Virtual Development of Drivetrains · CAx im Fahrzeug- und Motorenbau 1 07. Nov. 2016...
Transcript of Virtual Development of Drivetrains · CAx im Fahrzeug- und Motorenbau 1 07. Nov. 2016...
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CAx im Fahrzeug- und Motorenbau 1
07. Nov. 2016
Wintersemester 2016/17
Virtual Development
of
Drivetrains
Dipl.-Ing. Johannes QuehenbergerMagna Powertrain
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CAx im Fahrzeug- und Motorenbau 2
Contents
Introduction
Development Approach
Tools and Applications
Software Development
Virtual Production Development
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CAx im Fahrzeug- und Motorenbau 3
Introduction
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Product and Production
CAx im Fahrzeug- und Motorenbau 4
(Quelle: BMW Group, WPS Training)
Hand Craft
Combination of Man and
Machine
Mass Production FORD
Equipment Specialization and
Division of Work
Lean Manufacturing
The TOYOTA Production
System
• Tailor made
• Quality depending on Skill
of Craftsman
• High Cost and Price
• Long Lead Time
• Low Volume
• Low Customer Orientation
• Good Quality
• Dramatic Cost Reduction
• Reduction of Delivery Time
• High Volumes
• Optimization of all
Resources, Low Cost
• Focusing on Elimination of
Waste to achieve complete
Customer Satisfaction
• High Flexibility
• Low Volumes per Type
• High Total Volumes
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Product Development
CAx im Fahrzeug- und Motorenbau 5
(Quelle: Lindemann, nach: Gausemeier, 2006)
Virtual Product
vs.
Virtual
Production
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Simultaneous / Concurrent Engineering
Production
Pre-Production
Procurement
ProductionPlanning
Test
Design
Concept
Production
Pre-Prod’n
Procurement
ProductionPlanning
Test
Design
Concept Conventional Engineering
Simultaneous Engineering
Reduction
Fro
nt
Loadin
g
6CAx im Fahrzeug- und Motorenbau
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Virtual Development
CAx im Fahrzeug- und Motorenbau 7
Geometry
Function
Hardware
Software
System
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CAx im Fahrzeug- und Motorenbau 8
Development Approach
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CAx im Fahrzeug- und Motorenbau 11
Requirements
from Vehicle
Requirements
Analysis
Modultest
KomponentenTest
Definition and Validation
Test Scripts
Detailed Functionality
Testing
Testing of
Functionality
Concept, Component
Specification, Software
Specification
Vehicle
(OEM)
In Vehicle
Testing
Vehicle
Transfer CaseTransfer Case
Tests
Component
DevelopmentComponent
Tests
Acceptance In Vehicle
Testing
(OEM)
Virtual Product Development
Development Process
Source: Magna Powertrain
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System Integration
CAx im Fahrzeug- und Motorenbau 12
The V-Cycle will be run
through several times
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CAx im Fahrzeug- und Motorenbau 13
Tools and Application
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System Function: Simulation-Environment VeDyna
CAx im Fahrzeug- und Motorenbau 14
Vehicle: - Validated vehicle-models
Component: - 4x4 Algorithm
- Consumption-module
- Temperature-module
Driver Model: - VeDyna Advanced Driver 2
M4x4
Cycles
Handling
Maneuvers
Consumption
System-stress &
Comfort
Traction
&
Vehicle Dynamics
4x4
Algorithm
Source: Magna Powertrain
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Component Function
CAx im Fahrzeug- und Motorenbau 17
Input
• Vehicle and drive unit data (masses, dimensions, ratios, stiffnesses damping…)
• Load case (impulse shift)
• Material
Multi Body Simulation of parking lock system with AMESIM
Output
• Torque
as function of time
in relevant positions of transmission
• Peak force on pawl
upstream torque at pawl (rotor)
downstream torque at pawl (road)
Model
Source: Magna Powertrain
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Component Function
CAx im Fahrzeug- und Motorenbau 18
Multi Domain Simulation of Hydraulic Actuation System
Rotor gear profiles geometry
generation with
MATLAB/SIMULINK
Source: Magna Powertrain
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Component Function
CAx im Fahrzeug- und Motorenbau 19
Evaluation with Reference
Pump AMESIM 1-D Hydraulic
simulation
Option: Pump stiffness and
gap variation, FEA with CATIA
Multi Domain Simulation of Hydraulic Actuation System
Source: Magna Powertrain
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Analytical Strength Assessment
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Model
• Beam model for shafts
• Notch geometry
choice according to FKM method
• Load spectra
adapted according to FKM (rainflow)
• Material data modification
(heat treatment)
• Bearing model: analytical
(integrated in tool)
KISSsoft and BEARINX: Dimensioning of shafts and bearings
example BEARINX
Hertzian pressure
on roller/outer ring
Input
• Shaft geometry
• Loads, load spectra
• Material
• Bearing type, dimension
• housing stiffness (option)
Output
• Safety figures (fatigue, static)
• Stresses, Hertzianpressure
example KISSsoft
Pinion model
Source: Magna Powertrain
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System Structural Dynamics
CAx im Fahrzeug- und Motorenbau 21
Model Generation for FEA analysis: example eRAD
Source: Magna Powertrain
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System Structural Dynamics
CAx im Fahrzeug- und Motorenbau 22
Determination of Modal System Behavior
First results extracted by the FEM
Solver
Natural Eigen-Frequencies and their
corresponding modeshapes
Structural weakness areas by use of
the modal strain energy distribution
Description and documentation of the
extracted natural frequencies and their
mode shapes in the so-called modal
map.
Comparison of the determined natural
frequencies to acting excitation
frequencies and first assessment
Source: Magna Powertrain
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System Structural Dynamics
CAx im Fahrzeug- und Motorenbau 23
Determination of System Response
Determination of system response
behavior due to acting excitation loads
Vibration motion behavior at excitation
frequencies up to 2500 Hz
Acceleration run over frequency at
structural points to identify resonance
areas
Surface velocity prediction to identify
structural areas with potential to
radiate sound
Source: Magna Powertrain
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System Structural Dynamics
CAx im Fahrzeug- und Motorenbau 24
Example of Optimization Loop
Calculation of Response behavior for chain excitation load case
View vibration animation at resonance frequency and identify relevant mode shape or shapes out of the modal map
Together with the designer discuss and define countermeasures
Update the FEM model with the countermeasure and recalculate
compare the results to the initial design Source: Magna Powertrain
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Ball-Ramp System
CAx im Fahrzeug- und Motorenbau 25
Simulation using Multi-Body Capabilities of Abaqus
Rotation Input to the Worm Gear
Motor Worm Gear
Fixed Ramp
Moving Ramp
Source: Magna Powertrain
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Ball-Ramp System
CAx im Fahrzeug- und Motorenbau 26
Details: Rigid Body Parts with Contact Surfaces
Ball movement
In analysis, the ball is a perfect sphere. The
“mesh” is displayed only for visualizing motion.
Source: Magna Powertrain
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Ball-Ramp System
CAx im Fahrzeug- und Motorenbau 27
Details: Contact Area and Contact Path Differences
Contact pressure evolution animation (shown for two cycles)
Ball No. 1 Ball No. 2
Ball No. 3
Source: Magna Powertrain
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Ball-Ramp System
CAx im Fahrzeug- und Motorenbau 28
Contact Path Hysteresis with Aberration in End Position
Start (1st)
2nd
3rd
4th
End - 5th
Ball 1 motion (displayed for 5 cycles)
Source: Magna Powertrain
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Rolling Gear Simulation - AUDI Sport Differential
CAx im Fahrzeug- und Motorenbau 29
Nonlinear Tooth Root Stress Analysis (Abaqus)
Source: Magna Powertrain
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Rolling Gear Simulation - AUDI Sport Differential
CAx im Fahrzeug- und Motorenbau 30
Nonlinear Tooth Root Stress Analysis (Abaqus)
Only tooth root (tensile) stress
displayed.
Contact stress omitted.
Source: Magna Powertrain
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Dynamic Deflections: Parking Pawl Engagement
CAx im Fahrzeug- und Motorenbau 31
Nonlinear FE Analysis (Abaqus) Source: Magna Powertrain
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CAx im Fahrzeug- und Motorenbau 32
FEA Solver: NASTRAN
Model So
urc
e: M
agn
a P
ow
ert
rain
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CAx im Fahrzeug- und Motorenbau 33
FEA Solver: NASTRAN
Nonlinear Loading
Taper roller
bearing cones
Shafts, wheel
body elements
Roller elements
(nonlinear)
Output torque Input torque Pair of contact
forces
So
urc
e: M
agn
a P
ow
ert
rain
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CAx im Fahrzeug- und Motorenbau 34
FEA Solver: NASTRAN
Nonlinear Loading So
urc
e: M
agn
a P
ow
ert
rain
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CAx im Fahrzeug- und Motorenbau 35
FEA Solver: NASTRAN
Results So
urc
e: M
agn
a P
ow
ert
rain
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CAx im Fahrzeug- und Motorenbau 38
FEA Fatigue Analysis: FEMSITE
Stress plot Safety plot
Source: Magna Powertrain
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CAx im Fahrzeug- und Motorenbau 39
FEA Fatigue Analysis: FEMSITE
Stress plot Safety plot
Source: Magna Powertrain
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CAx im Fahrzeug- und Motorenbau 40
FEA Fatigue Analysis: FEMSITE
x
z
1307N
N1800
2075N
N1000
2118N
N1100
3493N
N12005455N
N1300
5830N
N1500
2232N
N1600
8864N
N1400
511N
N1700
675N
N1900
Shear load distribution
on screws
Flange separation under load
Source: Magna Powertrain
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CAx im Fahrzeug- und Motorenbau 42
Hypoid Gears: GLEASON (T 900) and ANSYS
Source: Magna Powertrain
FEA-based strength analysis program by GLEASON
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Heat dissipation - Thermal model of coupling: ANSYS
CAx im Fahrzeug- und Motorenbau 43
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CAx im Fahrzeug- und Motorenbau 44
Software Application during Development
NASTRAN
ABAQUS
MEDINA
ANSYS
FEMSITE
FEMFAT
TOSCA
KISSSOFT / KISSSYS
CAGE for WINDOWS
AMESIM
VEDYNA
MATLAB / SIMULINK
ADAMS
Concept Design
PT 1 PT 2 PPAP
Source: Magna Powertrain
Control development
Mechanical development
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CAx im Fahrzeug- und Motorenbau 45
Software Development
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CAx im Fahrzeug- und Motorenbau 46
Software Development Process
System
Specification
Functional
Design
Hardware-in-the-
Loop
White-Box-Test
Software-in-the-Loop
OEM´s
Solution
Software-in-the-Loop
Rapid Controller
PT
Target Code
Generation
Control Design
System Integration
Calibration, Test
SW-Code- Implementation
Test Spec
Source: Magna Powertrain
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CAx im Fahrzeug- und Motorenbau 47
Feasibility Study – „Proof of Concept“
All components that have influence on functionality
Estimation of functionality e.g. Maximum torque capacity
Control behaviour of torque build-up
System availability
...
Simulation model of Power supply
ECU PWM driver
Worm gear motor
Ball helicline
Clutch
Simulation based on Simulink simulation modules using
libraries
Approved on former programs
Actuatoric System of ATC
Source: Magna Powertrain
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CAx im Fahrzeug- und Motorenbau 48
Transfer Case Functionality - Achieving Requirement Spec.
Detailed simulation
shows all components‘ influences
e.g. DC Motor
Temperature dependencies
Torque ripple of motor
Eddy current losses
Brush voltage drop
Friction of worm gear unit
...
Delivers accurate information about
Energy consumption
Torque set behavior and speed
disturbances due to
Temperature
Power supply
Aging of wiring harness
...
Time
Time
Current
Torque
Typical Results
Source: Magna Powertrain
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CAx im Fahrzeug- und Motorenbau 49
Functional Approval Model
Approved simulation models tested using prototype parts
Control software included
New control strategies developed simultaneously
Allows to generate software specification
AudiS3
Reisinger/EEE-F, 02-Jun-1999 16:21vtlastw: MueD=1.0,eben, r= 50m, ab Lastw. fix, v0=36kmh->DKW:80° ->0° , T1=0.3s, V1.0: Haldex geregelt
15 16 17 18 19 20-500
0
500
1000
1500
Mo
me
nte
[N
m]
4WD: Momente,Schupf auf Kardanniveau
mspezgmgv
mgh
15 16 17 18 19 20-100
-50
0
50
Dn [U
/min
]
ZGv-ZG
h
ZGv-VA
eZG
h-HA
e
15 16 17 18 19 20
0
0.5
1
10
0%
HA
<--
->1
00
%V
A
Zeit [s]
AntriebsmomenteRadlast
Project ATCReisinger/ESA, 02-Feb-2004 16:21Control Program V1.0
AudiS3
Reisinger/EEE-F, 02-Jun-1999 16:21vtlastw: MueD=1.0,eben, r= 50m, ab Lastw. fix, v0=36kmh->DKW:80° ->0° , T1=0.3s, V1.0: Haldex geregelt
15 16 17 18 19 20-500
0
500
1000
1500
Mo
me
nte
[N
m]
4WD: Momente,Schupf auf Kardanniveau
mspezgmgv
mgh
15 16 17 18 19 20-100
-50
0
50
Dn [U
/min
]
ZGv-ZG
h
ZGv-VA
eZG
h-HA
e
15 16 17 18 19 20
0
0.5
1
10
0%
HA
<--
->1
00
%V
A
Zeit [s]
AntriebsmomenteRadlast
Project ATCReisinger/ESA, 02-Feb-2004 16:21Control Program V1.0
Control AlgorithmActuator-Model
Voltage
Test Spec
Current, Position, ...
Simulation of Mechatronic System
Source: Magna Powertrain
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CAx im Fahrzeug- und Motorenbau 50
Functional Approval Model - Quality
Simulation of
Torque capacity
System dynamics
Current consumption
Detailed interface data
…
Motor Characteristics @ Temp.
0 5 10 15 20 25 30 350
10
20
30
40
50
60
70
Kennlinienvergleich Simulation - Motor - Erstmuster 03 / RT
M [Nm]
i[A
], n
[1/m
in]
0 5 10 15 20 250
10
20
30
40
50
60
70
80
Kennlinienvergleich Simulation - Motor - Erstmuster 03 / 125°C
M [Nm]
i[A
], n
[1/m
in]
0 5 10 15 20 25 30 35 400
10
20
30
40
50
60
70
Kennlinienvergleich Simulation - Motor - Erstmuster 03 / -40°C
M [Nm]
i[A
], n
[1/m
in]
0 0.05 0.1 0.15 0.2 0.25 0.3 0.35 0.4 0.45 0.50
1000
2000
t[s]M
Sperr
Ist[
Nm
]
MessungSimulation
0 0.05 0.1 0.15 0.2 0.25 0.3 0.35 0.4 0.45 0.50
50
t[s]
nS
M[1
/min
]
0 0.05 0.1 0.15 0.2 0.25 0.3 0.35 0.4 0.45 0.50
10
20
30
t[s]
iSM
[A
]
0 0.05 0.1 0.15 0.2 0.25 0.3 0.35 0.4 0.45 0.550
100
t[s]
phiS
M [
°]
0 0.05 0.1 0.15 0.2 0.25 0.3 0.35 0.4 0.45 0.50
5
10
t[s]
uS
M [
°]
Momentensprung 0 - 1400Nm @ 10V
Comparison Simulation vs. Measurement
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CAx im Fahrzeug- und Motorenbau 51
Development Tools
MatlabSimulinkStateflow Functional software modeling
Hardware modeling
Simulation of ECU and plant
Test bench
Micro Autobox
Targetlink C-Code generation an optimization
Fixed-point simulation and validation
Supports interface to CANape (ASAP2)
CANape CANapeGraph
CANalyzer
Measurement Tools Temperature
Voltage, Current, ...
![Page 45: Virtual Development of Drivetrains · CAx im Fahrzeug- und Motorenbau 1 07. Nov. 2016 Wintersemester 2016/17 Virtual Development of Drivetrains Dipl.-Ing. Johannes Quehenberger Magna](https://reader033.fdocuments.us/reader033/viewer/2022042005/5e6f7bbab80e0223c003ab62/html5/thumbnails/45.jpg)
CAx im Fahrzeug- und Motorenbau 52
Software Development Process
specificationfunctional software
Model-in-the-Loop (MIL)
Host PC, highest precision
fixed point effectsSoftware-in-the-Loop (SIL)
Host PC
on-target verificationhardware-in-the-Loop (HIL)
execution time/code profiling
On Target
modeling
scaling
compiling
ECU /
component
integration
automated test
fixed point effects
automated test
functional software
automated test
hardware effects
Source: Magna Powertrain
![Page 46: Virtual Development of Drivetrains · CAx im Fahrzeug- und Motorenbau 1 07. Nov. 2016 Wintersemester 2016/17 Virtual Development of Drivetrains Dipl.-Ing. Johannes Quehenberger Magna](https://reader033.fdocuments.us/reader033/viewer/2022042005/5e6f7bbab80e0223c003ab62/html5/thumbnails/46.jpg)
Example for automated testing
53
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Virtual Production
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Virtual Production Development
CAx im Fahrzeug- und Motorenbau 55
Source: Magna Powertrain
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Virtual Production Development
CAx im Fahrzeug- und Motorenbau 56
Source: Magna Powertrain
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The End