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Inductor simulation, impedance converters, and LC filter simulation

Exercise

Gyrators appear as parts of other circuits, oftehn undetected. As promised in the lecture of Oct 25, 2017, here is the complete analysis that I did incorrectly during the lecture because I improvised.
The correct opamp polarity that gives a stable NIC is not always easy to determine; one example showing a calculation is shown in this reply to a student's question in 2013.

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-= Lecture 04: Inductor simulation, impedance converters, and LC filter simulation =

== Lecture ==
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= Inductor simulation, impedance converters, and LC filter simulation =
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- * [[http://people.ee.ethz.ch/~hps/asf/04/asf_ex04_inductors.pdf|Exercise 04]]
 * [[http://people.ee.ethz.ch/~hps/asf/04/asf_ex04_inductors_solution.pdf|Reference Solution to Exercise 04]]
+ * [[https://people.ee.ethz.ch/~haschmid/asf/04/asf_ex04_inductors.pdf|Exercise 04]]
 * [[https://people.ee.ethz.ch/~haschmid/asf/04/asf_ex04_inductors_solution.pdf|Reference Solution to Exercise 04]]

== Additional Material ==

 * Gyrators appear as parts of other circuits, oftehn undetected. As promised in the lecture of Oct 25, 2017, here is [[https://people.ee.ethz.ch/~haschmid/asf/04/asf_04_notes.zip|the complete analysis]] that I did incorrectly during the lecture because I improvised.
 * The correct opamp polarity that gives a stable NIC is not always easy to determine; one example showing a calculation is shown [[https://people.ee.ethz.ch/~haschmid/asf/04/120320_NIC.pdf|in this reply to a student's question in 2013]].