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Course Criteria
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2.00 Credits
Similar to ENR 271, except that the student's time commitment to the project will be approximately 70-90 hours.
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3.00 Credits
Similar to ENR 271, except that the student's time commitment to the project will be approximately 105-135 hours.
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0.00 - 4.00 Credits
In this course, students learn to analyze DC and AC passive circuits using Ohm's Law, Kirchhoff's laws and Superposition. RC and RL circuits are analyzed for impedance and phase angles. Troubleshooting, analysis by computer simulation using simulation software and telecommunication applications are stressed throughout. Note: Students must register for both a lecture and a lab. 3 Lecture, 3 Lab, 4 Credit Hours. Prerequisites: MAT 129 and CIS 109.
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0.00 - 4.00 Credits
In this course, students are taught the characteristics of amplifiers using operational amplifiers with respect to amplification, dB, frequency response, and input and output impedance. Operational amplifier applications such as inverting and non-inverting amps, summing amps, averaging amps and comparators are introduced with emphasis on the uses of these devices in the telecom industry. Electro-optical devices, such as LEDs, laser diodes and photodiodes are studied and will include uses in the telecom industry. Diodes and transistors are conceptually introduced. Transformers are introduced in connection with power supplies. Diodes are applied as switches in linear and switching power supplies. The frequency response of passive networks and amplifiers is measured. Cutoff frequencies, rolloff, bandwidth, and magnitude and phase are discussed and visualized via Bode plots. Troubleshooting and analysis by computer simulation software is stressed throughout the course. Note: Students must register for both a lecture and a lab. 2 Lecture, 4 Lab, 4 Credit Hours. Prerequisites: ENT 108, PHY 131.
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0.00 - 1.00 Credits
This course provides an introduction to the field of engineering drawing and sketching. Topics include 3-dimensional sketching, orthographic projection, sectioning, isometric presentation, dimensioning and labeling. The student will be introduced to specifications, schematic drawings and the machine shop processes. Assignments will be completed using hand sketching and Computer Assisted Drafting. Note: Students must register for both a lecture and a lab. 1 Lecture, 1 Lab, 1 Credit Hour.
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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 active filters, oscillators, amplitude modulation, frequency modulation, phase locked loops, pulse modulation concepts and introduction to television. Theoretical and hands-on troubleshooting of test circuits, and analysis by computer simulation is stressed throughout the course. Note: Students must register for both a lecture and a lab. 2 Lecture, 4 Lab, 4 Credit Hours. Prerequisite: ENT 110.
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1.00 Credits
A special learning experience designed by one or more students with the cooperation and approval of a faculty member. Proposed study plans require departmental approval. Projects may be based on reading, research, community service, work experience, or other activities that advance the student's knowledge and competence in the field of engineering technologies or related areas. The student's time commitment to the project will be approximately 35-50 hours.
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2.00 Credits
Similar to ENT 271, except that the student's time commitment to the project will be approximately 70-90 hours.
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3.00 Credits
Similar to ENT 271, except that the student's time commitment to the project will be approximately 105-135 hours.
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0.00 Credits
No course description available.
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