Topics include frequency response and the role of feedback in electronic circuits, differential and multistage MOS and BJT amplifiers, real operational amplifier characteristics, instrumentation amplifiers, active filters, oscillators, waveform generation circuits and power supplies. Transducers, noise and noise reductions techniques, and measurement theory and standards are also covered, along with analog and digital interfacing circuits. Weekly hours: 3 Lecture hours and 3 Practicum/Lab hoursPrerequisite(s): EP 214, EE 221 and EE 232. Note: Students with credit for EE 323 or EP 313 will not receive credit for this course.
Topics include frequency response and the role of feedback in electronic circuits, differential and multistage MOS and BJT amplifiers, real operational amplifier characteristics, instrumentation amplifiers, active filters, oscillators, waveform generation circuits and power supplies. Transducers, noise and noise reductions techniques, and measurement theory and standards are also covered, along with analog and digital interfacing circuits. Weekly hours: 3 Lecture hours and 3 Practicum/Lab hoursPrerequisite(s): EP 214, EE 221 and EE 232. Note: Students with credit for EE 323 or EP 313 will not receive credit for this course.
