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Course Criteria
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3.00 Credits
Development of the ability to define and design "smart"microcomputer-based instruments. Digital circuitry which augments the capabilities of a microcomputer is discussed. Designing for maintainability is emphasized. Prerequisite: EENG 370. (Offered regularly, but not every semester.)
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3.00 Credits
Introduction to optics and optical systems as applied to modern engineering problems. Fiber optics design consideration. Fiber materials and characterization. Lasers and LED's. Avalanche and PIN detectors, noise analysis. Receiver-transmitter design and performance. Transmission system budget analysis. State-of- the-art design for space satellite communication. Prerequisites: EENG 310, EENG 382, EENG 390.
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3.00 Credits
Optical fibers, rays and beams, optical resonators. Interaction of radiation and molecular systems, laser amplification and oscillation. Harmonic generation, modulation noise, detection. Laser applications. (Offered regularly, but not every semester.) Prerequisite: EENG 390.
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3.00 Credits
Introductory topics in fiber optics communication. Evolution of fiber types. Guiding, dispersive and nonlinear properties of fibers; numerical aperture, attenuation, modal properties for multi- and single-mode fibers and bandwidth characteristics. Fiber design considerations. Optical sources-laser and LED's, optical detectors-PIN and avalanche diodes. Transmitter system configuration, analysis and design. Receiver analysis and design, receiver performance. A total optical communication link design. Concepts and designs are reinforced through laboratory experiments. Prerequisites: EENG 390 or equivalent; Corequisite: EENG 450.
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3.00 Credits
Transmission lines, closed microwave wave- guides, passive components, s parameters. Microwave tubes and solid state devices. Microstrip and microwave integrated circuits. (Offered regularly, but not every semester.) Prerequisite: EENG 390.
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3.00 Credits
Radiation resistance, power density, radiated power. Input impedance of antennas and antenna current. Dipole antennas and vertical wires. Quarter-wavelength and half-wavelength antennas. Arrays of radiators. Parabolic reflectors and horns. (Offered regularly, but not every semester.) Prerequisite: EENG 390.
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3.00 Credits
Introduction to communication networks, layered network architecture models (OSI, SNA), Datalink, network and transport layers. Routing and flow control. LANs and ISDN. Prerequisite: EENG 382.
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3.00 Credits
Introduction to stochastic processes, narrowband noise, AM, coherent DSB and SSB, FM superheterodyne receiver, and their performance in noise. Prerequisite: EENG 382 and EENG 401.
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3.00 Credits
Circuit design using VLSIs will be covered using basic CMOS and NMOS circuit structures, design rules, and speed-time tradeoffs. Introduction to computer-aided design tools and design projects using top-down design methods and bottomup circuit construction design. The testability of design is emphasized. Prerequisite: EENG 310.
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3.00 Credits
Models of digital communication systems, concepts of mutual information and channel capacity, PCM, simple digital modulation techniques (ASK, FSK, PSK, DPSK), coherent detection of binary signals in noise and the matched filter. Prerequisite: EENG 382 and EENG 401.
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