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Course Criteria
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4.00 Credits
In this course, the student develops a working knowledge of designing and implementing computer programs to solve problems encountered with embedded systems. Structured programming will be introduced in this course. Emphasis is placed on probleminvestigation, algorithmdevelopment, flowchart development, and pseudo-code development. The embedded systemsmodel and parallel I/O are introduced. A high-level programming language is used and all programs are executed on an embedded systemto illustrate and implement the topics. (prereq:MA-125)
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4.00 Credits
This course introduces the topics of steady-state analysis of networks using time and frequency domainmethods with linear circuitmodels. It includes the topicsmesh and nodal analysis, source transformations, network theorems, complex power and resonance. The computer application SPICE is also introduced for analysis of steady-state DC and AC circuits. (prereq:MA-137)
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4.00 Credits
This course introduces students to transient analysis of networks using linear circuitmodels. Systemdifferential equations are set up and solved using both classical and Laplace techniques. In addition to analysis of circuits containing R, L and C components, and step-function and sinusoidal sources, it includes impulse functionmethods, transfer functions and Bode plots. SPICE is used to simulate systemresponses. Laboratory experiments are used to reinforce the theoretical concepts. (prereq: EE-201,MA-235)
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4.00 Credits
This course introduces the basic laws used in the analysis of electrical circuits. Specific topics covered include Kirchhoff's Laws, resistors in series and parallel, circuit analysismethods, op amps, Thevenin/Norton equivalent circuits, and superposition. The course is limited to DC circuit analysis.Multisimis introduced as a computer analysis tool. The associated laboratory reinforces the lecturematerial. (prereq:MA-136)
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4.00 Credits
After a brief review of DC circuit concepts andmethods, AC circuit analysis and frequency as a variable are introduced and developed. Specific topics covered include phasors, impedance, complex AC power,mutual inductance and transformers, RL and RC filters, and Bode plots. The use of the computer applicationMultisimis continued to include the AC analysis of circuits. The associated laboratory reinforces the lecturematerial. (prereq: EE-2050,MA-137)
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3.00 Credits
After a brief review of DC and AC circuit concepts andmethods, the course introduces and develops series and parallel resonance and the transient analysis of circuits, using both classical and Laplace transformtechniques. In addition, the analysis of circuits with step-function and sinusoidal sources leads to a general consideration of transfer functions.Multisimis used to simulate systemresponses. (prereq: EE-2060,MA-235)
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4.00 Credits
This course covers the theory and application of various semiconductor devices. An emphasis is placed on how these devices are used to interface a digital systemto the analog world. Devices that are covered include diodes, transistors, operational amplifiers, opto-isolators, analog-todigital converters, digital-to-analog converters, thyristors, and SCRs. Students are required to complete a number of design projects. The designs are prototyped and tested in the laboratory, and each studentmust submit a formal design report. (prereq: EE-2050 (or EE-201), CE-1910; coreq: EE-202 or CE-2800)
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4.00 Credits
This course introduces the non-electrical engineering student to basic DC circuit analysis. Topics include electrical quantities and definitions-voltage, current, power and energy; circuit analysis techniques using Ohm's and Kirchhoff's Laws,mesh currents and nodal voltages,network reduction, and Thevenin and Norton equivalents; and terminal characteristics of resistors, capacitors, inductors and operational amplifiers. (prereq:MA-128 orMA-137)
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4.00 Credits
After a brief review of DC circuit concepts andmethods, AC circuit analysis and frequency as a variable are introduced and developed. Specific topics covered include phasors, impedance, complex AC power,mutual inductance and transformers, RL and RC filters, and Bode plots. Analysis techniques for transients in first-order systems are then introduced. (prereq: EE-2501, MA-128 orMA-137)
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3.00 Credits
This course introduces the non-electrical engineering student to basic DC circuit analysis. Topics include electrical quantities and definitions-voltage, current, power and energy; circuit analysis techniques using Ohm's and Kirchhoff's Laws,mesh currents and nodal voltages,network reduction, and Thevenin and Norton equivalents; and terminal characteristics of resistors, capacitors, inductors and operational amplifiers. (prereq:MA-128 orMA-137)
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