Craven Community College’s Mechatronics Technology curriculum prepares graduates to use basic engineering principles and technical skills in developing and testing automated, servomechanical, and other electromechanical systems. Includes instruction in prototype testing, manufacturing and operational testing, systems analysis and maintenance procedures.
Students will gain knowledge and hands-on training for the in-demand field of mechatronics, which combines electronics, robotics, mechanics, instrumentation, process control and industrial automation. Course work includes computer-aided drafting and design, applied mechanics, materials engineering, quality control, manufacturing methods and processes, computer usage, mathematics, physics and oral and written communications. The courses will stress critical thinking, planning and problem solving.
Admission to this program requires that students be high school graduates or have a recognized equivalency.
Program Learning Outcomes
Upon successful completion of the Mechatronics Systems Technology program, the graduate should be able to:
- Maintain, troubleshoot, and repair industrial systems.
- Maintain a safe work environment.
Upon completion of the program, Graduates can enter the workforce as:
- Industrial Technicians
- Maintenance Technicians
- Technical service providers
- Process improvement technicians
- Engineering technicians
- Industrial technology managers
While the AAS is a degree leading to immediate job placement upon graduation, Craven Community College has a special relationship for transfer to a BS degree in Industrial Technology with East Carolina University. Please check with an advisor for complete details and opportunities.
Executive Director of Career Programs
Courses in this program
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This course introduces DC and AC electricity with an emphasis on circuit analysis, measurements, and operation of test equipment. Topics include DC and AC principles, circuit analysis laws and theorems, components, test equipment operation, circuit simulation, and other related topics. Upon completion, students should be able to interpret circuit schematics; design, construct, verify, and analyze DC/AC circuits; and properly use test equipment.
This course covers combinational and sequential logic circuits. Topics include number systems, Boolean algebra, logic families, medium scale, integration (MSI) and large scale integration (LSI) circuits, analog to digital (AD) and digital to analog (DA) conversion, and other related topics. Upon completion, students should be able to construct, analyze, verify, and troubleshoot digital circuits using appropriate techniques and test equipment.
This course covers magnetic circuits, transformers, DC/AC machines, and the three-phase circuit fundamentals including power factor. Topics include magnetic terms and calculations, transformer calculations based on primary or secondary equivalent circuits, and regulation and efficiency calculations. Upon completion, students should be able to perform regulation and efficiency calculations for DC/AC machine circuits.
This course introduces extended CAD applications., Emphasis is placed upon intermediate applications of CAD skills. Upon completion, students should be able to use extended CAD applications to generate and manage drawings.
This course introduces the basic components and functions of hydraulic and pneumatic systems. Topics include standard symbols, pumps, control valves, control assemblies, actuators, FRL, maintenance procedures, and switching and control devices. Upon completion, students should be able to understand the operation of a fluid power system, including design, application, and troubleshooting.