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Course Criteria
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3.00 Credits
Covers steady state and dynamic characteristics of DC and AC machinery and energy conversion. Prerequisite: ELEN 342.
Prerequisite:
Undergraduate level ELEN 342 Minimum Grade of C
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1.00 Credits
Covers experiments related to topics in ELEN 342.
Prerequisite:
Undergraduate level ELEN 211 Minimum Grade of C
Corequisite:
ELEN 342
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3.00 Credits
Theory and investigation of Topics in Electrical Engineering Fundamentals. Covers DC and AC electrical systems for non-electrical engineering majors. Prerequisite: MATH 265
Prerequisite:
Undergraduate level MATH 265 Minimum Grade of C
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3.00 Credits
Introduces students to signals and systems, system representation and analysis, represent-ation of signals, transform methods in systems, and state space methods in systems analysis. Prerequisite: ENGR 340.
Prerequisite:
Undergraduate level ENGR 340 Minimum Grade of C
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3.00 Credits
A study of the basic hardware building blocks from which computers are constructed. Topics include the structural organization and hardware design of digital computer systems, the physical organization of processors to include the ALU, registers, control circuitry, micro-operations, control and timing functions, register transfer language, and memory management techniques. Prerequisite: ELEN 304.
Prerequisite:
Undergraduate level ELEN 304 Minimum Grade of C
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3.00 Credits
Covers practical design using MSI components. Topics include a review of flip-flops and counters; the design of sequential networks using next state diagrams; flip-flops; timing diagrams; state reduction and state assignments; iterative networks; arithmetic controllers and networks; asynchronous sequential networks; and derivation and reduction of primitive flow tables, races, and hazards. This course also covers the design of microsequential controllers using counters, selectors, and decoders. Prerequisite: ELEN 303, CMPS 200, or permission of instructor.
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3.00 Credits
Covers linear and non-linear wave-shaping techniques, logic families and their traits such as fanout, power dissipation, noise immunity and speed, bipolar multivibrators negative resistance devices, sweep waveforms, and D/A and A/D converters. Projects required. Prerequisite: ELEN 313. Co-requisite: ELEN 404.
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3.00 Credits
Examines the use of development systems and microprocessors needed to become experienced in assembly languages, higher level languages implemented on microprocessors, and debuggers. Students learn to implement hardware and software to design complete systems. Hardware interfacing problems discussed include memory expansion and the addition of UARTS and PIAS to interface plotters, A/D and D/A converters, and robotic arms. Software tools such as assemblers and protocol converters are developed in a group project format. Prerequisite: ELEN 304 or CMPS 302.
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1.00 Credits
Experimental investigation of topics in electrical engineering 402. Co-requisite: ELEN 402.
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3.00 Credits
Introductory course in digital signal processing. Topics include discrete-time description of signals, the f-transform, digital filter structures,infinite impulse response filter design techniques, finite impulse response design techniques, finite precision effects, and inverse filtering. Prerequisites: ELEN 340 and ELEN 390.
Prerequisite:
Undergraduate level ELEN 390 Minimum Grade of C
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