Presentation is loading. Please wait.

Presentation is loading. Please wait.

Magnetic Suspension System Control Using Position and Current Feedback Team: Gary Boline and Andrew Michalets Advisors: Dr. Anakwa and Dr. Schertz.

Published by Modified over 8 years ago

Similar presentations

Presentation on theme: "Magnetic Suspension System Control Using Position and Current Feedback Team: Gary Boline and Andrew Michalets Advisors: Dr. Anakwa and Dr. Schertz."— Presentation transcript:

1 Magnetic Suspension System Control Using Position and Current Feedback Team: Gary Boline and Andrew Michalets Advisors: Dr. Anakwa and Dr. Schertz

2 Applications of a Magnetic Suspension System Electromagnetic Suspension TrainFrictionless Magnetic Bearings

3 Determine if Current Feedback can be utilized to improve performance No success with Current Feedback Develop New Position Controller Design Methods Implement: xPC & Coldfire Summary

4 Outline Magnetic Suspension System Overview High Level Block Diagram Current Modeling Current Controller Attempts Position Controller Development Microcontroller Implementation Future Suggestions References Questions

5 System Overview

6 Outline Magnetic Suspension System Overview High Level Block Diagram Current Modeling Current Controller Attempts Position Controller Development Microcontroller Implementation Future Suggestions References Questions

7 High Level Block Diagram

8 Outline Magnetic Suspension System Overview High Level Block Diagram Current Modeling Current Controller Attempts Position Controller Development Microcontroller Implementation Future Suggestions References Questions

9 Current Modeling Experimental Simulink Transfer Function Rate Limiter (nonlinear)

10 Outline Magnetic Suspension System Overview High Level Block Diagram Current Modeling Current Controller Attempts Position Controller Development Microcontroller Implementation Future Suggestions References Questions

11 Current Controller Attempts State-space Current with Lag, Lead, or Lag/Lead Noise Problems Current Feed-forward Current Error Feed-forward Based on Proportion to Position Position Integrator ‘integrates’ current term out

12 Outline Magnetic Suspension System Overview High Level Block Diagram Current Modeling Current Controller Attempts Position Controller Development Microcontroller Implementation Future Suggestions References Questions

13 Position Controller Development Root Locus Attempts Block Diagram Simulation Data Scope Plots Performance Data vs. Specs

14 Position Controller Development Root Locus Open Loop Poles: 1.0321, 0.9689 Closed Loop Poles: 0.9704+/-0.0077j, 0.8550, 0.3888 Expanded

15 Position Controller Development Block Diagram

16 Position Controller Development Step Response (simulation) 28% OS

17 Position Controller Development Step Response (xPC) ~30% OS

18 Outline Magnetic Suspension System Overview High Level Block Diagram Current Modeling Current Controller Attempts Position Controller Development Microcontroller Implementation Future Suggestions References Questions

19 Microcontroller Implementation Improvements Input/Output Configuration System Timing Scope Plots Performance Data vs. Specs

20 Input/Output Configuration

21 D/A Converter Setup Volts (mV) Controller Output +2047FFF : : 0800 -17FF : : -2047000

22 Software Flowchart

23 Timing Improvements

24 Step Response Our Controller Past Controller

25 Step Response Results Our Controller Max Amplitude : 0.2Vpp Overshoot : 47% Settling Time : 240 ms Past Controller Max Amplitude : 0.5Vpp Overshoot : 36% Settling Time : 560 ms Advantages: Faster System Disadvantages: Larger overshoot, Less input amplitude, Less stability

26 Outline Magnetic Suspension System Overview High Level Block Diagram Current Modeling Current Controller Attempts Position Controller Development Microcontroller Implementation Future Suggestions References Questions

27 Future Suggestions Lab bench space Modularize Code Design to realistic specs Anti-aliasing filters Design System Bottom Up, Current and Voltage Control Independently

28 References Jose A Lopez and Winfred K. N. Anakwa, “Identification and Control of a Magnetic Suspension System using Simulink and Dspace Tools”, Proceedings of the ASEE Illinois/Indiana 2003 Sectional Conference, March 27, 2004, Peoria, Illinois, U.S.A. Feedback Inc., 437 Dimmocks Mill Road, Hillsborough, North Carolina 27278. http://www.fbk.com Simulink, Version 6.1 (R14SP1), The MathWorks Inc., Natick, MA 01760, 2004. xPC Target Box, The MathWorks Inc., Natick, MA 01760, 2003.

29 Conclusion Determined Current Feedback not viable State Space Classical Designed New Position Controller Root Locus Simulation and xPC Implemented Design on Microcontroller Timer Driven Faster System Bring back focus Step back up from lower level Project importance at beginning Balance additional content

30 Conclusion

31 Questions?

Download ppt "Magnetic Suspension System Control Using Position and Current Feedback Team: Gary Boline and Andrew Michalets Advisors: Dr. Anakwa and Dr. Schertz."

Similar presentations

EE357 Control System I - Lec B2 (2010W) - Introduction.

EE357 Control System I - Lec B2 (2010W) - Introduction.
Automated Control Systems, 8/E by Benjamin C. Kuo and Farid Golnaraghi Copyright © 2003 John Wiley & Sons. Inc. All rights reserved. Figure 10-1 (p. 433)

Automated Control Systems, 8/E by Benjamin C. Kuo and Farid Golnaraghi Copyright © 2003 John Wiley & Sons. Inc. All rights reserved. Figure 10-1 (p. 433)
A Radio Telescope for High School Education Abe Reddy North Dakota State University, Department of Physics Advisor: Professor Brian Keating, UCSD CASS.

A Radio Telescope for High School Education Abe Reddy North Dakota State University, Department of Physics Advisor: Professor Brian Keating, UCSD CASS.
dSPACE DS1103 Control Workstation Tutorial and DC Motor Speed Control

dSPACE DS1103 Control Workstation Tutorial and DC Motor Speed Control
Active Suspension System Test Platform – Controls Advisor: Mr. Steven Gutschlag Presented: 29 April 2004 Project Member: Jerry L. Campbell Senior Presentation.

Active Suspension System Test Platform – Controls Advisor: Mr. Steven Gutschlag Presented: 29 April 2004 Project Member: Jerry L. Campbell Senior Presentation.
Students: Andrew Fouts Kurtis Liggett Advisor: Dr. Dempsey.

Students: Andrew Fouts Kurtis Liggett Advisor: Dr. Dempsey.
Multidisciplinary Engineering Senior Design Project 6508 Controls Lab Interface Improvement Preliminary Design Review 11/11/05 Team Members: Michael Abbott,

Multidisciplinary Engineering Senior Design Project 6508 Controls Lab Interface Improvement Preliminary Design Review 11/11/05 Team Members: Michael Abbott,
Voltage Control System: Proportional Integral (PI) Controllers Team Purple: John Pangle Jessica Raymond Justin Whitt ENGR 329 November 30, 2005.

Voltage Control System: Proportional Integral (PI) Controllers Team Purple: John Pangle Jessica Raymond Justin Whitt ENGR 329 November 30, 2005.
The transmission line circuit block used in Cadence Major Blocks and Peak Detector Sections of Channel Equalization Techniques for Ethernet Communication.

The transmission line circuit block used in Cadence Major Blocks and Peak Detector Sections of Channel Equalization Techniques for Ethernet Communication.
6/16/20151 On Designing Improved Controllers for AQM Routers Supporting TCP flows By C.V Hollot, Vishal Mishra, Don Towsley and Wei-Bo Gong Presented by.

6/16/20151 On Designing Improved Controllers for AQM Routers Supporting TCP flows By C.V Hollot, Vishal Mishra, Don Towsley and Wei-Bo Gong Presented by.
Craig Chan & Mike Abidoye

Craig Chan & Mike Abidoye
dSPACE DS1103 Control Workstation Tutorial and DC Motor Speed Control

dSPACE DS1103 Control Workstation Tutorial and DC Motor Speed Control
Controls Lab Interface Improvement Project #06508Faculty Advisors: Dr. A. Mathew and Dr. D. Phillips Project Objectives This work focused on the improvement.

Controls Lab Interface Improvement Project #06508Faculty Advisors: Dr. A. Mathew and Dr. D. Phillips Project Objectives This work focused on the improvement.
System for Engine Location Of a Web Train Paul Wimmer and Adam Weintrop Dr. Irwin and Dr. Schertz 12/5/05 Project Proposal -CTCDS.

System for Engine Location Of a Web Train Paul Wimmer and Adam Weintrop Dr. Irwin and Dr. Schertz 12/5/05 Project Proposal -CTCDS.
Design of a Control Workstation for Controller Algorithm Testing Aaron Mahaffey Dave Tastsides Dr. Dempsey.

Design of a Control Workstation for Controller Algorithm Testing Aaron Mahaffey Dave Tastsides Dr. Dempsey.
DC Motor-Clutch-Generator Control Workstation Senior Project Proposal Simon Benik and Adam Olson Senior Project Proposal Advisor: Dr. Gary Dempsey.

DC Motor-Clutch-Generator Control Workstation Senior Project Proposal Simon Benik and Adam Olson Senior Project Proposal Advisor: Dr. Gary Dempsey.
Chapter 8 - Feedback 1 - Desensitize The Gain 2 - Reduce Nonlinear Distortions 3 - Reduce The Effect of Noise 4 – Control The Input And Output Impedances.

Chapter 8 - Feedback 1 - Desensitize The Gain 2 - Reduce Nonlinear Distortions 3 - Reduce The Effect of Noise 4 – Control The Input And Output Impedances.
SIMULINK Dr. Samir Al-Amer. SIMULINK SIMULINK is a power simulation program that comes with MATLAB Used to simulate wide range of dynamical systems To.

SIMULINK Dr. Samir Al-Amer. SIMULINK SIMULINK is a power simulation program that comes with MATLAB Used to simulate wide range of dynamical systems To.
Internal Model Control for DC Motor Using DSP Platform By: Marcus Fair Advisor: Dr. Dempsey.

Internal Model Control for DC Motor Using DSP Platform By: Marcus Fair Advisor: Dr. Dempsey.
DSP Implementation of a 1961 Fender Champ Amplifier James Siegle Advisor: Dr. Thomas L. Stewart May 6, 2003.

DSP Implementation of a 1961 Fender Champ Amplifier James Siegle Advisor: Dr. Thomas L. Stewart May 6, 2003.

Similar presentations

Ads by Google