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Course Criteria
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3.00 Credits
No course description available.
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0.00 Credits
No course description available.
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3.00 Credits
An introduction to analysis of electrical networks containing DC sources and passive components. Methods include nodal and mesh analysis, superposition, Thevenin's and Norton's theorems and maximum power transfer. Prerequisite: MATH 265.
Prerequisite:
Undergraduate level MATH 265 Minimum Grade of C
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3.00 Credits
Covers the application of forcing functions to networks, power, and energy; polyphase circuits, complex frequency and frequency responses; transformers, and other two-port networks. Prerequisite: ELEN 208.
Prerequisite:
Undergraduate level ELEN 208 Minimum Grade of C
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1.00 Credits
Experiments concerning principles taught in ELEN 208. The laboratory will cover basic resistive circuits, Ohm's law, Kirchhoff's law, voltage and current division law and Thevenin's, Norton's equivalent circuits and operational amplifier circuits. Corequisite: ELEN 208.
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1.00 Credits
Experiments concerning principles taught in ELEN 209. The laboratory will cover AC electric laws; transient and steadystate responses of RLC networks and sinusoidal AC networks containing resistance, capacitive, and inductive circuit elements. Corequisite: ELEN 209.
Prerequisite:
Undergraduate level ELEN 210 Minimum Grade of C
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3.00 Credits
A study of the theory and fabrication of solid state electronic devices including the electrical behavior of charge carriers in solids. Structures of many electron atoms. Schrodinger Wave Equation. Band Theory of Solids. Electrical and Magnetic Properties of Matter. Semiconductor Physics of p-n junction and newer devices. Prerequisites: PHYS 222 and MATH 265. Co-requisite: MATH 364.
Prerequisite:
Undergraduate level PHYS 222 Minimum Grade of C or Undergraduate level MATH 265 Minimum Grade of C
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3.00 Credits
Beginning at the sophomore year, a student may enroll in a work-study program which permits alternate work and study periods by semester.
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3.00 Credits
Topics covered include number systems, binary arithmetic and codes, Boolean algebraic simplification, Quine-McCluskey method, Karnaugh map, diode and transistor logic, flipflops, sequential networks, state tables and assignments. Prerequisite: ELEN 208 or equivalent.
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3.00 Credits
Presents the use of microprocessors to cover topics in computer hardware and software. Hardware topics and control buses are discussed. Trade-offs of different microprocessor architectures are explored. Software topics include instruction formats and types, program flow charts, algorithm construction, micro data structures, and monitors. Students will be expected to write programs in assembly language. Software tools such as assemblers, debuggers, in-circuit emulators, high level languages and logic state analyzers, sensors, transducers, A/D and D/A converters, protocol, interfaces, and modems are discussed. Prerequisite: ELEN 303. Co-requisite: ELEN 306.
Prerequisite:
Undergraduate level ELEN 303 Minimum Grade of C
Corequisite:
ELEN 306
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