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    • 1.00 - 4.00 Credits

      Students will engage in a project with an employer in an advanced manufacturing setting. As part of this project, students will be engaged in analysis and operation of mechatronic systems. Not part of a TN Transfer Pathway
    • 0.00 - 3.00 Credits

      This course is a study of the basic electrical components in a mechatronic system. Topics covered will include basic functions and physical properties of electrical components; troubleshooting techniques and strategies to identify, localize and correct malfunctions; and systematic preventative maintenance and electrical component safety. Technical documentation such as data sheets, schematics, timing diagrams and system specifications will also be covered. (Prerequisite: Completion of any Learning Support requirements). Not part of a TN Transfer Pathway.
    • 0.00 - 3.00 Credits

      This course is a study of the basic mechanical components and electrical drives in a mechatronics system. Topics covered will include basic functions and physical properties of mechanical components and electrical AC and DC drives; materials, lubrication requirements and surface properties; troubleshooting techniques and strategies to identify, localize and correct malfunctions; and systematic preventative maintenance and electrical component safety. Technical documentation such as data sheets and specifications of mechanical elements and electrical drives will also be covered. Formerly MECH 1010 Not part of a TN Transfer Pathway
    • 0.00 - 3.00 Credits

      This course covers the basics of pneumatic, electro pneumatic and hydraulic control circuits in a complex mechatronic system. Students will learn the functions and properties of control elements based upon physical principles, and the roles they play within the system. Technical documentation such as data sheets, circuit diagrams, displacement step diagrams and function charts will also be covered. By understanding and performing measurements on the pneumatic and hydraulic control circuits, students will learn and apply troubleshooting strategies to identify, localize and correct malfunctions. Preventive maintenance of (electro) pneumatic and hydraulic components as well as safety issues within the system will be discussed. Formerly MECH 1120 Not part of a TN Transfer Pathway
    • 0.00 - 3.00 Credits

      This course is a study of the basic electrical components in a mechatronic system. Topics covered will include basic functions and physical properties of electrical components; the systematic flow of energy and measurement of components; troubleshooting techniques and strategies to identify, localize and correct malfunctions; and systematic preventive maintenance and electrical component safety. Technical documentation such as data sheets, schematics, timing diagrams and system specifications will also be covered. F, Sp Not part of a TN Transfer Pathway
    • 0.00 - 3.00 Credits

      This course is a study of the basic mechanical components and electrical drives in a mechatronics system. Topics covered will include basic functions and physical properties of mechanical components and electrical AC and DC drives; materials, lubrication requirements and surface properties; troubleshooting techniques and strategies to identify, localize and correct malfunctions; and systematic preventative maintenance and electrical component safety. Technical documentation such as data sheets and specifications of mechanical elements and electrical drives will also be covered. FNot part of a TN Transfer Pathway Formerly MECH 1010, 1200 Mechanical Compenents and Elecric Motors
    • 0.00 - 3.00 Credits

      This course covers the basics of pneumatic, electro pneumatic and hydraulic control circuits in a complex mechatronic system. Students will learn the functions and properties of control elements based upon physical principles, and the roles they play within the system. Technical documentation such as data sheets, circuit diagrams, displacement step diagrams and function charts will also be covered. By understanding and performing measurements on the pneumatic and hydraulic control circuits, students will learn and apply troubleshooting strategies to identify, localize and correct malfunctions. Preventive maintenance of (electro) pneumatic and hydraulic components as well as safety issues within the system will be discussed. F, Sp Not part of a TN Transfer Pathway
    • 0.00 - 3.00 Credits

      This course is a study of basic digital logic and programmable logic controllers (PLCs) in a mechatronics system using the automation system. Topics covered will include basic PLC functions and testing; identification of malfunctioning PLCs; and troubleshooting techniques and strategies to identify and localize PLC hardware generated problems. Emphasis is on writing small programs and problem-solving using computer simulations. F, Sp An additional fee of $150 will be assessed with this course for the Siemens exam. Not part of a TN Transfer PathwayFormerly MECH 1040, 1500.
    • 0.00 - 3.00 Credits

      This course introduces the student to robotics and defines the uses in Industrial Manufacturing. Various topics cover robotic classifications, applications, work-cell layout, and software packages for programming various manufacturer's robots. Included is an overview of the I/O and sensor interfacing used with the robotic controller. Students gain operating and troubleshooting experience, plus experience in programming an industrial robot for applications assemblies, parts feeding, index table control, conveyor integration and fault detection systems. F Not part of a TN Transfer Pathway.Formerly MECH 1050
    • 3.00 Credits

      This is a lab-based course that uses a hands-on approach to introduce the basic concepts of robotics, focusing on the construction and programming of autonomous mobile robots. Students will first learn the basic principles of mechanical construction, electronics, sensors, motors and robot programming. Students will work in groups to build and test increasingly more complex mobile robots, culminating in an end-of-semester robot project. (Prerequisites: Completion of any Learning Support requirements). Not part of a TN Transfer Pathway.Formerly MECH 1150