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Course Criteria
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2.00 Credits
Second Semester ? Electrical Engineering Design This course is conducted as a guided project design course over a two semester period, with the class divided into teams, each assigned a specific design project. Periodic progress reports, a final written report, an oral presentation and project demonstration are required. Cost analysis, societal impact, safety issues, evaluation of design alternatives and application of engineering principles will be emphasized. 2.000 Credit hours 2.000 Lecture hours Levels: Undergraduate Schedule Types: Seminar Electrical & Computer Engin Department Course Attributes: Upper Division
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2.00 Credits
Second Semester Computer Engineering Design This course is conducted as a guided project design course over a two semester period, with the class divided into teams, each assigned a specific design project. Periodic progress reports, a final written report, an oral presentation and project demonstration are required. Cost analysis, societal impact, safety issues, evaluation of design alternatives and application of engineering principles will be emphasized. 2.000 Credit hours 2.000 Lecture hours Levels: Undergraduate Schedule Types: Seminar Electrical & Computer Engin Department Course Attributes: Upper Division
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3.00 Credits
This course is conducted as a guided project design course over a two-semester period, with the class divided into teams, each assigned a specific design project. Periodic progress reports, a final written report, an oral presentation and project demonstration are required. Cost analysis, societal impact, safety issues, evaluation of design alternatives, and application of engineering principles will be emphasized. A series of lectures on design issues will be presented in the first semester. 3.000 Credit hours 3.000 Lecture hours Levels: Undergraduate Schedule Types: Lecture Electrical & Computer Engin Department Course Attributes: Upper Division
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3.00 Credits
This course is conducted as a guided project design course over a two-semester period, with the class divided into teams, each assigned a specific design project. Periodic progress reports, a final written report, an oral presentation, and application of demonstration are required. Cost analysis, societal impact, safety issues, evaluation of design alternatives and application of engineering principles will be emphasized. A series of lectures on design issues will be presented in the first semester. 3.000 Credit hours 3.000 Lecture hours Levels: Undergraduate Schedule Types: Lecture Electrical & Computer Engin Department Course Attributes: Upper Division
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2.00 Credits
A four-month professional work experience period of the Engineering Internship Program, integrated and alternated with the classroom terms. 2.000 Credit hours 2.000 Other hours Levels: Undergraduate Schedule Types: Internship/Co-op, Independent Study Electrical & Computer Engin Department Course Attributes: Additive Credit, Upper Division
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3.00 Credits
Introduction, OP AMP circuits and applications, bilinear transfer functions and frequency characteristics, first order and biquad circuits, Butterworth lowpass and bandpass filters, Chebyshev and Cauer filter, delay filter, frequency transformation, ladder design with simulated elements, leapfrog simulation, full and partial impedance scaling simulations, switched capacitor filters, sensitivity analysis. 3.000 Credit hours 3.000 Lecture hours Levels: Graduate, Rackham, Undergraduate Schedule Types: Lecture, Internet/E-mail Electrical & Computer Engin Department
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3.00 Credits
Numerical methods required for circuit analysis and design using digital computers are investigated. These techniques include matrix analysis of linear systems; network graphic theory, tolerance analysis, transient analysis, numerical integration, nonlinear circuit analysis, network optimization, and device modeling. Practical examples are given requiring the construction of computer subroutines and use of general analysis programs such as ECAP and CIRAN. Three lecture hours. 3.000 Credit hours 3.000 Lecture hours Levels: Graduate, Rackham, Undergraduate Schedule Types: Lecture Electrical & Computer Engin Department
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3.00 Credits
The basic limitations and alternatives for communications signaling are studied, using appropriate mathematical tools. The topics include: review of information measure; random process and vector description of signals and noise; optimum receiver principles; signaling alternatives; channel capacity; block and convolutional coding; waveform estimation concepts. Practical system examples are stressed. 3.000 Credit hours 3.000 Lecture hours Levels: Doctorate, Graduate, Rackham Schedule Types: Lecture, Internet/E-mail Electrical & Computer Engin Department
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3.00 Credits
Introduction to linear spaces and operators; mathematical description of multiple input-output systems; state variables and state transition matrix; controllability and observability and its application to irreducible realization oftransfer function matrices; state variable estimation; controller synthesis by state feedback; stability of linear systems; analysis of composite systems. 3.000 Credit hours 3.000 Lecture hours Levels: Doctorate, Graduate, Rackham, Undergraduate Schedule Types: Lecture, Internet/E-mail Electrical & Computer Engin Department
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3.00 Credits
Mathematical representation of digital control systems; z-transform and difference equations; classical and state space methods of analysis and design; direct digital control of industrial processes. 3.000 Credit hours 3.000 Lecture hours Levels: Doctorate, Graduate, Rackham Schedule Types: Lecture Electrical & Computer Engin Department
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