Associate of Applied Science Degree

Overview

The Smart Manufacturing Technology degree will equip graduates with key skills in both instrumentation and controls engineering and information technology. Students will learn to install, operate, troubleshoot, and maintain automated systems. These systems will make use of networks of advanced sensors, controllers, robotics integrated with iR vision, data analytics, and information and communication technologies to improve manufacturing productivity and security. After completing the program, students will be able to build careers in areas such as electrical and electronics engineering and instrumentation and controls engineering.

The program is structured as an 'Earn and Learn' program as follows:

• During the first year of the program, students will complete a set of technical courses as well as a career readiness course to prepare them for their work placement which takes place during the second year of the program
• Students will complete a set of gen-ed courses during the summer after their first year
• Students will work/receive on -the job training at a manufacturing/engineering facility 3 days a week (paid placement) and complete course work two days a week during the second year of the program

Learning Outcomes:

• Analyze direct current (DC) and alternating current (AC) electric circuits.
• Troubleshoot direct current (DC) and alternating current (AC) electric circuits.
• Select the appropriate electrical instrument such as the digital multimeter, oscilloscope and/or function generator for testing purposes.
• Use various electrical instruments such as the digital multimeter, oscilloscope and/or function generator for testing purposes.
• Operate process control systems (incorporating sensors and controllers) such as level, flow, pressure, and temperature.
• Maintain process control systems (incorporating sensors and controllers) such as level, flow, pressure, and temperature.
• Troubleshoot process control systems (incorporating sensors and controllers) such as level, flow, pressure, and temperature.
• Setup programs on a FANUC robot with a HandlingTool application software package.
• Record programs on a FANUC robot with a HandlingTool application software package.
• Troubleshoot programs on a FANUC robot with a HandlingTool application software package.
• Identify the components of a fully-integrated robotic visual detection system.
• Install the hardware making up a fully-integrated robotic visual detection system.
• Program the robot to respond to vision results.
• Troubleshoot a fully-integrated robotic visual detection system.
• Select components such as chain and belt drives, gears, bearings, couplings, brakes, and/or clutches for mechanical drive systems.
• Recommend administrative, technical, and physical safeguards to protect against cyberattacks in a manufacturing environment.
• Program using Python in order to apply this language to engineering and cybersecurity applications.
• Work both independently and as an integral part of a technical team.
• Communicate effectively with faculty, classmates and industry representatives.
• Demonstrate adherence to safety when working in a manufacturing environment.

Occupational Certification

• OSHA - 10
• FANUC Handling Tool Operations and Programming
• FANUC iRVision Operation and Programming - 2D

Application Requirements

• MTC Application for Admission and nonrefundable applicable fee.

• Final high school transcript (or GED results) and college transcripts (if applicable).

Career Opportunities

• Instrumentation and/or Process Control Technician
• Maintenance Technician
• PLC Programmer/Technician
• Robotics Technician

Curriculum

The Smart Manufacturing Technology degree will equip graduates with key skills in both instrumentation and controls engineering and information technology. Students will learn to install, operate, troubleshoot, and maintain automated systems. These systems will make use of networks of advanced sensors, controllers, robotics integrated with iR vision, data analytics, and information and communication technologies to improve manufacturing productivity and security. After completing the program, students will be able to build careers in areas such as electrical and electronics engineering and instrumentation and controls engineering.

The program is structured as an 'Earn and Learn' program as follows:

• During the first year of the program, students will complete a set of technical courses as well as a career readiness course to prepare them for their work placement which takes place during the second year of the program
• Students will complete a set of gen-ed courses during the summer after their first year
• Students will work/receive on -the job training at a manufacturing/engineering facility 3 days a week (paid placement) and complete course work two days a week during the second year of the program

First Semester

Second Semester

Third Semester

Fourth Semester

Fifth Semester