Mechatronics Engineering Technology Diploma

Program Description

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 Criteria

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.

Career Opportunities

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

Transfer Opportunities

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.

Contact Information

Executive Director of Career Programs
252-638-7372

Admissions Office
252-638-7430

Diploma Requirements

The following suggested schedule is based on full-time enrollment. Part-Time Students begin with ACA-111, ELC-131, ISC-112. Continue with sequence of required courses. General education courses may be taken at any time. For information about prerequisites and corequisites, please refer to the catalog.

Courses in this program

First Semester

Semester Credit Hours: 14

Course Course Code Credit Hours Link to course details

This course introduces the college's physical, academic, and social environment and promotes the personal development essential for success. Topics include campus facilities and resources; policies, procedures, and programs; study skills; and life management issues such as health, self-esteem, motivation, goal-setting, diversity, and communication. Upon completion, students should be able to function effectively within the college environment to meet their educational objectives.

Lecture Hours: 1  Lab Hours: 0  Clinical Hours: 0  Credit Hours: 1 
  • Prerequisites:
    None
  • Corequisites:
    None

This course introduces the synergistic application of mechanical, electrical, electronic, and computer engineering technologies that are used for the purpose of control and maintenance of high-tech devices and equipment. Topics include automation, advanced manufacturing, sensors, actuators, process control, circuits, robotics, electromechanical equipment, hydraulics, pneumatics, electrical drives, motors, and programmable logic controllers.

Lecture Hours: 3  Lab Hours: 3  Clinical Hours: 0  Credit Hours: 4 
  • Prerequisites:
    None
  • Corequisites:
    None

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.

Lecture Hours: 3  Lab Hours: 3  Clinical Hours: 0  Credit Hours: 4 
  • Prerequisites:
    None
  • Corequisites:
    None

This course introduces the principles of industrial safety. Emphasis is placed on industrial safety and OSHA regulations. Upon completion, students should be able to demonstrate knowledge of a safe working environment and OSHA compliance.

Lecture Hours: 2  Lab Hours: 0  Clinical Hours: 0  Credit Hours: 2 
  • Prerequisites:
    None
  • Corequisites:
    None

This course provides an integrated approach to technology and the skills required to manipulate, display, and interpret mathematical functions and formulas used in problem solving. Topics include the properties of plane and solid geometry, area and volume, and basic proportion applications; simplification, evaluation, and solving of algebraic equations and inequalities and radical functions; complex numbers; right triangle trigonometry; and systems of equations.

Lecture Hours: 2  Lab Hours: 2  Clinical Hours: 0  Credit Hours: 3 
  • Prerequisites:
    Take One Set:,Set 1: DMA-010, DMA-020, DMA-030, DMA-040, DMA-050,Set 2: DMA-025, DMA-040, DMA-050,Set 3: DMA-025, DMA-045,Set 4: DMA-010, DMA-020, DMA-030, DMA-045,Set 5: MAT-003 ,Set 6: BSP-4003
  • Corequisites:
    Take MAT-021

Second Semester

Semester Credit Hours: 16

Course Course Code Credit Hours Link to course details

This course introduces the basic principles of automated systems and describes the tasks that technicians perform on the job. Topics include the history, development, and current applications of robots and automated systems including their configuration, operation, components, and controls. Upon completion, students should be able to understand the basic concepts of automation and robotic systems.

Lecture Hours: 2  Lab Hours: 2  Clinical Hours: 0  Credit Hours: 3 
  • Prerequisites:
    None
  • Corequisites:
    None

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.

Lecture Hours: 2  Lab Hours: 2  Clinical Hours: 0  Credit Hours: 3 
  • Prerequisites:
    None
  • Corequisites:
    None

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.

Lecture Hours: 2  Lab Hours: 2  Clinical Hours: 0  Credit Hours: 3 
  • Prerequisites:
    None
  • Corequisites:
    None

This algebra/trigonometry-based course introduces fundamental physical concepts as applied to engineering technology fields. Topics include systems of units, problem-solving methods, graphical analysis, vectors, motion, forces, Newton's laws of motion, work, energy, power, momentum, and properties of matter. Upon completion, students should be able to apply the principles studied to applications in engineering technology fields.

Lecture Hours: 3  Lab Hours: 3  Clinical Hours: 0  Credit Hours: 4 
  • Prerequisites:
    Take One: MAT-121 or MAT-171, Take ENG-002
  • Corequisites:
    None

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.

Lecture Hours: 2  Lab Hours: 2  Clinical Hours: 0  Credit Hours: 3 
  • Prerequisites:
    None
  • Corequisites:
    None

Third Semester

Semester Credt Hours: 6

Course Course Code Credit Hours Link to course details

This course introduces computer concepts including fundamental functions and operations of the computer. Topics include identification of hardware components, basic computer operations, security issues, and use of software applications. Upon completion, students should be able to demonstrate an understanding of the role and function of computers and use the computer to solve problems.

Lecture Hours: 2  Lab Hours: 2  Clinical Hours: 0  Credit Hours: 3 
  • Prerequisites:
    Take One: DRE-097, ENG-002, BSP-4002, ENG-111
  • Corequisites:
    None

This course is designed to develop the ability to produce clear writing in a variety of genres and formats using a recursive process. Emphasis includes inquiry, analysis, effective use of rhetorical strategies, thesis development, audience awareness, and revision. Upon completion, students should be able to produce unified, coherent, well-developed essays using standard written English.

Lecture Hours: 3  Lab Hours: 0  Clinical Hours: 0  Credit Hours: 3 
  • Prerequisites:
    Take One Set:,Set 1: DRE-097,Set 2: ENG-002,Set 3: BSP-4002
  • Corequisites:
    Take ENG-011

Fourth Semester

Semester Credit Hours: 12

Course Course Code Credit Hours Link to course details

This course introduces the fundamental concepts of motors and motor controls. Topics include ladder diagrams, pilot devices, contactors, motor starters, motors, and other control devices. Upon completion, students should be able to properly select, connect, and troubleshoot motors and control circuits.

Lecture Hours: 2  Lab Hours: 2  Clinical Hours: 0  Credit Hours: 4 
  • Prerequisites:
    None
  • Corequisites:
    None

This course covers the fundamentals of instrumentation used in industry. Emphasis is placed on electric, electronic, and other instruments. Upon completion, students should be able to install, maintain, and calibrate instrumentation.

Lecture Hours: 3  Lab Hours: 3  Clinical Hours: 0  Credit Hours: 4 
  • Prerequisites:
    None
  • Corequisites:
    None

This course provides a detailed study of PLC applications, with a focus on design of industrial controls using the PLC. Topics include PLC components, memory organization, math instructions, documentation, input/output devices, and applying PLCs in industrial control systems. Upon completion, students should be able to select and program a PLC system to perform a wide variety of industrial control functions.

Lecture Hours: 3  Lab Hours: 3  Clinical Hours: 0  Credit Hours: 4 
  • Prerequisites:
    None
  • Corequisites:
    None