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Course Criteria
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3.00 Credits
Prerequisite: ELEC 1100 This course focuses on instrumentation and control system applications using a computer interface. Students investigate a variety of feedback sensors, signal condition in the response and then measure using Virtual Instrumentation modules created in LabVIEW. Students then apply these results to continuous and discrete control processes. (5 contact hours: 2 lecture, 3 lab)
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4.00 Credits
Prerequisite: ELEC 1310 (can be taken concurrently) This course introduces students to microcontroller hardware and software design and application concepts. Students will investigate fundamental microcontroller topologies, data acquisition techniques, digital and analog I/O interfacing, sensors, and structured programming techniques. (6 contact hours: 3 lecture, 3 lab)
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0.00 - 3.00 Credits
Prerequisite: ELEC 1200, MATH 1201 This course introduces control concepts of open loop, on/off, and analog closed loop control systems. System analysis consists of block diagram algebra, introductory Laplace Transforms, mathematical transfer function modeling of physical systems, frequency response, and transient response solutions. Students will implement system models using various electrical circuits and Op-Amp topologies. (5 contact hours: 2 lecture, 3 lab)
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3.00 Credits
Prerequisite: CPET 2100, ELEC 2400 This course concentrates on the practice, techniques, and theory behind building a mobile robotic system. Students will design, program, and build electronic and electro-mechanical microcontroller interfaces using either "C" or Assembly Language for the programming. (5 contact hours: 2 lecture, 3 lab)
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4.00 Credits
Prerequisite: ELEC 1200 or permission of instructor This course presents the theory and operation of AC/DC motors and generators and their application in open and closed loop control systems. Course material applies to all sizes of machines, from large motors used in industrial drive systems to small motors used in business machines and computer peripherals.(6 contact hours: 3 lecture, 3 lab)
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3.00 Credits
Prerequisite: ELEC 1100 or permission of instructor This specialized course is designed for students with residential or industrial wiring experience and a working knowledge of the National Electrical Code. It provides an in-depth study of the latest revisions to the National Electrical Code and a survey of other local and national electrical codes. It also includes coverage of safe wiring methods, which are required and must be followed in the design and installation of electrical systems for all types of buildings and construction. (3 contact hours)
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4.00 Credits
Prerequisite: ELEC 1100 or permission of instructor This course covers similarities between programmable controllers and relay logic. It includes PLC instructions with application, programming, installation, and troubleshooting techniques. Comprehensive labs use Allen-Bradley PLC-5 controllers and RSLogix-5 programming software to design and implement real world industrial automation applications starting with basic relay logic and progressing to advanced timer/counter applications, sequencer instructions, and data highway communications. (5 contact hours: 3 lecture, 2 lab)
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0.00 - 2.00 Credits
Prerequisite: ELEC 2821 This course builds on the knowledge obtained from ELEC 2821 Programmable Logic Controllers covering more advanced functions such as data acquisition, SCADA applications, High Speed Counting, Process instructions, ASCII instructions and Message instructions. It includes fundamental operator interface controls utilizing Rockwell Automation MicroLogix controllers and PanelView operator interfaces. The course also discusses several industrial networks such as EtherNet/IP, Modbus. (4 contact hours: 1 lecture, 3 lab)
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8.00 Credits
Prerequisite: ELEC 2600 (can be taken concurrently), ITCS 2861; or permission of instructor This course serves as the capstone to the Robots and Autonomous Machines Certificate by providing students with practical experience that integrates previously studied skills and concepts. Students will work independently using previously mastered techniques from all prerequisite courses along with other current industry programming practices to research, design, develop, and implement an autonomous or semi-autonomous system. Topics include budgeting, project scheduling/monitoring/execution, and documentation of the finished project from both a systems and an end-user perspective. The course culminates in a formal presentation in which students will demonstrate both the project and all associated documentation. Students will also utilize effective design techniques studied in previous courses and use resources from previous courses as reference material. This course is cross listed as ELEC 2899 Robots and Autonomous Machines Capstone and ITCS 2899 Robots and Autonomous Machines Capstone. Students who have taken the course under the alternative course ID should not take this course. (8 contact hours: 2 lecture, 6 lab)
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3.00 Credits
This course provides students with an overview of the field of Emergency Management. It introduces students to the four phases of emergency management (mitigation, preparation, response, and recovery) along with the functions, organizations, and activities involved therein. (3 contact hours)
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