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BE CAE & Test - COMSOL Multiphysics · 1 BE CAE & Test A Comsol APP for thermal analysis of...
Transcript of BE CAE & Test - COMSOL Multiphysics · 1 BE CAE & Test A Comsol APP for thermal analysis of...
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BE CAE & Test
http://www.be-caetest.it
A Comsol APP for thermal analysis of electronic devices
Giuseppe Petrone, Carmelo Barbagallo and Marco Scionti
BE CAE & TEST, Viale Africa 170 Sc. A, 95129 Catania (ITALY)
Grenoble, 14-16 October 2015
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BE CAE & Test ( http://www.be-caetest.it ) provides consultancy services in several industrial sectors by using innovative CAD/CAE modelling tools and carrying out experimental campaigns
The company collaborates with industrial partners and research centers in several technologic fields
BE CAE & Test / Company profile
http://www.be-caetest.it/
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BE CAE & Test / Partenership
https://www.comsol.it/certified-consultants
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BE CAE & Test / Fields of activity
http://www.be-caetest.it/
Fluid dynamics and thermal analyses
Environmental energetics (HVAC, thermal comfort, IAQ)
Industrial energetics (Thermal design, energy conversion, reacting flows)
Structural analyses
Linear and non-linear statics, dynamic and vibro-acustics analyses in industrial and civil applications
System dynamics and Multi-Body analyses
Vehicle and rail dynamics (handling, ride comfort)
Kinematics, dynamics, rigid and flexible bodies analyses of mechanisms
Experimental testing
Ride comfort (NVH), modal analyses
Human body vibrations (ISO standard)
multip
hysic
s
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BE CAE & Test / Business areas and Customers
BE CAE & Test collaborates with world-wide companies active in the fields of numerical simulations and experimental measurements.
Railway
Mechanical
Buildings
Chemical
Energy
Oil & Gas
Automotive
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Introduction / Motivation
Why thermal analysis of electronic devices?
- Electronic devices produce a very high rate of specific heat (small dimensions)
- Exceeding in maximum safe operating temperature means strong reduction of efficiency, reliability and lifetime
http://www.fludit.com/images/stories/Design/Cities-Made-From-Electronic-Components
Thermal design represents an unavoidable step in pre-production phase in order to ensure reliability and performance of the electronic devices
Overheating is one of the main causes of failure for electronic equipment
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Introduction / Motivation
Why thermal analysis of electronic devices?
- Electronic devices produce a very high rate of specific heat (small dimensions)
- Exceeding in maximum safe operating temperature means strong reduction of efficiency, reliability and lifetime
http://www.fludit.com/images/stories/Design/Cities-Made-From-Electronic-Components
Thermal design represents an unavoidable step in pre-production phase in order to ensure reliability and performance of the electronic devices
Overheating is one of the main causes of failure for electronic equipment
MODELLING & SIMULATION
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Introduction / Motivation
Among the new features introduced in Comsol Multiphysics, the opportunity of building up customized GUI by exploiting the Application Builder is for sure one of the most promising
Arising from this concept, BE CAE & Test built-up a Comsol APP to analyse the thermal behavior of an electronic Surface-Mount Device (SMD)
FROM MODEL TO APP
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Surface –Mount Device / Layout
1 Frame <Cu>
Pin <Cu>
Solder <SAC305>
Die <Si>
Metal <Al>
Ribbon <Al>
150 [mm]
100 [mm]
10 [mm]
700 [mm]
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THERMAL ANALYSIS Input: Dissipated thermal power Frame temperature (corresponding to initial conditions) Output: Temperature distribution
THERMAL ANALYSIS / Modelling
Heat source (Die ON) Pth = 150 W
𝜌𝐶𝑝𝜕𝑇
𝜕𝑡= 𝛻 ∙ 𝑘𝛻𝑇 + 𝑄
Insulation (package) −𝒏 ∙ 𝒌𝛁𝑻 = 𝟎
Frame temperature Tref = 25 °C
Non-uniform and non-structured computational grids made of tetrahedral Lagrange elements of order 2 (~ 45,000 elements)
Time-marching by using a Implicit Differential-Algebraic (IDA) solver based on a variable-order and variable-step-size Backward Differentiation Formulas (BDF)
Direct solver (PARDISO) for linear systems Computational node : 2 x 64-bit dual-core @2,30 GHz - RAM 128 GB
Energy equation
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THERMAL ANALYSIS Input: Dissipated thermal power Frame temperature (corresponding to initial conditions) Output: Temperature distribution
THERMAL ANALYSIS / Results
0
0.02
0.04
0.06
0.08
0.1
0.12
0.14
1.E-06 1.E-05 1.E-04 1.E-03 1.E-02 1.E-01 1.E+00
Zth[ C/W]
Time [s]
Thermal Impedance
𝒁𝒕𝒉 =𝑻− 𝑻𝒓𝒆𝒇
𝑷𝒕𝒉
Tjc (MAX) = 44,4 [°C]
Rth-jc = 0,13 [°C/W]
Temperature [°C]
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Building APP in COMSOL 5.1: “SMD Simulator / Thermal Model”
THERMAL ANALYSIS / APP
What is that?
- Customized GUI allowing users to carry-out parametrical simulations without build models
Which kind of «paramteric» analysis?
- Geometrical
- Constitutive: materials, assumption (i.e. plasticity model in structural analysis, flow regime in fluid dynamics, …)
- Funcional: any operational or working condition
- Derived value: any value derived from FE dependent variable solved (i.e. a thermal flux from temperature solution in thermal analysis)
- …
- …
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Building APP in COMSOL 5.1: “SMD Simulator / Thermal Model”
THERMAL ANALYSIS / APP
Action button
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Building APP in COMSOL 5.1: “SMD Simulator / Thermal Model”
THERMAL ANALYSIS / APP
Action button
Input field
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Building APP in COMSOL 5.1: “SMD Simulator / Thermal Model”
THERMAL ANALYSIS / APP
Action button
Input field
Combo Box
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Building APP in COMSOL 5.1: “SMD Simulator / Thermal Model”
THERMAL ANALYSIS / APP
Action button
Input field
Combo Box
Graphics
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Building APP in COMSOL 5.1: “SMD Simulator / Thermal Model”
THERMAL ANALYSIS / APP
Action button
Input field
Combo Box
Data Display
Graphics
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Building APP in COMSOL 5.1: “SMD Simulator / Thermal Model”
THERMAL ANALYSIS / APP
Geometry - > Input field
Declaration of parameters
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Building APP in COMSOL 5.1: “SMD Simulator / Thermal Model”
THERMAL ANALYSIS / APP
Geometry - > Input field
Parametric design
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Building APP in COMSOL 5.1: “SMD Simulator / Thermal Model”
THERMAL ANALYSIS / APP
Constitutive / Materials -> Combo Box
Global material / local link
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Building APP in COMSOL 5.1: “SMD Simulator / Thermal Model”
THERMAL ANALYSIS / APP
Constitutive / Materials -> Combo Box
Declaration of strings
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Building APP in COMSOL 5.1: “SMD Simulator / Thermal Model”
THERMAL ANALYSIS / APP
Constitutive / Materials -> Combo Box
Initial value for strings
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Building APP in COMSOL 5.1: “SMD Simulator / Thermal Model”
THERMAL ANALYSIS / APP
Constitutive / Materials -> Combo Box
Declaration of choice listes and filling values
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Building APP in COMSOL 5.1: “SMD Simulator / Thermal Model”
THERMAL ANALYSIS / APP
Constitutive / Materials -> Combo Box
Method implementation
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Building APP in COMSOL 5.1: “SMD Simulator / Thermal Model”
THERMAL ANALYSIS / APP
Derived values -> Probe / Global variable / Data Display
Probe assuming a global variable value
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Building APP in COMSOL 5.1: “SMD Simulator / Thermal Model”
THERMAL ANALYSIS / APP
Derived values -> Probe / Global variable / Data Display
Variable value depends in this case by another probe value
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Building APP in COMSOL 5.1: “SMD Simulator / Thermal Model”
THERMAL ANALYSIS / APP
How to use it?
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Launching APP in COMSOL SERVER
COMSOL SERVER / App launching
COMSOL MultiphisycsUser
COMSOL ServerUser
One-time userUser
App Developper
App User PC, Tablet, Smartphone
Web browser
App
App platoform: COMSOL Server
Remote App using on Developper resource
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29 P.IVA (VAT number), C.F., Num. Reg. Impr.: 05230570870 - Numero REA : CT-352317
BE CAE & TEST S.r.l.
Viale Africa 170, Sc.A
95129 Catania (Italy)
Phone +39 095 216 64 26
URL: http://www.be-caetest.it
E-mail: [email protected]
PEC: [email protected]
https://www.comsol.it/certified-consultants/bus