100: Introduction to Electrical Engineering. 3-0-1. A survey of topics to introduce the student to the profession, the department and the curriculum.

221: Electrical Circuits. 0-3-3. Preq., credit or registration in MATH 231. Fundamental concepts, units, and laws. Solution of circuits, network theorems and network simplification. Sinusoidal forcing functions. Phaser concepts, AC circuit analysis. Power and rms values. Polyphase circuits.

222: Electrical Circuits. 0-3-3. Preq., ELEN 221 and credit or registration in MATH 232. Transient analysis of both source-free and driven first and high order systems. Complex frequency and resonance phenomena. Computer solution of circuits.

223: Electrical Circuits II. 3-2-3. Preq., ELEN 221 or ENGR 221 and credit or registration in MATH 232 or 242. Transient analysis of source-free and high order systems, complex frequency, and resonance phenomena. Computer solution of circuits. Electrical instruments, devices, and design for measurements in electrical networks.

229: Basic Electrical Measurements. 3-0-1. Preq., ELEN 221 or 226. An introduction to computer methods, instruments, devices and design for measurements in electrical networks.

231: Introduction to Digital Design. 0-3-3. Coreq., ELEN 239. Introduction to digital design techniques, Boolean algebra, combinational logic, minimization techniques, simple arithmetic circuits, programmable logic, sequential circuit design, registers and counters.

232: Introduction to Digital Design. 0-2-2. Introduction to digital design techniques, Boolean algebra, combinational logic, minimization techniques, simple arithmetic circuits, programmable logic, sequential circuit design, registers and counters.

239: Digital Design Lab. 3-0-1. Coreq., ELEN 231. Laboratory for digital design techniques, combinational and sequential logic designs, registers and counters.

241: Introduction to Microcomputers. 0-3-3. Introduction to computer organization and operation, data representation and manipulation, assembly language programming, register level operations, peripheral device interfaces.

242: Introduction to Microprocessors. 3-2-3. Preq., ELEN 231 or 232 and competence in a higher-level computer language. Introduction to microprocessor organization and operation, data manipulation, assembly language programming, register level operations, and device interfacing.

311: Introduction to Electric and Magnetic Fields. 0-3-3. Preq., ELEN 222, PHYS 202. Vector analysis. Static electric fields. Energy and potential. Mapping methods. Static magnetic fields. Magnetic circuits and inductance.

321: Linear Systems. 0-3-3. Preq., ELEN 222 and credit or registration in MATH 350. Fourier Series. Fourier Transform. Laplace Transform. Convolution and the system function. Filters. State variable representation and solution.

322: Introduction to Discrete-time Signals and Systems. 0-3-3. Preq., ELEN 321. Discrete Signals, LTI-Systems, Discrete Fourier Analysis. Discrete Filters, Sampling, Z-transform.

326: Theory and Applications of Electrical Engineering. 0-3-3. Preq., MATH 231 (this course for non-Electrical Engineering majors). Solutions of circuits and networks. Magnetic circuits and devices. Applications to transformers connections, motors, and systems. Power distribution and electrical safety.

331: Analog Electronics. 0-3-3. Preq., ELEN 221. Diode and transistor characteristics and models. Design of power supplies, single state and multi-stage amplifiers. Design and applications of operational amplifiers.

332: Analog Electronics II. 0-3-3. Preq., ELEN 331. Operational amplifiers and applications, class A, B, and C amplifiers, frequency response, feedback, and oscillators.

334: Solid State Electronics. 0-3-3. Preq., MATH 350, PHYS 202. Fundamentals of solid state electronic materials and devices, emphasizing semiconductors and principles of operation of ULSI devices.

335: Analog Electronics. 3-2-3. Preq., ENGR 221. Diode and transistor characteristics and models. Design of power supplies, single- and multiple-stage amplifiers. Design and application of operational amplifiers.

339: Electronics Design Laboratory. 3-0-1. Preq., ELEN 329. Coreq., ELEN 331. Design of DC power supplies, single-state amplifiers, digital circuits, and operational amplifier applications.

381: Electrical Machinery. 0-3-3. Preq., ELEN 311. Electromagnetic energy storage and conversion. Principles of electromechanical energy conversion. Power transformers. Design of electromechanical devices. Analysis of rotating machines.

386: Electrical Equipment for Buildings. 0-3-3. Preq., MATH 220 and PHYS 210. Not available for electrical engineering majors. A study of the problems of the design and application of electrical wiring and lighting systems for building.

389: Electrical Machinery Laboratory. 3-0-1. Preq., credit or registration in ELEN 381. Laboratory design and testing of basic electromechanical devices and machines.

402: Electrical Design. 3 hours credit. Preq., written consent of supervising instructor. Closely supervised design of electrical engineering problem. Opportunity for individual investigation, design, and fabrication of electrical apparatus.

403: Electrical Design. 1 hour credit. Preq., Written consent of supervising instructor. Closely supervised design of electrical engineering problem. Opportunity for individual investigation, design and construction of electrical apparatus or system.

404: Electrical Design. 2 hours credit, Preq., written consent of supervising instructor. Closely supervised design of electrical engineering problem. Opportunity for individual investigation, design, and construction of an electrical apparatus or system.

406: Electrical Engineering Design I. 3-1-2. Preq., ELEN 331, 339, 389 and senior standing. Design problems requiring the integration of circuits, electronics, field theory, controls, energy conversion, power systems, and economics.

407: Electrical Engineering Design II. 3-1-2. Preq., ELEN 406 and permission of instructor. The continuing of ELEN 406 and the implementation of the design process.

408: Electrical Engineering Design III. 3-1-2. Preq., ELEN 407 and permission of instructor. Continuation of ELEN 407 and the implementation of the design process.

411: Electric and Magnetic Fields. 0-3-3. Preq., ELEN 311 and MATH 350. Capacitance. LaPlace's Equation. Maxwell's equations. Time-varying electromagnetic fields. Plane waves. Transmission lines. Design of impedance-matching devices. (G)

412: Signal Transmission. 0-3-3. Preq., ELEN 411. Transmission lines and distributed parameters. Wave-guides, traveling electromagnetic wave analysis, and boundary valve problems. Impedance matching, graphical solutions, and microwave networks. Laboratory applications and design. (G)

422: Introduction to Discrete Time Systems. 0-3-3. Preq., ELEN 321 or permission of instructor. Discrete signals, LTI systems, discrete Fourier analysis, discrete filters, sampling, Z-transforms. (G)

435: Electronics. 0-3-3. Preq., ELEN 332. Feedback amplifiers, integrated circuit analysis, operational amplifier applications in the areas of nonlinear circuits, active filters, switching circuits, controls, and communications. (G)

437: Microfabrication Principles. 0-3-3. Preq., MATH 350, PHYS 202. Fundamentals of microfabrication processes necessary for the realization of ULSI and other technologies. (G)

438: Microelectronic Applications & Device Fabrication. 3-2-3. Microfabrication process integration and applications to the realization of ULSI and other technologies. (G)

441: Computer Systems Interfacing. 3-2-3. Preq., consent of instructor. Topics useful in integrating multi-component systems of manufacturing with computer-based monitoring, control and communication. (G)

450: Selected Topics. 0-2-2. Preq., permission of instructor. Work in an area of recent progress in electrical engineering of immediate interest or need. Topic selected will vary from term to term.

451: Special Topics. 0-3-3. Preq., consent of instructor. Study in an area of recent progress in electrical engineering of immediate interest or need. Topic selected will vary from term to term. (G)

461: Communication Systems. 0-3-3. Preq., ELEN 321 and 331 or consent of the instructor. Evaluation and design of communication systems utilizing Fourier and random-signal analysis. Amplitude, frequency, pulse, pulse-code modulation and demodulation. Multiplexing. (G)

462: Digital Communication Systems. 0-2-2. Preq., ELEN 461 or consent of instructor. Analysis and design of digital communication systems for transmitting digital and analog data. Coding; multiplexing; PCM; delta modulation; spread spectrum; FSK; PSK; performance analysis.

463: Optical Communication Systems. 0-3-3. Preq., ELEN 411. Optical waveguides, mode theory and ray optics. Transmission losses and signal distortion. Optical sources, detectors and transmission link analysis.

469: Communications Laboratory. 3-0-1. Coreq., ELEN 461. Communications laboratory to accompany ELEN 461. Fourier Spectrum, AM systems, FM systems, and Time Division Multiplex.

471: Automatic Control Systems. 0-3-3. Preq., ELEN 321, MATH 350 or consent of instructor. Analysis and design of linear feedback systems. Mathematical modeling. Transfer functions and signal-flow graphs. State variable analysis. Time domain analysis and design of linear control systems. Frequency domain analysis and design of linear control systems. (G)

472: Introduction to Digital Control. 0-3-3. Preq., ELEN 321, 471 or consent of instructor. An introduction to the theory of linear discrete control systems. Time-domain analysis of discrete systems. Z-transform. Sampling. Discrete-time signal analysis. Sampled data control systems. (G)

479: Automatic Control Systems Laboratory. 3-0-1. Credit or registration in ELEN 471. Laboratory design, simulation and testing of automatic control systems. (G)

481: Power Systems. 0-3-3. Preq., ELEN 381 or consent of instructor. Per-unit notation. The design and analysis of balanced power systems including load flow, economic dispatch, short circuit and over current device coordination and control of watts and vars. (G)

482: Power Systems Design and Analysis. 0-2-2. Preq., ELEN 481 or consent of instructor. Symmetrical components. Analysis of power systems in the transient state including unsymmetrical faults, stability, lighting, and switching surges. Control of frequency and power flow in interconnected systems. (G)

483: Industrial Energy Systems Design. 0-2-2. Preq., ELEN 481 or consent of instructor. Design of new and expansion of existing substations, feeders, motor control centers, motor applications and motor controls. Local generation. Power factor correction techniques. Uninterruptable power supplies. Programmable control devices. (G)

489: Electrical Energy Conversion Laboratory. 3-0-1. Preq., ELEN 381; Coreq., registration in ELEN 481. Laboratory design and testing of basic electromechanical devices and machines.

491: Machine Vision. 3-2-3. Preq., Senior or Graduate status and permission of instructor. Machine Vision systems applied to Manufacturing. Content includes lighting, optics, vision hardware and software. (G)

512: Electromagnetic Waves. 0-3-3. Preq., ELEN 411 or permission of instructor. Propagation, reflection and refraction of electromagnetic waves. Guided waves and power flow. Boundary-value problems.

513: Antennas and Radiation. 0-3-3. Preq., ELEN 512 or permission of instructor. Channel effects and types of propagation. Theory and practice in antenna design.

533: Optoelectronics. 0-3-3. Preq., Permission of instructor. Modulation of light, display devices, lasers, photodetectors, optical transistors, logic gates, Waveguides, transmitter and receiver design.

535: Advanced Topics in Microelectronics. 0-3-3 (6). Preq., consent of instructor. May be repeated with change in subject matter. Selected topics of current research interest in the field of microelectronics.

537: Advanced Microfabrication with Computer-Aided Design. 0-3-3. Preq., ELEN 438 or consent of instructor. Advanced microfabrication process development and integration with the aid of computer process modeling and simulation.

538: Advanced Microelectronic Devices with Computer-Aided Design. 0-3-3. Preq., ELEN 537 or consent of instructor. Principles of operation and analysis of advanced microelectronic devices with the aid of computer device modeling and simulation.

543: Microcomputer Design. 0-3-3. Preq., ELEN 331 and 442 or consent of instructor. Study of microcomputer design. Microcomputer Development System and Logic Analyzer. Design of control processors.

545: Computer Architecture. 0-3-3. Preq., CME 460 or graduate standing. An introduction to current machine architectures. Topics include memory design, pipeline processing, vector machines, multiprocessor architectures and parallel algorithm design techniques and evaluation methods.

550: Special Problems. 1-4 semester hours. Advanced problems in electrical engineering. The problems and projects will be treated by current methods used in professional practice.

551: Research and Thesis in Electrical Engineering. Registration in any quarter may be for three semester hours credit of multiples thereof. Maximum credit allowed is six semester hours.

555: Practicum. 0-3-3 (6). Preq., 12 semester hours of graduate work. Analytical and/or experimental solution of an engineering problem; technical literature survey required; development of engineering research techniques.

561: Random Signals and Systems. 0-3-3. Preq., ELEN 461 and 471 or permission of instructor. Random signal analysis. Correlation and power spectrum analysis. Stochastic communication and control systems.

565: Digital Signal Processing. 0-3-3. Preq., ELEN 461 or permission of instructor. Review of discrete linear signals and systems theory. Design/Implementation of FIR and IIR digital filters. Quantization and finite word length effects. Spectrum estimation.

566: Estimation Theory. 0-3-3. Preq., ELEN 561 or permission of instructor. Estimation, based on noise-corrupted observations, of unknown system states. Maximum-likelihood and least square estimation; matched filters. Wiener and Kalman filtering.

572: Digital Control Systems I. 0-3-3. Preq., ELEN 471 or permission of instructor. Sampling Theory. Date reconstruction. Z-transforms. Stability analysis. Time-domain analysis. Frequency domain analysis. Introduction to Digital Control Systems.

573: Digital Control Systems II. 0-3-3. Preq., ELEN 572 or permission of instructor. Review of Z-transforms. State variable techniques. Controllability and observability. Design of digital control systems with state variable techniques. Digital state observer. Microprocessor control.

581: Computer Applications to Power Systems. 0-3-3. Preq., ELEN 481 or permission of instructor. The study of algorithms for power network matrices, three-phase networks, fault, load flow and stability problems solution by computer methods.

582: Motor Control and Power Electronics. 0-3-3. Preq., ELEN 381 or permission of instructor. Electronic and electromagnetic motor control devices; programmable controllers; motor protection; solid state power device application to DC and AC power conversion.

583: Electric Power Distribution System Design. 0-3-3. Preq., ELEN 481 or permission of instructor. Design of utility distribution systems. Substation layout, switching devices, aerial and underground lines and cables, code requirements, development of standards.

584: Electromechanical Energy Conversion. 0-3-3. Preq., ELEN 381 or permission of instructor. Equations of motion of electromechanical systems. Analytical techniques for solution of equation. Typical transducers. The generalized machine system dynamics.

588: Advanced Topics in Power Systems. 0-3-3. Preq., consent of instructor. May be repeated with change in subject matter. Selected topics of current research interest in the field of power systems engineering.

641: Advanced Topics in Computer Systems. 0-3-3. Preq., ELEN 543 or permission of instructor. Topics on the latest advancements in computer systems and computer design.

665: Multidimensional Signal Processing. 0-3-3. Preq., ELEN 565 or permission of instructor. Representations of signals which are functions of several variables. Multidimensional Z-Transforms and discrete Fourier Transforms. 2-D FIR and IIR filter design and implementation.

672: Optimal Control Systems. 0-3-3. Preq., ELEN 571 or permission of instructor. Linear system theory. Statistics of random variables. Response to distributed inputs. System analysis and optimum design with multiple inputs and outputs. Optimum inputs.

673: Nonlinear Control Systems. 0-3-3. Preq., ELEN 571 or permission of instructor. Mathematical models of nonlinear systems. Phase-space analysis. Critical point characterization. Describing functional Sub-harmonic generation. Stability determination. General solution methods.

681: Advanced Topics in Power Systems. 0-3-3. Preq., ELEN 581 or permission of instructor. May be repeated with a change in subject matter. Selected topics of current research interest in the field of power systems engineering.