Deciding whether to ground a cable shield at one end, both ends, or via hybrid configurations depending on the frequency of operation.
In the world of high-speed digital design and complex electronic systems, electromagnetic interference (EMI) is a constant, invisible adversary. An otherwise brilliant circuit design can be rendered completely useless if it fails compliance testing or disrupts neighboring electronics. When engineers need a definitive blueprint to navigate these challenges, they turn to one foundational text: Electromagnetic Compatibility Engineering by Henry W. Ott.
It covers everything from tiny chips to giant cables. Core Topics Covered in the Book Deciding whether to ground a cable shield at
Ott provides a deep dive into proper grounding techniques, often highlighting common misconceptions that lead to design failures.
: Cabling, grounding, filtering, and shielding. When engineers need a definitive blueprint to navigate
Henry W. Ott’s "Electromagnetic Compatibility Engineering" (2009) serves as a comprehensive guide to modern EMC design, updating traditional noise reduction techniques for high-speed, mixed-signal systems. The text emphasizes practical, cost-effective design by focusing on cable coupling, grounding, shielding, and PCB layout to meet regulatory standards. Learn more at Henry Ott Consultants . Electromagnetic Compatibility Engineering - Henry Ott
Precompliance EMC measurement techniques and performance criteria. Practical Features Electromagnetic Compatibility Engineering - Wiley Core Topics Covered in the Book Ott provides
The book "Electromagnetic Compatibility Engineering" by Henry W. Ott is widely available in print and digital formats. Readers can find the book on online retailers such as:
This is the mechanical engineer’s section. You learn about transfer impedance, absorption loss, reflection loss, and how to specify ferrite beads, feedthrough capacitors, and common-mode chokes. Ott provides actual math to predict filter performance without relying on simulation "black boxes."
: Spans from audio frequencies to the GHz range, applicable to consumer, medical, and aerospace systems.
It uses simple diagrams to show how fields move.