This course covers fundamental topics that are common to a wide variety of electrical engineering devices and systems. The topics include circuit analysis techniques, passive and active components modeling, operational amplifiers, energy storage elements, power analysis, time-response of first- and second-order systems, sinusoidal steady-state response, frequency domain analysis, and filters. Other topics may include: diodes and transistors, basic noise analysis, transformers, pole-zero plotting and analysis in the complex plane. The laboratories are designed to give students the opportunity to build and operate circuits that address specific concepts covered in the lectures, including circuit and component modeling, amplifiers, filters, and signal detection & processing. 3 hrs. lec., 1 hr. rec., 3 hrs. lab.
This course covers fundamental topics that are common to a wide variety of electrical engineering devices and systems. The topics include circuit analysis techniques, passive and active components modeling, operational amplifiers, energy storage elements, power analysis, time-response of first- and second-order systems, sinusoidal steady-state response, frequency domain analysis, and filters. Other topics may include: diodes and transistors, basic noise analysis, transformers, pole-zero plotting and analysis in the complex plane. The laboratories are designed to give students the opportunity to build and operate circuits that address specific concepts covered in the lectures, including circuit and component modeling, amplifiers, filters, and signal detection & processing. 3 hrs. lec., 1 hr. rec., 3 hrs. lab.
This course covers fundamental topics that are common to a wide variety of electrical engineering devices and systems. The topics include circuit analysis techniques, passive and active components modeling, operational amplifiers, energy storage elements, power analysis, time-response of first- and second-order systems, sinusoidal steady-state response, frequency domain analysis, and filters. Other topics may include: diodes and transistors, basic noise analysis, transformers, pole-zero plotting and analysis in the complex plane. The laboratories are designed to give students the opportunity to build and operate circuits that address specific concepts covered in the lectures, including circuit and component modeling, amplifiers, filters, and signal detection & processing. 3 hrs. lec., 1 hr. rec., 3 hrs. lab.
Textbooks listed may be optional. Verify books with the course syllabus. * Items may be in new or used condition. Check site for details. ** Shipping, handling and taxes are estimated. Actual charges may vary.
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email: tcpulse@andrew.cmu.edu :: phone: 801.848.4812 :: fax: 801.848.4812 :: mail: The Carnegie Pulse | Carnegie Mellon University | University Center, Box 78 | Pittsburgh, PA 15213 ::
(c) Copyright 2004 The Carnegie Pulse, Carnegie Mellon's first exclusively online student-run news source.
Textbooks listed may be optional. Verify books with the course syllabus. * Items may be in new or used condition. Check site for details. ** Shipping, handling and taxes are estimated. Actual charges may vary.
talkback to the pulse
No comments about this course have been posted, yet. Be the first to post!
Share your opinion on this course with other Pulse readers. Login below or register to begin posting.
email: tcpulse@andrew.cmu.edu :: phone: 801.848.4812 :: fax: 801.848.4812 :: mail: The Carnegie Pulse | Carnegie Mellon University | University Center, Box 78 | Pittsburgh, PA 15213 ::
(c) Copyright 2004 The Carnegie Pulse, Carnegie Mellon's first exclusively online student-run news source.
$97.25 
