Types of EMI gaskets and their applications

By abbas 4 Min Read

Electromagnetic interference (EMI) can cause serious damage to electronic equipment, including data corruption, signal degradation, and even total system failure. EMI gaskets provide a reliable and cost-effective solution to this problem by shielding electronic devices from electromagnetic interference. EMI gaskets are made from various materials such as conductive elastomers, metals, and conductive coatings. In this article, we will discuss the different types of EMI gaskets and their applications.

Types of EMI Gaskets:

  1. Conductive Elastomer Gaskets: These gaskets are made from a mixture of conductive particles such as nickel, silver, or graphite, and an elastomeric binder such as silicone or neoprene. Conductive elastomer gaskets provide excellent EMI shielding effectiveness, and their flexibility makes them suitable for use in applications where vibration, shock, and movement are present. These gaskets are commonly used in aerospace, defense, and automotive industries.
  2. Metal Gaskets: Metal gaskets are made from metals such as copper, aluminum, or stainless steel. They provide high EMI shielding effectiveness, and their durability and longevity make them suitable for use in harsh environments. Metal gaskets are commonly used in military and aerospace applications, where high reliability and long service life are critical.
  3. Conductive Coating Gaskets: Conductive coating gaskets are made by applying a conductive coating such as silver, copper, or nickel onto a substrate material such as plastic or metal. Conductive coating gaskets are lightweight, flexible, and cost-effective, making them suitable for use in consumer electronics and telecommunications applications.
  4. Wire Mesh Gaskets: Wire mesh gaskets are made from woven or knitted wire mesh, which provides a conductive barrier to electromagnetic interference. Wire mesh gaskets are lightweight and have excellent EMI shielding effectiveness. They are commonly used in military and aerospace applications, as well as in medical devices and telecommunications equipment.
  5. Fabric-over-foam Gaskets: Fabric-over-foam gaskets consist of a conductive foam core that is coated with a conductive fabric. These gaskets provide excellent EMI shielding effectiveness and are flexible and lightweight. They are commonly used in consumer electronics and telecommunications applications.

Applications of EMI Gaskets:

  1. Aerospace and Defense: EMI gaskets are widely used in aerospace and defense applications to shield electronic equipment from electromagnetic interference. These applications include military and civilian aircraft, spacecraft, and ground-based communications systems.
  2. Automotive: EMI gaskets are used in the automotive industry to shield electronic systems from interference caused by sources such as radio waves, power lines, and other electrical devices. These applications include electronic control units, infotainment systems, and safety systems.
  3. Medical Devices: EMI gaskets are used in medical devices such as diagnostic equipment, monitoring systems, and implantable devices. These applications require high reliability and safety, and EMI gaskets provide a cost-effective solution to ensure proper operation.
  4. Telecommunications: EMI gaskets are used in telecommunications equipment such as cell phones, routers, and modems. These applications require lightweight and flexible gaskets that provide high EMI shielding effectiveness.
  5. Consumer Electronics: EMI gaskets are used in consumer electronics such as laptops, tablets, and televisions. These applications require cost-effective gaskets that provide adequate EMI shielding without adding significant weight or bulk.

Conclusion: EMI gaskets provide a reliable and cost-effective solution to protect electronic equipment from electromagnetic interference. The different types of EMI gaskets include conductive elastomer gaskets, metal gaskets, conductive coating gaskets, wire mesh gaskets, and fabric-over-foam gaskets.

TAGGED: ,
Share This Article
Exit mobile version