certain required courses are graded on a pass/no pass basis only. A grade of “P” for these courses indicates a student earned the equivalent of a “C” or better grade.
TOTAL PROGRAM CREDITS: |
90-100 | |
Program Map
This guide lays out an optimal path to graduate. Where zero credits are listed in the prerequisites, students may place into a higher level(s) based on designated placement score(s). Note, some prerequisites may be required for graduation. Please consult an advisor with any program completion questions.
Program Prerequisites |
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| Course No. | Course Title | Credits | Alternate Course | Comments |
|---|---|---|---|---|
CIS120 | Concepts in Computing I 1, 2 | 0-2 |
| |
MEC102 | Mechanical Fabrication | 3 |
| |
MTH63 | Applied Algebra I 1 | 4 | MTH60 | |
RD90 | College Reading | 0-4 | WR91 | WR91 fulfills RD90/WR90 |
WR90 | Fundamentals of Composition | 0-4 | WR91 | WR91 fulfills RD90/WR90 |
Prerequisites credits vary based on Placement Score(s): | 7-17 |
| ||
Term 1 |
||||
EET104 | Fundamentals of Manufacturing Electronics | 4 |
| |
MEC103 | Industrial Safety | 1 |
| |
MEC110 | AC/DC Electrical Systems for Manufacturing | 3 | MFG210 | |
MEC125 | Pneumatics I | 3 |
| |
MET105 | Blueprint Reading: Mechanical | 3 |
| |
MFG116 | Metrology | 2 |
| |
WR115 | Introduction to Expository Writing | 3-4 | BT113 |
or higher level composition course |
| Total Credits: | 19-20 |
| |
Term 2 |
||||
MEC115 | Electrical Control Systems and Sensors for Manufacturing | 3 |
| |
MEC124 | Hoisting and Rigging I | 3 |
| |
MFG121 | Manufacturing Processes I | 4 |
| |
WLD111 | Technology of Industrial Welding I | 6 | WLD101 & | |
| Total Credits: | 16 |
| |
Term 3 | ||||
BT101 | Human Relations in Organizations | 3 | PSY101 | |
HE112 | Emergency First Aid | 1 |
| |
MEC149 | Electrical Motor Control | 4 |
| |
MEC130 | Hydraulics I | 3 |
| |
MEC135 | Mechanical Drives I | 4 |
| |
| Total Credits: | 15 |
| |
Term 4 |
||||
MEC150 | PLC Motor Control | 3 |
| |
MEC231 | Hydraulics II | 4 |
| |
MEC236 | Mechanical Drives II | 4 |
| |
MECELEC | Manufacturing and Engineering Technology Elective | 3-5 |
| approved program electives |
| Total Credits: | 14-16 |
| |
Term 5 |
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MEC151 | Programming PLCs I | 3 |
| |
WR121 | English Composition I | 4 | BT114 | |
LIB127 | Introduction to Academic Research | 1 | LIB101 | |
MECELEC | Manufacturing and Engineering Technology Elective | 4-8 |
| approved program electives |
| Total Credits: | 12-16 |
| |
Term 6 |
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MFG280 | CWE/Manufacturing | 3 |
| |
MEC251 | Programming PLCs II | 3 |
| |
MECELEC | Manufacturing and Engineering Technology Elective | 8-11 |
| approved program electives |
| Total Credits: | 14-17 |
| |
Approved Program Electives(15 - 24 credits required) |
Mechanical Focus (Hydraulics, PNL, Drives) |
||
| Course No. | Course Title | Credits |
|---|---|---|
CIS140 |
Introduction to Operating Systems |
4 |
CIS179 |
Intro to Networks |
4 |
MEC114 |
Safety for Industry |
3 |
MEC116 |
Quality Practices and Measurement |
3 |
MEC118 |
Manufacturing Processes and Production |
3 |
MEC120 |
Maintenance Awareness |
4 |
MEC140 |
Green Production |
2 |
MEC154 |
Computer Control |
3 |
MEC199 |
Mechatronics: Special Studies |
variable |
MEC210 |
Variable Frequency A/C Drives |
2 |
MEC226 |
Pneumatics II |
2 |
MEC227 |
Pneumatics III |
2 |
MEC228 |
Pneumatic Troubleshooting |
3 |
MEC232 |
Hydraulics III |
2 |
MEC233 |
Hydraulic Troubleshooting |
4 |
MEC238 |
Mechanical Drives III |
4 |
MEC254 |
PLC Troubleshooting |
3 |
MEC260A |
Automation Operations |
2-6 |
MEC260B |
Basic Component Adjustments |
2-6 |
MEC260C |
Pick and Place Feeding |
2-6 |
MEC260D |
Gauging |
2-6 |
MEC260E |
Indexing |
2-6 |
MEC260F |
Sorting and Queuing |
2-6 |
MEC260G |
Servo Robotic Assembly |
2-6 |
MEC260H |
Torquing |
2-6 |
MEC260I |
Parts Storage |
2-6 |
MEC260J |
Electro Hydraulic Testing |
2-6 |
MEC260K |
Multiple Station Control |
2-6 |
MET101 |
Mechanical Drafting |
3 |
MFG122 |
Manufacturing Processes II |
4 |
MFG211 |
Manufacturing Power and Control Electronics |
4 |
WLD112 |
Technology of Industrial Welding II |
6 |
WLD250A |
Selected Topics in Welding: FCAW |
2 |
WLD250B |
Selected Topics in Welding: GTAW |
2 |
WLD250C |
Selected Topics in Welding: SMAW |
2 |
WLD250D |
Selected Topics in Welding: GMAW |
2 |
WLD250P |
Selected Topics in Welding: CNC Plasma Cutting |
3 |
Electronics Focus |
||
EET105 |
Digital for Manufacturing |
4 |
EET125 |
Electronics Fundamentals I (DC) |
6 |
EET129 |
Introduction to Embedded Systems |
3 |
EET130 |
Digital Fundamentals I |
6 |
EET131 |
Digital Fundamentals II |
5 |
Robotics Focus |
||
MEC240 |
Robotics and Computer Programming |
3 |
1 Required for graduation.
2 Approved Computer Information Science or Computer Science class, CIS120 or above, or documented computer proficiency within the past ten years.
For more information, contact the Manufacturing/Engineering Technology Department.
Manufacturing/Engineering Technology Department faculty and staff can also be reached by:
Phone: 541-956-7500
Email: [email protected]
Web address: www.roguecc.edu/mechatronics
TTY: Oregon Telecom Relay Service, 711
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