Modeling and Validation of a Variable Frequency Drive-Based … · [email protected]...
Transcript of Modeling and Validation of a Variable Frequency Drive-Based … · [email protected]...
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1© 2015 The MathWorks, Inc.
Modeling and Validation of a Variable
Frequency Drive-Based HVAC System
Dhirendra Singh R. Vijayalayan
[email protected] [email protected]
Delhi Bangalore
Control Design Application Engineering
MathWorks India
April 23
Bangalore
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A Quick overview of the problem
Mechanical/Thermal
Engineer
Quickly develop the
complete HVAC System
Gain confidence that the
system works fine
Arrive at an optimal design
of system
Electrical/Controls
Engineer
Quickly develop suitable
electric drive for the HVAC
system
Study the behavior of the
system
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Challenges with Traditional Development Process
Code
Test
Hardware
Test
Complete
Integration
DeployConcept
System
Design
Component
Design
Require-
ments
Implementation
Cannot validate
design
against requirements
Cannot test or
optimize
fully integrated design
Can only find
problems
using hardware
prototypes
Control
Electrical, Hydraulic
Mechanical
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Code
Test
Hardware
Test
Complete
Integration
DeployConcept
System
Design
Component
Design
Require-
ments
Implementation
Cannot validate design
against requirements
Cannot test or optimize
fully integrated design
Can only find problems
using hardware
prototypes
Optimize design in a
single
simulation environment
Detect errors right away
with continuous
verification
Lower costs
using HIL tests
Control
Electrical, Hydraulic
Mechanical
Benefits of Model-Based Design Process
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What are we doing today?
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Key challenges in designing a multi-domain
system
Understanding the interaction of different systems
Having a single environment for modeling and
simulating a multi-domain system
Optimizing the system design
Reducing the time spent in system analysis and report
generation
Re-using the models for real-time testing
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Agenda
Introduction to Physical Modeling
Modeling Electrical Systems
Modeling Thermal Systems
Defining new physical domains and creating new components
Logging and exploring simulation data
Performing design studies and optimizations
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Agenda
Introduction to Physical Modeling
Modeling Electrical Systems
Modeling Thermal Systems
Defining new physical domains and creating new components
Logging and exploring simulation data
Performing design studies and optimizations
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Data-Driven ModelingFirst Principles Modeling
Neural Networks
Physical NetworksSystem
Identification
Parameter Tuning
Programming
Block Diagram
Modeling Language
Symbolic Methods
Modeling Approaches
Modeling Physical Systems
With MathWorks Products
Statistical Methods
(MATLAB, C)
(Simulink)
(Simscape language)
(Symbolic MathToolbox)
(Simscape and other
Physical Modeling
products)
(Neural NetworkToolbox)
(Model BasedCalibration Toolbox)
(Simulink Design Optimization)
(System Identification Toolbox)
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Introduction to Physical Modeling
DC MotorR
L
Kt,Ke
J,b
i
dt
diLRiKv m
windwindme
dt
dJDiKT
mt
θ
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Let’s build DC motor model from scratch using Simscape
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Introduction to Physical Modeling
DC Motor
Simscape model advantages
– Easier to read than equations
– Quicker to create
– More intuitive – easier to explain to other engineers
R
L
Kt,Ke
J,b
i
dt
diLRiKv m
windwindme
dt
dJDiKT
mt
θ
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Agenda
Introduction to Physical Modeling
Modeling Electrical Systems
Modeling Thermal Systems
Defining new physical domains and creating new components
Logging and exploring simulation data
Performing design studies and optimizations
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Modeling 3-Phase Electrical Systems
Problem: Build a modular,
intuitive model of a 3-phase electric
motor without deriving equations.
Solution: Use SimPowerSystems
to model the device.
Model:
a
b
c
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Model Electric Drives
Combine power electronics,
machine, and control algorithm
– GUI to assign key parameters
– Common strategies for
speed and torque control
– Adjustable level of fidelity
(detailed, averaged)
Common machine types can be
used as motors or generators:
– Permanent magnet
– Synchronous, asynchronous
– Induction
– Single phase or 3-phase
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Calculate Model Parameter Values
Asynchronous or PMSM Models
Calculates
parameters for
equivalent circuit
directly from
data sheet values
– Plot torque speed
relationship
– Automatically update
machine model
Data Values
Line to Line RMS Voltage 400 V
Nominal Frequency 50 Hz
Full Load Current 194 A
Full Load Torque 352 N.m
Synchronous Speed 2982 rpm
Compute Block Parameters Apply to Selected Block
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Completed Model of Variable Frequency Drive
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What’s Next?
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Agenda
Introduction to Physical Modeling
Modeling Electrical Systems
Modeling Thermal Systems
Defining new physical domains and creating new
components
Logging and exploring simulation data
Performing design studies and optimizations
![Page 20: Modeling and Validation of a Variable Frequency Drive-Based … · dhirendra.singh@mathworks.in vijayalayan.r@mathworks.in Delhi Bangalore Control Design Application Engineering MathWorks](https://reader033.fdocuments.in/reader033/viewer/2022041923/5e6d0eaa683ee0044b7cb6a9/html5/thumbnails/20.jpg)
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HVAC Component
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Creating HVAC Domain using Simscape Language
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Agenda
Introduction to Physical Modeling
Modeling Electrical Systems
Modeling Thermal Systems
Defining new physical domains and creating new components
Logging and exploring simulation data
Performing design studies and optimizations
![Page 23: Modeling and Validation of a Variable Frequency Drive-Based … · dhirendra.singh@mathworks.in vijayalayan.r@mathworks.in Delhi Bangalore Control Design Application Engineering MathWorks](https://reader033.fdocuments.in/reader033/viewer/2022041923/5e6d0eaa683ee0044b7cb6a9/html5/thumbnails/23.jpg)
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Logging and Exploring Simulation Data
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Agenda
Introduction to Physical Modeling
Modeling Electrical Systems
Modeling Thermal Systems
Defining new physical domains and creating new components
Logging and exploring simulation data
Performing design studies and optimizations
![Page 25: Modeling and Validation of a Variable Frequency Drive-Based … · dhirendra.singh@mathworks.in vijayalayan.r@mathworks.in Delhi Bangalore Control Design Application Engineering MathWorks](https://reader033.fdocuments.in/reader033/viewer/2022041923/5e6d0eaa683ee0044b7cb6a9/html5/thumbnails/25.jpg)
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Performing design studies and optimizations
Speed
100
Problem: Design and tune the
Reference speed in this system to
meet condenser pressure requirements
Solution: Use Simulink Design
Optimization to design, tune,
and test the system
Speed
602
Speed
2514
Speed
3555
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Key challenges in designing a multi-domain
system
Understanding the interaction of
different systems
Having a single environment for
modeling and simulating a multi-
domain system
Optimizing the system design
Reducing the time spent in system
analysis and report generation
Re-using the models for real-time
testing
![Page 27: Modeling and Validation of a Variable Frequency Drive-Based … · dhirendra.singh@mathworks.in vijayalayan.r@mathworks.in Delhi Bangalore Control Design Application Engineering MathWorks](https://reader033.fdocuments.in/reader033/viewer/2022041923/5e6d0eaa683ee0044b7cb6a9/html5/thumbnails/27.jpg)
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Thank You