Fundamental and advanced concepts of digital logic. Boolean algebra and functions. Design and implementation of combinational and sequential logic, minimization techniques, number representation, and basic binary arithmetic. Logic families and digital integrated circuits and use of CAD tools for logic design.

- Teacher: Chris Dellamedaglia
- Teacher: Ivan Sekyonda

Fundamental and advanced concepts of digital logic. Boolean algebra and functions. Design and implementation of combinational and sequential logic, minimization techniques, number representation, and basic binary arithmetic. Logic families and digital integrated circuits and use of CAD tools for logic design.

- Instructor: Ivan Sekyonda

Fundamental and advanced concepts of digital logic. Boolean algebra and functions. Design and implementation of combinational and sequential logic, minimization techniques, number representation, and basic binary arithmetic. Logic families and digital integrated circuits and use of CAD tools for logic design.

- Instructor: Ivan Sekyonda
- Instructor: Douglas Summerville
- Instructor: Kenneth M. Zach

- Instructor: Jennifer C. Temkin

Units and definitions. Ohm's Law and Kirchhoff's Laws. Analysis of resistive circuits. Circuit analysis using: Nodal and mesh methods, Norton and Thevenin theorems, and voltage divider. Transient and sinusoidal steady-state response of circuits containing resistors, capacitors, and inductors. Online laboratory exercises.

- Instructor of Record: Ryan A. Hunter

- Instructor: Kyle Temkin