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2022-2023 Catalog [ARCHIVED CATALOG]

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ADMF 122 - Industrial Electrical II

PREREQUISITES/COREQUISITE: INDT 113 - Industrial Electrical I .

PROGRAM: Advanced Automation and Robotics Technology
CREDIT HOURS MIN: 3
LECTURE HOURS MIN: 2
LAB HOURS MIN: 2
DATE OF LAST REVISION: Fall 2020

This course covers the basics of electrical components in a complex mechatronic system including robotic automation. Based upon a physical system, students will learn the basic functions and physical properties of electrical components, and the roles they play within the system. Technical documentation such as data sheets, schematics, timing diagrams, robotic programs and system specifications will also be covered. By understanding the complete system, the flow of energy through the system and measurements on the components, students will learn and apply troubleshooting strategies to identify, localize and (where possible) to correct malfunctions. Preventive maintenance and safety issues for electrical components within the system will be discussed.

MAJOR COURSE LEARNING OBJECTIVES: Upon successful completion of this course the student will be expected to:

  1. Understand the hazards of electromechanical equipment and apply safe working practices. [c]
  2. Describe the basic functions and design of a robotic mechatronic system. [f]
  3. Apply basic knowledge of robot physics in a mechatronics system. [b,e]
  4. Explain the role of various electrical components within a robotic mechatronic system. [f]
  5. Trace and describe the flow of energy and information in a robotic mechatronic system. [f]
  6. Describe the basic physical properties of electrical components. [f]
  7. Read, analyze and utilize the technical documents such as data sheets, timing diagrams, operational manuals, schematics, etc. for a mechatronic system. [f]
  8. Carry out measurements and adjustments on electrical components/circuits in a mechatronic system. [f]
  9. Localize, identify, document and correct (where possible) malfunctions in electrical circuits, based upon the technical documentation. [b,e]
  10. Transfer the knowledge learned from one system to another system. [b,e]
  11. Effectively use current and emerging computer technologies when applicable. [b,e]
  12. Demonstrate ability to read and interpret technical documents. [b,e]
  13. Demonstrate ability to use various types of software applicable to course. [a]

Note: Letters following objectives correspond to ATMAE Outcomes

COURSE CONTENT: Topical areas of study include -  

  • Wires and cables
  • Schematic Diagrams
  • Schematic Symbols
  • Multimeters
  • DC Power Supplies
  • Potentiometers
  • Switches
  • Relays
  • Indicators
  • Fuses
  • Circuit Breakers
  • Reed Switches
  • Photoelectric Sensors
  • Inductive
  • Sensors Capacitive Sensors

 
GRADING POLICY

A 90-100
B 80-89
C 70-79
D 60-69
F 0-59

 
Course Addendum - Syllabus (Click to expand)  


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