Providing EMC Solutions for mmWave and Multi-Gigabit Applications in a Variety of Use Cases

    • Author: Alan Kinningham , Adam Nagao , Travis Amrine
    Providing EMC Solutions for mmWave and Multi-Gigabit Applications in a Variety of Use Cases

    Complying with FCC limits for radiated emissions has long been an increasingly difficult challenge for designers of digital systems. Selecting the right component in the hopes of meeting a final FCC system test, for radiated emissions, has perplexed system design engineers for decades. The study of Radiated Electric Field Pattern simulations, often used for antenna analysis, is employed herein to evaluate the radiation properties of individual components across a family of low-cost, high-performance interconnects. Various techniques are evaluated to improve the shielding performance of the interconnect components.

    Providing EMC Solutions for mmWave and Multi-Gigabit Applications in a Variety of Use Cases

    Complying with FCC limits for radiated emissions has long been an increasingly difficult challenge for designers of digital systems. Selecting the right component in the hopes of meeting a final FCC system test, for radiated emissions, has perplexed system design engineers for decades. The study of Radiated Electric Field Pattern simulations, often used for antenna analysis, is employed herein to evaluate the radiation properties of individual components across a family of low-cost, high-performance interconnects. Various techniques are evaluated to improve the shielding performance of the interconnect components.

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