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Course Criteria
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4.00 Credits
Retired August 31, 2005; replaced by ETE 4301 in the School of Professional and Continuing Studies. Continues EET E201. Introduces RMS values of current and voltage, instantaneous and average power, complex power, reactive power, power factor, and delta and wye configurations of polyphase (three-phase) systems. Mutual inductance is revisited to explain the operation of the ideal transformer. The power triangle is used to relate real, reactive, and apparent power. Laplace transforms and their inverse along with the concept of the s domain are presented and applied to circuit solutions. Introduces solutions of networks using nonsinusoidal forcing functions using Fourier analysis. Continues computer-assisted solutions using simulation software.
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1.00 Credits
Retired August 31, 2005; replaced by ETE 4302 in the School of Professional and Continuing Studies. Accompanies EET E301. Covers topics from the course through various experiments.
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4.00 Credits
Retired August 31, 2005; replaced by ETE 4311 in the School of Professional and Continuing Studies. Reviews the theory of linear circuits and extends it to simple nonlinear circuits of both the two-terminal and the three-terminal variety. Considers the solid-state theory of the PN diode as an example of the two-terminal nonlinear device, and the NPN, PNP, and field effect devices as examples of the three-terminal nonlinear elements. Includes light-sensitive and heat-sensitive solid-state devices. Considers the problem of selecting an operating point for a nonlinear device, and the corresponding practical methods of providing the required biases. Introduces the small-signal linear model for the nonlinear device in the vicinity of the operating point. Discusses frequency response of such models including the Bode asymptotic approximation to frequency response. Also reviews Mason's signal flow graph concepts for determining transfer functions. Examines operational amplifiers, specifically their ideal behavior. Requires computer simulations.
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1.00 Credits
Accompanies EET E311. Covers topics from the course through various experiments.
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1.00 Credits
Accompanies EET E316. Covers topics from the course through various experiments.
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4.00 Credits
Retired August 31, 2005; replaced by ETE 4321 in the School of Professional and Continuing Studies. Introduces the basic elements of digital logic systems, starting with a complete discussion of numbering systems including decimal, binary, octal, and hexadecimal. Extends these concepts to the design of coding systems, such as binary, binary-coded decimal, Gray code, seven-segment displays, and multiplexers. Continues with Boolean algebra including applications of DeMorgan's theorems. Discusses the application of Boolean algebra to the solution of combinational logic circuit topologies. Examines the basic bistable memory storage element (flip-flops) and applies it to the concept of sequential circuits, such as ripple counters, synchronous counters, Johnson counters, ring counters, and shift registers. Includes an analysis and design perspective of both combinational and sequential circuits. Also examines the 555 timer. Emphasizes digital systems design using available microelectronic gates, primarily in the TTL series. Requires some computer simulation.
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1.00 Credits
Accompanies EET E321. Covers Topics from the course through various experiments.
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1.00 Credits
Retired August 31, 2005. Offers experimentation with nonlinear semiconductors. Explores junction and zener diodes. Studies typical applications in clippers, clampers, rectification, filtering, electronic power supplies, voltage regulation, and integrated circuit regulators. Discusses bipolar and field effect transistors, amplifiers and voltage-follower configurations, special semiconductors, and operational amplifiers.
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1.00 Credits
Retired August 31, 2005. Continues EET E224. Offers further experimentation in electrical circuits and measurement techniques. Involves the operation of oscilloscopes, audio frequency, and function generators. Explores inductance, capacitance, and the effect of frequency upon them. Studies measurements of amplitude, frequency, and phase shift using a variety of series/parallel RL, RC, and RLC circuitry. Examines circuit time constants and their relation to repetition rate, along with resonance, circuit quality, and filter circuits.
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4.00 Credits
Retired August 31, 2005; replaced by ETE 4326 in the School of Professional and Continuing Studies. Continues EET E321. Examines the physical devices used to realize digital circuits as a complement to the previous treatment of idealized mathematical models. Introduces the concepts of rise-time, fall-time, set-up time, hold-time, delay-time, and the maximum frequency of a clock. Discusses the presently available logic families, such as TTL, CMOS, and EC, and considers interconnection problems. Introduces memory elements and field-programmable logic elements. Presents interfacing devices such as analog-to-digital and digital-to-analog converters. Requires some computer simulation.
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