Industrial Systems Technology Diploma

Program Description

Craven Community College’s Industrial Systems Technology curriculum is designed to prepare or upgrade individuals to service, maintain, repair, or install equipment for a wide range of industries. Instruction includes theory and skill training needed for inspecting, test, troubleshooting, and diagnosing industrial equipment and physical facilities.

Students will learn technical skills in blueprint reading, electricity, hydraulics/pneumatics, machining, welding, and various maintenance procedures. Practical application in these industrial systems will be emphasized and addition advanced course work may be offered.

Upon completion of any of the various levels of this curriculum, graduates should gain the necessary practical skills and related technical information to qualify for employment or advancement in the various areas of industrial maintenance technology.

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 Industrial Systems Technology program, the graduate should be able to:

  • Demonstrate proficiency to safely and effectively inspect, install, perform preventative maintenance, troubleshoot, and repair a variety of industrial systems.
  • Demonstrate proficiency with regard to industry standards while working with manufacturing tools and equipment, to include electronic test, mechanical, machine and welding equipment.
  • Demonstrate knowledge and understanding of reading, interpreting mechanical drawings and using CAD software.

Career Opportunities

Upon completion of the program, Graduates can enter the workforce as:

  • Electricians
  • Industrial Technicians
  • Maintenance Technicians

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.

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, BPR-111, ISC-112, MAC-121. 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: 19

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 basic principles of print reading. Topics include line types, orthographic projections, dimensioning methods, and notes. Upon completion, students should be able to interpret basic prints and visualize the features of a part or system.

Lecture Hours: 1  Lab Hours: 1  Clinical Hours: 0  Credit Hours: 2 
  • Prerequisites:
    None
  • Corequisites:
    None

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 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 introduces the concepts and capabilities of computer numerical control machine tools. Topics include setup, operation, and basic applications. Upon completion, students should be able to explain operator safety, machine protection, data input, program preparation, and program storage.

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

This course covers basic maintenance fundamentals for power transmission equipment. Topics include equipment inspection, lubrication, alighnment, and other scheduled maintenance procedures. Upon completion, students should be able to demonstrate knowledge of accepted maintenance procedures and practices according to current industry standards.

Lecture Hours: 1  Lab Hours: 3  Clinical Hours: 0  Credit Hours: 2 
  • Prerequisites:
    None
  • Corequisites:
    None

This course introduces basic welding and cutting. Emphasis is placed on beads applied with gases, mild steel fillers, and electrodes and the capillary action of solder. Upon completion, students should be able to set up welding and oxy-fuel equipment and perform welding, brazing, and soldering processes.

Lecture Hours: 1  Lab Hours: 1  Clinical Hours: 0  Credit Hours: 2 
  • Prerequisites:
    None
  • Corequisites:
    None

Second Semester

Semester Credit Hours: 16

Course Course Code Credit Hours Link to course details

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 introduces the care/usage of tools and materials used in residential electrical installations and the requirements of the National Electrical Code. Topics include NEC, electrical safety, and electrical print reading; planning layout; and installation of electrical distribution equipment; lighting; overcurrent protection; conductors; branch circuits; and conduits. Upon completion, students should be able to properly install conduits, wiring, and electrical distribution equipment associated with residential electrical installations.

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

This course introduces shop safety, hand tools, machine processes, measuring instruments, and the operation of machine shop equipment. Topics include use and care of tools, safety, measuring tools, and the basic setup and operation of common machine tools. Upon completion, students should be able to manufacture simple parts to specified tolerance.

Lecture Hours: 1  Lab Hours: 1  Clinical Hours: 0  Credit Hours: 3 
  • Prerequisites:
    None
  • Corequisites:
    None

This course provides in-depth theory and practical applications relating to predictive and preventive maintenance programs. Emphasis is placed on equipment failure, maintenance management software, and techniques such as vibration and infrared analysis. Upon completion, students should be able to demonstrate an understanding of modern analytical and documentation methods

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 provides an activity-based approach that develops measurement skills and mathematical literacy using technology to solve problems for non-math intensive programs. Topics include unit conversions and estimation within a variety of measurement systems; ratio and proportion; basic geometric concepts; financial literacy; and statistics including measures of central tendency, dispersion, and charting of data. Upon completion, students should be able to demonstrate the use of mathematics and technology to solve practical problems, and to analyze and communicate results.

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

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