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EMC And Electronic Enclosure Design

RFI/EMI screening is a discipline that is of interest to both the electronic engineer and the enclosure design engineer. The electronic engineer must take EMC into account when designing PC boards by careful layout, using PCB shielding cans, paying attention to wiring runs, use of filters and ferrites etc. This can eliminate the majority of EMI emissions. However circuit design and layout may not be sufficient to attenuate emissions to the required levels and shielding of the enclosure may be ne

This is where the enclosure design engineer is required to design the enclosure with sufficient thought to using screening gaskets at joint interfaces.  Although his brief may be to make the enclosure as small as possible, if this is not taken into consideration early on then this can result in an enclosure with no landed area on which to place a screening gasket. This would require very expensive redesign or the use of more complex and expensive gasket materials and configurations.

Enclosures can be made of any material provided it is conductive, metallic enclosures have this characteristic, however all plastic enclosures need to be made conductive by applying a conductive coating to the surface.  This can be done using conductive paints, electroplating or vacuum metallization.

Screened enclosures are rarely a simple case of a closed box design and may have openings for optical displays, ventilation and cable entry.  All these areas may have to be screened:
  • Optical displays with the use of a screened optical window which can be made by using fine wire meshes laminated in glass or clear plastic such as acrylic or polycarbonate or conductive clear coatings on the substrate such as indium tin oxide. 
  • Enclosure ventilation can be screened using simple pierced or expanded metal in low performance applications or with the use of honeycomb ventilation panels made of aluminium or steel in higher performance applications.   
  • Cable entry into a screened enclosure needs to have the cable screening bonded to the conductive surface of the enclosure through a screened cable entry gland or screened connector.  

Flange/gasket design and considerations
The design requirements for a gasket joint in a screened enclosure are primarily that there must be good electrical conductivity between opposing flanges through the gasket.  Poor conductivity between the flange and the gasket will result in poor screening and if in areas there is no contact with the gasket this can result in a gap which could possibly act as a slot antenna. 

Surface mounted gaskets

With surface mounted knitted wire mesh and elastomeric gaskets, aim to compress the gasket between 10% and 50%, 10% being the minimum with a solid conductive silicon style of gasket and up to 50% with a hollow tubular or cellular style. 
Some form of compression stop or limit is essential with surface mounted gaskets to eliminate the possibility of over compression.  These compression stops can be built into many styles of gaskets or made as an integral part of the flange and their height should be equal to that of the maximum compressed height of the gasket.
Conductive fabric over foam and beryllium copper fingers can be compressed further than mesh and elastomeric gaskets but lack the benefits of environmental sealing.
Very small land widths can be gasketed with a “form in place” conductive elastomer bead deposited directly to the gasket surface. This technology is widely used in mobile telephone handsets.

Gaskets in grooves

For the typical electronic box, groove mounted gaskets are better than surface mounted gaskets as when the gasket is compressed in the groove the two mating flanges can come into contact with each other thereby enhancing the screening performance. The groove also acts as a compression stop, thus protecting the gasket. 

Most types of gaskets can be fitted into grooves, however a solid conductive elastomer gasket when compression forces are applied cannot change volume and has to deflect, and therefore the groove needs to be the same volume or more as the gasket to let the gasket material fill the space provided for it. If the gasket overfills the groove, damage and gasket failure can occur when the mating flanges are closed together.


An EMC gasket that is placed between two conductive surfaces is generally of a different material to the mating surfaces. In certain conditions this can lead to severe problems of bimetallic galvanic corrosion and degradation in shielding effectiveness. There are two ways of reducing the corrosion risk. One is to use a separate non conductive environmental seal outboard of the EMC seal therefore isolating the joint from the environment.  This would allow the use of materials that would otherwise be unsuitably matched.  However limitations on flange widths and the increased cost of using two gaskets can make this impractical.
A far better method is to try and match as near as possible the material of the gasket and the flanges thus reducing the electro potential difference between them.

Kemtron offer a complete service offering a complete range of EMC gaskets and components for enclosures and PCB’s

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