Direct Current Fundamentals
Basic principles of electricity and the laws and formulas used to solve electrical problems. Study includes the principles of magnetism and their relationship to direct current generators and motors and other electrical machinery. Laboratory work includes connecting equipment and instruments. 5 Credits (4 Lecture - 3 Lab) Prerequisite(s): MTH005 or Placement by Examination. Fall Only.
Principles of accident prevention in industry. Electrical safety procedures in all human activities; lifesaving techniques. 2 Credits (2 Lecture)
Construction Lab I - Residential
Introduction to residential wiring, plans, specifications, and codes. Theory and lab assignments covering procedures for wiring basic lighting and receptacle circuits, installing special purpose circuits and switching circuits, and producing accurate wiring diagrams. Blueprint reading and the understanding and utilization of the National Electrical Code (NEC) are strongly emphasized in the course. 5 Credits (3 Lecture - 6 Lab) Corequisite(s): ELT111 or RET111. Fall Only.
Data Cabling and Network Basics
Principles of cabling related to data, voice, and RF as well as the associated connections and terminations. Study includes the concepts of cabling and its worldwide standards as applied to residential and commercial applications. Practical laboratory work covers structured wiring, including design, installation, testing, and troubleshooting of cable and category-rated (e.g., CAT5 and video) devices. 1 Credit ( .50 Lecture - 1.50 Lab) Prerequisite(s): ELT111 and ELT122 or ELT117 and ELT122 or ELT111 and ELT126 or ELT117 and ELT126.
Construction Lab II-Commercial
Theory and laboratory assignments in commercial wiring, blueprint reading, and N.E.C. as it applies to commercial circuits. Students will plan, layout, and install circuits and devices used in commercial buildings. 5 Credits (3 Lecture - 6 Lab) Prerequisite(s): ELT116. Spring Only.
Alternating Current Fundamentals
Fundamental principles of the behavior and flow of alternating current electricity. Includes problem solving current, voltage, impedance, reactance and power factor in series and parallel circuits. Familiarization with the above principles help to form a better understanding of the operating principles of AC motors, generators, and control equipment. 5 Credits (4 Lecture - 3 Lab) Prerequisite(s): ELT111. Corequisite(s): MTH180. Spring Only.
Applied Alternating Current Fundamentals
Alternating current electricity as it relates to residential, commercial, and industrial power use. Laws and formulas used to solve problems in the use of AC electrical principles. Practical experiences in the use of equipment and instruments. 3 Credits (2 Lecture - 3 Lab) Prerequisite(s): ELT111 and MTH124 or MTH124 and RET111. Spring Only.
Electrical Drawing and Print Reading
An introduction to preparation and interpretation of residential and commercial electrical drawings, diagrams, and schematics. Provides an introduction to computer aided drawing, orthographic projection, and sectional views. Included is the interpretation of construction drawings, symbols, wiring diagrams, schedules, notation, technical information, and specifications used on drawings. (Formerly ELT128) 2 Credits (1 Lecture - 3 Lab)
Introduction to Computer Drawing Basics/ Electrical
Techniques used in developing industry-recognized drawings, schematics, equipment layout illustrations, and sensing point locations. Skills developed include computer drawing basics using various software applications. Focus on awareness of and compliance with industry standards and the National Electrical Code. Course work includes lecture, practice, and presentation of computer generated drawings. 3 Credits (2 Lecture - 3 Lab) Prerequisite(s): ELT128. As needed.
Process Control Basics
Study of process control systems and the related theories that govern the use of electronic intelligence to control a physical process. Topics cover electronic intelligence theory as it applies to microcontrollers and basic language programming as well as the elements of the physical process, including the electronic components such as diodes, transistors, thyristors, LEDs, optical switches, and operational amplifiers. Electro/Mechanical component theory includes motors, switches and relays. 3 Credits (2 Lecture - 3 Lab) Prerequisite(s): ELT122 or RET122 or ELT129. Spring Only.
Electrical Motor Control
Introduction to the design and development of relay logic diagrams for use in the installation, operation, and maintenance of relay motor control systems for industry. 4 Credits (3 Lecture - 3 Lab) Prerequisite(s): ELT111 and ELT116 and ELT122 or DSM116 and ELT111 and ELT122 or RET111 and RET117 and RET122 or ELT116 and ELT129 and RET111. Fall Only.
Fundamentals of electronic devices, analog and digital circuits, and troubleshooting solid-state I/O control circuits. Practical laboratory work with prewired analog and digital circuits. 6 Credits (4 Lecture - 6 Lab) Prerequisite(s): ELT122. Fall Only.
Construction Lab III - Industrial
Introduction to industrial wiring, blueprint reading, and the N.E.C. Theory and lab assignments in bus systems, unit substations, panelboards, subfeeders, conduit, and special equipment. 4 Credits (2 Lecture - 6 Lab) Prerequisite(s): ELT120.
Fundamentals of Electronics for BBT
Basic electronics study designed to meet the needs of HVAC and transfer students that lack the background needed to complete the Building Automation Technology (BBT) major. Topics include a review of basic electronic test instruments as well as an introduction to semiconductor devices and their use in control systems such as Direct Digital Controls. 5 Credits (4 Lecture - 3 Lab) Prerequisite(s): ELT252.
Construction Lab IV-Practical Experience
Practice in the installation of rigid conduit and other electrical wire ways. Pulling in and wiring motor controllers and other electrical equipment. Study of blueprints for large electrical construction jobs. 3 Credits (0 Lecture - 9 Lab) Prerequisite(s): ELT120.
Advanced Electrical Theory
Solution of network problems. Problems involving Kirchoff's Laws; Mesh and Nodal Analysis; Thevenin's and Norton's Theorems; Voltage and Current Division. Problem sets using second and third order determinants using phasors. 3 Credits (3 Lecture) Prerequisite(s): ELT122 and MTH180. Spring Only.
Introduction to Programmable Logic Control
Introductory course in the understanding, programming and operation of programmable logic control and the utilization of such controls as an aid to effective production and quality control processes for production line industrial control systems. Practical application includes the programming and changes of operational programs and generated control commands which provides a complete system for efficient high speed production requirements. 4 Credits (3 Lecture - 3 Lab) Prerequisite(s): ELT234. Spring Only.
Electrical Machinery Analysis
Theory and laboratory instruction in the use and operation of electrical machinery and transformers, meters and metering methods used with this equipment, and troubleshooting procedures using schematic diagrams. 3 Credits (2 Lecture - 3 Lab) Prerequisite(s): ELT126 or ELT122 or ELT129. Spring Only.
Electrical Systems Analysis
Lecture and laboratory instruction to provide a comprehensive program through laboratory experiments and report writing to master the principle and operation of machines and devices that generate, transform and use electrical power. 3 Credits (2 Lecture - 3 Lab) Prerequisite(s): ELT122. Spring Only.
Programmable Logic Control Input/Output Devices
Study providing a foundation in industrial automation and control (input/output devices). Specific product experience with high end I/O devices includes, but is not limited to, the design and use of sensors, final control elements, recorders, operator interfaces, and electronic controllers. Study includes the principals, methods, and rationale for combining remote sensing and actuation with modern communication techniques to effectively monitor and control industrial processes. Automatic timing, control, and communications offer a challenging and accelerated opportunity that prepare the student for the needs of industry. The concept of front end engineering is explored. 4 Credits (3 Lecture - 3 Lab) Prerequisite(s): ELT234 and ELT235. Corequisite(s): ELT245. Spring Only.
Study of the basics of AC and DC circuits, the use of electrical meters, reading electrical diagrams, electrical distribution systems in residential and commercial buildings and the installation of electrical equipment. Sections of the National Electrical Code are also studied. Hands-on work is carried out in the lab portion of the course. 5 Credits (3 Lecture - 6 Lab)
HVAC Controls I-Residential
Installation and operation of residential line and low voltage controls used to control warm air heating, air conditioning, and heat pump applications. Solid state residential control systems are also covered. 4 Credits (3 Lecture - 3 Lab) Prerequisite(s): ELT250.
HVAC Controls II-Commercial
Basic control theory and control terms, hydronic heat control, electrical control systems, including economizer control reset, and proportional control. Also covered are introductory pneumatic control and electronic and direct digital control of single zone systems. 4 Credits (3 Lecture - 3 Lab) Prerequisite(s): ELT252.
Power Generation System Controls
Intensive instruction in troubleshooting, schematic diagram reading, servicing and repair of power generation system controls. Course work focuses on generator operation, paralleling and the role that switch gear and governors play in power generation systems. Discussion also covers specialized devices such as reverse power relays, volt-amp reactive (VAR) power factor controllers, and other circuit protection controls. 3 Credits (2 Lecture - 3 Lab) Prerequisite(s): ELT122.
Industrial Electrical Sytems
An overview of electrical systems common to industrial settings. Topics covered include single and three-phase voltage systems, electrical controls, basic ladder logic and programmable logic control systems. Course will stress how to select electrical equipment based on available power and equipment specifications. 3 Credits (3 Lecture)