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Course Criteria
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0.00 - 3.00 Credits
1 Credit Laboratory experiments in the measurement of electronic device characteristics. Design of biasing networks, small signal amplifiers, and switching circuits. Corequisite: EE 302.
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0.00 - 3.00 Credits
3 Credits Study of the characteristics of operational amplifiers. Design of op amp circuits used in a variety of electronic signal conditioning applications. Analysis and design of popular analog-to-digital and digitalto- analog circuits and their system application and limitations. Further study of basic components found in instrumentation systems, such as sensors, signal conditioning circuitry, power supplies, A/D and D/A circuitry, and other special electronic devices. Final design project requires the design of a simple data acquisition system. Prerequisites: EE 300, EE 302.
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0.00 - 2.00 Credits
2 Credits Direct Current electricity; circuits, resistance, DC machinery. AC current; transformers, three-phase circuits, AC machinery, commercial applications, building codes.
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3.00 Credits
4 Credits Provides the first part of a comprehensive and rigorous study of avionics systems. A laboratory is provided to give the student the opportunity to gain hands-on experience. The course covers avionics systems from the basic physics of avionics to the latest technology. Prerequisites: EE 223, EE 224, MA 345, PS 250, PS 253.
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0.00 - 3.00 Credits
3 Credits This is an introductory course in communications and includes channels, networks, Shannon's law, random processes, modulation, and multiplexing. Transmitters and receivers are covered as an application of the theory introduced in this course. The Fourier transform is the major mathematical tool used in this course. The subjects are the basic foundation of both analog and digital communications, both wired and wireless.
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0.00 - 3.00 Credits
3 Credits Provides the second part of a comprehensive and rigorous study of avionics systems. This course includes practical laboratory examples. The course covers avionics systems from the basic physics of avionics to the latest technology. This course is a continuation of EE 307. Prerequisite: EE 307.
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0.00 - 3.00 Credits
3 Credits Study of digital computer organizations. Introduction to microcomputer systems using a current microprocessor. Assembly language programming techniques for microcomputers will be used to study digital computer operation. Input and output techniques, memory devices, RS 232, and other interfacing techniques will be studied. Hardware and software relationships will also be discussed. Prerequisites: EE 220 and experience in programming in a high-level language.
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0.00 - 3.00 Credits
1 Credit Hands-on experience with a microcomputer is provided through weekly experiments involving hardware and software techniques. Corequisite: EE 320.
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0.00 - 3.00 Credits
3 Credits This course provides the student with an overview of the engineering requirements for unmanned aerial vehicles. Included are the understanding of the mission requirements, such as surveillance, tactical, high altitude, long endurance, and armed. The basic fundamentals of machine control are reviewed and specific applications of those fundamentals to aerial vehicles. Methods of minimizing detection such as electromagnetic radiation, radar cross section, and acoustic noise generation. Particular attention is paid to design for reliability and security.
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0.00 - 3.00 Credits
3 Credits This course covers the unique problems associated with making measurements from aircraft and spacecraft. This includes problems associated with moving platforms including mechanical accelerations, high electrical noise environment, and unattended measuring. For physiological measurements particular emphasis is placed on safety and problems associated with very low level signals. Modern computer-driven data acquisition methods are discussed.
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