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| * [[https://people.ee.ethz.ch/~haschmid/asf/08/asf_ex08_newSC_B_solution_calcs.ipynb|Reference solution: Python notebook]] | * [[https://people.ee.ethz.ch/~haschmid/asf/08/asf_ex08_newSC_B_solution_calcs.ipynb|Reference solution: Python notebook]] |
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| * [[https://people.ee.ethz.ch/~haschmid/asf/08/asf_ex08_scfilter.pdf|Exercise 08 (for Lecture 3)]] * [[https://people.ee.ethz.ch/~haschmid/asf/08/asf_ex08_scfilter_solution.pdf|Reference Solution]] |
* No exercises for Lecture 3 |
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---- == Lecture 3 from 2022 == Exercises * [[https://people.ee.ethz.ch/~haschmid/asf/08/asf_ex08_scfilter.pdf|Exercise 08 (for Lecture 3)]] * [[https://people.ee.ethz.ch/~haschmid/asf/08/asf_ex08_scfilter_solution.pdf|Reference Solution]] |
Switched-capacitor filters, kT/C noise, chopping, and correlated double sampling.
Lecture along the lines of Schmid, H. & Huber, A. Analog Integr Circ Sig Process (2018) 96: 495.
Exercises
- No exercises for Lecture 3
Additional material
The derivation of the kT/C Formula is on p.~254 of the following paper:
Suppressing flicker noise, which is not part of 2019's curriculum, is described here:
Lecture 3 from 2022
Exercises
Lectures 2019
Lecture Content 2018
Lectures
Exercises
Lecture Content 2017
This did not work so well, and I will do it differently in 2018.
Blackboard Photos
Exercises
SC Filters 1