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Course Criteria
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3.00 Credits
(2-3-3) Baseband digital systems; messages, characters and symbols; review of sampling theorems and discrete vs continuous signals; noise sources in digital communications system; M-ary signals; baseband formatting including PCM waveforms; digital filters, including FIR and IIR, raised cosine filters, matched filters; bandpass modulation and demodulation techniques; spectrum transmission. Prerequisite: EET 415.
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3.00 Credits
(1-6-3) Advanced topics in ASIC design: behavioral description languages, timing in digital design, design for testability, fault simulation. Field Programmable Logic Devices (FPGA). Simulation and prototyping of the senior project with FPGAs. Senior project report required. Prerequisite: EET 423.
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3.00 Credits
(0-9-3) A capstone course in telecommunications. Students will propose, design and construct/simulate a solution to some telecommunications problem or issue. The student will research vendor data books, application notes, articles and texts to support the design of a telecommunications related circuit, module, or system. A final paper will be written and presented to a faculty board. Prerequisites: EET 415, EET 425, EET 455.
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4.00 Credits
(3-3-4) An introduction to devices commonly used in opto-electronics. Devices and instruments studied include photodiodes, polarizers, retarders, filters, modulators, monochromators, integrating spheres and lock-in amplifiers. Prerequisite: EET 373.
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4.00 Credits
(3-3-4) Propogation of optical radiation through optical systems. UV and visible optical detectors including photovoltaic and photoconductive detectors, pyroelectric detectors, linear and area arrays. Noise in photo detectors. Post detection electronic amplifiers and filters. Prerequisites: EET 436, MATH 254N.
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3.00 Credits
(0-9-3) Completion of an integrated circuit design. Creation of an IC prototype in FPGA or/and a file for fabrication in silicon. Final report containing project documentation required. Prerequisite: EET 433.
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4.00 Credits
(3-3-4) Theory and practice of light propogation in optical fibers, light sources, types of optical fiber, optical detectors. Termination, coupling and splicing of optical fibers. Prerequisites: EET 436, MATH 254N.
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1.00 Credits
(0-3-1) A course designed to give the student additional capabilities with a variety of optics systems and instrumentation. Possible topics include large optics, optical arrays, Fresnel optics, interferometers, spectrometers, thin films and coatings, polarization. All topics to be investigated in a lab setting. Pre- or corequisite: EET 436
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3.00 Credits
(2-3-3) An introduction to Automated Test Engineering (ATE). Topics include: measurement techniques for ATE instruments, measurement errors, and software used to control automated instruments. The IEEE-488 bus is also discussed. Students will complete a group term project. Prerequisites: CST 116, EET 363, EET 373.
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3.00 Credits
(3-0-3) Use of register-transfer-language (RTL) notation to describe digital systems. Design of virtual machine, instruction set, random and microprogrammed control units for a typical digital computer. Design of a floating point coprocessor. Description of advanced architecture concepts, multiprocessors, cache memory, pipe-line virtual machines. Prerequisite: EET 364.
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