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Course Criteria
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0.00 - 3.00 Credits
A study of steady state response of circuits containing resistive, capacitive and inductive elements subject to sinusoidal excitation. Topics include sinusoidal characteristics, impedance, phasors, ac power, an introduction to 3-phase ac, single-source AC circuit analysis and resonance. Note: Students must register for both a lecture and a lab. 2 Lecture, 2 Lab, 3 Credit Hours. Prerequisites: ELT 105 and MAT 184, each with a grade of C or better.
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0.00 - 3.00 Credits
This course is a study of computer programming for both PC-based and microcontroller applications. Topics include common programming structures such as decisions, repetition, arrays and data files. Note: Students must register for both a lecture and a lab. 2 Lecture, 2 Lab, 3 Credit Hours. Co-requisite: ELT 105 or departmental permission.
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0.00 - 3.00 Credits
This course is a study of active devices and their application in typical circuits. The devices studied are semiconductor diode, bipolar junction transistor and field effect transistor. Typical applications studied are rectifier power supplies and linear amplifiers. Note: Students must register for both a lecture and a lab. 2 Lecture, 2 Lab, 3 Credit Hours. Prerequisite: ELT 105 with a grade of C or better. Co-requisite: ELT 106.
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0.00 - 3.00 Credits
An introductory course in the building, analysis, and testing of digital electronic circuits used in both computing and control system applications. Topics include binary numbers, binary codes, Boolean algebra, combinational logic, and sequential logic. Use of metering tools, such as the oscilloscope and trouble shooting skills are a priority throughout the course. Note: Students must register for both a lecture and a lab. 1 Lecture, 2 Lab, 2 Credit Hours. Prerequisite: MAT 100 with a grade of C or better or equivalent math proficiency.
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0.00 - 4.00 Credits
Students practice the analysis and application of advanced electronic circuits as applied to the telecommunications industry. Topics include frequency response of filters, op-amps, oscillators, amplitude modulation, noise and LC circuits. Troubleshooting and analysis by computer simulation software is stressed throughout. Note: Students must register for both a lecture and a lab. 2 Lecture, 4 Lab, 4 Credit Hours. Pre-requisites: ENT 108 and PHY 141. Co-requisite: TEL 110.
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3.00 Credits
A course in the transmission and distribution of electrical energy, with a concentration on the components of residential, commercial, and industrial scale electric power systems. Topics include three-phase delta and wye configurations, motor circuits, transformers, distribution and overcurrent protection equipment, and power systems studies. Prerequisite:ELT106
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0.00 - 3.00 Credits
This course provides a detailed overview of semiconductor device fabrication. Topics include a review of semiconductor physics and device operations, device fabrication and various process modules. Process modules will focus on vacuum technology, silicon wafer, lithography, deposition, hot process, doping, etching and metallization. Challenges in process integration and device technology will also be discussed. Students are also required to participate in field trips. Note: Students must register for both a lecture and a lab. 2 Lecture, 2 Lab, 3 Credit Hours. Prerequisites: CHE 111 and ENT 102, or ELT 108
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0.00 - 3.00 Credits
This course is a study of electro-mechanical devices, including motors, relays, mechanical gears and linkages, pneumatic components, robotics and an introduction to microsystems. Note: Students must register for both a lecture and a lab. 2 Lecture, 2 Lab, 3 Credit Hours. Prerequisite: ELT 106 or permission of department.
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0.00 - 3.00 Credits
A study of the computer-based control systems found in a wide variety of industry applications, including their use in manufacturing processes. The course will include review of control system components, including sensors and relay logic, leading up to a complete study of microprocessor-based control systems. Note: Students must register for both a lecture and a lab. 2 Lecture, 2 Lab, 3 Credits. Prerequisite: ELT 213 with a grade of C or better.
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0.00 - 3.00 Credits
This course is designed to train students in the analysis and application of advanced electronic circuits. Topics include the DC and AC performance constraints of electronic circuits and the implications of those constraints, frequency response and Bode plots, basic electronic circuits using the operational amplifier such as amplifier circuits and comparators, active filter circuits, and oscillator circuits. Practical applications are stressed throughout such as analog-to-digital conversion, digital-to-analog conversion, process control, and modulation. Students will construct, test and troubleshoot circuits, and analyze circuits by computer simulation. Note: Students must register for both a lecture and a lab. 2 Lecture, 3 Lab, 3 Credit Hours. Prerequisite: ELT 108.
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