Electromagnetic Coupling into Enclosures and unto Circuit ...
Transcript of Electromagnetic Coupling into Enclosures and unto Circuit ...
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Omar M. Ramahi
Mechanical Engineering DepartmentUniversity of Maryland at College Park
Electromagnetic Coupling into Enclosures and unto Circuit
Board Element
Presentation part of Microwave Effects & Chaos in 21st Century Analog & Digital Electronics
AFOSR MURI 2001 Kickoff Meeting 6/14/01MURI contract F496200110374
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Outline
• Understand electromagnetic coupling into enclosures• Develop techniques to minimize coupling• Understand coupling unto printed-circuit boards elements• Develop techniques to minimize coupling or confine coupling to
non-critical paths or components• Develop numerical algorithms to predict coupling unto wire
harness• Validation through measurements
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EM Understanding, Analysis and Containment
Chip level
Board level
Chassis
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EMC Design/Control Concepts
• Shielding and Grounding• Filtering and non-linear protective devices• Reflection and matching• Coupling path reduction (conducted emissions)• Ground/reference planes• Signal Integrity• Signal processing techniques• Cable routing
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ShieldingDefinition
Minimize amount of electromagnetic energy which penetrates from the external environment to the circuit
orInfluence how much energy generated by a circuit escapes to the external or adjacent environment
Whether source is inside or outside,shielding properties remain the same(electromagnetic reciprocity)
In practical scenarios, reciprocity stillholds but needsvery careful interpretation
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Electronic Circuitry
source
Understanding Energy Penetration Mechanism
Externallycoupled devices
Attached power cables
Reference (ground) plane
“imperfect” source (antenna)
screen
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Understanding Behavior of Currents NearApertures. Why do Apertures Radiate?
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How and Why do Joints Radiate?
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Enclosuresurface
aperture
Radiation through aperture depends on• Size of aperture (cannot control much)• Current distribution pattern to the interior
and exterior of aperture
Fundamental Studies of Radiation:Radiation through Single Aperture
Reduction of radiation through:• Aperture rim material• Aperture shape
Current distributionIn the region closeTo the aperture is critical
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Novel Material Numerical Modelingto predict effect on current distribution
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Enclosuresurface
Radiation through aperture depends on• Size of aperture (cannot control much)• Current distribution pattern to the interior and
exterior of aperture3. Geometrical pattern of aperture array
Radiation through Multiple Apertures
Reduction of radiation through:• Genetic Algorithm optimization
(Selection of population throughmeasurements)
• Current control material in the closeproximity of apertures
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Generalized Shielding Concepts(Shielding without enclosures)
Reference plane as “shield”
Electronic circuitry + interconnects
Circuit might be covered (shielded) with a RADOME(as in the examples of wire/printed antennas…)
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“Shielding” without EnclosuresDecoupling Capacitors
via Decouplingcapacitor
Board-EdgeRadiation
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Voltage Distribution @ 950 MHz.01uF and 330pF Case (Source in Center)
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Unintentional Signals EmissionsPower Plane Switching Noise
• Circuits susceptible to radiation are alsosusceptible to coupling
• Develop effective near-edge design guidelines
Field Observation Points
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Power plane 1
Power plane 2
Power-Planes Approach
Embedded capacitance
capacitorsmaterial
Lossy material
chip
?
Input impedance
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inputports
outputports
Non-uniformfield distribution(External field excitation)
Structurespart of a complexenvironment
wire harness
Coupling unto Wire Harness
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s ∆z
s∆zZ1 Z2
∆z
Non-uniformfield distribution(incident field)
Problem DescriptionComplex environment(geometry and material)
Objective: find voltages at termination of line (s)V(z1) and V(z2)
• Develop Numerical Algorithms to Predict Coupling in heterogeneous environment
2. Design experiments to validate numerical models
Solution Approach
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Solution Approach
• Develop Numerical Algorithms to Predict Coupling in heterogeneous environment
2. Design experiments to validate numerical models