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=Rhea Section for ECE 201 Professor Peleato, Spring 2015=
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[[Category:ECE201]]
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[[Category:ECE]]
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[[Category:ECE201Spring2015Peleato]]
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[[Category:circuits]]
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[[Category:linear circuits]]
  
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= [[ECE201|ECE 201]]: Linear Circuit Analysis I  =
  
<br>
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== Professor Peleato, Spring 2015 ==
 
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= [[ECE438|ECE 438]]: Digital Signal Processing with Applications  =
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== Professor Boutin, Fall 2014 ==
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----
 
----
 
<div style="background: none repeat scroll 0% 0% rgb(238, 238, 255); border-width: 1px 1px 1px 4px; border-style: solid; border-color: rgb(68, 68, 136) rgb(68, 68, 136) rgb(68, 68, 136) rgb(51, 51, 136); width: 30em; padding: 2em; margin: auto;">
 
<div style="background: none repeat scroll 0% 0% rgb(238, 238, 255); border-width: 1px 1px 1px 4px; border-style: solid; border-color: rgb(68, 68, 136) rgb(68, 68, 136) rgb(68, 68, 136) rgb(51, 51, 136); width: 30em; padding: 2em; margin: auto;">
 
Message area:  
 
Message area:  
*You can get your graded HW9 from Camille in MSEE330 (with your student ID)
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*The main webpage for the course is in Blackboard. This webpage only contains supplemental materials (optional).
*Please submit all your regardes/grade changes requests by noon on Wednesday Dec 17.  
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*Hi fellow students, I talked to Prof. Mimi about hosting extra office hours next week before the final; Which day works best for everyone that is interested? Comment below, thanks
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:just put an 'X' next to which day works best
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::Monday : XX
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::Teusday :
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::Wednessday :
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::Thursday :
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</div>  
 
</div>  
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== Course Information  ==
 
== Course Information  ==
  
*Instructor: [[User:Mboutin|Prof. Mimi]]  
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*Instructor: [[User:bpeleato|Prof. Peleato]]  
**Office: MSEE 342
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**Email: bpeleato at purdue dot you know what
**[[Open office hours mboutin|Office hours]] are listed [[Open office hours mboutin|here]].  
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**Office: MSEE 233C
*Teaching Assistant: [[User:Shenkt|Trey Shenk]]
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**Office hours: MW 10:20-12.  
**Email: shenkt at purdue dot you know what
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*Teaching Assistant:
*Teaching Assistant: [[User:jang69|Ikbeom Jang]]
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**ECE201 related questions: Anantha Raghuraman (araghura at purdue dot you know what)
**Email: jang69 at purdue dot you know what  
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**Rhea related questions: Huizhi Lu (huizhilu at purdue dot you know what)
*[[Lecture Schedule ECE438Fall14 Boutin|Course Outline]] (Approximate schedule with detailed reference list)  
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*[https://mycourses.purdue.edu/bbcswebdav/pid-4553645-dt-content-rid-14798244_1/courses/wl_17103.201520/Syllabus_ECE201_Spring15.pdf Course Syllabus]
*[[Media:SyllabusECE438F14boutin.pdf|Course Syllabus]]  
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*What [[Peer_Legacy_ECE201|past students are saying about ECE201]]
*Important Dates:
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**Test 1: <span style="text-decoration: line-through;">Friday October 10, 2014  </span> <span style="color:red"> Friday October 17, 2014 </span>
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**Test 2: Friday December 5, 2014
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**Final, TBA
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== Labs ==
+
 
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[[ECE438 Lab Fall 2014|Here]]  
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+
 
----
 
----
 +
== A bonus point opportunity  ==
 +
Students in [[ECE201]]-004 Spring 2015 have the opportunity to earn bonus points by creating exercises (i.e. practice problems) or [http://www.projectrhea.org/learning/slectures.php slectures] related to linear circuit analysis. These bonus points will not have a significant impact on your letter grade, but will help tilt the balance towards a higher grade if you are close to the threshold. Also, they could be the difference between an A and an A+. Keep in mind that quality is more important than quantity. The material must be original, created by you. Plagiarizing or simply copying lecture notes found on the internet will be considered cheating and will result in a significant lowering of your grade. Read [[Rhea:Copyrights|Rhea's copyright policy]] before proceeding.
  
== Resources  ==
+
If you wish to post your material anonymously, please contact [[user:mboutin|Prof. Mimi]] to get an anonymous login. Otherwise, you will be identifiable through your Purdue CAREER account, and thus you will NOT be anonymous.
  
*[[Collective Table of Formulas|Rhea's Collective Table of Formulas]]. Add your formulas now!
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If you want to know how to edit Rhea and create your material, the easiest is to meet with [[user:mboutin|Prof. Mimi]] and she will be happy to help you get started. Her office hours are posted [[Open_office_hours_mboutin|here]]. You can also go ahead and start building your material using the Templates below. First login using your Purdue CAREER account credential (or anonymous login, when applicable) and click on the desired template. Then, once in the desired template page, click "Show Source" under the "Actions" tab, and COPY the template source code. Then, come back to this page and click the link "Create a child page" on the left-hand menu. Include the string ECE201S15 in the name for the new page (remember the name that you chose, since you will need it to create the link later). You may now paste the source code and start editing the new page. Once you are done, make sure to post a link on this page to your newly created one. You can always find the pages that you have recently edited in the "User" menu above, under "Contributions".
**[[CT Fourier Transform (frequency in hertz)|CTFT]]  
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**[[Table DT Fourier Transforms|DTFT]]  
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**[[Z Transform table|z-transform]]
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*[[How to Enter Math in Rhea|Cheat Sheet for Rhea Math]]
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*[https://www.projectrhea.org/rhea/images/9/91/Zpgui3.m.zip zpgui3.m] A MATLAB GUI showing the effect of poles and zeros during filter design.  
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*[[DTFT Window Function|Graph of Magnitude of DTFT of a window function]]
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----
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'''For Material in Text Form'''
 +
You must write your material using the markup language wikitext. Mathematical formulas are written in [[How to Enter Math in Rhea|latex]] (see link below for [[How to Enter Math in Rhea|examples]]). Circuits can be hand-drawn, scanned, and uploaded as images. See more guidelines under the corresponding templates below.
  
== Lecture Blog  ==
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'''For Material in Video Form'''
 
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The easiest is to either videotape yourself at the blackboard or videotape your hand writing on paper. There is a lab with white board, doc cam, green screen, video editing, etc. in MSEE 393. Email [[user:mboutin|Prof. Mimi]] (mboutin at purdue) for an appointment if interested. After some minor editing (title page, etc.), your movie will be uploaded on the [https://www.youtube.com/user/projectrhea Project Rhea youtube channel] (just email it to Prof. Mimi) and you will need to embed it on your project page. (The code for embedding videos is on the templates below.) [[user:mboutin|Prof. Mimi]] has resources to help you create your video, including help for the videotaping and video editing. You can also create the video on your own but please make sure to follow the guidelines listed below the corresponding template below. 
[[Lecture1ECE438F14|Lecture 1]], [[Lecture2ECE438F14|2]], [[Lecture3ECE438F14|3]] ,[[Lecture4ECE438F14|4]] ,[[Lecture5ECE438F14|5]] ,[[Lecture6ECE438F14|6]] ,[[Lecture7ECE438F14|7]] ,[[Lecture8ECE438F14|8]] ,[[Lecture9ECE438F14|9]] ,[[Lecture10ECE438F14|10]] ,[[Lecture11ECE438F14|11]] ,[[Lecture12ECE438F14|12]] ,[[Lecture13ECE438F14|13]] ,[[Lecture14ECE438F14|14]] ,[[Lecture15ECE438F14|15]] ,[[Lecture16ECE438F14|16]] ,[[Lecture17ECE438F14|17]] ,[[Lecture18ECE438F14|18]] ,[[Lecture19ECE438F14|19]] ,[[Lecture20ECE438F14|20]] ,[[Lecture21ECE438F14|21]] ,[[Lecture22ECE438F14|22]] ,[[Lecture23ECE438F14|23]] ,[[Lecture24ECE438F14|24]] ,[[Lecture25ECE438F14|25]] ,[[Lecture26ECE438F14|26]] ,[[Lecture27ECE438F14|27]] ,[[Lecture28ECE438F14|28]] ,[[Lecture29ECE438F14|29]] ,[[Lecture30ECE438F14|30]] ,[[Lecture31ECE438F14|31]] ,[[Lecture32ECE438F14|32]] ,[[Lecture33ECE438F14|33]] ,[[Lecture34ECE438F14|34]] ,[[Lecture35ECE438F14|35]] ,[[Lecture36ECE438F14|36]] ,[[Lecture37ECE438F14|37]] ,[[Lecture38ECE438F14|38]] ,[[Lecture39ECE438F14|39]] ,[[Lecture40ECE438F14|40]] ,[[Lecture41ECE438F14|41]] ,[[Lecture42ECE438F14|42]] ,[[Lecture43ECE438F14|43]] ,[[Lecture44ECE438F14|44]], [[Final examECE438F14|final exam]] .  
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----
 
----
 
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== Resources ==
== Homework ==
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*[[Collective Table of Formulas|Rhea's Collective Table of Formulas]].
 
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**[[Ohm's law|Ohm]]  
*[[HW1ECE38F14|HW1]], [[HW1ECE38F14 Solution|Solution]]  
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*[[How to Enter Math in Rhea|Cheat Sheet for Rhea Math]]  
*[[HW2ECE438F14|HW2]], [[HW2ECE438F14 Soln|Solution]]  
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*Templates
*[[HW3ECE438F14|HW3]], [[HW3ECE438F14 Soln|Solution]]  
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**[[Template for Text practice problem ECE201|Template for text practice problem ]]
*[[HW4ECE438F14|HW4]], [[HW4ECE438F14_Soln|Solution]]
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***[[guidelines for text practice problem ECE201|Guidelines for text practice problem]]
*[[HW5ECE438F14|HW5]], [[HW5ECE438F14_Soln|Solution]]
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**[[Template for Video practice problem ECE201|Template for video practice problem]]
*[[HW6ECE438F14|HW6]], [[HW6ECE438F14_Soln|Solution]]
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***[[guidelines for video practice problem ECE201|Guidelines for video practice problem]]
*[[HW7ECE438F14|HW7]], [[HW7ECE438F14_Soln|Solution]]
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**[[Template Text Slecture ECE201|Template for text slecture]]  
*[[HW8ECE438F14|HW8]], [[HW8ECE438F14_Soln|Solution]]  
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***[[guidelines for Text Slecture ECE201|Guidelines for Text Slecture]]
*[[HW9ECE438F14|HW9]], [[HW9ECE438F14_Soln|Solution]]
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**[[Template for video slecture ECE201|Template for video slecture]]  
*[[HW10ECE438F14|HW10]], [[HW10ECE438F14_Soln|Solution]]
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***[[guidelines for video slecture ECE201|Guidelines for video slecture]]
*[[HW11ECE438F14|HW11]], [[HW11ECE438F14_Soln|Solution]]
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----
 
----
 +
== Suggested topics  ==
 +
Feel free to create your own
  
== [https://www.projectrhea.org/learning/slectures.php Slectures] ==
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'''Suggested topics for [http://www.projectrhea.org/learning/slectures.php slectures]:'''
 +
*Voltage and current
 +
**[[slecture_Grace_current_division_linear_circuits_ECE201_S15_Peleato|Current Division - video slecture by Grace Kennay]]
 +
**[[slecture_Grace_voltage_division_linear_circuits_ECE201_S15_Peleato|Voltage Division - video slecture by Grace Kennay]]
 +
**Version 1, from a mechanics perspective
 +
**Version 2, from a fluids perspective
 +
*Ohm, power, and sign conventions
 +
*KVL, KCL, current and voltage division
 +
*Nodal Analysis
 +
*Mesh/Loop Analysis
 +
*Superposition and Linearity
 +
*Thevenin and Norton
 +
*Maximum Power Transfer (Resistive networks)
 +
**[[slecture_Mason_maximum_power_transfer_linear_circuits_ECE201_S15_Peleato|Video slecture by Melissa Mason]]
 +
*Inductors
 +
*Capacitors
 +
*First order circuits: step response
 +
*Response classification
 +
*Second order circuits (source free)
 +
*Second order circuits (constant input)
 +
*Operational Amplifier
 +
*First order circuits with op-amps
 +
*Phasors
 +
**[[slecture_complex_numers_phasors_James_Herman_ECE201S15|Complex number notation]], a video slecture by James Herman
 +
*SSS analysis
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*Frequency response (filters)
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*Complex power
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*Power factor improvement and maximum power transfer
  
Post a link to your slecture page below the relevant topic. If you want to reserve a particular topic, write your name/nickname below the topic. Please no more than 4 students per topic. To build your slecture page, you should use the following templates.
 
  
*[[Slecture template ECE438F14|Template for text slecture]]
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Suggested topics (supplemental):
*[[Slecture template video ECE438F14|Template for video slecture]]
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*The physics behind linear circuits
*[[Slecture template review page ECE438|Template for question page]] (use the same template for both video and text slectures.
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*Complex number review
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*Parallelism between SSS and resistive networks
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*Applications in the real world
  
*'''Topic 1''': Fourier transform as a function of frequency <span class="texhtml">ω</span> versus Fourier transform as a function of frequency <span class="texhtml">''f''</span> (in hertz). (Make sure to give some examples, including some signal whose FT nvolves Dirac delta(s). For that signal whose FT involves Dirac delta(s), compute the FT two different ways: 1) by starting from the ECE301 FT pair and making a change of variable, and 2) using the CTFT formulas. Observe that the expressions for the FT are different. Then point out that one can transform one expression into the other using the scaling property of the Dirac delta.) DEADLINE September 19
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'''Suggested Exercises (Practice Problem):'''
**[[Slecture Fourier transform w f ECE438|Text slecture]] by Dauren <span style="color:red"> 15 reviews needed here.</span>
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*[[Problem 12 Exam 1]]
**[[Fourier Transform as a FUnction of Frequency w versus Frequency f (in Hertz)|Text slecture]] by Randall Cochran <span style="color:red"> 15 reviews needed here.</span>
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*[[Paul_Wonnacott_Equivalent_Resistance_ECE201S15|Equivalence Resistance Problem]], by Paul Wonnacott
*'''Topic 2''': Definition of the "rep" and "comb" operators. (Note that there are two ways to define each of these operators: using multiplication/convolution with an impulse train, or using a summation formula without impulse-train. You should include both representations and explain how to go from one to the other.) DEADLINE September 19
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*[[Paul_Wonnacott_Current_Division_ECE201S15|Current Division problem]], by Paul Wonnacott
**[[Slecture rep comb ECE438 Xiaozhe|Text slecture]] by Xiaozhe Fan <span style="color:red"> 30 reviews needed here.</span>
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*[[Chinar_Dhamija_loop_analysis_practice_ECE201S15|Loop analysis problem]], by Chinar Dhamija
*'''Topic 3''': Fourier transform of "rep" and "comb". (Make sure to carefully explain how to compute the Fourier transform of an impulse-train. You do not need to prove the multiplication/convolution property of the CTFT, but state it clearly whenever you need to use it.) DEADLINE October 1
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*[[Chinar_Dhamija_Voltage_Division_Practice_ECE201S15|Voltage Division problem]], by Chinar Dhamija
**[[Fourier Transform rep com Ben ECE438 slecture|Video slecture]] by Ben Capano<span style="color:red"> 15 reviews needed here.</span>
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*[[Chinar_Dhamija_OpAmp_Practice_ECE201S15|Op Amp problem]], by Chinar Dhamija
**[[Fourier Transform rep com Youqin Liu ECE438 slecture|slecture]] by Youqin Liu <span style="color:red"> Do not review (no question page).</span>
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*[[Chinar_Dhamija_Summer_Op_Amp_Practice_ECE201S15|Summing Op Amp problem]]by Chinar Dhamija
**[[Ftrepcomb mattmiller|Text Slecture]] by Matt Miller <span style="color:red"> 15 reviews needed here.</span>
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*[[Chinar_Dhamija_Simplifying_Circuit_Practice_ECE201S15|Simplifying a circuit problem]], by Chinar Dhamija
*'''Topic 4''': Discrete-time Fourier transform (DTFT): definition, periodicity property, example (computation of DTFT of a complex exponential- no fudging!) DEADLINE October 1
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*Sign conventions in a loop
**[[Discrete-time Fourier transform (DTFT) Slecture by Jacob Holtman|Text Slecture]] by Jacob Holtman <span style="color:red"> 15 reviews needed here.</span>
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*[[Combining resistors|Combining resistors]], by Karthik Bokka
**[[Discrete-time Fourier transform Slecture by Fabian Faes|Text Slecture]] by Fabian Faes <span style="color:red"> 15 reviews needed here.</span>
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*Resistor ladder
**[[Discrete-time Fourier transform Xian Zhang ECE438 slecture|Text slecture]] by Xian Zhang <span style="color:red"> Do NOT REVIEW-- AND DO NOT CHANGE THIS TEXT WITHOUT PERMISSION</span>
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*Discharging capacitor
*'''Topic 5''': Discrete-time Fourier transform (DTFT) of a sampled cosine. (Include Case 1) sampling rate above Nyquist rate, and Case 2) sampling rate below Nyquist rate.) DEADLINE October 3
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*Oscillator with different initial conditions
**[[DTFTCosinePawling|Text Slecture]] by Andrew Pawling <span style="color:red"> up to 9 reviews here.</span>
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*Etc (feel free to create your own problem title)
**[[Dtft sampling slecture srh|Text Slecture]] by Sutton Hathorn <span style="color:red"> up to 9 reviews here.</span>
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**[[Text Slecture|Text Slecture]] by Sahil Sanghani <span style="color:red"> up to 9 reviews here.</span>
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**[[DTFT of a sampled cosine Yijun ECE438 slecture|Text slecture]] by Yijun Han <span style="color:red"> up to 9 reviews here.</span>
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*'''Topic 6''': Nyquist Theorem, with proof and example DEADLINE October 6
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**[[Nyquist Michael Hayashi ECE438 slecture|Text slecture]] by Michael Hayashi <span style="color:red"> 10 reviews needed here.</span>
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**[[Nyquist Miguel Castellanos ECE438 slecture|Text slecture]] by Miguel Castellanos <span style="color:red"> 10 reviews needed here.</span>
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**[[Slecture Nyquist Theorem Stein|Text Slecture]] by Robert Stein <span style="color:red"> 10 reviews needed here.</span>
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**[[NyquistRozolis|Text Slecture]] by Erik Rozolis <span style="color:red"> Do not review. (no question page)</span>
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*'''Topic 7''': Frequency domain view of the relationship between a signal and a sampling of that signal. DEADLINE October 6
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**[[Slecture Relation in frequency Botao Chen|Text Slecture]] by Botao Chen <span style="color:red"> 15 reviews needed here.</span>
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**[[Slecture Topic 7 Ryan|Text Slecture]] by Ryan Johnson <span style="color:red"> Do not review. (no question page)</span>
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**[[Slecture Topic 7|Text Slecture]] by Evan Stockrahm <span style="color:red"> Do not review. (no question page)</span>
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**[[Slecture Topic 7 ECE438|Text Slecture]] by Talha Takleh Omar Takleh <span style="color:red"> 15 reviews needed here.</span>
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*'''Topic 8''': Frequency domain view of downsampling (explain why decimator needs a lowpass filter before the downsampling). DEADLINE October 10
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**[[Frequency_Downsampling]] by John Sterrett <span style="color:red"> 10 reviews needed here.</span>
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**[[Text slecture]] by Yerkebulan <span style="color:red"> 10 reviews needed here.</span>
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**[[Frequency-Domain-View-of-Downsampling-Slecture-David-Klouda|Text Slecture]] by David Klouda <span style="color:red"> Do not review.</span>
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**[[Text Slecture1]] by Soonho Kwon <span style="color:red"> 10 reviews needed here.</span>
+
*'''Topic 9''': Frequency domain view of upsampling (explain why interpolator needs a lowpass filter after upsampling). DEADLINE October 13
+
**[[SlectureUpsampling]] by Chloe Kauffman <span style="color:red"> Do not review.</span>
+
**[[Upsampling|Text Slecture]] by Mike Deufel <span style="color:red"> Do not review.</span>
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**[[Upsampling Slecture Molveraz|Text slecture]] by Michel Olvera <span style="color:red"> 30 reviews needed here.</span>
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**[[Text slectrue]] by Hyungsuk Kim<span style="color:red"> Do not review. (no question page)</span>
+
  
 
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[[ECE201|Back to ECE201]]
== Slecture Review ==
+
 
+
Guidelines
+
 
+
*You must review one slecture per topic. (You cannot review your own slecture, of course. So if you are the only person who completed a slecture on a given topic, then you are not required to write a review for that topic. )
+
*The maximum number of reviews for each slecture is written next to each slecture. First come first serve. You will notice that some slectures will not get any reviews. This is because the slecture was either not completed or did not include a question page.
+
*Write your review directly on the question page of the slecture you are reviewing. Let me know if you want an anonymous login.
+
*You can reserve a spot for a specific slecture by writing your name on the question space.
+
*Be nice! Be constructive! The authors worked really hard on this.
+
 
+
----
+
 
+
== A bonus point opportunity  ==
+
 
+
Students in [[ECE438]] Fall 2014 have the opportunity to earn up to a 3% bonus by contributing a Rhea page on a subject related to digital signal processing. To pick a subject, simply write your name next to it. Your page will be graded based on content as well as interactions with other people (page views, comments/questions on the page, etc.). The number of links to other courses and subjects will also be taken into account: the more the merrier! Please do not simply copy the lecture notes and do not plagiarize. Read [[Rhea:Copyrights|Rhea's copyright policy]] before proceeding.
+
 
+
<br>
+
 
+
{| border="1" class="wikitable"
+
|-
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! Topic Number
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! Topic Description
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! Student Name
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|-
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| 1
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| Something related to CT or DT Fourier transform
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| Name
+
|-
+
| 2
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| Something related to Z-transform
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| Fabian Faes
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|-
+
| 3
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| Something related to discrete Fourier transform
+
| Name
+
|-
+
| 4
+
| Something related to CSFT
+
| Name
+
|-
+
| 5
+
| Something related to Quantization
+
| Name
+
|-
+
| 6
+
| Student blog
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| Name (s)
+
|-
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| 7
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| Inverse Z transform with focus on ROC
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| Mike Deufel
+
|-
+
|8
+
|[[BluetoothAudioSignal|Bluetooth Audio Processing]]
+
| Chloe Kauffman
+
|}
+
 
+
----
+
 
+
[[ECE201|Back to ECE201]]
+
[[Category:ECE201]] [[Category:ECE]]
+
[[Category:ECE201Spring2015Peleato]]
+

Latest revision as of 10:37, 8 May 2015


ECE 201: Linear Circuit Analysis I

Professor Peleato, Spring 2015


Message area:

  • The main webpage for the course is in Blackboard. This webpage only contains supplemental materials (optional).

Course Information

  • Instructor: Prof. Peleato
    • Email: bpeleato at purdue dot you know what
    • Office: MSEE 233C
    • Office hours: MW 10:20-12.
  • Teaching Assistant:
    • ECE201 related questions: Anantha Raghuraman (araghura at purdue dot you know what)
    • Rhea related questions: Huizhi Lu (huizhilu at purdue dot you know what)
  • Course Syllabus
  • What past students are saying about ECE201

A bonus point opportunity

Students in ECE201-004 Spring 2015 have the opportunity to earn bonus points by creating exercises (i.e. practice problems) or slectures related to linear circuit analysis. These bonus points will not have a significant impact on your letter grade, but will help tilt the balance towards a higher grade if you are close to the threshold. Also, they could be the difference between an A and an A+. Keep in mind that quality is more important than quantity. The material must be original, created by you. Plagiarizing or simply copying lecture notes found on the internet will be considered cheating and will result in a significant lowering of your grade. Read Rhea's copyright policy before proceeding.

If you wish to post your material anonymously, please contact Prof. Mimi to get an anonymous login. Otherwise, you will be identifiable through your Purdue CAREER account, and thus you will NOT be anonymous.

If you want to know how to edit Rhea and create your material, the easiest is to meet with Prof. Mimi and she will be happy to help you get started. Her office hours are posted here. You can also go ahead and start building your material using the Templates below. First login using your Purdue CAREER account credential (or anonymous login, when applicable) and click on the desired template. Then, once in the desired template page, click "Show Source" under the "Actions" tab, and COPY the template source code. Then, come back to this page and click the link "Create a child page" on the left-hand menu. Include the string ECE201S15 in the name for the new page (remember the name that you chose, since you will need it to create the link later). You may now paste the source code and start editing the new page. Once you are done, make sure to post a link on this page to your newly created one. You can always find the pages that you have recently edited in the "User" menu above, under "Contributions".

For Material in Text Form You must write your material using the markup language wikitext. Mathematical formulas are written in latex (see link below for examples). Circuits can be hand-drawn, scanned, and uploaded as images. See more guidelines under the corresponding templates below.

For Material in Video Form The easiest is to either videotape yourself at the blackboard or videotape your hand writing on paper. There is a lab with white board, doc cam, green screen, video editing, etc. in MSEE 393. Email Prof. Mimi (mboutin at purdue) for an appointment if interested. After some minor editing (title page, etc.), your movie will be uploaded on the Project Rhea youtube channel (just email it to Prof. Mimi) and you will need to embed it on your project page. (The code for embedding videos is on the templates below.) Prof. Mimi has resources to help you create your video, including help for the videotaping and video editing. You can also create the video on your own but please make sure to follow the guidelines listed below the corresponding template below.


Resources


Suggested topics

Feel free to create your own

Suggested topics for slectures:

  • Voltage and current
  • Ohm, power, and sign conventions
  • KVL, KCL, current and voltage division
  • Nodal Analysis
  • Mesh/Loop Analysis
  • Superposition and Linearity
  • Thevenin and Norton
  • Maximum Power Transfer (Resistive networks)
  • Inductors
  • Capacitors
  • First order circuits: step response
  • Response classification
  • Second order circuits (source free)
  • Second order circuits (constant input)
  • Operational Amplifier
  • First order circuits with op-amps
  • Phasors
  • SSS analysis
  • Frequency response (filters)
  • Complex power
  • Power factor improvement and maximum power transfer


Suggested topics (supplemental):

  • The physics behind linear circuits
  • Complex number review
  • Parallelism between SSS and resistive networks
  • Applications in the real world

Suggested Exercises (Practice Problem):


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Alumni Liaison

Correspondence Chess Grandmaster and Purdue Alumni

Prof. Dan Fleetwood