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Course Criteria
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4.00 Credits
Signal parameters of Class A and Class B small signal and power amplifiers are analyzed in this course. Topics covered include: BJT, JFET, and MOSFET transistors, operational amplifiers, cascade, Darlington, and cascode amplifiers, decibels, Q point stability, voltage feedback, AC loadlines, efficiency, heat sink requirements and frequency response. Micro-Cap software is used to simulate amplifier operating conditions and frequency response. Formal report writing is part of the laboratory requirement. Prerequisite(s): EET 113, EET 117 Corequisites: EET 110, MTH 130 (3,2) 4 credits Fall
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4.00 Credits
Analysis and design of combinational and sequential logic circuits. SSI and MSI circuits; flip-flops, counters, and shift registers; integrated circuit families; multiplexers; semiconductor memory devices; D/A and A/D converters. The associated laboratory reinforces the topics covered in the theory through relevant experiments performed by the student. A formal report is part of the laboratory requirement. Prerequisite(s): EET 105, EET 117 (3,2) 4 credits Fall
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4.00 Credits
An introduction to communications signals and circuits. Topics include: tuned amplifiers, simple audio and radio frequency oscillators, interpretation and application of Fourier Series, mathematics of amplitude, frequency, and phase modulation, single sideband suppressed carrier techniques, basic transmitter circuitry, super-heterodyne receiver for various communication modes. The course concludes with multiplexing as applied to F-M Stereo and an introduction to digital communications concepts on a time permitting basis. Formal Report writing is part of the Laboratory requirement. Prerequisite(s): EET 222 (3,3) 4 credits Spring
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3.00 Credits
Differential amplifier analysis and operational amplifier configurations. Differential and common mode operation, CMRR and non-ideal opamp characteristics. Frequency characteristics and effects on Op Amp operating parameters. Industrial IC's and manufacturers' specifications.Selected OpAmp applications. Formal report writing is part of the laboratory requirement. Prerequisite(s): EET 117 (2,3) 3 credits Spring
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3.00 Credits
Fundamental microprocessor concepts; architecture theory of operation, circuitry, programming, signals, timing and I/O interfacing. Laboratory work on 8085 microprocessor trainers as well as 8085 assembler and simulator. The student will be required to interface input and output devices to the micro-processor and to quantify the associated hardware/ software tradeoffs. Prerequisite(s): EET 223 (2,3) 3 credits Spring, Summer
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3.00 - 4.00 Credits
A calculus based network analysis course that introduces the use of Laplace transforms in the analysis of both active and passive lumped parameter time-invariant linear networks. Topics covered include Mesh and Nodal analysis using matrix formulations; the network theorems; impedance and the modeling of initial conditions; transfer functions; poles and zeros; impulse and step response; system stability and time domain response. The sinusoidal steady state (AC) Phasor transformation and its relation to the Laplace transform, power in AC networks, and the frequency response of networks are also included. The laboratory utilizes MS-DOS based computer software for both time domain and frequency domain analysis and simulation of electric networks. Corequisite: MTH 236 and Junior Status (3,2) 4 credits Fall
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4.00 Credits
Introduction to digital design using FPGAs (Field Programmable Gate Arrays). The FPGA circuits are designed using the schematic software and the Boolean Algebra entry software ABEL. The target chips are Zilinx FPGAs and the Xilinx software is used to "place and route" the design.Designs are then tested using a special test board and Xchecker cable. PAL (Programmable Array Logic) and GAL (Genetic Array Logic) designed is also covered. Prerequisite(s): EET 223 (3,3) 4 credits Fall
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4.00 Credits
Selected topics involving Difference and Instrumentation amplifiers with Transducer Bridge applications. Linear and Switching mode regulated power supply operation with analysis and design techniques using existing industrial IC's Thyristor characteristics with SCR, DIAC and TRIAC applications in power control circuits. Theory concepts are illustrated in the Laboratory. Formal report writing is part of the laboratory requirement. Prerequisite(s): EET 228 (3,2) 4 credits Fall
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4.00 Credits
A course on the use of programmable instrumentation for automated testing, and the use of computers to process data and signals. Topics covered include the IEEE-488 interface and its application in automated testing; the use of computers to process data; Fourier Series, and Fourier transforms, and signal spectra; the sampling theorem; the discrete Fourier transform; the Fast Fourier Transform; applications. The laboratory assignments are an integral part of the course and require considerable programming in the C language. Both formal and informal laboratory reports are required. Prerequisite(s): EET 311, MTH 236 (3,3) 4 credits Spring
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4.00 Credits
Introduction to transmission lines. Transient response for conditions of matched and mismatched terminations. Definition of reflection and transmission coefficients. Sinusoidal signals, standing wave ratio, and use of the smith chart. Impedance matching, S parameters and power measurement Introduction to antennas. Radiation pattern and impedance of simple dipole antenna. Electric field and power density. Definition of Isotropic antenna as reference for gain calculation. Formal Report writing is required for the course Prerequisite(s): EET 422, EET 225 (3,2) 4 credits Fall
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