http://up.smartcatalogiq.com/Home
94b7e20b-61d3-40ad-a3cb-96515f456dd0
https://searchproxy.smartcatalogiq.com/search
c4ff7a91-81a2-45d4-82c0-e64eed96b14c
other
/Institutions/University-of-Portland/json/2013-2014/bulletin-local.json
/Institutions/University-of-Portland/json/2013-2014/bulletin.json
200
Introduction to designing digital circuits. Topics include number systems, Boolean algebra, simplification of Boolean functions, design and analysis of combinational and sequential logic circuits, hierarchical design, and simulation of digital circuits.
3
Circuit elements and concepts. Ohm's and Kirchhoff's laws. Simple resistive circuits. Review of matrix algebra. Node voltage method using matrix equations. Superposition. Thevenin and Norton equivalent circuits. Maximum power transfer theorem. Capacitance and inductance. Natural and step response of first- and second-order circuits. Sinusoidal steady-state circuits. PSPICE is incorporated as a simulation software.
3
Prerequisites
MTH 202,
PHY 205 or corequisites.
Corequisites
EE 271.
MTH 202,
PHY 205 or prerequisites.
Introduction to continuous- and discrete-time signals and systems. Continuous- and discrete-time linear time-invariant systems. Convolution. Impulse and step response. Laplace transform. Fourier series and Fourier transform. Sampling. Z transform. MATLAB software is incorporated throughout.
3
Prerequisites
EE 261
Measurement experience with a variety of basic electrical instruments. The student engineer will verify many of the principles of electrical circuit theory. Fee: $40.
1
Corequisites
EE 261