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Course Criteria
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3.00 Credits
Semiconductor devices and circuits. Instrumentation amplifiers, power control rectifiers, feedback, pulse circuits, digital logic circuits. Not for Electrical Engineering majors. 3 lectures. Prerequisite: EE 201 or BRAE 216 for BRAE majors. Change effective Winter 2008.
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3.00 Credits
Discrete-time systems and analysis, with emphasis on linear time-invariant (LTI) systems. Sampling theorem. Classification of discrete-time systems. Convolution and its application to LTI systems. The z transform, discrete-time Fourier transform, and discrete Fourier transform. Introduction to digital filters. 3 lectures. Prerequisite: EE 228 with a C- grade or better. Concurrent: EE 368.
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4.00 Credits
Design, implementation and testing of programmable logic microproces-sor-based systems. Hardware/software tradeoffs (such as timing analysis and power considerations), system economics of programmable logic and microprocessor-based system design. Interfacing hardware components (such as ADCs/DACs, sensors, transducers). 3 lectures, 1 laboratory. Prerequisite: EE 307&347 with a C- grade or better, EE 229&269 with a C- grade or better.
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4.00 Credits
Maxwell's equations. Plane wave propagation in free space. Static electric and magnetic fields. Distributed-circuit concepts and transmission line parameters. Reflections and standing waves. The Smith chart and its applications. Transmission line measurements and impedance matching techniques. 4 lectures. Prerequisite: MATH 241, EE 212&242 with a C- grade or better. Concurrent: EE 375.
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4.00 Credits
Introduction to microcontrollers and integrated microprocessor systems. Emphasis on the Intel 8051 and Motorola 68HC12 families and derivatives. Hardware/software trade-offs, system economics, and functional configurations. Interface design, real-time clocks, interrupts, A/D conversion, serial and parallel communications, watch-dog timers, low power operation, and assembly language programming techniques. Architecture and design of sampled data and digital control systems. Case studies of representative applications. 3 lectures, 1 laboratory. Prerequisite: EE 129&169 with a C- grade or better.
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1.00 Credits
Laboratory work pertaining to classical control systems, including servo control, transient and frequency responses, stability, and computer-aided analysis of control systems. 1 laboratory. Prerequisite: EE 228 with a C- grade or better, EE 255&295. Concurrent: EE 302. Suggested: EE 368.
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1.00 Credits
Experimental determination of device characteristics and models. 1 laboratory. Prerequisite: CHEM 124, EE 212&242 with a C- grade or better, IME 156 or IME 157 or IME 458, PHYS 211. Concurrent: EE 306. Suggested: ENGL 134.
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1.00 Credits
Computer simulation and experimental investigation of the characteristics, applications and interfacing of different logic families. 1 laboratory. Prerequisite: EE 129&169 with a C- grade or better, EE 306&346 with a C- grade or better. Concurrent: EE 307, EE 229 (may be taken previously).
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1.00 Credits
Design, simulation, construction and testing of solid state amplifiers and sub-circuits to meet stated specifications. 1 laboratory. Prerequisite: EE 302&342 with a C- grade or better, EE 307&347 with a C- grade or better. Concurrent: EE 308.
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1.00 Credits
Instrumentation amplifiers, feedback, rectifiers and power control, pulse and digital logic circuits. 1 laboratory. Prerequisite: EE 251 or BRAE 216 for BRAE majors. Concurrent: EE 321. Change effective Winter 2008.
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