Controller Design for a Linearly Actuated Suspension System (cdlass) Dan Altman, Tim Reilley &...
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Transcript of Controller Design for a Linearly Actuated Suspension System (cdlass) Dan Altman, Tim Reilley &...
![Page 1: Controller Design for a Linearly Actuated Suspension System (cdlass) Dan Altman, Tim Reilley & Joseph Sholl Advisors: Prof. Gutschlag & Prof. Anakwa.](https://reader031.fdocuments.net/reader031/viewer/2022032722/56649cea5503460f949b5070/html5/thumbnails/1.jpg)
Controller Design for a Linearly Actuated Suspension System (cdlass)Dan Altman, Tim Reilley & Joseph Sholl
Advisors: Prof. Gutschlag & Prof. Anakwa
![Page 2: Controller Design for a Linearly Actuated Suspension System (cdlass) Dan Altman, Tim Reilley & Joseph Sholl Advisors: Prof. Gutschlag & Prof. Anakwa.](https://reader031.fdocuments.net/reader031/viewer/2022032722/56649cea5503460f949b5070/html5/thumbnails/2.jpg)
Presentation Outline•Background
•Applications
•Motivation
•Project Summary
•Disturbance Analysis & System Modeling
•Hardware, Software, and
Circuitry
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Background
•1991 - Pneumatic Active Suspension System by Dion Thomas and Scott Jones, advisor: Dr. Anakwa
•2002 - Dr. Anakwa publishes "Development and Control of a Prototype Pneumatic Active Suspension System" (with students), IEEE Transactions on Education, Vol. 45, No. 1, February 2002, pp. 43-49.
•2006 – Active Suspension System by Blake Boe and Tyson Richards 2
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Applications
• System could be implemented in:• Seat inside of the
cab• Under the cab
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Motivation
•Shared Interest in:
•Electromechanical systems•Power electronics•Controls•Experience using LabVIEW software
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Project Summary
•H-bridge Design
•Controller design using data from position sensor
•Use of LabVIEW software
•Creation of LabVIEW tutorial
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Project Goals
•Reintegrate the linear actuator and H-bridge hardware into the suspension system due to the unavailability of the H-bridge hardware used previously
•Model the system characteristics of the linear actuator
•Implement National Instrument’s hardware and software (LabViewTM) to provide data acquisition and power electronics control 6
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Project Goals cont.
•Implement a feedback position controller using National Instrument’s hardware and software (LabVIEWTM) to minimize the error
•Create a tutorial for the use of National Instrument’s hardware and software (LabViewTM)
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Performance Specifications
• A controller capable of driving the linear actuator to maintain a midpoint level, minimizing a displacement for a disturbance with a frequency of up to 5 Hz
• Minimized displacement of the cab from the midpoint
to ± ⅛” (3.175 mm) with no load • Minimized displacement of the cab from the midpoint
to ± ¼” (6.35 mm) with a load 8
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Previous Work on Active Suspension System
•Replaced the pneumatic actuator with an electric linear actuator
•Modeled the H-bridge in PSPICE
•Integrated the linear actuator and H-bridge hardware into the suspension system
•Modeled the system including the linear actuator using Simulink
•Implemented open and closed loop controllers to minimize the error displacement to ¼ [in] with a 1 [in] disturbance 9
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Complete System Block Diagram
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Physical System
Load (mass)
PositionSensor
LinearActuator
Camshaft
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Controller Flow Chart
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Controller
Run/StopOff/On(Brake)
Forward/Reverse
PWM
ADC DACNI Hardware
Scope
PositionSensor(Platform)
PositionSensor(Actuator)
H-Bridge /LinearActuator
Disturbance
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Linear Actuator
•Uses controller information from LabVIEW and potentiometer in order react to disturbances
•Relationship between torque and applied force:
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Linear Actuator/System Test
•Based on the relationship between torque and applied force we derived the following equation to determine Tc and b:
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Linear Actuator/System Test
Trial 1:20 Lbs (or 9.07 kgs)of weights used
Steady-State
Approx. 20.5 V
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Linear Actuator/System Test
Trial 2:25 Lbs (or 11.34 kgs)of weights used
Steady-State
Approx. 49.2 V
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Linear Actuator/System Test
Based on the previous group’s work: kE=0.382 [V/rad/sec] so:
Trial 1: ω = 20.5 [V] / .382 [V/rad/sec] = 53.67 [rad/sec]
Trial 2: ω = 49.2 [V] / .382 [V/rad/sec] = 128.80 [rad/sec]
Using simultaneous equation solver:
Tc = 0.09304 b = 7.55 X 10-4
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Disturbance Control•AC motor drives the cam
•Variable Frequency Drive, Controls the speed of the AC motor
•Single elliptical cam shape causes the disturbance while rotating
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Disturbance Analysis
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Original H-bridge and Gate Driver Hardware
IR2110
We will utilize:• Four IRF640N Power
MOSFETs• Two IR2110 High and
Low Side Drivers• Four 6N137 High
Speed 10MBit/s Logic Gate Optocouplers
IR2110 Gate Driver
IRF640N Power MOSFET 6N137 Logic GateOptocouplers
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Revised H-bridge and Gate Driver Hardware
We will utilize:• Four (4) HCPL 3120 Gate
Drive Optocouplers• One (1) IGBT Full-bridge
Power Module
Reason for Change:• HCPL 3120 more robust,
fewer chips, built-in optocoupling
• MOSFET’s could not handle large current spikes
IGBT Full-bridge Power Module
HCPL 3120Gate Drive Optocoupler
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IGBT Circuit Schematic
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IGBT Circuit Schematic
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IGBT Module Pin Assignment and Circuit Schematic
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H-Bridge Circuit
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H1 H2
L2L1
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H-Bridge Circuit: Forward Mode
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H1 H2
L2L1
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H-Bridge Circuit: Reverse Mode
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H1 H2
L1 L2
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Bootstrap Circuit
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National Instrument Hardware
• NI cDAQ-9174 NI CompactDAQ 4-slot USB 2.0 Chassis, 9 V - 30 V Input Voltage Range
• NI 9401 8-Channel Ultra-high Speed Digital I/O Module
• NI 9221 8-Channel 12-Bit Analog Input Module
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Logic in LabVIEW
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Logic in NI Multisim
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Motor Modeling in Sumulink
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Motor Modeling in LabVIEW
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Motor Modeling Simulations
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Simulink
LabVIEW
Angular Velocity Linear VelocityLinear Acceleration
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PWM Generator in LabVIEW
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Front Panel of PWM Generator
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Let Amplitude = A
Duty Cycle = (A-1)/A
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Front Panel of PWM Generator
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Disturbance Signal
Processed Error Signal
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Overview
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• Working H-Bridge design • System model created and simulated in LabVIEW • PWM signal generator created in LabVIEW
• Data acquisition merged with PWM signal generator in LabVIEW
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Future Work
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• Integration of H-Bridge and controller in LabVIEW • Expanding experience with National Instruments
hardware and software such as using RIO and additional software modules
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References• References
• [1] Blake Boe and Tyson Richards. “Active Suspension System”, Senior Project, Electrical and Computer Engineering Department, Bradley University, May 2006, http://cegt201.bradley.edu/projects/proj2006/actss/
• [2] IDC Motion EC2 Series Linear Actuator Data Sheet
• [3] National Instruments Hardware Data Sheets
• [4] Anakwa, Dr. Winfred, "Development and Control of a Prototype Pneumatic Active Suspension System" (with students), IEEE
Transactions on Education, Vol. 45, No. 1, February 2002, pp. 43-49.
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Bootstrap Capacitor Calculation
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Background
• John Deere introduced the hydraulic powered actuated active suspension seat in 2001
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