Purdue - ECE - 302

Purdue - ECE - 438

Purdue University: ECE438 - Digital Signal Processing with Applications1ECE438L - Introduction, Guidelines, and Ethics.October 6, 20101IntroductionThis document contains the basic rules and guidelines for performing and reporting your ECE438 laborat

Purdue - ECE - 438

Purdue University: ECE438 - Digital Signal Processing with Applications1ECE438 - Laboratory 1: Discrete and Continuous-Time SignalsOctober 6, 20101IntroductionThe purpose of this lab is to illustrate the properties of continuous and discrete-time si

Purdue - ECE - 438

Purdue University: ECE438 - Digital Signal Processing with Applications1ECE438 - Laboratory 2: Discrete-Time SystemsOctober 6, 20101IntroductionA discrete-time system is anything that takes a discrete-time signal as input and generates a discrete-ti

Purdue - ECE - 438

Purdue University: ECE438 - Digital Signal Processing with Applications1ECE438 - Laboratory 3: Frequency AnalysisOctober 6, 20101IntroductionIn this experiment, we will use Fourier series and Fourier transforms to analyze continuoustime and discrete

Purdue - ECE - 438

Purdue University: ECE438 - Digital Signal Processing with Applications1ECE438 - Laboratory 4: Sampling and Reconstruction of Continuous-Time SignalsOctober 6, 20101IntroductionIt is often desired to analyze and process continuous-time signals using

Purdue - ECE - 438

Purdue University: ECE438 - Digital Signal Processing with Applications1ECE438 - Laboratory 5: Digital Filter Design (Week 1)October 6, 20101IntroductionHello, This is the first part of a two week laboratory in digital filter design. The first week

Purdue - ECE - 438

Purdue University: ECE438 - Digital Signal Processing with Applications1ECE438 - Laboratory 5: Digital Filter Design (Week 2)October 6, 20101IntroductionThis is the second part of a two week laboratory in digital filter design. The first week of the

Purdue - ECE - 438

Purdue University: ECE438 - Digital Signal Processing with Applications1ECE438 - Laboratory 6: Discrete Fourier Transform and Fast Fourier Transform Algorithms (Week 1)October 6, 20101IntroductionThis is the first week of a two week laboratory that

Purdue - ECE - 438

Purdue University: ECE438 - Digital Signal Processing with Applications1ECE438 - Laboratory 6: Discrete Fourier Transform and Fast Fourier Transform Algorithms (Week 2)October 6, 20101IntroductionThis is the second week of a two week laboratory that

Purdue - ECE - 438

Purdue University: ECE438 - Digital Signal Processing with Applications1ECE438 - Laboratory 7: Discrete-Time Random Processes (Week 1)October 6, 20101IntroductionMany of the phenomena that occur in nature have uncertainty and are best characterized

Purdue - ECE - 438

Purdue University: ECE438 - Digital Signal Processing with Applications1ECE438 - Laboratory 7: Discrete-Time Random Processes (Week 2)October 6, 20101Bivariate DistributionsIn this section, we will study the concept of a bivariate distribution. We w

Purdue - ECE - 438

Purdue University: ECE438 - Digital Signal Processing with Applications1ECE438 - Laboratory 7 (week 3): Power Spectrum EstimationOctober 6, 20101IntroductionIn the first and second weeks of this experiment, we introduced methods of statistically cha

Purdue - ECE - 438

Purdue University: ECE438 - Digital Signal Processing with Applications1ECE438 - Laboratory 8: Number Representation and Waveform QuantizationOctober 6, 20101IntroductionThis lab presents two important concepts for working with digital signals. The

Purdue - ECE - 438

Purdue University: ECE438 - Digital Signal Processing with Applications1ECE438 - Laboratory 9: Speech Processing (Week 1)October 6, 20101IntroductionSpeech is an acoustic waveform that conveys information from a speaker to a listener. Given the impo

Purdue - ECE - 438

Purdue University: ECE438 - Digital Signal Processing with Applications1ECE438 - Laboratory 9: Speech Processing (Week 2)October 6, 20101IntroductionThis is the second part of a two week experiment. During the first week we discussed basic propertie

Purdue - ECE - 438

Purdue University: ECE438 - Digital Signal Processing with Applications1ECE438 - Laboratory 10: Image Processing (Week 1)October 6, 20101IntroductionThis is the first part of a two week experiment in image processing. During this week, we will cover

Purdue - ECE - 438

Purdue University: ECE438 - Digital Signal Processing with Applications1ECE438 - Laboratory 10: Image Processing (Week 2)October 6, 20101IntroductionThis is the second part of a two week experiment in image processing. In the first week , we covered

Purdue - ECE - 438

Purdue University: ECE438 - Digital Signal Processing with Applications11Matlab ReviewAll lab tasks in the ECE438 lab will be performed in Matlab. Matlab (matrix laboratory) is a technical computing environment for numerical analysis, matrix computati

Purdue - ECE - 438

Purdue University: Video and Image Systems Engineering (VISE)1Printing in the VISE LaboratoryOctober 6, 20101Printing from VISE ComputersThis section contains information for using the printing facilities in the VISE lab. Remember that the printers

Purdue - ECE - 438

Purdue University: Video and Image Systems Engineering (VISE)1VISE Laboratory RulesOctober 6, 2010Contact Numbers: Prof. Allebach 765/494-3535 Prof. Bouman 765/494-0340 Prof. Delp 765/494-1740 The following rules should be observed at all times: 1. Us

Purdue - ECE - 270

Spring 2012 EditionIntroduction to Digital System DesignECE 270 Course Introductionhttps:/engineering.purdue.edu/ece270InstructorsProfessor David Meyer Office: MSEE 238 E-mail: meyer@purdue.edu Professor Cordelia Brown Office: EE 326A E-mail: brown83

Purdue - ECE - 270

ECE 270Introduction to Digital System DesignSpring 2012LAB NOTEBOOK EVALUATIONName: _ Date of Evaluation: _As stated in Section 6 of the Lab Policies and Procedures document, each student is required to maintain a laboratory notebook in ECE 270. This

Purdue - ECE - 270

ECE 270Introduction to Digital System DesignSpring 2012LABORATORY POLICIES AND PROCEDURES1. Policies You must consistently attend the lab division for which you have registered. Lab division changes will not be possible after the first week of classes

Purdue - ECE - 270

Rules and Regulations Governing Use of ECE 270 Introduction to Digital System Design Lab (Room EE 65)1. 2. 3. 4. 5. 6. 7. 8. 9. This lab must remain locked unless an ECE 270 staff member is present. ECE 270 students may only enter and use this facility w

Purdue - ECE - 270

Purdue - ECE - 270

Purdue - ECE - 270

Purdue - ECE - 270

ECE 270Introduction to Digital System DesignFall 2011TakeHomaWork for Module 4 Due October 141. [10 pts] Draw the circuit for a bistable using N- and P-channel MOSFETs.5VMOSFET PMOSFET PXMOSFET N MOSFET N2. [10 pts] Given the following state tra

Purdue - ECE - 270

ECE 270Introduction to Digital System DesignFall 2011TakeHomaWork for Module 5 Due November 2, 20111. [2 points] Unsigned conversion: (2C9E)16 to base 2 (0010 1001 1100 1110)22. [2 points] Unsigned conversion: (1101001)2 to base 10 (105)103. [2 poin

Purdue - ECE - 270

ECE 270Introduction to Digital System DesignFall 2011TakeHomaWork for Wednesday, November 16Using the parts provided plus any additional logic gates you deem necessary, complete the BLOCK DIAGRAM for one bit ("i") of the ALU defined as follows: AOE AL

Purdue - ECE - 270

ECE 270Introduction to Digital System Design COURSE POLICIES AND PROCEDURESSpring 2012Course Description: An introduction to digital logic design and hardware engineering with an emphasis on practical design techniques and circuit implementation. Purpo

Purdue - ECE - 270

ECE 270 Module 4 -1Practice Homework _ 1. Draw a circuit that implements the following next state equations (assume each gate has a delay of ), where A and B are the inputs to the circuit: X(t+) = A(t) Y(t) Y(t+) =X(t) B(t)_ 2. Complete the PS-NS Table f

Purdue - ECE - 270

ECE 270 Module 4 Practice Homework -1Solution 2006 by D. G. Meyer _ 1. Draw a circuit that implements the following next state equations (assume each gate has a delay of ), where A and B are the inputs to the circuit: X(t+) = A(t) Y(t) A2 1 3 7402Y(t+)

Miami University - ECO - 202

Chapter 14/A Macroeconomic Theory of the Open Economy2. a. A reduction in the U.S. government budget deficit would increase national saving, shifting the supply curve of loanable funds to the right in Figure 3. This would reduce the real interest rate in

Purdue - ECE - 270

ECE 270 Module 5 -1Practice Homework _ 1. As the competition on American Idol heats up, the judges have become aware of the need for an "improved" scoring circuit. Now that you know something about arithmetic logic circuit design, you can help! Before the

Miami University - ECO - 202

Review Sheet for the Second Exam Chapter 11 Know how a fractional reserve banking system works: how do banks create money? Be able to represent it using the T-account. Know that banks decide to put deposits in reserve accounts, both required reserves and

Purdue - ECE - 270

ECE 270 Module 5 Practice Homework -1Solution 2009 by D. G. Meyer _ 1. As the competition on American Idol heats up, the judges have become aware of the need for an "improved" scoring circuit. Now that you know something about arithmetic logic circuit des

Miami University - ECO - 202

Bonds Keynes said that "The rate of interest is the reward for parting with liquidity for a specified period of time." We usually think of that reward as yield. Yield is the annual rate of return over cost, considering both interest payments and any diffe

Purdue - ECE - 270

ECE 270 Introduction toDigital System Design Spring 2012MondayMar 5 Module 4 LAB 8 Mar 13 Spring BreakCOURSE CALENDAR for Traditional Lecture (CRN 40775)MondayJan 9 Course Introduction Jan 16 MLK Day LAB 1 Jan 24 LAB INTRO Jan 17TuesdayJan 10Wedn

Miami University - ECO - 202

Suppose output, or GDP, depends on inputs of capital and labor. Use a Cobb Douglas function: Y = A K L1 . The exponent, , is a parameter of the production function. In a competitive economy operating with a CobbDouglas production function, the share of

Miami University - MBI - 121

Animations for Cell Metabolism Electron transport chain: http:/vcell.ndsu.edu/animations/etc/movie-flash.htm Chemiosmosis: http:/vcell.ndsu.edu/animations/atpgradient/movie-flash.htm

Miami University - MBI - 121

Basic Genetics Genome: All the genetic information (DNA) in a cell (includes genes and non-gene regions) Chromosome(s): Cellular structure(s) of DNA Gene: A segment of DNA found on a chromosome (or plasmid) that codes for a protein or RNA molecule Genotyp

Purdue - ECE - 270

ECE 270 Introduction toDigital System Design Spring 2012MondayMar 5 Mod 4E,F LAB 8 Mar 13 Spring BreakCOURSE CALENDAR for Directed Problem Solving (CRN 17132)MondayJan 9 Course Introduction Jan 16 MLK Day LAB 1 Jan 24 LAB INTRO Jan 17TuesdayJan 10

Miami University - MBI - 121

Cell Metabolism Metabolism = all chemical reactions that occur in a cell Chemical bonds store energy, therefore, building large molecules from small molecules requires energy input, and breaking down large molecules into smaller molecules results in energ

Miami University - MBI - 121

Controlling Microbial Growth Part 1: Use of Physical and Chemical Methods Physical and chemical methods are used to control microbial growth on inanimate items and body surfaces Sterilization Destruction of all forms of microbial life, even endospores Dis

Purdue - ECE - 270

ECE 270Introduction to Digital System DesignSpring 2012HELPFUL STUDY TIPS(1) ATTITUDE TOWARD STUDY (a) Confidence in Your Ability: You must have confidence in your ability to learn. Do not become disturbed if some grades are low. Remember, only a few

Miami University - MIS - 235

MIS Final Exam Chapter 1 1. Information System (IS): a group of components that interact to produce information a. Consists of 5 Components that are present in every information systemPeople 2. Management Information Systems (MIS): the development and us

Purdue - ECE - 270

ECE 270Introduction to Digital System DesignFall 2011TakeHomaWork for Module 1 Due 8/31/20111. Assume two hypothetical logic families have the following D.C. characteristics: Logic Family "A" VCC = 5 V VTH = (VOH VOL)/2 VOH = 4.4 V IOH = -4 mA VOL = 0

Purdue - ECE - 270

ECE 270Introduction to Digital System DesignFall 2011TakeHomaWork for Module 1 Due 9/02/20111. A particular CMOS microcontroller is designed to operate over a supply voltage range of 1 V to 5 V and at a maximum clock frequency of 100 MHz (no minimum c

Purdue - ECE - 270

ECE 270Introduction to Digital System DesignFall 2011TakeHomaWork for Module 1 Due 9/07/2011Given the following circuit:5V VCCR1 3 2 7403 1 2O.D.74041 3 2 7403O.D.(a) [10 points] For the case of BOTH inputs of BOTH gates driven LOW: If the off

Purdue - ECE - 270

ECE 270Introduction to Digital System DesignFall 2011TakeHomaWork for Module 2 Due September 16, 20111. [20 points] For the circuit shown below, derive the following formal descriptions: (a) [4 points] truth table (b) [4 points] ON set (c) [4 points]

Purdue - ECE - 270

ECE 270Introduction to Digital System DesignFall 2011TakeHomaWork for Module 2 Due September 19, 20111. [10 points] For the function mapped below: W Y 1 0 1 Y 1 X 1 X 0 1 X 1 0 1 0 0 1 W 1 0 Z 0 Z Z (a) [5 points]Write a minimal sum-of-products expre

Purdue - ECE - 270

ECE 270Introduction to Digital System DesignFall 2011TakeHomaWork for Module 2 Due September 21, 20111. [20 points] Simplify the function mapped below in terms of XOR or XNOR operators, draw a circuit realization, and compare the cost of this "simplif

Purdue - ECE - 270

ECE 270Introduction to Digital System DesignFall 2011TakeHomaWork for Module 3 Due Friday, September 301. [10 pts] Assume a hypothetical PLD has macrocells of the following configuration:2 3 4 5 6 7 1 8 9 10 11 12 13 2 3 4 5 6 7 1 8 9 10 11 12 132 3

Purdue - ECE - 270

ECE 270Introduction to Digital System DesignFall 2011TakeHomaWork for Module 3 Due Monday, October 31. [20 pts] Complete the ABEL file, below, that implements a "dorm-room alarm" system using a 16V8 PLD. Your alarm should accommodate eight sensor inpu

Purdue - ECE - 270

ECE 270Introduction to Digital System DesignFall 2011TakeHomaWork for Module 3 Due Wednesday, October 51. [14 pts] Show how you can implement any arbitrary 3-variable Boolean function using only an 8:1 multiplexer (specifically, a 74x151), an LED, som

Purdue - ECE - 270

ECE 270Introduction to Digital System DesignFall 2011TakeHomaWork for Module 4 Due October 171. [20 pts] Complete the timing chart for the edge-triggered flip-flop, below, assuming its tPLH(CQ) is 10 ns and its tPHL(CQ) is 5 ns. 5 nsD CLK Q Q_LDete

Purdue - ECE - 270

ECE 270Introduction to Digital System DesignFall 2011TakeHomaWork for Module 4 Due October 191. [10 pts] Given the timing diagram, below, for a state machine that has one input (EN) and two state variables (Q1 and Q0), derive a state transition diagra

Purdue - ECE - 270

ECE 270Introduction to Digital System DesignFall 2011TakeHomaWork for Module 4 Due October 211. [10 pts] Design a state machine that serves as a simple two-floor elevator controller. When the elevator is on floor one, the digit "1" should be output on

Purdue - ECE - 270

ECE 270Introduction to Digital System DesignFall 2011TakeHomaWork for Module 4 Due October 24Implement a "dorm-room alarm" that accommodates eight sensor inputs, labeled S0 through S7, plus an ARM/DISARM pushbutton than can be used to "toggle" the sta