Green Team Dustin Fraley DeAndre Strong Stephanie Wilson September 14, 2005 UTC ENGR 329 Speed System.

Slides:

Advertisements

Similar presentations

Simulation Examples in EXCEL Montana Going Green 2010.

Advertisements

Thermal Tests Analysis of transient response Elena Daskalaki Alex Vamvakas Athanasios Zelios.

1 On-Line Learning with Recycled Examples: A Cavity Analysis Peixun Luo and K. Y. Michael Wong Hong Kong University of Science and Technology.

Voltage Control System: Proportional Integral (PI) Controllers Team Purple: John Pangle Jessica Raymond Justin Whitt ENGR 329 November 30, 2005.

-Pressure System- Root Locus Cory Richardson Dennis To Jamison Linden 6/14/2015, UTC, ENGR-329.

Flow Rate Control System “Step Response Modeling” February 15, 2006 U.T.C. Engineering 329.

Flow Control System Steady State Operation & Step Response February 1 st, 2006 U.T.C. ENGR 329.

R(s)C(s). R(s) #1 #2 #3#4 #5 #6 #7 #8 #9 #10 R(s)

Level Team Team Members Note by Dr. Henry: List your team members’ names on this slide.

LEVEL-1 Frequency Response –Experiments –Modeling Jim Henry.

Marshal Stout Michael Brooks Nathan Wilson ENGR 329 Team Green February 11, 2009.

Pressure System Amanda Newman Andy Patel Bryan Cuervo September 28 th 2005 ENGR. 329 UTC Engineering.

Flow Rate Control System

Team Flow Eric Parker Jason Gunn Nathan Funk. Outline zBackground zPrevious Work zModeling zResults and Conclusions zQuestions.

Team Green Speed Control - Steady State Performance and Step Response John Barker John Beverly Keith Skiles ENGR 329 UTC 2/1/06.

Red Team Amanda Newman Ankit Patel Bryan Cuervo UTC ENGR 329 Sept. 14, 2005.

Red Team -Pressure- Steady State Operating And Step Response Dennis To Cory Richardson Jamison Linden 6/26/2015, UTC, ENGR-329.

-Pressure System- Frequency Response Cory Richardson Dennis To Jamison Linden 6/27/2015, UTC, ENGR-329.

Pressure Control System: Root Locus Plotting Team Green: X Y Z.

Flow Rate Control System “Frequency Response” By: Taylor Murphy March 1, 2006 U.T.C. Engineering 329.

Team Green John Barker John Beverly Keith Skiles UTC ENGR Steady State and Step Response Performance Speed Control System.

Root Locus Plotting Red Squad Flow System Ben Gordon, Ben Klingler, Dianah Dugan October 31, 2007 University of Tennessee Chattanooga ENGR 329.

Green Team Speed System Proportional Only Controller Design and Experimental Dustin Fraley DeAndre Strong Stephanie Wilson.

B Note from Dr. Henry These slides are suggested to be ADDED to your previous presentation that included system description, diagrams, SSOC, operating.

Rules by which the brain segments an object from the background: Evaluation of the Gabor model of simple cell receptive fields Beth Tuck Hanover College.

Flow Rate Control System Proportional Only Controller April 2, 2006 U.T.C. Engineering 329.

1 04/03/02 01:30 utc IR. 2 04/03/02 02:00 utc IR.

Single Phase Induction Motor Adjustable Speed Control Using DSP and Micro-Controller Jianming Yao ECE734 Project Fall 2000.

Yellow Team Spray-Booth Pressure Station Steady, Step Behavior and Step Modeling Jamie West Jay Baker Joel Wood 10/10/11 UTC ENGR 3280L.

Wind Energy Forecaster A Web-based Wind Energy Prediction Tool Aditya Trivedi ’16 Advisor: Dr. Eric Larson.

1 Neural plug-in motor coil thermal modeling Mo-Yuen Chow; Tipsuwan Y Industrial Electronics Society, IECON 26th Annual Conference of the IEEE, Volume:

Experimental determination of motor model parameters ETEC6419.

Objective: I can write linear equations that model real world data.

Micron Technology Clinic Effect of Transistor Number and Hierarchy on Simulation Speed Presented by: Jason Oneida Advisor: Dr. Ken Stevens.

The Scientific Method Mrs Bond. 5 Steps: Identify the Problem. Research the Problem & Make Observations. Form a Hypothesis. Design and Experiment to test.

Centrifugal Pump Performance Experiment Presented by: Steven King ME 498 Senior lab November 16, 2004.

1.3 The Power of Visualizing Data - Trends. Example 1 a) Create a scatter plot. Year Number of Homicides

Functions. Warm Up Solve each equation. 1.2x – 6 = x = X + 29 = x – 5 – 4x = 17 x = 14 x = - 7 x = -15 x = 11.

Prognosis of Gear Health Using Gaussian Process Model Department of Adaptive systems, Institute of Information Theory and Automation, May 2011, Prague.

Unit 1 – First-Degree Equations and Inequalities Chapter 2 – Linear Relations and Functions 2.5 – Statistics: Using Scatter Plots.

Math – What is a Function? 1. 2 input output function.

Notes Over 4.8 Identifying Functions A relation where each input has exactly one output. Function Decide whether the relation is a function. If it is.

Generating Toffoli Networks from ESOP Expressions Yasaman Sanaee Winter 2009 University of New Brunswick.

Domain & Range. Two Types of Relations Discrete Continuous.

Zeros of a Function Graph, Find solution (root/zero), State Domain/Range.

MAT 150 Unit 2-4 Part 2: Power Models. Objectives  Model data using power functions  Use first and second differences and visual comparison to determine.

Day 17 – September 20th and 21st Objective:

Lecture 3: Linear Regression (with One Variable)

Modeling. Course 2: Construction of robot model overview; Projects specification (application);

Team 1: 32 responses Team 2: 55 responses Team 3: 29 responses

Making a Better Diet Soda

Notes Over 2.1 Function {- 3, - 1, 1, 2 } { 0, 2, 5 }

Day 1: September 7th Objective: Form and meet study teams. Then work together to share mathematical ideas and to justify strategies as you represent geometric.

Scientific Method.

The Scientific Method Mrs. Jenkins.

مدل زنجیره ای در برنامه های سلامت

The Scientific Method.

What is a scientific method?

Function Notation “f of x” Input = x Output = f(x) = y.

Jamie West Jay Baker Joel Wood 11/2/11 UTC ENGR 3280L

Laws, Hypotheses and Development of Theories

Lesson 5.7 Predict with Linear Models The Zeros of a Function

Function Rules and Tables.

Jamie West Jay Baker Joel Wood 10/10/11 UTC ENGR 3280L

Flow through Packed Beds

(you’ll continue this pattern down the rest of the page)

Software Engineering Practices

Title Presenter name DATE Towards a More Sustainable World.

Relation (a set of ordered pairs)

Equations & Graphing Algebra 1, Unit 3, Lesson 5.

Presentation transcript:

Green Team Dustin Fraley DeAndre Strong Stephanie Wilson September 14, 2005 UTC ENGR 329 Speed System

Presentation will include… Background on the speed system Theory of experimental analysis Steady-state and step tests Results of tests Conclusions on the usefulness of our findings

Background: what is the speed system?

In other words… SRC 1 ST 1 Motor / Generator SCZ 1

Theory

Results Cont. Steady-state Function C = m – 9.66 Input Range 20% - 90%

Time Response of the System

Using the Fit 2 Method

Conclusions The SSOC accurately predicts the output of the motor (input 20%-90%) Tau, K, and t 0 are approximately the same for input upsteps and downsteps.