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Course Criteria
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3.00 Credits
Course is a con tinuation of EENT 210. The topics include power, resonance, filter and bode plots, pulse wave forms, polyphase systems, transformers, non-sinusoidal circuits, and an introduction to system analysis and differential equations with circuit analysis applications. Prerequisite: EENT 210.
Prerequisite:
Undergraduate level EENT 210 Minimum Grade of C
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3.00 Credits
Beginning at the sophomore year, a student may enroll in a work study program which permits alternate work and study periods.
Prerequisite:
Undergraduate level EENT 210 Minimum Grade of C
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3.00 Credits
Topics covered include tuned-circuits, filters, noise sources, and designation, RF feedback amps and oscillators; amplitude and frequency modulation and demodulation, AM and FM transmitter and receiver system theory, stereo FM, television, single-side band transmission and reception, and other forms of AM. Prerequisites: EENT 216, MATH 264.
Prerequisite:
Undergraduate level EENT 216 Minimum Grade of C or Undergraduate level MATH 264 Minimum Grade of C
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1.00 Credits
Presents selected lab experiments illustrating theory covered in EENT 310. Prerequisite: EENT 217
Prerequisite:
Undergraduate level EENT 217, EENT 310 Minimum Grade of C
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3.00 Credits
Presents a study of linear integrated circuits application including operational amplifiers, voltage regulators, differential amplifiers, and timer circuits. The OP AMP applications will include comparator, linear amplifier, active filters, and wave generators, the DC and AC performance and limitations of OP AMP, and Pspice applications. Prerequisites: EENT 216, MATH 264.
Prerequisite:
Undergraduate level EENT 216, MATH 264 Minimum Grade of C
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1.00 Credits
Presents selected lab experiments illustrating theory covered in EENT 314. Prerequisite: EENT 217. Co-requisite: EENT 314.
Prerequisite:
Undergraduate level EENT 217, EENT 314 Minimum Grade of C
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3.00 Credits
Presents an introduction to a balanced view of the inner world of the architectural technology of microprocessors and microprocessor support components, microcomputer systems development from the hardware and software aspects, design of memory and I/O devices interface with the CPU. I/O control control techniques, and data transfer techniques, are among the subjects of discussion covered in this course of study. Prerequisite: EENT 220.
Prerequisite:
Undergraduate level EENT 220 Minimum Grade of C
Corequisite:
EENT 317
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1.00 Credits
Presents selected lab experiments illustrating theory covered in EENT 316. Several projects are included to demonstrate microprocessor usage in the solution of real world problems. Prerequisite: EENT 221. Co-requisite: EENT 316.
Prerequisite:
Undergraduate level EENT 221, EENT 316 Minimum Grade of C
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3.00 Credits
Lecture and/or discussions on basics of physics of semiconductors. Topics emphasizing semiconductor process operations in the fabrication of integrated circuits will be covered. Student will become familiar with the terminology used in the semiconductor industry. Student will write a term paper on a specific process operation and make a power-point presentation. Prerequisite: EENT 216 and MATH 264.
Prerequisite:
Undergraduate level EENT 216, MATH 264 Minimum Grade of C
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3.00 Credits
Topics covered include the fundamentals of transformers and rotating machinery including both DC and AC machines. Prerequisite: EENT 210, MATH 264.
Prerequisite:
Undergraduate level EENT 210, MATH 264 Minimum Grade of C
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