==========================
20-03-2025: Electronics 11
==========================

Date: Thursday, March 20 2025

Location: Boole (36.HB.T0.610)

Time: 08:45 - 10:30

.. image:: ../../../img/colorCode.svg
    :alt: color coded resistors

.. admonition:: Question of the day

    How do we find requirements for the controller?

Modeling of negative feedback circuits
======================================
   
.. include:: ../../../topics/Amplifiers2stepDesignFeedback/amplifiers2stepDesignFeedback.rst
.. include:: ../../../topics/FeedbackModelBlack/FeedbackModelBlack.rst
.. include:: ../../../topics/FeedbackModelAsymptotic-gain/FeedbackModelAsymptotic-gain.rst
.. include:: ../../../topics/FeedbackModelSelectionReference/FeedbackModelSelectionReference.rst

Downloads
=========

- `Poster: modeling of negative feedback <../../../posters/feedbackModelPoster.pdf>`_

Homework
========

`Homework 9 <../../../downloads/EE3C11-Team-exercise9.pdf>`_:

#. Evaluate the frequency characteristics of the asymptotic-gain, the loop gain and the servo function for the transmitter equipped with the `TLV4111 <https://www.ti.com/lit/ds/symlink/tlv4111.pdf>`_, designed to deliver 100mA peak into the transmit coil. Use SLiCAP to plot the frequency characteristics.
#. Evaluate the frequency characteristics of the asymptotic-gain, the loop gain and the servo function for the receiver equipped with the `OPA209 <https://www.ti.com/lit/ds/symlink/opa209.pdf>`_, designed with a transmitter that delivers 100mA peak into the transmit coil. Use SLiCAP to plot the frequency characteristics.
#. See `Homework support </EE3C11-2024-2025/courseWebSite/HearingLoop/HearingLoop.html>`_