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PCB/PCBA knowledge
What EMI Shielding Is And How To Select Appropriate Materials

When making a PCB, it needs to be protected against electromagnetic interference. The effect of EMI can disrupt the overall functionalities of a PCB, causing it to fail. Therefore, PCB makers take a lot of precautionary actions to ensure proper EMI shielding during PCB manufacturing.

In this article, you’ll go through all the important details related to PCB EMI shielding and understand its importance in the electronics industry.

Table of Contents

What’s EMI Shielding?

When a PCB is active, electromagnetic interference causes disrupted functionalities of that PCB. Therefore, it needs a protective layer from outside electromagnetic interference, which is called EMI shielding. This EMI shield is like a laminated barrier that’s made of EMI shielding materials. Depending on the EMI intensity and the quality of EMI shielding on the PCB, the PCB can be protected from the interference.

Also read: PCB Shielding – type, material and purpose

Benefits of EMI Shielding

●There are tons of waves in the atmosphere that can damage your PCB. But, with EMI shielding, your PCB will stay absolutely protected from outside interference that’s not just about electromagnetic waves.
●Due to reduced interference and minimized noise, your PCB will show better signal integrity.
●The layer of EMI shielding will help your PCB stay protected from unauthorized access too. Believe it or not, but hackers will stay away from accessing your PCB if it has an EMI shielding.
●There are a few industries, such as aerospace, telecom, etc., that mandatorily demands EMI shielded PCBs. If your PCB has an EMI shielding, it’ll pass the compliance requirements in the given industry (if applicable).

Types of EMI Shielding

1.Conductive shielding: For this shielding, your PCB manufacturer will probably use a material with high electrical conductivity. In most cases, they use metal coatings that absorb electromagnetic waves.
2.Magnetic shielding: To set up a magnetic shielding, the PCB maker will use a material that has the capability to absorb magnetic fields. But this technique is fine only for low-frequency magnetic interferences.
3.Electric field shielding: In order to create an electric field shielding, the PCB maker uses dielectric materials like ceramics, polymers, etc. that can absorb electric fields.
4.Gaskets and seals: A product like a gasket or a seal can be used that’s made of metals and/or foam. They’re efficient in blocking EMI to a high extent.

What Causes Electromagnetic Interference?

  • RFI
    Radio Frequency Interference is caused by radio transmitters, cell phone networks, wireless devices, broadcasting stations, and any other hardware that can emit radio frequencies.
  • Natural Sources
    There are some natural activities and sources that can create some sort of EMI. For instance, cosmic radiation, solar activities, lightning, etc.
  • Crosstalk
    Complex electronic devices and gadgets tend to have crosstalk. The reason why crosstalk happens in them is a totally different scenario, but the fact is that they cause an EMI in the PCBs.

Applications of EMI Shielding

  • Telecommunication Sector
    All the devices that can communicate need an EMI shielding. Some devices include smartphones, tablets, laptops, and most of the consumer electronics nowadays.
  • Aerospace
    Aerospace industry uses aircrafts and other heavy equipment that operate in a heavily challenging environment. If their PCBs fail due to EMI, it’ll cause major chaos.
  • Medical Devices
    Medical devices are used to save lives. It cannot be borne if these devices fail at the most critical moments due to a lack of EMI shielding. There’s no way that companies can make medical devices with a PCB that lacks EMI shielding.

Common Materials For EMI Shielding

●Conductive paints and coatings are made by suspending metal and carbon particles in a liquid medium. They’re then painted and coated to create an EMI shield.
●There are a few ferrite materials, such as iron oxide that’s mixed with other elements to generate a highly magnetic permeable material.
●Metalized plastics is a new concept, where scientists have managed to add a very thin layer of metal coating (like aluminum) on non-conductive elements, most probably plastic.
●Conductive fabrics are made by weaving a simple fabric with some metal fibers. Then they’re coated with a metal shield that results in an EMI shielding fabric.

How Does EMI Shielding Work?

How Does EMI Shielding Work
How Does EMI Shielding Work
  • Reflection
    In case the PCB has a conductive metal layer acting as an EMI shield, the EMI waves will collide with it and a part of that waves will get reflected. The amount of reflection depends on the wave’s intensity and the shield’s thickness.
  • Absorption
    Some conductive metal fibers are used to absorb the EMI waves. Such types of shields can absorb the EMI waves completely, keeping the PCB safe. The absorbed waves are converted into heat.
  • Redirection
    Some EMI shields can redirect the incoming EMI waves into a given direction. This process is different from reflection, since redirection gives an alternate path to the waves, away from the PCB, while reflection will cause the waves to scatter in random directions.
  • Grounding
    Through grounding, the EMI shield stays connected to the ground or earth. When the EMI waves collide, they’re sent to the ground through a dedicated channel. This way, the EMI waves are safely reverted to the ground, completely neutralizing them.

How To Reduce Electromagnetic Interference?

●Sufficient grounding: It’s very important to have a proper grounding channel, so that the EMI waves can be kept sending to the earth. You never know when and how much EMI interference will be there.
●Housing and enclosures: The housing and enclosures of a PCB are very helpful in keeping it safe from EMI. However, you might not be able to ensure a total protection of your PCB against EMI waves, but still, they’re very effective.
●Tweak your PCB design: Interestingly, your PCB maker can use a tweak in its PCB design such as adding decoupling capacitors, so that it can be protected from EMI to some extent.

Key Takeaways

Now that you’ve understood the in-depth details of EMI shielding, you’re probably ready to ask your PCB maker to implement EMI shielding in your PCBs.

The next time you have a word with your PCB supplier, ask them if they’re using EMI shielding or not. However, if you’re working with IBE Electronics, you don’t have to worry about EMI shielding. That’s because IBE Electronics takes care of EMI shielding. IBE Electronics excels at implementing proper EMI shielding, so that it can deliver high-quality PCBs.

FAQ
  • RFI
    Radio Frequency Interference is caused by radio transmitters, cell phone networks, wireless devices, broadcasting stations, and any other hardware that can emit radio frequencies.
  • Natural Sources
    There are some natural activities and sources that can create some sort of EMI. For instance,cosmic radiation, solar activities, lightning, etc.
  • Crosstalk
    Complex electronic devices and gadgets tend to have crosstalk. The reason why crosstalk happens in them is a totally different scenario, but the fact is that they cause an EMI in the PCBs.

●Conductive paints and coatings are made by suspending metal and carbon particles in a liquid medium. They’re then painted and coated to create an EMI shield.
●There are a few ferrite materials, such as iron oxide that’s mixed with other elements to generate a highly magnetic permeable material.
●Metalized plastics is a new concept, where scientists have managed to add a very thin layer of metal coating (like aluminum) on non-conductive elements, most probably plastic.
●Conductive fabrics are made by weaving a simple fabric with some metal fibers. Then they’re coated with a metal shield that results in an EMI shielding fabric.

●Sufficient grounding
●Housing and enclosures
●Tweak your PCB design

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Author

Bella

Hi, I am Bella, a professional PCB and PCBA related field content creator. Since I graduated, I have dedicated myself to PCB and worked with PCB engineers to complete various PCB and PCBA design and manufacturing projects. Based on the electronic knowledge accumulated as a PCB engineer for more than 5 years, I am now mainly responsible for writing content about PCB and PCBA by sharing some skills and views. If you have any ideas and demands about electronics, especially about PCB, you can feel free to leave your messages on our comment section and I would like to share my views and suggestions with you.

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