Study of electric machines and electromechanical systems.

Laboratory practice and experimental studies related to EE 415G. Lecture one hour; laboratory, three hours.

Laboratory practice and experimental studies related to EE 415G. Lecture one hour; laboratory, three hours.

Laboratory practice and experimental studies related to EE 415G. Lecture one hour; laboratory, three hours.

An introduction to continuous and discrete signal and system models and analyses. Topics include discrete and continuous convolution, Fourier transforms, and Laplace transforms and Z-transforms with application examples including AM modulation and the sampling theorem.

An introduction to continuous and discrete signal and system models and analyses. Topics include discrete and continuous convolution, Fourier transforms, and Laplace transforms and Z-transforms with application examples including AM modulation and the sampling theorem.

Lectures and laboratory exercises on signal and system modeling. Topics include noise models and analysis, filter design, modulation techniques, sampling, discrete Fourier Transforms, State Variable Models, and feedback design with an emphasis on using computer software for analysis and simulation.

Lectures and laboratory exercises on signal and system modeling. Topics include noise models and analysis, filter design, modulation techniques, sampling, discrete Fourier Transforms, State Variable Models, and feedback design with an emphasis on using computer software for analysis and simulation.

Analysis and design of electronic circuitry incorporating nonlinear electronic elements such as transistors, FET's, and vacuum tubes. Applications to amplifiers.

Experimental exercises in the design and analysis of useful electronic circuits incorporating semiconductor devices: transistors, tunnel and Zener diodes; also, vacuum tubes, integrated circuits and operational amplifiers. Lecture, one hour; laboratory, three hours.