ARET2320 Industrial Electricity I Certificate Review

This course is a review course for PMMI's (The Association for Packaging Processing Technologies) Industrial Electricity I Certificate. This certificate covers basic safety practices for voltages up to 600 volts and knowledge of voltage, current and power in AC and DC circuits, circuit analysis of series and parallel loads, and basic understanding of resistors, capacitors, and inductors. It applies these fundamentals to simple applications that would be found in residential, light commercial and simple industrial use. Candidates should be able to interpret and troubleshoot circuits used for lighting, across the line 3 phase motor starting, and simple relay logic with devices such as control transformers, fuses & circuit breakers, pushbuttons & selector switches, pilot lights & alarm devices, solenoids, 3 phase motor starters, motor overloads, limit switches, and combinations of control relays to perform basic logic functions. Candidates should be familiar with simple wiring practices for using these devices and with component level troubleshooting of these devices. Upon the completion of this course and through a unique industry partnership with PMMI, students will be able to take the Industrial Electricity I test and have the opportunity to earn a nationally recognized certificate while at Hennepin Technical College. A basic knowledge of industrial electricity is needed to understand the basic operation of all type of commercial and industrial equipment and to gain further knowledge of more complex packaging machines and systems. This basic knowledge of industrial electricity would be expected of an entry level electrician working in facilities maintenance or assisting in the assembly, test, startup, troubleshooting, maintenance, repair or upgrade of basic packaging machinery modules. This course is aimed at entry level technicians who may be involved in the assembly, test, startup, troubleshooting, maintenance, repair or upgrade of basic packaging machinery modules. This is a review course and it is assumed the student has taken previous automation courses or has basic knowledge of the topics to be covered.

Credits

3

Prerequisite

ARET1175 or Instructor approval

Course Requirements and Evaluation

Refer to Course Syllabus for detailed information regarding the requirements and evaluation standards for this course. The Course Syllabus will be distributed the first week of the course.

Learning Outcomes

The following outcomes will be addressed in the course:
Explain Electricity and Electrical Circuits
Explain Voltage, Current and Resistance
Integrate power and circuit protection in series and parallel circuits
Apply electromagnetism, inductance and capacitance to packaging machinery
Characterize combination circuits (series/parallel)
Assess troubleshooting methods for use in basic circuits
Characterize transformers
Implement manual motor control and protection with 3-phase motors
Employ electrical control ladder logic in basic electrical wiring and construction
Assess safety in control component troubleshooting
Differentiate control relays and pilot devices

Text and References

A list of textbooks required for this course is available at the bookstore.

Course Scheduling

The scheduled hours of instruction include sixteen hours for each lecture credit, thirty two hours for each lab credit and forty hours for each credit of supervised occupational experience (SOE). Lecture credit may include formal or impromptu lectures, demonstrations or discussions with the entire class or with small groups or individuals. Refer to the Credit Details section of this course outline for the credit breakdown.

Accommodations Statement

Disability Services assists students with disabilities who need accommodations to access programs, services and college activities.  If this applies to you, please contact the DS Office on your campus to initiate the accommodations process. 
Brooklyn Park Campus - 763-488-2477
Eden Prairie Campus – 952-995-1544

Campus

Eden Prairie Campus 952-995-1300

Credit Details

lecture:

3