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Course Criteria
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1.00 Credits
Laboratory, 3 hrs. Laboratory work to accompany ES 230/PHYS 230. Computerassisted design of analog and digital circuits. Diodes, filters, transistors, oscillator, amplifiers, analog-to-digital and digital-to-analog conversion, combinational and sequential logic, programmable logic devices. Prerequisite: same as ES 230/PHYS 230. Must be taken concurrently with ES 230/PHYS 230. (Cross-listed with PHYS 231). Page 180 Engineering Science Sonoma State University 2006-2008 Catalog
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4.00 Credits
Lecture, 3 hrs.; laboratory, 3 hrs. Hardware architecture of a microprocessor and its programming and instruction design; memory hierarchy and I/O interfaces; comparison of various microprocessor architectures and capabilities; system design using microprocessors. Laboratory work. Prerequisites: ES 210 and ES 230; or consent of instructor.
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3.00 Credits
Lecture, 2 hrs.; laboratory, 3 hrs. Analysis and design of high frequency amplifiers; high frequency models of transistors; operational amplifiers and applications; feedback amplifiers; oscillators, modulators, bandpass amplifiers, and demodulators for communications. Laboratory work. Prerequisite: ES 230 or consent of instructor.
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3.00 Credits
Lecture, 3 hrs. Correlation, convolution, Fourier, Laplace and z-transform, difference equations, fast Fourier transforms, and state variable theory. Prerequisite: One semester of differential equations (such as MATH 241) or consent of instructor. (Cross-listed with MATH 430).
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3.00 Credits
Lecture, 3 hrs. Electrostatics; magnetostatics; electric currents; electromagnetic induction; electric and magnetic fields in matter; Maxwell’s equations; retarded potentials; radiation reaction; light emission; simple scattering and antenna theory; properties of waveguides; relativistic formulation of electrodynamics; Fourier decomposition of fields. Prerequisites: PHYS 214, PHYS 325 or Math 241.
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3.00 Credits
Lecture, 3 hrs. Semiconductor materials, crystal structure and growth; energy bands and charge carriers, conductivity and mobility; metal-semiconductor and p-n junctions; p-n junction diodes, bipolar junction transistors, field-effect transistors, CCD’s, photonic devices, and integrated circuits. Projects in photolithography; conductivity and contact resistance measurements; I-V and C-V characteristics of diodes; characterization of transistors may be assigned. Prerequisite: PHSY 314 or consent of instructor.
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3.00 Credits
Lecture, 2 hrs.; laboratory, 3 hrs. Mathematical modeling of signals; time and frequency domain concepts; spectral density; components of a communications system; analog signal transmission. AM, FM and PM modulation and demodulation techniques; noise and bandwidth; link analysis. Laboratory work. Prerequisite: ES 230; Corequisite: ES 400; or consent of instructor.
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3.00 Credits
Lecture, 2 hrs.; laboratory, 3 hrs. Digital signals and their transmission; PCM, log-PCM, ADPCM, and DM and other low bit rate coders. Digital data transmission; data encoding; clock recovery and BER; data modulation techniques; ASK, FSK, PSK, and QAM. Link budgets for satellite, cellular, and cable systems; the effects of noise and bandwidth. Laboratory work. Prerequisite: ES 440 or consent of the instructor.
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3.00 Credits
Lecture: 3 hrs; laboratory: 0 hrs. Principles of light wave propagation, and propagation in an optical fiber; fiber characteristics; O/E and E/O conversions; coupling; WDM; modulation techniques for efficient information transmission; system design. Prerequisite: ES 441 or consent of the instructor.
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3.00 Credits
Lecture, 3 hrs. Gaussian beams; guided-wave optics; fiber optics; optical resonators; resonant cavities; laser oscillation and amplification; laser excitation; optical pumping; solid state, gas, dye, chemical, excimer and free electron lasers; semiconductor lasers; laser spectroscopy; fiber optic communication; photomultiplier and semiconductor radiation detectors including photoconductors, junction photodiodes; p-I-in diodes, avalanche photodiodes; detector noise. Prerequisite: PHYS 314 or consent of instructor.
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