Why Most Engineers Get EMC Wrong — And the Principle That Fixes It
Current doesn't follow the path of least resistance at EMC frequencies. Understanding this single principle prevents most EMC design failures.
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Practical engineering insights on grounding, shielding, and PCB layout — based on Dr. Van Doren's curriculum
5 PCB Layout Mistakes That Cause EMC Failures
Split ground planes, long traces without references, edge components — the 5 most common PCB layout errors that cause products to fail EMC testing.
Read article →Grounding vs. Shielding: When to Use Which for EMC
Grounding and shielding are complementary, not interchangeable. A practical guide to choosing the right approach for your EMC challenge.
Read article →Designing for EMC Compliance: The Systematic Approach That Prevents Failures
80% of EMC issues are designed in, then discovered at testing. Learn the systematic approach that prevents failures before they reach the test lab.
Read article →EMC Training ROI: Why Prevention Costs 10x Less Than Redesign
A single EMC failure costs $25K-$75K. Training your team costs a fraction. The math for engineering managers.
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