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Educational Leadership |
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EDL 696 - Advanced Topics in Educational Leadership Units: 1-3
Intensive study in specific areas of educational leadership. May be repeated with new content.
Note: See Class Schedule for specific content. Credit for 596 and 696 applicable to a master’s degree with approval of the graduate adviser.
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EDL 707 - Educational Law and Finance Units: 3
Prerequisite(s): Completion of a graduate degree and approval of department.
Legal and financial aspects of educational administration including implications for policy formulation in the areas of personnel, instruction, and resource management.
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EDL 720 - Human Resource Development in PreK-12 Educational Organizations Units: 3
Prerequisite(s): Completion of a graduate degree and approval of department.
Human resource management in preK-12 educational administration including selection and evaluation of staff, contract management, and staff development. Personnel managerial styles, staff leadership, and motivation techniques as to morale and productivity. Analysis of educational personnel systems and employee assistance programs.
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EDL 755 - Governance and Policy Development in PreK-12 Learning Organizations Units: 3
Prerequisite(s): Completion of a graduate degree and approval of department.
Development of preK-12 educational policy and impact of politics in governance and administration; control functions of federal, state, and local agencies; influence of lay citizens and special interest groups; roles of judiciary, employee organizations and students.
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EDL 760 - Practicum in PreK-12 Educational Organizations Units: 2-6
Grading Method: Cr/NC/RP
Prerequisite(s): Consent of instructor.
Internship for preK-12 educational administrators. Application to take this course must be made in the preceding semester by preregistration with the credential program coordinator. Released time may be required. May be repeated. Maximum Credits: 12 units applicable to the Professional Administrative Services Credential.
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EDL 798 - Special Study Units: 1-6
Grading Method: Cr/NC/RP
Prerequisite(s): Consent of staff; to be arranged with department chair and instructor.
May involve fieldwork. Individual study. Maximum Credits: six units applicable to a master’s degree.
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EDL 830 - Leadership for Learning Units: 3
Prerequisite(s): Admission to educational leadership doctoral program.
Models of curriculum, instruction, and school organization. The leader’s role and responsibility in developing evidence-based decision making cultures that promote student achievement.
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EDL 880 - Seminar in Topics in Educational Leadership Units: 3
Prerequisite(s): Admission to educational leadership doctoral program.
Topical issues in field of educational leadership that have broad implications for research and practice in educational leadership. Maximum Credits: six units applicable to Ed.D. in educational leadership.
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EDL 890 - Foundations of PK-12 Research and Evaluation I Units: 3
Grading Method: Letter (No Cr/NC)
Only offered at: SDSU San Diego
Prerequisite(s): Admission to Ed.D. Degree, PK-12 Concentration.
Foundational knowledge in research and program evaluation. Introduction to qualitative and quantitative methods, including their application to empirical research and program evaluation. Application of skills professionally and to an original research or program evaluation to fulfill doctoral program requirements.
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EDL 891 - Foundations of PK-12 Research and Evaluation II Units: 3
Grading Method: Letter (No Cr/NC)
Only offered at: SDSU San Diego
Prerequisite(s): EDL 890 .
Advanced exploration of research and program evaluation. Qualitative, quantitative, and program evaluation including mixed methods design. Methodology planning, instrument design, data analysis planning. Application of skills professionally and to an original research or program evaluation to fulfill doctoral program requirements.
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EDL 892 - Application of PK-12 Research and Evaluation Units: 3
Grading Method: Cr/NC (No Letter)
Only offered at: SDSU San Diego
Prerequisite(s): EDL 891 .
Continued exploration of research and program evaluation design. Qualitative, quantitative, and program evaluation including mixed methods design. Formulation of an initial research or program evaluation methodology to address a researchable problem or program evaluation.
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EDL 899 - Doctoral Dissertation Units: 1-15
Grading Method: Cr/NC/RP
Only offered at: SDSU Global Campus
Prerequisite(s): Advancement to candidacy and an officially constituted dissertation committee.
Preparation of the dissertation for the doctoral degree. Enrollment is required during the term in which the dissertation is approved. No unit credit allowed toward advanced degree.
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Electrical Engineering |
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E E 200 - Analytical Methods for Electrical Engineers Units: 3
Prerequisite(s): MATH 151 with a grade of C (2.0) or better.
Complex analysis, Laplace transform with electrical engineering applications, linear algebra, multivariable calculus, ordinary differential equations, and power series.
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E E 204 - Principles of Electrical Engineering Units: 3
Prerequisite(s): MATH 151 and PHYS 196 with a grade of C (2.0) or better in each course.
Circuit analysis, phasor diagrams, single-phase and three-phase power, semiconductor devices and applications, and energy conversion devices.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted. Not acceptable for electrical or computer engineering majors.
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E E 210 - Circuit Analysis I Units: 3
Prerequisite(s): MATH 151 and PHYS 196 with a grade of C (2.0) or better in each course.
Circuit analysis by reduction methods, Thevinin and Norton’s equivalence, mesh current and nodal voltage analysis. Transient analysis of first-order circuits and use of phasors for steady-state sinusoidal analysis. Operational amplifier models, impedance, power. Computer software tools for circuit analysis.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted.
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E E 296 - Experimental Topics Units: 1-4
Selected topics. May be repeated with new content.
Note: See Class Schedule for specific content. Limit of nine units of any combination of 296, 496, 596 courses applicable to a bachelor’s degree.
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E E 300 - Computational and Statistical Methods for Electrical Engineers Units: 3
Prerequisite(s): E E 210 with a grade of C (2.0) or better.
Random signals and events in electrical engineering. Introduction to basic probability, discrete and continuous random variables, joint random variables. Application of probabilistic models and concepts to engineering; data analysis and point estimation using computer-aided engineering tools.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted.
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E E 310 - Circuit Analysis II Units: 3
Prerequisite(s): E E 200 with a minimum grade of C- (1.7) and E E 210 with a grade of C (2.0) or better and either MATH 252 or MATH 254 .
Transient and frequency response of RLC circuits. Mutual inductance, network analysis using Laplace transformations, network functions, stability, convolution integrals, Bode diagrams, two-port networks, computer analysis of circuits.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted.
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E E 330 - Fundamentals of Engineering Electronics Units: 3
Prerequisite(s): E E 210 with a grade of C (2.0) or better.
Application of diodes JFETs, MOSFETs, and BJTs in typical electronic circuits. Analysis and design of rectifiers, filters, and simple amplifiers using transistors and operational amplifiers.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted.
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E E 330L - Engineering Electronics Laboratory Units: 1
Three hours of laboratory.
Prerequisite(s): Credit or concurrent registration in E E 330 with a grade of C- (1.7) or better.
Experimental study of laboratory instruments, diodes, rectifier circuits, filters, transistors, and operational amplifiers.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted.
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E E 340 - Electric and Magnetic Fields Units: 3
Prerequisite(s): E E 210 with a grade of C (2.0) or better. MATH 252 and E E 200 with a grade of C- (1.7) or better in each course.
Electrostatic and magnetostatic field theory using vector notation; Coulomb’s Law, Gauss’ Law and potential theory. Solutions to Poisson’s and Laplace’s equations; capacitance and inductance.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted.
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E E 380 - Electrical Energy Conversion Units: 3
Prerequisite(s): E E 210 with a grade of C (2.0) or better.
Magnetic circuits, transformers and polyphase AC networks. Fundamentals of electro-mechanical energy conversion; induction motors, synchronous machines and DC machines.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted.
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E E 380L - Electrical Energy Conversion Laboratory Units: 1
Three hours of laboratory.
Prerequisite(s): Credit or concurrent registration in E E 380 with a grade of C- (1.7) or better.
Experimental study of DC, single and polyphase AC circuits, transformers, and machines.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted.
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E E 397 - Discussion: Electrical Engineering Units: 1
Grading Method: Cr/NC
Prerequisite(s): Concurrent registration in associated course.
Discussion and examples of problem-solving techniques in subject area. Weekly writing assignments summarizing material covered in lecture and identifying troublesome topics.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted. Not applicable to a bachelor’s degree.
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E E 410 - Signals and Systems Units: 3
Prerequisite(s): E E 300 and E E 310 with a grade of C- (1.7) or better in each course. File an approved master plan with the Department of Electrical and Computer Engineering.
Linear time-invariant systems, Fourier analysis, continuous and discrete signals and systems, sampling and Laplace transform techniques.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted.
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E E 420 - Feedback Control Systems Units: 3
Prerequisite(s): E E 410 .
Control systems including servomechanisms by Laplace transform method. System performance and stability; Nyquist, Bode, and root-locus diagrams; elementary synthesis techniques. Practical components and examples of typical designs.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted.
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E E 420L - Control Systems Laboratory Units: 1
Three hours of laboratory.
Prerequisite(s): E E 420 .
Analog (op-amp based) and digital (microcontroller) implementation. Design of control systems to include lag, lead, optimal PID and LQR controller design, system identification. Use of sensors and actuators.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted.
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E E 430 - Analysis and Design of Electronic Circuits Units: 3
Prerequisite(s): E E 310 and E E 330 with a grade of C- (1.7) or better in each course.
Single and multiple transistor amplifiers, power stages. Frequency response, feedback, stability, and operational amplifier circuits.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted.
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E E 430L - Electronic Circuits Laboratory Units: 1
Three hours of laboratory.
Prerequisite(s): E E 330L and E E 430 .
Design and evaluation of active filters and tuned amplifiers, current mirrors, feedback circuits, single-stage and multistage amplifiers, voltage regulators. Advanced uses of laboratory test equipment.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted.
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E E 434 - Electronic Materials and Devices Units: 3
Prerequisite(s): E E 330 and E E 340 with a grade of C- (1.7) or better in each course.
Crystal properties and growth of semiconductors, quantum mechanics of solids, shot noise and thermal noise, energy band and charge carriers, excess carrier in semiconductors, p-n junctions, solar cells, tunnel diodes, photodetectors.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted.
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E E 439 - Instrumentation Circuits Units: 3
Prerequisite(s): Credit or concurrent registration in E E 430 .
Design and analysis of mixed signal, analog/digital, electronic systems. Emphasis on operational amplifier based circuit design with design procedures needed to accommodate amplifier limitations in real world applications. Introduction to digitally controlled, analog signal processing.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted.
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E E 440 - Electromagnetic Waves Units: 3
Prerequisite(s): E E 310 and E E 340 with a grade of C- (1.7) or better in each course.
Time-domain form of Maxwell equations, electromagnetic wave propagation in unbound media, Poynting vector, reflection of plane waves, transmission line theory, Smith chart, different microwave transmission lines, wave propagation in bounded media, waveguides, and introduction to antennas.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted.
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E E 450 - Digital Signal Processing Units: 3
Prerequisite(s): E E 410 .
Discrete-time signals and systems, Sampling, Z-transform, Discrete-time Fourier transform and frequency responses, DFT, FFT, and introduction to IIR and FIR digital filter design. Formerly numbered Electrical Engineering 556.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted.
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E E 455 - Antenna Theory and Design Units: 3
Prerequisite(s): E E 440 .
Wireless communication system. Fundamental antenna parameters, theory and design of different types of antennas (wire, aperture, broadband, array), and techniques for antenna analysis, fabrication and measurement.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted.
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E E 458 - Analog and Pulse Communication Systems Units: 3
Prerequisite(s): E E 410 .
Analog and digital communication systems. Amplitude and frequency modulation, pulse modulation, and PCM. Introduction to information theory.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted.
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E E 458L - Communications and Digital Signal Processing Laboratory Units: 1
Three hours of laboratory.
Prerequisite(s): Credit or concurrent registration in E E 458 .
Experiments in modulation techniques, effects of noise on system performance, digital filters, and signal processing. Formerly numbered Electrical Engineering 558L.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted.
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E E 480 - Power System Analysis Units: 3
Prerequisite(s): E E 310 and E E 380 with a grade of C- (1.7) or better in each course.
Modern power system elements; calculation of load flow, fault currents, and system stability.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted.
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E E 483 - Power Distribution Systems Units: 3
Prerequisite(s): E E 380 with a grade of C- (1.7) or better.
Design and operation of electric power distribution systems. Design of primary and secondary systems, application of one phase and three phase transformer banks, and metering principles and practices.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted.
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E E 492 - Senior Design B Units: 2
Prerequisite(s): E E 491 .
Supervised team-based capstone design project to provide integrative design experience for seniors to demonstrate a working project.
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E E 495 - Internship Units: 1
Grading Method: Cr/NC
Prerequisite(s): Completion of 96 units towards the electrical engineering major with a GPA of 3.0 or better.
Internship or practicum experience. Not applicable to a major in the department of Electrical and Computer Engineering. Maximum Credits: three units.
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E E 496 - Advanced Electrical Engineering Topics Units: 1-3
Prerequisite(s): Consent of instructor.
Modern developments in electrical engineering. Maximum Credits: nine units for any combination of Electrical Engineering 496 and E E 596 applicable to a bachelor’s degree.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted. See Class Schedule for specific content.
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E E 499 - Special Study Units: 1-3
Prerequisite(s): Approval of project adviser and department chair.
Individual study. Maximum Credits: six units.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted.
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E E 502 - Electronic Devices for Rehabilitation Units: 3
Two lectures and three hours of laboratory.
Prerequisite(s): E E 330 with a grade of C- (1.7) or better.
Recent developments in electronic assistive devices and microcomputers for persons with various disabilities; assessment of disabled persons for suitable technological assistive devices.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted.
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E E 503 - Biomedical Instrumentation Units: 3
Prerequisite(s): E E 410 and E E 430 (or for Mechanical Engineering majors, E E 204 , M E 330 , and A E 280 with a grade of C- (1.7) or better).
Instrumentation systems to monitor, image, control, and record physiological functions.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted.
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E E 522 - Digital Control Systems Units: 3
Prerequisite(s): E E 420 .
Digital controls systems; design algorithms including analoginvariance methods, direct digital techniques, and non-parametric approaches such as fuzzy control, neural networks, and evolutionary systems; implementation considerations.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted.
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E E 530 - Analog Integrated Circuit Design Units: 3
Prerequisite(s): E E 430 with minimum grade of C-.
Advanced treatment of transistor pairs, device mismatches, differential amplifiers, current mirrors, active loads, level shifting, and output stages. Parasitic and distributed device parameters. Economics of IC fabrication and impact on design.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted.
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E E 540 - Microwave Devices and Systems Units: 3
Prerequisite(s): E E 440 . Recommended: A E 515 .
Applications of Maxwell’s equations to wave propagation. Microwave network parameters; guided wave transmission and reflection. Design of filters, couplers, power dividers and amplifiers. Applications in radar and telecommunications systems.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted.
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E E 558 - Digital Communications Units: 3
Prerequisite(s): E E 458 .
Design of baseband digital communication systems; noise characterization, sampling, quantization, matched filter receivers, bit-error performance, inter-symbol interference, link budget analysis.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted.
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E E 581 - Power System Dynamics Units: 3
Prerequisite(s): E E 480 .
Three-phase faults, symmetrical components, unsymmetrical faults, protective relay operating principles, economic dispatch of thermal power generation units, power system controls, voltage and power stability.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted.
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E E 584 - Power Electronics Units: 3
Prerequisite(s): E E 380 and E E 430 with a grade of C- (1.7) or better in each course.
Design and analysis of power electronic devices. Permanent-magnet and pulse-width modulation ac-to-ac converters, dc-to-ac inverters, power electronics applications, power semiconductor switches, and switch-mode power supplies. Formerly numbered Electrical Engineering 484.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted.
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E E 584L - Power Electronics Laboratory Units: 1
Three hours of laboratory.
Prerequisite(s): Credit or concurrent registration in E E 584 .
Experimental design of dc-dc converters (boost, buck, buck-boost), flyback and forward converters, voltage and current mode control design and implementation. Basic photovoltaics and maximum-power-point-tracking (MPPT) design and battery charge control using switched-mode dc-dc converters.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted.
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E E 586 - Distributed Energy Resources and Smart Grid Technologies Units: 3
Prerequisite(s): Credit or concurrent registration in E E 480 ; Graduate standing.
Modeling and control of distributed energy resources (DERs) such as energy storage, fuel cells, photovoltaics, wind turbines, and associated power electronics interfaces. Integration of renewable energy systems into microgrids and the smart grid.
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E E 596 - Advanced Electrical Engineering Topics Units: 1-3
Prerequisite(s): Consent of instructor.
Modern developments in electrical engineering. May be repeated with new content. Maximum Credits: nine units for any combination of E E 496 and 596 applicable to a bachelor’s degree.
Note: Prerequisites will be enforced in all undergraduate electrical engineering courses numbered 100 through 596. A copy of an official transcript will be accepted as proof. For corequisites, an enrollment confirmation form will be accepted. See Class Schedule for specific content. Maximum combined credit of six units of E E 496 and 696 applicable to a 30-unit master’s degree. Credit for 596 and 696 applicable to a master’s degree with approval of the graduate adviser.
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E E 600 - Seminar Units: 1-3
Prerequisite(s): Consent of instructor.
An intensive study in advance electrical engineering. May be repeated with new content. Maximum Credits: six units applicable to a master’s degree.
Note: See Class Schedule for specific content.
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E E 601 - Linear System Theory and Design Units: 3
Prerequisite(s): E E 420 .
State models and solutions of the state equations, stability, controllability and observability, realizability and minimal realizations, linear state and output feedback control, introduction to linear optimal control.
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E E 602 - Stochastic Signals and Systems Units: 3
Prerequisite(s): E E 410 .
Random signals, correlation functions, power spectral densities, the Gaussian process, narrow band processes. Applications to communication systems.
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E E 603 - Engineering Optimization Units: 3
Prerequisite(s): Graduate standing.
Unconstrained and constrained optimization problems. Convex sets, functions, analysis, and optimization problems. Least-squares, linear, and quadratic programs. Optimality conditions, duality theory.
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E E 634 - RF Circuit Design Units: 3
Prerequisite(s): E E 540 .
RF component and circuit design in frequency domain and scattering parameter terms. Linear amplifiers, stability considerations, unilateralization, matching techniques, low-noise amplifiers, wideband designs, power amplifiers, linearity considerations, oscillators, and mixers.
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E E 641 - RF Wireless Systems Units: 3
Prerequisite(s): E E 440 , E E 558 , E E 602 .
Characteristics and performance measures of RF subsystem in wireless communication systems: wireless channel, antenna, modulators and demodulators, low-noise and power amplifiers, oscillators, ADC and DAC; receiver architectures, system-level design of RF front-end.
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E E 645 - Antennas and Propagation Units: 3
Prerequisite(s): E E 440 .
Antenna radiation mechanism, antenna types, fundamental antenna parameters, microstrip patch antennas, theory and design of various array and wire antennas, antenna measurement techniques and radio wave propagation in different propagation environments to include mobile communications, multiple input multiple output (MIMO) communications, and satellite communications.
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E E 650 - Modern Communication Theory Units: 3
Prerequisite(s): E E 558 and E E 602 .
Wireless digital communication; bandpass modulation and demodulation, multiple access techniques, broadband signaling techniques, spread spectrum techniques; applications include CDMA and OFDM.
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E E 652 - Principles and Applications of Information Theory Units: 3
Prerequisite(s): E E 558 and E E 602 .
Information measure of data sources; Shannon’s theorem and capacity of communication links; rate-distortion theory and performance of source codes.
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E E 653 - Coding Theory Units: 3
Prerequisite(s): E E 558 .
Error control for digital information; arithmetic of Galois fields; block, cyclic, convolutional and turbo encoding and decoding; applications in digital communication and computer systems.
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E E 654 - Adaptive Filter Design Units: 3
Prerequisite(s): E E 450 and E E 602 .
Constrained and unconstrained Wiener filters. Performance surfaces and gradient-based search methods. LMS and RLS algorithms. Lattice filters. Applications of adaptive filters in beamforming, channel equalization, echo cancellation, and system modeling.
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E E 655 - Modem Design Units: 3
Prerequisite(s): E E 450 and E E 558 .
System level and DSP design of modems for wireless and wireline communications. Study modems for QAM, OFDM, CDMA, and T-1 modulation.
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E E 656 - Multirate Signal Processing Units: 3
Prerequisite(s): E E 450 .
DSP techniques for sample rate changes in digital filters. Decimation and interpolation, aliasing as a processing option in resampling filters. Applications in communication and entertainment media systems.
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E E 657 - Digital Image Processing Units: 3
Prerequisite(s): E E 450 .
Theory of two-dimensional signals and systems, image transforms, image enhancement, restoration and compression, image analysis and computer vision.
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E E 658 - Advanced Digital Signal Processing Units: 3
Prerequisite(s): E E 450 and E E 602 .
Advanced topics in FIR and IIR filter design. Quantization effects in digital filters. Sigma-delta modulation. Signal modeling. Parametric and non-parametric spectral estimation. Frequency estimation.
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E E 660 - High Speed Networks: Design Principles and Recent Advances Units: 3
Prerequisite(s): COMPE 560 .
Provides students with knowledge of recent developments in area of computer networks. Current research in high speed computer networks.
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E E 662 - Wireless Sensor Networks Units: 3
Prerequisite(s): COMPE 560 .
Sensor platforms, wireless channel characteristics, time synchronization, medium access control, topology control, routing protocols, localization, coverage and placement, detection and tracking, query processing.
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E E 665 - Multimedia Wireless Networks Units: 3
Prerequisite(s): COMPE 560 .
Cross-layer protocol design, multimedia QoS-aware 4G, 5G, CRN, WLAN networks; multimedia source and bitstream characteristics, quality of service, and roles of processing capacity and power consumption.
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E E 670 - Digital ASIC Design Units: 3
Prerequisite(s): COMPE 572 .
High-performance and low-power digital application-specific integrated circuit (ASIC) chips.
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E E 671 - VLSI Testing Units: 3
Prerequisite(s): COMPE 470
Theory and techniques for testing VLSI circuits and systems. Analog/mixed-signal testing, Automatic Test Pattern Generation (ATPG), boundary scan and core-based testing, Built-in Self-Test (BIST), defect and fault diagnosis, Design For Testability (DFT), logic/fault simulation, memory test, machine learning applications in VLSI testing, scan design/architecture.
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E E 674 - Signal and Power Integrity Units: 3
Prerequisite(s): E E 440 and COMPE 572 .
Interconnect and power distribution network design in very-large- scale integration systems packaging. High-speed transmission lines and crosstalk, macromodeling of interconnects. Switching noise, decoupling, numerical methodologies in power integrity design.
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E E 684 - Advanced Power Electronics Units: 3
Prerequisite(s): E E 584 and E E 601 .
Advanced modeling strategies for bidirectional converters, DC/ DC converters, design and integration of power electronics interfaces into smart girds, multi-level inverters, Pulse-Width-Modulation (PWM) switching techniques, resonant/quasi-resonant converters, SiC and GaN switches, single/three phase inverters, and soft switching.
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E E 685 - Micro-Electro-Mechanical Systems (MEMS) Design and Applications Units: 3
Same As: M E 685 . Prerequisite(s): M E 585 .
Design and manufacturing technology for micro- and nano-scale devices. Topics include solid state transducers, microscale physics, biomedical microelectronics, microfluidics, biosensors, and hybrid integration of microfabrication technology. Emphasis on biomedical applications.
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E E 696 - Advanced Topics in Electrical Engineering Units: 1-3
Intensive study in specific areas of electrical engineering. May be repeated with new content.
Note: See Class Schedule for specific content. Credit for 596 and 696 applicable to a master’s degree with approval of the graduate adviser.
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E E 740 - Advanced Topics in Physical Electronics Units: 1-3
Prerequisite(s): Graduate level coursework in the area and consent of instructor.
Selected topics in electromagnetic fields and waves, optoelectronics, and semiconductor devices. May be repeated with new content and consent of graduate adviser. Maximum Credits: six units applicable to a master’s degree.
Note: See Class Schedule for specific content.
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E E 795 - Internship/Practicum Units: 1
Grading Method: Cr/NC
Prerequisite(s): Eighteen units of graduate level coursework in electrical engineering and consent of adviser.
Supervised internship or practicum experience with approval of graduate adviser. Maximum Credits: three units.
Note: Not applicable to an advanced degree.
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E E 797 - Research Units: 1-6
Grading Method: Cr/NC/RP
Prerequisite(s): Consent of department chair. Open only to students in Plan A Thesis.
Research in engineering. Maximum Credits: six units applicable to a master’s degree for students in Plan A only.
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E E 798 - Special Study Units: 1-3
Grading Method: Cr/NC/RP
Prerequisite(s): Consent of department chair.
Individual study. Maximum Credits: three units applicable to a master’s degree for students in Plan B study.
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E E 799A - Thesis or Project Units: 3
Grading Method: Cr/NC/RP
Prerequisite(s): An officially appointed thesis committee and advancement to candidacy.
Preparation of a project or thesis for the master’s degree.
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E E 799B - Thesis or Project Extension Units: 0
Grading Method: Cr/NC
Prerequisite(s): Prior registration in Thesis or Project 799A with an assigned grade symbol of RP.
Registration required in any semester or term following assignment of RP in Course 799A in which the student expects to use the facilities and resources of the university; also student must be registered in the course when the completed thesis or project is granted final approval.
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E E 799C - Comprehensive Examination Extension Units: 0
Grading Method: Cr/NC
Prerequisite(s): Completion or concurrent enrollment in degree program courses.
Registration required for all students taking the comprehensive examination for the master’s degree. Registration in 799C limited to two semesters.
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E E 491 - Senior Design A Units: 2
One lecture and three hours of laboratory.
Prerequisite(s): E E 330L , E E 430 , COMPE 375 , concurrent registration in E E 420 .
Senior design project preparation to include building a team, finding an advisor, identifying a project, giving a professional presentation, preparing descriptive information and design documentation, securing funding. Design using CAD PCB tools. Ethics and professionalism in a work environment.
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ENGR 100 - Perspectives in Human-Technology Frontier Units: 3 GE
Engineering concepts/solutions enabled by advances in intelligent technology and integration with human skills to improve economic and social well-being of self and society. Technology solutions to everyday physiological and psychological challenges.
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ENGR 101 - Engineering Orientation and Career Exploration Units: 1 No
Grading Method: Cr/NC (No Letter)
Only offered at: SDSU San Diego
Introduction to specific fields of engineering interest; explore successful student practice; preview of major and career options; interaction with faculty, campus resources, students, and staff; explore realistic career options based on major choice; prepare for academic success. Formerly numbered ENGR 096.
Note: See Class Schedule for appropriate section based on your program enrollment such as MESA or other.
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ENGR 250 - Introduction to Renewable Energy Units: 3 GE
Only offered at: SDSU Imperial Valley
Prerequisite(s): MATH 150 with a grade of C (2.0) or better or satisfaction of the SDSU Mathematics/Quantitative Reasoning Assessment requirement and qualification on the Mathematics Placement Assessment. Proof of completion of prerequisite(s) required.
Energy sources and systems. Future challenges and trends of energy use. Incentives and policies on energy resources. Laws of thermodynamics and factors impacting economic viability of power generation.
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ENGR 296 - Experimental Topics Units: 1-4
Selected topics. May be repeated with new content.
Note: See Class Schedule for specific content. Limit of nine units of any combination of 296, 496, 596 courses applicable to a bachelor’s degree.
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ENGR 496 - Advanced Engineering Topics Units: 1-3
Prerequisite(s): Minimum grade point average of 2.0 in engineering.
Modern developments in engineering. Maximum Credits: six units for any combination of 496, 499, and 596 applicable to a bachelor’s degree.
Note: See Class Schedule for specific content.
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ENGR 795 - Internship/Practicum Units: 1
Grading Method: Cr/NC
Prerequisite(s): Twenty-seven units of graduate level coursework in the Master of Engineering program and consent of graduate adviser.
Supervised internship or practicum experience with approval of graduate adviser. Not applicable to an advanced degree. Maximum Credits: three units.
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ENGR 797 - Research Units: 1-3
Grading Method: Cr/NC/RP
Prerequisite(s): Consent of instructor.
Research in engineering. Maximum Credits: six units applicable to a master’s degree.
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ENGR 798 - Special Study Units: 1-6
Grading Method: Cr/NC/RP
Prerequisite(s): Graduate standing and consent of Associate Dean of College of Engineering.
Individual study. Maximum Credits: six units applicable to Master of Engineering degree.
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ENGR 799A - Project Units: 3
Grading Method: Cr/NC/RP
Prerequisite(s): An officially appointed project committee and advancement to candidacy.
Preparation of a project for the master’s degree.
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ENGR 799B - Project Extension Units: 0
Grading Method: Cr/NC
Prerequisite(s): Prior registration in Project 799A with an assigned grade symbol of RP.
Registration required in any semester or term following assignment of RP in Course 799A in which the student expects to use the facilities and resources of the university; also student must be registered in the course when the completed project is granted final approval.
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ENGR 799C - Comprehensive Examination Extension Units: 0
Grading Method: Cr/NC
Prerequisite(s): Completion or concurrent enrollment in degree program courses.
Registration required of students whose only requirement is completion of the comprehensive examination for the master’s degree.
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ENGR 800 - Seminar Units: 1
Grading Method: Cr/NC
Prerequisite(s): Admission to the doctoral program.
Doctoral students are expected to attend a weekly seminar dealing with current topics in different areas of applied mechanics. Course is to be taken every semester.
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ENGR 810 - Colloquium in Engineering Sciences Units: 1
Grading Method: Cr/NC/RP
Prerequisite(s): Admission to the doctoral program.
Discussions on advances in research in engineering science/applied mechanics conducted by SDSU and UCSD faculty.
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ENGR 897 - Doctoral Research Units: 1-15
Grading Method: Cr/NC/RP
Prerequisite(s): Admission to the doctoral program.
Independent research in general areas of applied mechanics. Content to be determined after consultation with adviser.
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ENGR 898 - Doctoral Special Study Units: 1-3
Grading Method: Cr/NC/RP
Prerequisite(s): Advancement to candidacy.
Individual study leading to study and research required for doctoral dissertation.
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