verhaert innovation day 2011 – tom boermans (lms) - system simulation enables faster development...
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System Simulation enables faster development and better products
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Tom Boermans
LMS – Account manager
tom.boermans@lmsintl.com
INNOVATIONDAY 2011
System Simulation enables faster development and better products
Tom BoermansAccount Manager
1D System SimulationLMS Imagine.Lab AMESimAMESim references cases
Overview
IntroductionSystem Simulation basicsSystem simulation using LMS Imagine.Lab AMESimAMESim reference casesAMESim reference cases
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IntroductionIntroduction
Introduction to LMS30 years of engineering innovation
Servicing more than 100.000 R&D engineers … in 5.000 manufacturing companies
A unique ‘Solution Provider’ ofTest Systems, CAE Simulation tools and related
services
Top talent in 30+ offices Worldwide… almost 1.200 professionals
Visionary, industry-leading innovator … 25% of budget in R&D
Strong financial track record of profitable growth
Introduction to LMSGlobal Talent for Global Customers
R&D Centers
Brasov Breda
ChennaiCoralville Gottingen
Kaiserslautern Leuven
LyonPlymouthRoanne Torino
Sales Offices
BaltimoreBangaloreBejingCoventryDetroitLeonbergLeuvenLos AngelesLyonMoscowMunich
Representatives
Bangkok Bangalore Beckum
Bucharest Cairo
Kfar Saba Krakow
Kuala Lumpur Ljublijana
Madrid Moscow
Engineering Services
BejingBrasov Chennai
Coralville Detroit
Kaiserslautern Leuven
LyonTorino
YokohamaTorinoMunich
NovaraParisSao PauloSeoulShanghaiToulouseYokohama
Moscow Nilufer BURSA
Psáry São Paulo
Sarov St. Petersburg
Sydney Veliky Novgorod
Europe40%
Americas20%
Japan/Korea20%
RIC20%
33 15
Hybrid TEST/CAE Partner1.000 people
Horizon 20XX
LMS
201
1
UVIntroduction to LMSLMS, delivering Transformational Solutions
Transforming is …Addressing
the future problemsof our customers
Leading partner in Test and Mechatronic Simulation
Horizon 2020
LMS
201
0
19951980
TEST-NVH Partner200 people
1995 2010
Engineeringthe passion
LMS
201
0
LMS
the
Roo
ts
Design - CAD
Imagine.Lab Platform – Mechatronic System Simulation
Controls
Introduction to LMSA unique portfolio of engineering innovation platforms and best practices
Virtual.Lab Platform3D Performance Simulation
Modal – NVH – Acoustics – Durability Laboratory Mobile
Test.Lab Platform – Test Based Engineering
Multi-physics ModelingSystem Synthesis System Data Management
Test.XpressSCADAS Platform
People Highly skilled engineers
Know-How Engineering Expertise
- Process re-engineering & deployment- Technology transfer, Trouble shooting
Project Management % Problemssolved
100%
Proto & Refphase
Proto & Refphase
Engineeringphase
Engineeringphase
ConceptPhase
ConceptPhase
Proto & Refinementphase
Proto & Refinementphase
Engineeringphase
Engineeringphase
Conceptphase
Conceptphase
Improved initial design
Faster optimization
Shorter time to market
Feedback JML – change to lay-out MI – no references- DONEIntroduction to LMS
LMS Engineering Services, development partner of choice…
Process & Technology Frontloading Multi-attribute Engineering Technology Transfer
Highly skilled engineers Strong global teaming Flexibility
Tools Test facilities & tracks Use of “multi-physics ” models for
control development Software tools (own and 3 rd party)
Addressing key engineering challenges of AOEMModel Based System Engineering (MBSE)
Introduction to LMS“From troubleshooting to design first time right”
Controls Engineering(Mechanical/Electronic
Integration)
4
DESIGN / ENGINEERINGSPECIFICATION VALIDATION CERTIFICATION TROUBLESHOOTING
Concept & design PhaseSystem Modeling(Multi-Physics)
3
Design PhaseHybrid Test/3D CAE
(Correlation)
2
Validation PhasePrototype Testing
1
System Simulation basicsSystem Simulation basics
The new Paradigm Shift : Towards a Model Based Development Process
Traditional
Mechanical functionsDesign ManufacturingControl&
SoftwareFunctions
“Systems” -levelThermal FunctionsFuture
Model Based System Engineering
MechanicalFunctions
Control & SoftwareFunctions
3D Design Manufacturing
VehicleArchitecture
DetailedDesign
Subsystems
VehicleIntegration
& Calibration
“Systems” -levelEngineering Framework
Introduction to Systems
What is a System?
A group
of
multi-domain / multi-physics componentsmulti-domain / multi-physics components
interacting together
Systems have structure, defined by parts and their composition
Systems have behavior, which involves inputs, processing and outputs of material, energy or information
Systems have interconnectivity: the various parts have functional and structural relationships
What is a system? Example
Washing Machine
ControlControlElectricHydraulicMechanicThermal
What is System Simulation?
Usual design issues : Is the electric motor powerful enough? What is the time response of the system? Is there any risk of vibration? How to optimize the control design?
Key words : Multi-physics with power exchange Dynamic system (function of time) Physical system model = Plant model
Control Electric Hydraulic Mechanic
AMESim plant model
Abstraction Level – Equations – Representation
Equations are usually written as time dependent Computing state derivative of variables to assess transient evolution Equations are represented by readable objects (icons)
Mechanics02
/²/*22 =+⋅⋅⋅+
−−=
nn szs
KxdtRdxFdtdxM
ωω
Equations Physical Icon Representation
Electric
Hydraulics
And many other physical domains…
CIdtdU
IRU
//
*
==
PdisplT
displQ
∆= Ω=
*
*
System simulation is linked to the power flow and power conservation within a dynamic system Each power network can be modeled using different physics with gates for sub-system connections
Power Flow within dynamic system
Electric Hydraulic Mechanic
You are manipulating equations not drawing a circuit !
Electric power
network
Hydraulic power
network
Mechanic power
network
Power flow
Multi-domain simulation system benefits
DRIVE INNOVATION
Explore a wider range of ideas and solutions
Early validation of technical feasibility
Test and compare new ideas via simulation
STREAMLINE PROCESS
Reduce design cycle by virtual system integration
Increase reusability through knowledge capitalization
IMPROVE QUALITY
Improved product behavior predictability
Better collaboration between disciplines
Tighter integration of functions (components or systems) to build a final product
REDUCE COSTS
Reduce development costs with fewer physical prototypes
Minimize risk on test beds
Reduce products breaks and failures
System simulation to answer your challenges
Technology agendas
Green Comfort Safety Performance
From sequential to integrated product developmentIncreased virtual development: CAE tools and processes at the heart of the technology agenda
Are systems correctly sized?
How to integrate more and more electronics?
How to reduce energyconsumption?
How to ensure the dynamic behavior of the full system?
System simulation using System simulation using Imagine.Lab AMESim
Why AMESim for system simulation?
INTELLIGENT SYSTEMS
MULTI-DOMAIN MULTI-LEVEL BEHAVIOR
Model and simulate complex,
regulated and controlled systems
Optimize the complex
interactions between several physical domains
Use from detailed component
analysis to global system synthesis
Run both transient and static analysis
to assess performance and energy efficiencyphysical domains energy efficiency
Plant modelLink to controlsReal-time capabilities
ThermalHydraulic and PneumaticMechanicElectricElectromechanical
From high frequency to mean value modelsFrom early pre-design to specification and integration
Time and frequency domains analysisFunctional performance and energy consumption
LMS Imagine.Lab Libraries
> 30 libraries, > 4000 validated models
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LMS Imagine.Lab suite
Hydraulics Pneumatics Thermal-Hydraulics
Two-PhaseFlow
GasMixtures
Mobile HydraulicActuation
ApplicationSolutions
Data Management
SysDM
AMESimModelica Platform
Real-timeScripting facilities
Analysis ToolsSolver and NumericsSoftware Interfaces
Fluids Thermal Mechanical Electrical
PhysicalLibraries
AuthoringPlatform
MECHANICS HYDRAULICS
FEM
CONTROL
MBS
CFD
AMESim positioning in CAx world
3D simulation
CONTROL PNEUMATICS
THERMALPOWER ELECTRONICS
MAGNETIC
1D system simulation
LMS Imagine.Lab AMESim
LMS Imagine.Lab AMESim, an Open Platform with…
MBS
CFD
LMS Virtual.LabMotion
CFX
PIDO
ControlReal Time
EM
OPTIMUS
LMS Imagine.Lab platform
Create Simulate Capitalize Deploy
•Development of new
components
•Modeling
•Simulation
•Analysis
•Libraries management
•Model Packaging
•Run only
•Parametric studies
AMESim AMECustom AMERunAMESet
User expertise User number
Expertise Deployment
Starting Point
AMESim Pre/Post-processing tools
AMESim Tools enable to pre/post-process and analyze simulation data Pre and post-processing tools: table editor, plot manager, HTML report generator, 3D
animation,.. Analysis tools: FFT, linear analysis, model reduction, optimization,…
Frequency Domain Design Exploration
DOE Optimization Monte-Carlo
AMESim - Simulink InterfaceCoupling the plant model
within a control model in Simulink
AMESimComplete systems engineering
simulation platform
SimulinkThe de-facto standard for
control system design
Physical & Control modeling
Obtain the best features of both platforms
Analyze coupling between physical and thecontrol systems
Eliminate the need to re-write complexmodels on various platforms
No limitation in model size or complexity
3 types of interface: Co-simulation Export from AMESim to Simulink Export from Simulink to AMESim
Example 1: public water regulation valve
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Example 1: displacements of the two valves, downstr eam pressure and pressure in the upper chamber
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Example 1: displacements of the two valves, downstr eam pressure and pressure in the upper chamber
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Example 1: Pressure variations
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variations of the pressure in the pilot valve Downstream pressure for three different nozzle diameters
Example 2: Excavator with planar mechanics
AMESim reference casesAMESim reference cases
KYB reduced the design cycle of hydraulic system
KYB is a leading Japanese hydraulics company specia lized in hydraulic technology which is widely used in the au tomotive, aeronautical, construction machinery, rail and mari time industries.
Challenges Reduce design cycle delays of hydraulic system Demonstrate to customers products’ efficiency through
simulation.
Solution A flexible simulation tool that engineers could easily understand,
adapt to various customers’ requests and interface with other simulation software (multibody software, Simulink)
LMS Imagine.Lab Fluid Systems
“LMS Imagine.Lab AMESim helps us to reduce our desig n cycle by two months.”
Mr.Kazuhide Maehata – KYB – Hydraulic Components Opera tions General Manager
Home appliances manufacturerReinforcing the “Eco” home appliances brand values
Challenges Reduce costs and delays and develop
eco-friendly, innovating refrigerators Keep and grow competitive advantage
Solution LMS Imagine.Lab Two-Phase Flow
solution Stop and Start capabilities
AMESim helped to test virtually early in the design cycle theenergetic performance of their refrigerators according to variousconfigurations and to simulate complex standard working cy cles.
Benefits Seamlessly model fridges with complex test cycles standards to fit industry
requirements Test several refrigerating configurations rapidly and analyze the impact Replace hours of test sessions by minutes of simulation Have a more deep insight on control loops
Cold rolling mill productivity optimization
Company:Manufacturer of cold rolling mill for steel plate production line
Issue:Optimization of the hydraulic control of the roll gap to keep
constant thickness of the steel plate
Solution:Solution: Evaluation of new “intelligent” system to control chatter
effect of hydraulic roll mill The simulation model covers the plant control and
regulation functions Prediction of vibration problems
LMS Imagine.Lab AMESim with hydraulic libraries (HYD and HCD)
Study on Tetra Pak S.p.A machinery workflow to increase production rate with LMS Imagine.Lab AMESim
Challenges Development of more efficient hydraulic
actuation systems , that enable a higher productivity and an overall power saving
Solution Analysis of the dynamic behavior of an automatic
packaging machine hydraulic circuit of Jaw and Filling System, with LMS Imagine.Lab AMESim
Modified layout has been proposed, adopting a simpler circuit configuration.
“With the new layout configuration, requested produ ction rate can be assured supplying the circuit wit h a lower power which enables an increasing of the syst em efficiency”
C. Angeloni, S. Castagnetti, M. Ernetti, F. Franzoni, M. Milani from DISMI University of Modena and Reggio Emilia - “The Twelfth Scandinavian International Conference on Fluid Power, May 18-20, 2011, Tampere, Finland
simpler circuit configuration.
Benefits The circuit has been optimized, considering the
proper interaction between the different parts Productivity increased from 6000 to 10000
packages/h System efficiency increased
Multi-physics modelling and system analysis of elec trical distribution network devices at SCHNEIDER Electric
Challenges Integration Power and Control Increase of product functionalities (both hardware & software) Decrease energy consumption
> New Product architectures: global optimization of the products
Solutions Electromechanical Components solution Trainings and technical expertise
Benefits Benefits Technical capabilities of the tool to perform multi-physic
(electrical, mechanical and thermal) and electronic simulation Capabilities to capitalize and transfer the models along our
design process Accuracy of the simulation results versus the simulation delay Many different uses of models for our investigations
““““LMS Imagine.Lab offer a wide environment that allo ws designers to share their viewpoints, model and simulate devices on the whole, and find solutio ns quicker”
François CAZALS – Schneider Electric – System and Mec hatronic expert designer
Thank you !
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