Continuation of E&C-ENG 323. Design of more advanced electronic circuits. Design and analysis of integrated circuit amplifiers. Design and analysis of feedback amplifiers. Includes major design project. Prerequisite: E&C-ENG 323.

Continuation of E&C-ENG 323. Design of more advanced electronic circuits. Design and analysis of integrated circuit amplifiers. Design and analysis of feedback amplifiers. Includes major design project. Prerequisite: E&C-ENG 323.

Probability space, conditional probability, Bayes theorem. Combinatorial analysis. Random variables (r.v.'s), distribution and density functions. Expected value, moments, characteristic function. Function of r.v.'s, Multiple r.v.'s, conditional distributions, independent r.v.'s. Multivariate Gaussian r.v.'s. Parameter estimation, confidence intervals, hypothesis testing. Introduction to random processes: mean, autocorrelation, power spectral density. Prerequisite: E&C-ENG 313.

Probability space, conditional probability, Bayes theorem. Combinatorial analysis. Random variables (r.v.'s), distribution and density functions. Expected value, moments, characteristic function. Function of r.v.'s, Multiple r.v.'s, conditional distributions, independent r.v.'s. Multivariate Gaussian r.v.'s. Parameter estimation, confidence intervals, hypothesis testing. Introduction to random processes: mean, autocorrelation, power spectral density. Prerequisite: E&C-ENG 313.

With lab. Continuation of ECE 211. Analysis techniques for ac circuits, frequency response, resonance, Bode plots, phasor representation of sinusoidal steady-state systems, complex frequency domain, transfer functions. MOSFETs as amplifiers; operational amplifiers. Transformers, two-port networks, Fourier series. Lab includes circuit hardware and PSPICE simulation experiments.

With lab. Continuation of ECE 211. Analysis techniques for ac circuits, frequency response, resonance, Bode plots, phasor representation of sinusoidal steady-state systems, complex frequency domain, transfer functions. MOSFETs as amplifiers; operational amplifiers. Transformers, two-port networks, Fourier series. Lab includes circuit hardware and PSPICE simulation experiments.

With lab. Continuation of ECE 211. Analysis techniques for ac circuits, frequency response, resonance, Bode plots, phasor representation of sinusoidal steady-state systems, complex frequency domain, transfer functions. MOSFETs as amplifiers; operational amplifiers. Transformers, two-port networks, Fourier series. Lab includes circuit hardware and PSPICE simulation experiments.

With lab. Continuation of ECE 211. Analysis techniques for ac circuits, frequency response, resonance, Bode plots, phasor representation of sinusoidal steady-state systems, complex frequency domain, transfer functions. MOSFETs as amplifiers; operational amplifiers. Transformers, two-port networks, Fourier series. Lab includes circuit hardware and PSPICE simulation experiments.

Concepts include infrastructure used for drinking water and sanitation provision in urban and rural areas in developing countries and the fundamentals of the health-related impacts of water and sanitation including waterborne pathogens, their transmission routes, and prevention, control, and treatment measures. Students will gain insight into considerations of sustainability, reliability, and the non-health impacts of water and sanitation services.