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Summer EE100 2007: WRAP UP Alls well that ends well Bharathwaj Muthuswamy NOEL: Nonlinear Electronics Lab 151M Cory Hall Department of EECS University of California, Berkeley mbharat@eecs.berkeley.edu Dr. Leon O Chua Director 151M Cory Hall University of California, Berkeley http://nonlinear.eecs.berkeley.edu July 30th 2007 Outline Examples of systems: Magnetic Levitation: EECS 128 Autonomous R/C cars: EECS 192 Digital Systems Design: EECS150, EECS152 Courses you can take after EECS100/EECS42-43 Sample Research Applications: Reconfigurable Radio: FPGA SOCs Introduction to Chaos using Chua s circuit What is Chaos? Chaos in Nature Hallmarks of Chaos Non-periodic behavior in time domain Sensitive dependence on initial conditions Proving the existence of Chaos Easy Chaos: Chua s circuit Building and working with Chua s circuit References Simulating Chua s circuit: MultiSim Turning your PC into an oscilloscope: Osqoop Chua s circuit for high school students Interesting MATLAB experiments Questions Dr. Leon O Chua Director 151M Cory Hall University of California, Berkeley http://nonlinear.eecs.berkeley.edu July 30th 2007 Examples of Systems: EECS 128 http://inst.eecs.berkeley.edu/~ee128 Dr. Leon O Chua Director 151M Cory Hall University of California, Berkeley http://nonlinear.eecs.berkeley.edu July 30th 2007 Examples of Systems: EECS 128 Linearize! Dr. Leon O Chua Director 151M Cory Hall University of California, Berkeley http://nonlinear.eecs.berkeley.edu July 30th 2007 Examples of Systems: EECS 192 http://inst.eecs.berkeley.edu/~ee192 Dr. Leon O Chua Director 151M Cory Hall University of California, Berkeley http://nonlinear.eecs.berkeley.edu July 30th 2007 Examples of Systems: EECS 150/152 http://inst.eecs.berkeley.edu/~cs150 Dr. Leon O Chua Director 151M Cory Hall University of California, Berkeley http://nonlinear.eecs.berkeley.edu July 30th 2007 Courses you can take after EECS100 http://hkn.eecs.berkeley.edu/student/onlineexams.shtml Dr. Leon O Chua Director 151M Cory Hall University of California, Berkeley http://nonlinear.eecs.berkeley.edu July 30th 2007 Sample Research Applications Field Programmable Gate Array (FPGA) System-On-Chip (SOC) Design for a 802.11 a/g/p/n Reconfigurable-Radio Dr. Leon O Chua Director 151M Cory Hall University of California, Berkeley http://nonlinear.eecs.berkeley.edu July 30th 2007 Introduction to Chaos using Chua s circuit Dr. Leon O Chua Director 151M Cory Hall University of California, Berkeley http://nonlinear.eecs.berkeley.edu July 30th 2007 Introduction to Chaos: What is Chaos? There is NO universal agreed-upon definition of Chaos Loosely speaking, a Chaotic system is a deterministic system that exhibits random behavior. Example - Chua s circuit: Set of ordinary differential equations with a simple nonlinearity BUT the system behavior is complex: Time domain Phase space Dr. Leon O Chua Director 151M Cory Hall University of California, Berkeley http://nonlinear.eecs.berkeley.edu July 30th 2007 Chaos in Nature Weather (Reference: Deterministic Nonperiodic Flow . Lorenz, Edward N. Journal of Atmospheric Sciences. pp. 130 141, 1963) A plot of the Lorenz attractor for r = 28, = 10, b = 8/3 (Reference: Chaos Theory, Wikipedia Entry. Online at: http://en.wikipedia.org/wiki/Chaos_theory) Dr. Leon O Chua Director 151M Cory Hall University of California, Berkeley http://nonlinear.eecs.berkeley.edu July 30th 2007 Chaos in Nature Trajectory of planetary orbits: (Reference: The role of chaotic resonances in the Solar System . Murray, N. and Holman M. Nature. pp. 773 780, vol. 410, 12 April 2001) Irregulary shaped satellites like Hyperion (moon of Saturn) tumble chaotically. Chaos in the orbits of giant planets (Jupiter, Saturn and Uranus) the location of these planets cannot be predicted on a time scale longer than a few tens of millions of years. Quote from the paper above: The worried reader may find some comfort in that the accompanying analytic theory predicts that no planet will be ejected before the Sun dies. Dr. Leon O Chua Director 151M Cory Hall University of California, Berkeley http://nonlinear.eecs.berkeley.edu July 30th 2007 Chaos in Nature Brain waves (Reference: Rhythms of the Brain. Buzsaki, Gyorgy. Oxford University Press. 2006) Dr. Leon O Chua Director 151M Cory Hall University of California, Berkeley http://nonlinear.eecs.berkeley.edu July 30th 2007 Hallmarks of Chaos Non-periodic behavior in the time domain Time series data from neural nodes implanted in rat cortex Reference: Taming Chaos: Stabilization of Aperiodic Attractors by Noise . Freeman, W. et. al. IEEE Trans. On Circuits and Systems I: Fundamental Theory and Applications. Vol. 44, No. 10, Oct. 1997 Dr. Leon O Chua Director 151M Cory Hall University of California, Berkeley http://nonlinear.eecs.berkeley.edu July 30th 2007 Hallmarks of Chaos Sensitive dependence on initial conditions Eventually, the paths diverge (mathematically quantified by the Lyapunov exponent) Three initial conditions x10, x20 and x30 (they are arbitrarily close to each other) Reference: http://www.keldysh.ru/departments/dpt_17/eng/ndeng.html Dr. Leon O Chua Director 151M Cory Hall University of California, Berkeley http://nonlinear.eecs.berkeley.edu July 30th 2007 Proving the existence of Chaos Mathematically very challenging: Lorenz s system was proved to be chaotic nearly 30 YEARS after s Lorenz observations: The Lorenz Attractor Exists. Tucker, Warwick. Ph.D. Thesis, 1998. University of Uppsala. One way to prove chaotic behavior: define a homeomorphism to the Cantor set using a Smale horseshoe Dr. Leon O Chua Director 151M Cory Hall University of California, Berkeley http://nonlinear.eecs.berkeley.edu July 30th 2007 Proving the existence of Chaos But for the purposes of EE100: Central concept: Poincare-Bendixson Theorem In a nutshell, the consequence of the theorem is that a continuous time autonomous dynamical system CANNOT be chaotic in the plane (2-dimensions). Dr. Leon O Chua Director 151M Cory Hall University of California, Berkeley http://nonlinear.eecs.berkeley.edu July 30th 2007 Easy Chaos: Chua s circuit Designed using systematic nonlinear techniques by Leon O. Chua in 1983 circuit Excellent Reference: The Genesis of Chua s circuit . Chua, Leon O. Archiv fur Elektronik und Uebertragungstechnik, July 1992, vol. 46, (no. 4): 250-257. Dr. Leon O Chua Director 151M Cory Hall University of California, Berkeley http://nonlinear.eecs.berkeley.edu July 30th 2007 Easy Chaos: Chua s circuit A consequence of the Poincare-Bendixson theorem - we need three independent energy storage elements. Hence: Dr. Leon O Chua Director 151M Cory Hall University of California, Berkeley http://nonlinear.eecs.berkeley.edu July 30th 2007 Easy Chaos: Chua s circuit Nonlinearity designed by Leon so that a proof of Chaos is easy . For details, please refer to The Genesis of Chua s Circuit paper. KEY: We need at least two unstable equilibrium points one to provide stretching dynamics and the other to provide folding. Dr. Leon O Chua Director 151M Cory Hall University of California, Berkeley http://nonlinear.eecs.berkeley.edu July 30th 2007 Easy Chaos: Chua s circuit Existence of these equilibrium points can be seen from DC load line: DC Load line Reference: Three Steps to Chaos Part II: A Chua s Circuit Primer . Kennedy, Michael P. IEEE Trans. On Circuits and Systems I: Fundamental Theory and Applications. Vol. 40, No. 10, Oct. 1993 We will see how we can obtain this nonlinearity later using op-amps Dr. Leon O Chua Director 151M Cory Hall University of California, Berkeley http://nonlinear.eecs.berkeley.edu July 30th 2007 Easy Chaos: Chua s circuit Some properties of Chua s circuit: Chua s circuit is the simplest possible electronic circuit that can exhibit chaotic behavior. Reference: The double scroll family, Parts I and II . Chua et. al. IEEE Trans. On Circuits and Systems. Vol. CAS-33, no. 11, pp. 1073-1118, 1986. Applications of Chua s circuit: Music: Reading Complexity in Chua s Oscillator through Music. Part I: A New Way of Understanding Chaos . Bilotta, Eleonara et. al. International Journal of Bifurcation and Chaos. Vol. 15, No. 2, pp. 253 282. 2005. Communications: Chaotic Digital Encoding: An Approach to Secure Communication . Frey, D.R. IEEE Trans. On Circuits and Systems II: Analog and Digital Signal Processing. Vol. 40, #10, pp. 660 666. Oct. 1993. Dr. Leon O Chua Director 151M Cory Hall University of California, Berkeley http://nonlinear.eecs.berkeley.edu July 30th 2007 Building and working with Chua s circuit Now, we will see how easy it is to build Chua s circuit with readily available components! References NOEL Chaos in Chua s Circuit homepage http://nonlinear.eecs.berkeley.edu/chaos/chaos.html Chaos Wiki: http://robotlab.itk.ppke.hu/~wiki/mediawiki1.9.3/index.php/Main_Page Chua s Circuit for High School Students . Gandhi, Gaurav., Muthuswamy, Bharathwaj and Roska, Tamas. To appear in the International Journal of Bifurcation and Chaos in Dec. 2007 Dr. Leon O Chua Director 151M Cory Hall University of California, Berkeley http://nonlinear.eecs.berkeley.edu July 30th 2007 Building and working with Chua s circuit Lecture demo - Simulating Chua s circuit: MultiSim Dr. Leon O Chua Director 151M Cory Hall University of California, Berkeley http://nonlinear.eecs.berkeley.edu July 30th 2007 Building and working with Chua s circuit Lecture Demo - Turning your PC into an oscilloscope: osqoop Dr. Leon O Chua Director 151M Cory Hall University of California, Berkeley http://nonlinear.eecs.berkeley.edu July 30th 2007 Building and working with Chua s circuit Lecture Demo - Chua s circuit for high school students Dr. Leon O Chua Director 151M Cory Hall University of California, Berkeley http://nonlinear.eecs.berkeley.edu July 30th 2007 Building and working with Chua s circuit Chua s circuit for high students. Debugging Tips: school Checking the functionality of the nonlinear resistor Tuning the circuit Dr. Leon O Chua Director 151M Cory Hall University of California, Berkeley http://nonlinear.eecs.berkeley.edu July 30th 2007 Building and working with Chua s circuit Lecture Demo - Interesting MATLAB experiments using Chua s circuit: Sample data from Sound card Compute Fourier Transform Compute autocorrelation coefficient. Compare this to autocorrelation coefficient of white noise. Dr. Leon O Chua Director 151M Cory Hall University of California, Berkeley http://nonlinear.eecs.berkeley.edu July 30th 2007 Questions Reference: http://mathstat.helsinki.fi/mathphys/paolo_files/lorenz11.gif Dr. Leon O Chua Director 151M Cory Hall University of California, Berkeley http://nonlinear.eecs.berkeley.edu July 30th 2007
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ee100Su07-WRAPUP.pdf
Path: Berkeley >> EE >> 21 Fall, 2009
Description: EE100 Summer 2007: WRAP UP Alls well that ends well Bharathwaj Muthuswamy NOEL: Nonlinear Electronics Lab 151M Cory Hall Department of EECS University of California, Berkeley mbharat@eecs.berkeley.edu Dr. Leon O Chua Director 151M Cory Hall Univer...
Lecture6.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: ...
Lecture6.pdf
Path: Berkeley >> EE >> 6 Summer, 2009
Description: ...
Lecture11.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: ...
Lecture11.pdf
Path: Berkeley >> EE >> 11 Fall, 2009
Description: ...
Lecture2.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
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Lecture2.pdf
Path: Berkeley >> EE >> 2 Fall, 2009
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eecs100_eecs43_lab5-Nonlinear_opamp_circuits.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: Summer 2007 EE100/EE43 Lab 5 EECS 100/43 Lab 5 Nonlinear Op-Amp Circuits 1. Objective In this lab, you will learn about how to build oscillator circuits. 2. Equipment a. Breadboard b. Wire cutters c. Wires d. Oscilloscope e. Function Generator f. ...
eecs100_eecs43_lab2-fncn_generator_scope.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: Summer 2007 EE100/EE43 Lab 2 EECS 100/43 Lab 2 Function Generator and Oscilloscope 1. Objective In this lab you learn how to use the oscilloscope and function generator 2. Equipment a. Breadboard b. Wire cutters c. Wires d. Oscilloscope e. Functio...
Lecture15.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: http:/nonlinear.eecs.berkeley.edu/bharath/semiloggraph.pdf ...
Lecture15.pdf
Path: Berkeley >> EE >> 15 Fall, 2009
Description: http:/nonlinear.eecs.berkeley.edu/bharath/semiloggraph.pdf ...
Lecture.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: ...
Lecture.pdf
Path: Berkeley >> EE >> 17 Fall, 2009
Description: ...
eecs100_eecs43_lab6-FrequencyDomain.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: Summer 2007 EE100/EE43 Lab 6 EECS 100/43 Lab 6 Frequency Response 1. Objective In this lab, you will learn about the concept of gain-bandwidth product of an op-amp. 2. Equipment a. Breadboard b. Wire cutters c. Wires d. Oscilloscope e. Function Ge...
eecs100_eecs43_lab4-linear_opamp_circuits.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: Summer 2007 EE100/EE43 Lab 4 EECS 100/43 Lab 4 Linear Op-Amp Circuits 1. Objective In this lab, you will learn about how to build amplifier circuits. 2. Equipment a. Breadboard b. Wire cutters c. Wires d. Oscilloscope e. Function Generator f. Powe...
EasyToGrade.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: ...
DC_Power_Supply-E3631-guide.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: Service Guide 3DUW 1XPEHU ( $SULO )RU :DUUDQW\\ LQIRUPDWLRQ UHIHU WR WKH EDFN RI WKH PDQXDO 3RZHU 6XSSO\\ The Agilent Technologies E3631A is a high performance 80 watt-triple o...
eecs100_eecs43_lab1-SourcesAndResistiveCircuits.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: Summer 2007 EE100/EE43 Lab 1 EECS 100/43 Lab 1 Sources and Resistive Circuits 1. Objective In this lab, you learn how to use the basic equipment on your workbench: the breadboard, power supply and multimeter. You use the breadboard to build your c...
eecs100_eecs43_lab8-PIC_Intro.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: Summer 2007 EE100/EE43 Lab 8 EECS 100/43 Lab 8 Introduction to the PIC Microcontroller 1. Objective In this lab, you will learn about how to use your PIC Microcontroller. This lab is the first lab for the digital component of the EE100 project. Th...
eecs100_eecs43_lab7-StrainGauge.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: Summer 2007 EE100/EE43 Lab 7 EECS 100/43 Lab 7 Project Sensor: Strain Gauge 1. Objective In this lab, you will build an op-amp amplifier circuit for a strain gauge. You will then interface this circuit to a PIC board (labs 8 and 9). 2. Equipment a...
eecs100_eecs43_lab9-PIC-IO.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: Summer 2007 EE100/EE43 Lab 9 EECS 100/43 Lab 9 PIC Input-Output (I/O) 1. Objective In this lab, you will simply hook up the output from the strain gauge circuit you designed the previous week to the PIC microcontroller. 2. Equipment a. Breadboard ...
eecs100_eecs43_lab7-StrainGauge-SOLUTIONS.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: Summer 2007 EE100/EE43 Lab 7 EECS 100/43 Lab 7 Project Sensor: Strain Gauge SOLUTIONS Figure 3. The sensor interface circuit Figure 4. The completed Strain Gauge interface. Rstrain is the resistance of the strain gauge. For the simulation above,...
eecs100_eecs43_lab4-linear_opamp_circuits.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: EECS 100/43 Lab 4 Linear Opamp Circuits SOLUTIONS PRELAB a. TASK 1: The gain for the inverting amplifier circuit is: Gain = 10k = 10 1k b. TASK 2: The gain for the non-inverting amplifier circuit is: Gain = 1 + 1k =2 1k MultiSim solutions can...
eecs100_eecs43_lab3-capacitors_and_inductors-solutions.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: EECS 100/43 Lab 3 Capacitors and Inductors SOLUTIONS PRELAB a. TASK 1: The time constant for an RC circuit is: = RTH C RTH is the equivalent resistance from the terminals of a capacitor. In this case, from the terminals of a capacitor the two 1k r...
eecs100_eecs43_lab2-fncn_generator_scope-solutions.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: EECS 100/43 Lab 2 Function Generator and Scope SOLUTIONS PRELAB a. TASK 1: Read the Theory section! b. TASK 2: MultiSim solution can be found on the EE100 labs website. REPORT a. TASK 1: When you switch the terminals of your function generator, noth...
eecs100_eecs43_lab1-SourcesAndResistiveCircuits-solutions.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: EECS 100/43 Lab 1 Sources and Resistive Circuits SOLUTIONS PRELAB TASK 1: Read the manual TASKS 2 and 3: MultiSim solutions (screen shots): Circuit 1. Series Circuit University of California, Berkeley Summer 2007 Department of EECS Circuit 2. ...
main.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: C r e C ~ d xgklzg(lvhzgfekkfd { j jy R jdx ed x S fdispk$zi~xkgxj$vxggjkjvzxxgxgxxzgdtvgvHfkzjkI r ~{ ~ j v~fds$vvd(xxuG r ~ | { j j y id t xzz~k}pfdtxzgdtklkxwvtuE r q j i d d sekpoanm(lkigdfhgefxxC q i yrw usrq...
ee100pracfnl98.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: EECS 100 Spring Semester 1998 Practice Final Examination 3 Hours, Closed Book. Two: 8 1 \" 11\" Sheets of Notes Allowed. 2 May 2, 2003 1. (30 minutes) Refer to the circuit shown as Figure 1. (a) Write expressions for Kircho\'s Current Law at nodes X an...
exam2sol.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: ...
info.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: W pVdg8Cf fh8 G WGSG i4 W S U f S bb p V4G WU S (T T WGfG G VPhPG WSdS IS VV5Ti W yT4G Wdg G pV8Cf fh8 WiTheTeT g f d WGUSQ IG VTVTRPHF m } o nk n} 4y m m At rq PP r m ufuf f@ or P4t m } o nk n} 4y kkx Pnpn x ...
ee100fnl99.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: EECS 100 Spring Semester 1999 Final Examination Three Hours. Closed Book. Two: 8 1 11 Sheet of Notes Allowed. 2 Answer All Six Questions. A 7 21V + 42 X 2 Y 1A 12V 24 8 + 4V + B 1. (40 minutes) The above gure shows a DC circuit. (a) Write expr...
ee100syl03.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: Electrical Engineering 100 Course Outline Spring 2003 Prof. E. C. Morse Class meets 9:00 10:00 Mondays, Wednesdays, Fridays 145 Dwinelle Text: Electrical Engineering, an Introduction, by Schwarz and Oldham. Visual Programming with HP VEE, by Hels...
EE100HW2_help.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: Circuit N _ 2A e1 i1 1 + v1 4 _ e2 Digraph G 2 1 + 1 2 i2 v4 i3 + v2 _ 3 3 v3 + - 5V 2 4 3 3 + i4 _ Reduced Incidence Matrix A branch number 1 1 node number 2 3 4 2 1 1 0 1 1 0 1 0 Let N be any connected circuit made o...
ee100su08Guide6.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: UNIVERSITY OF CALIFORNIA, BERKELEY EE100 Summer 2008 Lab 6 RC Filters Guide Description and Background In this lab you will determine the input-output characteristics of an RC filter A. RC Filter Characteristics Figure 1 below shows an RC filter con...
hw4.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: EE42/100 Issued: Feb 8, 2006 Spring 2006 Problem Set 4 Due: Feb 17, 2006 Please remember that homeworks are due at 12:00 noon Friday January 26. Please put your homework in the appropriate box (EE42 or EE100) in 240 Cory Hall. Print your name(s) i...
EE100supplementary_notes_1_pp42to51.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: ...
ee100fnlsoln-98.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: EECS 100 Final Examination Spring Semester 1998 Solutions 1. a. KCL at X: 8 VX 8 KCL at Y : VX VY 1 VY 4 1.25 = 0 VX 56 + VY VX 1 =0 1. b. Box at left: ISC = 1 A , VOC = 8=7V 56 + 8 Box at right: ISC = 1.25 A , VOC = 5 V Equations in standard...
EE100supplementarynote_week09.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: The solution of differential equation dx x x(t ) = + dt with a given initial condition x(t0) at t = t0 is a time function x(t ) (waveform) which satisfies both the differential equation and the initial condition. x x(t0 ) x = x(t ) t0 t 0 Re...
lec26.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: Lecture: Week 15a 1. Carbon nanotube inverter 2. Simple and very useful nanotech tools: Scanning Tunneling Microscope (STM) and Atomic Force Microscope (AFM) 2. How mechanical engineers use circuit analysis 3. What about radio? EE42/100 Fall 2005 P...
ee100hwk8-03.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: EECS 100 Spring Semester 2003 Homework 8 All parts of magnetic path are 20mm x 20 mm x 75 mm 100 mm 1. The above gure shows a solenoid-type variable reluctance transducer. The gap x may vary from 5.0 mm (open) to 0 mm (closed). The coil consists o...
EE100supplementary_notes_2a.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: ...
ee42_100_hwsol10.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: E 4z/ roo lr 16^ S,i lo l/in o tro, p v6rl - V:,- Ve Vt\'rr,/ut y\'1rnJ Vesp Vo& . Ivr^ : -Irct Vss l/o,rt ...
op284.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: Precision Rail-to-Rail Input and Output Operational Amplifiers OP184/OP284/OP484 FEATURES Single-supply operation Wide bandwidth: 4 MHz Low offset voltage: 65 V Unity-gain stable High slew rate: 4.0 V/s Low noise: 3.9 nV/Hz PIN CONFIGURATIONS NULL I...
EE100-MultiSim-Tutorial.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: Muthuswamy, Bharathwaj mbharat@cory.eecs.berkeley.edu EECS Department, UC Berkeley Summer 2006 Version 1.00 EE100/EE42 MultiSim Tutorial 1. Introduction The purpose of this document is to introduce the many features of MultiSim 8 from the perspecti...
TheDifferentialPairAsTriangleSineWaveConverter.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: 418 IEEE JOURNAL OF SOLID-STATE CIRCUITS, JUNE 1976 Correspondence The Differential ROBERT Pair as a Triangle-Sine Wave Converter G. MEYER, WILLY M. C. SANSEN, AND STEFAN PEETERS SIK LUI, R~ 1 AbstractThe performance of a differential pair with emi...
Lecture22.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: http:/nonlinear.eecs.berkeley.edu/bharath/books.ht CIRCUITS: 1. Electric Circuits by Nilsson, James W. and Riedel, Susan A. 7th Edition, 2004. ISBN 0131465929 2. Electronic Principles by Malvino, Albert P. 3rd Edition,1993 (17th reprint). ISBN 0-07-0...
Lecture22.pdf
Path: Berkeley >> EE >> 22 Fall, 2009
Description: http:/nonlinear.eecs.berkeley.edu/bharath/books.ht CIRCUITS: 1. Electric Circuits by Nilsson, James W. and Riedel, Susan A. 7th Edition, 2004. ISBN 0131465929 2. Electronic Principles by Malvino, Albert P. 3rd Edition,1993 (17th reprint). ISBN 0-07-0...
EE100_Lecture2.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: EE100: Midterm 1 (07/17, in class): 25% Midterm 2 (07/31, in class): 25% Final (08/18, in class): 30% Homework : 5% Lab : 10% Project : 5% EE42: 25% 30% 35% 10% EE43: P/NP ...
EE100_Lecture2.pdf
Path: Berkeley >> EE >> 2 Fall, 2009
Description: EE100: Midterm 1 (07/17, in class): 25% Midterm 2 (07/31, in class): 25% Final (08/18, in class): 30% Homework : 5% Lab : 10% Project : 5% EE42: 25% 30% 35% 10% EE43: P/NP ...
RC_Circuits-guide.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: EE 43/100 RC Circuits Experiment Guide for RC Circuits I. Introduction A. Capacitors A capacitor is a passive electronic component that stores energy in the form of an electrostatic field. The unit of capacitance is the farad (coulomb/volt). Practi...
scope-guide.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: EECS 100 Konrad Aschenbach Bharath Muthuswamy EE100 Lab 2 Experiment Guide: The Oscilloscope I. Objective: Understand how to use the function generator and oscilloscope. II. Theory 1. The HP33120A Function Generator The front panel of the function ...
diode-guide.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: EECS 100 Spring 2004 Muthuswamy, Bharathwaj Diodes: Experiment Guide Components required for this lab: 1. 2. 3. 4. 5. I. Diodes Overview Diodes are mostly used in practice for emitting light (as Light Emitting Diodes, LEDs) or controlling voltages ...
building_relaxation_oscillators.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: EE100 Bharath Muthuswamy Building Relaxation Oscillators Objective In this lab, you will build and study the relaxation oscillator from the Introduction to Nonlinear Circuit Analysis chapter. Prelab 1. Please read and understand the chapter titled ...
Lecture14.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: ...
Lecture14.pdf
Path: Berkeley >> EE >> 14 Fall, 2009
Description: ...
RC_Circuits-prelab.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: EE 43/100 RC Circuits EE 43/100 Pre-Lab: RC Circuits Name: _ TA: _Section: _ Please read the lab manual first then show your work here. V = Q/C = [ i(t)dt ] / C Differentiating this equation, we obtain i(t) = C(dV/dt) 1. If a constant current of ...
Lab-IntroToMultiSim.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: Muthuswwamy, Bharathwaj mbharat@cory.eecs.berkeley.edu EE100 Summer 2006 Introduction to MultiSim 1. Objective: Simulate two very simple circuits in MultiSim 2. MultiSim Tutorial Please go through the MultiSim tutorial available on the EE100 homepa...
GeneralCourseInformation.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: EE100,EE42/43 - Electronic Techniques for Engineering General Course Information by Bharathwaj Bart Simpson Muthuswamy Department of Electrical Engineering and Computer Sciences, University of California at Berkeley Summer 2006 EE100 and EE42/43: ...
Lecture6.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: http:/inst.eecs.berkeley.edu/~inst/anon/ ...
Lecture6.pdf
Path: Berkeley >> EE >> 6 Summer, 2009
Description: http:/inst.eecs.berkeley.edu/~inst/anon/ ...
EE100Su06IntroLecture.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: EE100/EE42 Lecture 1 - Introduction Manaloor Govindarajan Balasubramnian Manikantan Bharathwaj Muthuswamy Bharath Bart Simpson EE Ph.D. Student (BS in EE @ UC Berkeley, May 2002; MS in EE @ UC Berkeley, May 2005) Nonlinear Electronics Laboratory (NOE...
diode-prelab.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: EECS 100 Spring 2004 Muthuswamy, Bharathwaj Name : TA: Section: Diodes: Prelab 0. READ THE LAB GUIDE. 1. In the circuit below find VA and I, assuming all diodes are ideal (threshold voltage is zero). HINT: Each diode can be on or off. Since you a...
scope-prelab.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: Name: _ TA: _Section: _ EECS 100 Oscilloscope Pre-Lab 1. Plot the following voltage signals on the grids below. PLEASE USE THE SCALE SHOWN V is 0.5 volts/box (vert) and t is 1millisecond/box (horiz). (a) V1(t) = sin (2 1000 t) (b) V2(t) = sin (2 ...
ee100su08Guide4.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: EECS 100 Lab Guide Bharathwaj Muthuswamy The Operational Amplfier Lab Guide COMPONENTS REQUIRED FOR THIS LAB : 1. LM741 op-amp integrated circuit (IC) 2. 1k resistors 3. 10k resistor 4. Wires, wire cutters and breadboard 1. Introduction So far in...
ee100su08project.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: EE 100 Summer 2008 Final Project EE 100 Final Project Part I: General instructions 1. The final project will count for 10% of your grade. 2. Every effort must be made to team up as a team of 2 or 3. NO EXCEPTIONS! One of your team members will keep ...
ee100su08Guide3.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: UNIVERSITY OF CALIFORNIA, BERKELEY EE100 Summer 2008 Lab 3 Capacitors and Inductors Lab Guide I. Introduction 1. Capacitors A capacitor is a passive electronic component that stores energy in the form of an electrostatic field. The unit of capacitan...
ee100su08Guide7.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: Summer 2008 EE100/EE43 Lab 7 EECS 100/43 Lab 7 Strain Gauge 1. Objective In this lab, you will build an op-amp amplifier circuit for a strain gauge. 2. Equipment a. Breadboard b. Wire cutters c. Wires d. Oscilloscope e. Function Generator f. Power ...
ee100su08Prelab3.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: UNIVERSITY OF CALIFORNIA, BERKELEY EE100 Summer 2008 Lab 3 Capacitors and Inductors Prelab Name: _ TA: _Section: _ Please read the lab manual first then show your work here. V = Q/C = [ i(t)dt ] / C Differentiating this equation, we obtain i(t) = ...
ee100su08SampleFinal.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: UNIVERSITY OF CALIFORNIA, BERKELEY Department of Electrical Engineering and Computer Sciences EE100/EE42 Intro. To Electronics Engineering Summer 2008 Bharath Bart Simpson Muthuswamy SAMPLE FINAL August 15h 2008 Time Allotted: 2 hours NAME: __ , _ (...
BharathLecturesSu08-Chapter0.pdf
Path: Berkeley >> EE >> 100 Fall, 2008
Description: EECS 100/42-43 Course Overview EECS 100/42-43 (called EE100 from now on): Course that teaches the fundamentals of electronics from the perspective of non-electrical engineers. Prerequisites: Math 1B, Physics 7B (official), none (unofficial) Cours...
