Electrical and Computer Engineering (ECE) Courses>Linear Circuits II

ECE300 - Linear Circuits II

Description

Phasors. Design of complex loads for maximum power transfer. Coupled inductive circuits and ideal transformers. Laplace transform analysis and matrix characterization of loop and node circuits. Design of controlled source circuits and ideal operational amplifiers. Feedback in design. Driving point and transfer function analysis with design for pole and zero placement in simple passive circuits and second order resonant responses, design for stability or oscillation in active circuits. Bode plots. Two-port parameters.

Units

1.5

Hours: lecture-lab-tutorial

3-1.5-0

Formerly

ELEC 300

Note(s)

  • Credit will be granted for only one of ECE 300, ELEC 300.

Prerequisites

  • Complete all of the following
    • Complete 1 of:
      • ECE250 - Linear Circuits I (1.5)
      • ELEC250 - Linear Circuits I (1.5)
    • Complete 1 of:
      • ECE260 - Continuous-Time Signals and Systems (1.5)
      • ELEC260 - Continuous-Time Signals and Systems (1.5)

Pre- or corequisites

  • Completed or concurrently enrolled in 1 of:
    • MATH201 - Introduction to Differential Equations (1.5)
    • MATH204 - Calculus IV (1.5)

Course offered by

Department of Electrical and Computer Engineering

Course schedules

Summer timetable available: February 15. Fall and Spring timetables available: May 15.

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