Mathematical models for analog circuit elements such as resistors, capacitors, opamps and MOSFETs as switches. Basic circuit laws and network theorems applied to dc, transient, and steady-state response of first- and second-order circuits. Modeling circuit responses using differential equations Computer and laboratory projects. NOTE: Grades of C or better in MATH 132 and PHYSICS 152 are strongly recommended.

Mathematical models for analog circuit elements such as resistors, capacitors, opamps and MOSFETs as switches. Basic circuit laws and network theorems applied to dc, transient, and steady-state response of first- and second-order circuits. Modeling circuit responses using differential equations Computer and laboratory projects. NOTE: Grades of C or better in MATH 132 and PHYSICS 152 are strongly recommended.

An introduction to using computer applications to solve engineering problems. Learning the rudiments of MATLAB, Excel, and Python in order to design and/or visualize systems. Emphasis is on learning to use these applications appropriately and efficiently, with well structured code that is commented and includes checks to find errors.

Weekly hands-on electronics lab with term project. Weekly three-hour scheduled lab. Additional two hours of studying/reading/prototyping expected outside of the scheduled lab time. Electronic circuit schematic diagrams, circuit theory, LEDs, transistors, ICs (integrated circuits) and other electronic components. Assembly language programming and microprocessor peripherials. No prior experience with electronic circuits or computer programming required.

Weekly hands-on electronics lab with term project. Weekly three-hour scheduled lab. Additional two hours of studying/reading/prototyping expected outside of the scheduled lab time. Electronic circuit schematic diagrams, circuit theory, LEDs, transistors, ICs (integrated circuits) and other electronic components. Assembly language programming and microprocessor peripherials. No prior experience with electronic circuits or computer programming required.

Weekly hands-on electronics lab with term project. Weekly three-hour scheduled lab. Additional two hours of studying/reading/prototyping expected outside of the scheduled lab time. Electronic circuit schematic diagrams, circuit theory, LEDs, transistors, ICs (integrated circuits) and other electronic components. Assembly language programming and microprocessor peripherials. No prior experience with electronic circuits or computer programming required.

This is a stand-alone independent study designed by the student and faculty sponsor that involves frequent interaction between instructor and student. Qualitative and quantitative enrichment must be evident on the proposed contract before consent is given to undertake the study

Not available at this time

The theory of digital circuits and computer systems stressing general techniques for the analysis and synthesis of combinational and sequential logic systems. Limited to ENGIN EE and CSE majors.

The theory of digital circuits and computer systems stressing general techniques for the analysis and synthesis of combinational and sequential logic systems. Limited to ENGIN EE and CSE majors.