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Optimizing Battery Cell, Module, Pack and Controls Design with Comprehensive Simulation

The document outlines the essential role of comprehensive simulation in optimizing the design of battery systems in automotive applications. It emphasizes the importance of high-fidelity physics models and reduced order methods (ROMs) for effective virtual product development, noting their utility in enhancing performance and safety. Additionally, the document highlights the integration of various simulation tools and methodologies to improve the design and testing processes of lithium-ion batteries.

Automotive
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Green EnergyElectric Vehicles Overview
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Introduction to ANSYS as a leading CAE simulation software company focused on simulation in product development, emphasizing its capabilities and technologies.

Importance of multi-fidelity simulation tools for battery designs, encompassing various aspects like thermal management, durability, and electrochemistry.

Detailed modeling of electrochemical processes, including the impact of discharge rates and temperature on battery capacity.

Overview of the DOE's CAEBAT project aimed at enhancing battery performance with a $7 million investment and standardizing engineering tools.

Temperature results from electrochemical simulations, cell-level thermal analysis, and equivalent circuit models (ECM) for performance testing.

Integration of battery modules with results from ECM models, optimization levels, and thermal simulations highlighting battery configuration. Introduces ROM as a tool to reduce computational costs while maintaining system analysis accuracy, illustrated by comparisons with CFD.

Describes the coupling of ECM with ROMs for accurate thermal and electrical performance evaluations in battery systems.

Full battery simulations, system assembly, and development of control software applying aerospace safety practices in automotive development.

Emphasizes the need for high-fidelity simulations combined with ROMs and incorporating best practices from aerospace into automotive design.

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1 © 2014 ANSYS, Inc. August 21, 2014 ANSYS Confidential Optimizing Cell, Module, Pack and Controls Design with Comprehensive Simulation Sandeep Sovani, Ph.D. Director, Global Automotive Industry ANSYS Inc, Detroit Acknowledgements: Xiao Hu and Scott Stanton, ANSYS Inc.
2 © 2014 ANSYS, Inc. August 21, 2014 ANSYS Confidential Virtual Product Development Concept & Design Physical Prototype Production Simulation-Driven Product Development Today’s norm for automotive product development
3 © 2014 ANSYS, Inc. August 21, 2014 ANSYS Confidential Largest Independent CAE simulation software company Focused Simulation is all we do. Leading product technologies in all physics areas Largest development team focused on simulation Capable 2,700 employees 60 locations, 40 countries Trusted 96 of top 100 FORTUNE 500 industrials ISO 9001 and NQA-1 certified Proven Recognized as one of the world’s most innovative and fastest-growing companies* Independent Long-term financial stability *BusinessWeek, FORTUNE About ANSYS A Simulation Software Company
4 © 2014 ANSYS, Inc. August 21, 2014 ANSYS Confidential Fluid DynamicsStructural Mechanics ANSYS Simplorer ANSYS Engineering Knowledge Manager ANSYS HPCANSYS Workbench Electromagnetics ANSYS DesignXplorer Systems and Multiphysics ANSYS FLUENT ANSYS CFX ANSYS Icepak ANSYS HFSS ANSYS Maxwell ANSYS Q3D ANSYS Mechanical ANSYS LS-DYNA ANSYS nCode ANSYS Acoustics About ANSYS Advanced Physics Solvers
5 © 2014 ANSYS, Inc. August 21, 2014 ANSYS Confidential A multi-fidelity simulation toolset is essential for complex systems such as batteries Model Simulation Result Requirement Req 23: On request, the valve should close in 500us X Functional simulation System simulation (0D) High fidelity simulation (3D) - Open loop validation System Validation (0D-ROM-Ctrl)- Close loop validation 500us0 Pos true false t 0 500us t Pos Pmax Actuator t Pos 0 500us t Pos Pmax 500us Pmax Pmax
6 © 2014 ANSYS, Inc. August 21, 2014 ANSYS Confidential A Total Li-Ion Battery Simulation Solution Module/Pack Thermal Mgt Durability NVH EMI/EMC Electrode Layout Process Life SEI Molecular Materials Powertrain System Integration SmallScale LargeScale Cell Charging Discharging Heating Safety ECM CFD ROM FEA ECM CFD FEA Electro- chemistry ECM ROM
7 © 2014 ANSYS, Inc. August 21, 2014 ANSYS Confidential A Total Li-Ion Battery Simulation Solution Electric Circuit, System Model High Fidelity Physics, Chemistry Models Reduced Order Modeling (ROM)
8 © 2014 ANSYS, Inc. August 21, 2014 ANSYS Confidential Electrode Level - Electrochemistry • Electrochemical Kinetics • Solid-State Li Transport • Electrolytic Li Transport • Charge Conservation/Transport • (Thermal) Energy Conservation Li+ e Li+ Li+ Li+ LixC6 Lix-Metal-oxide e Jump   Li ee ee j F t cD t c      1)( Impact of Discharge Rate on Capacity Charge Discharge CyclesTemperature Impact on Capacity 1/10 C 1/2 C 1 C 2 C 4 C 6 C 8 C 10 C X. Hu, S. Lin, S. Stanton, SAE paper 2012-01-0665
9 © 2014 ANSYS, Inc. August 21, 2014 ANSYS Confidential U.S. Department of Energy CAEBAT Project DOE’s Computer-Aided Engineering for Electric Drive Vehicle Batteries (CAEBAT) program ESim Goals for the CAEBAT include: • Developing standard battery engineering tools to design cells and battery packs • Improving overall battery performance, safety, and predict battery life CAEBAT Program: • DOE Funded program; $7.0 M Investment • Completion in August 2014
10 © 2014 ANSYS, Inc. August 21, 2014 ANSYS Confidential Newman P2D Electrochemistry Model in ANSYS-Fluent (CAEBAT project) Domains • negative electrode • separator • positive electrode • spherical particles L. Cai and R.E. White, “Reduction of Model Order Based on Proper Orthogonal Decomposition for Lithium-Ion Battery Simulations” J. of Electrochemical. Soc. 156(3) A154-A161 (2009).
11 © 2014 ANSYS, Inc. August 21, 2014 ANSYS Confidential Temperature Results Based on Electrochemistry -110 -90 -70 -50 -30 -10 10 30 50 0 200 400 600 800 1000 1200 1400 Current(A) Time (s)
12 © 2014 ANSYS, Inc. August 21, 2014 ANSYS Confidential Cell Level – CFD Thermal Temperature Distribution
13 © 2014 ANSYS, Inc. August 21, 2014 ANSYS Confidential Cell Level –Electro-Thermal Current DensityCathode Anode Current Density   J  )( UYJ ac  
14 © 2014 ANSYS, Inc. August 21, 2014 ANSYS Confidential Cell Level – ECM Battery Equivalent Circuit Model (ECM) Simulation Testing X. Hu, L. Collins, S. Stanton, S. Jiang, "A Model Parameter Identification Method for Battery Applications", SAE 2013-01-1529.
15 © 2014 ANSYS, Inc. August 21, 2014 ANSYS Confidential • 28 cells are connected in a module • 4 modules are connected to the final configuration Module/Pack Level – ECM X. Hu, L. Collins, S. Stanton, S. Jiang, "A Model Parameter Identification Method for Battery Applications", SAE 2013-01-1529. Battery Pack ECM Simulation Results
16 © 2014 ANSYS, Inc. August 21, 2014 ANSYS Confidential X. Hu, L. Collins, S. Stanton, S. Jiang, "A Model Parameter Identification Method for Battery Applications", SAE 2013-01-1529. Cell Level – ECM Extraction Tool ECM Extraction Toolkit ECM Model Workflow
17 © 2014 ANSYS, Inc. August 21, 2014 ANSYS Confidential Module Level – CFD Thermal Temperature Distribution Velocity Distribution Initial Optimized
18 © 2014 ANSYS, Inc. August 21, 2014 ANSYS Confidential Motivation of Reduced Order Model(ROM)  CFD as a general thermal analysis tool is accurate.  Can be computationally expensive for system level analysis  ROM can significantly reduce the model size and simulation time.  ROM is an import tool for system level simulation.
19 © 2014 ANSYS, Inc. August 21, 2014 ANSYS Confidential Battery Thermal Behavior via ROM Type 1: Thermal Network • Careful calculation and calibration needed • Accuracy compromises Type 2: LTI – state space • Can be as accurate as CFD • No calibration LTIt t Step Input Step Response 1
20 © 2014 ANSYS, Inc. August 21, 2014 ANSYS Confidential LTI ROM gives the same results as CFD. LTI ROM runs in less than 2 seconds while the CFD runs 2 hours on one single CPU. X. Hu, S. Lin, S. Stanton, W. Lian, “A Foster Network Thermal Model for HEV/EV Battery Modeling,” IEEE TRANSACTIONS ON INDUSTRY APPLICATIONS, VOL. 47, NO. 4, JULY/AUGUST 2011 X. Hu, S. Lin, S. Stanton, W. Lian, “A State Space Thermal Model for HEV/EV Battery Modeling", SAE 2011-01-1364 Heat Profile LTI ROM for General Motors Battery Module
21 © 2014 ANSYS, Inc. August 21, 2014 ANSYS Confidential Module Level – ROM for Thermal ROM vs CFD ROM for the Battery Module
22 © 2014 ANSYS, Inc. August 21, 2014 ANSYS Confidential  SVD = Singular Value Decomposition  SVD ROM technology allows for quick temperature distribution calculation in addition to average temperature calculation.  Using a heat source from GM, SVD ROM is applied to the GM 16 cell case. SVD ROM : General Motors 16 Cell Test Case Heat source used S. Asgari, X. Hu, M. Tsuk, S. Kaushik, “Application of POD plus LTI ROM to Battery Thermal Modeling: SISO Case,” SAE 2014.-01-1843 X. Hu, S. Asgari, I. Yavuz, S. Stanton, C-C Hsu, Z. Shi, B. Wang, H-K Chu, “A Transient Reduced Order Model for Battery Thermal Management Based on Singular Value Decomposition,“ Submitted to ECCE 2014.
23 © 2014 ANSYS, Inc. August 21, 2014 ANSYS Confidential SVD ROM Validation: GM 16 Cell Test Case CFD (200 sec) SVD ROM (200 sec) CFD (400 sec) CFD (600 sec) CFD (800 sec) SVD ROM (400 sec) SVD ROM (600 sec) SVD ROM (800 sec) X. Hu, S. Asgari, I. Yavuz, S. Stanton, C-C Hsu, Z. Shi, B. Wang, H-K Chu, “A Transient Reduced Order Model for Battery Thermal Management Based on Singular Value Decomposition,“ Submitted to ECCE 2014.
24 © 2014 ANSYS, Inc. August 21, 2014 ANSYS Confidential Temperature Distribution - Animation Temperature calculated from CFD. 7 hr simulation time with 6 CPUs. Temperature calculated from SVD ROM. 0.5 hr simulation time with 1 CPU.
26 © 2014 ANSYS, Inc. August 21, 2014 ANSYS Confidential  ECM calculates heat source and sends it to the two ROMs.  LTI ROM calculates average temperature and sends it to ECM.  SVD ROM calculates temperature distribution. GM Battery Module – ECM Coupled with ROMs
27 © 2014 ANSYS, Inc. August 21, 2014 ANSYS Confidential ROMs/ECM Coupled Results LTI ROM calculates average temperature. SVD ROM calculates temperature field. – Needs to be post-processed back in FLUENT. ECM calculates electrical performance. Average Cell Temperature Battery Voltage as a Function of Time
28 © 2014 ANSYS, Inc. August 21, 2014 ANSYS Confidential Module/Pack Level – Bus Bar Model Electromagnetic FEA Analysis for Busbar RLC Network Extraction
29 © 2014 ANSYS, Inc. August 21, 2014 ANSYS Confidential Full Battery Simulation Voc = -1.031*exp(-35*(abs(IBatt.V/Vinit))) + 3.685 + 0.2156*(abs(IBatt.V/Vinit)) - 0.1178*(abs(IBatt.V/Vinit))^2 + 0.3201*(abs(IBatt.V/Vinit))^3 + 0.3/30.0*(U1.Temp_block_1-273)
30 © 2014 ANSYS, Inc. August 21, 2014 ANSYS Confidential System Assembly Battery ROM Inverter ROM Machine ROM Embedded Software Behavioral Models
31 © 2014 ANSYS, Inc. August 21, 2014 ANSYS Confidential HIL PIL SIL MIL Plant ModelEmbedded Controller Control Software Development C code DesignImplementation
32 © 2014 ANSYS, Inc. August 21, 2014 ANSYS Confidential Control Software Development Bringing Aerospace Safety Best Practices to Automotive SCADE = Safety Critical Application Development Environment Certified Automatic Embedded Code Generation Certified Embedded Code Generation: ISO 26262 certification up to ASIL D
33 © 2014 ANSYS, Inc. August 21, 2014 ANSYS Confidential Summary  Effective virtual product development of batteries needs combination of High fidelity physics and chemistry models Circuit/system level models Reduced Order Methods (ROMs) are key enablers for combining high fidelity and system models Such high accuracy, fast-running models can be used for many development purposes, including controller software development Bringing Aerospace best practices, to improve development of automotive embedded systems

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Optimizing Battery Cell, Module, Pack and Controls Design with Comprehensive Simulation

  • 1.
    1 © 2014ANSYS, Inc. August 21, 2014 ANSYS Confidential Optimizing Cell, Module, Pack and Controls Design with Comprehensive Simulation Sandeep Sovani, Ph.D. Director, Global Automotive Industry ANSYS Inc, Detroit Acknowledgements: Xiao Hu and Scott Stanton, ANSYS Inc.
  • 2.
    2 © 2014ANSYS, Inc. August 21, 2014 ANSYS Confidential Virtual Product Development Concept & Design Physical Prototype Production Simulation-Driven Product Development Today’s norm for automotive product development
  • 3.
    3 © 2014ANSYS, Inc. August 21, 2014 ANSYS Confidential Largest Independent CAE simulation software company Focused Simulation is all we do. Leading product technologies in all physics areas Largest development team focused on simulation Capable 2,700 employees 60 locations, 40 countries Trusted 96 of top 100 FORTUNE 500 industrials ISO 9001 and NQA-1 certified Proven Recognized as one of the world’s most innovative and fastest-growing companies* Independent Long-term financial stability *BusinessWeek, FORTUNE About ANSYS A Simulation Software Company
  • 4.
    4 © 2014ANSYS, Inc. August 21, 2014 ANSYS Confidential Fluid DynamicsStructural Mechanics ANSYS Simplorer ANSYS Engineering Knowledge Manager ANSYS HPCANSYS Workbench Electromagnetics ANSYS DesignXplorer Systems and Multiphysics ANSYS FLUENT ANSYS CFX ANSYS Icepak ANSYS HFSS ANSYS Maxwell ANSYS Q3D ANSYS Mechanical ANSYS LS-DYNA ANSYS nCode ANSYS Acoustics About ANSYS Advanced Physics Solvers
  • 5.
    5 © 2014ANSYS, Inc. August 21, 2014 ANSYS Confidential A multi-fidelity simulation toolset is essential for complex systems such as batteries Model Simulation Result Requirement Req 23: On request, the valve should close in 500us X Functional simulation System simulation (0D) High fidelity simulation (3D) - Open loop validation System Validation (0D-ROM-Ctrl)- Close loop validation 500us0 Pos true false t 0 500us t Pos Pmax Actuator t Pos 0 500us t Pos Pmax 500us Pmax Pmax
  • 6.
    6 © 2014ANSYS, Inc. August 21, 2014 ANSYS Confidential A Total Li-Ion Battery Simulation Solution Module/Pack Thermal Mgt Durability NVH EMI/EMC Electrode Layout Process Life SEI Molecular Materials Powertrain System Integration SmallScale LargeScale Cell Charging Discharging Heating Safety ECM CFD ROM FEA ECM CFD FEA Electro- chemistry ECM ROM
  • 7.
    7 © 2014ANSYS, Inc. August 21, 2014 ANSYS Confidential A Total Li-Ion Battery Simulation Solution Electric Circuit, System Model High Fidelity Physics, Chemistry Models Reduced Order Modeling (ROM)
  • 8.
    8 © 2014ANSYS, Inc. August 21, 2014 ANSYS Confidential Electrode Level - Electrochemistry • Electrochemical Kinetics • Solid-State Li Transport • Electrolytic Li Transport • Charge Conservation/Transport • (Thermal) Energy Conservation Li+ e Li+ Li+ Li+ LixC6 Lix-Metal-oxide e Jump   Li ee ee j F t cD t c      1)( Impact of Discharge Rate on Capacity Charge Discharge CyclesTemperature Impact on Capacity 1/10 C 1/2 C 1 C 2 C 4 C 6 C 8 C 10 C X. Hu, S. Lin, S. Stanton, SAE paper 2012-01-0665
  • 9.
    9 © 2014ANSYS, Inc. August 21, 2014 ANSYS Confidential U.S. Department of Energy CAEBAT Project DOE’s Computer-Aided Engineering for Electric Drive Vehicle Batteries (CAEBAT) program ESim Goals for the CAEBAT include: • Developing standard battery engineering tools to design cells and battery packs • Improving overall battery performance, safety, and predict battery life CAEBAT Program: • DOE Funded program; $7.0 M Investment • Completion in August 2014
  • 10.
    10 © 2014ANSYS, Inc. August 21, 2014 ANSYS Confidential Newman P2D Electrochemistry Model in ANSYS-Fluent (CAEBAT project) Domains • negative electrode • separator • positive electrode • spherical particles L. Cai and R.E. White, “Reduction of Model Order Based on Proper Orthogonal Decomposition for Lithium-Ion Battery Simulations” J. of Electrochemical. Soc. 156(3) A154-A161 (2009).
  • 11.
    11 © 2014ANSYS, Inc. August 21, 2014 ANSYS Confidential Temperature Results Based on Electrochemistry -110 -90 -70 -50 -30 -10 10 30 50 0 200 400 600 800 1000 1200 1400 Current(A) Time (s)
  • 12.
    12 © 2014ANSYS, Inc. August 21, 2014 ANSYS Confidential Cell Level – CFD Thermal Temperature Distribution
  • 13.
    13 © 2014ANSYS, Inc. August 21, 2014 ANSYS Confidential Cell Level –Electro-Thermal Current DensityCathode Anode Current Density   J  )( UYJ ac  
  • 14.
    14 © 2014ANSYS, Inc. August 21, 2014 ANSYS Confidential Cell Level – ECM Battery Equivalent Circuit Model (ECM) Simulation Testing X. Hu, L. Collins, S. Stanton, S. Jiang, "A Model Parameter Identification Method for Battery Applications", SAE 2013-01-1529.
  • 15.
    15 © 2014ANSYS, Inc. August 21, 2014 ANSYS Confidential • 28 cells are connected in a module • 4 modules are connected to the final configuration Module/Pack Level – ECM X. Hu, L. Collins, S. Stanton, S. Jiang, "A Model Parameter Identification Method for Battery Applications", SAE 2013-01-1529. Battery Pack ECM Simulation Results
  • 16.
    16 © 2014ANSYS, Inc. August 21, 2014 ANSYS Confidential X. Hu, L. Collins, S. Stanton, S. Jiang, "A Model Parameter Identification Method for Battery Applications", SAE 2013-01-1529. Cell Level – ECM Extraction Tool ECM Extraction Toolkit ECM Model Workflow
  • 17.
    17 © 2014ANSYS, Inc. August 21, 2014 ANSYS Confidential Module Level – CFD Thermal Temperature Distribution Velocity Distribution Initial Optimized
  • 18.
    18 © 2014ANSYS, Inc. August 21, 2014 ANSYS Confidential Motivation of Reduced Order Model(ROM)  CFD as a general thermal analysis tool is accurate.  Can be computationally expensive for system level analysis  ROM can significantly reduce the model size and simulation time.  ROM is an import tool for system level simulation.
  • 19.
    19 © 2014ANSYS, Inc. August 21, 2014 ANSYS Confidential Battery Thermal Behavior via ROM Type 1: Thermal Network • Careful calculation and calibration needed • Accuracy compromises Type 2: LTI – state space • Can be as accurate as CFD • No calibration LTIt t Step Input Step Response 1
  • 20.
    20 © 2014ANSYS, Inc. August 21, 2014 ANSYS Confidential LTI ROM gives the same results as CFD. LTI ROM runs in less than 2 seconds while the CFD runs 2 hours on one single CPU. X. Hu, S. Lin, S. Stanton, W. Lian, “A Foster Network Thermal Model for HEV/EV Battery Modeling,” IEEE TRANSACTIONS ON INDUSTRY APPLICATIONS, VOL. 47, NO. 4, JULY/AUGUST 2011 X. Hu, S. Lin, S. Stanton, W. Lian, “A State Space Thermal Model for HEV/EV Battery Modeling", SAE 2011-01-1364 Heat Profile LTI ROM for General Motors Battery Module
  • 21.
    21 © 2014ANSYS, Inc. August 21, 2014 ANSYS Confidential Module Level – ROM for Thermal ROM vs CFD ROM for the Battery Module
  • 22.
    22 © 2014ANSYS, Inc. August 21, 2014 ANSYS Confidential  SVD = Singular Value Decomposition  SVD ROM technology allows for quick temperature distribution calculation in addition to average temperature calculation.  Using a heat source from GM, SVD ROM is applied to the GM 16 cell case. SVD ROM : General Motors 16 Cell Test Case Heat source used S. Asgari, X. Hu, M. Tsuk, S. Kaushik, “Application of POD plus LTI ROM to Battery Thermal Modeling: SISO Case,” SAE 2014.-01-1843 X. Hu, S. Asgari, I. Yavuz, S. Stanton, C-C Hsu, Z. Shi, B. Wang, H-K Chu, “A Transient Reduced Order Model for Battery Thermal Management Based on Singular Value Decomposition,“ Submitted to ECCE 2014.
  • 23.
    23 © 2014ANSYS, Inc. August 21, 2014 ANSYS Confidential SVD ROM Validation: GM 16 Cell Test Case CFD (200 sec) SVD ROM (200 sec) CFD (400 sec) CFD (600 sec) CFD (800 sec) SVD ROM (400 sec) SVD ROM (600 sec) SVD ROM (800 sec) X. Hu, S. Asgari, I. Yavuz, S. Stanton, C-C Hsu, Z. Shi, B. Wang, H-K Chu, “A Transient Reduced Order Model for Battery Thermal Management Based on Singular Value Decomposition,“ Submitted to ECCE 2014.
  • 24.
    24 © 2014ANSYS, Inc. August 21, 2014 ANSYS Confidential Temperature Distribution - Animation Temperature calculated from CFD. 7 hr simulation time with 6 CPUs. Temperature calculated from SVD ROM. 0.5 hr simulation time with 1 CPU.
  • 25.
    26 © 2014ANSYS, Inc. August 21, 2014 ANSYS Confidential  ECM calculates heat source and sends it to the two ROMs.  LTI ROM calculates average temperature and sends it to ECM.  SVD ROM calculates temperature distribution. GM Battery Module – ECM Coupled with ROMs
  • 26.
    27 © 2014ANSYS, Inc. August 21, 2014 ANSYS Confidential ROMs/ECM Coupled Results LTI ROM calculates average temperature. SVD ROM calculates temperature field. – Needs to be post-processed back in FLUENT. ECM calculates electrical performance. Average Cell Temperature Battery Voltage as a Function of Time
  • 27.
    28 © 2014ANSYS, Inc. August 21, 2014 ANSYS Confidential Module/Pack Level – Bus Bar Model Electromagnetic FEA Analysis for Busbar RLC Network Extraction
  • 28.
    29 © 2014ANSYS, Inc. August 21, 2014 ANSYS Confidential Full Battery Simulation Voc = -1.031*exp(-35*(abs(IBatt.V/Vinit))) + 3.685 + 0.2156*(abs(IBatt.V/Vinit)) - 0.1178*(abs(IBatt.V/Vinit))^2 + 0.3201*(abs(IBatt.V/Vinit))^3 + 0.3/30.0*(U1.Temp_block_1-273)
  • 29.
    30 © 2014ANSYS, Inc. August 21, 2014 ANSYS Confidential System Assembly Battery ROM Inverter ROM Machine ROM Embedded Software Behavioral Models
  • 30.
    31 © 2014ANSYS, Inc. August 21, 2014 ANSYS Confidential HIL PIL SIL MIL Plant ModelEmbedded Controller Control Software Development C code DesignImplementation
  • 31.
    32 © 2014ANSYS, Inc. August 21, 2014 ANSYS Confidential Control Software Development Bringing Aerospace Safety Best Practices to Automotive SCADE = Safety Critical Application Development Environment Certified Automatic Embedded Code Generation Certified Embedded Code Generation: ISO 26262 certification up to ASIL D
  • 32.
    33 © 2014ANSYS, Inc. August 21, 2014 ANSYS Confidential Summary  Effective virtual product development of batteries needs combination of High fidelity physics and chemistry models Circuit/system level models Reduced Order Methods (ROMs) are key enablers for combining high fidelity and system models Such high accuracy, fast-running models can be used for many development purposes, including controller software development Bringing Aerospace best practices, to improve development of automotive embedded systems