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Course Criteria
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4.00 Credits
ENG EC 401. Analysis of linear feedback systems, their characteristics, performance, and stability. The Routh-Hurwitz, root-locus, Bode, and Nyquist techniques. Design and compensation of feedback control systems. 4 cr.
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4.00 Credits
ENG EK 307. Principles of diode, BJT, and MOSFET circuits. Graphical and analytical means of analysis. Piecewise linear modeling; amplifiers; digital inverters and logic gates. Biasing and small-signal analysis, microelectronic design techniques. Time-domain and frequency domain analysis and design. Includes lab. 4 cr.
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4.00 Credits
ENG EC 410. Continuation of EC 410. Topics include differential amplifiers, frequency response, operational amplifier structure and design, multistage circuit design, BJT, MOSFET, CMOS, and BiCMOS design principles, active filters and oscillators, and power devices. Includes lab. 4 cr.
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4.00 Credits
ENG EC 401 or equivalent. Signal analysis and transmission: amplitude modulation, angle modulation, pulse-amplitude and pulse-code modulation; amplitude shift-keying, frequency shift-keying, phase-shift keying. Case studies of practical communication systems. Includes lab. 4 cr.
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4.00 Credits
ENG EC 401. Introduces techniques of digital signal processing and application to deterministic as well as random signals. Topics include representation of discrete-time random signals, A/D conversion, D/A conversion, frequency domain and z-domain analysis of discrete-time signals and systems, discrete-time feedback systems, difference equation and FFT based realizations of digital filters, design of IIR Butterworth filters, window-based FIR filter design, digital filtering of random signals, FFT-based power spectrum analysis. Includes lab. 4 cr.
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4.00 Credits
ENG EC 327 and ENG EC 312. Operating system concepts and design objectives. Concurrent processes, process synchronization, and deadlocks. Resource management including virtual memory, CPU scheduling, and secondary storage. File structures, input/output, and distributed systems. Case studies of popular operating systems. 4 cr.
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4.00 Credits
ENG EC 381 and ENG EC 401. Computer networks, focusing on the Internet. Application protocols (Web, e-mail), basics of socket programming, major Internet protocols (TCP and IP), fundamental aspects of routing and reliable data transfer over networks, medium access protocols, wired and wireless Local Area Networks (LANs) technologies. Hands-on laboratory modules on client-server programming, Internet experiments, and protocol implementation. Includes lab. 4 cr.
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4.00 Credits
ENG EC 440, and CAS CS 330 or ENG EC 330. Object-oriented software design. Application design for windowed graphical environments. Design project using C++ and Microsoft Windows. Requires a working knowledge of the C programming language. 4 cr.
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4.00 Credits
ENG EC 327 and ENG EC 312. Hardware and software design methodology for embedding microcontrollers and microprocessors. Architecture, hardware, I/O, interrupts, memory organization, and decoding. Software techniques including dispatch tables and real time monitors. Intel 8048 and Motorola 68HCO5, 68HC11, and 68HCHC16 microcontrollers, Intel 8085 and 8086 series microprocessors, and Motorola 68000 series microprocessors. Peripheral devices including counter timers, serial USARTs, parallel ports, interrupt controllers, disk controllers, and DMA controllers. Emphasis on both hardware and software design. Includes lab. 4 cr.
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3.00 Credits
may, under the supervision of a faculty member, undertake individual study of a subject relevant to electrical, computer, and systems engineering, if the subject is not covered in a regularly scheduled course. Tangible evidence of achievement must be submitted at the end of the semester. Variable cr.
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