ansys for tablet computer design...• perform drop test of tablet pc from height of 4 feet onto a...
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![Page 1: ANSYS for Tablet Computer Design...• Perform Drop test of Tablet PC from height of 4 feet onto a concrete floor at an angle of 45 degree using ANSYS Explicit Dynamics • The geometry](https://reader034.vdocument.in/reader034/viewer/2022042411/5f28c260c91ac617e15a9336/html5/thumbnails/1.jpg)
© 2011 ANSYS, Inc. September 14, 2011
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ANSYS for Tablet Computer Design
Laila Salman, PhD Technical Service Specialist
September, 13th , 2011
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© 2011 ANSYS, Inc. September 14, 2011
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Tablets are very entertaining, stylish and powerful
• Shopping, reading, emailing, accessing social network, playing game
• Schools, operating rooms, sports events
Pictures source: www.istockphoto.com
Tablets in Our Daily Lives
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© 2011 ANSYS, Inc. September 14, 2011
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3D CAD
Layout
Virtual Prototype
Vendor Specific Driver/Receiver Models
Vendor Specific VRM Models
Electronics
Virtual Compliance
Virtual System
Electromagnetic Extraction
Mechanical and Thermal
Virtual System Prototyping
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© 2011 ANSYS, Inc. September 14, 2011
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Designing the impossible
• Touchscreen
• Tablet Case
• Packages
• Flex circuitry
• Antenna
• ESD
• EMI
Tablets Design Challenges
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© 2011 ANSYS, Inc. September 14, 2011
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Designing the impossible
• Touchscreen
• Tablet Case
• Packages
• Flex circuitry
• Antenna
• ESD
• EMI
Tablets Design Challenges
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No moving parts present
• Use a thin layer of ITO (indium tin oxide) to sense the presence of a finger by capacitive coupling.
• Capacitive sensors are mounted underneath of hardened glass
• Finger adds a measurable capacitive change in the touch sensor
• Change in sensor capacitance relies on RC time constant change
Capacitive Touchscreen
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© 2011 ANSYS, Inc. September 14, 2011
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Model size, complexity and ….
• Simulate “projected” and/or “mutual-capacitance”
• Include Skin and Proximity Effects
• Build detailed 3D model
Touchscreen Design Challenges
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Parameterized Example 10x10 electrodes model
Capacitive Touchscreen
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Adaptive Mesh Refinement
• Automatically tunes the mesh to the electrical performance of the device. This ensures simulations are correct the first time.
Mesh Convergence
• Real-Time update of performance per adaptive solution
Initial Mesh
Refined Mesh
Automatic & Robust Adaptive Meshing
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Accuracy of Q3D Capacitance solution
• Automated Meshing Refinement
Capacitive Touchscreen
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© 2011 ANSYS, Inc. September 14, 2011
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Convergence criteria
• Based on change in Self or Mutual matrix capacitive terms
• Based on specific matrix value or user defined output variable
Solution Time (10x10 electrodes model)
• 2 hrs 45 min
• Supports all available cores
Simulation Settings & Results
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Focus on
• Area of contact
• Glass thickness
Finger Tip Effect
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Electrode scanning change at contacted ITO (Indium Tin Oxide) position
Non-contact
Proximity Effects (0.1mmGap)
Contact!
Receiver Signal
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Designing the impossible
• Touchscreen
• Tablet Case
• Packages
• Flex circuitry
• Antenna
• ESD
• EMI
Tablets Design Challenges
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• Perform Drop test of Tablet PC from height of 4 feet onto a concrete floor at an angle of 45 degree using ANSYS Explicit Dynamics
• The geometry of the Table PC was created from scratch using ANSYS DesignModeler
• The parts are simplified representations of parts in an actual Tablet PC.
Tablets Computer Case
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• Meshing: – ANSYS Workbench meshing with Explicit
Dynamics preference is used to create a mesh. – Hex dominant mesh is created to reduce the
number of elements – Total number of elements ~25,000
• Analysis settings: – Analysis is solved for 4 e-4 seconds. – Initial velocity of 4.9 m/sec is assigned to the
Tablet – The concrete floor is modeled as a rigid shell
body with fixed constraints – Automatic contact definition is use between
all parts. – Parts that are in contact but may separate due
to the drop test are assigned bonded contacts. – Bonded contacts are modeled as breakable
based on stress criteria for debonding.
Drop Test
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Equivalent Stress Contours Back Cover Off
Equivalent Stress Contours Front
Drop Test Simulation Results
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Stress Modeling using ANSYS Mechanical includes
• Joints to capture the kinematics
• Visco-elastic material
• Contact non-linearity
• Rigid flexible interaction
Stress Modeling Analysis
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© 2011 ANSYS, Inc. September 14, 2011
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Designing the impossible
• Touchscreen
• Tablet Case
• Packages
• Flex circuitry
• Antenna
• ESD
• EMI
Tablets Design Challenges
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CPU and Memory Applications
• Flip-chip BGA
• NAND Flash (BGA, FD-BGA SiP, PoP etc.)
Electrical and Thermal simulations
Courtesy of EEMS
Tablet Packages
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Design Challenges
• Accurate SYZ and RLGC solution
• Dealing with multiple vendors
Solution
• Automated merging capabilities
• Full-wave and Quasi-static solution
Courtesy of EEMS
Tablet Packages
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© 2011 ANSYS, Inc. September 14, 2011
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Designing the impossible
• Touchscreen
• Tablet Case
• Packages
• Flex circuitry
• Antenna
• ESD
• EMI
Tablets Design Challenges
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Parameterized Transmission line model
• Accurate Zo analysis
• Trace spacing and offsets
• Solid vs. patterned ground
HFSS Transient
FLEX Circuit Analysis
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Interconnect Transmission line model
• Trace Thickness and Width
• Trace to Ground Space
• Ground Shape (Solid vs. Meshed) – Reduce the Interference with High Speed signal Traces or noisy LCD surface
FLEX Circuit Analysis
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© 2011 ANSYS, Inc. September 14, 2011
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Designing the impossible
• Touchscreen
• Tablet Case
• Packages
• Flex circuitry
• Antenna
• ESD
• EMI
Tablets Design Challenges
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© 2011 ANSYS, Inc. September 14, 2011
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Antenna Design Challenges
• Location, Beam Forming
• Antenna type
• Human Body Effect – Hand, Body
• Operation Environments – Metal Desk
– Wooden Desk
– Human lap
Tablet Antenna
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© 2011 ANSYS, Inc. September 14, 2011
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Antenna Design Challenges
• Location, Beam Forming
• Human Body Effect – Hand holding tablet at different locations
– Close to antenna and away from antenna
Radiation Efficiency @2.4Ghz :0.967907 Radiation Efficiency @2.4Ghz : 0.480466
Tablet Antenna
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Antenna Design Challenges
• Operation Environments – Human Tissue
– Metal Desk
– Wooden Desk
Human Tissue Metal Desk
Wooden Desk
Radiation Efficiency @2.4Ghz : 0.994337
Radiation Efficiency @2.4Ghz : 0.993303 Radiation Efficiency @2.4Ghz : 0.777207
Tablet Antenna
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© 2011 ANSYS, Inc. September 14, 2011
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Designing the impossible
• Touchscreen
• Tablet Case
• Packages
• Flex circuitry
• Antenna
• ESD
• EMI
Tablets Design Challenges
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Circuit and Numerical Modeling of ESD Coupling to Shielded Cables HFSS Transient solver for numerical Modeling ESD approach
0.00 5.00 10.00 15.00 20.00 25.00 30.00Time [ns]
-1.00
0.00
1.00
2.00
3.00
4.00
5.00
6.00
V(V
olt
ag
e1)
[kV
]
HFSSDesign1Input Voltage ANSOFT
Curve Info
V(Voltage1)Setup1 : Transient
Courtesy of: HUWIN
ESD Analysis
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: 6kV
: 5kV
: 4kV
: 2kV
Applied Voltage (kV)
Peak Current (A) IEC 61000-4-2 (ESD Test)
Peak Current (A) Simulation Results
2 7.5 7.75
4 15 15.5
5 18.75 19.3
6 22.5 23.25
Courtesy of: HUWIN
ESD Gun Simulation Results
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ESD Gun Simualtion Time length: 0 ns ~ 118 ns
ESD Gun and Metal Plate
Courtesy of: HUWIN
ESD Animation
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ESD gun applied on 1 driver and 1 receiver full length electrode
ESD Gun on Tablets Touch Electrodes
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ESD Gun Simulation Time length: 0 ns ~ 118 ns
ESD Gun Effect on Tablets Touch Electrodes
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© 2011 ANSYS, Inc. September 14, 2011
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Designing the impossible
• Touchscreen
• Tablet Case
• Packages
• Flex circuitry
• Antenna
• ESD
• EMI
Tablets Design Challenges
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© 2011 ANSYS, Inc. September 14, 2011
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EMI Design Challenges
• Entire PCB + Case
• Driver & Receiver
• Near field, Fairfield
• Immunity
: Digital source Termination
Slot
=
+
Tablets EMI
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EMI Design Results • Near Field and Far Field Spectrum
Simulation vs. Measurement
Simulation
Measurement
Tablets EMI
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Tablet Design Simulations were performed using
• Touchscreen – Q3D Extractor and DesignerSI
• Tablet Case – ANSYS Explicit Dynamic and ANSYS Mechanical
• Packages – – Electrical: HFSS in Cadence, Q3D Extractor and TPA
– Thermal: ANSYS Icepak
• Flex circuitry – HFSS and Q3D Extractor
• Antenna - HFSS
• ESD - HFSS Transient and DesignerSI
• EMI – HFSS, SIwave and DesignerSI
Tablets Design Solutions
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Problem Meeting numerous tablet design options while meeting strict electrical standards and design specifications
Solution Automated modeling and optimized analysis using ANSYS Electromagnetics tools allows for system simulation approach
Result Detailed system simulation enabled tablets to be put on market on time with reduced testing costs
Pictures source: www.istockphoto.com
Conclusions