Nov 21, 2024  
2024-2025 Catalog 
    
2024-2025 Catalog

ADMF 222 - Fluid Power II


PREREQUISITES/COREQUISITE: INDT 104 - Fluid Power 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 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 (where possible) to correct malfunctions. Preventive maintenance of (electro) pneumatic and hydraulic components as well as safety issues 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. Understand what a mechatronic system is, and the inter relationships of components and modules within a complex mechatronic system with a focus on (electro) pneumatic and hydraulic control systems. [b,e]
  3. Understand the role of (electro) pneumatic and hydraulic control systems in complex mechatronic systems and subsystems. [b,e]
  4. Understand troubleshooting, maintenance and safety issues revolving around (electro) pneumatic and hydraulic circuits within a mechatronic system. [b,e]
  5. Explain the role of various pneumatic / hydraulic components within a system or module and trace and describe the flow of energy in a given system or module. [f]
  6. Describe the basic physical properties of pneumatic/hydraulic components in a system and carry out measurements and adjustments on pneumatic / hydraulic components. [f]
  7. Read, analyze and utilize technical documents for the pneumatic/hydraulic control system. [f]
  8. Localize, identify, document and correct malfunctions in complex mechatronic systems. [f]
  9. Transfer the knowledge learned from one system to other systems. [b,e]
  10. Effectively use current and emerging computer technologies when applicable. [a]
  11. 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 -  

  • Signal Processing
  • Function Diagrams
  • Displacement Diagrams
  • Actuator Stroke
  • Actuator Speed
  • Circuit Symbols
  • Transmission lines
  • Pressure
  • Flow
  • Solenoids
  • Directional Control Valves
  • Circuit Design
  • Pneumatic Actuators
  • Air Generation
  • Air Distribution
  • Sequence Control
  • Electro pneumatic Circuits

 
GRADING POLICY

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

 
Course Addendum - Syllabus (Click to expand)