Control Circuits & CommercialWiring (EEL 1215)

Term: 2020-2021 Summer Semester

Faculty

Mr. Jason D. AldenShow MyInfo popup for Mr. Jason D. Alden
Office hours:
  • Monday 11:55 AM to 2:30 PM
  • Tuesday 11:55 AM to 2:30 PM
  • Wednesday 11:55 AM to 2:30 PM
  • Thursday 11:55 AM to 2:30 PM
  • Friday 11:55 AM to 2:30 PM
  •  
    Andy R. RainesShow MyInfo popup for Andy R. Raines
    [email protected]
    Office hours:
  • appointment only
  • Monday 12:30 PM to 2:00 PM
  • Monday 12:30 PM to 1:00 PM
  • Tuesday 12:30 PM to 2:00 PM
  • Tuesday 12:30 PM to 1:00 PM
  • Wednesday 12:30 PM to 2:00 PM
  • Thursday 12:30 PM to 2:00 PM
  • Thursday 12:30 PM to 1:00 PM
  • Friday 12:30 PM to 2:00 PM
  •  
    Mr. Roy Gillespie Jr.Show MyInfo popup for Mr. Roy Gillespie Jr.
    [email protected]
    Office hours:
  • Monday 12:00 PM to 2:00 PM
  • Tuesday 12:00 PM to 2:00 PM
  • Wednesday 12:00 PM to 2:00 PM
  • Thursday 12:00 PM to 2:00 PM
  • Friday 12:00 PM to 2:00 PM
  •  
    Stacy L. Hill-ScaifeShow MyInfo popup for Stacy L. Hill-Scaife
    Email address is hidden, click here to email
     
    Richard W ThompsonShow MyInfo popup for Richard W Thompson
    Email address is hidden, click here to email
     

    Schedule

    Mon-Tue-Wed-Thu-Fri, 8:05 AM - 2:25 PM (6/2/2021 - 8/17/2021) Location: MAIN LGBRG L102

    Description

    This course explores in depth the understanding through lecture and construction of various types of electromechanical relay logic control circuits as applied in both the commercial and industrial environment. The student will study ladder logic and component wiring design. The operations these circuits perform are also emphasized through lab exercises. Fundamental motor control is studied from its basic application through advanced instruction sets. Students will be involved in hard wiring motor control components using ladder logic into functional control circuits. Students will also learn a hands-on approach to maintaining and troubleshooting of various types of control circuits. Students will also focused on applying the National Electric Code (NEC) for sizing, grounding and over-current protection of single-phase and three-phase feeder circuits. Students will perform various calculations as required by the NEC. Transformer theory and commercial/industrial power distribution system

    Control Circuits & CommercialWiring (EEL 1215)

    Term: 2020-2021 Summer Semester

    Faculty

    Mr. Jason D. AldenShow MyInfo popup for Mr. Jason D. Alden
    Office hours:
  • Monday 11:55 AM to 2:30 PM
  •  
    Andy R. RainesShow MyInfo popup for Andy R. Raines
    [email protected]
    Office hours:
  • appointment only
  • Monday 12:30 PM to 2:00 PM
  • Monday 12:30 PM to 1:00 PM
  •  
    Mr. Roy Gillespie Jr.Show MyInfo popup for Mr. Roy Gillespie Jr.
    [email protected]
    Office hours:
  • Monday 12:00 PM to 2:00 PM
  •  
    Stacy L. Hill-ScaifeShow MyInfo popup for Stacy L. Hill-Scaife
    Email address is hidden, click here to email
     
    Richard W ThompsonShow MyInfo popup for Richard W Thompson
    Email address is hidden, click here to email
     

    Schedule

    Mon-Tue-Wed-Thu-Fri, 8:05 AM - 2:25 PM (6/2/2021 - 8/17/2021) Location: MAIN LGBRG L102

    Description

    This course explores in depth the understanding through lecture and construction of various types of electromechanical relay logic control circuits as applied in both the commercial and industrial environment. The student will study ladder logic and component wiring design. The operations these circuits perform are also emphasized through lab exercises. Fundamental motor control is studied from its basic application through advanced instruction sets. Students will be involved in hard wiring motor control components using ladder logic into functional control circuits. Students will also learn a hands-on approach to maintaining and troubleshooting of various types of control circuits. Students will also focused on applying the National Electric Code (NEC) for sizing, grounding and over-current protection of single-phase and three-phase feeder circuits. Students will perform various calculations as required by the NEC. Transformer theory and commercial/industrial power distribution system

    Control Circuits & CommercialWiring (EEL 1215)

    Term: 2020-2021 Summer Semester

    Faculty

    Mr. Jason D. AldenShow MyInfo popup for Mr. Jason D. Alden
    Office hours:
  • Monday 11:55 AM to 2:30 PM
  •  
    Andy R. RainesShow MyInfo popup for Andy R. Raines
    [email protected]
    Office hours:
  • appointment only
  • Monday 12:30 PM to 2:00 PM
  • Monday 12:30 PM to 1:00 PM
  •  
    Mr. Roy Gillespie Jr.Show MyInfo popup for Mr. Roy Gillespie Jr.
    [email protected]
    Office hours:
  • Monday 12:00 PM to 2:00 PM
  •  
    Stacy L. Hill-ScaifeShow MyInfo popup for Stacy L. Hill-Scaife
    Email address is hidden, click here to email
     
    Richard W ThompsonShow MyInfo popup for Richard W Thompson
    Email address is hidden, click here to email
     

    Schedule

    Mon-Tue-Wed-Thu-Fri, 8:05 AM - 2:25 PM (6/2/2021 - 8/17/2021) Location: MAIN LGBRG L102

    Description

    This course explores in depth the understanding through lecture and construction of various types of electromechanical relay logic control circuits as applied in both the commercial and industrial environment. The student will study ladder logic and component wiring design. The operations these circuits perform are also emphasized through lab exercises. Fundamental motor control is studied from its basic application through advanced instruction sets. Students will be involved in hard wiring motor control components using ladder logic into functional control circuits. Students will also learn a hands-on approach to maintaining and troubleshooting of various types of control circuits. Students will also focused on applying the National Electric Code (NEC) for sizing, grounding and over-current protection of single-phase and three-phase feeder circuits. Students will perform various calculations as required by the NEC. Transformer theory and commercial/industrial power distribution system