Introduction to Electromagnetic Compatibility
Course 1: Basic Terms and definition
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Aspect of EMC
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EMC Crucial factors
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Noise Source
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Miscellaneous Noise Sources
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Coupling path
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Conductively coupled Noise
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Radiation Coupling
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Common Mode and differential mode
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Receiver Susceptibility
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Hard failure
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Soft failure
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EMC Techniques
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Grounding
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shielding
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Filtering
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Isolating
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EMC Certification and Standard
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Certification Process
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EMC Standard and Organization
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Testing for EMC Compliance
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EMI
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Radiation
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Radiation Emission
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Radiation Spurious Emission
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Conductive
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Conductive Emission
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Harmonics and Flicker emissions
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EMS
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Conductive Susceptibility
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ESD
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Surge
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EFT
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PMS (Power Frequency Magnetic Field Susceptibility)
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Dip and interruption
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EMC system level design techniques
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Grounding
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Shielding
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Filtering
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isolating
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ESD system level design
Course2: EMC Compliance testing introduction
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Radiation Emissions
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Conductive Emissions
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Harmonics and Flicker
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Radiation Susceptibility
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Conductive Susceptibility
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ESD
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EFT
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Surge
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PMS (Power Frequency Magnetic Field Susceptibility)
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Dip and interruption
Course 3: PCB Design and Layout for EMC
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PCB EMC
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Time Domain VS Frequency Domain analysis
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Methods of Noise Coupling
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Electric Field
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Magnetic Field
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Harmonics
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Noise Source
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Common-mode Current VS differential-mode currents
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Grounding
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Noise suppression
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Intentional
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Un-intentional
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Printed Circuit Board Design For EMC
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Layer Stack-up consideration
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Components Placement
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Bypassing and Decoupling
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Scheme
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Trace Routing
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Transmission Line model
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Reflection and Crosstalk
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Impedance Control
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Backplanes, Ribbon Cables, and Daughter Cards
Course 4: EMC and ESD Protection Components
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Resistor
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Capacitor
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Inductor
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Ferrite Bead
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Common Mode Choke
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Gas Discharge Tube
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Solid Discharge Tube
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TVS(Transient Voltage Suppressor)
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Varistor
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PTCs (Positive Temperature Coefficient Thermistors)